OptiX RTN 950 Radio Transmission SystemV100R003C03
IDU Hardware Description
Issue 01
Date 2011-10-30
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2011. All rights reserved.No part of this document may be reproduced or transmitted in any form or by any means without prior writtenconsent of Huawei Technologies Co., Ltd. Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.All other trademarks and trade names mentioned in this document are the property of their respective holders. NoticeThe purchased products, services and features are stipulated by the contract made between Huawei and thecustomer. All or part of the products, services and features described in this document may not be within thepurchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information,and recommendations in this document are provided "AS IS" without warranties, guarantees or representationsof any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in thepreparation of this document to ensure accuracy of the contents, but all statements, information, andrecommendations in this document do not constitute the warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.Address: Huawei Industrial Base
Bantian, LonggangShenzhen 518129People's Republic of China
Website: http://www.huawei.com
Email: [email protected]
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
i
About This Document
Related VersionsThe following table lists the product versions related to this document.
Product Name Version
OptiX RTN 950 V100R003C03
iManager U2000 V100R006C00
Intended AudienceThis document is intended for:
l Network planning engineerl Hardware installation engineerl Installation and commissioning engineerl Field maintenance engineerl Data configuration engineerl System maintenance engineer
Before reading this document, you need to be familiar with the following:
l Basics of digital microwave communicationl Basics of the OptiX RTN 950
Symbol ConventionsThe symbols that may be found in this document are defined as follows.
Symbol Description
Indicates a hazard with a high level of risk,which if not avoided, will result in death orserious injury.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description About This Document
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
ii
Symbol Description
Indicates a hazard with a medium or low levelof risk, which if not avoided, could result inminor or moderate injury.
Indicates a potentially hazardous situation,which if not avoided, could result inequipment damage, data loss, performancedegradation, or unexpected results.
Indicates a tip that may help you solve aproblem or save time.
Provides additional information to emphasizeor supplement important points of the maintext.
General ConventionsThe general conventions that may be found in this document are defined as follows.
Convention Description
Times New Roman Normal paragraphs are in Times New Roman.
Boldface Names of files, directories, folders, and users are inboldface. For example, log in as user root.
Italic Book titles are in italics.
Courier New Examples of information displayed on the screen are inCourier New.
Command ConventionsThe command conventions that may be found in this document are defined as follows.
Convention Description
Boldface The keywords of a command line are in boldface.
Italic Command arguments are in italics.
[ ] Items (keywords or arguments) in brackets [ ] are optional.
{ x | y | ... } Optional items are grouped in braces and separated byvertical bars. One item is selected.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description About This Document
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
iii
Convention Description
[ x | y | ... ] Optional items are grouped in brackets and separated byvertical bars. One item is selected or no item is selected.
{ x | y | ... }* Optional items are grouped in braces and separated byvertical bars. A minimum of one item or a maximum of allitems can be selected.
[ x | y | ... ]* Optional items are grouped in brackets and separated byvertical bars. Several items or no item can be selected.
GUI ConventionsThe GUI conventions that may be found in this document are defined as follows.
Convention Description
Boldface Buttons, menus, parameters, tabs, window, and dialog titlesare in boldface. For example, click OK.
> Multi-level menus are in boldface and separated by the ">"signs. For example, choose File > Create > Folder.
Update HistoryUpdates between document issues are cumulative. Thus, the latest document issue contains allupdates made in previous issues.
Updates in Issue 01 (2011-10-30) Based on Product Version V100R003C03This document is the first issue for the V100R003C03 product version.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description About This Document
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
iv
Contents
About This Document.....................................................................................................................ii
1 Introduction....................................................................................................................................11.1 Network Application..........................................................................................................................................21.2 Components........................................................................................................................................................31.3 Radio Link Types...............................................................................................................................................7
2 Chassis.............................................................................................................................................82.1 Chassis Structure................................................................................................................................................92.2 Installation Mode................................................................................................................................................92.3 Air Flow..............................................................................................................................................................92.4 IDU Labels.......................................................................................................................................................10
3 Boards............................................................................................................................................133.1 Board Appearance............................................................................................................................................153.2 Board List.........................................................................................................................................................163.3 CST...................................................................................................................................................................19
3.3.1 Version Description.................................................................................................................................193.3.2 Functions and Features............................................................................................................................193.3.3 Working Principle....................................................................................................................................213.3.4 Front Panel...............................................................................................................................................233.3.5 DIP Switches and CF Card......................................................................................................................293.3.6 Valid Slots...............................................................................................................................................303.3.7 Board Parameter Settings........................................................................................................................313.3.8 Technical Specifications..........................................................................................................................32
3.4 CSH..................................................................................................................................................................333.4.1 Version Description.................................................................................................................................333.4.2 Working Principle....................................................................................................................................333.4.3 Front Panel...............................................................................................................................................363.4.4 DIP Switches and CF Card......................................................................................................................423.4.5 Valid Slots...............................................................................................................................................443.4.6 Board Parameter Settings........................................................................................................................453.4.7 Technical Specifications..........................................................................................................................45
3.5 IF1.....................................................................................................................................................................463.5.1 Version Description.................................................................................................................................47
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
v
3.5.2 Functions and Features............................................................................................................................473.5.3 Working Principle and Signal Flow........................................................................................................483.5.4 Front Panel...............................................................................................................................................533.5.5 Valid Slots...............................................................................................................................................553.5.6 Board Parameter Settings........................................................................................................................563.5.7 Technical Specifications..........................................................................................................................56
3.6 IFU2..................................................................................................................................................................583.6.1 Version Description.................................................................................................................................583.6.2 Functions and Features............................................................................................................................583.6.3 Working Principle and Signal Flow........................................................................................................603.6.4 Front Panel...............................................................................................................................................643.6.5 Valid Slots...............................................................................................................................................663.6.6 Board Parameter Settings........................................................................................................................673.6.7 Technical Specifications..........................................................................................................................67
3.7 IFX2..................................................................................................................................................................693.7.1 Version Description.................................................................................................................................693.7.2 Functions and Features............................................................................................................................703.7.3 Working Principle and Signal Flow........................................................................................................723.7.4 Front Panel...............................................................................................................................................763.7.5 Valid Slots...............................................................................................................................................783.7.6 Board Parameter Settings........................................................................................................................793.7.7 Technical Specifications..........................................................................................................................80
3.8 ISU2..................................................................................................................................................................823.8.1 Version Description.................................................................................................................................823.8.2 Functions and Features............................................................................................................................823.8.3 Working Principle and Signal Flow........................................................................................................853.8.4 Front Panel...............................................................................................................................................893.8.5 Valid Slots...............................................................................................................................................913.8.6 Board Parameter Settings........................................................................................................................923.8.7 Technical Specifications..........................................................................................................................92
3.9 ISX2..................................................................................................................................................................963.9.1 Version Description.................................................................................................................................963.9.2 Functions and Features............................................................................................................................963.9.3 Working Principle and Signal Flow........................................................................................................993.9.4 Front Panel.............................................................................................................................................1033.9.5 Valid Slots.............................................................................................................................................1063.9.6 Board Parameter Settings......................................................................................................................1073.9.7 Technical Specifications........................................................................................................................107
3.10 EM6T/EM6TA/EM6F/EM6FA....................................................................................................................1123.10.1 Version Description.............................................................................................................................1123.10.2 Functions and Features........................................................................................................................1123.10.3 Working Principle and Signal Flow....................................................................................................116
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
vi
3.10.4 Front Panel...........................................................................................................................................1193.10.5 Valid Slots...........................................................................................................................................1253.10.6 Types of SFP Modules........................................................................................................................1263.10.7 Board Parameter Settings....................................................................................................................1283.10.8 Technical Specifications......................................................................................................................128
3.11 EMS6............................................................................................................................................................1343.11.1 Version Description.............................................................................................................................1343.11.2 Functions and Features........................................................................................................................1343.11.3 Working Principle and Signal Flow....................................................................................................1383.11.4 Front Panel...........................................................................................................................................1413.11.5 Valid Slots...........................................................................................................................................1453.11.6 Types of SFP Modules........................................................................................................................1463.11.7 Board Parameter Settings....................................................................................................................1473.11.8 Technical Specifications......................................................................................................................147
3.12 EFP8.............................................................................................................................................................1503.12.1 Version Description.............................................................................................................................1503.12.2 Functions and Features........................................................................................................................1503.12.3 Working Principle and Signal Flow....................................................................................................1533.12.4 Front Panel...........................................................................................................................................1563.12.5 Valid Slots...........................................................................................................................................1593.12.6 Board Parameter Settings....................................................................................................................1593.12.7 Technical Specifications......................................................................................................................160
3.13 SL1D/SL1DA...............................................................................................................................................1603.13.1 Version Description.............................................................................................................................1613.13.2 Functions and Features........................................................................................................................1613.13.3 Working Principle and Signal Flow....................................................................................................1623.13.4 Front Panel...........................................................................................................................................1653.13.5 Valid Slots...........................................................................................................................................1673.13.6 Board Feature Code.............................................................................................................................1683.13.7 Board Parameter Settings....................................................................................................................1683.13.8 Technical Specifications......................................................................................................................168
3.14 ML1/MD1.....................................................................................................................................................1703.14.1 Version Description.............................................................................................................................1703.14.2 Functions and Features........................................................................................................................1703.14.3 Working Principle and Signal Flow....................................................................................................1723.14.4 Front Panel...........................................................................................................................................1753.14.5 Valid Slots...........................................................................................................................................1783.14.6 Board Feature Code.............................................................................................................................1793.14.7 Board Parameter Settings....................................................................................................................1793.14.8 Technical Specifications......................................................................................................................180
3.15 SP3S/SP3D...................................................................................................................................................1803.15.1 Version Description.............................................................................................................................180
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
vii
3.15.2 Functions and Features........................................................................................................................1813.15.3 Working Principle and Signal Flow....................................................................................................1813.15.4 Front Panel...........................................................................................................................................1843.15.5 Valid Slots...........................................................................................................................................1883.15.6 Board Feature Code.............................................................................................................................1893.15.7 Board Parameter Settings....................................................................................................................1893.15.8 Technical Specifications......................................................................................................................190
3.16 AUX..............................................................................................................................................................1903.16.1 Version Description.............................................................................................................................1913.16.2 Functions and Features........................................................................................................................1913.16.3 Working Principle................................................................................................................................1913.16.4 Front Panel...........................................................................................................................................1923.16.5 Valid Slots...........................................................................................................................................1953.16.6 Technical Specifications......................................................................................................................196
3.17 PIU................................................................................................................................................................1973.17.1 Version Description.............................................................................................................................1973.17.2 Functions and Features........................................................................................................................1973.17.3 Working Principle................................................................................................................................1983.17.4 Front Panel...........................................................................................................................................1993.17.5 Valid Slots...........................................................................................................................................2003.17.6 Technical Specifications......................................................................................................................201
3.18 FAN..............................................................................................................................................................2013.18.1 Version Description.............................................................................................................................2013.18.2 Functions and Features........................................................................................................................2013.18.3 Working Principle................................................................................................................................2023.18.4 Front Panel...........................................................................................................................................2033.18.5 Valid Slots...........................................................................................................................................2053.18.6 Technical Specifications......................................................................................................................205
3.19 TCU6............................................................................................................................................................2053.19.1 Version Description.............................................................................................................................2063.19.2 Functions and Features........................................................................................................................2063.19.3 Front Panel...........................................................................................................................................2063.19.4 Valid Slots...........................................................................................................................................2093.19.5 Technical Specifications......................................................................................................................209
4 Accessories..................................................................................................................................2104.1 E1 Panel..........................................................................................................................................................2114.2 PDU................................................................................................................................................................213
4.2.1 Front Panel.............................................................................................................................................2134.2.2 Functions and Working Principle..........................................................................................................2144.2.3 Power Distribution Mode......................................................................................................................215
5 Cables...........................................................................................................................................2175.1 Power Cable....................................................................................................................................................219
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
viii
5.2 PGND Cable...................................................................................................................................................2195.2.1 IDU PGND Cable..................................................................................................................................2195.2.2 E1 Panel PGND Cable...........................................................................................................................220
5.3 IF Jumper........................................................................................................................................................2215.4 XPIC Cable.....................................................................................................................................................2225.5 Fiber Jumper...................................................................................................................................................2235.6 STM-1 Cable..................................................................................................................................................2255.7 E1 Cables........................................................................................................................................................226
5.7.1 E1 Cable Connected to the External Equipment...................................................................................2265.7.2 E1 Cable Connected to the E1 Panel.....................................................................................................2305.7.3 E1 Transit Cable Terminated with an Anea 96 Connector and a DB44 Connector..............................232
5.8 Orderwire Cable.............................................................................................................................................2345.9 Network Cable................................................................................................................................................234
A Parameters Description...........................................................................................................238A.1 Parameters for Network Management...........................................................................................................239
A.1.1 Parameters for NE Management...........................................................................................................239A.1.1.1 Parameter Description: NE Searching.........................................................................................239A.1.1.2 Parameter Description: NE Creation...........................................................................................244A.1.1.3 Parameter Description: Attribute_Changing NE IDs..................................................................246A.1.1.4 Parameter Description: NE Time Synchronization.....................................................................247A.1.1.5 Parameter Description: Localization Management of the NE Time............................................250A.1.1.6 Parameter Description: Standard NTP Key Management...........................................................251A.1.1.7 Parameter Description: License Management.............................................................................252A.1.1.8 Parameter Description: Automatic Disabling of the Functions of NEs.......................................253
A.1.2 Parameters for Communications Management.....................................................................................254A.1.2.1 Parameter Description: NE Communication Parameter Setting..................................................254A.1.2.2 Parameter Description: DCC Management_DCC Rate Configuration.......................................255A.1.2.3 Parameter Description: DCC Management_DCC Transparent Transmission Management.......257A.1.2.4 Parameter Description: ECC Management_Ethernet Port Extended ECC..................................259A.1.2.5 Parameter Description: NE ECC Link Management...................................................................260A.1.2.6 Parameter Description: ECC Link Management_Availability Test............................................261A.1.2.7 Parameter Description: IP Protocol Stack Management_IP Route Management........................263A.1.2.8 Parameter Description: IP Protocol Stack Management_IP Route Management Creation.........264A.1.2.9 Parameter Description: IP Protocol Stack Management_Availability Test.................................265A.1.2.10 Parameter Description: IP Protocol Stack Management_OSPF Parameter Settings.................266A.1.2.11 Parameter Description: IP Protocol Stack_Proxy ARP.............................................................271A.1.2.12 Parameter Description: Management of Multiple OSPF Areas.................................................272A.1.2.13 Parameter Description: Management of Multiple OSPF Areas_Adding OSPF Areas..............273A.1.2.14 Parameter Description: Management of Multiple OSPF Areas_Adding Routes to Be ManuallyAggregated................................................................................................................................................274A.1.2.15 Parameter Description: Port OSPF Setting................................................................................275A.1.2.16 Parameter Description: OSI Management_Network Layer Parameter......................................275
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
ix
A.1.2.17 Parameter Description: OSI Management_Routing Table........................................................276A.1.2.18 Parameter Description: OSI Management_OSI Tunnel............................................................277A.1.2.19 Parameter Description: OSI Management_OSI Port Parameters..............................................281A.1.2.20 Parameter Description: DCN Management_Bandwidth Management......................................282A.1.2.21 Parameter Description: DCN Management_Port Setting..........................................................283A.1.2.22 Parameter Description: DCN Management_Access Control.....................................................283A.1.2.23 Parameter Description: DCN Management_Packet Control.....................................................284A.1.2.24 Parameter Description: L2 DCN Management..........................................................................285A.1.2.25 Parameter Description: Access Control.....................................................................................286
A.1.3 Parameters for Network Security Management....................................................................................287A.1.3.1 Parameter Description: NE User Management............................................................................287A.1.3.2 Parameter Description: NE User Management_Creation............................................................287A.1.3.3 Parameter Description: LCT Access Control..............................................................................290A.1.3.4 Parameter Description: RADIUS Configuration_Creation.........................................................291A.1.3.5 Parameter Description: RADIUS Configuration_RADIUS Server.............................................292A.1.3.6 Parameter Description: Enabling/Disabling the RADIUS Function...........................................293
A.2 Radio Link Parameters..................................................................................................................................294A.2.1 Parameter Description: Link Configuration_XPIC Workgroup_Creation...........................................294A.2.2 Parameter Description: Link Configuration_XPIC..............................................................................299A.2.3 Parameter Description: N+1 Protection_Create...................................................................................306A.2.4 Parameter Description: N+1 Protection................................................................................................307A.2.5 Parameter Description: IF 1+1 Protection_Create................................................................................309A.2.6 Parameter Description: IF 1+1 Protection............................................................................................312A.2.7 Parameter Description: Link Configuration_Creating a PLA Group...................................................316A.2.8 Parameter Description: Link Configuration_PLA................................................................................316A.2.9 Parameter: Link Configuration_IF/ODU Configuration......................................................................317
A.3 Multiplex Section Protection Parameters......................................................................................................327A.3.1 Parameter Description: Linear MSP_Creation.....................................................................................327A.3.2 Parameter Description: Linear MSP.....................................................................................................331
A.4 SDH/PDH Service Parameters......................................................................................................................335A.4.1 Parameter Description: SDH Service Configuration_Creation............................................................335A.4.2 Parameter Description: SDH Service Configuration_SNCP Service Creation....................................337A.4.3 Parameter Description: SDH Service Configuration_Converting Normal Services Into SNCP Services........................................................................................................................................................................341A.4.4 Parameter Description: SDH Service Configuration............................................................................345A.4.5 Parameter Description: SNCP Service Control....................................................................................347A.4.6 Parameter Description: TU_AIS Insertion...........................................................................................350
A.5 Parameters for Board Interfaces....................................................................................................................351A.5.1 PDH Port Parameters............................................................................................................................351
A.5.1.1 Parameter Description: PDH Ports_Basic Attributes..................................................................351A.5.1.2 Parameter Description: PDH Ports_Advanced Attributes...........................................................352
A.5.2 Parameters for the Ports on Ethernet Boards........................................................................................356A.5.2.1 Parameter Description: Ethernet Interface_Basic Attributes.......................................................356
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
x
A.5.2.2 Parameter Description: Ethernet Interface_Flow Control...........................................................360A.5.2.3 Parameter Description: Ethernet Interface_Layer 2 Attributes...................................................362A.5.2.4 Parameter Description: Ethernet Port_Layer 3 Attributes...........................................................365A.5.2.5 Parameter Description: Ethernet Interface_Advanced Attributes...............................................366
A.5.3 Serial Port Parameters...........................................................................................................................369A.5.3.1 Parameter Description: Serial Port_Basic Attributes..................................................................369A.5.3.2 Parameter Description: Serial Port_Creation of Serial Ports.......................................................370
A.5.4 Microwave Interface Parameters..........................................................................................................371A.5.4.1 Parameter Description: Microwave Interface_Basic Attributes..................................................371A.5.4.2 Parameter Description: Microwave Interface_Layer 2 Attributes...............................................372A.5.4.3 Parameter Description: Microwave Interface_Layer 3 Attributes...............................................374A.5.4.4 Parameter Description: Microwave Interface_Advanced Attributes...........................................376
A.5.5 IF Board Parameters.............................................................................................................................379A.5.5.1 Parameter Description: IF Interface_IF Attribute........................................................................379A.5.5.2 Parameter Description: IF Interface_ATPC Attribute.................................................................387A.5.5.3 Parameter Description: Hybrid_AM Configuration_Advanced Attributes.................................389A.5.5.4 Parameter Description: ATPC Adjustment Records...................................................................390A.5.5.5 Parameter Description: PRBS Test..............................................................................................391
A.5.6 ODU Parameters...................................................................................................................................392A.5.6.1 Parameter Description: ODU Interface_Radio Frequency Attribute...........................................392A.5.6.2 Parameter Description: ODU Interface_Power Attributes..........................................................393A.5.6.3 Parameter Description: ODU Interface_Equipment Information................................................397A.5.6.4 Parameter Description: ODU Interface_Advanced Attributes....................................................398
A.5.7 Parameters for SDH Interface Boards..................................................................................................399A.5.7.1 Parameter Description: SDH Interfaces.......................................................................................400A.5.7.2 Parameter Description: Automatic Laser Shutdown...................................................................401
A.5.8 Parameters for PDH Interface Boards..................................................................................................402A.5.8.1 Parameter Description: PDH Ports..............................................................................................402A.5.8.2 Parameter Description: PRBS Test..............................................................................................405
A.5.9 Parameters for Overhead......................................................................................................................406A.5.9.1 Parameter Description: Regenerator Section Overhead..............................................................406A.5.9.2 Parameter Description: VC-4 POHs............................................................................................407A.5.9.3 Parameter Description: VC-12 POHs..........................................................................................409
A.5.10 Parameter Description: Ethernet Virtual Interfaces............................................................................410A.6 Parameters for Ethernet Services and Ethernet Features on the Packet Plane...............................................413
A.6.1 Parameters for Ethernet Services..........................................................................................................413A.6.1.1 Parameter Description: E-Line Service_Creation........................................................................413A.6.1.2 Parameter Description: E-Line Service.......................................................................................434A.6.1.3 Parameter Description: VLAN Forwarding Table Items for E-Line Services_Creation.............445A.6.1.4 Parameter Description: E-LAN Service_Creation.......................................................................446A.6.1.5 Parameter Description: E-LAN Service......................................................................................452A.6.1.6 Parameter Description: QinQ Link_Creation..............................................................................463
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
xi
A.6.1.7 Parameter Description: E-AGGR Services_Creation..................................................................463A.6.1.8 Parameter Description: E-AGGR Services..................................................................................471
A.6.2 Parameters for Ethernet Protocols........................................................................................................476A.6.2.1 Parameter Description: ERPS Management_Creation................................................................476A.6.2.2 Parameter Description: ERPS Management................................................................................479A.6.2.3 Parameter Description: MSTP Configuration_Port Group Creation...........................................485A.6.2.4 Parameter Description: MSTP Configuration_Port Group Configuration..................................487A.6.2.5 Parameter Description: MSTP Configuration_ Bridge Parameters.............................................487A.6.2.6 Parameter Description: MSTP Configuration_CIST Parameters................................................493A.6.2.7 Parameter Description: MSTP Configuration_Running Information About the CIST...............495A.6.2.8 Parameter Description: Ethernet Link Aggregation Management_LAG Creation.....................503A.6.2.9 Parameter Description: Ethernet Link Aggregation_Link Aggregation......................................511A.6.2.10 Parameter Description: LPT Management_Point-to-Point LPT................................................512A.6.2.11 Parameter Description: LPT Management_Creating Point-to-Point LPT.................................514A.6.2.12 Parameter Description: LPT Management_Point-to-Multipoint LPT.......................................514A.6.2.13 Parameter Description: LPT Management_Creating Point-to-Multipoint LPT........................517
A.6.3 Parameters for the Ethernet OAM........................................................................................................521A.6.3.1 Parameter Description: Ethernet Service OAM Management_Maintenance Domain Creation..................................................................................................................................................................521A.6.3.2 Parameter Description: Ethernet Service OAM Management_Maintenance Association Creation..................................................................................................................................................................522A.6.3.3 Parameter Description: Ethernet Service OAM Management_MEP Creation............................523A.6.3.4 Parameter Description: Ethernet Service OAM Management_Remote MEP Creation..............524A.6.3.5 Parameter Description: Ethernet Service OAM Management_MIP Creation.............................525A.6.3.6 Parameter Description: Ethernet Service OAM Management_LB Enabling..............................526A.6.3.7 Parameter Description: Ethernet Service OAM Management_LT Enabling..............................527A.6.3.8 Parameter Description: Ethernet Service OAM_Enabling Service Loopback Detection............529A.6.3.9 Parameter Description: Ethernet Port OAM Management_OAM Parameter.............................530A.6.3.10 Parameter Description: Ethernet Port OAM Management_OAM Error Frame Monitoring..................................................................................................................................................................532
A.6.4 QoS Parameters....................................................................................................................................533A.6.4.1 Parameter Description: Diffserv Domain Management..............................................................533A.6.4.2 Parameter Description: DiffServ Domain Management_Create.................................................539A.6.4.3 Parameter Description: DiffServ Domain Applied Port_Modification.......................................546A.6.4.4 Parameter Description: Policy Management...............................................................................548A.6.4.5 Parameter Description: Port Policy.............................................................................................554A.6.4.6 Parameter Description: Port Policy_Traffic Classification Configuration..................................561A.6.4.7 Parameter Description: Port Shaping Management_Creation.....................................................572
A.7 Parameters for Ethernet Services and Ethernet Features on the EoS/EoPDH Plane.....................................574A.7.1 Parameters for Ethernet Services..........................................................................................................574
A.7.1.1 Parameter Description: Ethernet Line Service_Creation.............................................................574A.7.1.2 Parameter Description: Ethernet Line Service_Creating QinQ-Based Ethernet Line Services..................................................................................................................................................................578
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
xii
A.7.1.3 Parameter Description: Ethernet Line Service.............................................................................582A.7.1.4 Parameter Description: Ethernet LAN Service_Creation of Ethernet LAN Services Based on IEEE802.1d/802.1q Bridge...............................................................................................................................584A.7.1.5 Parameter Description: Ethernet LAN Service_Creating IEEE 802.1ad Bridge-Based Ethernet LANService......................................................................................................................................................588A.7.1.6 Parameter Description: Ethernet LAN Service............................................................................593A.7.1.7 Parameter Description: VLAN Filtering Table_Creation............................................................599A.7.1.8 Parameter Description: Aging Time of MAC Address Table Entries.........................................600
A.7.2 Parameters for Ethernet Protocols........................................................................................................601A.7.2.1 Parameter Description: ERPS Management_Creation................................................................601A.7.2.2 Parameter Description: ERPS Management................................................................................604A.7.2.3 Parameter Description: Spanning Tree_Protocol Enabling.........................................................610A.7.2.4 Parameter Description: Spanning Tree_Bridge Parameters........................................................611A.7.2.5 Parameter Description: Spanning Tree_Port Parameters.............................................................612A.7.2.6 Parameter Description: Spanning Tree_Bridge Running Information........................................614A.7.2.7 Parameter Description: Spanning Tree_Port Running Information............................................615A.7.2.8 Parameter Description: Spanning Tree_Point-to-Point Attribute................................................616A.7.2.9 Parameter Description: IGMP Snooping Protocol_Enabling......................................................617A.7.2.10 Parameter Description: IGMP Snooping Protocol_Creation of Static Multicast Table Entries..................................................................................................................................................................618A.7.2.11 Parameter Description: IGMP Snooping Protocol_Aging Time of Multicast Table Entries..................................................................................................................................................................619A.7.2.12 Parameter Description: Ethernet Link Aggregation_Creation of LAGs...................................620A.7.2.13 Parameter Description: Ethernet Link Aggregation_Link Aggregation....................................622A.7.2.14 Parameter Description: LPT Management_Creation of Point-to-Point Service LPT................623A.7.2.15 Parameter Description: LPT Management_Creation of Point-to-Multipoint Service LPT.......624A.7.2.16 Parameter Description: Port Mirroring_Creation......................................................................625
A.7.3 Parameters for the Ethernet OAM........................................................................................................626A.7.3.1 Parameter Description: Ethernet Service OAM_Creation of MDs.............................................626A.7.3.2 Parameter Description: Ethernet Service OAM_Creation of MAs.............................................627A.7.3.3 Parameter Description: Ethernet Service OAM_Creation of MPs..............................................628A.7.3.4 Parameter Description: Ethernet Service OAM_Enabling LB....................................................630A.7.3.5 Parameter Description: Ethernet Service OAM_Enabling LT....................................................631A.7.3.6 Parameter Description: Ethernet Port OAM_OAM Parameter...................................................632A.7.3.7 Parameter Description: Ethernet Port OAM_OAM Error Frame Monitoring.............................633A.7.3.8 Parameter Description: Ethernet Port OAM_Remote OAM Parameter......................................634
A.7.4 QoS Parameters....................................................................................................................................635A.7.4.1 Parameter Description: QoS Management_Creation of Flows....................................................635A.7.4.2 Parameter Description: QoS Management_Creation of CAR.....................................................637A.7.4.3 Parameter Description: QoS Management_Creation of CoS......................................................639A.7.4.4 Parameter Description: QoS Management_Creation of CAR/CoS.............................................641A.7.4.5 Parameter Description: QoS Management_Shaping Management of Egress Queues................641A.7.4.6 Parameter Description: QoS Management_Port Shaping............................................................643
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
xiii
A.7.5 Parameters for the Ports on Ethernet Boards........................................................................................644A.7.5.1 Parameter Description: Ethernet Port_External Port...................................................................644A.7.5.2 Parameter Description: Ethernet Port_Internal Port....................................................................651A.7.5.3 Parameter Description: Type Field of QinQ Frames...................................................................657
A.8 RMON Parameters.........................................................................................................................................658A.8.1 Parameter Description: RMON Performance_Statistics Group...........................................................658A.8.2 Parameter Description: RMON Performance_History Group..............................................................659A.8.3 Parameter Description: RMON Performance_History Control Group.................................................660A.8.4 Parameter Description: RMON Performance_RMON Setting.............................................................661
A.9 Parameters for MPLS/PWE3 Services..........................................................................................................662A.9.1 MPLS Tunnel Parameters.....................................................................................................................663
A.9.1.1 Parameter Description: Basic Configurations of MPLS Tunnels................................................663A.9.1.2 Parameter Description: Unicast Tunnel Management_Static Tunnel..........................................664A.9.1.3 Parameter Description: Unicast Tunnel Management_Creation of Unidirectional Tunnels.......668A.9.1.4 Parameter Description: Unicast Tunnel Management_Creation of Bidirectional Tunnels.........672A.9.1.5 Parameter Description: Unicast Tunnel Management_OAM Parameters...................................676A.9.1.6 Parameter Description: Unicast Tunnel Management_FDI.........................................................681A.9.1.7 Parameter Description: Unicast Tunnel Management_LSP Ping................................................682A.9.1.8 Parameter Description: Unicast Tunnel Management_LSP Traceroute......................................685A.9.1.9 Parameter Description: PW Management_PW Management......................................................688A.9.1.10 Parameter Description: PW Management_MS-PW Creation....................................................693A.9.1.11 Parameter Description: PW Management_PW OAM...............................................................704A.9.1.12 Parameter Description: PW Management_PW Ping.................................................................708A.9.1.13 Parameter Description: PW Management_PW Traceroute.......................................................711A.9.1.14 Parameter Description: MPLS APS Protection Management...................................................713A.9.1.15 Parameter Description: Tunnel Protection Group_Creation......................................................716A.9.1.16 Parameter Description: PW APS Protection Group_Creation...................................................721A.9.1.17 Parameter Description: Slave Protection Pair of a PW APS Protection Group_Creation.........732
A.9.2 CES Parameters....................................................................................................................................738A.9.2.1 Parameter Description: CES Service Management.....................................................................738A.9.2.2 Parameter Description: CES Service Management_Creation.....................................................747
A.9.3 ATM Parameters...................................................................................................................................760A.9.3.1 Parameter Description: ATM IMA Management_IMA Group Management.............................760A.9.3.2 Parameter Description: ATM IMA Management_Bound Path Configuration............................765A.9.3.3 Parameter Description: ATM IMA Management_IMA Group Status........................................767A.9.3.4 Parameter Description: ATM IMA Management_IMA Link Status...........................................768A.9.3.5 Parameter Description: ATM IMA Management_ATM Interface Management........................768A.9.3.6 Parameter Description: Configuration of ATM Service Class Mapping Table...........................770A.9.3.7 Parameter Description: Configuration of ATM Service Class Mapping Table_Creation...........772A.9.3.8 Parameter Description: ATM Policy Management.....................................................................774A.9.3.9 Parameter Description: ATM Policy Management_Creation......................................................778A.9.3.10 Parameter Description: ATM Service Management..................................................................783
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
xiv
A.9.3.11 Parameter Description: ATM Service Management_Creation..................................................792A.9.3.12 Parameter Description: ATM OAM Management_Segment and End Attributes.....................804A.9.3.13 Parameter Description: ATM OMA Management_CC Activation Status................................808A.9.3.14 Parameter Description: ATM OAM Management_Remote End Loopback Status...................811A.9.3.15 Parameter Description: ATM OAM Management_LLID.........................................................814
A.10 Clock Parameters.........................................................................................................................................815A.10.1 Physical Clock Parameters.................................................................................................................815
A.10.1.1 Parameter Description: Clock Source Priority Table................................................................815A.10.1.2 Parameter Description: Priority Table for the PLL Clock Source of the External Clock Port..................................................................................................................................................................817A.10.1.3 Parameter Description: Clock Subnet Setting_Clock Subnet....................................................819A.10.1.4 Parameter Description: Clock Subnet Setting_Clock Quality...................................................822A.10.1.5 Parameter Description: Clock Subset Setting_SSM Output Control........................................825A.10.1.6 Parameter Description: Clock Subset Setting_Clock ID Enabling Status.................................826A.10.1.7 Parameter Description: Clock Source Switching_Clock Source Restoration Parameters.........827A.10.1.8 Parameter Description: Clock Source Switching_Clock Source Switching..............................829A.10.1.9 Parameter Description: Clock Source Switching_Clock Source Switching Conditions...........830A.10.1.10 Parameter Description: Output Phase-Locked Source of the External Clock Source.............831A.10.1.11 Parameter Description: Clock Synchronization Status............................................................834
A.10.2 CES ACR Clock Parameters..............................................................................................................835A.10.2.1 Parameter Description: ACR Clock Source..............................................................................836A.10.2.2 Parameter Description: Clock Domain......................................................................................836A.10.2.3 Parameter Description: Clock Domain_Creation......................................................................837
A.10.3 Parameter Description: Auxiliary Ports..............................................................................................838A.11 Parameters for the Orderwire and Auxiliary Interfaces...............................................................................838
A.11.1 Parameter Description: Orderwire_General.......................................................................................838A.11.2 Parameter Description: Orderwire_Advanced....................................................................................840A.11.3 Parameter Description: Orderwire_F1 Data Port................................................................................841A.11.4 Parameter Description: Orderwire_Broadcast Data Port....................................................................841A.11.5 Parameter Description: Environment Monitoring Interface...............................................................842
B Board Loopback Types............................................................................................................846
C Indicators of Boards.................................................................................................................848
D Weight and Power Consumption of Each Board................................................................865
E Glossary......................................................................................................................................867E.1 0-9..................................................................................................................................................................868E.2 A-E.................................................................................................................................................................868E.3 F-J...................................................................................................................................................................877E.4 K-O.................................................................................................................................................................882E.5 P-T..................................................................................................................................................................888E.6 U-Z.................................................................................................................................................................897
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description Contents
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
xv
1 Introduction
About This Chapter
The OptiX RTN 950 is a product in the OptiX RTN 900 radio transmission system series.
1.1 Network ApplicationThe OptiX RTN 900 is a new generation TDM/Hybrid/Packet integrated microwavetransmission system developed by Huawei. It provides a seamless microwave transmissionsolution for mobile communication network or private networks.
1.2 ComponentsThe OptiX RTN 950 adopts a split structure. The system consists of the IDU 950 and the ODU.Each ODU is connected to the IDU through an IF cable.
1.3 Radio Link TypesThe OptiX RTN 950 provides the radio links of various types in which different IF boards andODUs are configured for diverse microwave application scenarios.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 1 Introduction
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
1
1.1 Network ApplicationThe OptiX RTN 900 is a new generation TDM/Hybrid/Packet integrated microwavetransmission system developed by Huawei. It provides a seamless microwave transmissionsolution for mobile communication network or private networks.
OptiX RTN 900 Product FamilyThere are three types of OptiX RTN 900 products: OptiX RTN 910, OptiX RTN 950, and OptiXRTN 980. Users can choose the product best suited for their site.l The IDU of the OptiX RTN 910 is 1U high and supports one or two IF boards.l The IDU of the OptiX RTN 950 is 2U high and supports one to six IF boards.l The IDU of the OptiX RTN 980 is 5U high and supports one to fourteen IF boards.
NOTE
All the products in the OptiX RTN 900 series use the same types of IF and service interface boards.
The OptiX RTN 900 series provide a variety of service interfaces and can be installed easily andconfigured flexibly. The OptiX RTN 900 series provide a solution that can integrate TDMmicrowave, Hybrid microwave, and Packet microwave technologies according to thenetworking scheme for the sites, achieving smooth upgrade from TDM microwave to Hybridmicrowave, and from Hybrid microwave to Packet microwave. This solution is able to adapt tochanging service scenarios brought about by evolutions in radio mobile networks. Therefore,this solution meets the transmission requirements of 2G and 3G networks while also allowingfor integration with future LTE and 4G networks.
OptiX RTN 950The OptiX RTN 950 is deployed at the access and convergence layers. Figure 1-1 shows themicrowave transmission solution provided by the OptiX RTN 950.
Figure 1-1 Microwave transmission solution provided by the OptiX RTN 950
OptiX RTN 950 BTSNodeB BSCRNC
FEE1
FEE1
E1
E1FE
E1
E1
FE
FE/GE
E1/STM-1
Regional TDMNetwork
E1/STM-1
FE/GE
FE/GE
Regional PacketNetwork
MSTP
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 1 Introduction
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
2
NOTE
l In this solution, the OptiX RTN 950 is connected to an RNC and BSC directly or through a regional backhaulnetwork.
l The OptiX RTN 950 provides a wide range of interfaces and service bearer technologies to adapt to theregional backhaul network. The regional backhaul network can be a time-division multiplexing (TDM)network or packet switching network (PSN).
l The OptiX RTN 950 supports the Ethernet over SDH (EoSDH) function and Ethernet over PDH(EoPDH) function. Therefore, packet services can be backhauled through a TDM network.
l The OptiX RTN 950 supports the pseudo wire emulation edge-to-edge (PWE3) technology. Therefore,TDM, ATM, and Ethernet services can be backhauled through a PSN.
l The OptiX RTN 950 supports the VLAN sub-interface function. Therefore, MPLS packet services canbe backhauled through a Layer 2 network.
1.2 ComponentsThe OptiX RTN 950 adopts a split structure. The system consists of the IDU 950 and the ODU.Each ODU is connected to the IDU through an IF cable.
IDU 950The IDU 950 is the indoor unit for an OptiX RTN 950 system. It receives and multiplexesservices, performs service processing and IF processing, and provides the system control andcommunications function.
Table 1-1 lists the basic features of the IDU 950.
Table 1-1 Features of the IDU 950
Item Description
Chassis height 2U
Pluggable Supported
Number of microwavedirections
1 to 6
RF configuration mode 1+0 non-protection configurationN+0 non-protection configuration (N ≤ 5)1+1 protection configurationN+1 protection configuration (N ≤ 4)XPIC configuration
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 1 Introduction
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
3
Figure 1-2 Appearance of the IDU 950
ODU
The ODU is the outdoor unit for the OptiX RTN 900. It converts frequencies and amplifiessignals.
The OptiX RTN 900 product series can use the RTN 600 ODU and RTN XMC ODU, coveringthe entire frequency band from 6 GHz to 38 GHz.
NOTE
Unlike the other frequency bands that use 14 MHz, 28 MHz, or 56 MHz channel spacing, the 18 GHzfrequency band uses 13.75 MHz, 27.5 MHz, or 55 MHz channel spacing.
Table 1-2 RTN 600 ODUs that the OptiX RTN 950 supports
Item Description
Standard PowerODU
High-Power ODU Low Capacity forPDH ODU
ODU type SP, SPA HP, HPA LP
Frequency band 7/8/11/13/15/18/23/26/38 GHz (SPODU)6/7/8/11/13/15/18/23 GHz (SPA ODU)
6/7/8/10/10.5/11/13/15/18/23/26/28/32/38 GHz (HP ODU)7/8/11/13/15/18/23GHz (HPA ODU)
7/8/11/13/15/18/23GHz (LP ODU)
Microwavemodulation scheme
QPSK/16QAM/32QAM/64QAM/128QAM/256QAM
QPSK/16QAM/32QAM/64QAM/128QAM/256QAM
QPSK/16QAM
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 1 Introduction
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
4
Item Description
Standard PowerODU
High-Power ODU Low Capacity forPDH ODU
Channel spacing 3.5/7/14/28 MHz 7/14/28/40/56 MHz(6/7/8/10/11/13/15/18/23/26/28/32/38GHz)7/14/28 MHz (10.5GHz)
3.5/7/14/28 MHz
Table 1-3 RTN XMC ODUs that the OptiX RTN 950 supports
Item Description
High-Power ODU Low Capacity for PDHODU
ODU type XMC-2 XMC-1
Frequency band 7/8/11/13/15/18/23/26/38GHz
7/8/11/13/15/18/23 GHz
Microwave modulationscheme
QPSK/16QAM/32QAM/64QAM/128QAM/256QAM
QPSK/16QAM
Channel spacing 7/14/28/40/56 MHz 3.5/7/14/28 MHz
There are two methods for mounting the ODU and the antenna: direct mounting and separatemounting.
l The direct mounting method is generally adopted when a small- or medium-diameter andsingle-polarized antenna is used. In this situation, if one ODU is configured for one antenna,the ODU is directly mounted at the back of the antenna. If two ODUs are configured forone antenna, an RF signal combiner/splitter (hence referred to as a hybrid coupler) mustbe mounted to connect the ODUs to the antenna. Figure 1-3 illustrates the direct mountingmethod.The direct mounting method can also be adopted when a small- or medium-diameter anddual-polarized antenna is used. Two ODUs are mounted onto an antenna using anorthomode transducer (OMT). The method for installing an OMT is similar to that forinstalling a hybrid coupler.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 1 Introduction
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
5
Figure 1-3 Direct mounting
l The separate mounting method is adopted when a large- or medium-diameter and single-
or dual-polarized antenna is used. Figure 1-4 shows the separate mounting method. In thissituation, a hybrid coupler can be mounted (two ODUs share one feed boom).
Figure 1-4 Separate mounting
NOTE
The OptiX RTN 950 provides an antenna solution that covers the entire frequency band, and supportssingle-polarized antennas and dual-polarized antennas with diameters of 0.3 m to 3.7 m along with thecorresponding feeder system.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 1 Introduction
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
6
1.3 Radio Link TypesThe OptiX RTN 950 provides the radio links of various types in which different IF boards andODUs are configured for diverse microwave application scenarios.
Table 1-4 Radio link types that the OptiX RTN 950 supports
Radio Link Type System Control,Switching, andTiming Board
IF Board ODU
Low-capacity PDHmicrowave
CSTCSH
IF1 Low capacity forPDH ODU
SDH/PDHmicrowave
CSTCSH
IF1 Standard powerODU or high powerODU
High-capacity SDHmicrowave
CSTCSH
ISU2 Standard powerODU or high powerODU
High-capacity SDHmicrowavesupporting XPIC
CSTCSH
ISX2 Standard powerODU or high powerODU
Integrated IPmicrowave
CSH IFU2ISU2
Standard powerODU or high powerODU
Integrated IPmicrowavesupporting XPIC
CSH IFX2ISX2
Standard powerODU or high powerODU
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 1 Introduction
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
7
2 Chassis
About This Chapter
The IDU of the OptiX RTN 950 is a 2U chassis. It can be deployed in a variety of scenarios andon several different types of racks, cabinets, and surfaces.
2.1 Chassis StructureThe dimensions (H x W x D) of the IDU 950 chassis are 88 mm x 442 mm x 220 mm. The IDU950 chassis has a four-layered structure that is air cooled.
2.2 Installation ModeThe IDU 950 can be deployed in a variety of scenarios and on several different types of racks,cabinets, and surfaces.
2.3 Air FlowAn IDU 950 chassis is air-cooled with air in on the left side and air out on the right side.
2.4 IDU LabelsProduct nameplate labels, qualification card labels, ESD protection labels, grounding labels,laser safety class labels, high temperature warning labels, and operation warning labels, andother types of labels are affixed in their respective positions on the IDU chassis or boards. Adhereto the warnings and instructions on the labels when performing various types of tasks in orderto avoid bodily injury or damage to the equipment.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 2 Chassis
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
8
2.1 Chassis StructureThe dimensions (H x W x D) of the IDU 950 chassis are 88 mm x 442 mm x 220 mm. The IDU950 chassis has a four-layered structure that is air cooled.
Figure 2-1 shows the chassis structure of the IDU 950.
Figure 2-1 Chassis structure of the IDU 950
W
H
D
2.2 Installation ModeThe IDU 950 can be deployed in a variety of scenarios and on several different types of racks,cabinets, and surfaces.
The IDU 950 can be installed:l In a 300 mm European Telecommunications Standards Institute (ETSI) cabinetl In a 600 mm ETSI cabinetl In a 450 mm 19-inch cabinetl In a 600 mm 19-inch cabinetl In a 19-inch open rackl In an outdoor cabinet for wireless equipmentl On a walll On a table
2.3 Air FlowAn IDU 950 chassis is air-cooled with air in on the left side and air out on the right side.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 2 Chassis
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
9
Figure 2-2 shows the air flow in an IDU 950 chassis.
Figure 2-2 Air flow in an IDU 950 chassis
2.4 IDU LabelsProduct nameplate labels, qualification card labels, ESD protection labels, grounding labels,laser safety class labels, high temperature warning labels, and operation warning labels, andother types of labels are affixed in their respective positions on the IDU chassis or boards. Adhereto the warnings and instructions on the labels when performing various types of tasks in orderto avoid bodily injury or damage to the equipment.
Label Description
Table 2-1 provides the description of the labels on the IDU chassis and boards. Actual labelsmay vary depending on the configurations of the chassis and boards.
Table 2-1 Description of the IDU labels
Label Label Name Description
ESD protectionlabel
Indicates that theequipment issensitive to staticelectricity.
Grounding label Indicates thegrounding positionof the IDU chassis.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 2 Chassis
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
10
Label Label Name Description
Fan warning label Warns you not totouch fan leaveswhen the fan isrotating.
High temperaturewarning label
Indicates that theboard surfacetemperature mayexceed 70°C whenthe ambienttemperature ishigher than 55°C.Wear protectivegloves to handlethe board.
Power caution label Instructs you toread relatedinstructions beforeperforming anypower-relatedtasks.For details, seeLabels in 3.17.4Front Panel.
合格证/ QUALIFICATION CARD
华为技术有限公司 中国制造MADE IN CHINAHUAWEI TECHNOLOGIES CO.,LTD.
HUAWEI
Qualification cardlabel
Indicates that theequipment hasbeen qualitychecked.
RoHS label Indicates that theequipmentcomplies with therelatedrequirementsspecified in theRoHS directive.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 2 Chassis
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
11
Label Label Name Description
Product nameplatelabel
Indicates theproduct name andcertification.
PULL
Operation guidancelabel
Instructs you toslightly pull theswitch leveroutwards beforesetting the switchto the "I" or "O"position.
Label PositionFigure 2-3 shows the positions of the labels on the chassis of the IDU 950.
Figure 2-3 Positions of the IDU 950 labels
合格证/QUALIFICATION CARD
华为技术有限公司 中国制作MADE IN CHINAHUAWEI TECHNOLOGIES CO.,LTD.
HUAWEI
WARNING-48V OUTPUT
TURN OFF POWER BEFOREDISCONNECTING IF CABLE
!
!
50
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 2 Chassis
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
12
3 Boards
About This Chapter
The IDU 950 supports the following types of boards: system control, switching, and timingboards, IF boards, Ethernet boards, SDH boards, PDH boards, power supply boards, and fanboards.
3.1 Board AppearanceThe dimensions (H x W x D) of the board in the extended slot of the IDU 950 chassis are 19.82mm x 193.80 mm x 225.80 mm. The dimensions (H x W x D) of the system control, switching,and timing board in the IDU 950 chassis are 22.36 mm x 193.80 mm x 269.73 mm.
3.2 Board ListThe IDU 950 provides various functions with different boards inserted.
3.3 CSTThe CST is the integrated TDM system control, switching, and timing board.
3.4 CSHThe CSH is the integrated Hybrid system control, switching, and timing board.
3.5 IF1The IF1 is a medium-capacity SDH IF board. The IF1 uses the DC-I power distribution mode.
3.6 IFU2The IFU2 is a universal IF board that supports the Integrated IP radio mode. The IFU2 uses theDC-I power distribution mode.
3.7 IFX2The IFX2 is a universal IF board that supports the XPIC function in Integrated IP radio mode.The IFX2 uses the DC-I power distribution mode.
3.8 ISU2The ISU2 is a universal IF board that supports the Integrated IP radio mode and SDH radio modeat the same time. The ISU2 uses the DC-I power distribution mode.
3.9 ISX2The ISX2 is a universal XPIC IF board and provides the XPIC function for signals transmitted/received in Integrated IP radio mode and SDH radio mode. The ISX2 uses the DC-I powerdistribution mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
13
3.10 EM6T/EM6TA/EM6F/EM6FAThe EM6T/EM6F/EM6TA/EM6FA is an FE/GE interface board, which provides four FEelectrical ports and two GE ports. The EM6T/EM6TA has similar functions to the EM6F/EM6FA. The only difference is as follows: The GE ports on the EM6T/EM6TA use fixedelectrical ports whereas the GE ports on the EM6F/EM6FA use the SFP modules and thereforecan function as two FE/GE optical or GE electrical ports. The GE electrical ports on theEM6F/EM6FA and the EM6T/EM6TA are compatible with the FE electrical ports.
3.11 EMS6The EMS6 is an FE/GE EoSDH processing board providing the L2 switching function. Itprovides four FE electrical ports and two GE ports using small form-factor pluggable (SFP)optical/electrical modules.
3.12 EFP8The EFP8 is an 8-port FE EoPDH processing board. The EFP board is connected to the packetplane through its bridging GE port.
3.13 SL1D/SL1DAThe SL1D/SL1DA is a 2xSTM-1 optical interface board. The SL1D/SL1DA can also provideSTM-1 electrical ports by using SFP electrical modules. Besides all the functions provided bythe SL1D, the SL1DA supports the K byte pass-through function.
3.14 ML1/MD1The ML1 is a 16xSmart E1 service processing board. The MD1 is a 32xSmart E1 serviceprocessing board.
3.15 SP3S/SP3DThe SP3S is a 16xE1 75-ohm/120-ohm tributary board. The SP3D is a 32xE1 75-ohm/120-ohmtributary board.
3.16 AUXThe AUX is an auxiliary management interface board of the OptiX RTN 950. One NE can houseonly one AUX.
3.17 PIUThe PIU is the power interface board. The OptiX RTN 950 supports two PIUs, each of whichaccesses one -48 V/-60 V DC power supply.
3.18 FANThe FAN is a fan board that dissipates heat generated in the chassis through air cooling.
3.19 TCU6The TDM connecting unit (TCU6) is a 6xE1 port conversion board. The TCU6 implementsconversion between DB44 ports and RJ45 ports.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
14
3.1 Board AppearanceThe dimensions (H x W x D) of the board in the extended slot of the IDU 950 chassis are 19.82mm x 193.80 mm x 225.80 mm. The dimensions (H x W x D) of the system control, switching,and timing board in the IDU 950 chassis are 22.36 mm x 193.80 mm x 269.73 mm.
NOTEThe depth of the board refers to the distance between the front panel and the end of the PCB.
Board AppearanceFigure 3-1 shows the appearance of an ISU2 board in an IDU 950 chassis.
Figure 3-1 Appearance of an ISU2 board
W
H
D
Bar CodeThe front panel of a board has two ejector levers and two captive screws. The ejector levers helpyou remove or insert a board. The captive screws fasten a board to the chassis. A board bar code(as shown in Figure 3-2) is attached to one of the ejector levers.
Figure 3-2 Bar code
Bar code
②Internal code
③④
Board versionBoard nameBoard feature code
①
0514721055000015-SL91EM6F01① ② ③ ④
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
15
NOTEOnly the bar codes of some boards contain board feature codes, which further classify boards. For example,the feature codes of some boards using SFP modules (such as EM6F) indicate the type of SFP modulebeing used, and the feature codes of some other boards providing E1 ports (such as SP3S) indicate theimpedance of E1 ports.
3.2 Board ListThe IDU 950 provides various functions with different boards inserted.
Figure 3-3 IDU slot layout
Slot9
(PIU)
Slot 7 (CST/CSH)
Slot 1 (EXT)
Slot 5 (EXT)
Slot 3 (EXT)
Slot 2 (EXT)
Slot 4 (EXT)
Slot 6 (EXT)
Slot 8 (CST/CSH)Slot10
(PIU) Slot11
(FAN)
NOTE
"EXT" represents an extended slot, which can house any type of IF board or interface board.
Table 3-1 List of IDU boards
BoardAcronym
Board NameValid Slot Description
CST TDM control,switching, andtiming board
Slot 7 or slot 8 l Provides full time division cross-connections forVC-12/VC-3/VC-4 services equivalent to 32x32VC-4s.
l Performs system communication and control.l Provides the clock processing function and supports
one external clock input/output function.l Provides one Ethernet NM interface, one NM serial
interface, and one NE cascading interface.l Provides one outdoor monitoring interface.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
16
BoardAcronym
Board NameValid Slot Description
CSH Hybrid control,switching, andtiming board
Slot 7 or slot 8 l Provides full time division cross-connections forVC-12/VC-3/VC-4 services equivalent to 32x32VC-4s.
l Provides the 10 Gbit/s packet switching capability.l Performs system communication and control.l Provides the clock processing function and supports
one external clock input/output function.l Provides one Ethernet NM interface, one NM serial
interface, and one NE cascading interface.l Provides one outdoor monitoring interface.
ISU2 Universal IFboard
Slot 1 to slot 6 l Provides one IF interface.l Supports integrated IP microwave and SDH
microwave. The supported service modes are NativeE1+Ethernet, Native STM-1+Ethernet or SDH(1xSTM-1 or 2xSTM-1).
l Supports the AM function.l Supports Ethernet frame header compression.l Supports the physical link aggregation (PLA)
function.
ISX2 Universal XPICIF board
Slot 1 to slot 6 l Provides one IF interface.l Supports integrated IP microwave and SDH
microwave. The supported service modes are NativeE1+Ethernet, Native STM-1+Ethernet or SDH(1xSTM-1 or 2xSTM-1).
l Supports the XPIC function.l Supports the AM function.l Supports Ethernet frame header compression.l Supports the physical link aggregation (PLA)
function.
IF1 SDH IF board Slot 1 to slot 6 l Provides one IF interface.l Supports the TU-based PDH microwave solution
and the STM-1-based SDH microwave solution.
IFU2 Universal IFboard
Slot 1 to slot 6 l Provides one IF interface.l Supports integrated IP microwave.l Supports the AM function.
IFX2 Universal XPICIF board
Slot 1 to slot 6 l Provides one IF interface.l Supports integrated IP microwave.l Supports the XPIC function.l Supports the AM function.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
17
BoardAcronym
Board NameValid Slot Description
SL1D 2xSTM-1interface board
Slot 1 to slot 6 Uses the SFP module to provide two STM-1 optical/electrical interfaces.
SL1DA 2xSTM-1interface board
Slot 1 to slot 6 Uses the SFP module to provide two STM-1 optical/electrical interfaces.
EM6T/EM6TA 6-port RJ45Ethernet/Gigabit Ethernetinterface board
Slot 1 to slot 6 l Provides four FE electrical interfaces.l Provides two GE electrical interfaces that are
compatible with the FE electrical interface.
EM6F/EM6FA 4-port RJ45 + 2-port SFP FastEthernet/Gigabit Ethernetinterface board
Slot 1 to slot 6 l Provides four FE electrical interfaces.l Uses the SFP module to provide two GE/FE optical
interfaces or GE electrical interfaces. The GEelectrical interfaces are compatible with the FEelectrical interfaces.
EFP8 8-port RJ45 FEEoPDHprocessingboard with theswitchingfunction
Slot 1 to slot 6 l Provides eight FE electrical interfaces.l Bridges to the packet plane through one internal GE
interface.l Supports the processing of EoPDH services.l Supports Ethernet transparent transmission services
and Layer 2 switching services.
EMS6 4-port RJ45 and2-port SFP FE/GE EoSDHprocessingboard with theswitchingfunction
Slot 1 to slot 6 l Provides four FE electrical interfaces.l Uses the SFP module to provide two GE optical or
electrical interfaces. The GE electrical interfaces arecompatible with the FE electrical interfaces.
l Supports the processing of EoSDH services.l Supports Ethernet transparent transmission services
and Layer 2 switching services.
ML1 16xE1 (Smart)tributary board
Slot 1 to slot 6 l Provides sixteen 75-ohm or 120-ohm Smart E1interfaces.
l Supports CES E1, ATM/IMA E1, and Fractional E1.
MD1 32xE1 (Smart)tributary board
Slot 1 to slot 6 l Provides thirty-two 75-ohm or 120-ohm Smart E1interfaces.
l Supports CES E1, ATM/IMA E1, and Fractional E1.
SP3S 16xE1 tributaryboard
Slot 1 to slot 6 Provides sixteen 75-ohm or 120-ohm TDM E1interfaces.
SP3D 32xE1 tributaryboard
Slot 1 to slot 6 Provides thirty-two 75-ohm or TDM 120-ohm E1interfaces.
AUX Auxiliaryinterface board
Slot 1 to slot 6 Provides one orderwire interface, one asynchronousdata interface, one synchronous data interface, and four-input and two-output external alarm interfaces.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
18
BoardAcronym
Board NameValid Slot Description
TCU6 6xE1 connectorconversionboard
Slot 1 to slot 6 Provides one DB44 connector and six RJ45 connectors.When being used with an E1 tributary board and anAnea 96 to DB44 transit cable, it converts E1 interfaces1 to 6 on the Anea 96 connector into RJ45 connectors.
PIU Power board Slot 9 or slot 10 Provides one -48 V/-60 V DC power input.
FAN Fan board Slot 11 Cools and ventilates the IDU.
3.3 CSTThe CST is the integrated TDM system control, switching, and timing board.
3.3.1 Version DescriptionThe functional version of the CST is SL91.
3.3.2 Functions and FeaturesThe CST provides full time division cross-connection, system control and communication, andclock processing functions. The CST provides auxiliary ports and management ports.
Table 3-2 lists the functions and features that the CST supports.
Table 3-2 Functions and features that the CST supports
Function and Feature Description
Basic functions Cross-connectcapacity
Supports full time division cross-connections(equivalent to 32x32 VC-4s) at the VC-12, VC-3, orVC-4 level.
System controlandcommunication
Manages, monitors, and controls the running status ofthe IDU, and works as a communication service unitbetween the NMS and boards to help the NMS tocontrol and manage the NE.
Clock Clock source Provides the system clock and frame headers forservice signals and overhead signals for the otherboards when tracing an appropriate clock source.The traced clock source can be any of the following:l External clockl SDH line clockl PDH tributary clockl Radio link clock
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
19
Function and Feature Description
Clockprotection
Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the SSM protocoll Protection by running the extended SSM protocol
External clockport
1
DCN Outband DCN Supports a maximum of 13 DCCs.
Protection 1+1 hot standby Supported
Auxiliary portsandmanagementports
Ethernet NMport
1
NM serial port 1
NE cascadingport
1
Port formonitoring anoutdoor cabinet
1The specifications of port comply with RS-485.
OM Warm reset andcold reset
Supported
In-serviceFPGA loading
Supported
Boardmanufacturinginformationquery
Supported
Board powerconsumptioninformationquery
Supported
Boardtemperaturedetection
Supported
Board voltagedetection
Supported
Detection ofindicators on theother boards
Supported
Hot swappingfunction
Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
20
Function and Feature Description
Pluggable CFcard
Supported
3.3.3 Working PrincipleThe CST consists of the system control and communication unit, cross-connect unit, clock unit,and power supply unit.
Functional Block Diagram
Figure 3-4 Functional block diagram of the CST
NE cascading port
Port for monitoring an outdoor cabinet
/Time port 2
Backplane
System control and communication unit
Cross-connect unit
Power supply
unit
Clock signal required by other boards
External clock signalTime port 1Clock port
Control bus
TDM service
Clock signal provided to the other units on the board
Ethernet NM portNM serial port
FE signal System control and communication unit of the paired board
Clock unit of the paired board
Service board
Monitoring signal
-48 V1
-48 V2
+3.3 V power supplied to other boards+12 V power supplied to fans
Power supplied to the other units on the board
Clock unit
System Control and Communication Unit
The system control and communication unit consists of the CPU unit and logic control unit. Thesystem control and communication unit performs the following functions:
l The CPU unit controls and manages the other units on the board and collects alarms andperformance events using the control bus.
l The CPU unit controls and manages the other boards in the IDU and collects alarms andperformance events using the control bus.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
21
l The CPU unit controls and manages the ODU by transmitting the ODU control signal tothe SMODEM unit in the IF board over the control bus in the backplane.
l The CPU unit processes network management messages in DCCs using the logic controlunit.
l The CPU unit communicates with the NMS by its Ethernet NM port and NE cascadingport.
l The CPU unit implements software loading by reading information from the CF card withthe bus.
l The CPU unit monitors and manages an outdoor cabinet by reading the outdoor cabinetmonitoring signal with the bus.
l The logic control unit decodes the address read/write signals from the CPU unit and enablesFPGA loading.
l The logic control unit cross-connects the overheads between the auxiliary interface unit,the CPU unit, and other boards. This helps to achieve the following purposes:– Adding or dropping DCC information processed by the CPU unit– Adding or dropping orderwire and asynchronous data services– Exchanging the orderwire bytes, DCC bytes, and K bytes between different lines
l The system control and communication unit on a CST board communicates with the systemcontrol and communication unit on the paired CST board by carrying FE signals over thecommunication bus in the backplane. In this manner, 1+1 hot backup between paired boardsis achieved.
Cross-Connect UnitThe cross-connect unit grooms services over the entire system using the higher order cross-connect module and the lower order cross-connect module. Figure 3-5 shows the functionalblock diagram of the cross-connect unit.
Figure 3-5 Functional block diagram of the cross-connect unit
Source TDMservice unit Higher order
cross-connectmoduleHOXC
Lower ordercross-connect
moduleLOXC
Sink TDMservice unit
The source TDM service unit transmits VC-4 signals to the higher order cross-connect moduleover VC-4 buses. If the VC-4 signals carry only VC-4 services, the higher order cross-connectmodule processes the VC-4 signals and then transmits the signals to the sink TDM service unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
22
If the VC-4 signals include VC-12 or VC-3 services, the higher order cross-connect modulegrooms the VC-12 or VC-3 services to the lower order cross-connect module. The lower ordercross-connect module processes the VC-12 or VC-3 services and then transmits the servicesback to the higher order cross-connect module. The higher order cross-connect module processesthe services and then transmits the services to the sink TDM service unit.
Clock Unitl The clock unit selects an appropriate clock source from external clock sources or service
clock sources at service ports based on clock priorities. Locking the clock source by meansof the phase-locked loop, the clock unit provides the system clock.
l The clock units on the main and standby boards transmit clock signals to each other.
Power Supply Unit
The power supply unit performs the following functions:
l Combines and then converts the two -48 V power inputs into the power supply required bythe chips of the other units on the local board.
l Combines and then converts the two -48 V power inputs into the +3.3 V power supplyrequired by the other boards in the IDU.
l Combines and then converts the two -48 V power inputs into the +12 V power supplyrequired by the fan.
3.3.4 Front PanelThere are indicators, buttons, management ports, clock ports, and latches on the front panel.
Front Panel Diagram
Figure 3-6 Front panel of the CST
CS
TS
TAT
PR
OG
SY
NC
AC
T
NMS/COM EXT CLK/TOD1 TOD2CF RCV RST
SR
V
Indicators
Table 3-3 Status explanation for indicators on the CST
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
23
Indicator State Meaning
Off l The board is not working.l The board is not created.l There is no power supplied to the
board.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the boardduring the power-on or resetting processof the board.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting processof the board.
On (green) l When the board is being powered onor being reset, the upper layersoftware is being initialized.
l When the board is running, thesoftware is running normally.
Blinks on (red) and off at100 ms intervals
The BOOTROM self-check fails duringthe power-on or resetting process of theboard.
On (red) l The memory self-check fails orloading upper layer software failsduring the power-on or resettingprocess of the board.
l The logic file or upper layer softwareis lost during the running process ofthe board.
l The pluggable storage card is faulty.
SYNC On (green) The clock is working properly.
On (red) The clock source is lost or a clockswitchover occurs.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor or remote alarm occurs in thesystem.
Off In an unprotected system, there is nopower supplied to the system.In a 1+1 protected system, the boardworks as the standby one.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
24
Indicator State Meaning
ACT On (green) In a 1+1 protected system, the boardworks as the active one.In an unprotected system, the board hasbeen activated.
Off In a 1+1 protected system, the boardworks as the standby one.In an unprotected system, the board is notactivated.
Clock Ports and Management Ports
Table 3-4 Description of the clock ports and management ports
Port Description Connector Type
NMS/COM Ethernet NM port/NM serial port
RJ45EXT NE cascade port
CLK/TOD1 External clock port (2048 kbit/s or 2048 kHz),or wayside E1 port
TOD2 Port for monitoring an outdoor cabinet
NOTE
l The external clock port and wayside E1 port share one port physically. This port can also transparentlytransmit DCC bytes, orderwire overhead bytes, and synchronous/asynchronous data overhead bytes.This port, however, can implement only one of the preceding functions at one time.
l The TOD2 and the outdoor cabinet monitoring port share one port physically. On the OptiX RTN 900V100R003, the physical port can be used as the outdoor cabinet monitoring port only.
l Time ports TOD1 and TOD2 are reserved for running the high-precision time protocol (IEEE 1588protocol) and are not used in this product version.
Auxiliary ports and management ports use RJ45 connectors. The pin assignments for the ports,however, are different. Figure 3-7 shows the front view of the RJ45 connector.
Figure 3-7 Front view of the RJ45 connector
8 7 6 5 4 3 2 1
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
25
Table 3-5 Pin assignments for the NMS/COM port
Port Pin Signal
NMS/COM
1 Transmitting data (+)
2 Transmitting data (-)
3 Receiving data (+)
4 Grounding end of the NM serial port
5 Receive end of the NM serial port
6 Receiving data (-)
7 Not defined
8 Transmit end of the NM serial port
Table 3-6 Pin assignments for the EXT port
Port Pin Signal
EXT
1 Transmitting data (+)
2 Transmitting data (-)
3 Receiving data (+)
6 Receiving data (-)
4, 5, 7, 8 Not defined
NOTEThe EXT port supports the MDI, MDI-X, and auto-MDI/MDI-X modes; that is, the EXT port can transmitdata through pins 3 and 6 and receive data through pins 1 and 2.
The RJ45 connector has two indicators. Table 3-7 provides status explanation for theseindicators.
Table 3-7 Status explanation for the indicators of the RJ45 connector
Indicator State Meaning
LINK (green) On The link is working properly.
Off The link is interrupted.
ACT (yellow) On or blinking The port is transmitting or receivingdata.
Off The port is not transmitting orreceiving data.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
26
NOTE
The NMS/COM port and the EXT port are equivalent to two ports on a hub. This means that no externalEthernet link should be configured between the two ports during the networking process; otherwise, anEthernet loop will be formed. As a result, a broadcast storm is generated on the network, leading to repeatedresetting of NEs.
Figure 3-8 shows the two common incorrect connections.
Figure 3-8 Incorrect connections between the NMS/COM port and the EXT port
CS
TST
ATP
RO
GS
YNC
SRV
NMS/COM EXT CLK/TOD1 TOD2CF RCV RST
CS
TS
TAT
PRO
GSY
NC
SRV
NMS/COM EXT CLK/TOD1 TOD2CF RCV RST
LAN
ACT
ACT
NOTEWhen the OptiX RTN 950 is configured with two CST boards, their Ethernet NM ports and NE cascadingports are equivalent to four ports on a hub. To avoid network storms, use only the Ethernet NM port andNE cascading port of the working CST board, if possible.
Table 3-8 provides details about the pin assignments for the CLK/TOD1 port.
Table 3-8 Pin assignments for the CLK/TOD1 port
Pin Working Mode
External Clock
1 Signal input (-)
2 Signal input (+)
3 Not defined
4 Signal output (-)
5 signal output (+)
6 Not defined
7 Not defined
8 Not defined
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
27
NOTEThe pin assignment when the CLK/TOD1 port functions as a wayside E1 service port is the same as thatwhen the CLK/TOD1 port functions as a clock port.
Table 3-9 provides details about the pin assignments for the TOD2 port.
Table 3-9 Pin assignments for the TOD2 port
Pin Working Mode
Port for Monitoring an Outdoor Cabinet
1 Not defined
2 Not defined
3 Outdoor cabinet monitoring signal input (-)(RS-422 level)
4 Grounding end
5 Grounding end
6 Outdoor cabinet monitoring signal input (+)(RS-422 level)
7 Outdoor cabinet monitoring signal output (-)(RS-422 level)
8 Outdoor cabinet monitoring signal output (+)(RS-422 level)
Buttons
Table 3-10 Buttons
Button Name Description
CF RCV CF configuration restorationbutton
After this button is pressed and held foreight seconds, the board automaticallyrestores the NE database from the CFcard.
RST Warm reset button After this button is pressed, a warmreset is performed on the board.
LatchesThere is a latch near each ejector lever on the front panel of the board. When removing a board,you can rotate the ejector levers only after pushing the latches to the middle positions. In addition,rotating the ejector levers triggers the tact switch on the board and then triggers working/protection switching.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
28
3.3.5 DIP Switches and CF CardThis board has a set of DIP switches and a pluggable CF (compact flash) card.
NE databases, system parameters (including NE-IP, NE-ID, and subnet mask), softwarepackages, and NE logs are stored on the CF card. After you press the CRV button on the systemcontrol, switching, and timing board and hold it for eight seconds, the data stored on the CF cardwill be loaded to the board. To synchronize the NE databases, system parameters, and NE logson the system control, switching, and timing board to the CF card, enable the regular backupfunction.
NOTE
The software packages on the CF card are synchronized with those on the system control, switching, and timingboard during package diffusion. Therefore, automatic backup mechanisms or manual operations are not neededto synchronize software packages on the system control, switching, and timing board and the CF card. If thesystem control, switching, and timing board and the CF card have different software packages or data, theSWDL_PKGVER_MM alarm will be reported.
Figure 3-9 Positions of the DIP switches and CF card
ON DIP
1 2 3 4
2
1
1. DIP switches 2. CF card
Table 3-11 Setting DIP switches
Setting of DIP Switchesa Meaning
1 2 3 4
0 0 0 0 Indicates that the board works with thewatchdog enabled.
0 0 0 1 The value is reserved.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
29
Setting of DIP Switchesa Meaning
1 2 3 4
0 0 1 0 Indicates that a memory self-check isrunning.
0 0 1 1 Indicates that the board is being debugged.
0 1 0 0 Indicates that the board works with thewatchdog disabled and a full memory checkis running.
0 1 0 1 Indicates the BIOS holdover state.
0 1 1 0 Indicates the BIOS exhibition state.
0 1 1 1 The value is reserved. (By default, this valueindicates that the board works with thewatchdog enabled.)
1 0 0 0 The value is reserved. (By default, this valueindicates that the board works with thewatchdog enabled.)
1 0 0 1 Restores the data of the CF card.
1 0 1 0 Erases data in the system parameter area.
1 0 1 1 Erases databases.
1 1 0 0 Erases NE software, including patches.
1 1 0 1 Erases databases and NE software, includingpatches.
1 1 1 0 Erases all data in the file system.
1 1 1 1 Erases all the data except for the boardmanufacturing information.
NOTEa: When a DIP switch is set to the side with the numbers "1, 2, 3, 4", it represents binary digit 1. When aDIP switch is set to the side with the letters "ON DIP", it represents binary digit 0.
3.3.6 Valid SlotsThe CST can be inserted in slot 7 or slot 8 of the IDU chassis. The logical slot of the CST onthe NMS is the same as its physical slot.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
30
Figure 3-10 Slot for the CST in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7 (CST)
Slot 5 (EXT)
Slot 3 (EXT)
Slot 1 (EXT)
Slot 8 (CST)
Slot 6 (EXT)
Slot 4 (EXT)
Slot 2 (EXT)
Figure 3-11 Logical slot of the CST on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7 (CST)
Slot 5 (EXT)
Slot 3 (EXT)
Slot 1 (EXT)
Slot 8 (CST)
Slot 6 (EXT)
Slot 4 (EXT)
Slot 2 (EXT)
Table 3-12 Slot allocation
Item Description
Slot allocation priority Slot 7 > Slot 8
3.3.7 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the CST.
Related ReferencesA.1.2.1 Parameter Description: NE Communication Parameter SettingA.10.1.1 Parameter Description: Clock Source Priority TableA.10.1.11 Parameter Description: Clock Synchronization StatusA.11.1 Parameter Description: Orderwire_GeneralA.11.3 Parameter Description: Orderwire_F1 Data PortA.11.4 Parameter Description: Orderwire_Broadcast Data PortA.10.3 Parameter Description: Auxiliary PortsA.11.5 Parameter Description: Environment Monitoring Interface
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
31
3.3.8 Technical SpecificationsThis section describes the board specifications, including the cross-connection capability, clockperformance, wayside service port performance, board mechanical behavior, and board powerconsumption.
Cross-Connection Capability
The CST supports full time division cross-connections (equivalent to 32x32 VC-4s) at theVC-12, VC-3, or VC-4 level.
Clock Timing and Synchronization Performance
Clock timing and synchronization performance meets related ITU-T Recommendations.
Table 3-13 Clock timing and synchronization performance
Item Performance
External synchronizationsource
2048 kbit/s (compliant with ITU-T G.703 §9), or 2048 kHz(compliant with ITU-T G.703 §13)
Frequency accuracy Compliant with ITU-T G.813
Pull-in and pull-out ranges
Noise generation
Noise tolerance
Noise transfer
Transient response andholdover performance
Wayside Service Interface Performance
Table 3-14 Wayside service interface performance
Item Performance
Transmission path Uses the Huawei-defined bytes in the overhead of themicrowave frame.
Nominal bit rate (kbit/s) 2048
Impedance (ohm) 120
Interface characteristics Meets the ITU-T G.703 standard.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
32
Mechanical Behavior
Table 3-15 Mechanical behavior
Item Performance
Dimensions (H x W x D) 22.36 mm x 193.80 mm x 269.73 mm
Weight 0.72 kg
Power ConsumptionPower consumption: < 20.7 W
3.4 CSHThe CSH is the integrated Hybrid system control, switching, and timing board.
3.4.1 Version DescriptionThe functional version of the CSH is SL91.
3.4.2 Working PrincipleThe CSH consists of the system control and communication unit, packet switching unit, cross-connect unit, clock unit, and power supply unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
33
Functional Block Diagram
Figure 3-12 Functional block diagram of the CSH
Time port 1Clock port
Port for monitoring an outdoor cabinet
/Time port 2
Backplane
System control and communication unit
Cross-connect unit
Clock signal required by other boards
External clock signal
Control bus
TDM service
Clock signal provided to the other unitson the board
NE cascading port
Packet switching unit
GE bus
Ethernet NM portNM serial port
FE signal System control and communication unit of the paired board
Clock unit of the paired board
Service board
Service board
Monitoring signal
-48 V1
-48 V2
+3.3 V power supplied to other boards+12 V power supplied to fans
Power supplied to the other units on the board
Clock unit
Power supply unit
System Control and Communication UnitThe system control and communication unit consists of the CPU unit and logic control unit. Thesystem control and communication unit performs the following functions:
l The CPU unit controls and manages the other units on the board and collects alarms andperformance events using the control bus.
l The CPU unit controls and manages the other boards in the IDU and collects alarms andperformance events using the control bus.
l The CPU unit controls and manages the ODU by transmitting the ODU control signal tothe SMODEM unit in the IF board over the control bus in the backplane.
l The CPU unit enables the packet switching unit using the control bus to groom Ethernetservice packets.
l The CPU unit processes Ethernet protocol packets from the packet switching unit using thecontrol bus.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
34
l The CPU unit processes network management messages in DCCs using the logic controlunit.
l The CPU unit communicates with the NMS by its Ethernet NM port and NE cascadingport.
l The CPU unit implements software loading by reading information from the CF card withthe bus.
l The CPU unit monitors and manages an outdoor cabinet by reading the outdoor cabinetmonitoring signal with the bus.
l The logic control unit decodes the address read/write signals from the CPU unit and enablesFPGA loading.
l The logic control unit cross-connects the overheads between the auxiliary interface unit,the CPU unit, and other boards. This helps to achieve the following purposes:– Adding or dropping DCC information processed by the CPU unit– Adding or dropping orderwire and synchronous/asynchronous data services– Exchanging the orderwire bytes, DCC bytes, and K bytes between different lines
l The system control and communication unit on a CSH board communicates with the systemcontrol and communication unit on the paired CSH board by carrying FE signals over thecommunication bus in the backplane. In this manner, 1+1 hot backup between paired boardsis achieved.
Packet Switching UnitThe packet switching unit grooms services and processes protocols for Ethernet services(including Native Ethernet services and MPLS/PWE3 packets carried over Ethernet).
l After receiving Ethernet services from an Ethernet board, the packet switching unit groomsthe Ethernet services based on the configurations that are delivered by the system controland communication unit.
l After receiving protocol packets from an Ethernet board, the packet switching unit transmitsthe protocol packets to the system control and communication unit for processing. Afterprocessing, the system control and communication unit sends the protocol packets back tothe packet switching unit. The packet switching unit transmits the protocol packets to theEthernet board.
Cross-Connect UnitThe cross-connect unit grooms services over the entire system using the higher order cross-connect module and the lower order cross-connect module. Figure 3-13 shows the functionalblock diagram of the cross-connect unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
35
Figure 3-13 Functional block diagram of the cross-connect unit
Source TDMservice unit Higher order
cross-connectmoduleHOXC
Lower ordercross-connect
moduleLOXC
Sink TDMservice unit
The source TDM service unit transmits VC-4 signals to the higher order cross-connect moduleover VC-4 buses. If the VC-4 signals carry only VC-4 services, the higher order cross-connectmodule processes the VC-4 signals and then transmits the signals to the sink TDM service unit.If the VC-4 signals include VC-12 or VC-3 services, the higher order cross-connect modulegrooms the VC-12 or VC-3 services to the lower order cross-connect module. The lower ordercross-connect module processes the VC-12 or VC-3 services and then transmits the servicesback to the higher order cross-connect module. The higher order cross-connect module processesthe services and then transmits the services to the sink TDM service unit.
Clock Unitl The clock unit selects an appropriate clock source from external clock sources or service
clock sources at service ports based on clock priorities. Locking the clock source by meansof the phase-locked loop, the clock unit provides the system clock.
l The clock units on the main and standby boards transmit clock signals to each other.
Power Supply UnitThe power supply unit performs the following functions:
l Combines and then converts the two -48 V power inputs into the power supply required bythe chips of the other units on the local board.
l Combines and then converts the two -48 V power inputs into the +3.3 V power supplyrequired by the other boards in the IDU.
l Combines and then converts the two -48 V power inputs into the +12 V power supplyrequired by the fan.
3.4.3 Front PanelThere are indicators, buttons, management ports, clock/time ports, and latches on the front panel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
36
Front Panel Diagram
Figure 3-14 Front panel of the CSH
CS
HS
TAT
PR
OG
SY
NC
SR
V
NMS/COM EXT CLK/TOD1 TOD2CF RCV RST
AC
T
Indicators
Table 3-16 Status explanation for indicators on the CSH
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the
board.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the boardduring the power-on or resetting processof the board.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting processof the board.
On (green) l When the board is being powered onor being reset, the upper layersoftware is being initialized.
l When the board is running, thesoftware is running normally.
Blinks on (red) and off at100 ms intervals
The BOOTROM self-check fails duringthe power-on or resetting process of theboard.
On (red) l The memory self-check fails orloading upper layer software failsduring the power-on or resettingprocess of the board.
l The logic file or upper layer softwareis lost during the running process ofthe board.
l The pluggable storage card is faulty.
SYNC On (green) The clock is working properly.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
37
Indicator State Meaning
On (red) The clock source is lost or a clockswitchover occurs.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor or remote alarm occurs in thesystem.
Off In an unprotected system, there is nopower supplied to the system.In a 1+1 protected system, the boardworks as the standby one.
ACT On (green) In a 1+1 protected system, the boardworks as the active one.In an unprotected system, the board hasbeen activated.
Off In a 1+1 protected system, the boardworks as the standby one.In an unprotected system, the board is notactivated.
Clock Ports and Management Ports
Table 3-17 Description of the clock ports and management ports
Port Description Connector Type
NMS/COM Ethernet NM port/NM serial port
RJ45EXT NE cascade port
CLK/TOD1 External clock port (2048 kbit/s or 2048 kHz),or wayside E1 port
TOD2 Port for monitoring an outdoor cabinet
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
38
NOTE
l The external clock port and wayside E1 port share one port physically. This port can also transparentlytransmit DCC bytes, orderwire overhead bytes, and synchronous/asynchronous data overhead bytes.This port, however, can implement only one of the preceding functions at one time.
l The TOD2 and the outdoor cabinet monitoring port share one port physically. On the OptiX RTN 900V100R003, the physical port can be used as the outdoor cabinet monitoring port only.
l Time ports TOD1 and TOD2 are reserved for running the high-precision time protocol (IEEE 1588protocol) and are not used in this product version.
Auxiliary ports and management ports use RJ45 connectors. The pin assignments for the ports,however, are different. Figure 3-15 shows the front view of the RJ45 connector.
Figure 3-15 Front view of the RJ45 connector
8 7 6 5 4 3 2 1
Table 3-18 Pin assignments for the NMS/COM port
Port Pin Signal
NMS/COM
1 Transmitting data (+)
2 Transmitting data (-)
3 Receiving data (+)
4 Grounding end of the NM serial port
5 Receive end of the NM serial port
6 Receiving data (-)
7 Not defined
8 Transmit end of the NM serial port
Table 3-19 Pin assignments for the EXT port
Port Pin Signal
EXT
1 Transmitting data (+)
2 Transmitting data (-)
3 Receiving data (+)
6 Receiving data (-)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
39
Port Pin Signal
4, 5, 7, 8 Not defined
NOTEThe EXT port supports the MDI, MDI-X, and auto-MDI/MDI-X modes; that is, the EXT port can transmitdata through pins 3 and 6 and receive data through pins 1 and 2.
The RJ45 connector has two indicators. Table 3-20 provides status explanation for theseindicators.
Table 3-20 Status explanation for the indicators of the RJ45 connector
Indicator State Meaning
LINK (green) On The link is working properly.
Off The link is interrupted.
ACT (yellow) On or blinking The port is transmitting or receivingdata.
Off The port is not transmitting orreceiving data.
NOTE
The NMS/COM port and the EXT port are equivalent to two ports on a hub. This means that no externalEthernet link should be configured between the two ports during the networking process; otherwise, anEthernet loop will be formed. As a result, a broadcast storm is generated on the network, leading to repeatedresetting of NEs.
Figure 3-16 shows the two common incorrect connections.
Figure 3-16 Incorrect connections between the NMS/COM port and the EXT port
CSH
STAT
PRO
GSY
NC
SRV
NMS/COM EXT CLK/TOD1 TOD2CF RCV RST
CSH
STAT
PRO
GSY
NC
SRV
NMS/COM EXT CLK/TOD1 TOD2CF RCV RST
LAN
ACT
ACT
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
40
NOTEWhen the OptiX RTN 950 is configured with two CSH boards, their Ethernet NM ports and NE cascadingports are equivalent to four ports on a hub. To avoid network storms, use only the Ethernet NM port andNE cascading port of the working CSH board, if possible.
Table 3-21 provides details about the pin assignments for the CLK/TOD1 port.
Table 3-21 Pin assignments for the CLK/TOD1 port
Pin Working Mode
External Clock
1 Signal input (-)
2 Signal input (+)
3 Not defined
4 Signal output (-)
5 signal output (+)
6 Not defined
7 Not defined
8 Not defined
NOTEThe pin assignment when the CLK/TOD1 port functions as a wayside E1 service port is the same as thatwhen the CLK/TOD1 port functions as a clock port.
Table 3-22 provides details about the pin assignments for the TOD2 port.
Table 3-22 Pin assignments for the TOD2 port
Pin Working Mode
Port for Monitoring an Outdoor Cabinet
1 Not defined
2 Not defined
3 Outdoor cabinet monitoring signal input (-)(RS-422 level)
4 Grounding end
5 Grounding end
6 Outdoor cabinet monitoring signal input (+)(RS-422 level)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
41
Pin Working Mode
Port for Monitoring an Outdoor Cabinet
7 Outdoor cabinet monitoring signal output (-)(RS-422 level)
8 Outdoor cabinet monitoring signal output (+)(RS-422 level)
Buttons
Table 3-23 Buttons
Button Name Description
CF RCV CF configuration restorationbutton
After this button is pressed and held foreight seconds, the board automaticallyrestores the NE database from the CFcard.
RST Warm reset button After this button is pressed, a warmreset is performed on the board.
Latches
There is a latch near each ejector lever on the front panel of the board. When removing a board,you can rotate the ejector levers only after pushing the latches to the middle positions. In addition,rotating the ejector levers triggers the tact switch on the board and then triggers working/protection switching.
3.4.4 DIP Switches and CF CardThis board has a set of DIP switches and a pluggable CF (compact flash) card.
NE databases, system parameters (including NE-IP, NE-ID, and subnet mask), softwarepackages, and NE logs are stored on the CF card. After you press the CRV button on the systemcontrol, switching, and timing board and hold it for eight seconds, the data stored on the CF cardwill be loaded to the board. To synchronize the NE databases, system parameters, and NE logson the system control, switching, and timing board to the CF card, enable the regular backupfunction.
NOTE
The software packages on the CF card are synchronized with those on the system control, switching, and timingboard during package diffusion. Therefore, automatic backup mechanisms or manual operations are not neededto synchronize software packages on the system control, switching, and timing board and the CF card. If thesystem control, switching, and timing board and the CF card have different software packages or data, theSWDL_PKGVER_MM alarm will be reported.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
42
Figure 3-17 Positions of the DIP switches and CF card
ON DIP
1 2 3 4
2
1
1. DIP switches 2. CF card
Table 3-24 Setting DIP switches
Setting of DIP Switchesa Meaning
1 2 3 4
0 0 0 0 Indicates that the board works with thewatchdog enabled.
0 0 0 1 The value is reserved.
0 0 1 0 Indicates that a memory self-check isrunning.
0 0 1 1 Indicates that the board is being debugged.
0 1 0 0 Indicates that the board works with thewatchdog disabled and a full memory checkis running.
0 1 0 1 Indicates the BIOS holdover state.
0 1 1 0 Indicates the BIOS exhibition state.
0 1 1 1 The value is reserved. (By default, this valueindicates that the board works with thewatchdog enabled.)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
43
Setting of DIP Switchesa Meaning
1 2 3 4
1 0 0 0 The value is reserved. (By default, this valueindicates that the board works with thewatchdog enabled.)
1 0 0 1 Restores the data of the CF card.
1 0 1 0 Erases data in the system parameter area.
1 0 1 1 Erases databases.
1 1 0 0 Erases NE software, including patches.
1 1 0 1 Erases databases and NE software, includingpatches.
1 1 1 0 Erases all data in the file system.
1 1 1 1 Erases all the data except for the boardmanufacturing information.
NOTEa: When a DIP switch is set to the side with the numbers "1, 2, 3, 4", it represents binary digit 1. When aDIP switch is set to the side with the letters "ON DIP", it represents binary digit 0.
3.4.5 Valid SlotsThe CSH can be inserted in slot 7 or slot 8 in the IDU chassis. The logical slot of the CSH onthe NMS is the same as its physical slot.
Figure 3-18 Slot for the CSH in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7 (CSH)
Slot 5 (EXT)
Slot 3 (EXT)
Slot 1 (EXT)
Slot 8 (CSH)
Slot 6 (EXT)
Slot 4 (EXT)
Slot 2 (EXT)
Figure 3-19 Logical slot of the CSH on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7 (CSH)
Slot 5 (EXT)
Slot 3 (EXT)
Slot 1 (EXT)
Slot 8 (CSH)
Slot 6 (EXT)
Slot 4 (EXT)
Slot 2 (EXT)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
44
Table 3-25 Slot allocation
Item Description
Slot allocation priority Slot 7 > Slot 8
3.4.6 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the CSH.
Related ReferencesA.1.2.1 Parameter Description: NE Communication Parameter SettingA.10.1.1 Parameter Description: Clock Source Priority TableA.10.1.11 Parameter Description: Clock Synchronization StatusA.11.1 Parameter Description: Orderwire_GeneralA.11.3 Parameter Description: Orderwire_F1 Data PortA.11.4 Parameter Description: Orderwire_Broadcast Data PortA.10.3 Parameter Description: Auxiliary PortsA.11.5 Parameter Description: Environment Monitoring Interface
3.4.7 Technical SpecificationsThis section describes the board specifications, including the packet switching capacity, cross-connection capability, clock performance, wayside service port performance, board mechanicalbehavior, and board power consumption.
Packet Switching CapacityThe CSH supports a 10 Gbit/s packet switching capacity.
Cross-Connection CapabilityThe CSH supports full time division cross-connections (equivalent to 32x32 VC-4s) at theVC-12, VC-3, or VC-4 level.
Clock Timing and Synchronization PerformanceClock timing and synchronization performance meets related ITU-T Recommendations.
Table 3-26 Clock timing and synchronization performance
Item Performance
External synchronizationsource
2048 kbit/s (compliant with ITU-T G.703 §9), or 2048 kHz(compliant with ITU-T G.703 §13)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
45
Item Performance
Frequency accuracy Compliant with ITU-T G.813
Pull-in and pull-out ranges
Noise generation
Noise tolerance
Noise transfer
Transient response andholdover performance
Wayside Service Interface Performance
Table 3-27 Wayside service interface performance
Item Performance
Transmission path Uses the Huawei-defined bytes in the overhead of themicrowave frame.
Nominal bit rate (kbit/s) 2048
Impedance (ohm) 120
Interface characteristics Meets the ITU-T G.703 standard.
Mechanical Behavior
Table 3-28 Mechanical behavior
Item Performance
Dimensions (H x W x D) 22.36 mm x 193.80 mm x 269.73 mm
Weight 0.74 kg
Power Consumption
Power Consumption: < 25.3 W
3.5 IF1The IF1 is a medium-capacity SDH IF board. The IF1 uses the DC-I power distribution mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
46
3.5.1 Version DescriptionThe functional version of the IF1 is SL91.
3.5.2 Functions and FeaturesThe IF1 receives and transmits one IF signal, provides management channels to the ODU, andsupplies the required -48 V power to the ODU.
Table 3-29 lists the functions and features that the IF1 supports.
Table 3-29 Functions and features that the IF1 supports
Function and Feature Description
Basic functions l Receives and transmits one IF signal.l Provides management channels to the ODU.l Supplies the required -48 V power to the ODU.
Radio type TU/STM-1-based radio
Radio work mode See Technical Specifications of the IF1.
Protection 1+1 HSB/FD/SD protection
Supported
N+1 protection Supported
SNCP Supported
License Supports control on the air interface capacity by usingthe license file.
K byte pass-through Supported
Clock Clock source Clock at the air interface
Clockprotection
Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the SSM protocol (supported
only in SDH radio mode)l Protection by running the extended SSM protocol
(supported only in SDH radio mode)
DCN Inband DCN Not supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
47
Function and Feature Description
Outband DCN l The PDH radio mode supports one DCC that iscomposed of one DCC byte if the capacity is lessthan 16xE1.
l The PDH radio mode supports one DCC that iscomposed of three DCC bytes if the capacity isequal to or more than 16xE1.
l The SDH radio mode supports one DCC that iscomposed of three DCC bytes, nine DCC bytes, ortwelve DCC bytes.
OM Loopback Supports the following loopback types:l Inloops at IF portsl Outloops at IF portsl Inloops at composite portsl Outloops at composite ports
Warm reset andcold reset
Supported
In-serviceFPGA loading
Supported
Boardmanufacturinginformationquery
Supported
Board powerconsumptioninformationquery
Supported
Boardtemperaturedetection
Supported
Board powerdetection
Supported
3.5.3 Working Principle and Signal FlowThis section describes how to process one IF signal, and it serves as an example to describe theworking principle and signal flow of the IF1.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
48
Functional Block Diagram
Figure 3-20 Functional block diagram of the IF1Backplane
Cross-connect unitI F
IF processing unit
System control and communication unit
System control and communication unit
MODEM unit
Power supply
unit
SMODEM unit
Clock unit
Logic control unit
ODU control signal
Paired board
Microwave frame signal
HSM signal bus
Service bus
Overhead bus
Control bus
System clock signal
-48 V
+3.3 V
-48 V power supplied to the ODU
+3.3 V power supplied to the other units on the board
Clock signal provided to the other units on the board
Logic processing unit
MU
X/D
EM
UX
unit
Com
binerInterface
unit
Signal Processing in the Receive Direction
Table 3-30 Signal processing in the receive direction of the IF1
Step Function Unit Processing Flow
1 Combiner interfaceunit
Divides the received IF signals into ODU control signalsand microwave service signals.
2 SMODEM unit l Demodulates ODU control signals.l Transmits the ODU control signals to the system
control and communication unit.
3 IF processing unit l Controls the level of service signals through theautomatic gain control (AGC) circuit.
l Filters signals.l Performs A/D conversion.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
49
Step Function Unit Processing Flow
4 MODEM unit l Performs digital demodulation.l Performs time domain adaptive equalization.l Performs FEC decoding and generates specific
alarms.
5 MUX/DEMUX unit(for SDH microwavesignal processing)
l Synchronizes frames and detects R_LOS and R_LOFalarms.
l Performs descrambling.l Checks B1 and B2 bytes and generates specific alarms
and performance events.l Checks link IDs and generates specific alarms.l Checks the M1 byte and bits 6-8 of the K2 byte, and
generates specific alarms and performance events.l Detects the changes in the SSM in the S1 byte and
reports the SSM status to the system control andcommunication unit.
l Detects changes in ATPC messages and returnedmicrowave messages and reports the changes to thesystem control and communication unit over thecontrol bus.
l Extracts orderwire bytes, auxiliary channel bytesincluding F1 and SERIAL bytes, DCC bytes, and Kbytes, and transmits the overhead signal to the logicprocessing unit.
l Extracts wayside service bytes to form another 2 Mbit/s overhead signal and transmits the 2 Mbit/s overheadsignal to the logic processing unit.
l Adjusts AU pointers and generates specificperformance events.
l Checks higher order path overheads and generatesspecific alarms and performance events.
l Transmits pointer indication signals and VC-4 signalsto the logic processing unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
50
Step Function Unit Processing Flow
MUX/DEMUX unit(for PDH microwavesignal processing)
l Detects microwave frame headers in PDH radio modeand generates specific alarms and performance events.
l Verifies parity bits in microwave frames in PDH radiomode and generates specific alarms and performanceevents.
l Checks link IDs in microwave frames in PDH radiomode and generates specific alarms and performanceevents.
l Detects changes in ATPC messages and returnedmicrowave messages in PDH radio mode and reportsthe changes to the system control and communicationunit over the control bus.
l Extracts orderwire bytes, auxiliary channel bytesincluding F1 and SERIAL bytes, and DCC bytes inmicrowave frames in PDH radio mode and transmitsthe overhead signals to the logic processing unit.
l Adjusts TU pointers.l Maps TU-12s in microwave frames in PDH radio
mode to the specific positions in VC-4s.
6 Logic processingunit
l Processes clock signals.l Transmits overhead signals to the system control and
communication unit.l Transmits VC-4 signals and pointer indication signals
to the main and standby cross-connect units.
NOTE
In 1+1 FD/SD mode, the MUX/DEMUX unit transmits service signals over the HSM bus to the MUX/DEMUXunit of the paired board. The main MUX/DEMUX unit selects the higher quality signals for subsequentprocessing.
Signal Processing in the Transmit Direction
Table 3-31 Signal processing in the transmit direction of the IF1
Step Function Unit Processing Flow
1 Logic processingunit
l Processes clock signals.l Demultiplexes 2 Mbit/s overhead signals from 8 Mbit/
s overhead signals.l Receives VC-4 signals and pointer indication signals
from the cross-connect unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
51
Step Function Unit Processing Flow
2 MUX/DEMUX unit(for SDH microwavesignal processing)
l Sets higher order path overheads.l Sets AU pointers.l Sets multiplex section overhead bytes.l Sets regenerator section overhead bytes.l Performs scrambling.
MUX/DEMUX unit(for PDH microwavesignal processing)
l Demaps TU-12s from the VC-4 signals.l Sets the microwave frame overheads in PDH radio
mode.
3 MODEM unit l Performs FEC coding.l Performs digital modulation.
4 IF processing unit l Performs D/A conversion.l Performs analog modulation.
5 SMODEM unit Modulates the ODU control signals transmitted from thesystem control and communication unit.
6 Combiner interfaceunit
Combines the ODU control signals, microwave servicesignals, and -48 V power supplies and transmits thecombined signals to the IF cable.
Control Signal Processing
The board is directly controlled by the CPU unit on the system control and communication unit.The CPU unit issues configuration and query commands to the other units of the board over thecontrol bus. These units then report command responses, alarms, and performance events to theCPU unit over the control bus.
The logic control unit decodes the address read/write signals from the CPU unit of the systemcontrol and communication unit.
Power Supply Unit
The power supply unit performs the following functions:
l Performs soft-start and filtering operations for the -48 V power received from the powersupply bus in the backplane and supplies -48 V power to the ODU after performing DC-DC conversion.
l Receives the +3.3 V power from the power supply bus in the backplane and supplies the+3.3 V power to the other units on the board.
Clock Unit
This unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
52
3.5.4 Front PanelThere are indicators, an IF port, an ODU power switch, and labels on the front panel.
Front Panel Diagram
Figure 3-21 Front panel of the IF1
PULL
IF1 IF I O
ODU-PWR
STA
TS
RV
LIN
KO
DU
RM
TA
CT
WARNING-48V OUTPUTTURN OFF POWER BEFOREDISCONNECTING IF CABLE
IF1
Indicators
Table 3-32 Status explanation for indicators on the IF1
Indicator State Meaning
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
LINK On (green) The radio link is normal.
On (red) The radio link is faulty.
ODU On (green) The ODU is workingproperly.
On (red) l The ODU is reportingcritical or major alarms.
l There is no powersupplied to the ODU.
On (yellow) The ODU is reporting minoralarms.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
53
Indicator State Meaning
Blinks on (yellow) and off at300 ms intervals
The antennas are not aligned.
RMT On (yellow) The remote equipment isreporting defects.
Off The remote equipment is freeof defects.
ACT On (green) l In a 1+1 protected system,the board works as theactive one.
l In an unprotected system,the board has beenactivated.
Off l In a 1+1 protected system,the board works as thestandby one.
l In an unprotected system,the board is not activated.
Ports
Table 3-33 Description of the Ports
Port Description Connector Type CorrespondingCable
IF IF port TNC IF jumperb
ODU-PWRa ODU power switch - -
NOTE
a: The ODU-PWR switch is equipped with a lockup device. To turn on or turn off the switch, you need tofirst pull the switch lever slightly outwards. When the switch is set to "O", it indicates that the circuit isopen. When the switch is set to "I", it indicates that the circuit is closed.
b: A 5D IF cable is connected to an IF board; therefore, an IF jumper is not required.
Labels
There is a high temperature warning label, an operation warning label, and an operation guidancelabel on the front panel.
The high temperature warning label indicates that the board surface temperature may exceed70°C when the ambient temperature is higher than 55°C. If surface temperature reaches thislevel, you need to wear protective gloves before handling the board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
54
The operation warning label indicates that the ODU-PWR switch must be turned off before theIF cable is removed.
The operation guidance label indicates that the switch must be pulled slightly outwards beforethe switch is set to the "I" or "O" position.
3.5.5 Valid SlotsThe IF1 can be inserted in slots 1-6. The logical slots of the IF1 on the NMS are the same as thephysical slots.
Figure 3-22 Slots for the IF1 in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (IF1)
Slot 3 (IF1)
Slot 1 (IF1)
Slot 8
Slot 6 (IF1)
Slot 4 (IF1)
Slot 2 (IF1)
An ODU is not allocated a physical slot but it has a logical slot on the NMS. The logical slotnumber of the ODU is equal to the logical slot number of the IF board that is connected to theODU plus 20.
Figure 3-23 Logical slots of the IF1 on the NMS
Slot 7
Slot 5 (IF1)
Slot 3 (IF1)
Slot 1 (IF1)
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 8
Slot 6 (IF1)
Slot 4 (IF1)
Slot 2 (IF1)
Slot 25 (ODU)
Slot 23 (ODU)
Slot 21 (ODU)
Slot 26 (ODU)
Slot 24 (ODU)
Slot 22 (ODU)
Table 3-34 Slot allocation
Item Description
Slot allocation priority Slots 3 and 5 > Slots 4 and 6 > Slots 1 and 2
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
55
NOTEUse two IF boards in paired slots to configure a 1+1 FD/SD IF protection group. Specifically, slots 1 and2, slots 3 and 5, and slots 4 and 6 are paired slots respectively.
3.5.6 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the IF1.
Related ReferencesA.5.5.1 Parameter Description: IF Interface_IF AttributeA.5.5.2 Parameter Description: IF Interface_ATPC AttributeA.5.9.2 Parameter Description: VC-4 POHs
3.5.7 Technical SpecificationsThis section describes the board specifications, including radio work modes, IF performance,modem performance, board mechanical behavior, and board power consumption.
Radio Work Modes
Table 3-35 SDH/PDH microwave work modes (IF1 board)
Service Capacity Modulation Scheme Channel Spacing (MHz)
4xE1 QPSK 7
4xE1 16QAM 3.5
8xE1 QPSK 14 (13.75)
8xE1 16QAM 7
16xE1 QPSK 28 (27.5)
16xE1 16QAM 14 (13.75)
22xE1 32QAM 14 (13.75)
26xE1 64QAM 14 (13.75)
35xE1 16QAM 28 (27.5)
44xE1 32QAM 28 (27.5)
53xE1 64QAM 28 (27.5)
STM-1 128QAM 28 (27.5)
NOTE
The channel spacings supported by the OptiX RTN 950 comply with ETSI standards. Channel spacings3.5/7/14/28/40/56 MHz apply to most frequency bands; but channel spacings 3.5/7/13.75/27.5/40/55 MHz applyto the 18 GHz frequency band.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
56
IF Performance
Table 3-36 IF performance
Item Performance
IF signal Transmit frequency of the IF board (MHz) 350
Receive frequency of the IF board (MHz) 140
ODU O&M signal Modulation scheme ASK
Transmit frequency of the IF board (MHz) 5.5
Receive frequency of the IF board (MHz) 10
Interface impedance (ohm) 50
Baseband Signal Processing Performance of the Modem
Table 3-37 Baseband signal processing performance of the modem
Item Performance
Encoding mode l Reed-Solomon (RS) encoding for PDH microwave signalsl Trellis-coded modulation (TCM) and RS two-level encoding for
SDH microwave signals
Adaptive time-domain equalizer forbaseband signals
Supported
Mechanical Behavior
Table 3-38 Mechanical behavior
Item Performance
Dimensions (H x W x D) 19.82 mm x 193.80 mm x 225.80 mm
Weight 0.72 kg
Power ConsumptionPower consumption: < 12 W
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
57
3.6 IFU2The IFU2 is a universal IF board that supports the Integrated IP radio mode. The IFU2 uses theDC-I power distribution mode.
3.6.1 Version DescriptionThe functional version of the IFU2 is SL91.
3.6.2 Functions and FeaturesThe IFU2 receives and transmits one IF signal, provides management channels to the ODU, andsupplies the required -48 V power to the ODU.
Table 3-39 lists the functions and features that the IFU2 supports. The IFU2 needs to work withthe packet switching unit to implement Ethernet service functions.
Table 3-39 Functions and features that the IFU2 supports
Function and Feature Description
Basic functions l Receives and transmits one IF signal.l Provides management channels to the ODU.l Supplies the required -48 V power to the ODU.
Radio type Integrated IP radioNOTE
The Integrated IP radio is compatible with the Hybrid radioand the Packet radio.
Service categories Native E1 + EthernetNOTE
Ethernet services can be native Ethernet services or packetservices that are encapsulated into PWE3 packets.
AM Supported
E1 priority Supported only in Integrated IP radio mode with nativeTDM services being E1 services
Radio work mode See Technical Specifications of the IFU2.
Protection 1+1 HSB/FD/SD protection
Supported
N+1 protection Supported
SNCP for TDMservices
Supported
License Air interfacecapacity license
Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
58
Function and Feature Description
AM license Supported
Clock at thephysical layer
Clock source Clock at the air interface
Clockprotection
Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the SSM protocoll Protection by running the extended SSM protocol
DCN Inband DCN Supported.The DCN bandwidth is configurable.
Outband DCN Supports one DCC that is composed of three DCCbytes.
Ethernet service functions See Table 3-40.
MPLS functions See the description of MPLS/PWE3 functions providedin the section for the system control, switching, andtiming board.PWE3 functions
OM Loopback Supports the following loopback types:l Inloops and outloops at IF portsl Inloops and outloops at composite portsl Inloops at the MAC layer of IF_ETH portsNOTE
An IF_ETH port is an internal Ethernet port on the IF boardoperating in Integrated IP radio mode and is used to receiveor transmit Ethernet services transmitted in Integrated IPradio mode.
Cold reset andwarm reset
Supported
In-serviceFPGA loading
Supported
PRBS BER testat IF ports
Supported
Boardmanufacturinginformationquery
Supported
Board powerconsumptioninformationquery
Supported
Boardtemperaturedetection
Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
59
Function and Feature Description
Board powerdetection
Supported
Table 3-40 Ethernet service functions that the IFU2 supports
Function and Feature Description
Ethernetservices
E-Line services Supports the following types of E-Line services:l E-Line services based on portsl E-Line services based on port+VLANl E-Line services carried by QinQ linksl E-Line services carried by PWs
E-LAN services Supports the following types of E-LAN services:l E-LAN services based on IEEE 802.1d bridgesl E-LAN services based on IEEE 802.1q bridgesl E-LAN services based on IEEE 802.1ad bridges
ERPS Supports the ERPS function that complies with ITU-TG.8032/Y.1344.
OAM l Supports IEEE 802.1ag-compliant ETH-OAMfunction.
l Supports IEEE 802.3ah-compliant ETH-OAMfunction.
l Supports the packet loss, delay, and delay variationmonitoring function that complies with ITU-T Y.1731.
LAG Supported
Spanning tree protocol Supports the MSTP protocol that generates only theCIST. The MSTP protocol provides functionsequivalent to that of the RSTP protocol.
QoS See the description of QoS functions provided in thesection for the system control, switching, and timingboard.
RMON Supported
3.6.3 Working Principle and Signal FlowThis section describes how to process one IF signal in Integrated IP radio mode, and it servesas an example to describe the working principle and signal flow of the IFU2.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
60
Functional Block Diagram
Figure 3-24 Functional block diagram of the IFU2
MU
X/D
EM
UX
unit
Backplane
Cross-connect unit
I F
System control and communication unit
System control and communication unit
MODEM unit
Power supply
unit
SMODEM unit
Clock unit
Logic control unit
ODU control signal
Paired board
Microwave frame signal
HSM signal bus
Service bus
Overhead bus
GE busPacket switching unit
Control bus
Ethernet processing
unit
-48 V power supplied to the ODU
+3.3 V power supplied to the other units on the board
Clock signal provided to the other units on the board
+3.3 V power supplied to the monitoring circuit
System clock signal
-48 V1
-48 V2
+3.3 V
Logic processing
unit
IF processing unit
Com
biner interface unit
Signal Processing in the Receive Direction
Table 3-41 Signal processing in the receive direction of the IFU2
Step Function Unit Processing Flow
1 Combiner interfaceunit
Divides the received IF signals into ODU control signalsand microwave service signals.
2 SMODEM unit l Demodulates ODU control signals.l Transmits the ODU control signals to the system
control and communication unit.
3 IF processing unit l Filters signals.l Performs A/D conversion.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
61
Step Function Unit Processing Flow
4 MODEM unit l Performs digital demodulation.l Performs time domain adaptive equalization.l Performs FEC decoding and generates specific
alarms.
5 MUX/DEMUX unit l Detects microwave frame headers in Integrated IPradio mode and generates specific alarms andperformance events.
l Verifies parity bits in microwave frames in IntegratedIP radio mode and generates specific alarms andperformance events.
l Checks link IDs in microwave frames in Integrated IPradio mode and generates specific alarms andperformance events.
l Detects changes in ATPC messages and returnedmicrowave messages in Integrated IP radio mode andreports the changes to the system control andcommunication unit over the control bus.
l Extracts auxiliary channel bytes including orderwirebytes, F1 and SERIAL bytes, SSM bytes, and DCCbytes in microwave frames and transmits the overheadsignals to the logic processing unit.
l Maps E1 service signals in Integrated IP radio modeto the specific positions in VC-4s and then transmitsthe VC-4s to the logic processing unit.
l Extracts the Ethernet service signals from microwaveframs and transmits to the Ethernet processing unit.
6 Ethernet processingunit
l Processes the GE signals received from the MUX/DEMUX unit.
l Sends the processed signals to the main and standbypacket switching units.
7 Logic processingunit
l Processes clock signals.l Transmits the overhead signals to the system control
and communication unit.l Transmits VC-4 signals and pointer indication signals
to the main and standby cross-connect units.
NOTE
In 1+1 FD/SD mode, the MUX/DEMUX unit transmits service signals over the HSM bus to the MUX/DEMUXunit of the paired board. The main MUX/DEMUX unit selects the higher quality signals for subsequentprocessing.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
62
Signal Processing in the Transmit Direction
Table 3-42 Signal processing in the transmit direction of the IFU2
Step Function Unit Processing Flow
1 Logic processingunit
l Processes clock signals.l Processes overhead signals.l Receives VC-4 signals and pointer indication signals
from the cross-connect unit.
2 Ethernet processingunit
l Receives GE signal from the packet switching unit.l Processes GE signals.
3 MUX/DEMUX unit l Demaps E1 signals from the VC-4 signals.l Sets the microwave frame overheads in Integrated IP
radio mode.l Combines the E1 signals, Ethernet signals, and
microwave frame overheads to form microwaveframes.
4 MODEM unit l Performs FEC coding.l Performs digital modulation.
5 IF processing unit l Performs D/A conversion.l Performs analog modulation.l Filters signals.l Amplifies signals.
6 SMODEM unit Modulates the ODU control signals transmitted from thesystem control and communication unit.
7 Combiner interfaceunit
Combines the ODU control signals, microwave servicesignals, and -48 V power supplies and transmits thecombined signals to the IF cable.
Control Signal Processing
The board is directly controlled by the CPU unit on the system control and communication unit.The CPU unit issues configuration and query commands to the other units of the board over thecontrol bus. These units then report command responses, alarms, and performance events to theCPU unit over the control bus.
The logic control unit decodes the address read/write signals from the CPU unit of the systemcontrol and communication unit.
Power Supply Unit
The power supply unit performs the following functions:
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
63
l Performs soft-start and filtering operations for the -48 V power received from the powersupply bus in the backplane and supplies -48 V power to the ODU after performing DC-DC conversion.
l Performs soft-start and filtering operations for the -48 V power received from the powersupply bus in the backplane and supplies +3.3 V power to the other units on the IFU2 afterperforming DC-DC conversion.
Clock UnitThis unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.6.4 Front PanelThere are indicators, an IF port, an ODU power switch, and labels on the front panel.
Front Panel Diagram
Figure 3-25 Front panel of the IFU2
IFU
2
PULL
IF I O
ODU-PWR
STA
TSR
VLI
NK
OD
UR
MT
ACT
WARNING-48V OUTPUTTURN OFF POWER BEFOREDISCONNECTING IF CABLE
IFU
2
Indicators
Table 3-43 Status explanation for indicators on the IFU2
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarm occurs in theservices.
On (yellow) A minor or remote alarm occurs in theservices.
LINK On (green) The radio link is normal.
On (red) The radio link is faulty.
ODU On (green) The ODU is working properly.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
64
Indicator State Meaning
On (red) l The ODU is reporting critical or majoralarms.
l There is no power supplied to the ODU.
On (yellow) The ODU is reporting minor alarms.
Blinks on (yellow)and off at 300 msintervals
The antennas are not aligned.
RMT On (yellow) The remote equipment is reporting defects.
Off The remote equipment is free of defects.
ACT On (green) l In a 1+1 protected system, the boardworks as the active one.
l In an unprotected system, the board hasbeen activated.
Off l In a 1+1 protected system, the boardworks as the standby one.
l In an unprotected system, the board is notactivated.
Ports
Table 3-44 Description of the Ports
Port Description Connector Type CorrespondingCable
IF IF port TNC IF jumperb
ODU-PWRa ODU power switch - -
NOTE
a: The ODU-PWR switch is equipped with a lockup device. To turn on or turn off the switch, you need tofirst pull the switch lever slightly outwards. When the switch is set to "O", it indicates that the circuit isopen. When the switch is set to "I", it indicates that the circuit is closed.
b: A 5D IF cable is connected to an IF board; therefore, an IF jumper is not required.
LabelsThere is a high temperature warning label, an operation warning label, and an operation guidancelabel on the front panel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
65
The high temperature warning label indicates that the board surface temperature may exceed70°C when the ambient temperature is higher than 55°C. If surface temperature reaches thislevel, you need to wear protective gloves before handling the board.
The operation warning label indicates that the ODU-PWR switch must be turned off before theIF cable is removed.
The operation guidance label indicates that the switch must be pulled slightly outwards beforethe switch is set to the "I" or "O" position.
3.6.5 Valid SlotsThe IFU2 can be inserted in slots 1-6. The logical slots of the IFU2 on the NMS are the sameas the physical slots.
Figure 3-26 Slots for the IFU2 in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (IFU2)
Slot 3 (IFU2)
Slot 1 (IFU2)
Slot 8
Slot 6 (IFU2)
Slot 4 (IFU2)
Slot 2 (IFU2)
An ODU is not allocated a physical slot but it has a logical slot on the NMS. The logical slotnumber of the ODU is equal to the logical slot number of the IF board that is connected to theODU plus 20.
Figure 3-27 Logical slots of the IFU2 on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (IFU2)
Slot 3 (IFU2)
Slot 1 (IFU2)
Slot 8
Slot 6 (IFU2)
Slot 4 (IFU2)
Slot 2 (IFU2)
Slot 25 (ODU)
Slot 23 (ODU)
Slot 21 (ODU)
Slot 26 (ODU)
Slot 24 (ODU)
Slot 22 (ODU)
Table 3-45 Slot allocation
Item Description
Slot allocation priority Slots 3 and 5 > Slots 4 and 6 > Slots 1 and 2
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
66
NOTEUse two IF boards in paired slots to configure a 1+1 FD/SD IF protection group. Specifically, slots 1 and2, slots 3 and 5, and slots 4 and 6 are paired slots respectively.
3.6.6 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the IFU2.
Related ReferencesA.5.5.1 Parameter Description: IF Interface_IF AttributeA.5.5.2 Parameter Description: IF Interface_ATPC AttributeA.5.5.3 Parameter Description: Hybrid_AM Configuration_Advanced AttributesA.5.9.3 Parameter Description: VC-12 POHsA.5.4.1 Parameter Description: Microwave Interface_Basic AttributesA.5.4.2 Parameter Description: Microwave Interface_Layer 2 AttributesA.5.4.3 Parameter Description: Microwave Interface_Layer 3 AttributesA.5.4.4 Parameter Description: Microwave Interface_Advanced Attributes
3.6.7 Technical SpecificationsThis section describes the board specifications, including radio work modes, IF performance,modem performance, board mechanical behavior, and board power consumption.
Radio Work Modes
Table 3-46 Integrated IP microwave work modes (IFU2 board)
Channel Spacing(MHz)
ModulationScheme
MaximumNumber of E1s inHybridMicrowave
Native EthernetThroughput(Mbit/s)
7 QPSK 5 9 to 12
7 16QAM 10 20 to 24
7 32QAM 12 24 to 29
7 64QAM 15 31 to 37
7 128QAM 18 37 to 44
7 256QAM 21 43 to 51
14 (13.75) QPSK 10 20 to 23
14 (13.75) 16QAM 20 41 to 48
14 (13.75) 32QAM 24 50 to 59
14 (13.75) 64QAM 31 65 to 76
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
67
Channel Spacing(MHz)
ModulationScheme
MaximumNumber of E1s inHybridMicrowave
Native EthernetThroughput(Mbit/s)
14 (13.75) 128QAM 37 77 to 90
14 (13.75) 256QAM 43 90 to 104
28 (27.5) QPSK 20 41 to 48
28 (27.5) 16QAM 40 82 to 97
28 (27.5) 32QAM 52 108 to 125
28 (27.5) 64QAM 64 130 to 150
28 (27.5) 128QAM 75 160 to 180
28 (27.5) 256QAM 75 180 to 210
56 (55) QPSK 40 82 to 97
56 (55) 16QAM 75 165 to 190
56 (55) 32QAM 75 208 to 240
56 (55) 64QAM 75 260 to 310
56 (55) 128QAM 75 310 to 360
56 (55) 256QAM 75 360 to 420
NOTE
For the integrated IP microwave work mode that the IFU2/IFX2 board supports:
l The throughput specifications listed in the tables are based on untagged Ethernet frames with a lengthranging from 64 bytes to 1518 bytes
l E1 services need to occupy the corresponding bandwidth of the air interface capacity. The bandwidthremaining after the E1 service capacity is subtracted from the air interface capacity can be providedfor Ethernet services.
IF Performance
Table 3-47 IF performance
Item Performance
IF signal Transmit frequency of the IF board (MHz) 350
Receive frequency of the IF board (MHz) 140
ODU O&M signal Modulation scheme ASK
Transmit frequency of the IF board (MHz) 5.5
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
68
Item Performance
Receive frequency of the IF board (MHz) 10
Interface impedance (ohm) 50
Baseband Signal Processing Performance of the Modem
Table 3-48 Baseband signal processing performance of the modem
Item Performance
Encoding mode LDPC encoding
Adaptive time-domain equalizer forbaseband signals
Supported
Mechanical Behavior
Table 3-49 Mechanical behavior
Item Performance
Dimensions (H x Wx D)
19.82 mm x 193.80 mm x 225.80 mm
Weight 0.79 kg
Power ConsumptionPower consumption: < 23 W
3.7 IFX2The IFX2 is a universal IF board that supports the XPIC function in Integrated IP radio mode.The IFX2 uses the DC-I power distribution mode.
3.7.1 Version DescriptionThe functional version of the IFX2 is SL91.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
69
3.7.2 Functions and FeaturesThe IFX2 receives and transmits one IF signal, provides management channels to the ODU, andsupplies the required -48 V power to the ODU. The IFX2 supports cross-polarization interferencecancellation (XPIC) processing for IF signals.
Table 3-50 lists the functions and features that the IFX2 supports.
Table 3-50 Functions and features that the IFX2 supports
Function and Feature Description
Basic functions l Receives and transmits one IF signal.l Provides management channels to the ODU.l Supplies the required -48 V power to the ODU.
Radio type Integrated IP radioNOTE
Integrated IP radio is compatible with Hybrid radio and Packetradio.
Service categories Native E1 + EthernetNOTE
Ethernet services can be Native Ethernet services or packetservices that are encapsulated into PWE3 packets.
AM Supported
E1 priority Supported only in Integrated IP radio mode, in whichnative TDM services are E1 services
XPIC Supported
Radio work mode See Technical Specifications of the IFX2.
Protection 1+1 HSB/FD/SD protection
Supported
N+1 protection Supported
SNCP for TDMservices
Supported
License Air interfacecapacity license
Supported
AM license Supported
Clock at thephysical layer
Clock source Clock at an air interface
Clockprotection
Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the SSM protocoll Protection by running the extended SSM protocol
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
70
Function and Feature Description
DCN Inband DCN Supported.The DCN bandwidth is configurable.
Outband DCN Supports one DCC that is composed of three DCCbytes.
Ethernet service features See Table 3-51.
MPLS functions See the description of the MPLS/PWE3 functions thatthe system control, switching, and timing boardsupports.PWE3 functions
OM Loopback Supports the following loopback types:l Inloops and outloops at IF portsl Inloops and outloops at multiplexing portsl Inloops at the MAC layer of IF_ETH portsNOTE
An IF_ETH port is an internal Ethernet port on the IF boardoperating in Integrated IP radio mode and is used to receiveor transmit Ethernet services transmitted in Integrated IPradio mode.
Cold reset andwarm reset
Supported
In-serviceFPGA loading
Supported
PRBS BER testat IF ports
Supported
Boardmanufacturinginformationquery
Supported
Board powerconsumptioninformationquery
Supported
Boardtemperaturedetection
Supported
Board voltagedetection
Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
71
Table 3-51 Ethernet service functions that the IFX2 supports
Function and Feature Description
Ethernetservices
E-Line services Supports the following types of E-Line services:l E-Line services based on portsl E-Line services based on port+VLANl E-Line services carried by QinQ linksl E-Line services carried by PWs
E-LAN services Supports the following types of E-LAN services:l E-LAN services based on IEEE 802.1d bridgesl E-LAN services based on IEEE 802.1q bridgesl E-LAN services based on IEEE 802.1ad bridges
ERPS Supports the ERPS function that complies with ITU-TG.8032/Y.1344.
ETH-OAM l Supports IEEE 802.1ag-compliant ETH-OAMfunction.
l Supports IEEE 802.3ah-compliant ETH-OAMfunction.
l Supports the packet loss, delay, and delay variationmonitoring function that complies with ITU-T Y.1731.
LAG Supported
Spanning tree protocol Supports the MSTP protocol that generates only theCIST. The MSTP protocol provides functionsequivalent to that of the RSTP protocol.
QoS See the description of the QoS functions that the systemcontrol, switching, and timing board supports.
RMON Supported
3.7.3 Working Principle and Signal FlowThis section describes how to process one IF signal in Integrated IP radio mode, and it servesas an example to describe the working principle and signal flow of the IFX2.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
72
Functional Block Diagram
Figure 3-28 Functional block diagram of the IFX2Backplane
Cross-connect unit
IF
System control and communication unit
System control and communication unit
MODEM unit
Clock unit
Logic control unit
ODU control signal
Paired board
Microwave frame signal
HSM signal bus
Service bus
Overhead bus
GE busPacket switching unit
Control bus
Ethernet processing
unitXPIC signal
SMODEM unit
-48 V power supplied to the ODU
+3.3 V power supplied to the other units on the board
Clock signal provided to the other units on the board
+3.3 V power supplied to the monitoring circuit
System clock signal
-48 V1
-48 V2
+3.3 V
Paired XPIC board
Power supply
unit
Logic processing
unit
MU
X/D
EM
UX
unit
IF processing
unit
Com
biner interface
unit
Signal Processing in the Receive Direction
Table 3-52 Signal processing in the receive direction of the IFX2
Step Function Unit Processing Flow
1 Combiner interfaceunit
Divides the received IF signals into ODU control signalsand microwave service signals.
2 SMODEM unit l Demodulates ODU control signals.l Transmits the ODU control signals to the system
control and communication unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
73
Step Function Unit Processing Flow
3 IF processing unit l Filters the received signals and splits the signals to twochannels of signals.– Performs A/D conversion for one channel of
filtered signals and transmits the converted signalsto the MODEM unit.
– Outputs the other channel of filtered signals as theXPIC signals.
l Performs A/D conversion for XPIC signalstransmitted from the paired IFX2 and transmits theconverted signals to the MODEM unit.
4 MODEM unit l Performs digital demodulation by using XPIC IFsignals transmitted from the paired IFX2 as referencesignals.
l Performs XPIC operations for IF signals.l Performs time domain adaptive equalization.l Performs FEC decoding and generates specific
alarms.
5 MUX/DEMUX unit l Detects microwave frame headers in Integrated IPradio mode and generates specific alarms andperformance events.
l Verifies parity bits in microwave frames in IntegratedIP radio mode and generates specific alarms andperformance events.
l Checks link IDs in microwave frames in Integrated IPradio mode and generates specific alarms.
l Detects changes in ATPC messages and returnedmicrowave messages in Integrated IP radio mode andreports the changes to the system control andcommunication unit over the control bus.
l Extracts orderwire bytes, auxiliary channel bytesincluding F1 and SERIAL bytes, DCC bytes, and SSMbytes in microwave frames in Integrated IP radio modeand transmits the overhead signal to the logicprocessing unit.
l Maps E1 service signals in Integrated IP radio modeto the specific positions in VC-4s and then transmitsthe VC-4s to the logic processing unit.
l Extracts the Ethernet service signals from microwaveframes in Integrated IP radio mode and transmits tothe Ethernet processing unit.
6 Ethernet processingunit
l Processes the GE signals received from the MUX/DEMUX unit.
l Sends the processed signals to the main and standbypacket switching units.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
74
Step Function Unit Processing Flow
7 Logic processingunit
l Processes clock signals.l Transmits the overhead signals to the system control
and communication unit.l Transmits VC-4 signals and pointer indication signals
to the main and standby cross-connect units.
NOTE
In 1+1 FD/SD mode, the MUX/DEMUX unit transmits service signals over the HSM bus to the MUX/DEMUXunit of the paired board. The main MUX/DEMUX unit selects the higher quality signals for subsequentprocessing.
Signal Processing in the Transmit Direction
Table 3-53 Signal processing in the transmit direction of the IFX2
Step Function Unit Processing Flow
1 Logic processingunit
l Processes clock signals.l Processes overhead signals.l Receives VC-4 signals and pointer indication signals
from the cross-connect unit.
2 Ethernet processingunit
l Receives GE signals from the packet switching unit.l Processes GE signals.
3 MUX/DEMUX unit l Demaps E1 signals from the VC-4 signals.l Sets the microwave frame overheads in Integrated IP
radio mode.l Combines the E1 signals, Ethernet signals and
microwave frame overheads to form microwaveframes.
4 MODEM unit l Performs FEC coding.l Performs digital modulation.
5 IF processing unit l Performs D/A conversion.l Performs analog modulation.l Filters signals.l Amplifies signals.
6 SMODEM unit Modulates the ODU control signals transmitted from thesystem control and communication unit.
7 Combiner interfaceunit
Combines the ODU control signals, microwave servicesignals, and -48 V power supplies and transmits thecombined signals to the IF cable.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
75
Control Signal Processing
The board is directly controlled by the CPU unit on the system control and communication unit.The CPU unit issues configuration and query commands to the other units of the board over thecontrol bus. These units then report command responses, alarms, and performance events to theCPU unit over the control bus.
The logic control unit decodes the address read/write signals from the CPU unit of the systemcontrol and communication unit.
Power Supply Unit
The power supply unit performs the following functions:
l Performs soft-start and filtering operations for the -48 V power received from the powersupply bus in the backplane and supplies -48 V power to the ODU after performing DC-DC conversion.
l Performs soft-start and filtering operations for the -48 V power received from the powersupply bus in the backplane and supplies +3.3 V power to the other units on the IFX2 afterperforming DC-DC conversion.
Clock Unit
This unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.7.4 Front PanelThere are indicators, an IF port, XPIC signal ports, an ODU power switch, and labels on thefront panel.
Front Panel Diagram
Figure 3-29 Front panel of the IFX2
IFX
2
IF I O
ODU-PWR
STA
TSR
VLI
NK
OD
UR
MT
ACT
WARNING-48V OUTPUTTURN OFF POWER BEFOREDISCONNECTING IF CABLE
IFX
2
X-IN X-OUTPULL XPIC
Indicators
Table 3-54 Status explanation for indicators on the IFX2
Indicator State Meaning
XPIC On (green) The XPIC input signal isnormal.
On (red) The XPIC input signal is lost.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
76
Indicator State Meaning
Off The XPIC function isdisabled.
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
LINK On (green) The radio link is normal.
On (red) The radio link is faulty.
ODU On (green) The ODU is workingproperly.
On (red) l The ODU is reportingcritical or major alarms.
l There is no powersupplied to the ODU.
On (yellow) The ODU is reporting minoralarms.
Blinks on (yellow) and off at300 ms intervals
The antennas are not aligned.
RMT On (yellow) The remote equipment isreporting defects.
Off The remote equipment is freeof defects.
ACT On (green) l In a 1+1 protected system,the board works as theactive one.
l In an unprotected system,the board has beenactivated.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
77
Indicator State Meaning
Off l In a 1+1 protected system,the board works as thestandby one.
l In an unprotected system,the board is not activated.
Ports
Table 3-55 Description of the ports
Port Description Connector Type CorrespondingCable
IF IF port TNC IF jumperb
ODU-PWRa ODU power switch - -
X-IN XPIC signal inputport
SMA XPIC cable
X-OUT XPIC signal outputport
SMA
NOTE
a: The ODU-PWR switch is equipped with a lockup device. To turn on or turn off the switch, you need tofirst pull the switch lever slightly outwards. When the switch is set to "O", it indicates that the circuit isopen. When the switch is set to "I", it indicates that the circuit is closed.
b: A 5D IF cable is connected to an IF board; therefore, an IF jumper is not required.
LabelsThere is a high temperature warning label, an operation warning label, and an operation guidancelabel on the front panel.
The high temperature warning label indicates that the board surface temperature may exceed70°C when the ambient temperature is higher than 55°C. If surface temperature reaches thislevel, you need to wear protective gloves before handling the board.
The operation warning label indicates that the ODU-PWR switch must be turned off before theIF cable is removed.
The operation guidance label indicates that the switch must be pulled slightly outwards beforethe switch is set to the "I" or "O" position.
3.7.5 Valid SlotsThe IFX2 can be inserted in slots 1-6. The logical slots of the IFX2 on the NMS are the sameas the physical slots.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
78
Figure 3-30 Slots for the IFX2 in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (IFX2)
Slot 3 (IFX2)
Slot 1 (IFX2)
Slot 8
Slot 6 (IFX2)
Slot 4 (IFX2)
Slot 2 (IFX2)
An ODU is not allocated a physical slot but it has a logical slot on the NMS. The logical slotnumber of the ODU is equal to the logical slot number of the IF board that is connected to theODU plus 20.
Figure 3-31 Logical slots for the logical boards of the IFX2
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (IFX2)
Slot 3 (IFX2)
Slot 1 (IFX2)
Slot 8
Slot 6 (IFX2)
Slot 4 (IFX2)
Slot 2 (IFX2)
Slot 25 (ODU)
Slot 23 (ODU)
Slot 21 (ODU)
Slot 26 (ODU)
Slot 24 (ODU)
Slot 22 (ODU)
Table 3-56 Slot allocation
Item Description
Slot allocation priority Slots 3 and 5 > Slots 4 and 6 > Slots 1 and 2
NOTEUse two IF boards in paired slots to configure a 1+1 FD/SD IF protection group. Specifically, slots 1 and2, slots 3 and 5, and slots 4 and 6 are paired slots respectively.
NOTEOne IFX2 pair must be installed on the same row or adjacently in the same column.
3.7.6 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the IFX2.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
79
Related ReferencesA.5.5.1 Parameter Description: IF Interface_IF AttributeA.5.5.2 Parameter Description: IF Interface_ATPC AttributeA.5.5.3 Parameter Description: Hybrid_AM Configuration_Advanced AttributesA.5.9.3 Parameter Description: VC-12 POHsA.5.4.1 Parameter Description: Microwave Interface_Basic AttributesA.5.4.2 Parameter Description: Microwave Interface_Layer 2 AttributesA.5.4.3 Parameter Description: Microwave Interface_Layer 3 AttributesA.5.4.4 Parameter Description: Microwave Interface_Advanced Attributes
3.7.7 Technical SpecificationsThis section describes the board specifications, including radio work modes, IF performance,modem performance, board mechanical behavior, and board power consumption.
Radio Work Modes
Table 3-57 Integrated IP microwave work modes (IFX2 board)
Channel Spacing(MHz)
ModulationScheme
MaximumNumber of E1s inHybridMicrowave
Native EthernetThroughput(Mbit/s)
7 QPSK 4 9 to 11
7 16QAM 9 19 to 23
7 32QAM 11 24 to 29
7 64QAMa 14 31 to 36
14 (13.75) QPSK 9 20 to 23
14 (13.75) 16QAM 19 40 to 47
14 (13.75) 32QAM 24 50 to 59
14 (13.75) 64QAM 30 63 to 73
14 (13.75) 128QAMa 36 75 to 88
28 (27.5) QPSK 19 41 to 48
28 (27.5) 16QAM 40 84 to 97
28 (27.5) 32QAM 49 103 to 120
28 (27.5) 64QAM 63 130 to 150
28 (27.5) 128QAM 75 160 to 180
28 (27.5) 256QAM 75 180 to 210
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
80
Channel Spacing(MHz)
ModulationScheme
MaximumNumber of E1s inHybridMicrowave
Native EthernetThroughput(Mbit/s)
56 (55) QPSK 39 83 to 97
56 (55) 16QAM 75 165 to 190
56 (55) 32QAM 75 210 to 245
56 (55) 64QAM 75 260 to 305
56 (55) 128QAM 75 310 to 360
56 (55) 256QAM 75 360 to 410
NOTEFor the IFX2 board, the microwave work modes are the same regardless of whether the XPIC function isenabled or disabled.
a: When the XPIC function is enabled for the IFX2 board, the 64QAM/7MHz and 128QAM/14MHzmodulation schemes do not apply to ODUs whose frequency band ranges from 26 GHz to 38 GHz.
NOTE
For the integrated IP microwave work mode that the IFU2/IFX2 board supports:
l The throughput specifications listed in the tables are based on untagged Ethernet frames with a lengthranging from 64 bytes to 1518 bytes
l E1 services need to occupy the corresponding bandwidth of the air interface capacity. The bandwidthremaining after the E1 service capacity is subtracted from the air interface capacity can be providedfor Ethernet services.
IF Performance
Table 3-58 IF performance
Item Performance
IF signal Transmit frequency of the IF board (MHz) 350
Receive frequency of the IF board (MHz) 140
ODU O&M signal Modulation scheme ASK
Transmit frequency of the IF board (MHz) 5.5
Receive frequency of the IF board (MHz) 10
Interface impedance (ohm) 50
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
81
Baseband Signal Processing Performance of the Modem
Table 3-59 Baseband signal processing performance of the modem
Item Performance
Encoding mode LDPC encoding
Adaptive time-domain equalizer forbaseband signals
Supported
Mechanical Behavior
Table 3-60 Mechanical behavior
Item Performance
Dimensions (H x Wx D)
19.82 mm x 193.80 mm x 225.80 mm
Weight 0.80 kg
Power ConsumptionPower consumption: < 33 W
3.8 ISU2The ISU2 is a universal IF board that supports the Integrated IP radio mode and SDH radio modeat the same time. The ISU2 uses the DC-I power distribution mode.
3.8.1 Version DescriptionThe functional version of the ISU2 is SL91.
3.8.2 Functions and FeaturesThe ISU2 receives and transmits one IF signal, provides management channels to the ODU, andsupplies the required -48 V power to the ODU.
Table 3-61 lists the functions and features that the ISU2 supports. The ISU2 needs to work withthe packet switching unit to implement Ethernet service functions.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
82
Table 3-61 Functions and features
Function and Feature Description
Basic functions l Receives and transmits one IF signal.l Provides management channels to the ODU.l Supplies the required -48 V power to the ODU.
Radio type l Integrated IP radiol SDH radioNOTE
The Integrated IP radio is compatible with the Hybrid radioand the Packet radio.
Service categories in Integrated IPradio mode
l Native E1 + Ethernetl Native STM-1 + EthernetNOTE
Ethernet services can be native Ethernet services or packetservices that are encapsulated into PWE3 packets.
Service categories in SDH radiomode
l STM-1l 2xSTM-1
AM Supported only in Integrated IP radio mode
Ethernet frame header compression Supported
E1 priority Supported only in Integrated IP radio mode with nativeTDM services being E1 services
Radio work mode See Technical Specifications of the ISU2.
Link-levelprotection
1+1 HSB/FD/SD protection
Supported
N+1 protection Supported
LAG protectionat air interfaces
Supported
TDM service protection SNCP
K byte pass-through Supported
PLA Supported
Ethernet service functions See Table 3-62.
MPLS functions See the description of MPLS/PWE3 functions providedin the section for the system control, switching, andtiming board.PWE3 functions
License Air interfacecapacity license
Supported
AM license Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
83
Function and Feature Description
Clock at thephysical layer
Clock source Clock at the air interface
Clockprotection
Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the SSM protocoll Protection by running the extended SSM protocol
DCN Inband DCN Supported
Outband DCN l Supports one DCC that is composed of three DCCbytes for each channel in Integrated IP radio mode.
l Supports one DCC that is composed of D1-D3bytes, D4-D12 bytes, or D1-D12 bytes, for eachchannel in SDH radio mode.
OM Loopback Supports the following loopback types:l Inloops and outloops at IF portsl Inloops and outloops at composite ports
Cold reset andwarm reset
Supported
In-serviceFPGA loading
Supported
PRBS BER testat IF ports
Supported
Boardmanufacturinginformationquery
Supported
Board powerconsumptioninformationquery
Supported
Boardtemperaturedetection
Supported
Board powerdetection
Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
84
Table 3-62 Ethernet service functions
Function and Feature Description
Ethernetservices
E-Line services Supports the following types of E-Line services:l E-Line services based on portsl E-Line services based on port+VLANl E-Line services carried by QinQ linksl E-Line services carried by PWs
E-LAN services Supports the following types of E-LAN services:l E-LAN services based on IEEE 802.1d bridgesl E-LAN services based on IEEE 802.1q bridgesl E-LAN services based on IEEE 802.1ad bridges
ERPS Supports the ERPS function that complies with ITU-TG.8032/Y.1344.
OAM l Supports IEEE 802.1ag-compliant ETH-OAMfunction.
l Supports IEEE 802.3ah-compliant ETH-OAMfunction.
l Supports the packet loss, delay, and delay variationmonitoring function that complies with ITU-T Y.1731.
LAG Supported
Spanning tree protocol Supports the MSTP protocol that generates only theCIST. The MSTP protocol provides functionsequivalent to that of the RSTP protocol.
QoS See the description of QoS functions provided in thesection for the system control, switching, and timingboard.
RMON Supported
3.8.3 Working Principle and Signal FlowThis section describes how to process one IF signal in Integrated IP radio mode, and it servesas an example to describe the working principle and signal flow of the ISU2.
NOTE
The ISU2 adopts the same principle to process signals transmitted/received in Integrated IP radio modeand signals transmitted/received in SDH radio mode. The difference is with regard to the microwave framestructure and processed service categories.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
85
Functional Block Diagram
Figure 3-32 Functional block diagram of the ISU2
Backplane
Cross-connect unit
IF
IF processing unit
Logic processing
unit
MU
X/D
EM
UX
unit
MO
DE
M unit
Com
biner interface unit
Power supply
unit
SMODEM unit
Clock unit
Logic control unit
ODU control signal
Paired board
Microwave frame signal
HSM signal bus
Service bus
Overhead bus
GE busPacket switching unit
Control bus
-48 V2
-48 V power supplied to the ODU
+3.3 V power supplied to the other units on the board
System clock signalClock signal provided to the other units on the board
Ethernet
processing unit
+3.3 V
-48 V1
+3.3 V power supplied to the monitoring circuit
System control and communication unit
System control and communication unit
Signal Processing in the Receive Direction
Table 3-63 Signal processing in the receive direction of the ISU2
Step Function Unit Processing Flow
1 Combiner interfaceunit
Divides the received IF signals into ODU control signalsand microwave service signals.
2 SMODEM unit l Demodulates ODU control signals.l Transmits the ODU control signals to the system
control and communication unit.
3 IF processing unit l Filters signals.l Performs A/D conversion.
4 MODEM unit l Performs digital demodulation.l Performs time domain adaptive equalization.l Performs FEC decoding and generates specific
alarms.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
86
Step Function Unit Processing Flow
5 MUX/DEMUX unit l Detects microwave frame headers and generatesspecific alarms and performance events.
l Verifies parity bits in microwave frames and generatesspecific alarms and performance events.
l Checks link IDs in microwave frames and generatesspecific alarms and performance events.
l Detects changes in ATPC messages and returnedmicrowave messages and reports the changes to thesystem control and communication unit over thecontrol bus.
l Extracts orderwire bytes, auxiliary channel bytesincluding F1 and SERIAL bytes, and DCC bytes inmicrowave frames and transmits to the logicprocessing unit.
l Maps E1 service signals to the specific positions inVC-4s and then transmits the VC-4s to the logicprocessing unit, if native TDM services in IntegratedIP radio mode are E1 services.
l Demaps VC-4s from STM-1 service signals and thentransmits the VC-4s to the logic processing unit, ifnative TDM services in Integrated IP radio mode areSTM-1 services.
l Extracts the Ethernet service signals from microwaveframs and transmits to the Ethernet processing unit.
6 Ethernet processingunit
l Processes the GE signals received from the MUX/DEMUX unit.
l Sends the processed signals to the main and standbypacket switching units.
7 Logic processingunit
l Processes clock signals.l Transmits the overhead signals to the system control
and communication unit.l Transmits VC-4 signals and pointer indication signals
to the main and standby cross-connect units.
NOTE
In 1+1 FD/SD mode, the MUX/DEMUX unit transmits service signals over the HSM bus to the MUX/DEMUXunit of the paired board. The main MUX/DEMUX unit selects the higher quality signals for subsequentprocessing.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
87
Signal Processing in the Transmit Direction
Table 3-64 Signal processing in the transmit direction of the ISU2
Step Function Unit Processing Flow
1 Logic processingunit
l Processes clock signals.l Processes overhead signals.l Receives VC-4 signals and pointer indication signals
from the cross-connect unit.
2 Ethernet processingunit
l Receives GE signals from the packet switching unit.l Processes GE signals.
3 MUX/DEMUX unit l Demaps E1 signals from the VC-4 signals that arefrom the logic processing unit, if native TDM servicesin Integrated IP radio mode are E1 services.
l Adds overheads to the VC-4 signals that are from thelogic processing unit to form STM-1 signals, if nativeTDM services in Integrated IP radio mode are STM-1services.
l Sets microwave frame overheads.l Combines the E1/STM-1 signals, Ethernet signals,
and microwave frame overheads to form microwaveframes.
4 MODEM unit l Performs FEC coding.l Performs digital modulation.
6 IF processing unit l Performs D/A conversion.l Performs analog modulation.l Filters signals.l Amplifies signals.
7 SMODEM unit Modulates the ODU control signals transmitted from thesystem control and communication unit.
8 Combiner interfaceunit
Combines the ODU control signals, microwave servicesignals, and -48 V power supplies and transmits thecombined signals to the IF cable.
Control Signal Processing
The board is directly controlled by the CPU unit on the system control and communication unit.The CPU unit issues configuration and query commands to the other units of the board over thecontrol bus. These units then report command responses, alarms, and performance events to theCPU unit over the control bus.
The logic control unit decodes the address read/write signals from the CPU unit of the systemcontrol and communication unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
88
Power Supply Unit
The power supply unit performs the following functions:
l Performs soft-start and filtering operations for the -48 V power received from the powersupply bus in the backplane and supplies -48 V power to the ODU after performing DC-DC conversion.
l Performs soft-start and filtering operations for the -48 V power received from the powersupply bus in the backplane and supplies +3.3 V power to the other units on the ISU2 afterperforming DC-DC conversion.
Clock Unit
This unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.8.4 Front PanelThere are indicators, an IF port, an ODU power switch, and labels on the front panel.
Front Panel Diagram
Figure 3-33 Front panel of the ISU2
ISU
2
IF I O
ODU-PWR
STA
TSR
VLI
NK
OD
UR
MT
ACT
WARNING-48V OUTPUTTURN OFF POWER BEFOREDISCONNECTING IF CABLE
ISU
2
PULL
Indicators
Table 3-65 Status explanation for indicators on the ISU2
Indicator State Meaning
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
89
Indicator State Meaning
On (yellow) A minor or remote alarmoccurs in the services.
LINK On (green) The radio link is normal.
On (red) The radio link is faulty.
ODU On (green) The ODU is workingproperly.
On (red) l The ODU is reportingcritical or major alarms.
l There is no powersupplied to the ODU.
On (yellow) The ODU is reporting minoralarms.
Blinks on (yellow) and off at300 ms intervals
The antennas are not aligned.
RMT On (yellow) The remote equipment isreporting defects.
Off The remote equipment is freeof defects.
ACT On (green) l In a 1+1 protected system,the board works as theactive one.
l In an unprotected system,the board has beenactivated.
Off l In a 1+1 protected system,the board works as thestandby one.
l In an unprotected system,the board is not activated.
Ports
Table 3-66 Description of the Ports
Port Description Connector Type CorrespondingCable
IF IF port TNC IF jumperb
ODU-PWRa ODU power switch - -
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
90
NOTE
a: The ODU-PWR switch is equipped with a lockup device. To turn on or turn off the switch, you need tofirst pull the switch lever slightly outwards. When the switch is set to "O", it indicates that the circuit isopen. When the switch is set to "I", it indicates that the circuit is closed.
b: A 5D IF cable is connected to an IF board; therefore, an IF jumper is not required.
LabelsThere is a high temperature warning label, an operation warning label, and an operation guidancelabel on the front panel.
The high temperature warning label indicates that the board surface temperature may exceed70°C when the ambient temperature is higher than 55°C. If surface temperature reaches thislevel, you need to wear protective gloves before handling the board.
The operation warning label indicates that the ODU-PWR switch must be turned off before theIF cable is removed.
The operation guidance label indicates that the switch must be pulled slightly outwards beforethe switch is set to the "I" or "O" position.
3.8.5 Valid SlotsThe ISU2 can be inserted in slots 1-6. The logical slots of the ISU2 on the NMS are the sameas the physical slots.
Figure 3-34 Slots for the ISU2 in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (ISU2)
Slot 3 (ISU2)
Slot 1 (ISU2)
Slot 8
Slot 6 (ISU2)
Slot 4 (ISU2)
Slot 2 (ISU2)
An ODU is not allocated a physical slot but it has a logical slot on the NMS. The logical slotnumber of the ODU is equal to the logical slot number of the IF board that is connected to theODU plus 20.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
91
Figure 3-35 Logical slots of the ISU2 on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (ISU2)
Slot 3 (ISU2)
Slot 1 (ISU2)
Slot 8
Slot 6 (ISU2)
Slot 4 (ISU2)
Slot 2 (ISU2)
Slot 25 (ODU)
Slot 23 (ODU)
Slot 21 (ODU)
Slot 26 (ODU)
Slot 24 (ODU)
Slot 22 (ODU)
Table 3-67 Slot allocation
Item Description
Slot allocation priority Slots 3 and 5 > Slots 4 and 6 > Slots 1 and 2
NOTEUse two IF boards in paired slots to configure a 1+1 FD/SD IF protection group. Specifically, slots 1 and2, slots 3 and 5, and slots 4 and 6 are paired slots respectively.
3.8.6 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the ISU2.
Related ReferencesA.5.5.1 Parameter Description: IF Interface_IF AttributeA.5.5.2 Parameter Description: IF Interface_ATPC AttributeA.5.5.3 Parameter Description: Hybrid_AM Configuration_Advanced AttributesA.5.9.2 Parameter Description: VC-4 POHsA.5.9.3 Parameter Description: VC-12 POHsA.5.4.1 Parameter Description: Microwave Interface_Basic AttributesA.5.4.2 Parameter Description: Microwave Interface_Layer 2 AttributesA.5.4.3 Parameter Description: Microwave Interface_Layer 3 AttributesA.5.4.4 Parameter Description: Microwave Interface_Advanced Attributes
3.8.7 Technical SpecificationsThis section describes the board specifications, including radio work modes, IF performance,modem performance, board mechanical behavior, and board power consumption.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
92
Radio Work Modes
Table 3-68 SDH microwave work modes (ISU2 board)
Service Capacity Modulation Scheme Channel Spacing (MHz)
STM-1 128QAM 28 (27.5)
2xSTM-1 128QAM 56 (55)
Table 3-69 Integrated IP microwave work modes (ISU2 board, Native E1 + Ethernet service)
ChannelSpacing(MHz)
ModulationScheme
MaximumNumber ofE1s inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
3.5 QPSK 2 4 to 5 4 to 6 4 to 6 4 to 10
3.5 16QAM 4 9 to 11 9 to 13 9 to 13 9 to 20
7 QPSK 5 10 to 13 10 to 15 10 to 22 10 to 33
7 16QAM 10 20 to 26 20 to 30 20 to 44 20 to 66
7 32QAM 12 25 to 32 25 to 36 25 to 54 25 to 80
7 64QAM 15 31 to 40 31 to 47 31 to 67 31 to 100
7 128QAM 18 37 to 47 37 to 56 37 to 80 37 to 119
7 256QAM 20 41 to 53 41 to 62 41 to 90 42 to 134
14 (13.75) QPSK 10 20 to 26 20 to 31 20 to 44 20 to 66
14 (13.75) 16QAM 20 41 to 52 41 to 61 41 to 89 41 to 132
14 (13.75) 32QAM 24 51 to 65 51 to 77 51 to 110 51 to 164
14 (13.75) 64QAM 31 65 to 83 65 to 96 65 to 140 65 to 209
14 (13.75) 128QAM 37 76 to 97 76 to 113 76 to 165 76 to 245
14 (13.75) 256QAM 42 87 to 111 87 to 131 87 to 189 88 to 281
28 (27.5) QPSK 20 41 to 52 41 to 62 41 to 89 41 to 132
28 (27.5) 16QAM 40 82 to 105 82 to 124 82 to 178 83 to 265
28 (27.5) 32QAM 52 107 to 136 107 to 161 107 to 230 107 to 343
28 (27.5) 64QAM 64 131 to 168 131 to 198 131 to 283 132 to 424
28 (27.5) 128QAM 75 155 to 198 155 to 233 155 to 333 156 to 495
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
93
ChannelSpacing(MHz)
ModulationScheme
MaximumNumber ofE1s inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
28 (27.5) 256QAM 75 181 to 230 181 to 272 181 to 388 182 to 577
40 QPSK 27 56 to 72 56 to 84 56 to 122 57 to 182
40 16QAM 55 114 to 145 114 to 172 114 to 247 114 to 366
40 32QAM 71 147 to 187 147 to 221 147 to 318 148 to 474
40 64QAM 75 181 to 230 181 to 272 181 to 388 182 to 583
40 128QAM 75 215 to 272 215 to 323 215 to 456 216 to 691
40 256QAM 75 249 to 318 249 to 375 249 to 538 251 to 800
56 (55) QPSK 40 82 to 105 82 to 124 82 to 178 83 to 265
56 (55) 16QAM 75 166 to 212 166 to 250 165 to 356 167 to 533
56 (55) 32QAM 75 206 to 262 206 to 308 206 to 437 207 to 659
56 (55) 64QAM 75 262 to 333 262 to 388 262 to 567 264 to 836
56 (55) 128QAM 75 309 to 396 309 to 466 309 to 656 311 to 983
56 (55) 256QAM 75 360 to 456 360 to 538 360 to 777 362 to 1000
Table 3-70 Integrated IP microwave work modes (ISU2 board, Native STM-1 + Ethernet service)
ChannelSpacing(MHz)
ModulationScheme
Number ofSTM-1Services inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
28 (27.5) 128QAM 1 155 to 198 155 to 233 155 to 333 156 to 495
28 (27.5) 256QAM 1 181 to 230 181 to 272 181 to 388 182 to 577
40 64QAM 1 181 to 230 181 to 272 181 to 388 182 to 583
40 128QAM 1 215 to 272 215 to 323 215 to 456 216 to 691
40 256QAM 1 249 to 318 249 to 375 249 to 538 251 to 800
56 (55) 16QAM 1 166 to 212 166 to 250 165 to 356 167 to 533
56 (55) 32QAM 1 206 to 262 206 to 308 206 to 437 207 to 659
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
94
ChannelSpacing(MHz)
ModulationScheme
Number ofSTM-1Services inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
56 (55) 64QAM 1 262 to 333 262 to 388 262 to 567 264 to 836
56 (55) 128QAM 1 309 to 396 309 to 466 309 to 656 311 to 983
56 (55) 256QAM 1 360 to 456 360 to 538 360 to 777 362 to 1000
NOTE
For the integrated IP microwave work mode that the ISU2/ISX2 board supports:
l The throughput specifications listed in the tables are based on the following conditions.
l Without compression: untagged Ethernet frames with a length ranging from 64 bytes to 9600 bytes
l With L2 frame header compression: untagged Ethernet frames with a length ranging from 64 bytes to9600 bytes
l With L2+L3 frame header compression (IPv4): untagged Ethernet frames with a length ranging from64 bytes to 9600 bytes
l With L2+L3 frame header compression (IPv6): S-tagged Ethernet frames with a length ranging from 92bytes to 9600 bytes
l E1/STM-1 services need to occupy the corresponding bandwidth of the air interface capacity. The bandwidthremaining after the E1/STM-1 service capacity is subtracted from the air interface capacity can be providedfor Ethernet services.
IF Performance
Table 3-71 IF performance
Item Performance
IF signal Transmit frequency of the IF board (MHz) 350
Receive frequency of the IF board (MHz) 140
ODU O&M signal Modulation scheme ASK
Transmit frequency of the IF board (MHz) 5.5
Receive frequency of the IF board (MHz) 10
Interface impedance (ohm) 50
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
95
Baseband Signal Processing Performance of the Modem
Table 3-72 Baseband signal processing performance of the modem
Item Performance
Encoding mode LDPC encoding
Adaptive time-domain equalizer forbaseband signals
Supported
Mechanical Behavior
Table 3-73 Mechanical behavior
Item Performance
Dimensions (H x Wx D)
19.82 mm x 193.80 mm x 225.80 mm
Weight 0.60 kg
Power Consumption
Power consumption: < 22 W
3.9 ISX2The ISX2 is a universal XPIC IF board and provides the XPIC function for signals transmitted/received in Integrated IP radio mode and SDH radio mode. The ISX2 uses the DC-I powerdistribution mode.
3.9.1 Version DescriptionThe functional version of the ISX2 is SL91.
3.9.2 Functions and FeaturesThe ISX2 receives and transmits one IF signal, provides management channels to the ODU, andsupplies the required -48 V power to the ODU. In addition, the ISX2 provides the cross-polarization interference cancellation (XPIC) function for IF signals by transmitting/receivingXPIC reference signals.
Table 3-74 lists the functions and features that the ISX2 supports. The ISX2 needs to work withthe packet switching unit to implement Ethernet service functions and packet service functions.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
96
Table 3-74 Functions and features
Function and Feature Description
Basic functions l Receives and transmits one IF signal.l Provides management channels to the ODU.l Supplies the required -48 V power to the ODU.
Radio type l Integrated IP radiol SDH radioNOTE
The integrated IP radio is compatible with the Hybrid radioand the Packet radio.
Service categories in Integrated IPradio mode
l Native E1 + Ethernetl Native STM-1 + EthernetNOTE
Ethernet services can be native Ethernet services or packetservices that are encapsulated into PWE3 packets.
Service categories in SDH radiomode
l STM-1l 2xSTM-1
AM Supported only in integrated IP radio mode
Ethernet frame header compression Supported
E1 priority Supported only in integrated IP radio mode with nativeTDM services being E1 services
XPIC Supported
Radio work mode See Technical Specifications of the ISX2.
Link-levelprotection
1+1 HSB/FD/SD protection
Supported
N+1 protection Supported
LAG protectionat air interfaces
Supported
TDM service protection SNCP
K byte pass-through Supported
PLA Supported
Ethernet service functions See Table 3-75.
MPLS functions See the description of MPLS/PWE3 functions providedin the section for the system control, switching, andtiming board.PWE3 functions
License Air interfacecapacity license
Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
97
Function and Feature Description
AM license Supported
Clock at thephysical layer
Clock source Clock at the air interface
Clockprotection
Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the SSM protocoll Protection by running the extended SSM protocol
DCN Inband DCN Supported
Outband DCN l Supports one DCC that is composed of three DCCbytes for each channel in Integrated IP radio mode.
l Supports one DCC that is composed of D1-D3bytes, D4-D12 bytes, or D1-D12 bytes, for eachchannel in SDH radio mode.
OM Loopback Supports the following loopback types:l Inloops and outloops at IF portsl Inloops and outloops at composite ports
Cold reset andwarm reset
Supported
In-serviceFPGA loading
Supported
PRBS BER testat IF ports
Supported
Boardmanufacturinginformationquery
Supported
Board powerconsumptioninformationquery
Supported
Boardtemperaturedetection
Supported
Board powerdetection
Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
98
Table 3-75 Ethernet service functions
Function and Feature Description
Ethernetservices
E-Line services Supports the following types of E-Line services:l E-Line services based on portsl E-Line services based on port+VLANl E-Line services carried by QinQ linksl E-Line services carried by PWs
E-LAN services Supports the following types of E-LAN services:l E-LAN services based on IEEE 802.1d bridgesl E-LAN services based on IEEE 802.1q bridgesl E-LAN services based on IEEE 802.1ad bridges
ERPS Supports the ERPS function that complies with ITU-TG.8032/Y.1344.
OAM l Supports IEEE 802.1ag-compliant ETH-OAMfunction.
l Supports IEEE 802.3ah-compliant ETH-OAMfunction.
l Supports the packet loss, delay, and delay variationmonitoring function that complies with ITU-T Y.1731.
LAG Supported
Spanning tree protocol Supports the MSTP protocol that generates only theCIST. The MSTP protocol provides functionsequivalent to that of the RSTP protocol.
QoS See the description of QoS functions provided in thesection for the system control, switching, and timingboard.
RMON Supported
3.9.3 Working Principle and Signal FlowThis section describes how to process one IF signal in Integrated IP radio mode, and it servesas an example to describe the working principle and signal flow of the ISX2.
NOTE
The ISX2 adopts the same principle to process signals transmitted/received in Integrated IP radio modeand signals transmitted/received in SDH radio mode. The difference is with regard to the microwave framestructure and processed service types.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
99
Functional Block Diagram
Figure 3-36 Functional block diagram of the ISX2Backplane
Cross-connect unit
IF
System control and communication unit
System control and communication unit
MODEM unit
Clock unit
Logic control unit
ODU control signal
Paired board
Microwave frame signal
HSM signal bus
Service bus
Overhead bus
GE busPacket switching unit
Control bus
Ethernet processing
unitXPIC signal
SMODEM unit
-48 V power supplied to the ODU
+3.3 V power supplied to the other units on the board
Clock signal provided to the other units on the board
+3.3 V power supplied to the monitoring circuit
System clock signal
-48 V1
-48 V2
+3.3 V
Paired XPIC board
Power supply
unit
Logic processing
unit
MU
X/D
EM
UX
unit
IF processing
unit
Com
biner interface
unit
Signal Processing in the Receive Direction
Table 3-76 Signal processing in the receive direction of the ISX2
Step Function Unit Processing Flow
1 Combiner interfaceunit
Divides the received IF signals into ODU control signalsand microwave service signals.
2 SMODEM unit l Demodulates ODU control signals.l Transmits the ODU control signals to the system
control and communication unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
100
Step Function Unit Processing Flow
3 IF processing unit l Filters the received signals and splits the signals to twochannels of signals.– Performs A/D conversion for one channel of
filtered signals and transmits the converted signalsto the MODEM unit.
– Outputs the other channel of filtered signals as theXPIC signals.
l Performs A/D conversion for XPIC signalstransmitted from the paired ISX2 and transmits theconverted signals to the MODEM unit.
4 MODEM unit l Performs digital demodulation by using XPIC IFsignals transmitted from the paired ISX2 as referencesignals.
l Performs XPIC operations for IF signals.l Performs time domain adaptive equalization.l Performs FEC decoding and generates specific
alarms.
5 MUX/DEMUX unit l Detects microwave frame headers and generatesspecific alarms and performance events.
l Verifies parity bits in microwave frames and generatesspecific alarms and performance events.
l Checks link IDs in microwave frames and generatesspecific alarms and performance events.
l Detects changes in ATPC messages and returnedmicrowave messages and reports the changes to thesystem control and communication unit over thecontrol bus.
l Extracts auxiliary channel bytes including orderwirebytes, F1 and SERIAL bytes, and DCC bytes inmicrowave frames and transmits to the logicprocessing unit.
l Maps E1 service signals to the specific positions inVC-4s and then transmits the VC-4s to the logicprocessing unit, if native TDM services in IntegratedIP radio mode are E1 services.
l Demaps VC-4s from STM-1 service signals and thentransmits the VC-4s to the logic processing unit, ifnative TDM services in Integrated IP radio mode areSTM-1 services.
l Extracts the Ethernet service signals from microwaveframs and transmits to the Ethernet processing unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
101
Step Function Unit Processing Flow
6 Ethernet processingunit
l Processes the GE signals received from the MUX/DEMUX unit.
l Sends the processed signals to the main and standbypacket switching units.
7 Logic processingunit
l Processes clock signals.l Transmits the overhead signals to the system control
and communication unit.l Transmits VC-4 signals and pointer indication signals
to the main and standby cross-connect units.
NOTE
In 1+1 FD/SD mode, the MUX/DEMUX unit transmits service signals over the HSM bus to the MUX/DEMUXunit of the paired board. The main MUX/DEMUX unit selects the higher quality signals for subsequentprocessing.
Signal Processing in the Transmit Direction
Table 3-77 Signal processing in the transmit direction of the ISX2
Step Function Unit Processing Flow
1 Logic processingunit
l Processes clock signals.l Processes overhead signals.l Receives VC-4 signals and pointer indication signals
from the cross-connect unit.
2 Ethernet processingunit
l Receives GE signals from the packet switching unit.l Processes GE signals.
3 MUX/DEMUX unit l Demaps E1 signals from the VC-4 signals that arefrom the logic processing unit, if native TDM servicesin Integrated IP radio mode are E1 services.
l Adds overheads to the VC-4 signals that are from thelogic processing unit to form STM-1 signals, if nativeTDM services in Integrated IP radio mode are STM-1services.
l Sets microwave frame overheads.l Combines the E1/STM-1 signals, Ethernet signals,
and microwave frame overheads to form microwaveframes.
4 MODEM unit l Performs FEC coding.l Performs digital modulation.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
102
Step Function Unit Processing Flow
5 IF processing unit l Performs D/A conversion.l Performs analog modulation.l Filters signals.l Amplifies signals.
6 SMODEM unit Modulates the ODU control signals transmitted from thesystem control and communication unit.
7 Combiner interfaceunit
Combines the ODU control signals, microwave servicesignals, and -48 V power supplies and transmits thecombined signals to the IF cable.
Control Signal ProcessingThe board is directly controlled by the CPU unit on the system control and communication unit.The CPU unit issues configuration and query commands to the other units of the board over thecontrol bus. These units then report command responses, alarms, and performance events to theCPU unit over the control bus.
The logic control unit decodes the address read/write signals from the CPU unit of the systemcontrol and communication unit.
Power Supply UnitThe power supply unit performs the following functions:
l Performs soft-start and filtering operations for the -48 V power received from the powersupply bus in the backplane and supplies -48 V power to the ODU after performing DC-DC conversion.
l Performs soft-start and filtering operations for the -48 V power received from the powersupply bus in the backplane and supplies +3.3 V power to the other units on the ISU2 afterperforming DC-DC conversion.
Clock UnitThis unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.9.4 Front PanelThere are indicators, an IF port, XPIC signal ports, an ODU power switch, and labels on thefront panel.
Front Panel Diagram
Figure 3-37 Front panel of the ISX2
ISX
2
IF I O
ODU-PWR
STA
TSR
VLI
NK
OD
UR
MT
ACT
WARNING-48V OUTPUTTURN OFF POWER BEFOREDISCONNECTING IF CABLE
ISX
2
X-IN X-OUTPULL XPIC
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
103
Indicators
Table 3-78 Status explanation for indicators on the ISX2
Indicator State Meaning
XPIC On (green) The XPIC input signal isnormal.
On (red) The XPIC input signal is lost.
Off The XPIC function isdisabled.
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
LINK On (green) The radio link is normal.
On (red) The radio link is faulty.
ODU On (green) The ODU is workingproperly.
On (red) l The ODU is reportingcritical or major alarms.
l There is no powersupplied to the ODU.
On (yellow) The ODU is reporting minoralarms.
Blinks on (yellow) and off at300 ms intervals
The antennas are not aligned.
RMT On (yellow) The remote equipment isreporting defects.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
104
Indicator State Meaning
Off The remote equipment is freeof defects.
ACT On (green) l In a 1+1 protected system,the board works as theactive one.
l In an unprotected system,the board has beenactivated.
Off l In a 1+1 protected system,the board works as thestandby one.
l In an unprotected system,the board is not activated.
Ports
Table 3-79 Description of the ports
Port Description Connector Type CorrespondingCable
IF IF port TNC IF jumperb
ODU-PWRa ODU power switch - -
X-IN XPIC signal inputport
SMA XPIC cable
X-OUT XPIC signal outputport
SMA
NOTE
a: The ODU-PWR switch is equipped with a lockup device. To turn on or turn off the switch, you need tofirst pull the switch lever slightly outwards. When the switch is set to "O", it indicates that the circuit isopen. When the switch is set to "I", it indicates that the circuit is closed.
b: A 5D IF cable is connected to an IF board; therefore, an IF jumper is not required.
Labels
There is a high temperature warning label, an operation warning label, and an operation guidancelabel on the front panel.
The high temperature warning label indicates that the board surface temperature may exceed70°C when the ambient temperature is higher than 55°C. If surface temperature reaches thislevel, you need to wear protective gloves before handling the board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
105
The operation warning label indicates that the ODU-PWR switch must be turned off before theIF cable is removed.
The operation guidance label indicates that the switch must be pulled slightly outwards beforethe switch is set to the "I" or "O" position.
3.9.5 Valid SlotsThe ISX2 can be inserted in slots 1-6. The logical slots of the ISX2 on the NMS are the sameas the physical slots.
Figure 3-38 Slots for the ISX2 in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (ISX2)
Slot 3 (ISX2)
Slot 1 (ISX2)
Slot 8
Slot 6 (ISX2)
Slot 4 (ISX2)
Slot 2 (ISX2)
An ODU is not allocated a physical slot but it has a logical slot on the NMS. The logical slotnumber of the ODU is equal to the logical slot number of the IF board that is connected to theODU plus 20.
Figure 3-39 Logical slots of the ISX2 on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (ISX2)
Slot 3 (ISX2)
Slot 1 (ISX2)
Slot 8
Slot 6 (ISX2)
Slot 4 (ISX2)
Slot 2 (ISX2)
Slot 25 (ODU)
Slot 23 (ODU)
Slot 21 (ODU)
Slot 26 (ODU)
Slot 24 (ODU)
Slot 22 (ODU)
Table 3-80 Slot allocation
Item Description
Slot allocation priority Slots 3 and 5 > Slots 4 and 6 > Slots 1 and 2
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
106
NOTEUse two IF boards in paired slots to configure a 1+1 FD/SD IF protection group. Specifically, slots 1 and2, slots 3 and 5, and slots 4 and 6 are paired slots respectively.
NOTEOne ISX2 pair for implementing the XPIC function must be installed on the same row or adjacently in thesame column.
3.9.6 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the ISX2.
Related ReferencesA.5.5.1 Parameter Description: IF Interface_IF AttributeA.5.5.2 Parameter Description: IF Interface_ATPC AttributeA.5.5.3 Parameter Description: Hybrid_AM Configuration_Advanced AttributesA.5.9.2 Parameter Description: VC-4 POHsA.5.9.3 Parameter Description: VC-12 POHsA.5.4.1 Parameter Description: Microwave Interface_Basic AttributesA.5.4.2 Parameter Description: Microwave Interface_Layer 2 AttributesA.5.4.3 Parameter Description: Microwave Interface_Layer 3 AttributesA.5.4.4 Parameter Description: Microwave Interface_Advanced Attributes
3.9.7 Technical SpecificationsThis section describes the board specifications, including radio work modes, IF performance,modem performance, board mechanical behavior, and board power consumption.
Radio Work Modes
Table 3-81 SDH microwave work modes (ISX2 board)
Service Capacity Modulation Scheme Channel Spacing (MHz)
STM-1 128QAM 28 (27.5)
2xSTM-1 128QAM 56 (55)
NOTEFor the ISX2 board in SDH service mode, the microwave work modes are the same regardless of whetherthe XPIC function is enabled or disabled.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
107
Table 3-82 Integrated IP microwave work modes (ISX2 board, Native E1 + Ethernet service, XPIC disabled)
ChannelSpacing(MHz)
ModulationScheme
MaximumNumber ofE1s inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
7 QPSK 5 10 to 13 10 to 15 10 to 22 10 to 33
7 16QAM 10 20 to 26 20 to 30 20 to 44 20 to 66
7 32QAM 12 25 to 32 25 to 36 25 to 54 25 to 80
7 64QAM 15 31 to 40 31 to 47 31 to 67 31 to 100
7 128QAM 18 37 to 47 37 to 56 37 to 80 37 to 119
7 256QAM 20 41 to 53 41 to 62 41 to 90 42 to 134
14 (13.75) QPSK 10 20 to 26 20 to 31 20 to 44 20 to 66
14 (13.75) 16QAM 20 41 to 52 41 to 61 41 to 89 41 to 132
14 (13.75) 32QAM 24 51 to 65 51 to 77 51 to 110 51 to 164
14 (13.75) 64QAM 31 65 to 83 65 to 96 65 to 140 65 to 209
14 (13.75) 128QAM 37 76 to 97 76 to 113 76 to 165 76 to 245
14 (13.75) 256QAM 42 87 to 111 87 to 131 87 to 189 88 to 281
28 (27.5) QPSK 20 41 to 52 41 to 62 41 to 89 41 to 132
28 (27.5) 16QAM 40 82 to 105 82 to 124 82 to 178 83 to 265
28 (27.5) 32QAM 52 107 to 136 107 to 161 107 to 230 107 to 343
28 (27.5) 64QAM 64 131 to 168 131 to 198 131 to 283 132 to 424
28 (27.5) 128QAM 75 155 to 198 155 to 233 155 to 333 156 to 495
28 (27.5) 256QAM 75 181 to 230 181 to 272 181 to 388 182 to 577
40 QPSK 27 56 to 72 56 to 84 56 to 122 57 to 182
40 16QAM 55 114 to 145 114 to 172 114 to 247 114 to 366
40 32QAM 71 147 to 187 147 to 221 147 to 318 148 to 474
40 64QAM 75 181 to 230 181 to 272 181 to 388 182 to 583
40 128QAM 75 215 to 272 215 to 323 215 to 456 216 to 691
40 256QAM 75 249 to 318 249 to 375 249 to 538 251 to 800
56 (55) QPSK 40 82 to 105 82 to 124 82 to 178 83 to 265
56 (55) 16QAM 75 166 to 212 166 to 250 165 to 356 167 to 533
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
108
ChannelSpacing(MHz)
ModulationScheme
MaximumNumber ofE1s inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
56 (55) 32QAM 75 206 to 262 206 to 308 206 to 437 207 to 659
56 (55) 64QAM 75 262 to 333 262 to 388 262 to 567 264 to 836
56 (55) 128QAM 75 309 to 396 309 to 466 309 to 656 311 to 983
56 (55) 256QAM 75 360 to 456 360 to 538 360 to 777 362 to 1000
Table 3-83 Integrated IP microwave work modes (ISX2 board, Native E1 + Ethernet service, XPIC enabled)
ChannelSpacing(MHz)
ModulationScheme
MaximumNumber ofE1s inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
7 QPSK 4 10 to 13 10 to 15 10 to 22 10 to 33
7 16QAM 9 20 to 26 20 to 30 20 to 44 20 to 66
7 32QAM 11 25 to 32 25 to 36 25 to 54 25 to 80
7 64QAMa 14 31 to 40 31 to 47 31 to 67 31 to 100
14 (13.75) QPSK 9 20 to 26 20 to 31 20 to 44 20 to 66
14 (13.75) 16QAM 19 41 to 52 41 to 61 41 to 89 41 to 132
14 (13.75) 32QAM 24 51 to 65 51 to 77 51 to 110 51 to 164
14 (13.75) 64QAM 30 65 to 83 65 to 96 65 to 140 65 to 209
14 (13.75) 128QAMa 36 76 to 97 76 to 113 76 to 165 76 to 245
28 (27.5) QPSK 20 41 to 52 41 to 62 41 to 89 41 to 132
28 (27.5) 16QAM 40 82 to 105 82 to 124 82 to 178 83 to 265
28 (27.5) 32QAM 52 107 to 136 107 to 161 107 to 230 107 to 343
28 (27.5) 64QAM 64 131 to 168 131 to 198 131 to 283 132 to 424
28 (27.5) 128QAM 75 155 to 198 155 to 233 155 to 333 156 to 495
28 (27.5) 256QAM 75 181 to 230 181 to 272 181 to 388 182 to 577
40 QPSK 27 56 to 72 56 to 84 56 to 122 57 to 182
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
109
ChannelSpacing(MHz)
ModulationScheme
MaximumNumber ofE1s inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
40 16QAM 55 114 to 145 114 to 172 114 to 247 114 to 366
40 32QAM 71 147 to 187 147 to 221 147 to 318 148 to 474
40 64QAM 75 181 to 230 181 to 272 181 to 388 182 to 583
40 128QAM 75 215 to 272 215 to 323 215 to 456 216 to 691
40 256QAM 75 249 to 318 249 to 375 249 to 538 251 to 800
56 (55) QPSK 40 82 to 105 82 to 124 82 to 178 83 to 265
56 (55) 16QAM 75 166 to 212 166 to 250 165 to 356 167 to 533
56 (55) 32QAM 75 206 to 262 206 to 308 206 to 437 207 to 659
56 (55) 64QAM 75 262 to 333 262 to 388 262 to 567 264 to 836
56 (55) 128QAM 75 309 to 396 309 to 466 309 to 656 311 to 983
56 (55) 256QAM 75 360 to 456 360 to 538 360 to 777 362 to 1000
NOTEa: In 7MHz/64QAM or 14MHz/128QAM mode, ISX2 boards do not support cooperation with 26 GHz to 38 GHz ODUs if XPICis enabled on the ISX2 boards.
Table 3-84 Integrated IP microwave work modes (ISX2 board, Native STM-1 + Ethernet service)
ChannelSpacing(MHz)
ModulationScheme
Number ofSTM-1Services inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
28 (27.5) 128QAM 1 155 to 198 155 to 233 155 to 333 156 to 495
28 (27.5) 256QAM 1 181 to 230 181 to 272 181 to 388 182 to 577
40 64QAM 1 181 to 230 181 to 272 181 to 388 182 to 583
40 128QAM 1 215 to 272 215 to 323 215 to 456 216 to 691
40 256QAM 1 249 to 318 249 to 375 249 to 538 251 to 800
56 (55) 16QAM 1 166 to 212 166 to 250 165 to 356 167 to 533
56 (55) 32QAM 1 206 to 262 206 to 308 206 to 437 207 to 659
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
110
ChannelSpacing(MHz)
ModulationScheme
Number ofSTM-1Services inHybridMicrowave
Native Ethernet Throughput (Mbit/s)
WithoutCompression
With L2FrameHeaderCompression
With L2+L3FrameHeaderCompression (IPv4)
With L2+L3FrameHeaderCompression (IPv6)
56 (55) 64QAM 1 262 to 333 262 to 388 262 to 567 264 to 836
56 (55) 128QAM 1 309 to 396 309 to 466 309 to 656 311 to 983
56 (55) 256QAM 1 360 to 456 360 to 538 360 to 777 362 to 1000
NOTEFor the ISX2 board in STM-1 + Ethernet service mode, the microwave work modes are the same regardless of whether the XPICfunction is enabled or disabled.
NOTE
For the integrated IP microwave work mode that the ISU2/ISX2 board supports:
l The throughput specifications listed in the tables are based on the following conditions.
l Without compression: untagged Ethernet frames with a length ranging from 64 bytes to 9600 bytes
l With L2 frame header compression: untagged Ethernet frames with a length ranging from 64 bytes to9600 bytes
l With L2+L3 frame header compression (IPv4): untagged Ethernet frames with a length ranging from64 bytes to 9600 bytes
l With L2+L3 frame header compression (IPv6): S-tagged Ethernet frames with a length ranging from 92bytes to 9600 bytes
l E1/STM-1 services need to occupy the corresponding bandwidth of the air interface capacity. The bandwidthremaining after the E1/STM-1 service capacity is subtracted from the air interface capacity can be providedfor Ethernet services.
IF Performance
Table 3-85 IF performance
Item Performance
IF signal Transmit frequency of the IF board (MHz) 350
Receive frequency of the IF board (MHz) 140
ODU O&M signal Modulation scheme ASK
Transmit frequency of the IF board (MHz) 5.5
Receive frequency of the IF board (MHz) 10
Interface impedance (ohm) 50
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
111
Baseband Signal Processing Performance of the Modem
Table 3-86 Baseband signal processing performance of the modem
Item Performance
Encoding mode LDPC encoding
Adaptive time-domain equalizer forbaseband signals
Supported
Mechanical Behavior
Table 3-87 Mechanical behavior
Item Performance
Dimensions (H x Wx D)
19.82 mm x 193.80 mm x 225.80 mm
Weight 0.60 kg
Power ConsumptionPower consumption: < 23 W
3.10 EM6T/EM6TA/EM6F/EM6FAThe EM6T/EM6F/EM6TA/EM6FA is an FE/GE interface board, which provides four FEelectrical ports and two GE ports. The EM6T/EM6TA has similar functions to the EM6F/EM6FA. The only difference is as follows: The GE ports on the EM6T/EM6TA use fixedelectrical ports whereas the GE ports on the EM6F/EM6FA use the SFP modules and thereforecan function as two FE/GE optical or GE electrical ports. The GE electrical ports on theEM6F/EM6FA and the EM6T/EM6TA are compatible with the FE electrical ports.
NOTEEM6TA/EM6FA boards have the same functions as EM6T/EM6F boards. The only difference is thatEM6TA/EM6FA boards reserve hardware resources for the IEEE 1588v2 function.
3.10.1 Version DescriptionThe functional version of the EM6T/EM6F/EM6TA/EM6FA is SL91.
3.10.2 Functions and FeaturesThe EM6T/EM6TA/EM6F/EM6FA receives/transmits, processes, and converges four FEsignals and two GE signals. The GE port on the EM6F/EM6FA can receive/transmit 2xFE opticalsignals using FE small form-factor pluggable (SFP) optical modules.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
112
Table 3-88 lists the functions and features that the EM6T/EM6TA/EM6F/EM6FA supports.The EM6T/EM6TA/EM6F/EM6FA needs to work with the packet switching unit of the systemcontrol, switching, and timing board to implement Ethernet service functions.
Table 3-88 Functions and features
Function and Feature Description
EM6T/EM6TA EM6F/EM6FA
Basic functions Receives/Transmits FE/GE service signals and workswith the packet switching unit to process the receivedFE/GE service signals.
Portspecifications
FE electricalport
Provides four10/100BASE-T(X) ports.
Provides four10/100BASE-T(X) ports.
GE port Provides two10/100/1000BASE-T(X)ports (fixed).
Provides two GE ports byusing SFP modules of anyof the following types:l Dual-fiber
bidirectional FE/GEoptical module
l Colored CWDM GEoptical module
l Single-fiberbidirectional FE/GEmodule
l 10/100/1000BASE-T(X) GE electricalmodule
Backplane bus bandwidth 1 Gbit/s 1 Gbit/s
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
113
Function and Feature Description
EM6T/EM6TA EM6F/EM6FA
Port attributes Working mode l The FE electrical ports on EM6T/EM6F boardssupport 10M full-duplex, 10M half-duplex, 100Mfull-duplex, 100M half-duplex, and auto-negotiation.
l The FE electrical ports on EM6TA/EM6FA boardssupport 10M full-duplex, 100M full-duplex, andauto-negotiation.
l The GE electrical ports on EM6T/EM6F boardssupport 10M full-duplex, 10M half-duplex, 100Mfull-duplex, 100M half-duplex, 1000M full-duplex,and auto-negotiation.
l The GE electrical ports on EM6TA/EM6FA boardssupport 10M full-duplex, 100M full-duplex,1000M full-duplex, and auto-negotiation.
l The FE optical ports on EM6F/EM6FA boardssupport 100M full-duplex and auto-negotiation.
l The GE optical ports support 1000M full-duplexand auto-negotiation.
TAG attributes l The TAG attribute can be set to tag aware, access,or hybrid.
l Sets and queries the TAG attribute of an Ethernetport.
Jumbo frame Supports jumbo frames with a maximum frame lengthof 9600 bytes.
Traffic controlfunction
Supports the port-based traffic control function thatcomplies with IEEE 802.3x.
Services E-Line services Supports the following types of E-Line services:l E-Line services based on portsl E-Line services based on port+VLANl E-Line services based on port+QinQ
E-LAN services Supports the following types of E-LAN services:l E-LAN services based on IEEE 802.1d bridgesl E-LAN services based on IEEE 802.1q bridgesl E-LAN services based on IEEE 802.1ad bridges
LAG Inter-boardLAG
Supported Supported
Intra-boardLAG
Supported Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
114
Function and Feature Description
EM6T/EM6TA EM6F/EM6FA
ERPS Supports the ERPS function that complies with ITU-TG.8032/Y.1344.
Spanning tree protocol Supports the MSTP protocol that generates only theCIST. The MSTP protocol provides functionsequivalent to that of the RSTP protocol.
LPT Supported Supported
QoS DiffServ Supports simple traffic classification by specifyingPHB service classes for service flows based on theirQoS information (C-VLAN priorities, S-VLANpriorities, DSCP values, or MPLS EXP values) carriedby the packets.
Complex trafficclassification
Supports traffic classification at Ethernet ports basedon C-VLAN IDs, S-VLAN IDs, C-VLAN priorities, S-VLAN priorities, C-VLAN IDs + C-VLAN priorities,S-VLAN IDs + S-VLAN priorities, or DSCP valuescarried by packets.
CAR Provides the CAR function for traffic flows at ports.
Shaping Provides traffic shaping for a specific port, prioritizedqueue, or traffic flow.
Queueschedulingpolicies
Supports the following queue scheduling policies:l SPl WRRl SP+WRR
ETH OAM Ethernet serviceOAM
l Supports IEEE 802.1ag-compliant ETH-OAMfunction.
l Supports the packet loss, delay, and delay variationmonitoring function that complies with ITU-T Y.1731.
Ethernet portOAM
Supports IEEE 802.3ah-compliant ETH-OAMfunction.
RMON Supported Supported
Clock Clock source Synchronous Ethernet Synchronous Ethernet(not supported by the SFPelectrical module)
Clockprotection
Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the SSM protocoll Protection by running the extended SSM protocol
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
115
Function and Feature Description
EM6T/EM6TA EM6F/EM6FA
DCN Inband DCN Each FE/GE port provides one inband DCN channel.
OM Loopback Supports the following loopback types:l Inloops at the PHY layer of Ethernet portsl Inloops at the MAC layer of Ethernet ports
Warm reset andcold reset
Supported Supported
Boardmanufacturinginformationquery
Supported Supported
Board powerconsumptioninformationquery
Supported Supported
Board voltagedetection
Supported Supported
Boardtemperaturedetection
Supported Supported
Query of SFPmoduleinformation
Not supported Supported
3.10.3 Working Principle and Signal FlowThis section describes how to process one GE signal on the EM6T/EM6TA, and it serves as anexample to describe the working principle and signal flow of the EM6T/EM6TA/EM6F/EM6FA.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
116
Functional Block Diagram
Figure 3-40 Functional block diagram
GE signal access unit
FE signal access unit
Ethernet processing
unit
Logic processing
unit
Logic control unit
Clock unit
Backplane
Control bus of the board
System control and communication unit
Packet switching unit
GE signal
FE signal
Ethernet signal
Ethernet signal
Control bus
Control signal
Control signal
Power supply unit
System clock signal
-48 V1
-48 V2
+3.3 V
+3.3 V power supplied to the board
Clock signal provided to the other units on the board
+3.3 V power supplied to some I/O circuits on the board
GE signal
FE signal
Signal Processing in the Receive Direction
Table 3-89 Signal processing in the receive direction
Step Function Unit Processing Flow
1 GE signal accessunit/FE signal accessunit
l Receives/Transmits GE/FE signals.l Performs restructuring, decoding, and serial/parallel
conversion for GE/FE signals.l Performs frame delimitation, preamble stripping,
CRC checks, and Ethernet performance measurementfor frame signals.
2 Ethernet processingunit
l Adds tags identifying ingress ports to Ethernet dataframes.
l Processes VLAN tags in Ethernet data frames.l Processes labels in MPLS/PWE3 packets.l Performs QoS processing such as traffic classification
and CAR traffic monitoring for Ethernet data frames.l Forwards Ethernet data frames to the logic processing
unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
117
Step Function Unit Processing Flow
3 Logic processingunit
Transmits Ethernet data frames to the main and standbypacket switching units.
Signal Processing in the Transmit Direction
Table 3-90 Signal processing in the transmit direction
Step Function Unit Processing Flow
1 Logic processing unit l Selects Ethernet data frames from the packetswitching unit.
l Transmits Ethernet data frames to the Ethernetprocessing unit.
2 Ethernet processingunit
l Processes labels in MPLS/PWE3 packets.l Processes VLAN tags in Ethernet data frames.l Performs QoS processing such as traffic shaping and
queue scheduling for Ethernet data frames.l Forwards Ethernet data frames to proper egress ports
based on egress tags contained in the Ethernet dataframes.
3 GE signal accessunit/FE signal accessunit
l Performs frame delimitation, preamble addition, CRCcode computing, and Ethernet performancemeasurement.
l Performs parallel/serial conversion and coding forEthernet data frames, and sends out the generated GE/FE signals through Ethernet ports.
Control Signal ProcessingThe Ethernet processing unit controls the FE/GE signal access unit by using management controlsignals.
The logic control unit controls the Ethernet processing unit and logic processing unit over thecontrol bus on the board.
The logic control unit communicates with the main and standby system control andcommunication units over the system control bus. The configuration data and query commandsfrom the system control and communication unit are issued to the various units of the boardthrough the logic control unit. The command response reported by each unit on the board, andthe alarms and performance events are reported to the system control and communication unitalso through the logic control unit.
Power Supply UnitThe power supply unit performs the following functions:
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
118
l Receives two -48 V power supplies from the backplane, converts the -48 V power suppliesinto +3.3 V power, and then supplies the +3.3 V power to the other units on the board.
l Receives one +3.3 V power supply from the backplane and then supplies the +3.3 V powerto some I/O circuits on the board.
Clock Unit
This unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.10.4 Front PanelThere are indicators, FE service ports, and GE service ports on the front panel.
Front Panel Diagram
Figure 3-41 Front panel of the EM6T
EM
6 TST
AT
SR
V
FE1 FE2 FE3 FE4GE2GE1PRO
G
Figure 3-42 Front panel of the EM6TA
EM
6TA
STAT
SR
V
FE1 FE2 FE3 FE4GE2GE1PRO
G
Figure 3-43 Front panel of the EM6F
EM
6FST
AT
SR
V
GE2GE1LIN
K1LI
NK2
CLASS1LASER
PRODUCT
FE1 FE2 FE3 FE4PR
OG
Figure 3-44 Front panel of the EM6FA
EM
6FA
STAT
SR
V
GE2GE1
L/A1
L/A2
CLASS1LASER
PRODUCT
FE1 FE2 FE3 FE4PR
OG
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
119
Indicators
Table 3-91 Status explanation for indicators on the EM6T/EM6F
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor alarm occurs in the system.
Off There is no power supplied to the system.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the board duringthe power-on or resetting process of theboard.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting process ofthe board.
On (green) l When the board is being powered on orbeing reset, the upper layer software isbeing initialized.
l When the board is running, the softwareis running normally.
Blinks on (red) and off at 100ms intervals
The BOOTROM self-check fails during thepower-on or resetting process of the board.
On (red) l The memory self-check fails or loadingupper layer software fails during thepower-on or resetting process of theboard.
l The logic file or upper layer software islost during the running process of theboard.
l The pluggable storage card is faulty.
LINK1a On (green) The GE1 port is connected correctly and isnot receiving or transmitting data.
Blinking (green) The GE1 port is receiving or transmittingdata.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
120
Indicator State Meaning
Off The GE1 port is not connected or isconnected incorrectly.
LINK2a On (green) The GE2 port is connected correctly and isnot receiving or transmitting data.
Blinking (green) The GE2 port is receiving or transmittingdata.
Off The GE2 port is not connected or isconnected incorrectly.
NOTE
a: The LINK1 and LINK2 indicators are available only on the EM6F and indicate the states of thecorresponding GE ports.
Table 3-92 Status explanation for indicators on the EM6TA/EM6FA
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor alarm occurs in the system.
Off There is no power supplied to the system.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the board duringthe power-on or resetting process of theboard.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting process ofthe board.
On (green) l When the board is being powered on orbeing reset, the upper layer software isbeing initialized.
l When the board is running, the softwareis running normally.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
121
Indicator State Meaning
Blinks on (red) and off at 100ms intervals
The BOOTROM self-check fails during thepower-on or resetting process of the board.
On (red) The memory self-check fails or loadingupper layer software fails during the power-on or resetting process of the board.The logic file or upper layer software is lostduring the running process of the board.The pluggable storage card is faulty.
L/A1a On (green) The GE1 port is connected correctly and isnot receiving or transmitting data.
Blinking (yellow) The GE1 port is receiving or transmittingdata.
Off The GE1 port is not connected or isconnected incorrectly.
L/A2a On (green) The GE2 port is connected correctly and isnot receiving or transmitting data.
Blinking (yellow) The GE2 port is receiving or transmittingdata.
Off The GE2 port is not connected or isconnected incorrectly.
NOTE
a: The L/A1 and L/A2 indicators are available only on the EM6FA and indicate the states of thecorresponding GE ports.
Ports
Table 3-93 Description of the ports on the EM6T/EM6TA
Port Description Connector Type CorrespondingCable
GE1 GE service port (fixedelectrical port)
RJ45 Network cable
GE2
FE1 FE service port
FE2
FE3
FE4
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
122
Table 3-94 Description of the ports on the EM6F/EM6FA
Port Description Connector Type CorrespondingCable
GE1 GE service port (using SFPmodules)
RJ45 SFP electricalmodule/LC SFP opticalmodule
5.9 Network Cable/5.5Fiber Jumper
GE2
FE1 FE service port RJ45 5.9 Network Cable
FE2
FE3
FE4
NOTEOn the NMS, GE1 and GE2 correspond to PORT1 and PORT2 respectively; FE1 to FE4 correspond toPORT3 to PORT6 respectively.
The performance of the FE service ports on the EM6T/EM6TA/EM6F/EM6FA complies withthe 10/100BASE-T(X) standard; the performance of the GE service ports on the EM6T/EM6TA complies with the 10/100/1000BASE-T(X) standard; the performance of the GE serviceports on the EM6F/EM6FA complies with the 10/100/1000BASE-T(X) standard if SFPelectrical modules are used. All service ports support the MDI, MDI-X, and auto-MDI/MDI-Xmodes. For the pin assignments for the ports, see Table 3-95 and Table 3-96. For the front viewof an RJ45 connector, see Figure 3-45.
Figure 3-45 Front view of the RJ45 connector
8 7 6 5 4 3 2 1
Table 3-95 Pin assignments for the RJ45 connector in MDI mode
Pin 10/100BASE-T(X) 1000BASE-T
Signal Function Signal Function
1 TX+ Transmitting data (+) BIDA+ Bidirectional data wire A(+)
2 TX- Transmitting data (-) BIDA- Bidirectional data wire A(-)
3 RX+ Receiving data (+) BIDB+ Bidirectional data wire B(+)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
123
Pin 10/100BASE-T(X) 1000BASE-T
Signal Function Signal Function
4 Reserved - BIDC+ Bidirectional data wire C(+)
5 Reserved - BIDC- Bidirectional data wire C(-)
6 RX- Receiving data (-) BIDB- Bidirectional data wire B(-)
7 Reserved - BIDD+ Bidirectional data wire D(+)
8 Reserved - BIDD- Bidirectional data wire D(-)
Table 3-96 Pin assignments for the RJ45 connector in MDI-X mode
Pin 10/100BASE-T(X) 1000BASE-T
Signal Function Signal Function
1 RX+ Receiving data (+) BIDB+ Bidirectional data wire B(+)
2 RX- Receiving data (-) BIDB- Bidirectional data wire B(-)
3 TX+ Transmitting data (+) BIDA+ Bidirectional data wire A(+)
4 Reserved - BIDD+ Bidirectional data wire D(+)
5 Reserved - BIDD- Bidirectional data wire D(-)
6 TX- Transmitting data (-) BIDA- Bidirectional data wire A(-)
7 Reserved - BIDC+ Bidirectional data wire C(+)
8 Reserved - BIDC- Bidirectional data wire C(-)
The RJ45 connector has two indicators. For status explanation for these indicators, see Table3-97.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
124
Table 3-97 Status explanation for the indicators of the RJ45 connector
Indicator State Meaning
LINK (green) On The link is working properly.
Off The link is interrupted.
ACT (yellow) On or blinking The port is transmitting or receivingdata.
Off The port is not transmitting orreceiving data.
When the SFP ports on the EM6F/EM6FA function as optical ports, optical modules are required.l When dual-fiber bidirectional SFP optical modules are used to provide ports, one SFP
optical module provides one TX port and one RX port. For details, see Figure 3-46, inwhich TX represents the transmit port and RX represents the receive port. One optical fiberis connected to each port.
l When single-fiber bidirectional optical modules are used to provide ports, one opticalmodule provides only the port on the left. This port is an optical port that can receive andtransmit service signals. One optical fiber is connected to this port.
Figure 3-46 Ports of an SFP optical module
TX RX
LabelsThere is a laser safety class label on the front panel of the EM6F/EM6FA.
The laser safety class label indicates that the laser safety class of the optical port is CLASS 1.That is, the maximum launched optical power of the optical port is lower than 10 dBm (10 mW).
3.10.5 Valid SlotsThe EM6T/EM6TA/EM6F/EM6FA can be inserted in slots 1-6. The logical slots of the EM6T/EM6F on the NMS are the same as the physical slots.
Figure 3-47 Slots for the EM6T/EM6TA/EM6F/EM6FA in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (EM6T/EM6TA/EM6F/EM6FA)
Slot 3 (EM6T/EM6TA/EM6F/EM6FA)
Slot 1 (EM6T/EM6TA/EM6F/EM6FA)
Slot 8
Slot 6 (EM6T/EM6TA/EM6F/EM6FA)
Slot 4 (EM6T/EM6TA/EM6F/EM6FA)
Slot 2 (EM6T/EM6TA/EM6F/EM6FA)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
125
Figure 3-48 Logical slots of the EM6T/EM6TA/EM6F/EM6FA on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (EM6T/EM6TA/EM6F/EM6FA)
Slot 3 (EM6T/EM6TA/EM6F/EM6FA)
Slot 1 (EM6T/EM6TA/EM6F/EM6FA)
Slot 8
Slot 6 (EM6T/EM6TA/EM6F/EM6FA)
Slot 4 (EM6T/EM6TA/EM6F/EM6FA)
Slot 2 (EM6T/EM6TA/EM6F/EM6FA)
Table 3-98 Slot allocation
Item Description
Slot allocation priority Slots 4 and 6 > Slots 1 and 2 > Slots 3 and 5
3.10.6 Types of SFP ModulesThe FE/GE small form-factor pluggable (SFP) ports on the EM6F/EM6FA support multipletypes of SFP modules.
Table 3-99 Types of SFP modules that the FE/GE port supports
Category Part Number Type Wavelength andTransmissionDistance
Dual-fiberbidirectional GEmodule
34060286 1000Base-SX 850 nm, 0.5 km
34060473 1000Base-LX 1310 nm, 10 km
34060298 1000BASE-VX 1310 nm, 40 km
34060513 1550 nm, 40 km
34060360 1000BASE-ZX 1550 nm, 80 km
34060416 1000BASE-CWDM 1471 nm, 40 km
34060417 1491 nm, 40 km
34060418 1511 nm, 40 km
34060419 1531 nm, 40 km
34060420 1551 nm, 40 km
34060421 1571 nm, 40 km
34060422 1591 nm, 40 km
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
126
Category Part Number Type Wavelength andTransmissionDistance
34060423 1611 nm, 40 km
34060483 1471 nm, 80 km
34060481 1491 nm, 80 km
34060479 1511 nm, 80 km
34060482 1531 nm, 80 km
34060478 1551 nm, 80 km
34060476 1571 nm, 80 km
34060477 1591 nm, 80 km
34060480 1611 nm, 80 km
Single-fiberbidirectional GEmodule
34060475 1000BASE-BX-D Transmit: 1490 nm;receive: 1310 nm10 km
34060470 1000BASE-BX-U Transmit: 1310 nm;receive: 1490 nm10 km
34060540 1000BASE-BX-D Transmit: 1490 nm;receive: 1310 nm40 km
34060539 1000BASE-BX-U Transmit: 1310 nm;receive: 1490 nm40 km
Dual-fiberbidirectional FEmodule
34060287 100BASE-FX 1310 nm, 2 km
34060276 100BASE-LX 1310 nm, 15 km
34060281 100BASE-VX 1310 nm, 40 km
34060282 100BASE-ZX 1550 nm, 80 km
Single-fiberbidirectional FEmodule
34060364 100BASE-BX-D Transmit: 1550 nm;receive: 1310 nm15 km
34060363 100BASE-BX-U Transmit: 1310 nm;receive: 1550 nm15 km
Electricalmodule
34100052 10/100/1000BASE-T(X)
-
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
127
NOTEFor the specifications for each type of optical module, see Table 3-101-Table 3-106 in 3.10.8 TechnicalSpecifications.
The types of SFP modules listed in the following table can be identified by board feature codesin the bar codes of EM6F boards. A board feature code refers to the number next to the boardname in a bar code. The bar code of the EM6T/EM6TA does not contain a board feature code.
Table 3-100 Board feature code of the EM6F
Board Feature Code Module Type Part Number of theModule
01 1000BASE-SX 34060286
02 1000BASE-LX 34060473
03 10/100/1000BASE-T(X) 34100052
10 100BASE-FX 34060287
11 100BASE-LX 34060276
NOTEIf the board feature code in the bar code of the EM6T/EM6TA is empty, no SFP module is installed on theEM6T/EM6TA.
3.10.7 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the EM6T/EM6TA/EM6F/EM6FA.
Related ReferencesA.5.2.1 Parameter Description: Ethernet Interface_Basic AttributesA.5.2.2 Parameter Description: Ethernet Interface_Flow ControlA.5.2.3 Parameter Description: Ethernet Interface_Layer 2 AttributesA.5.2.4 Parameter Description: Ethernet Port_Layer 3 AttributesA.5.2.5 Parameter Description: Ethernet Interface_Advanced Attributes
3.10.8 Technical SpecificationsThis section describes the board specifications, including the GE port performance, FE portperformance, board mechanical behavior, and board power consumption.
Performance of FE/GE Optical PortsThe FE/GE optical ports on the EM6F comply with IEEE 802.3. The following table lists themain specifications for the FE/GE optical ports.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
128
NOTE
The OptiX RTN 950 uses SFP modules to provide GE optical interfaces. Users can use different types of SFPmodules to provide GE optical interfaces with different classification codes and transmission distances.
Table 3-101 GE optical interface performance (two-fiber bidirectional, short-distancetransmission)
Item Performance
Classification code 1000BASE-SX (0.5 km) 1000BASE-LX (10 km)
Nominal wavelength (nm) 850 1310
Nominal bit rate (Mbit/s) 1000
Fiber type Multi-mode Single-mode
Transmission distance (km) 0.5 10
Operating wavelength (nm) 770 to 860 1270 to 1355
Mean launched power (dBm) -9 to -3 -9 to -3
Receiver minimumsensitivity (dBm)
-17 -20
Minimum overload (dBm) 0 -3
Minimum extinction ratio(dB)
9.5 9.5
Table 3-102 GE optical interface performance (two-fiber bidirectional, long-haul transmission)
Item Performance
Classification code 1000BASE-VX(40 km)
1000BASE-VX(40 km)
1000BASE-ZX(80 km)
Nominal wavelength (nm) 1310 1550 1550
Nominal bit rate (Mbit/s) 1000 1000 1000
Fiber type Single-mode Single-mode Single-mode
Transmission distance (km) 40 40 80
Operating wavelength (nm) 1270 to 1350 1480 to 1580 1500 to 1580
Mean launched power (dBm) -5 to 0 -5 to 0 -2 to +5
Receiver minimumsensitivity (dBm)
-23 -22 -22
Minimum overload (dBm) -3 -3 -3
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
129
Item Performance
Classification code 1000BASE-VX(40 km)
1000BASE-VX(40 km)
1000BASE-ZX(80 km)
Minimum extinction ratio(dB)
9 9 9
Table 3-103 GE optical interface performance (two-fiber bidirectional, CWDM)
Item Performance
Classification code 1000BASE-CWDM (40km)
1000BASE-CWDM (80km)
Nominal wavelength (nm) l Channel 1: 1471l Channel 2: 1491l Channel 3: 1511l Channel 4: 1531l Channel 5: 1551l Channel 6: 1571l Channel 7: 1591l Channel 8: 1611
l Channel 1: 1471l Channel 2: 1491l Channel 3: 1511l Channel 4: 1531l Channel 5: 1551l Channel 6: 1571l Channel 7: 1591l Channel 8: 1611
Nominal bit rate (Mbit/s) 1000 1000
Fiber type Single-mode Single-mode
Transmission distance (km) 40 80
Operating wavelength (nm) Nominal wavelength ±6.5 Nominal wavelength ±6.5
Mean launched power (dBm) 0 to +5 0 to +5
Receiver minimumsensitivity (dBm)
-19 -28
Minimum overload (dBm) 0 -9
Minimum extinction ratio(dB)
8.2 8.2
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
130
Table 3-104 GE optical interface performance (single-fiber bidirectional)
Item Performance
1000BASE-BX-D (10km)
1000BASE-BX-U(10km)
1000BASE-BX-D (40km)
1000BASE-BX-U(40km)
Nominal wavelength (nm) Tx: 1490Rx: 1310
Tx: 1310Rx: 1490
Tx: 1490Rx: 1310
Tx: 1310Rx: 1490
Nominal bit rate (Mbit/s) 1000 1000 1000 1000
Fiber type Multi-mode Multi-mode Single-mode Single-mode
Transmission distance (km) 10 10 40 40
Operating wavelength (nm) Tx: 1480 to1500Rx: 1260 to1360
Tx: 1260 to1360Rx: 1480 to1500
Tx: 1260 to1360Rx: 1480 to1500
Tx: 1480 to1500Rx: 1260 to1360
Mean launched power (dBm) -9 to -3 -9 to -3 -3 to +3 -3 to +3
Receiver minimumsensitivity (dBm)
-19.5 -19.5 -23 -23
Minimum overload (dBm) -3 -3 -3 -3
Minimum extinction ratio(dB)
6 6 6 6
Table 3-105 FE optical interface performance (two-fiber bidirectional)
Item Performance
100BASE-FX (2 km)
100BASE-LX (15 km)
100BASE-VX (40 km)
100BASE-ZX (80 km)
Nominal wavelength (nm) 1310 1310 1310 1550
Nominal bit rate (Mbit/s) 100 100 100 100
Fiber type Single-mode Single-mode Single-mode Single-mode
Transmission distance (km) 2 15 40 80
Operating wavelength (nm) 1270 to 1380 1261 to 1360 1263 to 1360 1480 to 1580
Mean launched power (dBm) -19 to -14 -15 to -8 -5 to 0 -5 to 0
Receiver minimumsensitivity (dBm)
-30 -28 -34 -34
Minimum overload (dBm) -14 -8 -10 -10
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
131
Item Performance
100BASE-FX (2 km)
100BASE-LX (15 km)
100BASE-VX (40 km)
100BASE-ZX (80 km)
Minimum extinction ratio(dB)
10 8.2 10 10.5
Table 3-106 FE optical interface performance (single-fiber bidirectional)
Item Performance
Classification code 100BASE-BX-D (15 km) 100BASE-BX-U (15 km)
Nominal wavelength (nm) Tx: 1550Rx: 1310
Tx: 1310Rx: 1550
Nominal bit rate (Mbit/s) 100 100
Fiber type Single-mode Single-mode
Transmission distance (km) 15 15
Operating wavelength (nm) Tx: 1480 to 1580Rx: 1260 to 1360
Tx: 1260 to 1360Rx: 1480 to 1580
Mean launched power (dBm) -15 to -8 -15 to -8
Receiver minimumsensitivity (dBm)
-32 -32
Minimum overload (dBm) -8 -8
Minimum extinction ratio(dB)
8.5 8.5
Performance of GE Electrical PortsThe GE electrical ports on the EM6T/EM6F comply with IEEE 802.3. The following table liststhe main specifications for the GE electrical ports.
Table 3-107 GE electrical interface performance
Item Performance
Nominal bit rate (Mbit/s) 10 (10BASE-T)100 (100BASE-TX)1000 (1000BASE-T)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
132
Item Performance
Code pattern Manchester encoding signal (10BASE-T)MLT-3 encoding signal (100BASE-TX)4D-PAM5 encoding signal (1000BASE-T)
Interface type RJ45
Performance of FE Electrical Ports
The FE electrical ports on the EM6T/EM6F comply with IEEE 802.3. The following table liststhe main specifications for the FE electrical ports.
Table 3-108 FE electrical interface performance
Item Performance
Nominal bit rate (Mbit/s) 10 (10BASE-T)100 (100BASE-TX)
Code pattern Manchester encoding signal (10BASE-T)MLT-3 encoding signal (100BASE-TX)
Interface type RJ45
Mechanical Behavior
Table 3-109 Mechanical behavior
Item Performance
EM6T EM6TA EM6F EM6FA
Dimensions (Hx W x D)
19.82 mm x 193.80 mm x 225.80 mm
Weight 0.37 kg 0.40 kg 0.40 kg 0.40 kg
Power Consumption
Power consumption of the EM6T: < 10.4 W
Power consumption of the EM6TA: < 16.2 W
Power consumption of the EM6F: < 11.3 W
Power consumption of the EM6FA: < 15.4 W
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
133
3.11 EMS6The EMS6 is an FE/GE EoSDH processing board providing the L2 switching function. Itprovides four FE electrical ports and two GE ports using small form-factor pluggable (SFP)optical/electrical modules.
3.11.1 Version DescriptionThe functional version of the EMS6 is SL91.
3.11.2 Functions and FeaturesThe EMS6 receives/transmits 4xFE signals and 2xGE signals from the front panel and 1xGEpacket plane signals from the backplane, and encapsulates these Ethernet signals intosynchronous digital hierarchy (SDH) signals to transmit the Ethernet signals on the SDHnetwork. The EMS6 supports transparent service transmission and Layer 2 switching.
Table 3-110 lists the functions and features that the EMS6 supports.
Table 3-110 Functions and features
Function and Feature Description
Basic functions Receives/transmits 4xFE signals, 2xGE signals, and1xGE packet plane signals, and performs EoSDHprocessing.
Port specifications FEelectricalport
Provides four 10/100BASE-T(X) ports.
GE port Provides two GE ports by using small form-factorpluggable (SFP) modules of any of the following types:l 1000Base-SXl 1000Base-LXl 1000Base-VXl 1000Base-ZXl 10/100/1000BASE-T(X)
Port attributes Workingmode
l The FE ports support 10M full-duplex, 100M full-duplex, and auto-negotiation.
l The GE electrical ports support 10M full-duplex,10M half-duplex, 100M full-duplex, 100M half-duplex, 1000M full-duplex, and auto-negotiation.
l The GE optical ports support 1000M full-duplexand auto-negotiation.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
134
Function and Feature Description
TAGattributes
l Sets and queries the TAG attribute of an Ethernetport.
l The TAG attribute can be set to tag aware, access,or hybrid.
Jumboframe
Supports jumbo frames with a maximum frame lengthof 9600 bytes.
Trafficcontrolfunction
Supports the port-based traffic control function thatcomplies with IEEE 802.3x.
Services Ethernetprivate line(EPL)services
Supports the EPL services based on ports.
Ethernetvirtualprivate line(EVPL)services
Supports the following types of EVPL services:l EVPL services based on port+VLANl EVPL services based on QinQ
EthernetprivateLAN(EPLAN)services
Supports the EPLAN services based on IEEE 802.1dbridges.
EthernetvirtualprivateLAN(EVPLAN)services
Supports the following types of EVPLAN services:l EVPLAN services based on IEEE 802.1q bridgesl EVPLAN services based on IEEE 802.1ad bridges
Encapsulation andmapping
Encapsulation format
Supports the following encapsulation formats:l Generic Framing Procedure (GFP)l High Level Data Link Control (HDLC)l Link Access Protocol-SDH (LAPS)
MaximumTDMservicecapacitysupportedby thebackplane
4xVC-4
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
135
Function and Feature Description
Maximumnumber ofVCTRUNKssupportedby the board
8
Maximumbandwidthsupportedby eachVCTRUNK
l VCTRUNK1 to VCTRUNK7: 100 Mbit/sl VCTRUNK8: 622 Mbit/s
Linkcapacityadjustmentscheme(LCAS)
Supported
Link aggregationgroup (LAG)
Inter-boardLAG
Not supported
Intra-boardLAG
SupportedNOTE
Port 7 (bridging port) on the EMS6 does not support intra-board LAG.
Ethernet ring protection switching(ERPS)
Supports the ERPS function that complies with ITU-TG.8032/Y.1344.
Spanning Tree Protocol (STP) Supports the STP and Rapid Spanning Tree Protocol(RSTP), which comply with IEEE 802.1w.
IGMP Snooping Supported
Link state pass through (LPT)a SupportedNOTE
Port 7 (bridging port) on the EMS6 does not support LPT.
QoS Trafficclassification
Supports the following traffic classification modes:l Traffic classification based on portsl Traffic classification based on port+C-VLAN IDl Traffic classification based on port+S-VLAN IDl Traffic classification based on port+C-VLAN ID
+S-VLAN ID
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
136
Function and Feature Description
CoS Schedules packets in traffic flows to eight egressqueues of different CoSs by:l Simplel VLAN priorityl IP TOS valuel DSCP value
Committedaccess rate(CAR)
Provides the CAR function for traffic flows.
Shaping Supports traffic shaping for a specific port or egressqueue.
Queueschedulingpolicy
Supports the following scheduling policies:l SPl WRRl SP+WRR
ETH OAM l Supports IEEE 802.1ag-compliant ETH-OAMfunction.
l Supports IEEE 802.3ah-compliant ETH-OAMfunction.NOTE
Port 7 (bridging port) on the EMS6 does not support IEEE802.3ah-compliant ETH-OAM function.
Remote monitoring (RMON) Supported
Port mirroring Supported
Clock Clocksource
Synchronous EthernetNOTE
Ports 7 and 8 (bridging ports) on the EMS6 board do notsupport synchronous Ethernet.
Clockprotection
Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the Synchronization Status
Message (SSM) protocoll Protection by running the extended SSM protocol
OM Loopback Supports the following loopback types:l Supports inloops at the PHY layer of Ethernet ports
excluding ports 7 and 8 (bridging ports).l Supports inloops at the MAC layer of Ethernet ports
excluding port 8 (bridging port).l Supports inloops on VC-3 paths.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
137
Function and Feature Description
Trafficmonitoring
Supported
Warm resetand coldreset
Supported
Boardmanufacturinginformationquery
Supported
Boardpowerconsumptioninformationquery
Supported
Boardtemperaturedetection
Supported
NOTEa: The LPT function is used to detect faults that occur on a service access node or an intermediatetransmission network, and instruct the service access node to immediately start the backup network forcommunication. The LPT function ensures the normal transmission of important data.
3.11.3 Working Principle and Signal FlowThis section describes the working principle and signal flow of the EMS6, using FE/GE signalprocessing as an example.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
138
Functional Block Diagram
Figure 3-49 Functional block diagram of the EMS6
GE signal access
unit
Ethernet processing
unit
Encapsulation unit
Mapping unit
Logic processing
unit
Backplane
Ethernet signal
GE signal
SDH signal
Logic control
unit
Control bus
Cross-connect unit
Packet switching unit
Management control signal Control signal of the board
Power supply unit
Clock unit
System control and communication unit
+3.3 V power supplied to the board
Clock signal provided to the other units on the board
+3.3 V backup power supplied to certain auxiliary
circuits on the board
System clock signal
-48 V1
-48 V2
+3.3 V
FE signalFE signal access
unit
GE signal
Signal Processing in the Receive Direction
Table 3-111 Signal processing in the receive direction
Step Function Unit Processing Flow
1 FE/GE signal accessunit
l Receives FE/GE signals. If GE signals are receivedthrough a GE optical port, O/E conversion is required.
l Performs restructuring, decoding, and serial/parallelconversion for FE/GE signals.
l Performs frame delimitation, preamble stripping,cyclic redundancy check (CRC) code processing, andEthernet performance measurement for frames.
2 Ethernet processingunit
l Receives Ethernet signals from the FE/GE signalaccess unit and GE signals from the packet switchingunit.
l Performs QoS processing, such as trafficclassification and committed access rate (CAR)control, for Ethernet data frames based on servicetypes.
l Processes tags based on service types.l Forwards Ethernet data frames based on service types.
3 Encapsulation unit Performs the High Level Data Link Control (HDLC),Link Access Protocol-SDH (LAPS), or Generic FramingProcedure (GFP) encapsulation for Ethernet frames.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
139
Step Function Unit Processing Flow
4 Mapping unit Maps encapsulated Ethernet data frames into VC-12s,VC-3s, VC-12-Xvs, or VC-3-Xvs.
5 Logic processingunit
Transmits VC-4 signals and pointer indication signals tothe cross-connect unit.
Signal Processing in the Transmit Direction
Table 3-112 Signal processing in the transmit direction
Step Function Unit Processing Flow
1 Logic processing unit Receives VC-4 signals and pointer indication signalsfrom the cross-connect unit.
2 Mapping unit Demaps encapsulated Ethernet data frames from VC-12s,VC-3s, VC-12-Xvs, or VC-3-Xvs.
3 Encapsulation unit Decapsulates Ethernet data frames after they aredemapped.
4 Ethernet processingunit
l Processes tags based on service types.l Performs QoS processing, such as traffic shaping and
queue scheduling, for Ethernet data frames.l Performs Ethernet data frame delimitation, preamble
addition, CRC code computation, and Ethernetperformance measurement.
l Forwards Ethernet data frames to the FE/GE signalaccess unit or the GE port connected to the packetswitching unit based on egress tags contained in theEthernet data frames.
5 FE signal access unit Performs parallel/serial conversion and coding forEthernet data frames, and transmits generated FE/GEsignals through Ethernet ports. For a GE optical port, theFE signal access unit needs to perform E/O conversionbefore transmitting signals through the GE optical port.
Control Signal ProcessingThe Ethernet processing unit controls the FE/GE signal access unit by using management controlsignals.
The logic control unit controls the Ethernet processing unit, encapsulation unit, mapping unit,and logic processing unit using the control bus on the board.
The logic control unit communicates with the system control and communication unit using thesystem control bus. The logic control unit issues configuration and query commands from thesystem control and communication unit to various units on the board, and reports command
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
140
responses, alarms, and performance events reported by various units on the board to the systemcontrol and communication unit.
Power Supply Unit
The power supply unit receives two -48 V power supplies from the backplane, converts the -48V power into +3.3 V power using the DC-DC module, and supplies the +3.3 V power to theother units on the board.
The power supply unit receives one +3.3 V power supply from the backplane and supplies the+3.3 V power to certain auxiliary circuits on the board.
Clock Unit
This unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.11.4 Front PanelThere are indicators, four FE ports, and two small form-factor pluggable (SFP) GE ports on thefront panel.
Front Panel Diagram
Figure 3-50 Front panel of the EMS6
EM
S6
GE1 GE2 FE1 FE2 FE3 FE4
STAT
PRO
GS
RV
LIN
K1AC
T1
ACT2
LIN
K2
Indicators
Table 3-113 Status explanation for indicators on the EMS6
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the board duringthe power-on or resetting process of theboard.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
141
Indicator State Meaning
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting process ofthe board.
On (green) l The upper layer software is beinginitialized during the power-on orresetting process of the board.
l The software is running properly duringthe running process of the board.
Blinks on (red) and off at 100ms intervals
The BOOTROM self-check fails during thepower-on or resetting process of the board.
On (red) l The memory self-check fails or loadingupper layer software fails during thepower-on or resetting process of theboard.
l The logic file or upper layer software islost during the running process of theboard.
l The pluggable storage card is faulty.
SRV On (green) The system is working normally.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor alarm occurs in the system.
Off There is no power supplied to the system.
LINK1 On (green) The GE1 port is connected correctly.
Blinks on (red) and off at 300ms intervals
The receive optical power at the GE1 opticalport is higher than the upper threshold.
Blinks 300 ms on (red) and 700ms off
The receive optical power at the GE1 opticalport is lower than the lower threshold.
Off The GE1 port is not connected or isconnected incorrectly.
ACT1 Blinking (yellow) The GE1 port is receiving or transmittingdata.
Off The GE1 port is not receiving ortransmitting data.
LINK2 On (green) The GE2 port is connected correctly.
Blinks on (red) and off at 300ms intervals
The receive optical power at the GE2 opticalport is higher than the upper threshold.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
142
Indicator State Meaning
Blinks 300 ms on (red) and 700ms off
The receive optical power at the GE2 opticalport is lower than the lower threshold.
Off The GE1 port is not connected or isconnected incorrectly.
ACT2 Blinking (yellow) The GE2 port is receiving or transmittingdata.
Off The GE2 port is not receiving ortransmitting data.
Ports
Table 3-114 Description of the ports on the EMS6
Port Description Connector Type Corresponding Cable
GE1 GE service port(using SFPmodules)
RJ45 SFP electrical module/LCSFP optical module
5.9 Network Cable/5.5 FiberJumper
GE2
FE1 FE service port RJ45 5.9 Network Cable
FE2
FE3
FE4
NOTEOn the network management system (NMS), GE1 and GE2 correspond to PORT1 and PORT2 respectively,and FE1 to FE4 correspond to PORT3 to PORT6 respectively.
The performance of the FE electrical ports on the EMS6 complies with the 10/100BASE-T(X)standard, and the performance of the GE electrical ports on the EMS6 complies with the10/100/1000BASE-T(X) standard if SFP electrical modules are used. The two types of portssupport the MDI, MDI-X, auto-MDI, and auto-MDI-X modes. For the front view of an RJ45connector, see Figure 3-51. For the pin assignments for the ports, see Table 3-115 and Table3-116.
Figure 3-51 Front view of the RJ45 connector
8 7 6 5 4 3 2 1
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
143
Table 3-115 Pin assignments for the RJ45 connector in MDI mode
Pin 10/100BASE-T(X) 1000BASE-T
Signal Function Signal Function
1 TX+ Transmitting data (+) BIDA+ Bidirectional data wire A(+)
2 TX- Transmitting data (-) BIDA- Bidirectional data wire A(-)
3 RX+ Receiving data (+) BIDB+ Bidirectional data wire B(+)
4 Reserved - BIDC+ Bidirectional data wire C(+)
5 Reserved - BIDC- Bidirectional data wire C(-)
6 RX- Receiving data (-) BIDB- Bidirectional data wire B(-)
7 Reserved - BIDD+ Bidirectional data wire D(+)
8 Reserved - BIDD- Bidirectional data wire D(-)
Table 3-116 Pin assignments for the RJ45 connector in MDI-X mode
Pin 10/100BASE-T(X) 1000BASE-T
Signal Function Signal Function
1 RX+ Receiving data (+) BIDB+ Bidirectional data wire B(+)
2 RX- Receiving data (-) BIDB- Bidirectional data wire B(-)
3 TX+ Transmitting data (+) BIDA+ Bidirectional data wire A(+)
4 Reserved - BIDD+ Bidirectional data wire D(+)
5 Reserved - BIDD- Bidirectional data wire D(-)
6 TX- Transmitting data (-) BIDA- Bidirectional data wire A(-)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
144
Pin 10/100BASE-T(X) 1000BASE-T
Signal Function Signal Function
7 Reserved - BIDC+ Bidirectional data wire C(+)
8 Reserved - BIDC- Bidirectional data wire C(-)
The RJ45 connector has two indicators. For status explanation for these indicators, see Table3-117.
Table 3-117 Status explanation for the indicators of the RJ45 connector
Indicator State Meaning
LINK (green) On The link is working properly.
Off The link is interrupted.
ACT (yellow) On or blinking The port is transmitting or receivingdata.
Off The port is not transmitting orreceiving data.
SFP optical modules are used to provide GE ports on the EMS6. One SFP optical moduleprovides one TX port and one RX port. For details, see Figure 3-52, in which TX represents thetransmit port and RX represents the receive port.
Figure 3-52 Ports of an SFP optical module
TX RX
3.11.5 Valid SlotsThe EMS6 can be inserted in slots 1-6. The logical slots of the EMS6 on the network managementsystem (NMS) are the same as the physical slots.
Figure 3-53 Slots for the EMS6 in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (EMS6)
Slot 3 (EMS6)
Slot 1 (EMS6)
Slot 8
Slot 6 (EMS6)
Slot 4 (EMS6)
Slot 2 (EMS6)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
145
Figure 3-54 Logical slots for the EMS6 on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (EMS6)
Slot 3 (EMS6)
Slot 1 (EMS6)
Slot 8
Slot 6 (EMS6)
Slot 4 (EMS6)
Slot 2 (EMS6)
Table 3-118 Slot configuration for the EMS6
Item Description
Slot allocation priority Slots 4 and 6 > Slots 1 and 2 > Slots 3 and 5
3.11.6 Types of SFP ModulesThe GE port on the EMS6 board supports multiple types of small form-factor pluggable (SFP)modules.
Table 3-119 Types of SFP modules that the GE port supports
Part Number Type
34060286 1000Base-SX
34060473 1000Base-LX
34060298 1000Base-VX (40 km, 1310 nm)
34060513 1000Base-VX (40 km, 1550 nm)
34060360 1000Base-ZX
34100052 10/100/1000BASE-T(X)
The types of SFP modules listed in the following table can be identified by board feature codesin the bar codes of EMS6 boards. A board feature code refers to the number next to the boardname in a bar code.
Table 3-120 Board feature codes of the EMS6
Board Feature Code Module Type
01 1000Base-SX
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
146
Board Feature Code Module Type
02 1000Base-LX
03 10/100/1000BASE-T(X)
NOTEIf the board feature code in the bar code of the EMS6 is empty, no SFP module is installed on the EMS6.
3.11.7 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the EMS6.
Related ReferencesA.7.5.1 Parameter Description: Ethernet Port_External PortA.7.5.2 Parameter Description: Ethernet Port_Internal PortA.7.5.3 Parameter Description: Type Field of QinQ FramesA.5.9.2 Parameter Description: VC-4 POHs
3.11.8 Technical SpecificationsThis section describes the board specifications, including the GE port performance, FE portperformance, board mechanical behavior, and board power consumption.
Performance of GE Optical Ports
The GE optical ports on the EMS6 comply with IEEE 802.3. The following table lists the mainspecifications for the GE optical ports.
Table 3-121 GE optical interface performance (two-fiber bidirectional, short-distancetransmission)
Item Performance
Classification code 1000BASE-SX (0.5 km) 1000BASE-LX (10 km)
Nominal wavelength (nm) 850 1310
Nominal bit rate (Mbit/s) 1000
Fiber type Multi-mode Single-mode
Transmission distance (km) 0.5 10
Operating wavelength (nm) 770 to 860 1270 to 1355
Mean launched power (dBm) -9 to -3 -9 to -3
Receiver minimumsensitivity (dBm)
-17 -20
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
147
Item Performance
Classification code 1000BASE-SX (0.5 km) 1000BASE-LX (10 km)
Minimum overload (dBm) 0 -3
Minimum extinction ratio(dB)
9.5 9.5
Table 3-122 GE optical interface performance (two-fiber bidirectional, long-haul transmission)
Item Performance
Classification code 1000BASE-VX(40 km)
1000BASE-VX(40 km)
1000BASE-ZX(80 km)
Nominal wavelength (nm) 1310 1550 1550
Nominal bit rate (Mbit/s) 1000 1000 1000
Fiber type Single-mode Single-mode Single-mode
Transmission distance (km) 40 40 80
Operating wavelength (nm) 1270 to 1350 1480 to 1580 1500 to 1580
Mean launched power (dBm) -5 to 0 -5 to 0 -2 to +5
Receiver minimumsensitivity (dBm)
-23 -22 -22
Minimum overload (dBm) -3 -3 -3
Minimum extinction ratio(dB)
9 9 9
NOTE
The OptiX RTN 950 uses SFP modules to provide GE optical interfaces. Users can use different types of SFPmodules to provide GE optical interfaces with different classification codes and transmission distances.
Performance of GE Electrical PortsThe GE electrical ports on the EMS6 comply with IEEE 802.3. The following table lists themain specifications for the GE electrical ports.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
148
Table 3-123 GE electrical interface performance
Item Performance
Nominal bit rate (Mbit/s) 10 (10BASE-T)100 (100BASE-TX)1000 (1000BASE-T)
Code pattern Manchester encoding signal (10BASE-T)MLT-3 encoding signal (100BASE-TX)4D-PAM5 encoding signal (1000BASE-T)
Interface type RJ45
Performance of FE Electrical PortsThe FE electrical ports on the EMS6 comply with IEEE 802.3. The following table lists the mainspecifications for the FE electrical ports.
Table 3-124 FE electrical interface performance
Item Performance
Nominal bit rate (Mbit/s) 10 (10BASE-T)100 (100BASE-TX)
Code pattern Manchester encoding signal (10BASE-T)MLT-3 encoding signal (100BASE-TX)
Interface type RJ45
Mechanical Behavior
Table 3-125 Mechanical behavior
Item Performance
Dimensions (H x W x D) 19.82 mm x 193.80 mm x 225.80 mm
Weight 0.50 kg
Power ConsumptionPower consumption of the EMS6: < 16.5 W
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
149
3.12 EFP8The EFP8 is an 8-port FE EoPDH processing board. The EFP board is connected to the packetplane through its bridging GE port.
3.12.1 Version DescriptionThe functional version of the EFP8 is SL91.
3.12.2 Functions and FeaturesThe EFP8 receives/transmits 8xFE signals from its front panel and 1xGE packet plane signalsfrom the backplane, and encapsulates the Ethernet signals into E1 signals, and transmits theEthernet signals on the PDH network.
Table 3-126 lists the functions and features that the EFP8 supports.
Table 3-126 Functions and features
Function and Feature Description
Basic functions Receives/Transmits 8xFE signals and 1xGE packetplane signals and performs EoPDH processing.
Portspecifications
FE electrical port:10/100BASE-T(X)
8
Port attributes Working mode The FE port supports 10M full-duplex, 100M full-duplex, and auto-negotiation.
TAG attributes l Sets and queries the TAG attribute of an Ethernetport.
l The TAG attribute can be set to tag aware, access,or hybrid.
Jumbo frame Supports jumbo frames with a maximum framelength of 2000 bytes.
Traffic controlfunction
Supports the port-based traffic control function thatcomplies with IEEE 802.3x.
Services EPL services Supports the EPL services that are based on port.
EVPL services Supports the following types of EVPL services:l EVPL services based on port+VLANl EVPL services based on QinQ
EPLAN services Supports the EPLAN services that are based on IEEE802.1d bridges.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
150
Function and Feature Description
EVPLAN services Supports the following types of EVPLAN services:l EVPLAN services based on IEEE 802.1q bridgesl EVPLAN services based on IEEE 802.1ad
bridges
Encapsulationand mapping
Encapsulationformat
Generic framing procedure (GFP)
Maximum numberof VCTRUNKssupported by theboard
16
Maximum TDMservice capacitysupported by thebackplane
1xVC-4 (63xE1)
Maximum numberof E1s that can bebound with asingle VCTRUNK
16xE1
Link capacityadjustmentscheme (LCAS)
Supported
LAG Inter-board LAG Not supported
Intra-board LAG SupportedNOTE
Port 9 (bridging port) on the EFP8 does not support intra-board LAG.
Spanning tree protocol Supports the MSTP protocol that generates only theCIST. The MSTP protocol provides functionsequivalent to that of the RSTP protocol.
IGMP snooping function Supported
LPTa SupportedNOTE
Port 9 (bridging port) on the EFP8 does not support LPT.
QoS Trafficclassification
l Traffic classification based on portsl Traffic classification based on port+VLAN IDl Traffic classification based on port+VLAN ID
+VLAN PRIl Traffic classification based on port+S-VLAN IDl Traffic classification based on port+C-VLAN ID
+S-VLAN ID
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
151
Function and Feature Description
CoS Grooms packets in traffic flows to eight egressqueues that belong to different service classes basedon the following conditions:l Simplel VLAN priorityl IP TOS valuel DSCP value
CAR Provides the CAR function for traffic flows.
Shaping Supports traffic shaping for queues at ports.
Queue schedulingpolicies
Supports SP+WRR.
ETH OAM l Supports IEEE 802.1ag-compliant ETH-OAMfunction.
l Supports IEEE 802.3ah-compliant ETH-OAMfunction.
NOTEPort 9 (bridging port) of the EFP8 does not support theOAM function that complies with IEEE 802.3ah.
RMON Supported
Port mirroring Supported
Clock Clock source Synchronous EthernetNOTE
Ports 9 and 10 (bridging ports) on the EFP8 board do notsupport synchronous Ethernet.
Clock protection Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the SSM protocoll Protection by running the extended SSM protocol
OM Loopback Supports the following loopback types:l Inloops at the PHY layer of Ethernet ports
excluding ports 9 and 10 (bridging ports)l Inloops at the MAC layer of Ethernet ports
excluding port 10 (bridging port)l Inloops on VC-12 paths
Warm reset andcold reset
Supported
Boardmanufacturinginformation query
Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
152
Function and Feature Description
Board powerconsumptioninformation query
Supported
Board temperaturedetection
Supported
NOTEa: The LPT function is used to detect faults that occur at a service access node and in an intermediatetransmission network. If a fault is detected, the LPT notifies the equipment that receives the service ofstarting the backup network at the earliest time for communication, ensuring normal transmission ofimportant data.
3.12.3 Working Principle and Signal FlowThis section describes how to process one FE signal, and it serves as an example to describe theworking principle and signal flow of the EFP8.
Functional Block Diagram
Figure 3-55 Functional block diagram of the EFP8
FE signal access
unit
Ethernet processing
unit
Encapsulation unit
Mapping unit
Logic processing
unit
Backplane
Ethernet signal
GE signal
PDH signal
Logic control
unit
Control bus
Cross-connect unit
Packet switching unit
Management control signal
Control signal of the board
Power supply unit
Clock unit
System control and communication unit
+3.3 V power supplied to the board
Clock signal provided to the other units on the board
+3.3 V backup power supplied to the board
System clock signal
-48 V1
-48 V2
+3.3 V
FE signal
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
153
Signal Processing in the Receive Direction
Table 3-127 Signal processing in the receive direction of the EFP8
Step Function Unit Processing Flow
1 FE signal access unit l Receives/Transmits FE signals.l Performs restructuring, decoding, and serial/parallel
conversion for FE signals.l Performs frame delimitation, preamble stripping,
CRC code checks, and Ethernet performancemeasurement for frame signals.
2 Ethernet processingunit
l Receives/Transmits GE signals from the packetswitching unit.
l Performs QoS processing such as traffic classificationand CAR for Ethernet data frames based on servicecategories.
l Processes tags based on service categories.l Forwards data frames based on service categories.
3 Encapsulation unit Performs GFP encapsulation for Ethernet frames.
4 Mapping unit l Maps encapsulated data frames based on E1 virtualconcatenation and then encapsulates the data framesto proper VC-12s.
l Processes pointers to form TU-12s.l Performs byte interleaving for three TU-12s to form
one TUG-2.l Performs byte interleaving for seven TUG-2s to form
one TUG-3.l Performs byte interleaving for three TUG-3s to form
one C-4.l Adds higher order path overhead bytes to one C-4 to
form one VC-4.
5 Logic processingunit
Transmits VC-4 signals and pointer indication signals tothe main and standby cross-connect units.
Signal Processing in the Transmit Direction
Table 3-128 Signal processing in the transmit direction of the EFP8
Step Function Unit Processing Flow
1 Logic processing unit Receives VC-4 signals and pointer indication signalsfrom the main cross-connect unit.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
154
Step Function Unit Processing Flow
2 Mapping unit l Demultiplexes three TUG-3s from one VC-4.l Demultiplexes seven TUG-2s from one TUG-3.l Demultiplexes three VC-12s from one TUG-2.l Extracts E1 payload from VC-12s and demaps the E1
payload based on E1 virtual concatenation.
3 Encapsulation unit Decapsulates signals after demapping.
4 Ethernet signalprocessing unit
l Processes tags based on service categories.l Performs QoS processing such as traffic shaping and
queue scheduling for Ethernet data frames.l Performs frame delimitation, preamble adding, CRC
code computing, and Ethernet performancemeasurement for Ethernet data frames.
l Forwards Ethernet data frames to the FE signal accessunit or the GE port that is connected to the packetswitching unit according to the egress flag.
5 FE signal access unit Performs parallel/serial conversion and coding forEthernet data frames, and sends the generated FE signalsto an Ethernet port.
Control Signal ProcessingThe Ethernet processing unit controls the FE signal access unit by using management controlsignals.
The logic control unit controls the Ethernet processing unit, encapsulation unit, mapping unit,and logic processing unit over the control bus on the board.
The logic control unit communicates with the main and standby system control andcommunication units over the system control bus. The configuration data and query commandsfrom the system control and communication unit are issued to the various units of the boardthrough the logic control unit. The command response reported by each unit on the board, andalarms and performance events are reported to the system control and communication unit alsothrough the logic control unit.
Power Supply UnitThe power supply unit performs the following functions:
l Receives two -48 V power supplies from the backplane, converts the -48 V power suppliesinto +3.3 V power, and then supplies the +3.3 V power to the other units on the board.
l Receives one +3.3 V power supply from the backplane, which functions as a +3.3 V powerbackup for the other units on the board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
155
Clock UnitThis unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.12.4 Front PanelThere are indicators and eight FE ports on the front panel.
Front Panel Diagram
Figure 3-56 Front panel of the EFP8
EFP
8
STA
T
PR
OG
SR
V
21 3 4 65 7 8
Indicators
Table 3-129 Status explanation for indicators on the EFP8
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the board duringthe power-on or resetting process of theboard.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting process ofthe board.
On (green) l When the board is being powered on orbeing reset, the upper layer software isbeing initialized.
l When the board is running, the softwareis running normally.
Blinks on (red) and off at 100ms intervals
The BOOTROM self-check fails during thepower-on or resetting process of the board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
156
Indicator State Meaning
On (red) l The memory self-check fails or loadingupper layer software fails during thepower-on or resetting process of theboard.
l The logic file or upper layer software islost during the running process of theboard.
l The pluggable storage card is faulty.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor alarm occurs in the system.
Off There is no power supplied to the system.
Ports
Table 3-130 Description of the ports on the EFP8
Port Description Connector Type Corresponding Cable
FE1 toFE8
FE port RJ45 5.9 Network Cable
The FE electrical ports support the MDI, MDI-X, and auto-MDI/MDI-X modes. For the pinassignments for the ports, see Table 3-131 and Table 3-132. For the front view of an RJ45connector, see Figure 3-57.
Figure 3-57 Front view of the RJ45 connector
8 7 6 5 4 3 2 1
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
157
Table 3-131 Pin assignments for the RJ45 connector in MDI mode
Pin 10/100BASE-T(X)
Signal Function
1 TX+ Transmitting data (+)
2 TX- Transmitting data (-)
3 RX+ Receiving data (+)
4 Reserved -
5 Reserved -
6 RX- Receiving data (-)
7 Reserved -
8 Reserved -
Table 3-132 Pin assignments for the RJ45 connector in MDI-X mode
Pin 10/100BASE-T(X)
Signal Function
1 RX+ Receiving data (+)
2 RX- Receiving data (-)
3 TX+ Transmitting data (+)
4 Reserved -
5 Reserved -
6 TX- Transmitting data (-)
7 Reserved -
8 Reserved -
The RJ45 port has two indicators. For status explanation for these indicators, see Table 3-133.
Table 3-133 Status explanation for the indicators of the RJ45 connector
Indicator State Meaning
LINK (green) On The link is working properly.
Off The link is interrupted.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
158
Indicator State Meaning
ACT (yellow) On or blinking The port is transmitting or receivingdata.
Off The port is not transmitting orreceiving data.
3.12.5 Valid SlotsThe EFP8 can be inserted in slots 1-6. The logical slots of the EFP8 on the NMS are the sameas the physical slots.
Figure 3-58 Slots for the EFP8 in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (EFP8)
Slot 3 (EFP8)
Slot 1 (EFP8)
Slot 8
Slot 6 (EFP8)
Slot 4 (EFP8)
Slot 2 (EFP8)
Figure 3-59 Logical slots of the EFP8 on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (EFP8)
Slot 3 (EFP8)
Slot 1 (EFP8)
Slot 8
Slot 6 (EFP8)
Slot 4 (EFP8)
Slot 2 (EFP8)
Table 3-134 Slot allocation
Item Description
Slot allocation priority Slots 4 and 6 > Slots 1 and 2 > Slots 3 and 5
3.12.6 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the EFP8.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
159
Related ReferencesA.7.5.1 Parameter Description: Ethernet Port_External PortA.7.5.2 Parameter Description: Ethernet Port_Internal PortA.7.5.3 Parameter Description: Type Field of QinQ FramesA.5.9.3 Parameter Description: VC-12 POHs
3.12.7 Technical SpecificationsThis section describes the board specifications, including the FE port performance, boardmechanical behavior, and board power consumption.
Performance of FE Electrical PortsThe FE electrical ports on the EFP8 comply with IEEE 802.3. The following table lists the mainspecifications for the FE electrical ports.
Table 3-135 FE electrical interface performance
Item Performance
Nominal bit rate (Mbit/s) 10 (10BASE-T)100 (100BASE-TX)
Code pattern Manchester encoding signal (10BASE-T)MLT-3 encoding signal (100BASE-TX)
Interface type RJ45
Mechanical Behavior
Table 3-136 Mechanical behavior
Item Performance
Dimensions (H x W x D) 19.82 mm x 193.80 mm x 225.80 mm
Weight 0.6 kg
Power ConsumptionPower consumption of the EFP8: < 13.5 W
3.13 SL1D/SL1DAThe SL1D/SL1DA is a 2xSTM-1 optical interface board. The SL1D/SL1DA can also provideSTM-1 electrical ports by using SFP electrical modules. Besides all the functions provided bythe SL1D, the SL1DA supports the K byte pass-through function.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
160
3.13.1 Version DescriptionThe functional version of the SL1D/SL1DA is SL91.
3.13.2 Functions and FeaturesThe SL1D/SL1DA receives and transmits 2xSTM-1 optical/electrical signals.
Table 3-137 lists the functions and features that the SL1D/SL1DA supports.
Table 3-137 Functions and features
Function and Feature Description
Basic functions Receives and transmits 2xSTM-1 optical/electricalsignals.
Portspecifications
Optical ports l Adopts SFP optical modules and supports theoptical ports of Ie-1, S-1.1, L-1.1, and L-1.2 types.
l The characteristics of all the optical ports complywith ITU-T G.957.
Electrical ports l Adopts SFP electrical modules.l The performance of the electrical ports complies
with ITU-T G.703.
Protection Linear MSP Supported
SNCP Supported
Clock Clock source Each line port provides one SDH line clock signal.
Clockprotection
Supports the following clock protection schemes:l Protection based on clock source prioritiesl Protection by running the SSM protocoll Protection by running the extended SSM protocol
DCN Outband DCN Each SDH line port can provide one DCC that iscomposed of three DCC bytes, nine DCC bytes, ortwelve DCC bytes.
K byte pass-through Supported only by the SL1DA
OM Loopback Supports the following loopback types:l Outloops at optical/electrical portsl Inloops at optical/electrical portsl Outloops on VC-4 pathsl Inloops on VC-4 paths
Warm reset andcold reset
Supported
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
161
Function and Feature Description
Setting of theon/off state of alaser
Supported
ALS functiona Supported
In-serviceFPGA loading
Supported
Boardmanufacturinginformationquery
Supported
Board powerconsumptioninformationquery
Supported
Detection andquery of SFPmoduleinformation
Supported
NOTE
a: The ALS function is implemented as follows:
l When the optical module detects the R_LOS alarm at the receive port and the alarm persists for 500ms, the laser at the specific transmit port is automatically shut down.
l The laser starts to launch laser pulses at a specified interval; that is, the laser emits light for two secondsand stops emission for 60 seconds.
l After the R_LOS alarm is cleared, the laser works properly and emits continuous light.
3.13.3 Working Principle and Signal FlowThis section describes how to process one STM-1 optical signal, and it serves as an example todescribe the working principle and signal flow of the SL1D/SL1DA.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
162
Functional Block Diagram
Figure 3-60 Functional block diagram of the SL1D/SL1DA
O/E
conversion unit
Overhead
processing unit
Logic processing unit
STM-1
STM-1
Service bus
Overhead bus
Control bus
Logic control unit
Power supplied to the other units on the board
Backplane
Clock signal provided to the other units on the board
Cross-connect unit
System control and communication unit
+3.3 V
System clock signal
System control and communication unit
Clock unit
Signal Processing in the Receive Direction
Table 3-138 Signal processing in the receive direction of the SL1D/SL1DA
Step Function Unit Processing Flow
1 O/E conversion unit l Regenerates STM-1 optical signals.l Detects R_LOS alarms.l Converts STM-1 optical signals into electrical signals.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
163
Step Function Unit Processing Flow
2 Overhead processingunit
l Restores clock signals.l Aligns frames and detects R_LOS and R_LOF alarms.l Performs descrambling.l Checks B1 and B2 bytes and generates specific alarms
and performance events.l Checks the M1 byte and bits 6-8 of the K2 byte, and
generates specific alarms and performance events.l Detects the changes in the SSM in the S1 byte and
reports the SSM status to the system control andcommunication unit.
l Extracts orderwire bytes, auxiliary channel bytesincluding F1 and SERIAL bytes, DCC bytes, and Kbytes and transmits the overhead signal to the logicprocessing unit.
l Adjusts AU pointers and generates specificperformance events.
l Checks higher order path overheads and generatesspecific alarms and performance events.
l Transmits VC-4 signals and pointer indication signalsto the logic processing unit.
3 Logic processingunit
l Processes clock signals.l Ttransmits the overhead signals to the system control
and communication unit.l Transmits VC-4 signals and pointer indication signals
to the main and standby cross-connect units.
Signal Processing in the Transmit Direction
Table 3-139 Signal processing in the transmit direction of the SL1D/SL1DA
Step Function Unit Processing Flow
1 Logic processingunit
l Processes clock signals.l Processes overhead signals.l Receives VC-4 signals and pointer indication signals
from the cross-connect unit.
2 Overhead processingunit
l Sets higher order path overheads.l Sets AU pointers.l Sets multiplex section overhead bytes.l Sets regenerator section overhead bytes.l Performs scrambling.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
164
Step Function Unit Processing Flow
3 O/E conversion unit Converts electrical signals into optical signals.
Control Signal Processing
The board is directly controlled by the CPU unit on the system control and communication unit.The CPU unit issues configuration and query commands to the other units of the board over thecontrol bus. These units then report command responses, alarms, and performance events to theCPU unit over the control bus.
The logic control unit decodes the address read/write signals from the CPU unit of the systemcontrol and communication unit and enables FPGA loading.
Clock Unit
This unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.13.4 Front PanelThere are indicators, STM-1 ports, and a label on the front panel.
Front Panel Diagram
Figure 3-61 Front panel of the SL1D (with optical ports)
SL1
D
TX1/RX1
CLASS1LASER
PRODUCT
SL1
D
STA
TS
RV
LOS
1LO
S2
TX2/RX2
Figure 3-62 Front panel of the SL1DA (with optical ports)
SL1
DA
TX1/RX1
CLASS1LASER
PRODUCT
STA
TS
RV
LOS
1LO
S2
TX2/RX2
Figure 3-63 Front panel of the SL1D (with electrical ports)
SL1
DS
TAT
SRV
LOS1
LOS2
TX1/RX1 TX2/RX2 SL 1
D
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
165
Figure 3-64 Front panel of the SL1DA (with electrical ports)
SL1
DA
STA
TSR
VLO
S1LO
S2
TX1/RX1 TX2/RX2
Indicators
Table 3-140 Status explanation for indicators on the SL1D/SL1DA
Indicator State Meaning
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
Off The services are notconfigured.
LOS1 On (red) The first port of the SL1D/SL1DA is reporting theR_LOS alarm.
Off The first port of the SL1D/SL1DA is free of R_LOSalarms.
LOS2 On (red) The second port of theSL1D/SL1DA is reportingthe R_LOS alarm.
Off The second port of theSL1D/SL1DA is free ofR_LOS alarms.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
166
Ports
Table 3-141 Description of the ports
Port Description Connector Type CorrespondingCable
TX1 Transmit port of thefirst STM-1 port
l SFP opticalmodule: LC
l SFP electricalmodule: SAAstraight/female
l SFP opticalmodule: 5.5Fiber Jumper
l SFP electricalmodule: 5.6STM-1 Cable
RX1 Receive port of thefirst STM-1 port
TX2 Transmit port of thesecond STM-1 port
l SFP opticalmodule: LC
l SFP electricalmodule: SAAstraight/female
RX2 Receive port of thesecond STM-1 port
LabelsThere is a laser safety class label on the front panel.
The laser safety class label indicates that the laser safety class of the optical port is CLASS 1.That is, the maximum launched optical power of the optical port is lower than 10 dBm (10 mW).
3.13.5 Valid SlotsThe SL1D/SL1DA can be inserted in slots 1-6. The logical slots of the SL1D/SL1DA on theNMS are the same as the physical slots.
Figure 3-65 Slots for the SL1D/SL1DA in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (SL1D/SL1DA)
Slot 3 (SL1D/SL1DA)
Slot 1 (SL1D/SL1DA)
Slot 8
Slot 6 (SL1D/SL1DA)
Slot 4 (SL1D/SL1DA)
Slot 2 (SL1D/SL1DA)
Figure 3-66 Logical slots of the SL1D/SL1DA on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (SL1D/SL1DA)
Slot 3 (SL1D/SL1DA)
Slot 1 (SL1D/SL1DA)
Slot 8
Slot 6 (SL1D/SL1DA)
Slot 4 (SL1D/SL1DA)
Slot 2 (SL1D/SL1DA)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
167
Table 3-142 Slot allocation
Item Description
Slot allocation priority Slots 4 and 6 > Slots 1 and 2 > Slots 3 and 5
3.13.6 Board Feature CodeThe board feature code of the SL1D/SL1DA indicates the type of SFP module. The board featurecode refers to the number next to the board name in the bar code.
Table 3-143 Board feature code of the SL1D/SL1DA
Feature Code Type of Optical Module Part Number of theOptical Module
01 Ie-1 34060287
02 S-1.1 34060276
03 L-1.1 34060281
04 L-1.2 34060282
05 STM-1e 34100104
3.13.7 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the SL1D/SL1DA.
Related ReferencesA.5.7.1 Parameter Description: SDH InterfacesA.5.9.1 Parameter Description: Regenerator Section OverheadA.5.9.2 Parameter Description: VC-4 POHs
3.13.8 Technical SpecificationsThis section describes the board specifications, including the STM-1 optical/electrical portperformance, board mechanical behavior, and board power consumption.
STM-1 Optical Interface Performance
The performance of the STM-1 optical interface is compliant with ITU-T G.957/G.825. Thefollowing table provides the typical performance of the interface.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
168
Table 3-144 STM-1 optical interface performance
Item Performance
Nominal bit rate (kbit/s) 155520
Classification code Ie-1 S-1.1 L-1.1 L-1.2
Fiber type Multi-modefiber
Single-modefiber
Single-modefiber
Single-modefiber
Transmission distance(km)
2 15 40 80
Operating wavelength(nm)
1270 to 1380 1261 to 1360 1263 to 1360 1480 to 1580
Mean launched power(dBm)
-19 to -14 -15 to -8 -5 to 0 -5 to 0
Receiver minimumsensitivity (dBm)
-30 -28 -34 -34
Minimum overload (dBm) -14 -8 -10 -10
Minimum extinction ratio(dB)
10 8.2 10 10
NOTE
The OptiX RTN 950 uses SFP optical modules for providing optical interfaces. You can use different types ofSFP optical modules to provide optical interfaces with different classification codes and transmission distances.
STM-1 Electrical Interface Performance
The performance of the STM-1 electrical interface is compliant with ITU-T G.703. Thefollowing table provides the typical performance of the interface.
Table 3-145 STM-1 electrical interface performance
Item Performance
Nominal bit rate (kbit/s) 155520
Code type CMI
Wire pair in eachtransmission direction
One coaxial wire pair
Impedance (ohm) 75
NOTEThe OptiX RTN 950 uses SFP electrical modules to provide electrical interfaces.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
169
Mechanical Behavior
Table 3-146 Mechanical behavior
Item Performance
SL1D SL1DA
Dimensions (H x W xD)
19.82 mm x 193.80 mm x 225.80 mm
Weight 0.30 kg
Power Consumption
Power consumption of the SL1D: < 3.4 W
Power consumption of the SL1DA: < 3.3 W
3.14 ML1/MD1The ML1 is a 16xSmart E1 service processing board. The MD1 is a 32xSmart E1 serviceprocessing board.
3.14.1 Version DescriptionThe functional version of the ML1 is SL92. The functional version of the MD1 is SL91.
3.14.2 Functions and FeaturesThe ML1 receives and transmits 16xE1 signals. The MD1 receives and transmits 32xE1 signals.
Table 3-147 lists the functions and features that the ML1/MD1 supports.
Table 3-147 Functions and features
Function and Feature Description
ML1 MD1
Basic functions Receives and transmits E1 signals, and supportsflexible configuration of E1 service categories.
E1 service categories Supports the following E1 service categories:l CES E1l ATM/IMA E1
Portspecifications
75-ohm/120-ohm E1 port
16 32
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
170
Function and Feature Description
ML1 MD1
Fractional E1 Supports transparent service transmission at the 64kbit/s level.
ATM/IMA Maximumnumber of ATMservices
64
Maximumnumber of ATMconnections
256
ATM trafficmanagement
Supported
ATMencapsulationmode
Supports the following ATM encapsulation modes:l N-to-one VPCl N-to-one VCCl One-to-one VPCl One-to-one VCC
Maximumnumber ofconcatenatedATM cells
31
ATM OAM Supports F4 OAM (VP level) and F5 OAM (VC level),including the following functions:l Alarm indication signal (AIS)/Remote defect
indication (RDI)l Continuity check testl Loopback test
Maximumnumber of IMAgroups
16 32
Maximumnumber ofmembers in anIMA group
16
CES Maximumnumber ofservices
16 32
Encapsulationmode
Supports the following encapsulation modes:l CESoPSNl SAToP
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
171
Function and Feature Description
ML1 MD1
Servicecategory
Point-to-point services
Compression ofvacant slots
Supported (applicable to CESoPSN only)
Jitter bufferingtime (us)
375-16000
Packet loadingtime (us)
125-5000
CES ACR Supported
Retiming Supported
Clock protection Supports clock protection based on clock sourcepriorities.
OM Loopback Supports inloops and outloops at E1 tributary ports.
Cold reset andwarm reset
Supported
PRBS tests at E1ports
Supported
Boardmanufacturinginformationquery
Supported
Board powerconsumptioninformationquery
Supported
3.14.3 Working Principle and Signal FlowThis section describes how to process one E1 signal, and it serves as an example to describe theworking principle and signal flow of the ML1/MD1.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
172
Functional Block Diagram
Figure 3-67 Functional block diagram of the ML1/MD1
Backplane
Logic control unit
Packet switching unit
E1
E1
Signal interface
unit
System control and communication unit
Control bus
Service
processing unit
Logic processing unit
+3.3 V
+3.3 V power supplied to the board
Clock unitClock signal provided to the other units of the board
System clock signal
Power supply unit
-48 V1-48 V2
+3.3 V backup power supplied to the board
Service bus
GE bus
Signal Processing in the Receive Direction
Table 3-148 Signal processing in the receive direction of the ML1/MD1
Step Function Unit Processing Flow
1 Signal interface unit l Receives external E1 signals.l Matches the resistance.l Equalizes signals.l Converts the level.l Recovers clock signals.l Buffers the received data.l Performs HDB3 decoding.
2 Service processingunit
l Frames E1 signals.l Performs CES emulation or processes ATM/IMA
services.l Encapsulates PWE3 services and converts the PWE3
services into Ethernet services.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
173
Step Function Unit Processing Flow
3 Logic processingunit
l Implements the conversion from the internal servicebus into the GE bus in the backplane.
l Sends service signals to the packet switching unit.
Signal Processing in the Transmit Direction
Table 3-149 Signal processing in the transmit direction of the ML1/MD1
Step Function Unit Processing Flow
1 Logic processingunit
l Receives service signals from the packet switchingunit.
l Implements the conversion from the GE bus in thebackplane into the internal service bus.
2 Service processingunit
l Decapsulates service signals.l Re-forms CES packets or processes ATM/IMA
services.l Converts signals into E1 signals and sends the E1
signals to the signal interface unit.
3 Signal interface unit l Performs HDB3 coding.l Performs clock re-timing.l Performs pulse shaping.l Drives the line.l Sends E1 signals to a port.
Control Signal ProcessingThe board is directly controlled by the CPU unit on the system control and communication unit.The CPU unit issues configuration and query commands to the other units of the board over thecontrol bus. These units then report command responses, alarms, and performance events to theCPU unit over the control bus.
The logic control unit decodes the address read/write signals from the CPU unit of the systemcontrol and communication unit.
Power Supply UnitThe power supply unit performs the following functions:
l Receives two -48 V power supplies from the backplane, converts the -48 V power suppliesinto +3.3 V power, and then supplies the +3.3 V power to the other units on the board.
l Receives one +3.3 V power supply from the backplane, which functions as a +3.3 V powerbackup for the other units on the board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
174
Clock Unit
This unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.14.4 Front PanelThere are indicators and E1 ports on the front panel.
Front Panel Diagram
Figure 3-68 Front panel of the ML1
ML1
STAT
SR
V 1E116
Figure 3-69 Front panel of the MD1
MD
1S
TAT
SRV
32
17
161
Indicators
Table 3-150 Status explanation for indicators on the ML1/MD1
Indicator State Meaning
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
175
Indicator State Meaning
Off The services are notconfigured.
Ports
Table 3-151 Description of the ports on the ML1
Port Description ConnectorType
Corresponding Cable
1 to 16 The first to sixteenthE1 ports
Anea 96 5.7.1 E1 Cable Connected tothe External Equipment or5.7.2 E1 Cable Connected tothe E1 Panel
Table 3-152 Description of the ports on the MD1
Port Description ConnectorType
Corresponding Cable
1 to 16 The first to sixteenthE1 ports
Anea 96 5.7.1 E1 Cable Connected tothe External Equipment or5.7.2 E1 Cable Connected tothe E1 Panel
17 to 32 The seventeenth tothirty-second E1ports
Anea 96 5.7.1 E1 Cable Connected tothe External Equipment or5.7.2 E1 Cable Connected tothe E1 Panel
The ports on the ML1/MD1 use the Anea 96 connector. Figure 3-70 shows the front view of anAnea 96 connector and Table 3-153 provides the pin assignments for the Anea 96 connector.
Figure 3-70 Front view of an Anea 96 connector
POS.96
POS.1
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
176
Table 3-153 Pin assignments for the Anea 96 connector
Pin Signal Pin Signal
1 The first received E1differential signal (+)
25 The first transmitted E1 differentialsignal (+)
2 The first received E1differential signal (-)
26 The first transmitted E1 differentialsignal (-)
3 The second received E1differential signal (+)
27 The second transmitted E1 differentialsignal (+)
4 The second received E1differential signal (-)
28 The second transmitted E1 differentialsignal (-)
5 The third received E1differential signal (+)
29 The third transmitted E1 differentialsignal (+)
6 The third received E1differential signal (-)
30 The third transmitted E1 differentialsignal (-)
7 The fourth received E1differential signal (+)
31 The fourth transmitted E1 differentialsignal (+)
8 The fourth received E1differential signal (-)
32 The fourth transmitted E1 differentialsignal (-)
9 The fifth received E1differential signal (+)
33 The fifth transmitted E1 differentialsignal (+)
10 The fifth received E1differential signal (-)
34 The fifth transmitted E1 differentialsignal (-)
11 The sixth received E1differential signal (+)
35 The sixth transmitted E1 differentialsignal (+)
12 The sixth received E1differential signal (-)
36 The sixth transmitted E1 differentialsignal (-)
13 The seventh received E1differential signal (+)
37 The seventh transmitted E1differential signal (+)
14 The seventh received E1differential signal (-)
38 The seventh transmitted E1differential signal (-)
15 The eighth received E1differential signal (+)
39 The eighth transmitted E1 differentialsignal (+)
16 The eighth received E1differential signal (-)
40 The eighth transmitted E1 differentialsignal (-)
17 The ninth received E1differential signal (+)
41 The ninth transmitted E1 differentialsignal (+)
18 The ninth received E1differential signal (-)
42 The ninth transmitted E1 differentialsignal (-)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
177
Pin Signal Pin Signal
19 The tenth received E1differential signal (+)
43 The tenth transmitted E1 differentialsignal (+)
20 The tenth received E1differential signal (-)
44 The tenth transmitted E1 differentialsignal (-)
21 The eleventh received E1differential signal (+)
45 The eleventh transmitted E1differential signal (+)
22 The eleventh received E1differential signal (-)
46 The eleventh transmitted E1differential signal (-)
23 The twelfth received E1differential signal (+)
47 The twelfth transmitted E1differential signal (+)
24 The twelfth received E1differential signal (-)
48 The twelfth transmitted E1differential signal (-)
49 The thirteenth received E1differential signal (+)
73 The thirteenth transmitted E1differential signal (+)
50 The thirteenth received E1differential signal (-)
74 The thirteenth transmitted E1differential signal (-)
51 The fourteenth received E1differential signal (+)
75 The fourteenth transmitted E1differential signal (+)
52 The fourteenth received E1differential signal (-)
76 The fourteenth transmitted E1differential signal (-)
53 The fifteenth received E1differential signal (+)
77 The fifteenth transmitted E1differential signal (+)
54 The fifteenth received E1differential signal (-)
78 The fifteenth transmitted E1differential signal (-)
55 The sixteenth received E1differential signal (+)
79 The sixteenth transmitted E1differential signal (+)
56 The sixteenth received E1differential signal (-)
80 The sixteenth transmitted E1differential signal (-)
3.14.5 Valid SlotsThe ML1/MD1 can be inserted in slots 1-6. The logical slots of the ML1/MD1 on the NMS arethe same as the physical slots.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
178
Figure 3-71 Slots for the ML1/MD1 in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (ML1/MD1)
Slot 3 (ML1/MD1)
Slot 1 (ML1/MD1)
Slot 8
Slot 6 (ML1/MD1)
Slot 4 (ML1/MD1)
Slot 2 (ML1/MD1)
Figure 3-72 Logical slots of the ML1/MD1 on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (ML1/MD1)
Slot 3 (ML1/MD1)
Slot 1 (ML1/MD1)
Slot 8
Slot 6 (ML1/MD1)
Slot 4 (ML1/MD1)
Slot 2 (ML1/MD1)
Table 3-154 Slot allocation
Item Description
Slot allocation priority Slots 4 and 6 > Slots 1 and 2 > Slots 3 and 5
3.14.6 Board Feature CodeThe board feature code of the ML1/MD1 indicates the port impedance. The board feature coderefers to the number next to the board name in the bar code.
Table 3-155 Board feature code of the ML1/MD1
Board Feature Code Port Impedance (Ohm)
A 75
B 120
3.14.7 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the ML1/MD1.
Related ReferencesA.5.1.1 Parameter Description: PDH Ports_Basic Attributes
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
179
A.5.1.2 Parameter Description: PDH Ports_Advanced Attributes
3.14.8 Technical SpecificationsThis section describes the board specifications, including the E1 port performance, boardmechanical behavior, and board power consumption.
E1 Interface Performance
Table 3-156 E1 interface performance
Item Performance
Nominal bit rate (kbit/s) 2048
Code pattern HDB3
Impedance (ohm) 75 120
Wire pair in eachtransmission direction
One coaxial wire pair One symmetrical wire pair
Mechanical Behavior
Table 3-157 Mechanical behavior
Item Performance
ML1 MD1
Dimensions (H x W xD)
19.82 mm x 193.80 mm x 225.80 mm
Weight 0.45 kg 0.50 kg
Power ConsumptionPower consumption of the ML1: < 7.0 W
Power consumption of the MD1: < 12.2 W
3.15 SP3S/SP3DThe SP3S is a 16xE1 75-ohm/120-ohm tributary board. The SP3D is a 32xE1 75-ohm/120-ohmtributary board.
3.15.1 Version DescriptionThe SP3S has two functional versions: SL91SP3SVER.B and SL91SP3SVER.C. The SP3D alsohas two functional versions: TNH1SP3DVER.B and TNH1SP3DVER.C. The difference
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
180
between VER.B and VER.C is that path indication on the front panel is optimized and the boardpower consumption is reduced.
3.15.2 Functions and FeaturesThe SP3S receives and transmits 16xE1 signals. The SP3D receives and transmits 32xE1 signals.
Table 3-158 lists the functions and features that the SP3S/SP3D supports.
Table 3-158 Functions and features
Function and Feature Description
SP3S SP3D
Basic functions Receives and transmits E1 signals.
Portspecifications
75-ohm/120-ohm E1 port
16 32
Clock Clock source Supports a tributary clock source extracted from thefirst or fifth E1 signal.
Clockprotection
Supports clock protection based on clock sourcepriorities.
E1 retimingfunction
Supported
OM Loopback Supports inloops and outloops at E1 tributary ports.
Cold reset andwarm reset
Supported
PRBS tests at E1ports
Supported
Boardmanufacturinginformationquery
Supported
Board powerconsumptioninformationquery
Supported
3.15.3 Working Principle and Signal FlowThis section describes how to process one E1 signal, and it serves as an example to describe theworking principle and signal flow of the SP3S/SP3D.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
181
Functional Block Diagram
Figure 3-73 Functional block diagram of the SP3S/SP3DBackplane
Logic control unit
Cross-connect unit
E1
Interface unit
Mapping/D
emapping
unit
System control and communication unit
Service bus
Control bus
E1 signal
Codec unit
Logic processing unit
Power supply unit
+3.3 V power supplied to the board
Clock signal provided to the other units on the board
+3.3 V backup power supplied to the board
System clock signal
-48 V1
-48 V2
+3.3 V
E1
Clock unit
NOTEThe power supply units on the SP3SVER.C and SP3DVER.C boards do not support conversion from -48V power into +3.3 V power.
Signal Processing in the Receive Direction
Table 3-159 Signal processing in the receive direction of the SP3S/SP3D
Step Function Unit Processing Flow
1 Interface unit External E1 signals are coupled by the transformer andthen transmitted to the board.
2 Codec unit l Equalizes the received signals.l Recovers clock signals.l Detects T_ALOS alarms.l Performs HDB3 decoding.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
182
Step Function Unit Processing Flow
3 Mapping/Demapping unit
l Asynchronously maps signals into C-12s.l Adds path overhead bytes to C-12s to form VC-12s.l Processes pointers to form TU-12s.l Performs byte interleaving for three TU-12s to form
one TUG-2.l Performs byte interleaving for seven TUG-2s to form
one TUG-3.l Performs byte interleaving for three TUG-3s to form
one C-4.l Adds higher order path overhead bytes to one C-4 to
form one VC-4.
4 Logic processingunit
l Processes clock signals.l Transmits VC-4 signals and pointer indication signals
to the main and standby cross-connect units.
Signal Processing in the Transmit Direction
Table 3-160 Signal processing in the transmit direction of the SP3S/SP3D
Step Function Unit Processing Flow
1 Logic processingunit
l Processes clock signals.l Receives VC-4 signals and pointer indication signals
from the cross-connect unit.
2 Mapping/Demapping unit
l Demultiplexes three TUG-3s from one VC-4.l Demultiplexes seven TUG-2s from one TUG-3.l Demultiplexes three VC-12s from one TUG-2.l Processes path overheads and pointers and detects
specific alarms and performance events.l Extracts E1 signals.
3 Codec unit Performs HDB3 coding.
4 Interface unit E1 signals are coupled by the transformer and thentransmitted to an external cable.
Control Signal Processing
The board is directly controlled by the CPU unit on the system control and communication unit.The CPU unit issues configuration and query commands to the other units of the board over thecontrol bus. These units then report command responses, alarms, and performance events to theCPU unit over the control bus.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
183
The logic control unit decodes the address read/write signals from the CPU unit of the systemcontrol and communication unit.
Power Supply UnitThe power supply unit performs the following functions:
l Receives two -48 V power supplies from the backplane, converts the -48 V power into +3.3V power, and then supplies the +3.3 V power to the other units on the board. The powersupply units on the SP3SVER.C and SP3DVER.C boards do not support conversion from-48 V power into +3.3 V power.
l Receives one +3.3 V power supply from the backplane, which functions as a +3.3 V powerbackup for the other units on the board.
Clock UnitThis unit receives the system clock from the control bus in the backplane and provides clocksignals to the other units on the board.
3.15.4 Front PanelThere are indicators and E1 ports on the front panel.
Front Panel Diagram
Figure 3-74 Front panel of the SP3SVER.B
SP
3SST
ATS
RV
1-16 SP
3 S
E1
Figure 3-75 Front panel of the SP3SVER.C
SP
3SST
ATS
RV 1
16E1
Figure 3-76 Front panel of the SP3DVER.B
SP
3DS
TAT
SRV
42
22
211 S
P3D
Figure 3-77 Front panel of the SP3DVER.C
SP
3DS
TAT
SRV
32
17
161
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
184
Indicators
Table 3-161 Status explanation for indicators on the SP3S/SP3D
Indicator State Meaning
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
Off The services are notconfigured.
Ports
Table 3-162 Description of the ports on the SP3S(VER.B and VER.C)
Port Description ConnectorType
Corresponding Cable
1-16 The first to sixteenthE1 ports
Anea 96 5.7.1 E1 Cable Connected tothe External Equipment,5.7.2 E1 Cable Connected tothe E1 Panel or 5.7.3 E1Transit Cable Terminatedwith an Anea 96 Connectorand a DB44 Connector
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
185
Table 3-163 Description of the ports on the SP3DVER.B
Port Description ConnectorType
Corresponding Cable
1-21 The first to sixteenthE1 ports
Anea 96 5.7.1 E1 Cable Connected tothe External Equipment or5.7.2 E1 Cable Connected tothe E1 Panel
22-42 The seventeenth tothirty-second E1ports
Anea 96 5.7.1 E1 Cable Connected tothe External Equipment or5.7.2 E1 Cable Connected tothe E1 Panel
NOTEOn the OptiX RTN 950, only ports 1-16 and 22-37 of the SP3D are used. Ports 1-16 correspond to E1signals 1-16 and ports 22-37 correspond to E1 signals 17-32.
Table 3-164 Description of the ports on the SP3DVER.C
Port Description ConnectorType
Corresponding Cable
1-16 The first to sixteenthE1 ports
Anea 96 5.7.1 E1 Cable Connected tothe External Equipment or5.7.2 E1 Cable Connected tothe E1 Panel
17-32 The seventeenth tothirty-second E1ports
Anea 96 5.7.1 E1 Cable Connected tothe External Equipment or5.7.2 E1 Cable Connected tothe E1 Panel
The ports on the SP3S/SP3D use Anea 96 connectors. Figure 3-78 shows the front view of anAnea 96 connector and Table 3-165 provides the pin assignments for the Anea 96 connector.
Figure 3-78 Front view of an Anea 96 connector
POS.96
POS.1
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
186
Table 3-165 Pin assignments for the Anea 96 connector
Pin Signal Pin Signal
1 The first received E1differential signal (+)
25 The first transmitted E1 differentialsignal (+)
2 The first received E1differential signal (-)
26 The first transmitted E1 differentialsignal (-)
3 The second received E1differential signal (+)
27 The second transmitted E1 differentialsignal (+)
4 The second received E1differential signal (-)
28 The second transmitted E1 differentialsignal (-)
5 The third received E1differential signal (+)
29 The third transmitted E1 differentialsignal (+)
6 The third received E1differential signal (-)
30 The third transmitted E1 differentialsignal (-)
7 The fourth received E1differential signal (+)
31 The fourth transmitted E1 differentialsignal (+)
8 The fourth received E1differential signal (-)
32 The fourth transmitted E1 differentialsignal (-)
9 The fifth received E1differential signal (+)
33 The fifth transmitted E1 differentialsignal (+)
10 The fifth received E1differential signal (-)
34 The fifth transmitted E1 differentialsignal (-)
11 The sixth received E1differential signal (+)
35 The sixth transmitted E1 differentialsignal (+)
12 The sixth received E1differential signal (-)
36 The sixth transmitted E1 differentialsignal (-)
13 The seventh received E1differential signal (+)
37 The seventh transmitted E1differential signal (+)
14 The seventh received E1differential signal (-)
38 The seventh transmitted E1differential signal (-)
15 The eighth received E1differential signal (+)
39 The eighth transmitted E1 differentialsignal (+)
16 The eighth received E1differential signal (-)
40 The eighth transmitted E1 differentialsignal (-)
17 The ninth received E1differential signal (+)
41 The ninth transmitted E1 differentialsignal (+)
18 The ninth received E1differential signal (-)
42 The ninth transmitted E1 differentialsignal (-)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
187
Pin Signal Pin Signal
19 The tenth received E1differential signal (+)
43 The tenth transmitted E1 differentialsignal (+)
20 The tenth received E1differential signal (-)
44 The tenth transmitted E1 differentialsignal (-)
21 The eleventh received E1differential signal (+)
45 The eleventh transmitted E1differential signal (+)
22 The eleventh received E1differential signal (-)
46 The eleventh transmitted E1differential signal (-)
23 The twelfth received E1differential signal (+)
47 The twelfth transmitted E1differential signal (+)
24 The twelfth received E1differential signal (-)
48 The twelfth transmitted E1differential signal (-)
49 The thirteenth received E1differential signal (+)
73 The thirteenth transmitted E1differential signal (+)
50 The thirteenth received E1differential signal (-)
74 The thirteenth transmitted E1differential signal (-)
51 The fourteenth received E1differential signal (+)
75 The fourteenth transmitted E1differential signal (+)
52 The fourteenth received E1differential signal (-)
76 The fourteenth transmitted E1differential signal (-)
53 The fifteenth received E1differential signal (+)
77 The fifteenth transmitted E1differential signal (+)
54 The fifteenth received E1differential signal (-)
78 The fifteenth transmitted E1differential signal (-)
55 The sixteenth received E1differential signal (+)
79 The sixteenth transmitted E1differential signal (+)
56 The sixteenth received E1differential signal (-)
80 The sixteenth transmitted E1differential signal (-)
3.15.5 Valid SlotsThe SP3S/SP3D can be inserted in slots 1-6. The logical slots of the SP3S/SP3D on the NMSare the same as the physical slots.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
188
Figure 3-79 Slots for the SP3S/SP3D in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (SP3S/SP3D)
Slot 3 (SP3S/SP3D)
Slot 1 (SP3S/SP3D)
Slot 8
Slot 6 (SP3S/SP3D)
Slot 4 (SP3S/SP3D)
Slot 2 (SP3S/SP3D)
Figure 3-80 Logical slots of the SP3S/SP3D on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (SP3S/SP3D)
Slot 3 (SP3S/SP3D)
Slot 1 (SP3S/SP3D)
Slot 8
Slot 6 (SP3S/SP3D)
Slot 4 (SP3S/SP3D)
Slot 2 (SP3S/SP3D)
Table 3-166 Slot allocation
Item Description
Slot allocation priority Slots 4 and 6 > Slots 1 and 2 > Slots 3 and 5
3.15.6 Board Feature CodeThe board feature code of the SP3S/SP3D indicates the E1 port impedance. The board featurecode refers to the number next to the board name in the bar code.
Table 3-167 Board feature code of the SP3S/SP3D
Board Feature Code Port Impedance (Ohm)
A 120
B 75
3.15.7 Board Parameter SettingsThis section provides hyperlinks of the main parameter settings for the SP3S/SP3D.
Related ReferencesA.5.8.1 Parameter Description: PDH Ports
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
189
A.5.9.3 Parameter Description: VC-12 POHs
3.15.8 Technical SpecificationsThis section describes the board specifications, including the E1 port performance, boardmechanical behavior, and board power consumption.
E1 Interface Performance
Table 3-168 E1 interface performance
Item Performance
Nominal bit rate (kbit/s) 2048
Code pattern HDB3
Impedance (ohm) 75 120
Wire pair in eachtransmission direction
One coaxial wire pair One symmetrical wire pair
Mechanical Behavior
Table 3-169 Mechanical behavior
Item Performance
SP3SVER.B SP3SVER.C SP3DVER.B SP3SVER.C
Dimensions (H x Wx D)
19.82 mm x 193.80 mm x 225.80 mm
Weight 0.50 kg 0.40 kg 0.64 kg 0.54 kg
Power ConsumptionPower consumption of the SP3SVER.B: < 5.7 W
Power consumption of the SP3SVER.C: < 4.8 W
Power consumption of the SP3DVER.B: < 9.6 W
Power consumption of the SP3DVER.C: < 8.3 W
3.16 AUXThe AUX is an auxiliary management interface board of the OptiX RTN 950. One NE can houseonly one AUX.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
190
3.16.1 Version DescriptionThe functional version of the AUX is SL91.
3.16.2 Functions and FeaturesThe AUX provides the system with one orderwire phone port, one synchronous data port, oneasynchronous data port, and one four-input/two-output external alarm port.
Table 3-170 lists the functions and features that the AUX supports.
Table 3-170 Functions and features
Function and Feature Description
Orderwire phone port 1
Synchronous data port 1The transmission rate of the port is 64 kbit/s and itsspecifications comply with ITU-T G.703.
Asynchronous data port 1The transmission rate of the port is equal to or less than 19.2kbit/s and the interfacing level complies with RS-232.
External alarm port Four inputs and two outputs
Hot swapping function Supported
Board power consumptioninformation query
Supported
Power detection Supported
3.16.3 Working PrincipleThe AUX consists of the orderwire unit, logic control unit, and clock unit.
Functional Block Diagram
Figure 3-81 Functional block diagram of the AUX
Orderwireunit
Powersupply unit
Logic controlunit
Board statusdetection unit
Clock unit
Backplane
One orderwire phone port
Power dipdetection signal
System bus System control and communication unit
System control and communication unit
Clock signal
64 kbit/s synchronous data port
19.2 kbit/s asynchronous data port
4-input/2-output alarm port
+3.3 V
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
191
Power Supply Unitl Receives the +3.3 V power supply from the backplane and supplies it to the other units on
the AUX.l Receives and shuts down control signals.
Orderwire Unitl Supports the input of four channels of alarms.l Supports the output of two channels of alarms.l Provides one orderwire port.l Provides one 64 kbit/s synchronous transparent data port.l Provides one 19.2 kbit/s asynchronous transparent data port.
NOTEThe 64 kbit/s synchronous data port can transparently transmit orderwire byte. One port, however, can implementonly one of the two functions: 64 kbit/s synchronous data port and transparent transmission of orderwire byte.
Logic Control Unitl Provides an interface with the CPU unit and works with the CPU unit to implement the
board control function.l Processes orderwire bytes and overhead bytes.l Processes clock signals.l Provides board status information.l Checks the status of the main and standby system control, switching, and timing boards.l Checks the status of the main and standby clocks.l Supports the switching of system clock reference sources automatically and by running
specific commands.l Supports the detection and reporting of the key clock status of each board in the system.
Board Status Detection Unitl Detects board performance data such as board voltage.l Stores board manufacturing information.
Clock Unit
Provides clock signals to the logic control unit.
3.16.4 Front PanelThere are indicators, management ports, and auxiliary ports on the front panel.
Front Panel Diagram
Figure 3-82 shows the appearance of the front panel of the AUX.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
192
Figure 3-82 Front panel of the AUX
AUX
STAT
SR
V
F1/S1 PHONE ALMO ALMI
Indicators
Table 3-171 Status explanation for indicators on the AUX
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the
board.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor or remote alarm occurs in thesystem.
Off There is no power supplied to the system.
Auxiliary Ports and Management Ports
Table 3-172 Description of the auxiliary ports and management ports
Port Description Connector Type
F1/S1 Synchronous/Asynchronous data port RJ45
ALMI Alarm input port
ALMO Alarm output port
PHONE Orderwire phone port
The auxiliary ports and management ports use RJ45 connectors. The pin assignments for theports, however, are different. Figure 3-83 shows the front view of the RJ45 connector.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
193
Figure 3-83 Front view of the RJ45 connector
8 7 6 5 4 3 2 1
Table 3-173 provides the pin assignments for the F1/S1 port.
Table 3-173 Pin assignments for the F1/S1 port
Port Pin Signal
F1/S1 1 Transmitting asynchronous data signals
2 Grounding end
3 Receiving asynchronous data signals
4 Transmitting synchronous data signals (TIP)
5 Transmitting synchronous data signals (RING)
6 Grounding end
7 Receiving synchronous data signals (TIP)
8 Receiving synchronous data signals (RING)
For the pin assignments for the ALMI and ALMO ports, see Table 3-174 and see Table3-175.
Table 3-174 Pin assignments for the ALMI port
Port Pin Signal
ALMI 1 The first external alarm input signal
2 Grounding end for the first external alarm input signal
3 The second external alarm input signal
4 The third external alarm input signal
5 Grounding end for the third external alarm input signal
6 Grounding end for the second external alarm inputsignal
7 The forth external alarm input signal
8 Grounding end for the forth external alarm input signal
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
194
Table 3-175 Pin assignments for the ALMO port
Port Pin Signal
ALMO 1 The first external alarm output signal (+)
2 The first external alarm output signal (-)
3 The second external alarm output signal (+)
4 Connected in parallel with pin 1
5 Connected in parallel with pin 2
6 The second external alarm output signal (-)
7 Connected in parallel with pin 3
8 Connected in parallel with pin 6
3.16.5 Valid SlotsThe AUX can be inserted in slots 1-6. The logical slots of the AUX on the NMS are the sameas the physical slots.
Figure 3-84 Slots for the AUX in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (AUX)
Slot 3 (AUX)
Slot 1 (AUX)
Slot 8
Slot 6 (AUX)
Slot 4 (AUX)
Slot 2 (AUX)
Figure 3-85 Logical slots of the AUX on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5 (AUX)
Slot 3 (AUX)
Slot 1 (AUX)
Slot 8
Slot 6 (AUX)
Slot 4 (AUX)
Slot 2 (AUX)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
195
Table 3-176 Slot allocation
Item Description
Slot allocation priority Slots 4 and 6 > Slots 1 and 2 > Slots 3 and 5
3.16.6 Technical SpecificationsThis section describes the board specifications, including auxiliary port performance, boardmechanical behavior, and board power consumption.
Orderwire Interface Performance
Table 3-177 Orderwire interface performance
Item Performance
Transmission path Uses the E1 and E2 bytes in the SDH overhead or the Huawei-defined byte in the overhead of the microwave frame.
Orderwire type Addressing call
Wire pair in eachtransmission direction
One symmetrical wire pair
Impedance (ohm) 600
NOTE
The OptiX RTN equipment also supports the orderwire group call function. For example, when OptiX RTNequipment calls 888, the orderwire group call number, all the OptiX RTN equipment orderwire phones in theorderwire subnet ring until a phone is answered. Then, a point-to-point orderwire phone call is established.
Synchronous Data Interface Performance
Table 3-178 Synchronous data interface performance
Item Performance
Transmission path Uses the F1 byte in the SDH overhead or the Huawei-definedbyte in the overhead of the microwave frame.
Nominal bit rate (kbit/s) 64
Interface type Codirectional
Interface characteristics Meets the ITU-T G.703 standard.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
196
Asynchronous Data Interface
Table 3-179 Asynchronous data interface performance
Item Performance
Transmission path Uses the user-defined byte of the SDH overhead or theHuawei-defined byte in the overhead of the microwave frame.
Nominal bit rate (kbit/s) ≤ 19.2
Interface characteristics Meets the RS-232 standard.
Mechanical Behavior
Table 3-180 Mechanical behavior
Item Performance
Dimensions (H x W x D) 19.82 mm x 193.80 mm x 225.80 mm
Weight 0.27 kg
Power ConsumptionPower consumption: < 1.3 W
3.17 PIUThe PIU is the power interface board. The OptiX RTN 950 supports two PIUs, each of whichaccesses one -48 V/-60 V DC power supply.
3.17.1 Version DescriptionThe functional version of the PIU is TND1.
3.17.2 Functions and FeaturesThe PIU supports power access, power protection, surge protection status monitoring, andinformation reporting.
Table 3-181 lists the functions and features that the PIU supports.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
197
Table 3-181 Functions and features
Function and Feature Description
Basic functions Power access Two PIUs are provided and each accesses one -48 VDC or -60 V DC power input.
Power output The PIU provides other boards with -48 V power.
Protection Protection Supports 1+1 HSB protection.
Powerprotection
l Protection against overcurrentl Protection against short circuits
Surgeprotection
Supported
Board power consumptioninformation query
Supported
Surge protection status monitoring Supported
3.17.3 Working PrincipleThe PIU consists of the protection and detection unit, EMI filtering unit, and communicationcontrol unit.
Functional Block Diagram
Figure 3-86 shows the functional block diagram of the PIU.
Figure 3-86 Functional block diagram of the PIU
Protection and detection unit
EMI filtering unit
Communication control unit
-48 V/-60 V
System control and communication unit
Backplane
-48 V
+3.3 V
Detection signal Detection signal
Board operating in distributed power supply mode
Protection and Detection Unit
The protection and detection unit primarily protects and detects the PIU. It performs thefollowing functions:
l Provides protection against lightning strike and surge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
198
l Detects whether the surge-protection circuit fails and reports a surge-protection failurealarm.
l Monitors PIU temperature in real time and reports it to the system control andcommunication unit through the communication control unit.
EMI Filtering UnitThe EMI filtering unit performs electro-magnetic interference (EMI) filtering.
Communication Control UnitThe communication control unit achieves communication between the system control andcommunication unit and the PIU and reports the following information to the system controland communication unit:
l PIU manufacturing informationl PCB version informationl Surge-protection failure informationl PIU temperature
3.17.4 Front PanelThere are indicators, power access ports, and a label on the front panel.
Front Panel DiagramFigure 3-87 shows the appearance of the front panel of the PIU.
Figure 3-87 Front panel of the PIU
-48V
-60V
PW
R
NEG
(-)
RTN
(+)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
199
Indicators
Table 3-182 Status explanation for indicators on the PIU
Indicator Status Description
PWR On (green) The power supply is connected.
Off There is no power supplied to the PIU or the powersupply is connected incorrectly.
PortsThe PIU accesses one power supply. Table 3-183 lists the types of the ports on the PIU and theirrespective usage.
Table 3-183 Description of the ports on the PIU
Port Port Description Connector Type Corresponding Cable
NEG1(-) -48 V power inputport
2 mm HM powerconnector
5.1 Power Cable
RTN1(+) BGND power inputport
LabelsCaution label for power operations: prompting you to read the operation guide before any poweroperations.
CAUTIONDo not remove or install a PIU while the equipment is powered on. That is, turn off all the powersupplies of the PIU before removing or installing it.
3.17.5 Valid SlotsThe PIU can be inserted in slots 9 and 10. The logical slots of the PIU on the NMS are the sameas the physical slots.
Figure 3-88 Slots for the PIU in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11
Slot 7
Slot 5
Slot 3
Slot 1
Slot 8
Slot 6
Slot 4
Slot 2
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
200
Figure 3-89 Logical slots of the PIU on the NMS
Slot 10(PIU)
Slot 9(PIU)
Slot 11
Slot 7
Slot 5
Slot 3
Slot 1
Slot 8
Slot 6
Slot 4
Slot 2
3.17.6 Technical SpecificationsThis section describes the board specifications, including input voltage, board mechanicalbehavior, and board power consumption.
Table 3-184 lists the technical specifications for the PIU.
Table 3-184 Technical specifications for the PIU
Item Performance
Dimensions 21.0 mm x 41.4 mm x 229.9 mm
Weight 0.12 kg
Power consumption < 0.5 W
Input voltage -38.4 V to -72.0 V
3.18 FANThe FAN is a fan board that dissipates heat generated in the chassis through air cooling.
3.18.1 Version DescriptionThe functional version of the FAN is TND1.
3.18.2 Functions and FeaturesThe FAN adjusts the fan rotating speed, and detects and reports the fan status.
Table 3-185 lists the functions and features that the FAN supports.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
201
Table 3-185 Functions and features
Function and Feature Description
Power input Accesses one +12 V power input from the active systemcontrol, switching, and timing board and one +12 V powerinput from the standby system control, switching, and timingboard to provide 1+1 protection.
Number of fans 6
Intelligent fan speedadjustment
Supported
Protection Provides soft-start for the power supply of the fans, protectsfans against overcurrent, and filters out high-frequencysignals.
OM l Reports the information about the fan rotating speed,alarms, version number, and board in-position status.
l Provides alarm indicators.l Supports board power consumption information query
NOTE
l When one fan fails, it is recommended that you replace it within 96 hours if the ambient temperaturereaches 40°C; it is recommended that you replace it within 24 hours if the ambient temperature exceeds40°C.
l When more than one fan fails, it is recommended that you replace the failed fans immediately.
3.18.3 Working PrincipleThe FAN consists of the fan unit, power unit, and communication monitoring unit.
Figure 3-90 shows the functional block diagram of the FAN.
Figure 3-90 Functional block diagram of the FAN
Fan unit Power unit
Communication monitoring unit
System control and communication unit
Backplane
+12 V
Communication detection signal
Communication detection signal
+12 V
+12 V
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
202
Power Unitl Receives +12 V power from the backplane.l Provides the fan power with the following functions: soft-start, filtering, supply
combining, and overcurrent protection.
Fan UnitSix air-cooling fans dissipate the heat generated by the system.
Communication Monitoring Unitl Detects the manufacturing information, PCB version information, and environmental
temperature of the FAN, and reports the information to the system control andcommunication unit.
l Detects the fan rotating speed and adjusts the speed according to the pulse-widthmodulation signal from the system control and communication unit.The system adjusts the fan rotating speed based on the working temperature, as listed inTable 3-186.
Table 3-186 Adjustment of the fan rotating speed
Working Temperature Rotating Speed
≤ 25°C 4800 rounds/minute
25°C to 60°C Linear increase in accordance with thetemperature
≥ 60°C 16000 rounds/minute
3.18.4 Front PanelThere are indicators, an ESD wrist strap jack, and labels on the front panel.
Front Panel DiagramFigure 3-91 shows the appearance of the front panel of the FAN.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
203
Figure 3-91 Front panel of the FAN
FAN
CRIT
MAJ
MIN
Indicators
Table 3-187 Status explanation for indicators on the FAN
Indicator State Meaning
FAN On (green) The fan is working properly.
On (red) The fan is faulty.
Off The fan is not powered on or is not installed.
NOTE
The CRIT, MAJ, or MIN indicator on the front panel of the FAN indicates the current alarm severity of thesubrack.
ESD Wrist Strap JackAn ESD wrist strap needs to be connected to the ESD wrist strap jack to achieve the propergrounding of the human body.
LabelsThe front panel of the FAN has the following labels:
l ESD protection label: indicates that the equipment is static-sensitive.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
204
l Fan warning label: warns you not to touch fan leaves when a fan is rotating.
3.18.5 Valid SlotsThe FAN can be inserted in slot 11 in the IDU chassis. The logical slot of the FAN on the NMSis the same as the physical slot.
Figure 3-92 Slot for the FAN in the IDU chassis
Slot 10
Slot 9
Slot 11(FAN)
Slot 7
Slot 5
Slot 3
Slot 1
Slot 8
Slot 6
Slot 4
Slot 2
Figure 3-93 Logical slot of the FAN on the NMS
Slot 10
Slot 9
Slot 11(FAN)
Slot 7
Slot 5
Slot 3
Slot 1
Slot 8
Slot 6
Slot 4
Slot 2
3.18.6 Technical SpecificationsThis section describes the board specifications, including board mechanical behavior and boardpower consumption.
Table 3-188 lists the technical specifications for the FAN.
Table 3-188 Technical specifications for the FAN
Item Performance
Dimensions (H x W x D) 28.5 mm x 86.2 mm x 217.6 mm
Weight 0.302 kg
Power consumption < 4.1 W (room temperature)< 29.6 W (high temperature)
3.19 TCU6The TDM connecting unit (TCU6) is a 6xE1 port conversion board. The TCU6 implementsconversion between DB44 ports and RJ45 ports.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
205
3.19.1 Version DescriptionThe functional version of the TCU6 is SL91.
3.19.2 Functions and FeaturesThe TCU6 implements conversion between DB44 ports and RJ45 ports for 6xE1 services. Inapplication, the TCU6 usually works with the SP3S (120 ohms) by connecting them using anE1 transit cable terminated with an Anea 96 connector and a DB44 connector, therefore enablingconversion between Anea 96 ports and RJ45 ports.
Table 3-189 lists the functions and features that the TCU6 supports.
Table 3-189 Functions and features
Function and Feature Description
Basic functions Enables conversion between Anea 96 ports andRJ45 ports for E1 services when this board isconnected to the DB44 connector of an E1 transitcable, the other end of which is terminated with anAnea 96 connector.
Portspecifications
RJ45 port 6
DB44 port 1 (for receiving/transmitting 6xE1 signals)
Board information query and display onthe NMS
Not supported
NOTEThe TCU6 is a passive port conversion board, which does not provide software interfaces and ports forconnecting to the backplane.
3.19.3 Front PanelThere are six RJ45 ports and one DB44 port on the front panel.
Front Panel Diagram
T CU
6
1
1 6
2 3 4 5 6
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
206
Ports
Table 3-190 Description of the ports on the TCU6
Port Description Connector Type CorrespondingCable
1-6 (RJ45) The first to sixth E1RJ45 ports
RJ45 -
1-6 (DB44) The first to sixth E1DB44 ports
DB44 5.7.3 E1 TransitCable Terminatedwith an Anea 96Connector and aDB44 Connector
Figure 3-94 shows the front view of an RJ45 connector.
Figure 3-94 Front view of an RJ45 connector
8 7 6 5 4 3 2 1
NOTEThe two indicators on an RJ45 connector do not indicate port status and are steady off.
Each RJ45 port transmits 1xE1 signals. Table 3-191 provides the pin assignments for an RJ45port.
Table 3-191 Pin assignments for an RJ45 port
Port Pin Signal
n (n = 1-6) 1 The nth transmitted E1 differential signal (+)
2 The nth transmitted E1 differential signal (-)
3 Reserved
4 The nth received E1 differential signal (+)
5 The nth received E1 differential signal (-)
6 Reserved
7 Reserved
8 Reserved
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
207
Figure 3-95 shows the front view of a DB44 connector.
Figure 3-95 Pin assignments for a DB44 port
Pos. 1
Pos. 44
Pos. 15Pos. 16Pos. 30
Pos. 31
Table 3-192 Pin assignments for a DB44 port
Pin Signal Pin Signal
15 The first received E1 differentialsignal (-)
38 The first transmitted E1 differentialsignal (-)
30 The first received E1 differentialsignal (+)
23 The first transmitted E1 differentialsignal (+)
14 The second received E1 differentialsignal (-)
37 The second transmitted E1differential signal (-)
29 The second received E1 differentialsignal (+)
22 The second transmitted E1differential signal (+)
13 The third received E1 differentialsignal (-)
36 The third transmitted E1 differentialsignal (-)
28 The third received E1 differentialsignal (+)
21 The third transmitted E1 differentialsignal (+)
12 The fourth received E1 differentialsignal (-)
35 The fourth transmitted E1 differentialsignal (-)
27 The fourth received E1 differentialsignal (+)
20 The four transmitted E1 differentialsignal (+)
11 The fifth received E1 differentialsignal (-)
34 The fifth transmitted E1 differentialsignal (-)
26 The fifth received E1 differentialsignal (+)
19 The fifth transmitted E1 differentialsignal (+)
10 The sixth received E1 differentialsignal (-)
33 The sixth transmitted E1 differentialsignal (-)
25 The sixth received E1 differentialsignal (+)
18 The sixth transmitted E1 differentialsignal (+)
9 The seventh transmitted E1differential signal (+)
32 The seventh received E1 differentialsignal (+)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
208
Pin Signal Pin Signal
24 The seventh transmitted E1differential signal (-)
17 The seventh received E1 differentialsignal (-)
8 The eighth transmitted E1 differentialsignal (+)
31 The eighth received E1 differentialsignal (+)
7 The eighth transmitted E1 differentialsignal (-)
16 The eighth received E1 differentialsignal (-)
1-6and39-44
Grounding Others
Not defined
3.19.4 Valid SlotsThe TCU6 can be inserted in slot 4 or 6 of the IDU chassis. The TCU6 has no logical slots andis not displayed on the NMS.
The TCU6 usually works with the SP3S. The TCU6 is inserted in slot 6 and the SP3S is insertedin slot 4.
Figure 3-96 Slots for the TCU6 in the IDU chassis
Slot 10(PIU)
Slot 9(PIU)
Slot 11(FAN)
Slot 7
Slot 5
Slot 3
Slot 1
Slot 8
Slot 6 (TCU6)
Slot 4 (SP3S)
Slot 2
You can also insert the TCU6 in slot 4 and the SP3S in slot 6.
3.19.5 Technical SpecificationsThis section describes the board specifications, including only the mechanical behavior.
Mechanical Behavior
Table 3-193 Mechanical behavior
Item Performance
Dimensions (H x W x D) 19.82 mm x 193.80 mm x 225.80 mm
Weight 0.27 kg
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 3 Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
209
4 Accessories
About This Chapter
The accessories of the OptiX RTN 950 include the E1 panel and the power distribution unit(PDU). Select appropriate accessories based on the requirements.
4.1 E1 PanelWhen an IDU is installed in a 19-inch cabinet, install an E1 panel in the cabinet and this E1panel functions as a DDF for the IDU.
4.2 PDUA PDU is installed on the top of a 19-inch cabinet to distribute the input power supply to devicesin the cabinet.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 4 Accessories
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
210
4.1 E1 PanelWhen an IDU is installed in a 19-inch cabinet, install an E1 panel in the cabinet and this E1panel functions as a DDF for the IDU.
The dimensions (H x W x D) of the E1 panel are 42 mm x 483 mm x 33 mm. An E1 panelprovides cable distribution for 16 E1s.
Front Panel Diagram
Figure 4-1 Front panel of an E1 panelR1 R2 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 R15 R16
T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16
1-8
9-16
Ports
Table 4-1 Port description of an E1 panel
Port Description Connector Type
T1-T16 Transmit ports for the first tosixteenth E1 ports (connectedto external equipment)
BNC
R1-R16 Receive ports for the first tosixteenth E1 ports (connectedto external equipment)
1-8 The first to eighth E1 ports(connected to an IDU)
DB37
9-16 The ninth to sixteenth E1ports (connected to an IDU)
Grounding bolt Connecting a PGND cable -
NOTE
The port impedance of each E1 port on an E1 panel is 75 ohms.
Figure 4-2 shows the front view of an E1 port that is connected to an IDU. Table 4-2 providesthe pin assignments for the E1 port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 4 Accessories
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
211
Figure 4-2 Front view of an E1 port (E1 panel)
Pos. 1
Pos. 37
Table 4-2 Pin assignments for an E1 port (E1 panel)
Pin Signal Pin Signal
20 The first E1 received differentialsignal (+)
21 The first E1 transmitteddifferential signal (+)
2 The first E1 received differentialsignal (-)
3 The first E1 transmitteddifferential signal (-)
22 The second E1 receiveddifferential signal (+)
23 The second E1 transmitteddifferential signal (+)
4 The second E1 receiveddifferential signal (-)
5 The second E1 transmitteddifferential signal (-)
24 The third E1 received differentialsignal (+)
25 The third E1 transmitteddifferential signal (+)
6 The third E1 received differentialsignal (-)
7 The third E1 transmitteddifferential signal (-)
26 The fourth E1 receiveddifferential signal (+)
27 The fourth E1 transmitteddifferential signal (+)
8 The fourth E1 receiveddifferential signal (-)
9 The fourth E1 transmitteddifferential signal (-)
36 The fifth E1 received differentialsignal (+)
35 The fifth E1 transmitteddifferential signal (+)
17 The fifth E1 received differentialsignal (-)
16 The fifth E1 transmitteddifferential signal (-)
34 The sixth E1 received differentialsignal (+)
33 The sixth E1 transmitteddifferential signal (+)
15 The sixth E1 received differentialsignal (-)
14 The sixth E1 transmitteddifferential signal (-)
32 The seventh E1 receiveddifferential signal (+)
31 The seventh E1 transmitteddifferential signal (+)
13 The seventh E1 receiveddifferential signal (-)
12 The seventh E1 transmitteddifferential signal (-)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 4 Accessories
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
212
Pin Signal Pin Signal
30 The eighth E1 receiveddifferential signal (+)
29 The eighth E1 transmitteddifferential signal (+)
11 The eighth E1 receiveddifferential signal (-)
10 The eighth E1 transmitteddifferential signal (-)
Others Reserved - -
4.2 PDUA PDU is installed on the top of a 19-inch cabinet to distribute the input power supply to devicesin the cabinet.
4.2.1 Front PanelThere are input power terminals, PGND terminals, output power terminals, and power switcheson the front panel of a PDU.
Front Panel Diagram
Figure 4-3 Front panel of the PDU
NEG2(-)
INPUT
RTN2(+)RTN1(+) NEG1(-)
3
ON
OFF
ON
OFF
1 2 3 4
1 4
1 2 3 4
OUTPUT OUTPUTA B
2
20A20A 20A 20A20A20A 20A 20A
5 6
1. Output power terminals (A) 2. PGND terminals3. Input power terminals 4. Output power terminals (B)5. Power switches (A) 6. Power switches (B)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 4 Accessories
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
213
Ports
Table 4-3 Ports on the PDU
Position Port Description
Output powerterminals (A)
+ Power output (+)
- Power output (-)
PGNDterminals
Wiring terminalfor a two-holeOT terminal
For connecting PGND cables
Input powerterminals
RTN1(+) The first power input (+)
RTN2(+) The second power input (+)
NEG1(-) The first power input (-)
NEG2(-) The second power input (-)
Output powerterminals (B)
+ Power output (+)
- Power output (-)
Powerswitches (A)
20 A Switches for power outputsThe fuse capacity is 20 A. The switches from the left tothe right correspond to output power terminals 1 to 4 onside A.
Powerswitches (B)
20 A Switches for power outputsThe fuse capacity is 20 A. The switches from the left tothe right correspond to output power terminals 1 to 4 onside B.
4.2.2 Functions and Working PrincipleAfter implementing simple power distribution, a PDU feeds power to devices in a cabinet.
Functionsl The PDU supports two -48 V/-60 V DC power inputs.
l Each input power supply provides four outputs.
l The fuse capacity of the switch for each power output is 20 A.
l The PDU supports DC-C and DC-I power distribution.
Working Principle
A PDU consists of input terminals, output terminals, and circuit breakers and it performs simpledistribution operations for the input power.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 4 Accessories
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
214
Figure 4-4 Functional block diagram of the PDU
SW1
SW2
SW3
SW4
SW1
SW2
SW4
SW4
INPUT
RTN1(+)
RTN2(+)
NEG1(-)
NEG2(-)
+ 1-+ 2-
+ 3-+ 4-
+ 1-+ 2-+ 3-+ 4-
OUTPUT A
OUTPUT B
PGND
BGND
BGND
4.2.3 Power Distribution ModeA PDU supports DC-C and DC-I power distribution. The DC-C power distribution is the defaultmode.
A short-circuit copper bar inside a PDU controls the power distribution mode of the PDU.
DC-C Power Distribution ModeTo use DC-C power distribution, use the short-circuit copper bar to short-circuit terminal RTN1(+), terminal RTN2(+), and PGND terminals.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 4 Accessories
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
215
Figure 4-5 Interior of the PDU in DC-C mode
DC-I Power Distribution ModeTo use DC-I power distribution, remove the short-circuit copper bar.
Figure 4-6 Interior of the PDU in DC-I mode
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 4 Accessories
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
216
5 Cables
About This Chapter
This chapter describes the purpose, appearance, and pin assignments of various cables used onthe IDU 950.
5.1 Power CableA power cable connects the PIU board in the IDU to a power supply device (for example, a PDUon top of the cabinet) for access of the -48 V power to the IDU.
5.2 PGND CablePGND cables are available in two categories: IDU PGND cables and E1 panel PGND cables.
5.3 IF JumperAn IF jumper connects the IDU to an IF cable. The IF jumper works with the IF cable to transmitIF signals and O&M signals in addition to supplying -48 V power between the ODU and theIDU.
5.4 XPIC CableAn XPIC cable transmits reference IF signals between the two XPIC boards in an XPICworkgroup to implement the XPIC function.
5.5 Fiber JumperA fiber jumper transmits optical signals. One end of the fiber jumper has an LC/PC connectorthat is connected to an SDH optical port or GE optical port on the OptiX RTN 950. The connectorat the other end of the fiber jumper depends on the type of the optical port on the equipment tobe connected.
5.6 STM-1 CableAn STM-1 cable transmits/receives STM-1 signals. One end of the STM-1 cable has an SAAconnector that is connected to an STM-1 electrical port. The connector at the other end of theSTM-1 cable is connected to a DDF and needs to be prepared on site as required.
5.7 E1 CablesE1 cables are available in two categories: E1 cable (Anea 96) connected to the external equipmentand E1 cable connected to the E1 panel.
5.8 Orderwire CableAn orderwire cable connects an orderwire phone to the equipment. Both ends of the orderwirecable are terminated with an RJ11 connector. One end of the orderwire cable is connected to the
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
217
PHONE port on the AUX. The other end of the orderwire cable is connected to the port of theorderwire phone.
5.9 Network CableA network cable connects two pieces of Ethernet equipment. Both ends of the network cable areterminated with an RJ45 connector.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
218
5.1 Power CableA power cable connects the PIU board in the IDU to a power supply device (for example, a PDUon top of the cabinet) for access of the -48 V power to the IDU.
Cable Diagram
Figure 5-1 Power cable
Table 5-1 Power cable specifications
Model Cable Terminal
6 mm2 powercable andterminal
Power cable, 450 V/750 V, H07Z-K-6mm2, blue/black, lowsmoke zero halogencable
Common terminal, single cord end terminal,conductor cross section 6 mm2, 30 A, insertiondepth 12 mm, blue
NOTE
For the OptiX RTN 950, power cables with a 6 mm2 cross-sectional area can extend for a maximum distanceof 43 m.
5.2 PGND CablePGND cables are available in two categories: IDU PGND cables and E1 panel PGND cables.
5.2.1 IDU PGND CableAn IDU PGND cable connects the left ground point of the IDU to the ground point of externalequipment (for example, the ground support of a cabinet) so that the IDU and external equipmentshare the same ground.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
219
Cable Diagram
Figure 5-2 IDU PGND cable
2
Main label
H.S.tubeCable tie1
L
1. Bare crimping terminal, OT 2. Bare crimping terminal, OT
Pin AssignmentsNone.
5.2.2 E1 Panel PGND CableAn E1 panel PGND cable connects the right ground nut of the E1 panel to the ground point ofexternal equipment (for example, the ground support of a cabinet) so that the E1 panel andexternal equipment share the same ground.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
220
Cable Diagram
Figure 5-3 E1 panel PGND cable
1
Main label
L
Bare crimping terminal, OT
Pin AssignmentsNone.
5.3 IF JumperAn IF jumper connects the IDU to an IF cable. The IF jumper works with the IF cable to transmitIF signals and O&M signals in addition to supplying -48 V power between the ODU and theIDU.
An IF jumper is a 2 m RG-223 cable. One end of the IF jumper has a type-N connector that isconnected to the IF cable. The other end of the IF jumper has a TNC connector that is connectedto the IF board.
NOTE
l A 5D IF cable is directly connected to the IF board; therefore, an IF jumper is not required.
l If an RG-8U or 1/2-inch IF cable is used, an IF jumper is required to connect the RG-8U or 1/2-inchIF cable to the IF board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
221
Cable Diagram
Figure 5-4 IF jumper
1
2H.S.tube 2 PCSL = 3 cm
2000 mm
1. RF coaxial cable connector, TNC, male 2. RF coaxial cable connector, type-N, female
Pin AssignmentsNone.
5.4 XPIC CableAn XPIC cable transmits reference IF signals between the two XPIC boards in an XPICworkgroup to implement the XPIC function.
An XPIC cable is an RG316 cable that has SMA connectors at both ends. One end of the XPICcable is connected to the X-IN port of one XPIC board in an XPIC workgroup, and the otherend of the XPIC cable is connected to the X-OUT port of the other XPIC board in the sameXPIC work group.
When the XPIC function is disabled for XPIC boards, an XPIC cable is used to connect the X-IN port to the X-OUT port on the same XPIC board to loop back signals.
XPIC cables are available in the following types:
l XPIC cables with angle connectors: These XPIC cables are long and used to connect twoXPIC boards in the horizontal direction, for example, XPIC boards in slots 3 and 4.
l XPIC cables with straight connectors: These XPIC cables are short and used to connecttwo XPIC boards in the vertical direction, for example, IFX2 boards in slots 3 and 5. TheseXPIC cables are also used to connect the X-IN port to the X-OUT port on the same XPICboard to loop back signals.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
222
Cable Diagram
Figure 5-5 XPIC cable
L1
1 1
L2
2 2
1. Coaxial cable connector, SMA, angle, male 2. Coaxial cable connector, SMA, straight, male
Pin AssignmentsNone.
5.5 Fiber JumperA fiber jumper transmits optical signals. One end of the fiber jumper has an LC/PC connectorthat is connected to an SDH optical port or GE optical port on the OptiX RTN 950. The connectorat the other end of the fiber jumper depends on the type of the optical port on the equipment tobe connected.
Types of Fiber Jumpers
Table 5-2 Types of fiber jumpers
Connector 1 Connector 2 Cable
LC/PC FC/PC 2 mm single-mode fiber
2 mm multi-mode fiber
LC/PC SC/PC 2 mm single-mode fiber
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
223
Connector 1 Connector 2 Cable
2 mm multi-mode fiber
LC/PC LC/PC 2 mm single-mode fiber
2 mm multi-mode fiber
NOTEFor the OptiX RTN 950, multi-mode fibers are required to connect to 1000BASE-SX GE optical ports.
Fiber ConnectorsThe following figures show three common types of fiber connectors, namely, LC/PC connector,SC/PC connector, and FC/PC connector.
Figure 5-6 LC/PC connector
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
224
Figure 5-7 SC/PC connector
Figure 5-8 FC/PC connector
5.6 STM-1 CableAn STM-1 cable transmits/receives STM-1 signals. One end of the STM-1 cable has an SAAconnector that is connected to an STM-1 electrical port. The connector at the other end of theSTM-1 cable is connected to a DDF and needs to be prepared on site as required.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
225
Cable Diagram
Figure 5-9 STM-1 cable
1. Coaxial connector, SAA straight/male 2. Main label 3. Coaxial cable
Pin Assignments
None.
Cable Specifications
Item Description
Connector Coaxial connector, SAA connector (1.0/2.3), 75-ohm straight/male
Cable model Coaxial cable, 75-ohm, 3.9 mm, 2.1 mm, 0.34 mm, shielded
Number of cores One
Core diameter Diameter of the shield layer (3.9 mm), diameter of the internalinsulation layer (2.1 mm), diameter of the internal conductor (0.34mm)
Length 10 m
Fireproof class CM
5.7 E1 CablesE1 cables are available in two categories: E1 cable (Anea 96) connected to the external equipmentand E1 cable connected to the E1 panel.
5.7.1 E1 Cable Connected to the External EquipmentAn E1 cable that is connected to the external equipment is used when the IDU needs to directlyreceive E1 signals from or transmits E1 signals to external equipment.
Each E1 cable that is connected to the external equipment can transmit a maximum of 16 E1signals. There are two types of E1 cables that are connected to the external equipment: 75-ohmcoaxial cables and 120-ohm twisted pair cables.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
226
Cable Diagram
Figure 5-10 E1 cable connected to the external equipment
Main label
1
W
X1 A
View A
Pos.1
Pos.96
Cable connector, Anea,96-pin, female
1. Cable connector, Anea 96, female
NOTE
l A 120-ohm E1 cable and a 75-ohm E1 cable have the same appearance.
l The core diameter of a 75-ohm E1 cable is 1.6 mm. Therefore, use a crimping tool with an opening of2.5 mm (0.098-inch) to attach the end of the 75-ohm E1 cable on the DDF frame with a 75-1-1 coaxialconnector.
Pin Assignments
Table 5-3 Pin assignments for a 75-ohm E1 cable
Pin W Remarks
Pin W Remarks
Core SerialNo.
Core SerialNo.
1 Tip 1 R0 25 Tip 2 T0
2 Ring 26 Ring
3 Tip 3 R1 27 Tip 4 T1
4 Ring 28 Ring
5 Tip 5 R2 29 Tip 6 T2
6 Ring 30 Ring
7 Tip 7 R3 31 Tip 8 T3
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
227
Pin W Remarks
Pin W Remarks
Core SerialNo.
Core SerialNo.
8 Ring 32 Ring
9 Tip 9 R4 33 Tip 10 T4
10 Ring 34 Ring
11 Tip 11 R5 35 Tip 12 T5
12 Ring 36 Ring
13 Tip 13 R6 37 Tip 14 T6
14 Ring 38 Ring
15 Tip 15 R7 39 Tip 16 T7
16 Ring 40 Ring
18 Ring 17 R8 42 Ring 18 T8
17 Tip 41 Tip
20 Ring 19 R9 44 Ring 20 T9
19 Tip 43 Tip
22 Ring 21 R10 46 Ring 22 T10
21 Tip 45 Tip
24 Ring 23 R11 48 Ring 24 T11
23 Tip 47 Tip
50 Ring 25 R12 74 Ring 26 T12
49 Tip 73 Tip
52 Ring 27 R13 76 Ring 28 T13
51 Tip 75 Tip
54 Ring 29 R14 78 Ring 30 T14
53 Tip 75 Tip
56 Ring 31 R15 80 Ring 32 T15
55 Tip 79 Tip
Shell Braid Shell Braid
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
228
Table 5-4 Pin assignments for a 120-ohm E1 cable
Pin W Remarks
TapeColor
Pin W Remarks
TapeColor
Colorof theCore
Relationship
Colorof theCore
Relationship
1 White Twisted pair
R0 Blue 25 White Twisted pair
T0 Blue
2 Blue 26 Orange
3 White Twisted pair
R1 27 White Twisted pair
T1
4 Green 28 Brown
5 White Twisted pair
R2 29 Red Twisted pair
T2
6 Grey 30 Blue
7 Red Twisted pair
R3 31 Red Twisted pair
T3
8 Orange
32 Green
9 Red Twisted pair
R4 33 Red Twisted pair
T4
10 Brown 34 Grey
11 Black Twisted pair
R5 35 Black Twisted pair
T5
12 Blue 36 Orange
13 Black Twisted pair
R6 37 Black Twisted pair
T6
14 Green 38 Brown
15 Black Twisted pair
R7 39 Yellow
Twisted pair
T7
16 Grey 40 Blue
17 White Twisted pair
R8 Orange
41 White Twisted pair
T8 Orange
18 Blue 42 Orange
19 White Twisted pair
R9 43 White Twisted pair
T9
20 Green 44 Brown
21 White Twisted pair
R10 45 Red Twisted pair
T10
22 Grey 46 Blue
23 Red Twisted pair
R11 47 Red Twisted pair
T11
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
229
Pin W Remarks
TapeColor
Pin W Remarks
TapeColor
Colorof theCore
Relationship
Colorof theCore
Relationship
24 Orange
48 Green
49 Red Twisted pair
R12 73 Red Twisted pair
T12
50 Brown 74 Grey
51 Black Twisted pair
R13 75 Black Twisted pair
T13
52 Blue 76 Orange
53 Black Twisted pair
R14 77 Black Twisted pair
T14
54 Green 78 Brown
55 Black Twisted pair
R15 79 Yellow
Twisted pair
T15
56 Grey 80 Blue
Shell Braid Shell Braid
5.7.2 E1 Cable Connected to the E1 PanelAn E1 cable that is connected to the E1 panel is used when the E1 panel functions as a DDF.One end of the E1 cable has an Anea 96 connector that is connected to an E1 port on the IDU.The other end of the E1 cable has a DB37 connector that is connected to the E1 panel.
Each E1 cable can transmit 16 E1 signals. The port impedance of the E1 cable is 75 ohms.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
230
Cable Diagram
Figure 5-11 E1 cable connected to the E1 panel
X1: Cable connector, Anea 96, female X2/X3: Cable connector, type D, 37 maleLabel 1: "CHAN 0-7" Label 2: "CHAN 8-15"
Pin Assignments
Table 5-5 Pin assignments for the E1 cable terminated with an Anea 96 connector and a DB37connector
Wire Connector X1
Connector X2/X3
Remarks Connector X1
Connector X2/X3
Remarks
W1 X1.2 X2.20 R0 X1.10 X2.36 R4
X1.1 X2.2 X1.9 X2.17
X1.26 X2.21 T0 X1.34 X2.35 T4
X1.25 X2.3 X1.33 X2.16
X1.4 X2.22 R1 X1.12 X2.34 R5
X1.3 X2.4 X1.11 X2.15
X1.28 X2.23 T1 X1.36 X2.33 T5
X1.27 X2.5 X1.35 X2.14
X1.6 X2.24 R2 X1.14 X2.32 R6
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
231
Wire Connector X1
Connector X2/X3
Remarks Connector X1
Connector X2/X3
Remarks
X1.5 X2.6 X1.13 X2.13
X1.30 X2.25 T2 X1.38 X2.31 T6
X1.29 X2.7 X1.37 X2.12
X1.8 X2.26 R3 X1.16 X2.30 R7
X1.7 X2.8 X1.15 X2.11
X1.32 X2.27 T3 X1.40 X2.29 T7
X1.31 X2.9 X1.39 X2.10
W2 X1.18 X3.20 R8 X1.50 X3.36 R12
X1.17 X3.2 X1.49 X3.17
X1.42 X3.21 T8 X1.74 X3.35 T12
X1.41 X3.3 X1.73 X3.16
X1.20 X3.22 R9 X1.52 X3.34 R13
X1.19 X3.4 X1.51 X3.15
X1.44 X3.23 T9 X1.76 X3.33 T13
X1.43 X3.5 X1.75 X3.14
X1.22 X3.24 R10 X1.54 X3.32 R14
X1.21 X3.6 X1.53 X3.13
X1.46 X3.25 T10 X1.78 X3.31 T14
X1.45 X3.7 X1.77 X3.12
X1.24 X3.26 R11 X1.56 X3.30 R15
X1.23 X3.8 X1.55 X3.11
X1.48 X3.27 T11 X1.80 X3.29 T15
X1.47 X3.9 X1.79 X3.10
Shell Braid Shell Braid
5.7.3 E1 Transit Cable Terminated with an Anea 96 Connector anda DB44 Connector
When the TCU6 works with the SP3S, an E1 transit cable terminated with an Anea 96 connectorand a DB44 connector is required for connecting the two boards. For the E1 transit cable, theAnea 96 connector is connected to the E1 port on the SP3S, and the DB44 connector is connectedto the DB44 E1 port on the TCU6.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
232
This E1 transit cable can transmit 6xE1 signals. The port impedance of the cable is 120 ohms,and therefore this cable can work only with the 120-ohm SP3S. The cable is 0.6 m long.
Cable Diagram
Figure 5-12 E1 transit cable terminated with an Anea 96 connector and a DB44 connector
A
Pos.15Pos.16 Pos.30
Pos.31
Main Label
X2
X1. Cable connector, Anea 96, female X2. Cable connector, type-D, 44 male
Pin Assignments
Table 5-6 Pin assignments for the E1 transit cable terminated with an Anea 96 connector and aDB44 connector
Wire Connector X1
Connector X2
Remarks Connector X1
Connector X2
Remarks
W1 X1.2 X2.15 R0 X1.8 X2.12 R3
X1.1 X2.30 X1.7 X2.27
X1.26 X2.38 T0 X1.32 X2.35 T3
X1.25 X2.23 X1.31 X2.20
X1.4 X2.14 R1 X1.10 X2.11 R4
X1.3 X2.29 X1.9 X2.26
X1.28 X2.37 T1 X1.34 X2.34 T4
X1.27 X2.22 X1.33 X2.19
X1.6 X2.13 R2 X1.12 X2.10 R5
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
233
Wire Connector X1
Connector X2
Remarks Connector X1
Connector X2
Remarks
X1.5 X2.28 X1.11 X2.25
X1.30 X2.36 T2 X1.36 X2.33 T5
X1.29 X2.21 X1.35 X2.18
Shell Braid Shell Braid
5.8 Orderwire CableAn orderwire cable connects an orderwire phone to the equipment. Both ends of the orderwirecable are terminated with an RJ11 connector. One end of the orderwire cable is connected to thePHONE port on the AUX. The other end of the orderwire cable is connected to the port of theorderwire phone.
Cable Diagram
Figure 5-13 Orderwire cable
1
6
1
6
1 Main label
X1 X2
1. Orderwire port, RJ11 connector
Pin Assignments
Table 5-7 Pin assignments for the orderwire cable
Connector X1 Connector X2 Function
X1.3 X2.3 Tip
X1.4 X2.4 Ring
5.9 Network CableA network cable connects two pieces of Ethernet equipment. Both ends of the network cable areterminated with an RJ45 connector.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
234
Two types of interfaces use RJ45 connectors, which are medium dependent interfaces (MDIs)and MDI-Xs. MDIs are used by terminal equipment, for example, network card. The pinassignments for MDIs are provided in Table 5-8. MDI-Xs are used by network equipment. Thepin assignments for MDI-Xs are provided in Table 5-9.
Table 5-8 Pin assignments for MDIs
Pin 10/100BASE-T(X) 1000BASE-T
Signal Function Signal Function
1 TX+ Transmitting data (+) BIDA+ Bidirectional data wire A(+)
2 TX- Transmitting data (-) BIDA- Bidirectional data wire A(-)
3 RX+ Receiving data (+) BIDB+ Bidirectional data wire B(+)
4 Reserved - BIDC+ Bidirectional data wire C(+)
5 Reserved - BIDC- Bidirectional data wire C(-)
6 RX- Receiving data (-) BIDB- Bidirectional data wire B(-)
7 Reserved - BIDD+ Bidirectional data wire D(+)
8 Reserved - BIDD- Bidirectional data wire D(-)
Table 5-9 Pin assignments for MDI-Xs
Pin 10/100BASE-T(X) 1000BASE-T
Signal Function Signal Function
1 RX+ Receiving data (+) BIDB+ Bidirectional data wire B(+)
2 RX- Receiving data (-) BIDB- Bidirectional data wire B(-)
3 TX+ Transmitting data (+) BIDA+ Bidirectional data wire A(+)
4 Reserved - BIDD+ Bidirectional data wire D(+)
5 Reserved - BIDD- Bidirectional data wire D(-)
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
235
Pin 10/100BASE-T(X) 1000BASE-T
Signal Function Signal Function
6 TX- Transmitting data (-) BIDA- Bidirectional data wire A(-)
7 Reserved - BIDC+ Bidirectional data wire C(+)
8 Reserved - BIDC- Bidirectional data wire C(-)
Straight-through cables are used between MDIs and MDI-Xs, and crossover cables are usedbetween MDIs or between MDI-Xs. The only difference between straight-through cables andcrossover cables is with regard to the pin assignment.
The NMS/COM port, NE cascading port, and Ethernet electrical service ports of the OptiX RTN950 support the MDI, MDI-X, and auto-MDI/MDI-X modes. Straight-through cables andcrossover cables can be used to connect the NMS/COM port, EXT port, and Ethernet electricalservice ports to MDIs or MDI-Xs.
Cable Diagram
Figure 5-14 Network cable
1
8
1
8
1Label 1 Label 2Main label
1. Network port connector, RJ45
Pin Assignments
Table 5-10 Pin assignments for the straight-through cable
Connector X1 Connector X2 Color Relation
X1.1 X2.1 White/Orange Twisted pair
X1.2 X2.2 Orange
X1.3 X2.3 White/Green Twisted pair
X1.6 X2.6 Green
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
236
Connector X1 Connector X2 Color Relation
X1.4 X2.4 Blue Twisted pair
X1.5 X2.5 White/Blue
X1.7 X2.7 White/Brown Twisted pair
X1.8 X2.8 Brown
Table 5-11 Pin assignments for the crossover cable
Connector X1 Connector X2 Color Relation
X1.6 X2.2 Orange Twisted pair
X1.3 X2.1 White/Orange
X1.1 X2.3 White/Green Twisted pair
X1.2 X2.6 Green
X1.4 X2.4 Blue Twisted pair
X1.5 X2.5 White/Blue
X1.7 X2.7 White/Brown Twisted pair
X1.8 X2.8 Brown
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description 5 Cables
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
237
A Parameters Description
This chapter describes the parameters used in this document.
A.1 Parameters for Network ManagementThis topic describes the parameters that are related to network management.
A.2 Radio Link ParametersThis topic describes the parameters that are related to radio links.
A.3 Multiplex Section Protection ParametersThis topic describes the parameters that are related to multiplex section protection (MSP).
A.4 SDH/PDH Service ParametersThis topic describes the parameters that are related to SDH/PDH services.
A.5 Parameters for Board InterfacesThis topic describes the parameters that are related to board interfaces.
A.6 Parameters for Ethernet Services and Ethernet Features on the Packet PlaneThis section describes the parameters for the Ethernet services and Ethernet features on thepacket plane, including service parameters, protocol parameters, OAM parameters, Ethernet portparameters, and QoS parameters.
A.7 Parameters for Ethernet Services and Ethernet Features on the EoS/EoPDH PlaneThis section describes the parameters for the Ethernet services and Ethernet features on the EoS/EoPDH plane, including service parameters, protocol parameters, OAM parameters, Ethernetport parameters, and QoS parameters.
A.8 RMON ParametersThis topic describes the parameters that are related to RMON performances.
A.9 Parameters for MPLS/PWE3 ServicesThis topic describes parameters that are related to MPLS/PWE3 services.
A.10 Clock ParametersThis topic describes the parameters that are related to clocks.
A.11 Parameters for the Orderwire and Auxiliary InterfacesThis topic describes the parameters that are related to the orderwire and auxiliary interfaces.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
238
A.1 Parameters for Network ManagementThis topic describes the parameters that are related to network management.
A.1.1 Parameters for NE ManagementThis topic describes the parameters that are used for managing network elements (NEs).
A.1.1.1 Parameter Description: NE SearchingThis topic describes the parameters that are used for searching for NEs.
Navigation PathChoose File > Discovery > NE from the Main Menu.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
239
Parameters for the Search FieldParameter Value Range Default Value Description
Address Type IP Address of GNENSAP AddressIP Address Range of GNE
IP Address Range of GNE l If the OSI protocol isused on the DCN, youcan search for an NEbased on NSAPAddress only.
l If the IP protocol isused on the DCN, youcan search for an NEbased on IP Addressof GNE or IP AddressRange of GNE.
l To search for all theNEs that communicatewith the gateway NE,select IP AddressRange of GNE.
l To select the gatewayNE only, select IPAddress of GNE.
NOTEIf Address Type is set to IPAddress of GNE or IPAddress Range of GNE,and if the U2000 (server)and the gateway NE arelocated in different networksegments, ensure that theU2000 and relevant routersare configured with the IProutes for the networksegment in which theU2000 and gateway NE arelocated.
If Address Type is set toNSAP Address, ensure thatthe OSI protocol stack isinstalled.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
240
Parameter Value Range Default Value Description
Search Address - - l If Address Type is setto IP Address ofGNE, enter the IPaddress of the gatewayNE, such as 129.9.x.x.
l If Address Type is setto IP Address Rangeof GNE, enter thenumber of the IPnetwork segment inwhich the gateway NEis located, such as129.9.255.255.
l If Address Type is setto NSAP Address,enter the NSAPaddress of the gatewayNE.
User Name - - This parameter specifiesthe user name of thegateway NE.
Password - - This parameter specifiesthe password of thegateway NE.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
241
Parameter for Searching for NEsParameter Value Range Default Value Description
Create NE after search SelectedDeselected
Deselected l To create NEs inbatches, it isrecommended that youselect Create NEafter search. The NEsare automaticallycreated after they arefound.
l After Create NE aftersearch is selected,enter NE User andPassword that areused for creating anNE.
NOTEIf only Create NE aftersearch is selected, Searchfor NE is selectedautomatically.
NE User - - l This parameterspecifies the user nameto be entered when anNE is created.
l This parameter is validonly when Create NEafter search isselected.
Password - - l This parameterspecifies the passwordto be entered when anNE is created.
l This parameter is validonly when Create NEafter search isselected.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
242
Parameter Value Range Default Value Description
Upload after create SelectedDeselected
Deselected l This parameterspecifies whether toautomatically uploadthe NE data after theNE is found andcreated.
l If only Upload aftercreate is selected,Search for NE andCreate NE aftersearch are selectedautomatically.
Parameter for the Found NEsParameter Value Range Default Value Description
NE ID - - This parameter indicatesthe ID of the found NE,which consists ofextended ID and NE ID.
GNE Address - - This parameter indicatesthe address of the gatewayNE that is connected to thefound NE.
GNE ID - - This parameter indicatesthe ID of the gateway NEthat is connected to thefound NE.
Created As GNE YesNo
Yes l This parameterspecifies the passwordto be entered when anNE is created.
l This parameter is validonly when Create NEafter search isselected.
Connection Mode CommonSecurity SSL
Common The communicationbetween the client and theserver is encrypted if thisparameter is set toSecurity SSL.
Port - 1400 This parameter specifiesthe communication port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
243
Parameter Value Range Default Value Description
NE Status CreatedUncreated
- This parameter indicateswhether the found NE iscreated.
A.1.1.2 Parameter Description: NE CreationThis topic describes the parameters that are related to NE creation.
Navigation Path1. Choose File > Creat > NE from the Main Menu.2. Choose RTN Series > OptiX RTN 950 from the Object Tree.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Type - - This parameter indicatesthe type of the NE to becreated.
ID 1 to 49135 - l The ID refers to thebasic ID. If theextended ID is notused, the basic ID of anNE must be unique onthe networks that aremanaged by the sameNMS.
l This parameter is setaccording to theplanning information.
l The NE ID consistingof the basic ID andextended ID identifiesan NE on the NMS.
Extended ID 1 to 254 9 If the number of existingNEs does not exceed therange represented by thebasic ID, do not changeExtended ID.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
244
Parameter Value Range Default Value Description
Name - - l This parameterspecifies the name ofthe NE.
l After you havespecified the name ofthe NE, the name isdisplayed under theicon of the NE.
Remarks - - This parameter specifiesthe remarks of the NE.
Gateway Type Non-GatewayGateway
Non-Gateway l This parameter is set toGateway if the newNE is a gateway NE.
l This parameter is set toNon-Gateway if thenew NE is a non-gateway NE.
l This parameter is setaccording to the DCNplanning if the new NEcan function as agateway NE or a non-gateway NE.
Gateway - - This parameter indicatesthe gateway NE of the newNE when Gateway Typeis set to Non-Gateway.
Protocol IPOSI
IP l This parameter needsto be set whenGateway Type is setto Gateway.
l When the OSI overDCC solution is used,this parameter is set toOSI.
l In other cases, thisparameter is set to IP.
IP Address - - This parameter indicatesthe IP address of the newNE. This parameter needsto be set when AffiliatedGateway Protocol is setto IP.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
245
Parameter Value Range Default Value Description
Connection Mode CommonSecurity SSL
Common The communicationbetween the client and theserver is encrypted if thisparameter is set toSecurity SSL.
Port - 1400 This parameter specifiesthe communication port.
NE User - - This parameter specifiesthe user name to beentered when an NE iscreated.
Password - - This parameter specifiesthe password to be enteredwhen an NE is created.
NSAP Address - - This parameter indicatesthe NSAP address of thenew NE. This parameterneeds to be set whenAffiliated GatewayProtocol is set to OSI.You need to set the area IDonly, and the other partsare automaticallygenerated by the NE.
A.1.1.3 Parameter Description: Attribute_Changing NE IDsThis topic describes the parameters that are used for changing NE IDs.
Navigation Path1. In the Main Topology, right-click the NE whose ID needs to be changed.2. Choose Object Attributes.3. Click Modify NE ID.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
246
Parameters for Changing NE IDsParameter Value Range Default Value Description
New ID - - l The new ID refers tothe basic ID. If theextended ID is notused, the basic ID of anNE must be unique onthe networks that aremanaged by the sameNMS.
l This parameter is setaccording to thenetwork plan.
NOTEThe NE ID consisting of thebasic ID and extended IDidentifies an NE on theNMS.
New Extended ID 1 to 254 9 If the number of existingNEs does not exceed therange represented by thebasic ID, do not changethe extended ID.
A.1.1.4 Parameter Description: NE Time SynchronizationThis topic describes the parameters that are used for synchronizing the time of NEs.
Navigation Path1. Choose Configuration > NE Batch Configuration > NE Time Synchronization from
the Main Menu.2. Click the NE Time Synchronization tab.
Parameters for NE Time SynchronizationParameter Value Range Default Value Description
NE Name - - This parameter indicatesthe name of the NE.
NE ID - - This parameter indicatesthe ID of the NE.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
247
Parameter Value Range Default Value Description
Synchronous Mode Standard NTPNMNull
Null l If this parameter is setto NM, the NEsynchronizes the timeof the NMS server.
l If this parameter is setto Standard NTP, theNE synchronizes theNetwork TimeProtocol (NTP) serverthrough the standardNTP.
Standard NTPAuthentication
EnabledDisabled
Disabled This parameter is validonly when SynchronousMode is set to StandardNTP.
Parameters for the Standard NTP ServerParameter Value Range Default Value Description
Standard NTP ServerIdentifier
NE IDIP
NE ID l If the NE functions asthe gateway NE, thisparameter is set to IP.
l If the NE functions asa non-gateway NE andcommunicates withthe gateway NEthrough the HWECCprotocol, thisparameter is set to NEID.
l If the NE functions asa non-gateway NE andcommunicates withthe gateway NEthrough the IPprotocol, thisparameter is set to IP.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
248
Parameter Value Range Default Value Description
Standard NTP Server - - l If the NE functions asthe gateway NE, thisparameter is set to theIP address of theexternal NTP server.
l If the NE functions asa non-gateway NE,this parameter is set tothe ID or IP address ofthe gateway NE.
Standard NTP ServerKey
0 to 1024 0 l If the NTP server doesnot need toauthenticated, thisparameter is set to thevalue "0".
l If the NTP serverneeds to beauthenticated, theauthentication isperformed accordingto the allocated key ofthe NTP server. In thiscase, the NEauthenticates the NTPserver based on the keyand the correspondingpassword (specified inthe management of thestandard NTP key).
Parameters for Setting Automatic SynchronizationParameter Value Range Default Value Description
SynchronizationStarting Time
- - l This parameterspecifies the start timeof the synchronizationperiod. After thisparameter is specified,the NMS and the NEsynchronize the timeonce at the intervals ofSynchronizationPeriod(days).
l It is recommended thatyou use the defaultvalue.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
249
Parameter Value Range Default Value Description
DST SelectedDeselected
Deselected l This parameterindicates whetherSynchronizationStarting Time is thedaylight saving time.
l This parameter is setaccording to the actualsituation.
Synchronization Period(days)
1 to 300 1 l This parameterindicates the period ofsynchronizing the timeof the NE with the timeof the NMS.
l It is recommended thatyou use the defaultvalue.
A.1.1.5 Parameter Description: Localization Management of the NE TimeThis parameter describes the parameters that are used for localization management of the NEtime.
Navigation Path1. Choose Configuration > NE Batch Configuration > NE Time Localization
Management from the Main Menu.2. Select the NE for time localization management from the Object Tree, and then click
.
Parameters for Localization Management of the NE TimeParameter Value Range Default Value Description
NE - - This parameter indicates the name of theNE.
TimeZone - - This parameter indicates the time zone.
DST - - This parameter indicates whether DST isenabled.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
250
Parameters for Time ZoneParameter Value Range Default Value Description
Time Zone - - l After the time zone is changed, thecurrent time of the NE is changedaccordingly.
l This parameter is set according to theplace where the NE is located.
DST SelectedDeselected
Deselected l The parameters related to daylightsaving time can be valid only when thisparameter is selected.
l This parameter is set according to thesituation whether daylight saving time isused in the place where the NE is located.
Offset 1 to 120Unit: minute(s)
- This parameter specifies the offset value ofthe daylight saving time.
Start Rule WEEKDATE
WEEK This parameter specifies the method ofadjusting the daylight saving time.
Start Time - - This parameter specifies the start daylightsaving time.
End Rule WEEKDATE
WEEK This parameter specifies the method ofadjusting the daylight saving time.
End Time - - This parameter specifies the end daylightsaving time.
A.1.1.6 Parameter Description: Standard NTP Key ManagementThis topic describes the parameters that are used for managing the standard NTP key.
Navigation Path1. Choose Configuration > NE Batch Configuration > NE Time Synchronization from
the Main Menu.2. Click the Standard NTP Key Management tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
251
Parameters on the Main InterfaceParameter Value Range Default Value Description
Key 1 to 1024 - l This parameterindicates the key forNTP authentication.
l This parameter is setaccording to therequirements of theexternal NTP server.
Password - - l This parameterindicates the passwordthat corresponds toKey.
l This parameter is setaccording to therequirements of theexternal NTP server.
Trusted YesNo
Yes l When this parameter isset to No, the keyverification is nottrusted. Afterreceiving the key, theNE rejects the clocksynchronizationservice.
l When this parameter isset to Yes, the keyverification is trusted.After receiving thekey, the NE providesthe clocksynchronizationservice.
l After receiving anunknown or incorrectkey, the NE rejects theclock synchronizationservice. Hence, it isrecommended that youset a trusted key only.
A.1.1.7 Parameter Description: License ManagementThis topic describes the parameters that are used for managing the license.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
252
Navigation Path1. In the NE Explorer, select the NE and then choose Configuration > License
Management from the Function Tree.
2. Click the License Management tab.
Parameters for Managing Licenses
Parameter Value Range Default Value Description
Board - - This parameter displays the boards that needto be supported by licenses.
License File Type - - This parameter displays the license typecorresponding to each board.
Capacity - - This parameter displays the capacity of eachboard.
Loaded - - This parameter displays whether thecorresponding license file is loaded to eachboard.
A.1.1.8 Parameter Description: Automatic Disabling of the Functions of NEs
This parameter describes the parameters that are used for automatically disabling the functionsof an NE.
Navigation Path1. On the Main Topology, choose Configuration > NE Batch Configuration > Automatic
Disabling of NE Function.
2. Select the NE whose functions need to be automatically disabled from the Object Tree, and
then click .
Parameters for Automatically Disabling the Functions of NEs
Parameter Value Range Default Value Description
NE Name - - This parameter indicates the name of theNE.
NE Type OptiX RTN 950 - This parameter indicates the type of the NE.
Operation Type - - This parameter indicates the type of theoperation, such as loopback, and shutdownof the laser.
Auto Disabling DisabledEnabled
Enabled This parameter specifies whether toautomatically disable the operations such asloopback, and shutdown of the laser.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
253
Parameter Value Range Default Value Description
Auto DisablingTime(min)
1 to 2880 5 This parameter specifies the time ofautomatically disabling the operations suchas loopback, and shutdown of the laser.
A.1.2 Parameters for Communications ManagementThis topic describes the parameters that are used for communications management.
A.1.2.1 Parameter Description: NE Communication Parameter SettingThis topic describes the parameters that are used for NE communication setting.
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Communication >Communication Parameters from the Function Tree.
Parameters for NE Communication SettingParameter Value Range Default Value Description
IP Address - Before delivery, theIP address of the NEis set to 129.9.0.x.The letter x indicatesthe basic ID.
In the HWECC solution, an IP address is setaccording to the following rules:l The IP address, subnet mask, and default
gateway of the gateway NE should meetthe planning requirements of theexternal DCN.
l If an NE uses the extended ECC, the IPaddress must be in the same networksegment.
l The IP address of other NEs should beset according to the NE ID. In this case,the IP address of an NE should be set inthe format of 0x81000000+ID. That is,if the ID is 0x090001, the IP addressshould be set to 129.9.0.1.
Gateway IPAddress
- 0.0.0.0
Subnet Mask - 255.255.0.0
Extended ID 1 to 254 9 l Do not change the extended ID when thenumber of actual NEs does not exceedthe range permitted by the basic NE ID.
l It is recommended that this parametertakes the default value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
254
Parameter Value Range Default Value Description
NSAP Address - - This parameter is valid only when the OSIover DCC solution is applied. Thisparameter is used to set only the area ID ofan NSAP address. The other parts of theNSAP address are automatically generatedby the NE.
Connection Mode Common + SecuritySSLCommonSecurity SSL
Common + SecuritySSL
l Specifies the connection mode that thegateway NE allows the NMS to use forconnecting to the gateway NE.
l If the gateway NE has no specialsecurity requirement for connection tothe NMS, Connection Mode can be setto Common.
l If the gateway NE requests secureconnection to the NMS for preventinginformation interception and cracking,Connection Mode needs to be set toSecurity SSL.
l If NE communication security levelneeds to be the same as NMScommunication security level,Connection Mode needs to be set toCommon + Security SSL.
l The default parameter value isrecommended unless the gateway NErequires that the NMS use the SSLconnection mode.
l The parameter value takes effect onlywhen it is set for a gateway NE and thegateway NE is connected to the NMS bymeans of the IP protocol.
A.1.2.2 Parameter Description: DCC Management_DCC Rate ConfigurationThis topic describes the parameters that are used for configuring the DCC rate.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > DCC
Management from the Function Tree.2. Click the DCC Rate Configuration tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
255
Parameters for DCC Rate ConfigurationParameter Value Range Default Value Description
Port - - This parameter indicates the port that isconnected to the DCC channel.
Enabled/Disabled EnabledDisabled
Enabled It is recommended that you use the defaultvalue, except for the following cases:l If the port is connected to the other ECC
subnet, Enabled/Disabled is set toDisabled.
l If the port is connected to a third-partynetwork and does not exchange thenetwork management information withother ports, Enabled/Disabled is set toDisabled.
Channel D1-D3D4-D12D1-D12D1-D1
D1-D1 (for the PDHradio whosetransmissioncapacity is less than16xE1)D1-D3 (for othercases)
It is recommended that you use the defaultvalue, except for the following cases:l If the IP DCN or OSI over DCC solution
is adopted, Channel for the SDH lineports is set to a value that is the same asthe value for third-party network.
l If the DCC transparent transmissionsolution is adopted, the value ofChannel for the SDH line ports shouldnot conflict with the value that is set forthe third-party network.
DCC Resources - - This parameter indicates the DCCresources.
CommunicationStatus
- - This parameter indicates thecommunication status.
Protocol Type HWECCTCP/IPOSIL2DCN
HWECC It is recommended that you use the defaultvalue, except for the following cases:l If the IP DCN solution is adopted,
Protocol Type is set to TCP/IP.l If the OSI over DCC solution is adopted,
Protocol Type is set to OSI.l When the L2 DCN solution is used, set
Protocol Type to L2DCN.
IP Address - - l IP Address is available only if ProtocolType is set to TCP/IP.
l When the IP DCN solution is used andthe NE functions as an ABR, thisparameter specifies the interface IPaddress of the non-backbone area port onthe ABR.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
256
Parameter Value Range Default Value Description
Subnet Mask - - l Subnet Mask is available only ifProtocol Type is set to TCP/IP.
l When the IP DCN solution is used andthe NE functions as an ABR, thisparameter specifies the subnet mask ofthe non-backbone area port on the ABR.
A.1.2.3 Parameter Description: DCC Management_DCC Transparent TransmissionManagement
This topic describes the parameters that are used for DCC transparent transmission management.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > DCC
Management from the Function Tree.2. Click the DCC Transparent Transmission Management tab.3. Click Create.
Parameters for DCC Transparent Transmission ManagementParameter Value Range Default Value Description
Source Timeslot/Porta
- - This parameter specifies the source timeslotor port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
257
Parameter Value Range Default Value Description
TransparentTransmission ofOverhead Bytes atSource Port
D1D2D3D4D5D6D7D8D9D10D11D12E1E2F1K1K2X1X2X3X4
- l Only one overhead byte can be selectedeach time.
l X1, X2, X3, and X4 indicate thecustomized overhead bytes that are usedfor transmitting asynchronous dataservices.
l An overhead byte cannot be a byte thatis used. For example, an overhead bytecannot be a byte in the used DCCchannel.
NOTEOnly the ISU2/ISX2/SL1DA board supportstransparent transmission of the K1/K2 byte.
Sink Timeslot/Porta
- - This parameter specifies the sink timeslot orport.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
258
Parameter Value Range Default Value Description
TransparentTransmission ofOverhead Bytes atSink Port
D1D2D3D4D5D6D7D8D9D10D11D12E1E2F1K1K2X1X2X3X4
- l Only one overhead byte can be selectedeach time.
l An overhead byte cannot be a byte thatis used. For example, an overhead bytecannot be a byte in the used DCCchannel.
l Generally, Transparent Transmissionof Overhead Bytes at Sink Port can beset to a value that is the same as ordifferent from the value in the case ofTransparent Transmission ofOverhead Bytes at Source Port.
NOTEOnly the ISU2/ISX2/SL1DA board supportstransparent transmission of the K1/K2 byte.
NOTE
a. A bidirectional cross-connection is set up between the source port and the sink port. Hence, a port functionsthe same regardless of the source port or sink port.
A.1.2.4 Parameter Description: ECC Management_Ethernet Port Extended ECCThis topic describes the parameters that are related to the extended ECCs of Ethernet ports.
Navigation PathClick an NE in the NE Explorer. Choose Communication > ECC Management from theFunction Tree.
Parameters for the ECC Extended ModeParameter Value Range Default Value Description
ECC ExtendedMode
Auto modeSpecified mode
Auto mode It is recommended that you use the defaultvalue.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
259
Parameters for Setting the ServerParameter Value Range Default Value Description
IP - - This parameter indicates the IP address ofthe server.
Port 1601 to 1699 0 l This parameter is valid only when ECCExtended Mode is set to Specifiedmode.
l This parameter can be set only when theNE functions as the server of theextended ECC. In normal cases, the NEthat is close to the NMS functions as theserver.
l This parameter can be set to any valuefrom 1601 to 1699.
Parameters for Setting the ClientParameter Value Range Default Value Description
Opposite IP - 0.0.0.0 l This parameter is valid only when ECCExtended Mode is set to Specifiedmode.
l This parameter can be set only when theNE functions as the client of theextended ECC. Except for the NE thatfunctions as the server, all other NEs thatuse the extended ECC can function as theclient.
l Opposite IP and Port are respectivelyset to the IP address of the server NE andthe specified port number.
Port 1601 to 1699 0
A.1.2.5 Parameter Description: NE ECC Link ManagementThis topic describes the parameters that are used for NE ECC link management.
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Communication > NE ECCLink Management from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
260
Parameter for NE ECC Link ManagementParameter Value Range Default Value Description
Destination NE - - This parameter specifies the sink NE of theECC connection.
Transfer NE - - This parameter specifies the next transferNE and the direction of the ECC route.
Distance - - l This parameter specifies the number ofNEs (excluding the source NE and sinkNE) through which the ECC routepasses, namely, the number of ECCpacket forwarding attempts. The valuecan be set to a value that is greater thanthe number of actual ECC packetforwarding attempts. If the value is set toa value that is less than the number ofactual ECC packet forwarding attempts,however, the destination NE fails to beaccessed.
l If the value is set to 0, it indicates that thesource NE is adjacent to the destinationNE.
Level - - l This parameter indicates that multipleECC routes from the source NE to thedestination NE may be available. AnECC route of a higher priority is selectedto transmit the packets to the destinationNE.
l If the ECC route is generatedautomatically, the priority is 4.
l If the ECC route is added manually, thepriority is 5.
Mode - - This parameter indicates the ECC routingmode.
SCC No. - - This parameter specifies the physical portthrough which the ECC route passes. Thevalue of this parameter is automaticallyassigned the NE.
A.1.2.6 Parameter Description: ECC Link Management_Availability TestThis topic describes the parameters that are used to test ECC availability.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
261
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and then choose
Communication > NE ECC Link Management from the Function Tree.2. Click Reachability Test and choose Ping Test or Trace Route from the drop-down menu.
Ping Test ParametersParameter Value Range Default Value Description
Target NE - - Specifies the NE for which a ping test willbe performed.
Packet Length(Byte)
0-800 64 l Specifies the test packet length.l It is recommended that this parameter
take its default value.
Packet Quantity 1-65535 3 l Specifies the number of test packets.l It is recommended that this parameter
take its default value.
Sending Interval(ms)
0-65535 0 l Specifies the test packet transmissioninterval.
l It is recommended that this parametertake its default value.
To Be Translated(ms)
1-65535 1000 l Specifies the maximum time for testpacket to wait until being responded to.
l It is recommended that this parametertake its default value.
Traceroute ParametersParameter Value Range Default Value Description
Target NE - - Specifies the NE for which a traceroute testwill be performed.
To Be Translated(ms)
0-65535 1000 l Specifies the maximum time for testpacket to wait until being responded to.
l It is recommended that this parametertake its default value.
Forwarding NEs 0-255 64 Specifies the number of NEs that testpackets will traverse during the forwardingprocess.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
262
A.1.2.7 Parameter Description: IP Protocol Stack Management_IP RouteManagement
This topic describes the parameters that are used for IP route management.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > IP
Protocol Stack Management from the Function Tree.2. Click the IP Route Management tab.
Parameters for IP Route Management
Parameter Value Range Default Value Description
DestinationAddress
- - This parameter indicates the destinationaddress of the packets. This parameter canbe set to a valid IP address of class A, B, orC only, but cannot be set to the IP addressof the local host or the loopback addresswith the 127 field.
Subnet Mask - - This parameter indicates the subnet mask ofthe destination address of the packets.
Gateway - - This parameter indicates the IP address ofthe gateway on the subnetwork where theNE is located, namely, the IP address of thenext hop of the packets.
Protocol - - l DIRECT: indicates the route betweenthe local NE and an adjacent NE.
l STATIC: indicates the route that iscreated manually.
l OSPF: indicates the route between thelocal NE and a non-adjacent NE.
l RIP: indicates the route that isdiscovered by the routing informationprotocol.
l OSPF_ASE: indicates the route whoseDestination Address is beyond theOSPF domain.
l OSPF_NSSA: indicates the route whoseDestination Address is in a not sostubby area (NSSA).
l A route can be deleted in the case ofSTATIC only, but cannot be edited inthe other cases.
l Compared with a dynamic route, a staticroute has a higher priority. If any conflictoccurs, the static route is preferred.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
263
Parameter Value Range Default Value Description
Interface - - This parameter indicates the interface that isused on the route. Interface is a conceptspecified in the TCP/IP protocol stack. Inthe TCP/IP protocol stack, you can createmultiple types of interface, such as aloopback interface (namely, the interfacewhose IP address is 127.0.0.1), an Ethernetinterface, and PPP interface. Each interfacemust have a unique interface name.
Metric - - This parameter indicates the maximumnumber of routers through which thepackets are transmitted. Metric is used toindicate the overhead bytes that aretransmitted to the destination address. Thesmaller the value, the less the overheadbytes. If multiple routes can reach the samedestination address, a route whose overheadis less is preferred to transmit the packets.
A.1.2.8 Parameter Description: IP Protocol Stack Management_IP RouteManagement Creation
This topic describes the parameters that are used for new static IP routes.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > IP
Protocol Stack Management from the Function Tree.2. Click the IP Route Management tab.3. Click New.
Parameters for Creating IP RoutesParameter Value Range Default Value Description
DestinationAddress
- - This parameter specifies the destinationaddress of the packets. This parameter canbe set to a valid IP address of class A, B, orC only, but cannot be set to the IP addressof the local host or the loopback addresswith the 127 field.
Subnet Mask - - This parameter indicates the subnet mask ofthe destination address of the packets.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
264
Parameter Value Range Default Value Description
Gateway - - This parameter specifies the IP address ofthe gateway on the subnetwork where theNE is located, namely, the IP address of thenext hop of the packets.
A.1.2.9 Parameter Description: IP Protocol Stack Management_Availability TestThis topic describes the parameters that are used to test IP DCN availability.
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and then choose
Communication > IP Protocol Stack Management from the Function Tree.2. Click Reachability Test and choose Ping Test or Trace Route from the drop-down menu.
Ping Test ParametersParameter Value Range Default Value Description
Target NE IP - - Specifies the NE for which a ping test willbe performed.
Packet Length(Byte)
0-800 64 l Specifies the test packet length.l It is recommended that this parameter
take its default value.
Packet Quantity 1-65535 3 l Specifies the number of test packets.l It is recommended that this parameter
take its default value.
Sending Interval(ms)
0-65535 0 l Specifies the test packet transmissioninterval.
l It is recommended that this parametertake its default value.
To Be Translated(ms)
1-65535 5000 l Specifies the maximum time for testpacket to wait until being responded to.
l It is recommended that this parametertake its default value.
Traceroute ParametersParameter Value Range Default Value Description
Target NE IP - - Specifies the NE for which a traceroute testwill be performed.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
265
Parameter Value Range Default Value Description
Max Hops 1-30 10 Specifies the number of hops which testpackets traverse during the packettransmission process.
A.1.2.10 Parameter Description: IP Protocol Stack Management_OSPF ParameterSettings
This topic describes the parameters that are used for OSPF settings.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > IP
Protocol Stack Management from the Function Tree.2. Click the OSPF Parameter Settings tab.
OSPF ParametersParameter Value Range Default Value Description
Area - 0.0.0.0 l If only an OSPF area is configured on anNE, set this parameter according to theplanning information.
l If multiple OSPF areas are configured onan NE, this parameter takes its defaultvalue 0.0.0.0.
DCC Hello Timer(s)
1 to 255 10 l DCC Hello Timer(s) specifies the Hellopacket timer for the DCC channel orinband DCN.
l The Hello packets are used for detectingthe neighbor router on the network thatis connected to the router. Byperiodically transmitting the hellopackets, you can determine whether theinterface on the neighbor router is still inthe active status.
l DCC Hello Timer(s) determines theinterval for the hello packet timer totransmit the hello packets.
l In the case of two interconnected NEs,DCC Hello Timer(s) must be set to thesame value.
l Unless otherwise specified, it isrecommended that this parameter take itsdefault value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
266
Parameter Value Range Default Value Description
DCC NeighborDead Time(s)
1 to 65535 40 l DCC Neighbor Dead Time(s) specifiesthe dead time of a neighbor router for theDCC channel or inband DCN.
l If the local router fails to receive thehello packets from the connectedneighbor router within the time specifiedin DCC Neighbor Dead Time(s), itconsiders that the neighbor router isunavailable.
l DCC Neighbor Dead Time(s) shouldbe set to a value that is a minimum oftwice the value of DCC Hello Timer(s).
l In the case of adjacent NEs, DCCNeighbor Dead Time(s) must be set tothe same value. Otherwise, the OSPFprotocol fails to operate normally.
l Unless otherwise specified, it isrecommended that this parameter take itsdefault value.
DCCRetransmissionTimer(s)
1 to 65535 5 l DCC Retransmission Timer(s)specifies the interval for transmitting arequest through the DCC channel orinband DCN to retransmit the link stateadvertisement (LSA) packets.
l Unless otherwise specified, it isrecommended that this parameter take itsdefault value.
DCC Delay(s) 1 to 3600 1 l DCC Delay(s) specifies the delay timeto transmit the LSA packets through theDCC channel or inband DCN.
l The LSA packets in the LSA database ofthe local router are aged as the timeelapses, but are not aged when they arebeing transmitted on the network.Hence, before the LSA packets aretransmitted, you need to increase the ageof the LSA packets based on the value ofDCC Delay(s).
l Unless otherwise specified, it isrecommended that this parameter take itsdefault value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
267
Parameter Value Range Default Value Description
LAN Hello Timer(s)
1 to 255 10 l DCC Hello Timer(s) specifies the hellopacket timer at the Ethernet networkmanagement port or NE cascading port.
l The hello packets are used for detectingthe neighbor router on the network thatis connected to the router. Byperiodically transmitting the hellopackets, you can determine whether theinterface on the neighbor router is still inthe active status.
l LAN Hello Timer(s) determines theinterval for the hello packet timer of theNE to transmit the hello packets.
l In the case of two interconnected NEs,LAN Hello Timer(s) must be set to thesame value.
l Unless otherwise specified, it isrecommended that this parameter take itsdefault value.
LAN NeighborDead Time(s)
1 to 65535 40 l LAN Neighbor Dead Time(s) specifiesthe dead time of a neighbor router at theLAN interface.
l If the local router fails to receive thehello packets from the connectedneighbor router within the time specifiedin LAN Neighbor Dead Time(s), itconsiders that the neighbor router isunavailable.
l LAN Neighbor Dead Time(s) should beset to a value that is a minimum of twotimes the value of LAN Neighbor DeadTime(s).
l In the case of adjacent NEs, DCCNeighbor Dead Time(s) must be set tothe same value. Otherwise, the OSPFprotocol fails to operate normally.
l Unless otherwise specified, it isrecommended that this parameter take itsdefault value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
268
Parameter Value Range Default Value Description
LANRetransmissionTimer(s)
1 to 65535 5 l LAN Retransmission Timer(s)specifies the time for transmitting arequest for retransmission of the LSApackets through the Ethernet networkmanagement port or NE cascading port.
l Unless otherwise specified, it isrecommended that this parameter take itsdefault value.
LAN Delay(s) 1 to 3600 1 l LAN Delay(s) specifies the delay timeto transmit the LSA packets through theEthernet network management port orNE cascading port.
l The LSA packets in the LSA database ofthe local router are aged as the timeelapses, but are not aged when they arebeing transmitted on the network.Hence, before the LSA packets aretransmitted, you need to increase the ageof the LSA packets based on the value ofLAN Delay(s).
l Unless otherwise specified, it isrecommended that this parameter take itsdefault value.
OSPF Status EnabledDisabled
Enabled Specifies whether the OSPF protocol isenabled. If an NE uses only static routeswith OSPF disabled, set this parameter toDisabled.
STUB Area EnabledDisabled
Disabled l Specifies whether to enable the STUBArea.
l Set this parameter as required.l A backbone area cannot be a STUB area.
NSSA Area EnabledDisabled
Disabled l Specifies whether to enable the NSSAArea.
l Set this parameter as required.l A backbone area cannot be an NSSA
area.
Direct route EnabledDisabled
Disabled l Specifies whether the direct routeautomatic flooding function is enabled.
l Direct route: the route detected by thelink layer protocol.
l Set this parameter as required.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
269
Parameter Value Range Default Value Description
Static route EnabledDisabled
Disabled l Specifies whether the static routeautomatic flooding function is enabled.
l Static route: the route manuallyconfigured by the networkadministrator.
l Set this parameter as required.
RIP route EnabledDisabled
Disabled l Specifies whether the RIP routeautomatic flooding function is enabled.
l RIP route: the route detected by the RIPprotocol.
l Set this parameter as required.
Default route EnabledDisabled
Disabled l Specifies whether the default routeautomatic flooding function is enabledfor ASBRs.
l Default OSPF routes are routes whosedestination addresses and subnet masksare 0s.
l Set this parameter according to theplanning information.
Router ID - - The Router IP address is always the NE IPaddress.
Opaque LSA ofExternal NetworkPort
EnabledDisabled
Enabled l Specifies whether the Ethernet networkmanagement port or NE cascading porttransmits Type-10 LSAs.
l If this parameter is set to Disabled, theEthernet network management port orNE cascading port transmits networkmanagement information.
l Set this parameter as required.
LAN Interface EnabledDisabled
Disabled l Specifies whether the OSPF protocol isenabled for the Ethernet networkmanagement port or NE cascading port.
l If this parameter is set to Enabled, theOSPF protocol is communicated withother equipment through the Ethernetnetwork management port or NEcascading port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
270
OSPF authentication parametersParameter Value Range Default Value Description
Interface Type - - l Displays the DCN port types that allowthe OSPF authentication key to bespecified.
l LAN indicates the Ethernet networkmanagement port or NE cascading port.
l DCC indicates the DCC channels orinband DCN port.
AuthenticationType
noneMD5simple
none l Specifies the OSPF authentication modefor which a key needs to be set.
l If Authentication Type is MD5, a keyneeds to be set for the MD5authentication mode.
l If Authentication Type is simple, a keyneeds to be set for the simpleauthentication mode.
l If Authentication Type is none, allpreset keys for the related port type arecleared.
AuthenticationPassword
- - Specifies the OSPF authentication passwordfor each port type.
MD5 Key 1-255 - MD5 Key is available only whenAuthentication Type is MD5.
A.1.2.11 Parameter Description: IP Protocol Stack_Proxy ARPThis topic describes the parameters that are used for configuring the proxy ARP.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > IP
Protocol Stack Management from the Function Tree.2. Click the Proxy ARP tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
271
Parameters for configuring the proxy ARP
Parameter Value Range Default Value Description
Proxy ARP DisabledEnabled
Disabled l The proxy ARP enables the NEs in thesame network segment but differentdomains to communicate with eachother.
l To realize communication between suchNEs, the source NE sends the ARPbroadcast packet to address the route tothe destination NE. The NE with theproxy ARP function enabled checks therouting table after sensing the ARPbroadcast packet. If the routing tablecontains the destination address that theARP broadcast packet looks for, the NEreturns an ARP spoofing packet, whichenables the NE that sends the ARPbroadcast packet to consider that theMAC address of the NE that returns theARP spoofing packet is the MACaddress of the destination NE. In thismanner, the packet that is to be sent tothe destination NE is first sent to the NEwith the proxy ARP function enabledand then forwarded to the destinationNE.
A.1.2.12 Parameter Description: Management of Multiple OSPF Areas
This topic describes the parameters that are related to management of multiple OSPF areas.
Navigation Path1. In the NE Explorer, select the desired NE and choose Communication > IP Protocol Stack
Management from the Function Tree.
2. Click the Multi-OSPF Management tab.
Parameters Required for Configuring Multiple OSPF Areas
Parameter Value Range Default Value Description
ID - - Displays the area ID.
Default Area - - Displays whether an area is the default area.
AuthenticationType
noneMD5simple
none l Specifies the OSPF authentication typeused by an area.
l none indicates no authentication.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
272
Parameter Value Range Default Value Description
Automatic RouteAggregation
EnabledDisabled
Disabled l Specifies whether automatic routeaggregation is enabled for an area.
l The number of routes after automaticroute aggregation is the same as thenumber of Networks.
Stub Type - - Displays the STUB type of an area.
Network ParametersParameter Value Range Default Value Description
IP Address - - Displays the IP addresses of the Networksin an area.
Subnet Mask - - Displays the subnet masks of the Networksin an area.
Parameters for Configuring Manual Route AggregationParameter Value Range Default Value Description
IP Address - - Displays the IP address of the Networkwhere route aggregation is manuallyenabled.
Subnet Mask - - Displays the subnet mask of the Networkwhere route aggregation is manuallyenabled.
A.1.2.13 Parameter Description: Management of Multiple OSPF Areas_AddingOSPF Areas
This topic describes the parameters that are used for adding OSFP areas.
Navigation Path1. In the NE Explorer, select the desired NE and choose Communication > IP Protocol Stack
Management from the Function Tree.2. Click the Multi-OSPF Management tab.3. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
273
Parameters Required for Creating OSPF AreasParameter Value Range Default Value Description
ID - - l Set the area ID of a new OSPF areaaccording to the planning information.
l An NE can be configured with amaximum of four OSPF areas.
IP Address - - l Set the IP addresses of the Networks inan area according to planninginformation.
l An area supports a maximum of fourNetworks.
Subnet Mask - - Set the subnet masks of the Networks in anarea according to planning information. Asubnet mask can contain a maximum of 30bits.
AuthenticationType
noneMD5simple
none Specifies the OSPF authentication type usedby an area according to planninginformation.l none indicates no authentication.l MD5 indicates that authentication is
performed based on the preset password,with the password encrypted in MD5mode.
l simple: indicates that authentication isperformed based on the preset password,with the password not encrypted.
Automatic RouteAggregation
EnabledDisabled
Disabled l Specifies whether automatic routeaggregation is enabled for an area.
l The number of routes after automaticroute aggregation is the same as thenumber of Networks.
STUB Type NON-STUBSTUBNSSA
NON-STUB Set the STUB type of an area according toplanning information.l For the backbone area, this parameter
must be set to NON-STUB.l For other areas, it is recommended that
you set this parameter to NON-STUB. Ifrequired, this parameter can also be setto STUB or NSSA.
A.1.2.14 Parameter Description: Management of Multiple OSPF Areas_AddingRoutes to Be Manually Aggregated
This topic describes the parameters for adding routes to be manually aggregated.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
274
Navigation Path1. In the NE Explorer, select the desired NE and choose Communication > IP Protocol Stack
Management from the Function Tree.2. Click the Multi-OSPF Management tab.3. In Manual Route Aggregation, click Add.
Parameters for Configuring Manual Route AggregationParameter Value Range Default Value Description
ID Address - - Specifies the IP address of the Networkwhere routes need to be aggregatedmanually.
Subnet Mask - - Specifies the subnet mask of the Networkwhere routes need to be aggregatedmanually.
A.1.2.15 Parameter Description: Port OSPF SettingThis section describes the parameters that are used for setting port OSPF parameters.
Navigation Path1. In the NE Explorer, select the required NE and choose Communication > IP Protocol
Stack Management from the Function Tree.2. Click the Port OSPF Parameter Settings tab.
Port OSPF ParametersParameter Value Range Default Value Description
Port - - Displays the ports that allow OSPFparameters to be set.
Path Type - - Displays the current DCC channel type.
OSPF Status EnabledDisabled
Enabled l Specifies whether to enable the OSPF.l Set this parameter as required.
Opaque LSA ofExternal NetworkPort
EnabledDisabled
Enabled l Specifies whether DCC channels supportOpaque LSAs.
l Set this parameter as required.
A.1.2.16 Parameter Description: OSI Management_Network Layer ParameterThis topic describes the parameters that are related to the network layer of the OSI protocolmodel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
275
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > OSI
Management from the Function Tree.2. Click the Network Layer Parameters tab.
Network Layer ParametersParameter Value Range Default Value Description
NE - - This parameter indicates the name of theNE.
Configuration Role ESL1L2
L1 l An NE whose Configuration Role is setto L1 cannot function as a neighbor of anNE in the other area. It uses a route in thelocal area only and accesses the otherarea by distributing the default route ofthe nearest L2 NE.
l An NE whose Configuration Role is setto L2 can function as a neighbor of anNE in the other area and can use a routein the backbone area. The backbone areais a collection that is formed byconsecutive L2 NEs. That is, the L2 NEof all the roles must be consecutive(connected to each other).
NOTEConfiguration Role cannot be set to ES.
Current Role - - This parameter indicates the current role.
A.1.2.17 Parameter Description: OSI Management_Routing TableThis topic describes the parameters that are related to OSI routing tables.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > OSI
Management from the Function Tree.2. Click the Routing Table tab.
Parameters for Link Adjacency TableParameter Value Range Default Value Description
Port - - This parameter indicates the port used forOSI communication.
Data Link Layer - - This parameter indicates the protocol that isused at the data link layer.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
276
Parameter Value Range Default Value Description
Adjacency No. - - l This parameter specifies the identifier ofthe adjacency that is set up by two NEsthrough the OSI protocol. One adjacencynumber corresponds to an OSIadjacency.
l The value is dynamically allocated bythe NE.
Adjacency Type - - This parameter indicates the type of theadjacency.
Adjacency State - - This parameter indicates the state of theadjacency.
Peer End Area ID - - This parameter indicates the area ID that iscontained in the NSAP address of theopposite NE.
Peer End SystemID
- - This parameter indicates the system ID ofthe opposite NE. Generally, the system IDis the MAC address.
Parameters for L1 and L2 Routing TablesParameter Value Range Default Value Description
Destination SYSID - - This parameter indicates the system ID ofthe destination NE. Generally, the systemID is the MAC address.
Metric - - This parameter indicates the number of hopsthat reach the destination NE or destinationarea.
Adjacency No.1 - - This parameter indicates the number of theadjacent link that is connected to thedestination NE.
Adjacency No.2 - - This parameter indicates the number of theadjacent link that is connected to thedestination NE.
A.1.2.18 Parameter Description: OSI Management_OSI TunnelThis topic describes the parameters that are related to the OSI tunnels.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
277
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > OSI
Management from the Function Tree.
2. Click the OSI Tunnel tab.
Parameters for OSI Tunnel Attributes
Parameter Value Range Default Value Description
Remote IP Address - - This parameter indicates the IP address ofthe opposite end of the OSI tunnel.
LAPD Actor UserNetwork
User l This parameter specifies the LAPDactor.
l If the adjacent NEs run the OSI protocol,they can perform the LAPD negotiationonly when the LAPD actor is set toUser at one end and is set to Network atthe other end.
Efficient LAPDEnable
- - This parameter indicates whether thecurrent LAPD is enabled.
ConfigurableLAPD Enable
EnabledDisabled
Enabled This parameter specifies whether the LAPDis enabled.
LAPD Parameters
Parameter Value Range Default Value Description
Remote IP Address - - This parameter indicates the IP address ofthe opposite end of the OSI tunnel.
L2 Wait Time toRetry(s)
1 to 20 1 l This parameter specifies L2 Wait Timeto Retry(s).
l L2 Wait Time to Retry(s) indicates theinterval for retransmitting packets at theLAPD link layer.
l L2 Wait Time to Retry(s) needs to beset according to the network situation. Ifthe network is in good situation, L2 WaitTime to Retry(s) can be set to a smallervalue. Otherwise, it is recommended thatyou set L2 Wait Time to Retry(s) to agreater value.
l This parameter needs to be set accordingto the planning information. In normalcases, it is recommended that you use thedefault value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
278
Parameter Value Range Default Value Description
L2 Retry Times 2 to 6 3 l This parameter specifies L2 RetryTimes.
l L2 Retry Times indicates the maximumnumber of packet retransmissionattempts at the LAPD link layer.
l L2 Retry Times needs to be setaccording to the network situation. If thenetwork is in good situation, L2 RetryTimes can be set to a smaller value.Otherwise, it is recommended that youset L2 Retry Times to a greater value.
l This parameter needs to be set accordingto the planning information. In normalcases, it is recommended that you use thedefault value.
L3 Hello Timer(s) 1 to 100 3 l This parameter specifies L3 HelloTimer(s).
l L3 Hello Timer(s) indicates the Hellopacket timer at the LAPD link networklayer. It is used for periodicaltransmission of the Hello packets.
l The Hello timer determines the intervalfor transmitting the Hello packets once.L3 Hello Timer(s) needs to be setaccording to the network situation. If thenetwork is in good situation, L3 HelloTimer(s) can be set to a greater value.Otherwise, it is recommended that youset L3 Hello Timer(s) to a smaller value.
l This parameter needs to be set accordingto the planning information. In normalcases, it is recommended that you use thedefault value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
279
Parameter Value Range Default Value Description
L3 ES Timer(s) 1 to 200 50 l This parameter specifies L3 ES Timer(s).
l L3 ES Timer(s) indicates the ESconfiguration timer at the LAPD linknetwork layer. It is used for setting thetime to transmit the configurationinformation on the ES route.
l L3 ES Timer(s) needs to be setaccording to the network situation. If thenetwork is in good situation, L3 ESTimer(s) can be set to a greater value.Otherwise, it is recommended that youset L3 Hello Timer(s) to a smaller value.
l This parameter needs to be set accordingto the planning information. In normalcases, it is recommended that you use thedefault value.
L3 IS Timer(s) 1 to 200 10 l This parameter specifies L3 IS Timer(s).
l L3 IS Timer(s) indicates the ISconfiguration timer at the LAPD linknetwork layer. It is used for setting thetime to transmit the configurationinformation through the L1/L2 router.
l L3 IS Timer(s) needs to be set accordingto the network situation. If the networkis in good situation, L3 IS Timer(s) canbe set to a greater value. Otherwise, it isrecommended that you set L3 IS Timer(s) to a smaller value.
l This parameter needs to be set accordingto the planning information. In normalcases, it is recommended that you use thedefault value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
280
Parameter Value Range Default Value Description
L3 Hold Timer(s) 2 to 63 5 l This parameter specifies L3 Hold Timer(s).
l L3 Hold Timer(s) indicates the holdtimer at the LAPD link network layer.
l L3 Hold Timer(s) needs to be setaccording to the network situation. If thenetwork is in good situation, L3 HoldTimer(s) can be set to a smaller value.Otherwise, it is recommended that youset L3 IS Timer(s) to a greater value.
l This parameter needs to be set accordingto the planning information. In normalcases, it is recommended that you use thedefault value.
COST 1 to 63 20 l This parameter specifies COST.l COST indicates the overhead value of
the virtual LAPD that corresponds to theOSI tunnel.
l The overhead value determines whetherthis link is perverted. If the overheadvalue is smaller, this link has a higherpriority to be selected.
l This parameter needs to set according tothe planning information.
A.1.2.19 Parameter Description: OSI Management_OSI Port Parameters
This topic describes the OSI port parameters.
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and choose
Communication > OSI Management from the Function Tree.
2. Click the Port Parameters tab.
OSI port parameters
Parameter Value Range Default Value Description
LAPD Role UserNetwork
User l This parameter is available only whenProtocol Type is OSI.
l Set LAPD Role to User at one end of aDCC and to Network at the other end ofthe DCC.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
281
Parameter Value Range Default Value Description
LAPD MTU - - This parameter displays the maximumLAPD packet length.
A.1.2.20 Parameter Description: DCN Management_Bandwidth ManagementThis topic describes the parameters that are used for bandwidth management of the inband DCN.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > DCN
Management from the Function Tree.2. Click the Bandwidth Management tab.
Parameters for Bandwidth ManagementParameter Value Range Default Value Description
Ethernet BoardVLAN ID
2 to 4094 4094 l The equipment on the traditional DCNcan be connected to the NMS through theSCC board, but the OptiX RTN 950 canalso be connected to the NMS through anEthernet interface. If an Ethernet port isused to carry the network managementinformation, the NE differentiates thenetwork management information andEthernet service information accordingto the VLAN ID.
l If the default VLAN ID of the inbandDCN conflicts with the VLAN ID in theservice, the Ethernet Board VLAN IDof the inband DCN can be changedmanually. The same VLAN ID must be,however, is used on the network-wideinband DCN.
Bandwidth(Kbit/s) 64 to 1000 512 Bandwidth(Kbit/s) specifies the bandwidthfor inband DCN messaging on the Ethernetlink.
E1 PortBandwidth(Kbit/s)
- - The OptiX RTN 950 does not support thisparameter.
Tunnel Bandwidth(Kbit/s)
- - The OptiX RTN 950 does not support thisparameter.
IF Port Bandwidth(Kbit/s)
64 to 1000 512 IF Port Bandwidth(Kbit/s) specifies thebandwidth for inband DCN messaging onthe radio link.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
282
A.1.2.21 Parameter Description: DCN Management_Port Setting
This topic describes the parameters that are used for setting ports of the inband DCN.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Communication > DCN
Management from the Function Tree.
2. Click the Port Settings tab.
Parameters for Setting Ports
Parameter Value Range Default Value Description
Port Name - - This parameter indicates the port name.
Enabled Status EnabledDisabled
Enabled l Enabled Status specifies the enablingstatus of the port.
l The network management informationcan be transmitted over the inband DCNwhen the DCN function is enabled forthe ports at both ends of a link.
Protocol Type IPHWECCL2DCN
IP l Specifies the DCN protocol used by theinband DCN.
l If Protocol Type is set to differentvalues for two interconnected sets ofequipment, equipment interconnectionfails. Therefore, set Protocol Type to thesame value for both ends of a link.
IP Address - - l This parameter is available only whenProtocol Type is set to IP.
l When the IP DCN solution is used andthe NE functions as an ABR, thisparameter specifies the interface IPaddress of the non-backbone area port onthe ABR.
Subnet Mask - - l This parameter is available only whenProtocol Type is set to IP.
l When the IP DCN solution is used andthe NE functions as an ABR, thisparameter specifies the subnet mask ofthe non-backbone area port on the ABR.
A.1.2.22 Parameter Description: DCN Management_Access Control
This section describes the parameters for configuring access control.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
283
Navigation Pathl In the NE Explorer, select the NE from the Object Tree and then choose
Communication > DCN Management from the Function Tree.l Click the Access Control tab.
ParametersParameter Value Range Default Value Description
Port Name - - Displays the Ethernet ports that support thisfunction.
Enabled Status DisabledEnabled
Disabled l Specifies the enabling status of the port.l If the Enabled Status is set to
Enabled, this port can be used to supportaccess of the management informationfrom the NMS.
l If the Enabled Status is set toDisabled, this port cannot be used tosupport access of the managementinformation from the NMS.
IP Address - 0.0.0.0 Specifies the IP address of the port.
Subnet Mask - 0.0.0.0 Specifies the submask of the port.
A.1.2.23 Parameter Description: DCN Management_Packet ControlThis topic describes the parameters for controlling the priority of inband DCN packets.
Navigation Pathl In the NE Explorer, select the desired NE from the Object Tree and then choose
Communication > DCN Management from the Function Tree.l Click the Packet Control tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Packet Type - - Displays the packet type for which thepacket priority can be manually specified.
SupportedApplication
- - This parameter cannot be specifiedmanually.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
284
Parameter Value Range Default Value Description
Packet Priority CS6EFAF4AF3AF2AF1BE
CS6 (Packet Typeis VLAN)BE (Packet Type isDSCP)
Specifies the PHB service class of inbandDCN packets.
A.1.2.24 Parameter Description: L2 DCN Management
This section describes the parameters that are related to L2 DCN management.
Navigation Pathl In the NE Explorer, select the desired NE from the Object Tree and then choose
Communication > L2DCN Management from the Function Tree.
l Click Query.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Config Status AutoDisabled
Auto When the OptiX RTN 950 uses the L2 DCNsolution, the RSTP protocol can be used toprevent L2 forwarding loops. It isrecommended that the RSTP protocol usesits default enable/disable mode Auto for theOptiX RTN 950 NE level. That is, the RSTPprotocol is automatically enabled/disableddepending on the enable/disable status ofthe L2 DCN function over IF ports.
Real Status DisabledEnabled
- l Real Status is queried to be Disabled inthe following scenarios:– Config Status is set to Disabled.– When Config Status is set to Auto,
the L2 DCN function is disabled forall IF ports on the NE.
l When Config Status is set to Auto, theL2 DCN function is enabled for at leastone IF port on the NE. In this case, theRSTP protocol will automatically work.At this time, the queried Real Status isEnabled.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
285
A.1.2.25 Parameter Description: Access Control
This topic describes the parameters that are used for access control of the NMS.
Navigation Path
Select the NE from the Object Tree in the NE Explorer. Choose Communication > AccessControl from the Function Tree.
Parameters for Ethernet Access Control
Parameter Value Range Default Value Description
Enable EthernetAccess
SelectedDeselected
- After The First Network Port is set toEnabled for Ethernet access, the NE canaccess the NMS through the Ethernet port.
PORT - - This parameter displays the NMS port andthe NE cascading port on the system control,switching, and timing board.
Work Mode adapt10M Half_Duplex10M Full_Duplex100M Half_Duplex100M Full_Duplex
- This parameter specifies the working modesof the NMS port and the NE cascading porton the system control, switching, and timingboard.
Actual Work Mode - - This parameter displays the working modesof the NMS port and the NE cascading porton the system control, switching, and timingboard.
Enabled/Disabled EnabledDisabled
Specifies whether the Ethernet networkmanagement port or NE cascading port isenabled.
Parameters for Access Control over Serial Ports
Parameter Value Range Default Value Description
Enable Serial PortAccess
SelectedDeselected
Selected After Enable Serial Port Access isselected, the NE can access the NMS orcommand lines through the serial port.
Access CommandLine
SelectedDeselected
Deselected If Access Command Line is selected, theserial interface can be used to access thecommand line terminal.
Access NM SelectedDeselected
Deselected If Access NM is selected, the serial interfacecan be used to access the NMS.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
286
Parameter Value Range Default Value Description
Baud Rate 1200240048009600192003840057600115200
9600 l This parameter specifies the datatransmission rate in the communicationsthrough serial ports.
l This parameter is set according to therate of the serial port at the opposite end,and the rates at both ends must be thesame.
A.1.3 Parameters for Network Security ManagementThis topic describes the parameters that are related to network security management.
A.1.3.1 Parameter Description: NE User ManagementThis topic describes the parameters that are related to NE user management.
Navigation Path1. Select the required NE from the Object Tree in the NE Explorer. Choose Security > NE
User Management from the Function Tree.A dialog box is displayed, indicating that the operation is successful.
2. Close the dialog box.
Parameters for NE user managementParameter Value Range Default Value Description
NE - - Displays the current NEname.
NE User - - Displays the registered NEuser name.
User Level - - Displays the registered NEuser level.
NE User Flag - - Displays whether aregistered NE user islogged in.
A.1.3.2 Parameter Description: NE User Management_CreationThis topic describes the parameters that are used for creating an NE user.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
287
Navigation Path1. Select the required NE from the Object Tree in the NE Explorer. Choose Security > NE
User Management from the Function Tree. A dialog box is displayed, indicating that theoperation is successful.
2. Close the dialog box.3. Click Add.
Parameters on the Main InterfaceParameter Value Range Default Value Description
NE User - - Specifies the name of aregistered NE user.NOTE
The name of an NE cannotcontain any space orChinese characters.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
288
Parameter Value Range Default Value Description
User Level Monitor LevelOperation LevelMaintenance LevelSystem LevelDebug Level
Monitor Level l A Debug Level NEuser has all securityand configurationauthorities, and has theright to run debuggingcommands.
l A System Level NEuser has all securityand configurationauthorities.
l A MaintenanceLevel NE user hassome securityauthorities, someconfigurationauthorities, thecommunication settingauthority, and the logmanagementauthority.
l An Operation LevelNE user has all faultperformanceauthorities, somesecurity authorities,and someconfigurationauthorities.
l A Monitor Level NEuser has the right to useall query commands, tolog in, to log out, and tochange its ownpassword.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
289
Parameter Value Range Default Value Description
NE User Flag LCT NE UserEMS NE UserCMD NE UserGeneral NE User
LCT NE User l Specifies the NE userflag.
l LCT NE Userindicates NE users forNE management onthe U2000 Local CraftTerminal (U2000LCT).
l EMS NE Userindicates NE users forNE management onthe U2000.
l CMD NE Userindicates NE users forNE management onthe CMD.
l General NE Userindicates NE users forall NMS types.
Detailed Description - - Describes a configuredNE user.
New Password - - l Specifies the passwordfor a new NE user.
Confirm Password - - Enter the same value asNew Password.
Immediate PasswordChange
YesNo
Yes Specifies whether thepassword of a registeredNE user can be changed.
A.1.3.3 Parameter Description: LCT Access Control
This topic describes the parameters that are used for LCT access control.
Navigation Path
Select the NE from the Object Tree in the NE Explorer. Choose Security > LCT AccessControl from the Function Tree.
Parameters for LCT Access Control
Parameter Value Range Default Value Description
NE - - This parameter indicates the name of theNE.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
290
Parameter Value Range Default Value Description
LCT AccessControl Switch
Access AllowedDisable Access
Access Allowed l No NMS user logs in to the NE. In thiscase, when the LCT requests an LCTuser to log in to the NE, the NE does notcheck the status of LCT Access ControlSwitch, and directly allows the LCT userto log in to the NE.
l An NMS user first logs in to the NE. Inthis case, when the LCT requests an LCTuser to log in to the NE, the NEdetermines whether to allow the LCTuser to log in to the NE through the LCTaccording to the status of LCT AccessControl Switch.
l An LCT user first logs in to the NE. Inthis case, when the NMS requests anNMS user to log in to the NE, the NMSuser can directly log in to the NE. Afterthe NMS user successfully logs in to theNE, the online LCT user is not affected.
l When both the LCT user and NMS userlog in to the NE, the online LCT user isnot affected after LCT Access ControlSwitch is set to Disable Access.
A.1.3.4 Parameter Description: RADIUS Configuration_Creation
This topic describes the parameters that are related to RADIUS configuration.
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and choose Security > NE
RADIUS Configuration from the Function Tree.
2. Click New.
Parameters
Parameter Value Range Default Value Description
Function - - Specifies the desired RADIUS function, theauthentication server ID, and the server type.l Function, Server ID, and Server Type are
associated with the servers that areconfigured in Creating a RADIUS Serveror a RADIUS Proxy Server.
l Select the desired RADIUS server or proxyserver according to planning information.
Server ID - -
Server Type - -
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
291
Parameter Value Range Default Value Description
Server Status ActiveStandby
Active Specifies the active/standby status of theRADIUS server or proxy server.l If no standby server is required, set Server
Status to Active.l The OptiX RTN 950 supports one active
server and one standby server. If both theactive and standby servers are configured,set Server Status of the active server toActive and Server Status of the standbyserver to Standby.
Shared Key - - Specifies the key for communication betweenan NE and the RADIUS server.l Set Shared Key to the same value on the
NE and on the RADIUS server.l If Server Type is Proxy Server, Shared
Key is not available.
Interval of PacketTransmission
3-10 5 Specifies the number of packet retransmissionattempts and the interval between the attempts.l If an NE does not receive the response from
the RADIUS server within a specificperiod, the NE re-transmits theauthentication request for the configuredattempt times and at the configuredinterval.
l It is recommended that Interval of PacketTransmission and PacketRetransmission Attempts take theirdefault values.
PacketRetransmissionAttempts
1-5 3
A.1.3.5 Parameter Description: RADIUS Configuration_RADIUS ServerThis topic describes the parameters that are related to RADIUS server configuration.
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and choose Security > NE
RADIUS Configuration from the Function Tree.2. Click the RADIUS Server Configuration tab.
The RADIUS Server Information dialog box is displayed.3. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
292
ParametersParameter Value Range Default Value Description
Function AuthenticationAccountingAuthentication +Accounting
Authentication Specifies the RADIUS function that an NEneeds to use.l For NE RADIUS authentication, select
Authentication.l For both NE RADIUS authentication and
NE usage accounting, set this parameter toAuthentication + Accounting orAccounting (when the Authenticationfunction has been enabled).
Server Type RADIUS ServerProxy Server
RADIUS Server Specifies the server type used for NE RADIUSauthentication.l When an NE uses RADIUS authentication
in the NAS mode or functions as a proxyserver, set Server Type to RADIUSServer.
l When an NE uses RADIUS authenticationin the proxy NAS mode, set Server Typeto Proxy Server.
Server ID IP AddressNE ID
IP Address Specifies the address of the server that is usedfor NE RADIUS authentication.l If Server Type is RADIUS Server, set
Server ID to IP Address and specify theIP address of the RADIUS server.
l If Server Type is Proxy Server, it isrecommended that you set Server ID toNE ID and set the gateway NE as the proxyserver.
l If Server Type is Proxy Server and thereis no IP route between the NE and the proxyserver, Server ID can be set to only NEID. If Server Type is Proxy Server andthere is an IP route between the NE and theproxy server, Server ID can be set to NEID or IP Address.
A.1.3.6 Parameter Description: Enabling/Disabling the RADIUS FunctionThis topic describes the parameters that are required for enabling/disabling the RADIUSfunction.
Navigation PathIn the NE Explorer, select the desired NE from the Object Tree and choose Security > NERADIUS Configuration from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
293
ParametersParameter Value Range Default Value Description
NE - - Displays the NE name.
RADIUS Client OpenClose
Close Specifies whether an NE has the ability to bea RADIUS client. The RADIUS function canbe enabled on an NE only if RADIUS Clientis set to Open for the NE.
Proxy Server OpenClose
Close Specifies whether an NE has the ability to bea proxy server.l If an NE needs to function as a proxy
server, set Proxy Server to Open for theNE.
l Proxy Server can be set to Open only ifRADIUS Client is set to Open.
l When an NE uses RADIUS authenticationin the proxy NAS mode, set ProxyServer to Close.
A.2 Radio Link ParametersThis topic describes the parameters that are related to radio links.
A.2.1 Parameter Description: Link Configuration_XPICWorkgroup_Creation
This topic describes the parameters that are related to the XPIC function.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Link
Configuration from the Function Tree.2. Click the XPIC tab.3. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
294
ParametersParameter Value Range Default Value Description
IF ChannelBandwidth
ISX2:7M14M28M40M56MIFX2:7M14M28M56M
- l This parameter specifies the channelspacing when the XPIC function isenabled.
l When this parameter is set to 56M or40M, the high-power ODU must beused.
PolarizationDirection-V
- - l This parameter indicates the polarizationdirection of a radio link.
l It is recommended that you install thetwo XPIC IF boards that form an XPICworkgroup in the slots that are at thesame layer or in the same column, andset the IF port on the XPIC IF board thathas a smaller slot number to Link ID-Vand the IF port on the other XPIC IFboard to Link ID-H.
PolarizationDirection-H
Link ID-V 1 to 4094 1 l Set Link ID-V and Link ID-H.l A link ID is an identifier of a radio link
and is used to prevent the radio linksbetween sites from being wronglyconnected.
l When the link ID received by an NE isdifferent from the link ID set for the NE,the NE reports an MW_LIM alarm andinserts the AIS.
l These two parameters are set accordingto the planning information. These twoparameters must be set to differentvalues, but Link ID-V must be set to thesame value at both ends of a link andLink ID-H must also be set to the samevalue at both ends of a link.
Link ID-H 2
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
295
Parameter Value Range Default Value Description
Transmit Power(dBm)
- - l This parameter specifies the transmitpower of an ODU. The value of thisparameter must not exceed the ratedpower range supported by the ODU.
l It is recommended that you set thetransmit power of the ODU to the samevalue at both ends of a radio link.
l Consider the receive power of the ODUat the opposite end when you set thisparameter. Ensure that the receive powerof the ODU at the opposite end canensure stable radio services.
l This parameter is set according to theplanning information.
MaximumTransmit Power(dBm)
- - l This parameter specifies the maximumtransmit power of the ODU. Thisparameter cannot be set to a value thatexceeds the nominal power rang of theODU in the guaranteed capacitymodulation module.
l This parameter is set to limit themaximum transmit power of the ODUwithin this preset range.
l The maximum transmit power adjustedby using the ATPC function should notexceed this value.
l This parameter is set according to theplanning information.
TransmissionFrequency(MHz)
- - l This parameter indicates the channelcentral frequency.
l The value of this parameter must not beless than the sum of the lower transmitfrequency limit supported by the ODUand a half of the channel spacing, andmust not be more than the differencebetween the upper transmit frequencylimit supported by the ODU and a half ofthe channel spacing.
l This parameter is set according to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
296
Parameter Value Range Default Value Description
T/R Spacing(MHz) - - l This parameter specifies the spacingbetween the transmit frequency and thereceive frequency of an ODU to preventmutual interference between thetransmitter and the receiver.
l If Station Type of the ODU is TXhigh, the transmit frequency is one T/Rspacing higher than the receivefrequency. If Station Type of the ODUis TX low, the transmit frequency is oneT/R spacing lower than the receivefrequency.
l If the ODU supports only one T/Rspacing, this parameter is set to 0,indicating that the T/R spacingsupported by the ODU is used.
l A valid T/R spacing value is determinedby the ODU itself, and the T/R spacingshould be set according to the technicalspecifications of the ODU.
l The T/R spacing of the ODU should beset to the same value at both ends of aradio link.
TransmissionStatus
unmutemute
unmute l When this parameter is set to mute, theODU does not transmit microwavesignals but can normally receivemicrowave signals.
l When this parameter is set to unmute,the ODU normally transmits andreceives microwave signals.
l In normal cases, Transmission Status isset to unmute.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
297
Parameter Value Range Default Value Description
ATPC Enabled DisabledEnabled
Disabled l This parameter specifies whether theATPC function is enabled.
l If this parameter is set to Enabled and ifthe RSL at the receive end is 2 dB higheror lower than the central value betweenthe ATPC upper threshold and the ATPClower threshold at the receive end, thereceiver notifies the transmitter todecrease or increase the transmit poweruntil the RSL is within the range that is2 dB higher or lower than the centralvalue between the ATPC upperthreshold and the ATPC lower threshold.
l The settings of the ATPC attributes mustbe consistent at both ends of a radio link.
l In the case of areas where fast fadingseverely affects the radio transmission, itis recommended that you set thisparameter to Disabled.
l During the commissioning process, setthis parameter to Disabled to ensure thatthe transmit power is not changed. Afterthe commissioning, re-set the ATPCattributes.
ATPC UpperThreshold(dBm)
- -45.0 l The central value between the ATPCupper threshold and the ATPC lowerthreshold is set as the expected receivepower.
l It is recommended that you set ATPCUpper Threshold(dBm) to the sum ofthe planned central value between theATPC upper threshold and the ATPClower threshold and 10 dB, and ATPCLower Threshold(dBm) to thedifference between the planned centralvalue between the ATPC upperthreshold and the ATPC lower thresholdand 10 dB.
l You can set the ATPC upper thresholdonly when ATPC AutomaticThreshold Enable Status is set toDisabled.
ATPC LowerThreshold(dBm)
- -70.0
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
298
Parameter Value Range Default Value Description
ATPC AutomaticThreshold EnableStatus
DisabledEnabled
Disabled l This parameter specifies whether theATPC automatic threshold function isenabled.
l If this parameter is set to Enabled, theequipment automatically uses the presetATPC upper and lower thresholdsaccording to the work mode of the radiolink.
A.2.2 Parameter Description: Link Configuration_XPICThis topic describes the parameters that are related to the XPIC function.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Link
Configuration from the Function Tree.2. Click the XPIC tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Group ID - - This parameter indicates the ID of the workgroup.
PolarizationDirection-V
- - This parameter indicates the IF port to whichthe polarization direction V corresponds.
Link ID-V - - This parameter indicates the link ID towhich the polarization direction Vcorresponds.
PolarizationDirection-H
- - This parameter indicates the IF port to whichthe polarization direction H corresponds.
Link ID-H - - This parameter indicates the link ID towhich the polarization direction Hcorresponds.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
299
Parameter Value Range Default Value Description
IF ChannelBandwidth
ISX2:7M14M28M40M56MIFX2:7M14M28M56M
- l IF Channel Bandwidth refers to thechannel spacing of the correspondingradio links.
l When this parameter is set to 56M or40M, the high-power ODU must beused.
l This parameter is set according to theplanning information.
Power to BeReceived -V(dBm)
-90.0 to -20.0 -10.0 l This parameter is used to set theexpected receive power of the ODU andis mainly used in the antenna alignmentstage. After this parameter is set, the NEautomatically enables the antennamisalignment indicating function.
l When the antenna misalignmentindicating function is enabled, if theactual receive power of the ODU is 3 dBlower than the power expected to bereceived, the ODU indicator on the IFboard connected to the ODU blinksyellow (300 ms on, 300 ms off),indicating that the antenna is not aligned.
l After the antenna alignment, after thestate that the antenna is aligned lasts for30 minutes, the NE automaticallydisables the antenna misalignmentindicating function.
l When this parameter takes the defaultvalue, the antenna misalignmentindicating function is disabled.
l This parameter is set according to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
300
Parameter Value Range Default Value Description
Power to BeReceived -H(dBm)
-90.0 to -20.0 -10.0 l This parameter is used to set theexpected receive power of the ODU andis mainly used in the antenna alignmentstage. After this parameter is set, the NEautomatically enables the antennamisalignment indicating function.
l When the antenna misalignmentindicating function is enabled, if theactual receive power of the ODU is 3 dBlower than the power expected to bereceived, the ODU indicator on the IFboard connected to the ODU blinksyellow (300 ms on, 300 ms off),indicating that the antenna is not aligned.
l After the antenna alignment, after thestate that the antenna is aligned lasts for30 minutes, the NE automaticallydisables the antenna misalignmentindicating function.
l When this parameter takes the defaultvalue, the antenna misalignmentindicating function is disabled.
l This parameter is set according to theplanning information.
MaximumTransmit Power(dBm)
- - l This parameter specifies the maximumtransmit power of the ODU. Thisparameter cannot be set to a value thatexceeds the nominal power rang of theODU in the guaranteed capacitymodulation module.
l This parameter is set to limit themaximum transmit power of the ODUwithin this preset range.
l The maximum transmit power adjustedby using the ATPC function should notexceed this value.
l This parameter is set according to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
301
Parameter Value Range Default Value Description
Transmit Power(dBm)
- - l This parameter indicates or specifies thetransmit power of the ODU. Thisparameter cannot be set to a value thatexceeds the nominal power range of theODU.
l It is recommended that you set thetransmit power of the ODU to the samevalue at both ends of a radio link.
l Consider the receive power of the ODUat the opposite end when you set thisparameter. Ensure that the receive powerof the ODU at the opposite end canensure stable radio services.
l This parameter is set according to theplanning information.
TransmissionFrequency(MHz)
- - l This parameter indicates or specifies thetransmit frequency of the ODU, namely,the channel central frequency.
l The value of this parameter must not beless than the sum of the lower TXfrequency limit supported by the ODUand a half of the channel spacing, andmust not be more than the differencebetween the upper TX frequency limitsupported by the ODU and a half of thechannel spacing.
l The difference between the transmitfrequencies of both the ends of a radiolink should be one T/R spacing.
l This parameter needs to be set accordingto the planning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
302
Parameter Value Range Default Value Description
T/R Spacing(MHz) - - l This parameter indicates or specifies thespacing between the transmit frequencyand receive frequency of the ODU toprevent mutual interference between thetransmitter and receiver.
l If the ODU is a Tx high station, thetransmit frequency is one T/R spacinghigher than the receive frequency. If theODU is a Tx low station, the transmitfrequency is one T/R spacing lower thanthe receive frequency.
l If the ODU supports only one T/Rspacing, this parameter is set to 0,indicating that the T/R spacingsupported by the ODU is used.
l A valid T/R spacing value is determinedby the ODU itself, and the T/R spacingshould be set according to the technicalspecifications of the ODU.
l The T/R spacing of the ODU should beset to the same value at both ends of aradio link.
TransmissionStatus
unmutemute
unmute l This parameter indicates or specifies thetransmit status of the ODU.
l If this parameter is set to mute, thetransmitter of the ODU does not workbut can normally receive microwavesignals.
l If this parameter is set to unmute, theODU can normally transmit and receivemicrowave signals.
l In normal cases, this parameter is set tounmute.
Parameters for Hybrid/AM ConfigurationParameter Value Range Default Value Description
Group ID - - This parameter indicates the ID of the workgroup.
Polarizationdirection
- - This parameter indicates the IF port to whichthe polarization direction H or thepolarization direction V corresponds.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
303
Parameter Value Range Default Value Description
AM Enable Status DisabledEnabled
Disabled l When AM Enable Status is set toDisabled, the radio link uses only thespecified modulation scheme. In thiscase, you need to select ManuallySpecified Modulation Mode.
l When AM Enable Status is set toEnabled, the radio link uses thecorresponding modulation schemeaccording to the channel conditions.
Hence, the Hybrid radio can ensure thereliable transmission of the E1 services andprovide bandwidth adaptively for theEthernet services when the AM function isenabled.
Modulation Modeof the GuaranteeAM Capacity
QPSK16QAM32QAM64QAM128QAM256QAM
- This parameter specifies the highest-gainmodulation scheme that the AM functionsupports. This parameter is set according tothe planning information. Generally, thevalue of this parameter is determined by thebandwidth of the services that need to betransmitted over the Hybrid radio and theavailability of the radio link thatcorresponds to this modulation scheme.NOTE
Modulation Mode of the Full AM Capacitymust be higher than Modulation Mode of theGuarantee AM Capacity.
This parameter is valid only when AMEnable Status is set to Enabled.
Modulation Modeof the Full AMCapacity
QPSK16QAM32QAM64QAM128QAM256QAM
- This parameter specifies the highest-gainmodulation scheme that the AM functionsupports. This parameter is set according tothe planning information. Generally, thevalue of this parameter is determined by thebandwidth of the services that need to betransmitted over the Hybrid radio and theavailability of the radio link thatcorresponds to this modulation scheme.NOTE
Modulation Mode of the Full AM Capacitymust be higher than Modulation Mode of theGuarantee AM Capacity.
This parameter is valid only when AMEnable Status is set to Enabled.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
304
Parameter Value Range Default Value Description
Manually SpecifiedModulation Mode
QPSK16QAM32QAM64QAM128QAM256QAM
QPSK This parameter specifies the modulationscheme that the radio link uses for signaltransmission.This parameter is valid only when AMEnable Status is set to Disabled.
Transmit-EndModulation Mode
- - Displays the modulation mode at thetransmit end.
Receive-EndModulation Mode
- - Displays the modulation mode at the receiveend.
Parameters for ATPC ManagementParameter Value Range Default Value Description
Group ID - - This parameter indicates the object to be set.
ATPC EnableStatus
DisabledEnabled
- l This parameter specifies whether theATPC function is enabled.
l If this parameter is set to Enabled and ifthe RSL at the receive end is 2 dB higheror lower than the central value betweenthe ATPC upper threshold and the ATPClower threshold at the receive end, thereceiver notifies the transmitter todecrease or increase the transmit poweruntil the RSL is within the range that is2 dB higher or lower than the centralvalue between the ATPC upper thresholdand the ATPC lower threshold.
l The settings of the ATPC attributes mustbe consistent at both ends of a radio link.
l In the case of areas where fast fadingseverely affects the radio transmission, itis recommended that you set thisparameter to Disabled.
l During the commissioning process, setthis parameter to Disabled to ensure thatthe transmit power is not changed. Afterthe commissioning, re-set the ATPCattributes.
ATPC UpperThreshold(dBm)
- - l Set the central value between the ATPCupper threshold and the ATPC lower
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
305
Parameter Value Range Default Value Description
ATPC LowerThreshold(dBm)
threshold to a value for the expectedreceive power.
l It is recommended that you set ATPCUpper Threshold(dBm) to the sum ofthe planned central value between theATPC upper threshold and the ATPClower threshold and 10 dB, and ATPCLower Threshold(dBm) o thedifference between the planned centralvalue between the ATPC upper thresholdand the ATPC lower threshold and 10dB.
l You can set this parameter only whenATPC Automatic Threshold EnableStatus is set to Disabled.
- -
ATPC AutomaticThreshold EnableStatus
DisabledEnabled
- l This parameter specifies whether theATPC automatic threshold function isenabled.
l If this parameter is set to Enabled, theequipment automatically uses the presetATPC upper and lower thresholdsaccording to the work mode of the radiolink.
l If this parameter is set to Disabled, youneed to manually set ATPC UpperThreshold(dBm) and ATPC LowerThreshold(dBm).
A.2.3 Parameter Description: N+1 Protection_CreateThis topic describes the parameters that are used for creating an IF N+1 protection group.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > N+1
Protection from the Function Tree.2. Click Create.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
306
Parameters on the Main InterfaceParameter Value Range Default Value Description
WTR time(s) 300 to 720 600 l This parameter specifies the wait-to-restore (WTR) time.
l When the time after the former workingchannel is restored to normal reaches theset WTR time, a revertive switchingoccurs.
l It is recommended that you use thedefault value.
SD enable EnabledDisabled
Enabled l This parameter specifies whether thesignal degradation switching function ofN+1 protection is enabled.
l When this parameter is set to Enabled,the signal degradation condition isconsidered as a trigger condition ofprotection switching.
l It is recommended that you set thisparameter to Enabled.
Slot Mapping Relation ParametersParameter Value Range Default Value Description
Select MappingDirection
Work UnitProtection Unit
Work Unit l This parameter specifies the mappingdirection of N+1 protection.
l This parameter is set according to theplanning information.
Select MappingWay
- - l In the case of N+1 protection, map N IFports as Work Unit and map theremaining IF port as Protection Unit.
l This parameter is set according to theplanning information.
Mapped Board - - This parameter indicates the working unitand protection unit that have been set.
A.2.4 Parameter Description: N+1 ProtectionThis topic describes the parameters that are related to IF N+1 protection.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
307
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > N+1
Protection from the Function Tree.
Protection Group Parameters
Parameter Value Range Default Value Description
Protection GroupID
- - This parameter indicates the ID of theprotection group.
WTR Time(s) 300 to 720 - l This parameter indicates or specifies theWTR time.
l When the time after the former workingchannel is restored to normal reaches theset WTR time, a revertive switchingoccurs.
l It is recommended that you use thedefault value.
SD Enable EnabledDisabled
- l This parameter indicates or specifieswhether the SD switching function of N+1 protection is enabled.
l When this parameter is set to Enabled,the SD condition is considered as atrigger condition of protectionswitching.
l It is recommended that you set thisparameter to Enabled.
Protocol Status - - This parameter indicates the status of theswitching control protocol.
Protection Unit Parameters
Parameter Value Range Default Value Description
Protection Unit - - This parameter indicates the protection unit.
Line - - This parameter indicates the informationabout the working board or protectionboard.
Switching Status - - This parameter indicates the switching state.
Protected Unit - - This parameter indicates the protected unit.
Remote/Local EndIndication
- - This parameter indicates the local end orremote end.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
308
A.2.5 Parameter Description: IF 1+1 Protection_CreateThis topic describes the parameters that are used for creating an IF 1+1 protection group.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > IF 1+1
Protection from the Function Tree.2. Click Create.
ParametersParameter Value Range Default Value Description
Working Mode HSBFDSD
HSB l This parameter specifies the workingmode of the IF 1+1 protection.
l When Working Mode is set to HSB, theequipment provides a 1+1 hot standbyconfiguration for the IF board and ODUat both ends of each hop of a radio linkto realize the protection.
l When Working Mode is set to FD, thesystem uses two channels that have afrequency spacing between them, totransmit and receive the same signal. Theremote end selects signals from the tworeceived signals. With FD protection, theimpact of the fading on signaltransmission is reduced.
l When Working Mode is set to SD, thesystem uses two antennas that have aspace distance between them, to receivethe same signal. The equipment selectssignals from the two received signals.With SD protection, the impact of thefading on signal transmission is reduced.
l The FD mode and SD mode arecompatible with the HSB switchingfunction.
l This parameter is set according to thenetwork plan.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
309
Parameter Value Range Default Value Description
Revertive Mode Revertive ModeNon-Revertive
Revertive Mode l This parameter specifies the revertivemode of the IF 1+1 protection.
l When Revertive Mode is set toRevertive Mode, the NE that is in theswitching state releases the switchingand enables the former working channelto return to the normal state some timeafter the former working channel isrestored to normal. It is recommendedthat you set this parameter to RevertiveMode.
l When Revertive Mode is set to Non-Revertive, the NE that is in theswitching state keeps the current stateunchanged unless another switchingoccurs even though the former workingchannel is restored to normal.
WTR Time(s) 300 to 720 600 l This parameter specifies the wait-to-restore (WTR) time.
l When the time after the former workingchannel is restored to normal reaches theset WTR Time(s), a revertive switchingoccurs.
l You can set WTR Time(s) only whenRevertive Mode is set to RevertiveMode. It is recommended that you usethe default value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
310
Parameter Value Range Default Value Description
Enable ReverseSwitching
EnabledDisabled
Enabled l This parameter indicates whether thereverse switching function is enabled.
l When both the main IF board and thestandby IF board at the sink end reportservice alarms, they send the alarms tothe source end by using the MWRDIoverhead in the microwave frame. WhenEnable Reverse Switching at the sourceend is set to Enabled and the reverseswitching conditions are met, the IF 1+1protection switching occurs at the sourceend.
l Enable Reverse Switching is valid onlywhen Working Mode is set to HSB orSD.
l Generally, if Working Mode is set toHSB, it is recommended that you setEnable Reverse Switching toDisabled; if Working Mode is set toSD, it is recommended that you setEnable Reverse Switching toEnabled.
Working Board - - This parameter specifies the working boardof the protection group.
Protection Board - - This parameter specifies the protectionboard of the protection group.
Alarm ReportMode
Only board alarmsOnly protectiongroup alarmsProtection groupand board alarms
Only board alarms l When Alarm Report Mode is set toOnly board alarms, only IF boardalarms are reported.
l When Alarm Report Mode is set toOnly protection group alarms, alarmsare reported if a protection group fails ordegrades and suppress IF board alarmsand radio link alarms.
l When Alarm Report Mode is set toProtection group and board alarms,IF board alarms and protection groupalarms are reported.
l It is recommended that you set AlarmReport Mode to Only protectiongroup alarms. In this case, protectiongroup alarms are reported to indicateradio link faults.
NOTEThe faulty board reports related fault alarmsregardless of parameter settings.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
311
Parameter Value Range Default Value Description
Anti-jitter Time(s) 0 to 600 300 l When Anti-jitter Time(s) is not set to 0,a protection group does not report analarm immediately after it is degraded,but reports the alarm after the specifiedanti-jitter time expires.
l It is recommended that Anti-jitter Time(s) take its default value.
NOTE
Each of the parameters Working Mode, Revertive Mode, WTR Time(s),Anti-jitter Time(s) and EnableReverse Switching must be set to the same value at both ends of a radio hop.
A.2.6 Parameter Description: IF 1+1 ProtectionThis topic describes the parameters that are related to IF 1+1 protection.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > IF 1+1
Protection from the Function Tree.
Protection Group ParametersParameter Value Range Default Value Description
Protection GroupID
- - This parameter indicates the ID of theprotection group.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
312
Parameter Value Range Default Value Description
Working Mode HSBFDSD
- l This parameter indicates the workingmode of the created IF 1+1 protectiongroup.
l In HSB mode, the equipment provides a1+1 hot standby configuration for the IFboard and ODU at both ends of each hopof a radio link to realize the protection.
l In FD mode, the system uses twochannels that have a frequency spacingbetween them, to transmit and receivethe same signal. The remote end selectssignals from the two received signals.With FD protection, the impact of thefading on signal transmission is reduced.
l In SD mode, the system uses twoantennas that have a space distancebetween them, to receive the same signal.The equipment selects signals from thetwo received signals. With SDprotection, the impact of the fading onsignal transmission is reduced.
l The FD mode and SD mode arecompatible with the HSB switchingfunction.
l This parameter is set according to theplanning information.
Revertive Mode Revertive ModeNon-RevertiveMode
- l This parameter indicates or specifies therevertive mode of the protection group.
l When this parameter is set to RevertiveMode, the NE that is in the switchingstate releases the switching and enablesthe former working channel to return tothe normal state some time after theformer working channel is restored tonormal.
l When this parameter is set to Non-Revertive Mode, the NE that is in theswitching state keeps the current stateunchanged unless another switchingoccurs even though the former workingchannel is restored to normal.
l It is recommended that you set thisparameter to Revertive Mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
313
Parameter Value Range Default Value Description
WTR Time(s) 300 to 720 - l This parameter indicates or specifies theWTR time.
l When the time after the former workingchannel is restored to normal reaches theset WTR time, a revertive switchingoccurs.
l You can set WTR Time(s) only whenRevertive Mode is set to RevertiveMode.
l It is recommended that you use thedefault value.
Enable ReverseSwitching
EnabledDisabled
- l This parameter indicates or specifieswhether the reverse switching function isenabled.
l When both the main IF board and thestandby IF board at the sink end reportservice alarms, they send the alarms tothe source end by using the MWRDIoverhead in the microwave frame. Whenthis parameter at the source end is set toEnabled and the reverse switchingconditions are met, the IF 1+1 protectionswitching occurs at the source end.
l This parameter is valid only whenWorking Mode is set to HSB or SD.
NE SwitchingStatus
- - l This parameter indicates the switchingstate on the equipment side.
l Unknown is displayed when theswitching state on the channel side is notqueried or not obtained after a query.
Channel SwitchingStatus
- - l This parameter indicates the switchingstate on the channel side.
l Unknown is displayed when theswitching state on the channel side is notqueried or not obtained after a query.
Active Port ofDevice
- - This parameter indicates the currentworking board on the equipment side.
Active Port ofChannel
- - This parameter indicates the currentworking board on the channel side.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
314
Parameter Value Range Default Value Description
Alarm ReportMode
Only board alarmsOnly Protectiongroup alarmsProtection groupand board alarms
- l When Alarm Report Mode is set toOnly board alarms, only IF boardalarms are reported.
l When Alarm Report Mode is set toOnly protection group alarms, alarmsare reported if a protection group fails ordegrades and suppress IF board alarmsand radio link alarms.
l When Alarm Report Mode is set toProtection group and board alarms, IFboard alarms and protection groupalarms are reported.
l It is recommended that you set AlarmReport Mode to Only protection groupalarms. In this case, protection groupalarms are reported to indicate radio linkfaults.
NOTEThe faulty board reports related fault alarmsregardless of parameter settings.
Anti-jitter Time 0 to 600 - l When Anti-jitter Time(s) is not set to 0,a protection group does not report analarm immediately after it is degraded,but reports the alarm after the specifiedanti-jitter time expires.
l It is recommended that Anti-jitter Time(s) take its default value.
NOTE
Each of the parameters Working Mode, Revertive Mode, and WTR Time(s) must be set to the samevalue at both ends of a radio hop.
Slot Mapping Relation ParametersParameter Value Range Default Value Description
Unit - - This parameter indicates the working boardand protection board.
Slot MappingRelation
- - This parameter indicates the names andports of the working board and protectionboard.
Working Status ofDevice
- - This parameter indicates the working stateon the equipment side.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
315
Parameter Value Range Default Value Description
Signal Status ofChannel
- - This parameter indicates the status of thelink signal.
A.2.7 Parameter Description: Link Configuration_Creating a PLAGroup
This topic describes the parameters for creating a PLA group.
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and then choose
Configuration > Physical Link Aggregation from the Function Tree.2. Click New.
Parameters for Creating a PLA groupParameter Value Range Default Value Description
PLA ID 1 to 3 - This parameter specifies the ID of a PLAgroup.
Main Board - - This parameter specifies the main IF boardin a PLA group.
Main Port - - This parameter specifies the main port in aPLA group.
Board - - This parameter specifies the slave IF boardin a PLA group.
Port - - This parameter specifies the slave port in aPLA group.
Selected SlavePorts
- - This parameter displays the slave IF boardand slave port that have been selected.
A.2.8 Parameter Description: Link Configuration_PLAThis topic describes PLA parameters.
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and then choose
Configuration > Physical Link Aggregation from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
316
PLA ParametersParameter Value Range Default Value Description
PLA ID - - This parameter displays the ID of a PLAgroup.
Main Board - - This parameter displays the main IF boardin a PLA group.
Main Port - - This parameter displays the main port in aPLA group.
Hardware Statusof Main Port
- - This parameter displays whether the main IFboard in a PLA group is functional.
Link Status ofMain Port
- - This parameter displays whether the mainlink in a PLA group is functional.
Work Status ofMain Port
- - This parameter displays the working statusof the main port in a PLA group.
Minimum ActiveLinks
- - This parameter specifies the minimumnumber of available links in a PLA groupand helps to trigger ERPS switching even ifnot all members in the PLA group failFor example, if you set Minimum ActiveLinks to 2, ERPS switching is triggeredwhen either PLA member link fails.
Slave Board - - This parameter displays the slave IF boardin a PLA group.
Slave Port - - This parameter displays the slave port in aPLA group.
Hardware Statusof Slave Port
- - This parameter displays whether the slave IFboard in a PLA group is functional.
Link Status ofSlave Port
- - This parameter displays whether the slavelink in a PLA group is functional.
Work Status ofSlave Port
- - This parameter displays the working statusof the slave port in a PLA group.
A.2.9 Parameter: Link Configuration_IF/ODU ConfigurationThis topic describes the parameters that are used for configuring the IF/ODU.
Navigation Path1. In the NE Explorer, select the NE and then choose Configuration > Link
Configuration from the Function Tree.2. Click the IF/ODU Configuration tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
317
Parameters for Configuring the IFParameter Value Range Default Value Description
Work Mode 1,4E1,7MHz,QPSK2,4E1,3.5MHz,16QAM3,8E1,14MHz,QPSK4,8E1,7MHz,16QAM5,16E1,28MHz,QPSK6,16E1,14MHz,16QAM7,STM-1,28MHz,128QAM10,22E1,14MHz,32QAM11,26E1,14MHz,64QAM12,32E1,14MHz,128QAM13,35E1,28MHz,16QAM14,44E1,28MHz,32QAM15,53E1,28MHz,64QAM
- l This parameter indicates or specifies thework mode of the radio link in "workmode number, service capacity, channelspacing, modulation mode" format.
l This parameter is set according to thenetwork plan. The work modes of the IFboards at the two ends of a radio linkmust be the same.
NOTEThe IF1 board supports this parameter.
Link ID 1 to 4094 1 l Link ID indicates or specifies the ID ofa radio link. As the identifier of a radiolink, this parameter is used to preventincorrect connections of radio linksbetween sites.
l If the value of Received Radio LinkID does not match the preset value ofLink ID at the local end, the local endinserts the AIS signal to the downstreamdirection of the service. At the same time,the local end reports MW_LIM alarm tothe NMS, indicating that the link IDs donot match.
l Link ID is set according to the networkplan. Each radio link of an NE shouldhave a unique link ID, and the link IDs atboth ends of a radio link should be thesame.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
318
Parameter Value Range Default Value Description
Received Link ID - - l This parameter indicates the received IDof the radio link.
l If the value of Received Radio LinkID does not match the preset value ofRadio Link ID at the local end, the localend inserts the AIS signal to thedownstream direction of the service. Atthe same time, the local end reports analarm to the NMS, indicating that the linkIDs do not match.
l When the radio link becomes faulty, thisparameter is displayed as an invalidvalue.
IF Service Type Hybrid(Native E1+ETH)Hybrid(NativeSTM-1+ETH)SDH
Hybrid(Native E1+ETH)
l Displays or specifies the type of servicescarried by the IF board.
l If the Integrated IP radio transmitsNative E1 services, set this parameter toHybrid(Native E1+ETH).
l If the Integrated IP radio transmitsNative STM-1 services, set thisparameter to Hybrid(Native STM-1+ETH).
l If the SDH radio transmits SDH services,set this parameter to SDH.
NOTEThe ISU2 and ISX2 boards support thisparameter.
IF ChannelBandwidth
3.5M7M14M28M40M56M
- IF Channel Bandwidth indicates thechannel spacing of the corresponding radiolink. This parameter is set according to thenetwork plan.NOTEl This parameter is not applicable to the IF1
board.
l The IFU2 board does not support the value40M.
l The IFX2 board does not support the values40M.
l IF Channel Bandwidth can be set to 3.5Monly for the ISU2 board.
AM Mode - - This parameter is not applicable to the OptiXRTN 950.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
319
Parameter Value Range Default Value Description
AM Enable Status DisabledEnabled
Disabled l When AM Enable Status is set toDisabled, the radio link uses only thespecified modulation scheme. In thiscase, you need to select ManuallySpecified Modulation Mode.
l When AM Enable Status is set toEnabled, the radio link uses thecorresponding modulation schemeaccording to the channel conditions.
l Hence, the Integrated IP radio can ensurethe reliable transmission of the E1services and provide bandwidthadaptively for the Ethernet serviceswhen the AM function is enabled.
l The ISX2/ISU2 does not support the AMfunction when IF Service Type isSDH.
l When IF Channel Bandwidth is 3.5Mfor the ISU2 board, the AM function isunavailable and AM Enable Statusmust be set to Disabled.
NOTEThis parameter is not applicable to the IF1 board.
Manually SpecifiedModulation Mode
QPSK16QAM32QAM64QAM128QAM256QAM
QPSK l This parameter specifies the modulationscheme that the radio link uses for signaltransmission.
l This parameter is valid only when AMEnable Status is set to Disabled.
NOTEThis parameter is not applicable to the IF1 board.
Modulation Modeof the GuaranteeAM Capacity
QPSK16QAM32QAM64QAM128QAM256QAM
QPSK l This parameter is valid only when AMEnable Status is set to Enabled.
l Modulation Mode of the GuaranteeAM Capacity specifies the lowest-ordermodulation scheme that the AM functionsupports. This parameter is set accordingto the network plan. Generally, the valueof this parameter is determined by theservice transmission bandwidth that theHybrid radio must ensure and theavailability of the radio link thatcorresponds to this modulation scheme.
NOTEThis parameter is not applicable to the IF1 board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
320
Parameter Value Range Default Value Description
Modulation Modeof the Full AMCapacity
QPSK16QAM32QAM64QAM128QAM256QAM
QPSK l This parameter is valid only when AMEnable Status is set to Enabled.
l Modulation Mode of the Full AMCapacity specifies the highest-ordermodulation scheme that the AM functionsupports. This parameter is set accordingto the network plan. Generally, the valueof this parameter is determined by thebandwidth of the services that need to betransmitted over the Hybrid radio and theavailability of the radio link thatcorresponds to this modulation scheme.NOTE
Modulation Mode of the Full AMCapacity must be higher than ModulationMode of the Guarantee AM Capacity.
NOTEThis parameter is not applicable to the IF1 board.
STM-1 Capacity - - l Specifies the STM-1 capacity of the IFboard.
l This parameter is available only when IFService Type is set to Hybrid(NativeSTM-1+ETH) and SDH.
l If IF Service Type is Hybrid(NativeSTM-1+ETH), this parameter can be setto 0 or 1.
l If IF Service Type is SDH, thisparameter can be set to 1 or 2.
NOTEThe IF1, IFU2, and IFX2 boards do not supportthis parameter.
Guarantee E1Capacity
- - l If AM Enable Status is set to Enabled,this parameter needs to be set accordingto IF Channel Bandwidth, ModulationMode of the Guarantee AM Capacity,and the actually transmitted services.
l If AM Enable Status is set toDisabled, this parameter needs to be setaccording to IF Channel Bandwidth,Manually Specified ModulationMode, and the actually transmittedservices.
l For the ISU2 and ISX2 boards, thisparameter is available when IF ServiceType is Hybrid(Native E1+ETH).
NOTEThis parameter is not applicable to the IF1 board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
321
Parameter Value Range Default Value Description
Guarantee E1Capacity Range
- - Displays the E1 capacity range of the IFboard in guarantee capacity modulationmode.
Data ServiceBandwidth(Mbit/s)
- - Displays the data service bandwidth of theIF board.
Enable E1 Priority DisabledEnabled
Disabled l This parameter specifies whether toenable the E1 priority function.
l This parameter is valid only when AMEnable Status is set to Enabled.
l For the ISU2 and ISX2 boards, thisparameter is available when IF ServiceType is Hybrid(Native E1+ETH).
NOTEThis parameter is not applicable to the IF1 board.
Full E1 Capacity - - l This parameter specifies the number oftransmitted E1 services in ModulationMode of the Full AM Capacity.
l This parameter is valid if Enable E1Priority is set to Enabled.
l E1 service bandwidth in full capacitymode ≤ Service bandwidth in fullcapacity mode - Service bandwidth inguarantee capacity mode + E1 servicebandwidth in guarantee capacity mode.In addition, the number of E1 services infull capacity modulation mode should besmaller than or equal to the maximumnumber of E1 services in full capacitymodulation mode.
l The Full E1 Capacity must be set to thesame value at both ends of a radio link.
l For the ISU2 and ISX2 boards, thisparameter is available when IF ServiceType is Hybrid(Native E1+ETH).
NOTEThis parameter is not applicable to the IF1 board.
Full E1 CapacityRange
- - Displays the E1 capacity range of the IFboard in full capacity modulation mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
322
Parameters for Configuring the RFParameter Value Range Default Value Description
TX Frequency(MHz)
- - l This parameter indicates or specifies thetransmit frequency of the ODU, namely,the channel central frequency.
l The value of this parameter must not beless than the sum of the lower TXfrequency limit supported by the ODUand a half of the channel spacing, andmust not be more than the differencebetween the upper TX frequency limitsupported by the ODU and a half of thechannel spacing.
l The difference between the transmitfrequencies of both the ends of a radiolink should be one T/R spacing.
l This parameter needs to be set accordingto the network plan.
Range of TXFrequency(MHz)
- - l This parameter indicates the range of thetransmit frequency of the ODU.
l The Range of Frequency(MHz)depends on the specifications of theODU.
Actual TXFrequency(MHz)
- - This parameter indicates the actual transmitfrequency of the ODU.
Actual RXFrequency(MHz)
- - This parameter indicates the actual receivefrequency of the ODU.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
323
Parameter Value Range Default Value Description
T/R Spacing(MHz) - - l This parameter specifies the spacingbetween the transmit frequency and thereceive frequency of an ODU to preventinterference between them.
l If Station Type of the ODU is TXhigh, the TX frequency is one T/Rspacing higher than the receivefrequency. If Station Type of the ODUis TX low, the TX frequency is one T/Rspacing lower than the receivefrequency.
l If the ODU supports only one T/Rspacing, set this parameter to 0,indicating that the T/R spacing supportedby the ODU is used.
l A valid T/R spacing value is determinedby the ODU itself, and the T/R spacingshould be set according to the technicalspecifications of the ODU.
l The T/R spacing of the ODU should beset to the same value at both the ends ofa radio link.
Actual T/RSpacing(MHz)
- - This parameter indicates the actual T/Rspacing of the ODU.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
324
Parameters for Configuring the PowerParameter Value Range Default Value Description
TX Power(dBm) - - l This parameter indicates or specifies thetransmit power of the ODU. Thisparameter cannot be set to a value thatexceeds the nominal power range of theODU.
l This parameter cannot take a valuegreater than the preset value ofMaximum Transmit Power(dBm).
l It is recommended that you set thetransmit power of the ODU to the samevalue at both ends of a radio link.
l Consider the receive power of the ODUat the opposite end when you set thisparameter. Ensure that the receive powerof the ODU at the opposite end canensure stable radio services.
l This parameter needs to be set accordingto the network plan.
Range of TXPower(dBm)
- - This parameter indicates the range of thetransmit power of the ODU.
Actual TX Power(dBm)
- - l This parameter indicates the actualtransmit power of the ODU.
l If the ATPC function is enabled, thequeried actual transmit power may bedifferent from the preset value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
325
Parameter Value Range Default Value Description
Power to BeReceived(dBm)
-90.0 to -20.0 -10.0 l Power to Be Received(dBm) is used toset the expected receive power of theODU and is mainly used in the antennaalignment stage. After this parameter isset, the NE automatically enables theantenna misalignment indicatingfunction.
l When the antenna misalignmentindicating function is enabled, When theantenna non-alignment indicationfunction is enabled, if the actual receivepower of the ODU is 3 dB lower than thepower expected to be received, the ODUindicator on the IF board connected tothe ODU blinks yellow (300 ms on, 300ms off), indicating that the antenna is notaligned.
l After the antenna alignment, after thestate that the antenna is aligned lasts for30 minutes, the NE automaticallydisables the antenna misalignmentindicating function.
l When Power to Be Received(dBm)takes the default value (-10.0), theantenna misalignment indicatingfunction is disabled.
l This parameter is set according to thenetwork plan.
Actual RX Power(dBm)
- - This parameter indicates the actual receivepower of the ODU.
TX Status UnmuteMute
Unmute l This parameter indicates or specifies thetransmit status of the ODU.
l When this parameter is set to Mute, thetransmitter of the ODU does not workbut can normally receive microwavesignals.
l When this parameter is set to Unmute,the ODU can normally transmit andreceive microwave signals.
l In normal cases, it is recommended thatyou set TX Status to unmute.
Actual TX Status - - This parameter indicates the actual transmitstatus of the ODU.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
326
Equipment InformationParameter Value Range Default Value Description
Frequency(GHz) - - This parameter indicates the frequency bandwhere the ODU operates.
Equip Type - - l This parameter indicates the equipmenttype of the ODU.
l PDH and SDH indicate the transmissioncapacity only and are irrelevant to thetype of transmitted service.
Station Type - - l This parameter indicates whether theODU is a Tx high station or a Tx lowstation.
l The transmit frequency of a Tx highstation is one T/R spacing higher than thetransmit frequency of a Tx low station.
Produce SN - - This parameter indicates the manufacturingserial number and the manufacturer code ofthe ODU.
TransmissionPower Level
- - This parameter indicates the level of theoutput power of the ODU.
A.3 Multiplex Section Protection ParametersThis topic describes the parameters that are related to multiplex section protection (MSP).
A.3.1 Parameter Description: Linear MSP_CreationThis topic describes the parameters that are used for creating linear MSP groups.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Linear
MS from the Function Tree.2. Click Create.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
327
Parameters on the Main InterfaceParameter Value Range Default
ValueDescription
Protection Type 1+1 Protection1:N Protection
1+1 Protection l This parameter specifies theprotection type of the linearMSP group.
l In the case of 1+1 linear MSP,one working channel and oneprotection channel arerequired. When the workingchannel fails, the service isswitched from the workingchannel to the protectionchannel.
l In the case of 1:N linear MSP,N working channels and oneprotection channel arerequired. Normal services aretransmitted on the workingchannels and extra servicesare transmitted on theprotection channel. When oneworking channel fails, theservices are switched fromthis working channel to theprotection channel, and theextra services are interrupted.
l If extra services need to betransmitted or severalworking channels arerequired, select 1:NProtection.
l This parameter is setaccording to the planninginformation.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
328
Parameter Value Range DefaultValue
Description
Switching Mode Single-EndedSwitchingDual-EndedSwitching
Single-EndedSwitching (1+1 Protection)Dual-EndedSwitching (1:NProtection)
l This parameter specifies theswitching mode of the linearMSP.
l In single-ended mode, theswitching occurs only at oneend and the state of the otherend remains unchanged.
l In dual-ended mode, theswitching occurs at both endsat the same time.
l If the linear MSP type is set to1:N Protection, SwitchingMode can be set to Dual-Ended Switching only.
Revertive Mode Non-RevertiveRevertive
Non-Revertive(1+1Protection)Revertive (1:NProtection)
l This parameter specifies therevertive mode of the linearMSP.
l When this parameter is set toRevertive, the NE that is inthe switching state releasesthe switching and enables theformer working channel toreturn to the normal statesome time after the formerworking channel is restored tonormal.
l When this parameter is set toNon-Revertive, the NE thatis in the switching state keepsthe current state unchangedunless another switchingoccurs even though theformer working channel isrestored to normal.
l It is recommended that youset this parameter toRevertive.
l If the linear MSP type is set to1:N Protection, RevertiveMode can be set toRevertive only.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
329
Parameter Value Range DefaultValue
Description
WTR Time(s) 300 to 720 600 l This parameter specifies theWTR time.
l When the time after theformer working channel isrestored to normal reaches thepreset WTR time, a revertiveswitching occurs.
l You can set WTR Time(s)only when Revertive Modeis set to Revertive.
l It is recommended that youuse the default value.
SD Enable EnabledDisabled
Enabled l This parameter indicates orspecifies whether theswitching at the SD alarm ofthe linear MSP is enabled.
l When this parameter is set toEnabled, the B2_SD alarm isconsidered as a switchingcondition.
l It is recommended that youset this parameter toEnabled.
Protocol Type New ProtocolRestructureProtocol
New Protocol l The new protocol issupported at the early stage,and the mainstream protocolversion is used currently.
l The restructure protocoloptimizes the new protocoland provides better measuresto protect the new protocol,thus ensuring that the newprotocol runs in a bettermanner.
l The new protocol is moremature, and the restructureprotocol complies with thestandard. It is recommendedthat you use the new protocol.
l You must ensure that theinterconnected NEs run theprotocols of the same type.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
330
Slot Mapping Relation ParametersParameter Value Range Default Value Description
Select MappingDirection
West Working UnitWest ProtectionUnit
West Working Unit This parameter specifies the mappingdirection of the linear MSP.
Select MappingMode
- - l This parameter specifies the mappingboard and port in the mapping direction.
l If the protection type is set to 1+1Protection, only one line port can bemapped as West Working Unit.
l Only one line port can be mapped asWest Protection Unit.
l The line port mapped as WestProtection Unit and the line portmapped as West Working Unit shouldbe configured for different boards ifpossible.
Mapped Board - - This parameter indicates the preset slotmapping relations, including the mappingdirection and the corresponding mappingmode.
A.3.2 Parameter Description: Linear MSPThis topic describes the parameters that are related to linear MSP groups.
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Configuration > Linear MSfrom the Function Tree.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Protection GroupID
- - This parameter indicates the ID of theprotection group.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
331
Parameter Value Range Default Value Description
Protection Type - - l This parameter indicates the protectiontype of the linear MSP group.
l In the case of 1+1 linear MSP, oneworking channel and one protectionchannel are required. When the workingchannel fails, the service is switchedfrom the working channel to theprotection channel.
l In the case of 1:N linear MSP, N workingchannels and one protection channel arerequired. Normal services aretransmitted on the working channels andextra services are transmitted on theprotection channel. When one workingchannel fails, the services are switchedfrom this working channel to theprotection channel, and the extraservices are interrupted.
l If extra services need to be transmittedor several working channels arerequired, select 1:N Protection.
Switching Mode Single-EndedSwitchingDual-EndedSwitching
- l This parameter indicates or specifies theswitching mode of the linear MSP.
l In single-ended mode, the switchingoccurs only at one end and the state ofthe other end remains unchanged.
l In dual-ended mode, the switchingoccurs at both ends at the same time.
l If the linear MSP type is set to 1:NProtection, Switching Mode can be setto Dual-Ended Switching only.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
332
Parameter Value Range Default Value Description
Revertive Mode Non-RevertiveRevertive
- l This parameter indicates or specifies therevertive mode of the linear MSP.
l When this parameter is set toRevertive, the NE that is in theswitching state releases the switchingand enables the former working channelto return to the normal state some timeafter the former working channel isrestored to normal.
l When this parameter is set to Non-Revertive, the NE that is in theswitching state keeps the current stateunchanged unless another switchingoccurs even though the former workingchannel is restored to normal.
l It is recommended that you set thisparameter to Revertive.
l If the linear MSP type is set to 1:NProtection, Revertive Mode can be setto Revertive only.
WTR Time(s) 300 to 720 - l This parameter indicates or specifies theWTR time.
l When the time after the former workingchannel is restored to normal reaches thepreset WTR time, a revertive switchingoccurs.
l You can set WTR Time(s) only whenRevertive Mode is set to Revertive.
l It is recommended that you use thedefault value.
SD Enable EnabledDisabled
- l This parameter indicates or specifieswhether the reverse switching functionis enabled.
l When this parameter is set to Enabled,the B2_SD alarm is considered as aswitching condition.
l It is recommended that you set thisparameter to Enabled.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
333
Parameter Value Range Default Value Description
Protocol Type New ProtocolRestructure Protocol
- l The new protocol is supported at theearly stage, and the mainstream protocolversion is used currently.
l The restructure protocol optimizes thenew protocol and provides bettermeasures to protect the new protocol,thus ensuring that the new protocol runsin a better manner.
l You must ensure that the interconnectedNEs run the protocols of the same type.
l The new protocol is more mature, andthe restructure protocol complies withthe standard. It is recommended that youuse the new protocol.
Protocol Status - - This parameter indicates the protocol statusof the linear MSP.
Protection Subnet - - This parameter displays the protectionsubnet where the MS protection isconfigured.
Slot Mapping Relation ParametersParameter Value Range Default Value Description
Protection Unit - - This parameter indicates that which of theunits, namely, the west protection unit or thewest working unit, is currently in theprotection status.
West Line - - This parameter indicates the west protectionunit and the west working unit of the linearMSP.
West SwitchingStatus
- - This parameter indicates the switchingstatus of the line.
Protected Unit - - This parameter indicates the workingchannel protected by the current protectionchannel.
Remote/Local EndIndication
- - When Switching Mode is set to Dual-Ended Switching, the central office endthat issues the switching command isdisplayed.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
334
A.4 SDH/PDH Service ParametersThis topic describes the parameters that are related to SDH/PDH services.
A.4.1 Parameter Description: SDH Service Configuration_CreationThis parameter describes the parameters that are used for creating point-to-point cross-connections.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > SDH
Service Configuration from the Function Tree.
2. Click Options to change the VC-12 timeslot numbering policy used by the cross-connection.
3. Click Create.
Parameters
Parameter Value Range Default Value Description
Level VC12VC3VC4
VC12 l This parameter specifies the level of theservice to be created.
l If the service is an E1 service or a dataservice that is bound with VC-12channels, set this parameter to VC12.
l If the service is a data service that isbound with VC-3 channels, set thisparameter to VC3.
l If all the services on a VC-4 channel passthrough the NE, set this parameter toVC4.
Direction BidirectionalUnidirectional
Bidirectional l When this parameter is set toUnidirectional, create only the cross-connections from the service source tothe service sink.
l When this parameter is set toBidirectional, create the cross-connections from the service source tothe service sink and the cross-connections from the service sink to theservice source.
l In normal cases, it is recommended thatyou set this parameter to Bidirectional.
Source Slot - - This parameter specifies the slot of theservice source.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
335
Parameter Value Range Default Value Description
Source VC4 - - l This parameter specifies the number ofthe VC-4 channel where the servicesource is located.
l This parameter cannot be set whenSource Slot is set to the slot of thetributary board.
Source TimeslotRange(e.g.1,3-6)
- - l This parameter indicates the timeslotrange of the service source.
l This parameter can be set to a number orseveral numbers. When setting thisparameter to several numbers, use thecomma (,) to separate the discretenumbers, or use the endash (-) torepresent a consecutive number. Forexample, the numbers 1, and 3-6 indicate1, 3, 4, 5, and 6.
l This parameter is set according to thenetwork plan.
Sink Slot - - This parameter specifies the slot of theservice sink.
Sink VC4 - - l This parameter specifies the number ofthe VC-4 channel where the service sinkis located.
l This parameter cannot be set when SinkSlot is set to the slot of the tributaryboard.
Sink TimeslotRange(e.g.1,3-6)
- - l This parameter specifies the timeslotrange of the service sink.
l This parameter can be set to a number orseveral numbers. When setting thisparameter to several numbers, use thecomma (,) to separate the discretenumbers, or use the endash (-) torepresent a consecutive number. Forexample, the numbers 1, and 3-6 indicate1, 3, 4, 5, and 6.
l This parameter is set according to thenetwork plan.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
336
Parameter Value Range Default Value Description
E1 Priority HighLowNone
- l This parameter specifies the priority ofan E1 service. This parameter isavailable only if the E1 priority functionis enabled for the ports configured in thecross-connections.
l If E1 Priority is set to High,transmission of the E1 service is ensuredin any modulation scheme.
l If E1 Priority is set to Low, transmissionof the E1 service is ensured only in full-capacity modulation scheme
l If the service priority is not specifiedduring service creation, E1 Priority isNone. In this case, the E1 priority of aservice needs to be changed after theservice is created.
ActivateImmediately
YesNo
Yes l This parameter specifies whether toimmediately activate the configuredservice.
l To immediately deliver the configuredSDH service to the NE, set this parameterto Yes.
A.4.2 Parameter Description: SDH Service Configuration_SNCPService Creation
This topic describes the parameters that are used for creating SNCP services.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > SDH
Service Configuration from the Function Tree.2. Click Options to change the VC-12 timeslot numbering policy used by the cross-
connection.3. Click Create SNCP Service.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Service Type SNCP SNCP This parameter indicates that the type of theservice to be created is SNCP.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
337
Parameter Value Range Default Value Description
Direction BidirectionalUnidirectional
Bidirectional l When this parameter is set toUnidirectional, create only the cross-connections from the SNCP servicesource to the SNCP service sink.
l When this parameter is set toBidirectional, create the cross-connections from the SNCP servicesource to the service sink and the cross-connections from the SNCP service sinkto the service source.
l In normal cases, it is recommended thatyou set this parameter to Bidirectional.
Level VC12VC3VC4
VC12 l This parameter specifies the level of theSCNP service to be created.
l If the service is an E1 service or a dataservice that is bound with VC-12channels, set this parameter to VC12.
l If the service is a data service that isbound with VC-3 channels, set thisparameter to VC3.
l If all the services on a VC-4 channel passthrough the NE, set this parameter toVC4.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
338
Parameter Value Range Default Value Description
Hold-off Time(100ms)
0 to 100 0 l This parameter specifies the duration ofthe hold-off time.
l When a line is faulty, SNCP switchingcan be performed on the NE after a delayof time to prevent the situation where theNE performs SNCP switching and otherprotection switching at the same time.
l Hold-off Time(100ms) is generally setto prevent SNCP protection switching,when SNCP works with N+1 protection.Hold-off Time(100ms) must be longerthan the switching time of any protectionmode that works with SNCP. Generally,Hold-off Time(100ms) is set to 200 ms.
l When SNCP works with 1+1 FD/SD,trigger conditions for HSM switching orSNCP switching trigger HSM switchingbut do not trigger SNCP switching.Therefore, Hold-off Time(100ms) doesnot need to be set in this case.
l The switching time of 1+1 HSB/FD/SDprotection is much longer than that ofSNCP. Therefore, to shorten serviceinterruptions, it is recommended that youdo not set Hold-off Time(100ms) whenSNCP works with 1+1 HSB/FD/SDprotection.
l If only the SNCP scheme is available, itis recommended that you set the hold-offtime to 0.
Revertive Mode Non-RevertiveRevertive
Non-Revertive l This parameter specifies whether toswitch the service to the original workingchannel after the fault is rectified.
l If this parameter is set to Revertive, theservice is switched from the protectionchannel to the original working channel.If this parameter is set to Non-Revertive, the service is not switchedfrom the protection channel to theoriginal working channel.
l It is recommended that you set thisparameter to Revertive.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
339
Parameter Value Range Default Value Description
WTR Time(s) 300 to 720 600 l This parameter specifies the WTR time.l When the time after the former working
channel is restored to normal reaches thepreset WTR time, a revertive switchingoccurs.
l You can set WTR Time(s) only whenRevertive Mode is set to Revertive.
l It is recommended that you use thedefault value.
Source Slot - - This parameter specifies the slot of theservice source.
Source VC4 - - l This parameter specifies the number ofthe VC-4 channel where the servicesource is located.
l This parameter cannot be set whenSource Slot is set to the slot of thetributary board.
Source TimeslotRange(e.g.1,3-6)
- - l This parameter indicates the timeslotrange of the service source.
l This parameter can be set to a number orseveral numbers. When setting thisparameter to several numbers, use thecomma (,) to separate the discretenumbers, or use the endash (-) torepresent a consecutive number. Forexample, the numbers 1, and 3-6 indicate1, 3, 4, 5, and 6.
l This parameter is set according to theplanning information.
Sink Slot - - This parameter specifies the slot of theservice sink.
Sink VC4 - - l This parameter specifies the number ofthe VC-4 channel where the service sinkis located.
l This parameter cannot be set when SinkSlot is set to the slot of the tributaryboard.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
340
Parameter Value Range Default Value Description
Sink TimeslotRange(e.g.1,3-6)
- - l This parameter specifies the timeslotrange of the service sink.
l This parameter can be set to a number orseveral numbers. When setting thisparameter to several numbers, use thecomma (,) to separate the discretenumbers, or use the endash (-) torepresent a consecutive number. Forexample, the numbers 1, and 3-6 indicate1, 3, 4, 5, and 6.
l This parameter is set according to theplanning information.
Configure SNCPTangent Ring
SelectedDeselected
Deselected l After the Configure SNCP TangentRing checkbox is selected, you canquickly configure the SNCP service forthe SNCP ring tangent point.
l In normal cases, it is recommended thatyou do not select this checkbox.
ActivateImmediately
SelectedDeselected
Selected l This parameter specifies whether toimmediately activate the configuredSNCP service.
l After the Activate Immediatelycheckbox is selected, you canimmediately activate the created SNCPservice.
A.4.3 Parameter Description: SDH ServiceConfiguration_Converting Normal Services Into SNCP Services
This topic describes the parameters that are used for converting normal services into SNCPservices.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > SDH
Service Configuration from the Function Tree.2. Optional: If a bidirectional SDH service is created, select this service in Cross-
Connection. Right-click the selected service and choose Expand to Unidirectional fromthe shortcut menu.
3. Select the unidirectional service. Right-click the selected service and choose Convert toSNCP Service from the shortcut menu.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
341
Parameters on the Main InterfaceParameter Value Range Default Value Description
Service Type SNCP SNCP This parameter indicates that the type of theservice to be created is SNCP.
Direction Unidirectional - This parameter indicates the direction of theSNCP service.
Level - - l This parameter indicates the level of theSNCP service.
l If the service is an E1 service or a dataservice that is bound with VC-12channels, the parameter value is VC12.
l If the service is a data service that isbound with VC-3 channels, theparameter value is VC3.
l If all the services on a VC-4 channel passthrough the NE, the parameter value isVC4.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
342
Parameter Value Range Default Value Description
Hold-off Time(100ms)
0 to 100 0 l This parameter specifies the duration ofthe hold-off time.
l When a line is faulty, SNCP switchingcan be performed on the NE after a delayof time to prevent the situation where theNE performs SNCP switching and otherprotection switching at the same time.
l Hold-off Time(100ms) is generally setto prevent SNCP protection switching,when SNCP works with N+1 protection.Hold-off Time(100ms) must be longerthan the switching time of any protectionmode that works with SNCP. Generally,Hold-off Time(100ms) is set to 200 ms.
l When SNCP works with 1+1 FD/SD,trigger conditions for HSM switching orSNCP switching trigger HSM switchingbut do not trigger SNCP switching.Therefore, Hold-off Time(100ms) doesnot need to be set in this case.
l The switching time of 1+1 HSB/FD/SDprotection is much longer than that ofSNCP. Therefore, to shorten serviceinterruptions, it is recommended that youdo not set Hold-off Time(100ms) whenSNCP works with 1+1 HSB/FD/SDprotection.
l If only the SNCP scheme is available, itis recommended that you set the hold-offtime to 0.
Revertive Mode Non-RevertiveRevertive
Non-Revertive l This parameter specifies whether toswitch the service to the original workingchannel after the fault is rectified. If thisparameter is set to "Revertive", theservice is switched from the protectionchannel to the original working channel.
l If this parameter is set to Revertive, theservice is switched from the protectionchannel to the original working channel.If this parameter is set to Non-Revertive, the service is not switchedfrom the protection channel to theoriginal working channel.
l It is recommended that you set thisparameter to Revertive.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
343
Parameter Value Range Default Value Description
WTR Time(s) 300 to 720 600 l This parameter specifies the WTR time.l When the time after the former working
channel is restored to normal reaches thepreset WTR time, a revertive switchingoccurs.
l You can set WTR Time(s) only whenRevertive Mode is set to Revertive.
l It is recommended that you use thedefault value.
Source Slot - - This parameter specifies the slot of theservice source.
Source VC4 - - l This parameter specifies the number ofthe VC-4 channel where the servicesource is located.
l This parameter cannot be set whenSource Slot is set to the slot of thetributary board.
Source TimeslotRange(e.g.1,3-6)
- - l This parameter indicates the timeslotrange of the service source.
l This parameter can be set to a number orseveral numbers. When setting thisparameter to several numbers, use thecomma (,) to separate the discretenumbers, or use the endash (-) torepresent a consecutive number. Forexample, the numbers 1, and 3-6 indicate1, 3, 4, 5, and 6.
l This parameter is set according to theplanning information.
Sink Slot - - This parameter specifies the slot of theservice sink.
Sink VC4 - - l This parameter specifies the number ofthe VC-4 channel where the service sinkis located.
l This parameter cannot be set when SinkSlot is set to the slot of the tributaryboard.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
344
Parameter Value Range Default Value Description
Sink TimeslotRange(e.g.1,3-6)
- - l This parameter specifies the timeslotrange of the service sink.
l This parameter can be set to a number orseveral numbers. When setting thisparameter to several numbers, use thecomma (,) to separate the discretenumbers, or use the endash (-) torepresent a consecutive number. Forexample, the numbers 1, and 3-6 indicate1, 3, 4, 5, and 6.
l This parameter is set according to theplanning information.
Configure SNCPTangent Ring
- - After the Configure SNCP Tangent Ringcheckbox is selected, you can quicklyconfigure the SNCP service for the SNCPring tangent point.
ActivateImmediately
- - l This parameter indicates whether toimmediately activate the configuredSNCP service.
l After the Activate Immediatelycheckbox is selected, you canimmediately activate the created SNCPservice.
A.4.4 Parameter Description: SDH Service ConfigurationThis topic describes the parameters that are used for configuring SDH services (namely,configuring cross-connections).
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Configuration > SDH ServiceConfiguration from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
345
Cross-Connection ParametersParameter Value Range Default Value Description
Level VC12VC3VC4
- l This parameter indicates the level of theservice.
l If the service is an E1 service or a dataservice that is bound with VC-12channels, VC12 is displayed.
l If the service is a data service that isbound with VC-3 channels, VC3 isdisplayed.
l If all the services on a VC-4 channel passthrough the NE, VC4 is displayed.
Source Slot - - This parameter indicates the slot of theservice source.
Source Timeslot/Path
- - This parameter indicates the timeslot ortimeslot range of the service source.
Sink Slot - - This parameter indicates the slot of thesource sink.
Sink Timeslot/Path
- - This parameter indicates the timeslot ortimeslot range of the service sink.
E1 Priority HighLowNone
- l This parameter specifies the priority ofan E1 service. This parameter isavailable only if the E1 priority functionis enabled for the ports configured in thecross-connections.
l If E1 Priority is set to High,transmission of the E1 service is ensuredin any modulation scheme.
l If E1 Priority is set to Low, transmissionof the E1 service is ensured only in full-capacity modulation scheme
l If the service priority is not specifiedduring service creation, E1 Priority isNone. In this case, the E1 priority of aservice needs to be changed after theservice is created.
Activation Status YesNo
- This parameter indicates whether to activatethe service.
Bound GroupNumber
- - The OptiX RTN 950 does not support thisparameter.
Lockout Status - - The OptiX RTN 950 does not support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
346
Parameter Value Range Default Value Description
Trail Name - - The OptiX RTN 950 does not support thisparameter.
Schedule No. - - The OptiX RTN 950 does not support thisparameter.
Parameters for Automatically Created Cross-ConnectionsParameter Value Range Default Value Description
Level VC12VC3VC4
- l This parameter indicates the level of theservice.
l If the service is an E1 service or a dataservice that is bound with VC-12channels, VC12 is displayed.
l If the service is a data service that isbound with VC-3 channels, VC3 isdisplayed.
l If all the services on a VC-4 channel passthrough the NE, VC4 is displayed.
Source Slot - - This parameter indicates the slot of theservice source.
Source Timeslot/Path
- - This parameter indicates the timeslot ortimeslot range of the service source.
Sink Slot - - This parameter indicates the slot of thesource sink.
Sink Timeslot/Path
- - This parameter indicates the timeslot ortimeslot range of the service sink.
Lockout Status - - The OptiX RTN 950 does not support thisparameter.
Trail Name - - The OptiX RTN 950 does not support thisparameter.
Schedule No. - - The OptiX RTN 950 does not support thisparameter.
A.4.5 Parameter Description: SNCP Service ControlThis topic describes the parameters that are used for controlling SNCP services.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
347
Navigation Path
Select the NE from the Object Tree in the NE Explorer. Choose Configuration > SNCP ServiceControl from the Function Tree.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Service Type - - This parameter indicates the serviceprotection type of the protection group.
Source - - This parameter indicates the timeslots wherethe working service source and protectionservice source of the protection group arelocated.
Sink - - This parameter indicates the timeslots wherethe working service sink and protectionservice sink of the protection group arelocated.
Level VC12VC3VC4
- l This parameter indicates the level of theservice.
l If the service is an E1 service or a dataservice that is bound with VC-12channels, VC12 is displayed.
l If the service is a data service that isbound with VC-3 channels, VC3 isdisplayed.
l If all the services on a VC-4 channel passthrough the NE, VC4 is displayed.
Current Status - - This parameter indicates the currentswitching mode and switching status of theservices of the protection group.
Revertive Mode RevertiveNon-Revertive
- l This parameter indicates or specifies therevertive mode of the service.
l This parameter determines whether toswitch the service from the protectionchannel to the original working channelafter the fault is rectified.
l If this parameter is set to Revertive, theservice is switched from the protectionchannel to the original working channel.If this parameter is set to Non-Revertive, the service is not switchedfrom the protection channel to theoriginal working channel.
l It is recommended that you set thisparameter to Revertive.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
348
Parameter Value Range Default Value Description
WTR Time(s) 300 to 720 - l This parameter indicates or specifies theWTR time.
l When the time after the former workingchannel is restored to normal reaches thepreset WTR time, a revertive switchingoccurs.
l You can set WTR Time(s) only whenRevertive Mode is set to Revertive.
l It is recommended that you use thedefault value.
Hold-off Time(100ms)
0 to 100 - l This parameter specifies the duration ofthe hold-off time.
l When a line is faulty, SNCP switchingcan be performed on the NE after a delayof time to prevent the situation where theNE performs SNCP switching and otherprotection switching at the same time.
l Hold-off Time(100ms) is generally setto prevent SNCP protection switching,when SNCP works with N+1 protection.Hold-off Time(100ms) must be longerthan the switching time of any protectionmode that works with SNCP. Generally,Hold-off Time(100ms) is set to 200 ms.
l When SNCP works with 1+1 FD/SD,trigger conditions for HSM switching orSNCP switching trigger HSM switchingbut do not trigger SNCP switching.Therefore, Hold-off Time(100ms) doesnot need to be set in this case.
l The switching time of 1+1 HSB/FD/SDprotection is much longer than that ofSNCP. Therefore, to shorten serviceinterruptions, it is recommended that youdo not set Hold-off Time(100ms) whenSNCP works with 1+1 HSB/FD/SDprotection.
l If only the SNCP scheme is available, itis recommended that you set the hold-offtime to 0.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
349
Parameter Value Range Default Value Description
SD InitiationCondition
- Null l This parameter indicates or specifies theconditions that trigger the protectionswitching of the service.
l After being selected as SD InitiationCondition, an alarm becomes acondition for triggering switching of anSNCP service.
l It is recommended that you set SDInitiation Condition to the samecondition for Working Service andProtection Service.
l The protection switching conditions inSD Initiation Condition are optionalvalues not included in the default values,and they are set according to the planninginformation.
Trail Status - - This parameter indicates the status of theworking service and protection service ofthe protection group.
Service Grouping - - The OptiX RTN 950 does not support thisparameter.
Group Type - - The OptiX RTN 950 does not support thisparameter.
Active Channel - - This parameter indicates whether theworking service or protection service iscurrently received by the protection group.
Trail Name - - Displays the trail name.
A.4.6 Parameter Description: TU_AIS InsertionThis section describes the parameters for TU_AIS insertion.
Navigation PathIn the NE Explorer, select the IF board from the Object Tree and choose Alarm > TriggeredAlarm Insertion from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
350
Parameters on the Main Interface
Table A-1 Parameters on the main interface
Parameter Value Range Default Value Description
Port - - Displays the slot ID of the IF board and theID of the IF port.
High Channel - - Displays the higher order path number of theIF board.
Low Channel - - Displays the lower order path number of theIF board.
Insert TU_AIS toE1_AIS
EnableDisableAuto
Auto l When Insert TU_AIS to E1_AIS isAuto, the TU_AIS is automaticallyinserted after the E1_AIS is detected inthe E1 channel.
l Generally, it is recommended that Autotake its default value.
A.5 Parameters for Board InterfacesThis topic describes the parameters that are related to board interfaces.
A.5.1 PDH Port ParametersThis topic describes the parameters that are related to PDH ports supported by Smart E1 interfaceboards.
A.5.1.1 Parameter Description: PDH Ports_Basic AttributesThis topic describes the parameters that are related to the basic attributes of PDH ports.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration >
Interface Management > PDH Interface from the Function Tree.2. Click the General Attributes tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - Displays the ID of aservice port.
Name - - Specifies or displays thecustomized port name.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
351
Parameter Value Range Default Value Description
Port Mode Layer 1Layer 2
Layer 2 l Specifies the workingmode of a PDH port.
l When this parameter isset to Layer 1, the portcan transmit TDMsignals. A port cantransmit CES andserial services only ifthis parameter is set toLayer 1.
l When this parameter isset to Layer 2, the portcan transmit ATMsignals.
Encapsulation Type - - l DisplaysEncapsulation Typeof a PDH port.
l When Port Mode isLayer 1,Encapsulation Typetakes its default valueNull.
l When Port Mode isLayer 2,Encapsulation Typetakes its default valueATM.
A.5.1.2 Parameter Description: PDH Ports_Advanced AttributesThis topic describes the parameters that are related to the advanced attributes of PDH ports.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration >
Interface Management > PDH Interface from the Function Tree.2. Click the Advanced Attributes tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - Displays the name of aservice port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
352
Parameter Value Range Default Value Description
Frame Format UnframeDouble FrameCRC-4 Multiframe
CRC-4 Multiframe l Specifies the frameformat.
l If a CES service usesthe emulation mode ofCESoPSN, thisparameter can assumethe value CRC-4Multiframe orDouble Frame. Thevalue CRC-4Multiframe isrecommended.
l If a CES service usesthe emulation mode ofSAToP, this parameterneeds to assume thevalue Unframe.
l The value of FrameFormat must be thesame at the local andopposite ends.
Line Encoding Format - - Displays the line encodingformat. The parametervalue is always HDB3.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
353
Parameter Value Range Default Value Description
Loopback Mode Non-LoopbackInloopOutloop
Non-Loopback l Specifies the loopbackstatus for a port.
l Non-Loopbackindicates thatloopbacks arecancelled or notperformed.
l Inloop indicates thatthe signals that need tobe transmitted to theopposite end arelooped back.
l Outloop indicates thatthe received signals arelooped back.
l This function is usedfor fault locating forthe PDH ports. Thisfunction affectsservices over relatedports. Therefore,exercise precautionbefore starting thisfunction.
l Generally, thisparameter is set toNon-Loopback.
Impedance - - Displays the portimpedance.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
354
Parameter Value Range Default Value Description
Frame Mode 30(ATM)31(ATM,CES)
- l 30 timeslots: In an E1frame format,timeslots 1 to 15 and 17to 31 are used totransmit service data,and timeslot 16 is usedto transmit signaling.
l 31 timeslots: In an E1frame format,timeslots 1 to 31 areused to transmitservice data.
l This parameter isunavailable if FrameFormat is Unframe.
l The port frame modesneed to be the same atthe local and oppositeends.
Clock Mode Master ModeSlave ModeSystem Clock Mode
Master Mode l Master Mode: Thesystem clock is used asthe output clock ofservices.
l Slave Mode: The CESACR clock is used asthe output clock ofservices. The portinputting E1 clocks onSlave is set to SlaveMode.
l System Clock Mode:The upstream E1 lineclock of the oppositeequipment is used asthe output clock ofservices. The portinputting E1 clocks onMaster is set to SystemClock Mode
Composite PortLoopback
- - For the OptiX RTN 950,this parameter cannot beconfigured.
Service Load Indication - - For the OptiX RTN 950,this parameter cannot beconfigured.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
355
Parameter Value Range Default Value Description
Equalize Input Signal - - For the OptiX RTN 950,this parameter cannot beconfigured.
Equalize Outpput Signal - - For the OptiX RTN 950,this parameter cannot beconfigured.
A.5.2 Parameters for the Ports on Ethernet BoardsThis section describes the parameters for the Ethernet ports on the packet plane.
A.5.2.1 Parameter Description: Ethernet Interface_Basic Attributes
This topic describes the parameters that are related to the basic attributes of an Ethernet interface.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Interface
Management > Ethernet Interface from the Function Tree.2. Click the General Attributes tab.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Port - - Displays the port name.
Name - - Specifies the port name.
Enable Port EnabledDisabled
Enabled l Specifies whether anEthernet port isenabled. An Ethernetport can receive,process, and forwardEthernet services onlyif this parameter is setto Enabled.
l Set this parameteraccording to theplanning information.
NOTEPort 10 of the EFP8 boarddoes not support thisparameter.
Port 8 of the EMS6 boarddoes not support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
356
Parameter Value Range Default Value Description
Port Mode Layer 2Layer 3Layer Mix
Layer 2 l Port Mode specifiesthe mode of theEthernet port.
l If Port Mode is Layer2, EncapsulationType can be set toNull, 802.1Q, orQinQ.
l If Port Mode is Layer3, EncapsulationType can be set to802.1Q only and theport can carry MPLStunnels.
NOTEPort 10 of the EFP8 boarddoes not support the valueLayer 3 and Layer Mix.
Port 8 of the EMS6 boarddoes not support the valueLayer 3 and Layer Mix.
Encapsulation Type Null802.1QQinQ
- l Encapsulation Typespecifies the method ofthe port to process thereceived packets.
l If you setEncapsulation Typeto Null, the porttransparentlytransmits the receivedpackets.
l If you setEncapsulation Typeto 802.1Q, the portidentifies the packetsthat comply with theIEEE 802.1q standard.
l If you setEncapsulation Typeto QinQ, the portidentifies the packetsthat comply with theIEEE 802.1ad QinQstandard.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
357
Parameter Value Range Default Value Description
Working Mode Auto-Negotiation10M Half-Duplex10M Full-Duplex100M Half-Duplex100M Full-Duplex1000M Full-Duplex
Auto-Negotiation l The Ethernet ports ofdifferent types supportdifferent WorkingMode.
l When the equipmenton the opposite sideworks in auto-negotiation mode, setthe Working Mode ofthe equipment on thelocal side to Auto-Negotiation.
l When the equipmenton the opposite sideworks in full-duplexmode, set theWorking Mode of theequipment on the localside to 10M Full-Duplex, 100M Full-Duplex, or 1000MFull-Duplexdepending on the portrate of the equipmenton the opposite side.
l When the equipmenton the opposite sideworks in half-duplexmode, set theWorking Mode of theequipment on the localside to 10M Half-Duplex, 100M Half-Duplex, or Auto-Negotiationdepending on the portrate of the equipmenton the opposite side.
l FE ports support 10Mfull-duplex, 10M half-duplex, 100M full-duplex, 100M half-duplex, and auto-negotiation.
l GE electrical portssupport 10M full-duplex, 10M half-duplex, 100M full-duplex, 100M half-
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
358
Parameter Value Range Default Value Description
duplex, 1000M full-duplex, and auto-negotiation.
l GE optical portssupport 1000M full-duplex and auto-negotiation.
NOTEPort 10 of the EFP8 boarddoes not support thisparameter.
Port 8 of the EMS6 boarddoes not support thisparameter.
Max Frame Length(byte)
1518 to 9600 1522 The value of Max FrameLength(byte) should begreater than the length ofany frame to betransported.
Auto-NegotiationAbility
10M Half-Duplex10M Full-Duplex100M Half-Duplex100M Full-Duplex1000M Full-Duplex
FE: 100M Full-DuplexGE: 1000M Full-Duplex
l Auto-NegotiationAbility specifies theauto-negotiationcapability of theEthernet port.
l For GE optical ports,Auto-NegotiationAbility can be set to1000M Full-Duplexonly.
l Auto-NegotiationAbility is valid onlywhen Working Modeis set to Auto-Negotiation.
Logical Port Attribute Optical PortElectrical Port
- l This parameterspecifies the attributeof the logical port.
l The SFP on theEM6F,EM6FA boardsupports the opticalport and electricalport.
Physical Port Attribute - - This parameter indicatesthe attribute of thephysical port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
359
Parameter Value Range Default Value Description
Traffic MonitoringStatus
EnabledDisabled
Disabled This parameters indicatesthe enabled status of thetraffic monitoringfunction over an Ethernetport.
Traffic MonitoringPeriod (min)
1 to 30 15 This parameter indicatesthe traffic monitoringperiod.
A.5.2.2 Parameter Description: Ethernet Interface_Flow ControlThis topic describes the parameters that are related to flow control.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Interface
Management > Ethernet Interface from the Function Tree.2. Click the Flow Control tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - This parameter indicatesthe port name.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
360
Parameter Value Range Default Value Description
Non-AutonegotiationFlow Control Mode
DisabledEnable Symmetric FlowControl
Disabled l Non-AutonegotiationFlow Control Mode isvalid only whenWorking Mode is notset to Auto-Negotiation.
l Non-AutonegotiationFlow Control Modeof the equipment onthe local side must beconsistent with thenon-autonegotiationflow control mode ofthe equipment on theopposite side
l The OptiX RTN 950supports only two non-auto-negotiation flowcontrol modes,namely, Disabledmode and EnableSymmetric FlowControl mode.
NOTEPort 10 of the EFP8 boarddoes not support thisparameter.
Port 8 of the EMS6 boarddoes not support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
361
Parameter Value Range Default Value Description
Auto-Negotiation FlowControl Mode
DisabledEnable Symmetric FlowControl
Disabled l Auto-NegotiationFlow Control Mode isvalid only whenWorking Mode is setto Auto-Negotiation.
l Auto-NegotiationFlow Control Modeof the equipment onthe local side must beconsistent with theauto-negotiation flowcontrol mode of theequipment on theopposite side
l The OptiX RTN 950supports only twoauto-negotiation flowcontrol modes,namely, Disabledmode and EnableSymmetric FlowControl mode.
NOTEPort 10 of the EFP8 boarddoes not support thisparameter.
Port 8 of the EMS6 boarddoes not support thisparameter.
A.5.2.3 Parameter Description: Ethernet Interface_Layer 2 AttributesThis topic describes the parameters that are related to the Layer 2 attributes.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Interface
Management > Ethernet Interface from the Function Tree.2. Click the Layer 2 Attributes tab.
Parameters on the Main InterfaceNOTE
The parameter Layer 2 Attributes is meaningful only when Port Mode is set to Layer 2.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
362
Parameter Value Range Default Value Description
Port - - This parameter indicatesthe port name.
QinQ Type Domain - - l When EncapsulationType in the GeneralAttributes tab page isset to QinQ, you needto set QinQ TypeDomain. The defaultvalue is 88A8.
l When EncapsulationType in the GeneralAttributes tab page isset to Null or 802.1Q,you cannot set QinQType Domain. In thiscase, QinQ TypeDomain is displayedas FFFF and cannot bechanged.
l QinQ Type Domainshould be set to thesame value for all theports on the EM6T/EM6TA/EM6F/EM6FA board.
TAG Tag AwareAccessHybrid
Tag Aware l If all the accessedservices are frameswith the VLAN tag(tagged frames), setTAG to Tag Aware.
l If all the accessedservices are frameswithout the VLAN tag(untagged frames), setTAG to Access.
l If the accessedservices containtagged frames anduntagged frames, setTAG to Hybrid.
NOTETAG specifies the TAGflag of a port. For detailsabout the TAG flags andassociated frame-processing methods, seeTable A-2.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
363
Parameter Value Range Default Value Description
Default VLAN ID 1 to 4094 1 l Default VLAN ID isvalid only when TAGis set to Access orHybrid.
l Default VLAN ID isset according to theactual situations.
NOTEFor details about thefunctions of Default VLANID, see Table A-2.
VLAN Priority 0 to 7 0 l VLAN Priority isvalid only when TAGis set to Access orHybrid.
l When the VLANpriority is required todivide streams or to beused for otherpurposes, VLANPriority is setaccording to theplanning information.In normal cases, it isrecommended that youuse the default value.
NOTEFor details about thefunctions of VLANPriority, see Table A-2.
Table A-2 Methods used by Ethernet interfaces to process data frames
Port Type of DataFrame
Processing Method
Tag Aware Access Hybrid
Ingress UNI Tagged frame The port receives theframe.
The port discardsthe frame.
The port receivesthe frame.
Untagged frame The port discards theframe.
The ports add theVLAN tag, to whichDefault VLAN IDand VLANPrioritycorrespond, to theframe and receivethe frame.
The ports add theVLAN tag, to whichDefault VLAN IDand VLANPrioritycorrespond, to theframe and receivethe frame.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
364
Port Type of DataFrame
Processing Method
Tag Aware Access Hybrid
Egress UNI Tagged frame The port transmitsthe frame.
The port strips theVLAN tag from theframe and thentransmits the frame.
l If the VLAN IDin the frame isDefault VLANID, the portstrips the VLANtag from theframe and thentransmits theframe.
l If the VLAN IDin the frame isnot DefaultVLAN ID, theport directlytransmits theframe.
A.5.2.4 Parameter Description: Ethernet Port_Layer 3 Attributes
This topic describes the parameters that are related to the Layer 3 attributes of Ethernet ports.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration >
Interface Management > Ethernet Interface from the Function Tree.
2. Click the Layer 3 Attributes tab.
Parameters on the Main InterfaceNOTE
Layer 3 Attributes is valid only if Port Mode is set to Layer 3.
Parameter Value Range Default Value Description
Port - - Displays the port name.
Enable Tunnel DisabledEnabled
Enabled l If Enable Tunnel is setEnabled, a portidentifies andprocesses MPLSlabels.
l Enable Tunnel isavailable if you setPort Mode to Layer 3in the GeneralAttributes tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
365
Parameter Value Range Default Value Description
Specify IP Address ManuallyUnspecified
Unspecified l Specifies the method ofsetting the IP addressof a port.
l The valueUnspecified indicatesthat the IP addresses donot need to beconfigured.
l The value Manuallyindicates that the IPaddress of the port canbe manuallyconfigured.
IP Address - 0.0.0.0 l Specifies the IPaddress of a port.
l This parameter isavailable when SpecifyIP Address isManually.
l The IP addresses ofdifferent ports on theNE cannot be in thesame networksegment, but the IPaddresses of the portsat both ends of theMPLS tunnel must bein the same networksegment.
IP Mask - 255.255.255.252 l Specifies the subnetmask of a port.
l This parameter isavailable when SpecifyIP Address isManually.
A.5.2.5 Parameter Description: Ethernet Interface_Advanced Attributes
This topic describes the parameters that are used for configuring the advanced attributes.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Interface
Management > Ethernet Interface from the Function Tree.
2. Click the Advanced Attributes tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
366
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - This parameter indicatesthe port name.
Port PhysicalParameters
- - This parameter indicatesthe physical parameters ofthe port.
MAC Loopback Non-LoopbackInloop
Non-Loopback l This parameterspecifies the loopbackstate at the MAC layer.When this parameter isset to Inloop, theEthernet signalstransmitted to theopposite end arelooped back.
l In normal cases, it isrecommended that youuse the default value.
PHY Loopback Non-LoopbackInloop
Non-Loopback l This parameterspecifies the loopbackstate at the PHY layer.When this parameter isset to Inloop, theEthernet signalstransmitted to theopposite end arelooped back.
l In normal cases, it isrecommended that youuse the default value.
MAC Address - - This parameter indicatesthe MAC address of theport.
Transmitting Rate(kbit/s)
- - This parameter indicatesthe rate at which the datapackets are transmitted.
Receiving Rate(kbit/s) - - This parameter indicatesthe rate at which the datapackets are received.
Loopback Check EnabledDisabled
Disabled This parameter specifieswhether to enable loopdetection, which is used tocheck whether a loopexists on the port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
367
Parameter Value Range Default Value Description
Loopback Port Block EnabledDisabled
Disabled This parameter indicateswhether to enable the loopport shutdown function.
Egress PIR Bandwidth(Kbit/s)
- - This parameter indicatesthe egress PIR bandwidth.
Broadcast PacketSuppression
DisabledEnabled
Disabled l This parameterspecifies whether tolimit the traffic rate ofthe broadcast packetsaccording to theproportion of thebroadcast packets inthe total packets.When the equipment atthe opposite end mayencounter a broadcaststorm, this parameteris set to Enabled.
l If Ethernet services areE-LAN services, therecommended value isEnabled.
l This parameter takeseffect only for E-LANservices in the ingressdirection.
Broadcast PacketSuppression Threshold
0 to 100 30 When the proportion ofthe broadcast packets inthe total packets exceedsthe value of thisparameter, the receivedbroadcast packets arediscarded. The value ofthis parameter should bemore than the proportionof the broadcast packets inthe total packets beforethe broadcast stormoccurs. In normal cases,this parameter is set todefault value.
Network Cable Mode - - This parameter displaysthe working mode of thenetwork cable connectedto an Ethernet port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
368
A.5.3 Serial Port ParametersThis topic describes the parameters that are related to serial ports.
A.5.3.1 Parameter Description: Serial Port_Basic AttributesThis topic describes the parameters that are related to the basic attributes of series ports.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > Interface Management > Serial Port from the Function Tree.2. Click the General Attributes tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - Displays the name of theport where a serial serviceis configured.
Name - - Specifies or displays thecustomized port name.
Level - - l Specifies or displaysthe serial port level.
l 64K Timeslot: 64 kbit/s timeslots of E1signals can be bound.
NOTEThe OptiX RTN 950supports 64K Timeslotonly.
Used Port - - Displays the physical portthat carries a serialservice.
64K Timeslot - - Displays the timeslots thata serial service occupies.The timeslots can beconsecutive or not.
Port Mode Layer 2Layer 3
Layer 3 l Displays or specifiesthe port mode.
l A port supports ATMencapsulation if itsPort Mode is Layer2. A port does notsupport encapsulationif its Port Mode isLayer 3.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
369
Parameter Value Range Default Value Description
Encapsulation Type - - l Displays and specifiesthe encapsulation typeof a PW.
l When Port Mode isLayer 2, thisparameter displaysATM; when PortMode is Layer 3, thisparameter displaysNull.
A.5.3.2 Parameter Description: Serial Port_Creation of Serial Ports
This topic describes parameters that are used for creating serial ports.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > Interface Management > Microwave Interface from the Function Tree.
2. Click the New tab.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Port Number(e.g:1,3-6) - - Specifies the port wherethe serial service isconfigured.
Name - - Specifies the customizedport name.
Level 64K Timeslot 64K Timeslot l Specifies the serialport level.
l When this parameter isset to 64K Timeslot ,E1 timeslots can bebound.
NOTEThe OptiX RTN 950supports only the parametervalue 64K Timeslot .
Used Board - - Specifies the board wherea serial port is located.
Used Port - - Displays the board wherea serial port is located.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
370
Parameter Value Range Default Value Description
High Channel - - The OptiX RTN 950 doesnot support this parameter.
Low Channel(e.g:1,3-6) - - The OptiX RTN 950 doesnot support this parameter.
64K Timeslot(e.g:1,3-6) - - Specifies the 64 kbit/stimeslots to be bound withthe serial port. Thetimeslots can beconsecutive or not.
A.5.4 Microwave Interface ParametersThis topic describes the parameters that are related to IF_ETH interfaces.
A.5.4.1 Parameter Description: Microwave Interface_Basic AttributesThis topic describes the parameters that are related to the basic attributes of microwaveinterfaces.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Interface
Management > Microwave Interface from the Function Tree.2. Click the Basic Attributes tab.
ParametersParameter Value Range Default Value Description
Port - - This parameter indicates the correspondingIF port.
Name - - This parameter indicates or specifies thecustomized port name.
Port Mode Layer 2Layer 3Layer Mix
Layer 2 l If Port Mode is Layer 2, EncapsulationType can be set to Null, 802.1Q, orQinQ.
l If Port Mode is Layer 3, EncapsulationType can be set to 802.1Q only and theport can carry tunnels.
l If Port Mode is Layer Mix,Encapsulation Type can be set to only802.1Q or QinQ and the port can carryboth tunnels and Native Ethernetservices.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
371
Parameter Value Range Default Value Description
EncapsulationType
Null802.1QQinQ
802.1Q l Encapsulation Type specifies themethod of the port to process thereceived packets.
l If Encapsulation Type is set to Null, theport transparently transmits the receivedpackets.
l If Encapsulation Type is set to802.1Q, the port identifies the packetsthat comply with the IEEE 802.1Qstandard.
l If Encapsulation Type is set to QinQ,the port identifies the packets thatcomply with the IEEE 802.1ad QinQstandard.
A.5.4.2 Parameter Description: Microwave Interface_Layer 2 Attributes
This topic describes the parameters that are related to the Layer 2 attributes of microwaveinterfaces.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Interface
Management > Microwave Interface from the Function Tree.
2. Click the Layer 2 Attributes tab.
Parameters for Layer 2 AttributesNOTE
The parameter Layer 2 Attributes is meaningful only when Port Mode is set to Layer 2.
Parameter Value Range Default Value Description
Port - - This parameter indicates the correspondingIF port.
QinQ TypeDomain
- - l When Encapsulation Type in theGeneral Attributes tab page is set toQinQ, you need to set QinQ TypeDomain. The default value is 88A8.
l When Encapsulation Type in theGeneral Attributes tab page is set toNull or 802.1Q, you cannot set QinQType Domain. In this case, QinQ TypeDomain is displayed as FFFF andcannot be changed.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
372
Parameter Value Range Default Value Description
Tag Tag AwareAccessHybrid
Tag Aware l If all the accessed services are framesthat contain the VLAN tag (taggedframes), set Tag to "Tag Aware".
l If all the accessed services are framesthat do not contain the VLAN tag(untagged frames), set Tag to "Access".
l If the accessed services contain taggedframes and untagged frames, set Tag to"Hybrid".
NOTETag specifies the TAG flag of a port. For detailsabout the TAG flags and associated frame-processing methods, see Table A-3.
Default VLAN ID 1 to 4094 1 l Default VLAN ID is valid only whenTAG is set to Access or Hybrid.
l Default VLAN ID needs to be setaccording to the actual situations.
NOTEFor details about the functions of Default VLANID, see Table A-3.
VLAN Priority 0
1
2
3
4
5
6
7
0 l VLAN Priority is valid only whenTAG is set to Access or Hybrid.
l When the VLAN priority is required todivide streams or to be used for otherpurposes, VLAN Priority needs to be setaccording to the planning information. Innormal cases, it is recommended that youuse the default value.
NOTEFor details about the functions of VLANPriority, see Table A-3.
Table A-3 Data frame processing
Status Type of DataFrame
Processing Method
Tag Aware Access Hybrid
Ingress Port Tagged frame The port receives theframe.
The port discardsthe frame.
The port receivesthe frame.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
373
Status Type of DataFrame
Processing Method
Tag Aware Access Hybrid
Untagged frame The port discards theframe.
The port receivesthe frame after theVLAN tag thatcorresponds to"Default VLAN ID"and "VLANPriority" is added tothe frame.
The port receivesthe frame after theVLAN tag thatcorresponds to"Default VLAN ID"and "VLANPriority" is added tothe frame.
Egress Port Tagged frame The port transmitsthe frame.
The port strips theVLAN tag from theframe and thentransmits the frame.
l If the VLAN IDin the frame is"Default VLANID", the portstrips the VLANtag from theframe and thentransmits theframe.
l If the VLAN IDin the frame isnot "DefaultVLAN ID", theport directlytransmits theframe.
A.5.4.3 Parameter Description: Microwave Interface_Layer 3 AttributesThis topic describes the parameters that are related to the Layer 3 attributes of an IF_ETH port.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > Interface Management > Microwave Interface from the Function Tree.2. Click the Layer 3 Attributes tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - Displays thecorresponding IF port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
374
Parameter Value Range Default Value Description
Enable Tunnel DisabledEnabled
Disabled l A port identifies andprocesses MPLSlabels, if its EnableTunnel is setEnabled.
l Enable Tunnel isavailable if you setPort Mode to Layer3 in the GeneralAttributes tab.
Specify IP Address ManuallyUnspecified
Unspecified l Specifies the methodof setting the IPaddress of a port.
l The valueUnspecified indicatesthat the IP addresses donot need to beconfigured for a port.
l The value Manuallyindicates that the IPaddress of a port can bemanually configured.
IP Address - 0.0.0.0 l Specifies the IPaddress for a port.
l This parameter isavailable whenSpecify IP Address isManually.
l The IP addresses ofdifferent ports on theNE cannot be in thesame networksegment, but the IPaddresses of the portsat both ends of theMPLS tunnel must bein the same networksegment.
IP Mask - 255.255.255.252 l Specifies the subnetmask of a port.
l This parameter isavailable whenSpecify IP Address isManually.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
375
A.5.4.4 Parameter Description: Microwave Interface_Advanced AttributesThis topic describes the parameters that are related to the advanced attributes of microwaveinterfaces.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Interface
Management > Microwave Interface from the Function Tree.2. Click the Advanced Attributes tab.
Parameters for Advanced AttributesParameter Value Range Default Value Description
Port - - This parameter indicates the correspondingIF port.
Radio Link ID 1 to 4094 1 l This parameter specifies the ID of theradio link. As the identifier of a radiolink, this parameter is used to preventincorrect connections of radio linksbetween sites.
l The ID of each radio link of an NE mustbe unique, and the link IDs at both endsof a radio link must be the same.
Received RadioLink ID
- - l This parameter indicates the received IDof the radio link.
l If the value of Received Radio LinkID does not match with the preset valueof Radio Link ID at the local end, thelocal end inserts the AIS signal to thedownstream direction of the service. Atthe same time, the local end reports analarm to the NMS, indicating that the linkIDs do not match.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
376
Parameter Value Range Default Value Description
IF Port Loopback - - l This parameter indicates the loopbackstatus of the IF interface.
l Non-Loopback indicates that theloopback is cancelled or not performed.
l Inloop indicates that the IF signalstransmitted to the opposite end arelooped back.
l Outloop indicates that the received IFsignals are looped back.
l Generally, this parameter is used tolocate the faults that occur at each IFinterface. The IF loopback is used fordiagnosis. If this function is enabled, theservices at the related ports are affected.In normal cases, this parameter is set toNon-Loopback.
Composite PortLoopback
- - l This parameter indicates the loopbackstatus on the composite interface.
l Non-Loopback indicates that theloopback is cancelled or not performed.
l Inloop indicates that the compositesignals transmitted to the opposite endare looped back.
l Outloop indicates that the receivedcomposite signals are looped back.
l In normal cases, this parameter is set toNon-Loopback.
Error FrameDiscard Enabled
EnabledDisabled
Enabled l This parameter indicates or specifieswhether to discard the Ethernet framewhen a CRC error occurs in an Ethernetframe.
l If the Ethernet service transmitted on theIF_ETH port is a voice service or a videoservice, you can set this parameter toDisabled.
MAC Address - - This parameter indicates the MAC addressof the port.
Transmitting Rate(Kbit/s)
- - This parameter indicates the transmit rate ofthe local port.
Receiving Rate(Kbit/s)
- - This parameter indicates the receive rate ofthe local port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
377
Parameter Value Range Default Value Description
MAC Loopback Non-LoopbackInloop
Non-Loopback l This parameter specifies the loopbackstate at the MAC layer. When thisparameter is set to Inloop, the Ethernetsignals transmitted to the opposite endare looped back.
l In normal cases, it is recommended thatyou use the default value.
NOTEThe ISU2 and ISX2 boards can not be set toInloop.
SpeedTransmission atL2
DisabledEnabled
Disabled l If Speed Transmission at L2 is set toEnabled, the Layer-2 Ethernet packetstransmitted at microwave ports will becompressed to improve transmissionefficiency.
l If the Layer 2 header compressionfunction can be enabled for the ISU2 orISX2 board, it is recommended that youset Speed Transmission at L2 toEnabled.
l The settings of Speed Transmission atL2 must be the same at both ends of aradio link.
NOTEThe ISU2 and ISX2 boards support thisparameter.
SpeedTransmission atL3
DisabledEnabled
Disabled l If Speed Transmission at L3 is set toEnabled, the IP packets transmitted atmicrowave ports will be compressed toimprove transmission efficiency.
l If the Layer 3 header compressionfunction can be enabled for the ISU2 orISX2 board, it is recommended that youset Speed Transmission at L3 toEnabled.
l The settings of Speed Transmission atL3 must be the same at both ends of aradio link.
NOTEl The ISU2 and ISX2 boards support this
parameter.
l When Speed Transmission at L3 is set toEnabled, Encapsulation Type of the ISU2and ISX2 boards cannot be set to Null.
Loopback Check DisabledEnabled
Disabled This parameter specifies whether to enableloop detection, which is used to checkwhether a loop exists on the port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
378
Parameter Value Range Default Value Description
Loopback PortShutdown
DisabledEnabled
Disabled This parameter indicates whether to enablethe automatic shut-down of looped ports.
EnablingBroadcast PacketSuppression
DisabledEnabled
Disabled l This parameter specifies whether to limitthe traffic rate of the broadcast packetsaccording to the proportion of thebroadcast packets in the total packets.When the equipment at the opposite endmay encounter a broadcast storm, thisparameter is set to Enabled.
l If Ethernet services are E-LAN services,the recommended value is Enabled.
l This parameter takes effect only for E-LAN services in the ingress direction.
EnablingBroadcast PacketSuppressionThreshold
0 to 100 30 When the proportion of the broadcastpackets in the total packets exceeds the valueof this parameter, the received broadcastpackets are discarded. The value of thisparameter should be more than theproportion of the broadcast packets in thetotal packets before the broadcast stormoccurs. In normal cases, this parameter is setto default value.
A.5.5 IF Board ParametersThis topic describes parameters that are related to IF boards.
A.5.5.1 Parameter Description: IF Interface_IF Attribute
This topic describes the parameters that are related to IF attributes.
Navigation Pathl Select the corresponding board from the Object Tree in the NE Explorer. Choose
Configuration > IF Interface from the Function Tree.
l Click the IF Attributes tab.
Parameters
Parameter Value Range Default Value Description
Port - - This parameter indicates the correspondingIF interface.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
379
Parameter Value Range Default Value Description
Radio Link ID 1,4E1,7MHz,QPSK2,4E1,3.5MHz,16QAM3,8E1,14MHz,QPSK4,8E1,7MHz,16QAM5,16E1,28MHz,QPSK6,16E1,14MHz,16QAM7,STM-1,28MHz,128QAM10,22E1,14MHz,32QAM11,26E1,14MHz,64QAM12,32E1,14MHz,128QAM13,35E1,28MHz,16QAM14,44E1,28MHz,32QAM15,53E1,28MHz,64QAM
- l This parameter indicates or specifies thework mode of the radio link in "workmode number, service capacity, channelspacing, modulation mode" format.
l This parameter is set according to thenetwork plan. The work modes of the IFboards at the two ends of a radio linkmust be the same.
NOTEThe IF1 board supports this parameter.
IF Service Type Hybrid(Native E1+ETH)Hybrid(NativeSTM-1+ETH)SDH
Hybrid(Native E1+ETH)
l Displays or specifies the type of servicescarried by the IF board.
l If the Integrated IP radio transmitsNative E1 services, set this parameter toHybrid(Native E1+ETH).
l If the Integrated IP radio transmitsNative STM-1 services, set thisparameter to Hybrid(Native STM-1+ETH).
l If the SDH radio transmits SDH services,set this parameter to SDH.
NOTEThe ISU2 and ISX2 boards support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
380
Parameter Value Range Default Value Description
Radio Link ID 1 to 4094 1 l Link ID indicates or specifies the ID ofa radio link. As the identifier of a radiolink, this parameter is used to preventincorrect connections of radio linksbetween sites.
l If the value of Received Radio LinkID does not match the preset value ofLink ID at the local end, the local endinserts the AIS signal to the downstreamdirection of the service. At the sametime, the local end reports MW_LIMalarm to the NMS, indicating that the linkIDs do not match.
l Link ID is set according to the networkplan. Each radio link of an NE shouldhave a unique link ID, and the link IDsat both ends of a radio link should be thesame.
Received RadioLink ID
- - l This parameter indicates the received IDof the radio link.
l If the value of Received Radio LinkID does not match the preset value ofRadio Link ID at the local end, the localend inserts the AIS signal to thedownstream direction of the service. Atthe same time, the local end reports analarm to the NMS, indicating that the linkIDs do not match.
l When the radio link becomes faulty, thisparameter is displayed as an invalidvalue.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
381
Parameter Value Range Default Value Description
IF Port Loopback Non-LoopbackInloopOutloop
Non-Loopback l This parameter indicates or specifies theloopback status of the IF interface.
l Non-Loopback indicates that theloopback is cancelled or not performed.
l Inloop indicates that the IF signalstransmitted to the opposite end arelooped back.
l Outloop indicates that the received IFsignals are looped back.
l Generally, IF Port Loopback is used tolocate the faults that occur at each IFinterface. The IF loopback is used fordiagnosis. If this function is enabled, theservices at the related ports are affected.In normal cases, this parameter is set toNon-Loopback.
2M WaysideEnable Statusa
DisabledEnabled
Disabled l This parameter indicates or specifieswhether the radio link transmits thewayside E1 service.
l The wayside E1 service can be supportedby the IF1 board in the7,STM-1,28MHz,128QAM,8,E3,28MHz,QPSK, or 9,E3,14MHz,16QAM mode.
2M Wayside InputBoarda
- - l This parameter indicates or specifies theslot in which the 2M wayside service isaccessed.
l This parameter can be set only when 2MWayside Enable Status is set toEnabled.
l The wayside E1 service can be supportedby the IF1 board in the7,STM-1,28MHz,128QAM,8,E3,28MHz,QPSK, or 9,E3,14MHz,16QAM mode.
350 MHzConsecutive WaveStatus
StopStart
Stop l This parameter indicates or specifies thestatus of transmitting the 350 MHzcarrier signals at the IF interface.
l 350 MHz Consecutive Wave Statuscan be set to Start in the commissioningprocess only. In normal cases, thisparameter is set to Stop. Otherwise, theservices are interrupted.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
382
Parameter Value Range Default Value Description
XPIC Enabledb EnabledDisabled
Enabled l This parameter indicates or specifieswhether the XPIC function of the XPICIF board is enabled.
l If the XPIC IF board does not performthe XPIC function, XPIC Enabledshould be set to Disabled.
Enable IEEE-1588Timeslotc
EnabledDisabled
Disabled Enable IEEE-1588 Timeslot needs to beset consistently between two ends of a radiolink.
NOTE
l a. The IFU2 and IFX2 boards do not support way-side services.
l b. The IFU2, ISU2, and IF1 boards do not support the XPIC function.
l c. The IF1 board does not support the IEEE-1588 timeslot function.
Parameters for Hybrid/AM ConfigurationNOTE
The IF1 board does not support Hybrid/AM configuration.
Parameter Value Range Default Value Description
Port - - This parameter indicates the correspondingIF port.
IF ChannelBandwidth
3.5M7M14M28M40M56M
- IF Channel Bandwidth indicates thechannel spacing of the corresponding radiolink. This parameter is set according to thenetwork plan.NOTEl This parameter is not applicable to the IF1
board.
l The IFU2 board does not support the value40M.
l The IFX2 board does not support the values40M.
l IF Channel Bandwidth can be set to 3.5Monly for the ISU2 board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
383
Parameter Value Range Default Value Description
AM Enable Status DisabledEnabled
Disabled l When AM Enable Status is set toDisabled, the radio link uses only thespecified modulation scheme. In thiscase, you need to select ManuallySpecified Modulation Mode.
l When AM Enable Status is set toEnabled, the radio link uses thecorresponding modulation schemeaccording to the channel conditions.
l Hence, the Integrated IP radio can ensurethe reliable transmission of the E1services and provide bandwidthadaptively for the Ethernet serviceswhen the AM function is enabled.
l The ISX2/ISU2 does not support the AMfunction when IF Service Type isSDH.
l When IF Channel Bandwidth is 3.5Mfor the ISU2 board, the AM function isunavailable and AM Enable Statusmust be set to Disabled.
Modulation Modeof the GuaranteeAM Capacity
QPSK16QAM32QAM64QAM128QAM256QAM
QPSK l This parameter is valid only when AMEnable Status is set to Enabled.
l Modulation Mode of the GuaranteeAM Capacity specifies the lowest-ordermodulation scheme that the AM functionsupports. This parameter is set accordingto the network plan. Generally, the valueof this parameter is determined by theservice transmission bandwidth that theHybrid radio must ensure and theavailability of the radio link thatcorresponds to this modulation scheme.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
384
Parameter Value Range Default Value Description
Modulation Modeof the Full AMCapacity
QPSK16QAM32QAM64QAM128QAM256QAM
QPSK l This parameter is valid only when AMEnable Status is set to Enabled.
l Modulation Mode of the Full AMCapacity specifies the highest-ordermodulation scheme that the AM functionsupports. This parameter is set accordingto the network plan. Generally, the valueof this parameter is determined by thebandwidth of the services that need to betransmitted over the Hybrid radio and theavailability of the radio link thatcorresponds to this modulation scheme.NOTE
Modulation Mode of the Full AMCapacity must be higher than ModulationMode of the Guarantee AM Capacity.
ManuallySpecifiedModulation Mode
QPSK16QAM32QAM64QAM128QAM256QAM
QPSK l This parameter specifies the modulationscheme that the radio link uses for signaltransmission.
l This parameter is valid only when AMEnable Status is set to Disabled.
STM-1 Capacity - - l Specifies the STM-1 capacity of the IFboard.
l This parameter is available only when IFService Type is set to Hybrid(NativeSTM-1+ETH) and SDH.
l If IF Service Type is Hybrid(NativeSTM-1+ETH), this parameter can be setto 0 or 1.
l If IF Service Type is SDH, thisparameter can be set to 1 or 2.
NOTEThe IFU2 and IFX2 boards do not support thisparameter.
Enable E1 Priority DisabledEnabled
Disabled l This parameter specifies whether toenable the E1 priority function.
l This parameter is valid only when AMEnable Status is set to Enabled.
l For the ISU2 and ISX2 boards, thisparameter is available when IF ServiceType is Hybrid(Native E1+ETH).
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
385
Parameter Value Range Default Value Description
Guarantee E1Capacity
- - l If AM Enable Status is set to Enabled,this parameter needs to be set accordingto IF Channel Bandwidth, ModulationMode of the Guarantee AM Capacity,and the actually transmitted services.
l If AM Enable Status is set toDisabled, this parameter needs to be setaccording to IF Channel Bandwidth,Manually Specified ModulationMode, and the actually transmittedservices.
l For the ISU2 and ISX2 boards, thisparameter is available when IF ServiceType is Hybrid(Native E1+ETH).
Guarantee E1Capacity Range
- - Displays the E1 capacity range of the IFboard in guarantee capacity modulationmode.
Data ServiceBandwidth(Mbit/s)
- - Displays the data service bandwidth of theIF board.
Full E1 Capacity - - l This parameter specifies the number oftransmitted E1 services in ModulationMode of the Full AM Capacity.
l This parameter is valid if Enable E1Priority is set to Enabled.
l E1 service bandwidth in full capacitymode ≤ Service bandwidth in fullcapacity mode - Service bandwidth inguarantee capacity mode + E1 servicebandwidth in guarantee capacity mode.In addition, the number of E1 services infull capacity modulation mode should besmaller than or equal to the maximumnumber of E1 services in full capacitymodulation mode.
l The Full E1 Capacity must be set to thesame value at both ends of a radio link.
l For the ISU2 and ISX2 boards, thisparameter is available when IF ServiceType is Hybrid(Native E1+ETH).
Full E1 Capacity - - Displays the E1 capacity range of the IFboard in full capacity modulation mode.
Transmit-EndModulation Mode
- - Displays the modulation mode at thetransmit mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
386
Parameter Value Range Default Value Description
Receive-EndModulation Mode
- - Displays the modulation mode at the receivemode.
Guarantee AMService Capacity(Mbit/s)
- - Displays the guarantee AM service capacity.
Full AM ServiceCapacity(Mbit/s)
- - Displays the full AM service capacity.
Transmitted AMService Capacity(Mbit/s)
- - Displays the transmitted AM servicecapacity.
Received AMService Capacity(Mbit/s)
- - Displays the received AM service capacity.
E1 Capacity ForHigh Priority
- - Displays the number of configured high-priority E1s.
A.5.5.2 Parameter Description: IF Interface_ATPC AttributeThis topic describes the parameters that are related to the ATPC attributes.
Navigation Pathl Select the corresponding board from the Object Tree in the NE Explorer. Choose
Configuration > IF Interface from the Function Tree.l Click the ATPC Attributes tab.
ParametersParameter Value Range Default Value Description
Port - - This parameter indicates the correspondingIF interface.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
387
Parameter Value Range Default Value Description
ATPC EnableStatus
DisabledEnabled
Disabled l This parameter specifies whether theATPC function is enabled.
l When this parameter is set to Enabledand if the RSL at the receive end is 2 dBhigher or lower than the central valuebetween the ATPC upper threshold andthe ATPC lower threshold at the receiveend, the receiver notifies the transmitterto decrease or increase the transmitpower until the RSL is within the rangethat is 2 dB higher or lower than thecentral value between the ATPC upperthreshold and the ATPC lower threshold.
l The settings of the ATPC attributes mustbe consistent at both ends of a radio link.
l In the case of areas where fast fadingseverely affects the radio transmission, itis recommended that you set ATPCEnable Status to Disabled.
l During the commissioning process, setthis parameter to Disabled to ensure thatthe transmit power is not changed. Afterthe commissioning, re-set the ATPCattributes.
ATPC UpperThreshold(dBm)
- -45.0 l Set the central value between the ATPCupper threshold and the ATPC lowerthreshold to a value for the expectedreceive power.
l It is recommended that you set ATPCUpper Threshold(dBm) to the sum ofthe planned central value between theATPC upper threshold and the ATPClower threshold and 10 dB, and ATPCLower Threshold(dBm) to thedifference between the planned centralvalue between the ATPC upper thresholdand the ATPC lower threshold and 10dB.
l You can set the ATPC upper thresholdonly when ATPC AutomaticThreshold(dBm) is set to Disabled.
ATPC LowerThreshold(dBm)
- -70.0
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
388
Parameter Value Range Default Value Description
ATPC AutomaticThreshold EnableStatus
EnabledDisabled
Disabled l This parameter specifies whether theATPC automatic threshold function isenabled.
l If ATPC Automatic Threshold EnableStatus is set to Enabled, the equipmentautomatically uses the preset ATPCupper and lower thresholds according tothe work mode of the radio link.
l If ATPC Automatic Threshold EnableStatus is set to Disabled, you need tomanually set ATPC Upper AutomaticThreshold(dBm) and ATPC LowerAutomatic Threshold(dBm).
ATPC UpperAutomaticThreshold(dBm)
- - l This parameter indicates that theequipment automatically uses the presetATPC upper and lower thresholds.
l This parameter is valid only when ATPCAutomatic Threshold Enable Status isset to Enabled.
ATPC LowerAutomaticThreshold(dBm)
- -
A.5.5.3 Parameter Description: Hybrid_AM Configuration_Advanced AttributesThis section describes the parameters that are used for configuring the advanced attributes.
Navigation Pathl In the NE Explorer, select the IF board, and then choose Configuration > IF Interface
from the Function Tree.l Click the AM Advanced Attributes tab.
ParametersParameter Value Range Default Value Description
Port - - This parameter indicates the correspondingIF interface.
Modulation Mode - - Displays the modulation schemes.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
389
Parameter Value Range Default Value Description
E1 Capacity - - l You can specify the number of E1s thatcan be transmitted in intermediatemodulation scheme, by setting theadvanced attributes correspondingly.
l Generally, it is recommended that thisparameter takes the default value. Toensure that a specific number of E1s canbe transmitted in intermediatemodulation scheme, adjust the E1capacity in each modulation schemeaccording to the network planninginformation.
l If the E1 priority function is enabled, themaximum number of allowed E1services in the current mode = Min{[Bandwidth of the air interface in thecurrent mode - (Bandwidth for theassured capacity - Assured E1 number x2Mbps)]/2Mbps, E1 number in thehighest-gain modulation mode}.
Data ServiceBandwidth(Mbit/s)
- - Displays the data service bandwidth.
A.5.5.4 Parameter Description: ATPC Adjustment Records
This topic describes the parameters that are related to ATPC adjustment records.
Navigation Path
Select the corresponding board from the Object Tree in the NE Explorer. ChooseConfiguration > ATPC Adjustment Records from the Function Tree.
Parameters
Parameter Value Range Default Value Description
Port - - This parameter indicates the port for theATPC adjustment.
Event NO. - - This parameter indicates the number of theATPC adjustment event.
Adjustment Time - - This parameter indicates the time of theATPC adjustment.
AdjustmentDirection
- - This parameter indicates the direction of theadjustment at the port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
390
Parameter Value Range Default Value Description
Switchover - - This parameter indicates the switchingoperation at the port.
TransmittedPower(dBm)
- - This parameter indicates the transmittedpower of the port to be switched.
Received Power(dBm)
- - This parameter indicates the received powerof the port to be switched.
A.5.5.5 Parameter Description: PRBS Test
This topic describes the parameters that are related to the pseudorandom binary sequence (PRBS)test.
Navigation Path
Select the corresponding board from the Object Tree in the NE Explorer. ChooseConfiguration > PRBS Test from the Function Tree.
Parameters
Parameter Value Range Default Value Description
Port - - This parameter indicates the port for thePRBS test.
Direction CrossTributary
Cross l This parameter indicates or specifies thedirection of the PRBS test.
l In the tributary direction, the PRBS testis performed to check the connectivity ofthe cable from the tributary board to theDDF.
l In the cross-connect direction, the PRBStest is performed to check the processingof the service from the tributary board tothe NE at the remote end.
Duration 1 to 255 1 This parameter indicates or specifies theduration of the PRBS test.
Measured Time s10minh
s This parameter indicates or specifies thetime unit used for the PRBS test.
Start Time - - This parameter indicates the start time of thePRBS test.
Progress - - This parameter indicates the progresspercentage of the PRBS test.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
391
Parameter Value Range Default Value Description
Total PRBS - - This parameter indicates the number of biterrors that occur in the PRBS test.
AccumulatingMode
SelectedDeselected
Deselected This parameter specifies whether to displaythe values in accumulative mode. IfAccumulating Mode is selected, itindicates that the values are displayed inaccumulative mode.
A.5.6 ODU ParametersThis topic describes parameters that are related to ODUs.
A.5.6.1 Parameter Description: ODU Interface_Radio Frequency Attribute
This topic describes the parameters that are related to radio frequency attributes of an ODU.
Navigation Pathl Select the ODU from the Object Tree in the NE Explorer. Choose Configuration > ODU
Interface from the Function Tree.l Click the Radio Frequency Attributes tab.
ParametersParameter Value Range Default Value Description
Board - - This parameter indicates the correspondingODU.
TransmitFrequency(MHz)
- - l This parameter indicates or specifies thetransmit frequency of the ODU, namely,the central frequency of the channel.
l The value of Transmit Frequency(MHz) must not be less than the sum ofthe minimum transmit frequencysupported by the ODU and a half of thechannel spacing, and must not be morethan the difference between themaximum transmit frequency supportedby the ODU and a half of the channelspacing.
l The difference between the transmitfrequencies at both ends of a radio linkshould be one T/R spacing.
l This parameter is set according to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
392
Parameter Value Range Default Value Description
T/R Spacing(MHz) - - l This parameter indicates or specifies thespacing between the transmit frequencyand receive frequency of the ODU toprevent mutual interference of thetransmitter and receiver.
l If the ODU is a Tx high station, thetransmit frequency is one T/R spacinghigher than the receive frequency. If theODU is a Tx low station, the transmitfrequency is one T/R spacing lower thanthe receive frequency.
l If the ODU supports only one T/Rspacing, T/R Spacing(MHz) is set to 0,indicating that the T/R spacing supportedby the ODU is used.
l A valid T/R spacing value is determinedby the ODU itself, and T/R Spacing(MHz) should be set according to thetechnical specifications of the ODU.
l The T/R spacing of the ODU should beset to the same value at both ends of aradio link.
Actual TransmitFrequency(MHz)
- - This parameter indicates the actual transmitfrequency of the ODU.
Actual ReceiveFrequency(MHz)
- - This parameter indicates the actual receivefrequency of the ODU.
Actual T/RSpacing(MHz)
- - This parameter indicates the actual T/Rspacing of the ODU.
The range offrequency point(MHz)
- - This parameter indicates the working rangeof the frequency of the ODU.
A.5.6.2 Parameter Description: ODU Interface_Power AttributesThis topic describes the parameters that are used for configuring the power attributes of theODU.
Navigation Pathl Select the ODU from the Object Tree in the NE Explorer. Choose Configuration > ODU
Interface from the Function Tree.l Click the Power Attributes tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
393
ParametersParameter Value Range Default Value Description
Board - - This parameter indicates the correspondingODU.
MaximumTransmit Power(dBm)
- - l Maximum Transmit Power(dBm) isset according to the network plan. Thisparameter cannot be set to a value thatexceeds the nominal power rang of theODU in the guaranteed capacitymodulation module.
l This parameter is set to limit themaximum transmit power of the ODUwithin this preset range.
l The maximum transmit power adjustedby using the ATPC function should notexceed Maximum Transmit Power(dBm).
Transmit Power(dBm)
- - l Transmit Power(dBm) is set accordingto the network plan. This parameterspecifies the transmit power of the ODU.This parameter cannot be set to a valuethat exceeds the nominal power rang ofthe ODU or a value that exceedsMaximum Transmit Power(dBm).
l It is recommended that you set thetransmit power of the ODU to the samevalue at both ends of a radio link.
l Consider the receive power of the ODUat the opposite end when you set thisparameter. Ensure that the receive powerof the ODU at the opposite end canensure stable radio services.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
394
Parameter Value Range Default Value Description
Power to BeReceived(dBm)
-90.0 to -20.0 -10.0 l Power to Be Received(dBm) is used toset the expected receive power of theODU and is mainly used in the antennaalignment stage. After this parameter isset, the NE automatically enables theantenna misalignment indicatingfunction.
l When the antenna misalignmentindicating function is enabled, if theactual receive power of the ODU is 3 dBlower than the power expected to bereceived, the ODU indicator on the IFboard connected to the ODU blinksyellow (300 ms on, 300 ms off),indicating that the antenna is not aligned.
l After the antenna alignment, after thestate that the antenna is aligned lasts for30 minutes, the NE automaticallydisables the antenna misalignmentindicating function.
l Power to Be Received(dBm) is setaccording to the network plan. When thisparameter takes the default value, theantenna misalignment indicatingfunction is disabled.
TX HighThreshold(dBm)
- - l If the value of the actual transmit powerof the ODU is greater than the presetvalue of TX High Threshold(dBm), thesystem separately records the durationwhen the value of the actual transmitpower of the ODU is greater than thepreset value of TX High Threshold(dBm) and the duration when the valueof the actual transmit power of the ODUis greater than the preset value of TXLow Threshold(dBm) in theperformance events.
l If the value of the actual transmit powerof the ODU is greater than the presetvalue of TX Low Threshold(dBm) andis lower than the preset value of TX HighThreshold(dBm), the system recordsthe duration when the value of the actualtransmit power of the ODU is greaterthan the preset value of TX LowThreshold(dBm) in the performanceevents.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
395
Parameter Value Range Default Value Description
TX Low Threshold(dBm)
- - l If the value of the actual transmit powerof the ODU is lower than the preset valueof TX Low Threshold(dBm), thesystem does not record it.
l TX High Threshold(dBm) and TXLow Threshold(dBm) are valid onlywhen the ATPC function is enabled.
RX HighThreshold(dBm)
- - l If the value of the actual receive powerof the ODU is lower than the preset valueof RX Low Threshold(dBm), thesystem records the duration when thevalue of the actual receive power of theODU is lower than the preset value ofRX Low Threshold(dBm) and durationwhen the value of the actual transmitpower of the ODU is lower than thepreset value of RX High Threshold(dBm)in the performance events.
l If the value of the actual receive powerof the ODU is greater than the presetvalue of RX Low Threshold(dBm) andis lower than the preset value of RX HighThreshold(dBm), the system recordsthe duration when the value of the actualreceive power of the ODU is Lower thanthe preset value of RX High Threshold(dBm) in the performance events.
l If the value of the actual receive powerof the ODU is greater than the preset
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
396
Parameter Value Range Default Value Description
RX Low Threshold(dBm)
- - value of RX High Threshold(dBm), thesystem does not record it.
Actual TransmitPower(dBm)
- - l This parameter indicates the actualtransmit power of the ODU.
l If the ATPC function is enabled, thequeried actual transmit power may bedifferent from the preset value.
Actual ReceivePower(dBm)
- - This parameter indicates the actual receivepower of the ODU.
Actual range ofPower(dBm)
- - This parameter indicates the range of theactual transmit power of the ODU.
TransmissionPower Type
- - This parameter indicates the level of theoutput power of the ODU.
A.5.6.3 Parameter Description: ODU Interface_Equipment InformationThis topic describes the parameters that are used for configuring the equipment information ofthe ODU.
Navigation Pathl Select the corresponding board from the Object Tree in the NE Explorer. Choose
Configuration > ODU Interface from the Function Tree.l Click the Equipment Information tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
397
Parameters
Parameter Value Range Default Value Description
Board - - This parameter indicates the correspondingODU.
Frequency(GHz) - - This parameter indicates the frequency bandwhere the ODU operates.
Equipment Type - - l This parameter indicates the equipmenttype of the ODU.
l PDH and SDH indicate the transmissioncapacity only and are irrelevant to thetype of transmitted service.
T/R Spacing(MHz) - - This parameter indicates the T/R spacing ofthe ODU.
IntermediateFrequencyBandwidth (MHz)
- - This parameter indicates the IF frequencybandwidth of the ODU.
IF BandwidthType
- - Displays the IF bandwidth type.
Station Type - - l This parameter indicates whether theODU is a Tx high station or a Tx lowstation.
l The transmit frequency of a Tx highstation is one T/R spacing higher than thetransmit frequency of a Tx low station.
TransmissionPower Type
- - This parameter indicates the level of theoutput power of the ODU.
Produce Time - - This parameter indicates the manufacturingtime of the ODU.
Produce SN - - This parameter indicates the manufacturingserial number and the manufacturer code ofthe ODU.
A.5.6.4 Parameter Description: ODU Interface_Advanced Attributes
This topic describes the parameters that are used for configuring the advanced attributes of theODU.
Navigation Pathl Select the ODU from the Object Tree in the NE Explorer. Choose Configuration > ODU
Interface from the Function Tree.
l Click the Advanced Attributes tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
398
Parameters
Parameter Value Range Default Value Description
Board - - This parameter indicates the correspondingODU.
RF Loopback Non-LoopbackInloop
Non-Loopback l This parameter indicates or specifies theloopback status of the RF interface of theODU.
l Non-Loopback indicates that theloopback is canceled or not performed.
l Inloop indicates that the RF signalstransmitted to the opposite end arelooped back.
l RF Loopback function is used for faultlocating for the RF interfaces. The RFLoopback function is used for diagnosisand may affect the services that aretransmitted over the interfaces. Hence,exercise caution before starting thisfunction.
l In normal cases, RF Loopback is set toNon-Loopback.
ConfigureTransmissionStatus
unmutemute
unmute l This parameter indicates or specifies thetransmit status of the ODU.
l If Configure Transmission Status is setto mute, the transmitter of the ODU doesnot work but can normally receivemicrowave signals.
l If Configure Transmission Status is setto unmute, the ODU can normallytransmit and receive microwave signals.
l In normal cases, ConfigureTransmission Status is set to unmute.
ActualTransmissionStatus
- - Displays the ODU manufacturerinformation.
FactoryInformation
- - This parameter indicates the manufacturerinformation about the ODU.
Remarks - - Specifies the remarks of the ODU.
A.5.7 Parameters for SDH Interface BoardsThis topic describes parameters that are related to SDH interface boards.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
399
A.5.7.1 Parameter Description: SDH InterfacesThis topic describes the parameters that are related to the SDH interfaces.
Navigation Path1. Select the corresponding board from the Object Tree in the NE Explorer. Choose
Configuration > SDH Interface from the Function Tree.2. Select By Board/Port(Channel), and select Port or VC4 Channel from the list box.
ParametersParameter Value Range Default Value Description
Port - - This parameter indicates the correspondingSDH interface.
Optical InterfaceNamea
- - This parameter indicates or specifies thename of the optical interface.
Laser Switcha OnOff
On l This parameter indicates or specifies theon/off state of the laser.
l This parameter is set for SDH opticalinterfaces only.
l In normal cases, this parameter is set toOn.
Optical(Electrical)InterfaceLoopbacka
Non-LoopbackInloopOutloop
Non-Loopback l This parameter indicates or specifies theloopback status on the SDH interface.
l Non-Loopback indicates that theloopback is canceled or not performed.
l Inloop indicates that the SDH signalstransmitted to the opposite end arelooped back.
l Outloop indicates that the received SDHsignals are looped back.
l This function is used for fault locatingfor the SDH interfaces. The Optical(Electrical) Interface Loopbackfunction is used for diagnosis and mayaffect the services that are transmittedover the interfaces. Hence, exerciseprecaution before starting this function.
l In normal cases, this parameter is set toNon-Loopback.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
400
Parameter Value Range Default Value Description
VC4 Loopbackb Non-LoopbackInloopOutloop
Non-Loopback l This parameter indicates or specifies theloopback status in the VC-4 path.
l Non-Loopback indicates that theloopback is canceled or not performed.
l Inloop indicates that the VC-4 signalstransmitted to the opposite end arelooped back.
l Outloop indicates that the receivedVC-4 signals are looped back.
l This function is used for fault locatingfor the VC-4 paths. The VC4Loopback function is used for diagnosisand may affect the services that aretransmitted over the interfaces. Hence,exercise precaution before starting thisfunction.
l In normal cases, this parameter is set toNon-Loopback.
NOTE
l a: Indicates the parameters that are supported when Port is selected from the list box.
l b: Indicates the parameters that are supported when VC4 Channel is selected from the list box.
A.5.7.2 Parameter Description: Automatic Laser ShutdownThis topic describes the parameters that are related to the automatic laser shutdown (ALS)function.
Navigation PathSelect the corresponding board from the Object Tree in the NE Explorer. ChooseConfiguration > Automatic Laser Shutdown from the Function Tree.
ParametersParameter Value Range Default Value Description
Optical Interface - - This parameter indicates the correspondingoptical interface.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
401
Parameter Value Range Default Value Description
Auto Shutdown DisabledEnabled
Disabled l This parameter indicates or specifieswhether the Auto Laser Shutdownfunction is enabled or disabled for thelaser.
l The ALS function allows the laser to shutdown automatically when an optical portdoes not carry services, an optical fiberis broken, or no optical signal is received.
l You can set On Period(ms), Off Period(ms), and Continuously On-test Period(ms) only when this parameter is set toEnabled.
On Period(ms) 1000 to 3000 2000 This parameter indicates or specifies theperiod when a shutdown laser automaticallystarts up and tests whether the optical fiberis normal.
Off Period(ms) 2000 to 300000 60000 This parameter indicates or specifies theperiod when the laser does not work (withthe ALS function being enabled).
Continuously On-test Period(ms)
2000 to 300000 90000 This parameter indicates or specifies theperiod when a shutdown laser is manuallystarted up and tests whether the optical fiberis normal.
A.5.8 Parameters for PDH Interface BoardsThis topic describes parameters that are related to PDH interface boards.
A.5.8.1 Parameter Description: PDH PortsThis topic describes the parameters that are related to the PDH ports.
Navigation Path1. Select the corresponding board from the Object Tree in the NE Explorer. Choose
Configuration > PDH Interface from the Function Tree.2. Select By Board/Port(Channel).3. Select Port from the list box.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
402
ParametersParameter Value Range Default Value Description
Port - - This parameter indicates the correspondingport.
Port Name - - This parameter indicates or specifies thename of the port.
TributaryLoopback
Non-LoopbackInloopOutloop
Non-Loopback l This parameter indicates or specifies theloopback status in the associated path ofthe tributary unit.
l Non-Loopback indicates that theloopback is canceled or not performed.
l Inloop indicates that the PDH signalstransmitted to the opposite end arelooped back.
l Outloop indicates that the received PDHsignals are looped back.
l This function is used for fault locatingfor the paths of the tributary unit. TheTributary Loopback function is usedfor diagnosis and may affect the servicesthat are transmitted over the interfaces.Hence, exercise precaution beforestarting this function.
l In normal cases, this parameter is set toNon-Loopback.
Port Impedance - - This parameter indicates the impedance of apath, which depends on the tributary unit.
Service LoadIndication
LoadNon-Loaded
Load l This parameter indicates or specifies theservice loading status in a specific path.
l When this parameter is set to Load, theboard detects whether alarms exist in thepath.
l When this parameter is set to Non-Loaded, the board does not detectwhether there are alarms in the path.
l If a path does not carry any services, youcan set this parameter to Non-Loadedfor the path to mask all the alarms. If apath carries services, you need to set thisparameter to Load for the path.
Input SignalEqualization
UnequalizedEqualized
Unequalized l This parameter indicates whether theinput signals are equalized.
l It is recommended that you set thisparameter to default value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
403
Parameter Value Range Default Value Description
Retiming Mode NormalRetiming Mode ofTributary ClockRetiming Mode ofCross-ConnectClock
Normal l This parameter indicates or specifies theretiming mode of a specific path.
l By using the retiming function, theretiming reference signal from the SDHnetwork and the service data signal arecombined and then sent to the clientequipment, therefore decreasing theoutput jitter in the signal. In this way, theretiming function ensures that the servicecode flow can normally transfer theretiming reference signal.
l When this parameter is set to Normal,the retiming function is not used.
l When this parameter is set to RetimingMode of Tributary Clock, the retimingfunction is used with the clock of theupstream tributary unit traced.
l When this parameter is set to RetimingMode of Cross-Connect Clock, theretiming function is used with the clockof the cross-connect unit traced.
l It is recommended that the externalclock, instead of the retiming function,should be used to provide referenceclock signals for the equipment.
l If the retiming function is required, it isrecommended that you set this parameterto Retiming Mode of Cross-connectClock.
Port Service Type - - This parameter indicates the type of servicesthat are processed in a path. It depends onthe services that are transmitted in a path.
Output SignalEqualization
UnequalizedEqualized
Unequalized l This parameter indicates whether theoutput signals are equalized.
l It is recommended that you use thedefault value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
404
Parameter Value Range Default Value Description
E1 Frame Format UnframeDouble FrameCRC-4 Multiframe
Unframe Specifies the E1 frame format for E1 ports.l To detect E1 BER performance on the
OptiX RTN 950, set E1 FrameFormat of the local E1 port to the samevalue as that of the opposite E1 port. It isrecommended that E1 Frame Format ofboth the local and opposite E1 ports beCRC-4 Multiframe.
l In other scenarios wherein the OptiXRTN 950 is used, it is recommended thatE1 Frame Format take its default valueUnframe. If E1 Frame Format isUnframe, the OptiX RTN 950transparently transmits E1 frames andthe local E1 port allows forinterconnection with another E1 portwhose E1 Frame Format is DoubleFrame or CRC-4 Multiframe.
NOTEE1 Frame Format needs to be set to the samevalue at both ends of an E1 link.
A.5.8.2 Parameter Description: PRBS TestThis topic describes the parameters that are related to the pseudorandom binary sequence (PRBS)test.
Navigation PathSelect the corresponding board from the Object Tree in the NE Explorer. ChooseConfiguration > PRBS Test from the Function Tree.
ParametersParameter Value Range Default Value Description
Port - - This parameter indicates the port for thePRBS test.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
405
Parameter Value Range Default Value Description
Direction CrossTributary
Cross l This parameter indicates or specifies thedirection of the PRBS test.
l In the tributary direction, the PRBS testis performed to check the connectivity ofthe cable from the tributary board to theDDF.
l In the cross-connect direction, the PRBStest is performed to check the processingof the service from the tributary board tothe NE at the remote end.
Duration 1 to 255 1 This parameter indicates or specifies theduration of the PRBS test.
Measured Time s10minh
s This parameter indicates or specifies thetime unit used for the PRBS test.
Start Time - - This parameter indicates the start time of thePRBS test.
Progress - - This parameter indicates the progresspercentage of the PRBS test.
Total PRBS - - This parameter indicates the number of biterrors that occur in the PRBS test.
AccumulatingMode
SelectedDeselected
Deselected This parameter specifies whether to displaythe values in accumulative mode. IfAccumulating Mode is selected, itindicates that the values are displayed inaccumulative mode.
A.5.9 Parameters for OverheadThis topic describes the parameters that are related to overhead.
A.5.9.1 Parameter Description: Regenerator Section Overhead
This topic describes the parameters that are related to the regenerator section overheads(RSOHs).
Navigation Path1. Select an SDH interface board in the NE Explorer Choose Configuration > Overhead
Management > Regenerator Section Overhead from the Function Tree.
2. Choose Display in Text Format or Display in Hexadecimal.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
406
Parameters for Setting the Display Format
Parameter Value Range Default Value Description
Display in TextFormat
SelectedDeselected
Selected This parameter specifies the display in thetext format.
Display inHexadecimal
SelectedDeselected
Deselected This parameter specifies the display in thehexadecimal format.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Object - - This parameter indicates the object to be set.
J0 to be Sent([Mode]Content)
- [16 Bytes]HuaWeiSBS
If the NE at the opposite end reports theJ0_MM alarm, this parameter is setaccording to the J0 byte to be received at theopposite end.
J0 to be Received([Mode]Content)
- [Disabled] l This parameter specifies the J0 byte to bereceived.
l If this parameter is set to [Disabled], theboard does not monitor the received J0byte.
l It is recommended that you use thedefault value.
J0 Received([Mode]Content)
- - This parameter indicates the J0 byte that isactually received.
A.5.9.2 Parameter Description: VC-4 POHs
This topic describes the parameters that are related to the VC-4 path overheads (POHs).
Navigation Path1. Select SDH interface board from the Object Tree in the NE Explorer. Choose
Configuration > Overhead Management > VC4 Path Overhead from the Function Tree.
2. Choose Display in Text Format or Display in Hexadecimal.
Parameters for Setting the Display Format
Parameter Value Range Default Value Description
Display in TextFormat
SelectedDeselected
Selected This parameter specifies the display in thetext format.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
407
Parameter Value Range Default Value Description
Display inHexadecimal
SelectedDeselected
Deselected This parameter specifies the display in thehexadecimal format.
Parameters for the Trace Byte J1Parameter Value Range Default Value Description
Object - - This parameter indicates the object to be set.
J1 to be Sent([Mode]Content)
- [16 Bytes]HuaWeiSBS
If the NE at the opposite end reports theHP_TIM alarm, this parameter is setaccording to the J1 byte to be received at theopposite end.
J1 to be Received([Mode]Content)
- [Disabled] l If this parameter is set to [Disabled], theboard does not monitor the received J1byte.
l It is recommended that you use thedefault value.
J1 Received([Mode]Content)
- - This parameter displays the J1 byte that isactually received.
Parameters for the Signal Flag C2Parameter Value Range Default Value Description
Object - - This parameter indicates the object to be set.
C2 to be Sent - - If the NE at the opposite end reports theHP_SLM alarm, this parameter is setaccording to the C2 byte to be received at theopposite end.
C2 to be Received - - If the NE at the local end reports theHP_SLM alarm, this parameter is setaccording to the C2 byte to be sent at theopposite end.
C2 Received - - This parameter displays the C2 byte that isactually received.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
408
Parameters for Overhead TerminationParameter Value Range Default Value Description
Object - - This parameter indicates the object to be set.
VC4 OverheadTermination
TerminationPass-ThroughAuto
Auto l If this parameter is set to Pass-Through, the NE forwards the originaloverhead after monitoring the VC-4 pathoverhead regardless of the C2 byte.
l If this parameter is set to Termination,the NE generates the new VC-4 pathoverhead according to the board settingafter monitoring the VC-4 path overheadregardless of the C2 byte.
l If this parameter is set to Auto, the VC-4path overhead in the VC-4 pass-throughservice is passed through, and the VC-4path overhead in the VC-12 service isterminated.
l It is recommended that you use thedefault value.
A.5.9.3 Parameter Description: VC-12 POHsThis topic describes the parameters that are related to the VC-12 path overheads (POHs).
Navigation Path1. Select the corresponding board from the Object Tree in the NE Explorer. Choose
Configuration > Overhead Management > VC12 Path Overhead from the FunctionTree.
2. Choose Display in Text Format or Display in Hexadecimal.
Parameters for Setting the Display FormatParameter Value Range Default Value Description
Display in TextFormat
SelectedDeselected
Selected This parameter specifies the display in thetext format.
Display inHexadecimal
SelectedDeselected
Deselected This parameter specifies the display in thehexadecimal format.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
409
Parameters for the Trace ByteParameter Value Range Default Value Description
Object - - This parameter indicates the object to be set.
J2 to be Sent - [16 Bytes]HuaWeiSBS
If the NE at the opposite end reports theLP_TIM or LP_TIM_VC12 alarm, thisparameter is set according to the J2 byte tobe received by the NE at the opposite end.
J2 to be Received - [Disabled] l If this parameter is set to [Disabled], theboard does not monitor the received J2byte.
l It is recommended that you use thedefault value.
NOTEIF boards do not support this parameter.
J2 Received - - This parameter displays the J2 byte that isactually received.
Parameters for the Signal FlagParameter Value Range Default Value Description
Object - - This parameter indicates the object to be set.
Signal Label(L1,L2,L3 of V5) tobe Sent
- - If the NE at the opposite end reports theLP_SLM or LP_SLM_VC12 alarm, thisparameter is set according to the V5 byte tobe received at the opposite end.
Signal Label(L1,L2,L3 of V5) tobe Received
- - If the NE at the local end reports theLP_SLM or LP_SLM_VC12 alarm, thisparameter is set according to the V5 byte tobe sent at the opposite end.NOTE
IF boards do not support this parameter.
Signal Label(L1,L2,L3 of V5)Received
- - This parameter displays the V5 byte that isactually received.
A.5.10 Parameter Description: Ethernet Virtual InterfacesThis topic describes the parameters of Ethernet virtual interfaces.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
410
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and choose
Configuration > Interface Management > Ethernet Virtual Interface from the FunctionTree.
2. Click the Basic Attributes tab.3. Choose New > Create Ethernet Virtual Interface.
Basic Attributes of Ethernet Virtual InterfacesParameter Value Range Default Value Description
Port 1 to 8191 - This parameter displays or specifies the portnumber of an Ethernet virtual interface.
Name - - This parameter displays or specifies the portname of an Ethernet virtual interface.
Port Type EoA VirtualInterfaceVLAN Sub Interface
EoA VirtualInterface
This parameter displays or specifies the porttype of an Ethernet virtual interface.The OptiX RTN 950 allows Port Type to beset to VLAN Sub Interface only.
Board - - This parameter displays or specifies theboard where an Ethernet virtual interface islocated.
Port - - This parameter displays or specifies the portwhere an Ethernet virtual interface islocated.
VPI - - Setting this parameter is not available.
VCI - - Setting this parameter is not available.
AAL5EncapsulationType
- - Setting this parameter is not available.
VLAN - - This parameter specifies the VLAN ID thatan Ethernet virtual interface uses.This parameter can be set when Port Typeis VLAN Sub Interface.
Specify IP Address ManuallyUnspecified
Unspecified This parameter specifies whether to set theIP address for a port.l Unspecified: indicates that the IP
address will not be specified for a port.l Manually: indicates that the IP address
will be specified for a port. If thespecified IP address is a valid value, itwill become the IP address of this port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
411
Parameter Value Range Default Value Description
IP Address - 0.0.0.0 This parameter specifies the IP address of aport.l This parameter can be set only when
Specify IP Address is Manually.l The IP addresses of different ports on an
NE must be in different networksegments, but the IP addresses of theports at both ends of an MPLS tunnelmust be in the same network segment.
IP Mask - 255.255.255.252 This parameter specifies the subnet mask fora port.This parameter can be set only when SpecifyIP Address is Manually.
Enable Tunnel EnabledDisabled
Disabled This parameter specifies whether to enablean MPLS tunnel.This parameter specifies the MPLS enabledstatus for a port. If you set Enable Tunnelto Enabled for a port, the port identifies andprocesses MPLS labels.
MAC Address - - This parameter displays the port MACaddress of an Ethernet virtual interface.
Layer 3 AttributesParameter Value Range Default Value Description
Port - - This parameter displays an IF port.
Enable Tunnel EnabledDisabled
Disabled This parameter displays or specifies whetherto enable an MPLS tunnel.Set the MPLS enabled status for a port. Ifyou set Enable Tunnel to Enabled, the portidentifies and processes MPLS labels.
Specify IPAddress
ManuallyUnspecified
Unspecified This parameter displays or specifies whetherto set the IP address for a port.l Unspecified: indicates that the IP
address will not be specified for a port.l Manually: indicates that the IP address
will be specified for a port. If thespecified IP address is a valid value, itwill become the IP address of this port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
412
Parameter Value Range Default Value Description
IP Address - 0.0.0.0 This parameter displays or specifies the IPaddress of a port.l This parameter can be set only when
Specify IP Address is Manually.l The IP addresses of different ports on an
NE must be in different networksegments, but the IP addresses of theports at both ends of an MPLS tunnelmust be in the same network segment.
IP Mask - 255.255.255.252 This parameter displays or specifies thesubnet mask of a port.This parameter can be set only when SpecifyIP Address is Manually.
A.6 Parameters for Ethernet Services and Ethernet Featureson the Packet Plane
This section describes the parameters for the Ethernet services and Ethernet features on thepacket plane, including service parameters, protocol parameters, OAM parameters, Ethernet portparameters, and QoS parameters.
A.6.1 Parameters for Ethernet ServicesThis topic describes the parameters that are related to Ethernet services.
A.6.1.1 Parameter Description: E-Line Service_CreationThis topic describes the interface parameters that are used for creating an Ethernet line (E-Line)service.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Service Management > E-Line Service from the Function Tree.2. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
413
Parameters on the Main Interface
Table A-4 Service direction of UNI-UNI
Parameter Value Range Default Value Description
Service ID 1 to 4294967294 - This parameter specifiesthe ID of the E-Lineservice.
Service Name - - This parameter specifiesthe name of the E-Lineservice.
Direction UNI-UNIUNI-NNINNI-NNI
UNI-UNI l This parameterspecifies the directionof the E-Line service.
l Set this parameter toUNI-UNI.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
414
Parameter Value Range Default Value Description
BPDU Not TransparentlyTransmittedTransparentlyTransmitted
Not TransparentlyTransmitted
l This parameterspecifies thetransparenttransmission ID of thebridge protocol dataunit (BPDU) packets.It is used to indicatewhether the E-Lineservice transparentlytransmits the BPDUpackets.
l If the BPDU packetsare used as the servicepackets andtransparentlytransmitted to theopposite end, set thisparameter toTransparentlyTransmitted. That is,the parameter valueTransparentlyTransmitted takeseffect only ifEncapsulation Typeof the source and sinkports of the E-Lineservice are Null.
l In other cases, set thisparameter to NotTransparentlyTransmitted.
l This parameter is setaccording to theplanning information.
MTU(bytes) - - This parameter cannot beset here.
Service Tag Role - - The OptiX RTN 950 doesnot support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
415
Parameter Value Range Default Value Description
Source Port - - l Before setting thisparameter, check andensure that theattributes in EthernetInterface of the portare set correctly andare the same as theplanning information.
l The value of thisparameter cannot bethe same as the valueof sink port.
l The value of thisparameter cannot beused for the E-LANport.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
416
Parameter Value Range Default Value Description
Source VLANs 1 to 4094 - l This parameter can beset to null, a number,or several numbers.When setting thisparameter to severalnumbers, use thecomma (,) to separatethe discrete numbers,or use the endash (-) torepresent aconsecutive number.For example, thenumbers 1, and 3-6indicate 1, 3, 4, 5, and6.
l The number and valueof VLANs must be thesame value of SinkVLANs.
l If this parameter is setto null, all the servicesat the source port areused as the servicesource.
l If this parameter is notset to null, only theservice that containsthe VLAN ID at thesource port can be usedas the service source.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
417
Parameter Value Range Default Value Description
Sink Port - - l Before setting thisparameter, check andensure that theattributes in EthernetInterface of the portare set correctly andare the same as theplanning information.
l The value of thisparameter cannot bethe same as the valueof Source Port.
l The value of thisparameter cannot beused for the E-LANport.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
418
Parameter Value Range Default Value Description
Sink VLANs 1 to 4094 - l This parameter can beset to null, a number,or several numbers.When setting thisparameter to severalnumbers, use thecomma (,) to separatethe discrete numbers,or use the endash (-) torepresent aconsecutive number.For example, thenumbers 1, and 3-6indicate 1, 3, 4, 5, and6.
l The number and valueof VLANs must be thesame value of SourceVLANs.
l If this parameter is setto null, all the servicesat the sink port areused as the servicesink.
l If this parameter is notset to null, only theservice that containsthe VLAN ID at thesink port can be usedas the service sink.
Table A-5 Service direction of UNI-NNI (carried by PWs)
Parameter Value Range Default Value Description
Service ID 1 to 4294967294 - This parameter specifiesthe ID of the E-Lineservice.
Service Name - - This parameter specifiesthe name of the E-Lineservice.
Direction UNI-UNIUNI-NNINNI-NNI
UNI-UNI l This parameterspecifies the directionof the E-Line service.
l Set this parameter toUNI-NNI.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
419
Parameter Value Range Default Value Description
BPDU Not TransparentlyTransmittedTransparentlyTransmitted
Not TransparentlyTransmitted
For UNI-NNI ETHPWE3 services, theparameter value is alwaysNot TransparentlyTransmitted.
MTU(bytes) - - This parameter cannot beset here.
Service Tag Role - - The OptiX RTN 950 doesnot support thisparameter.
Source Port - - l Before setting thisparameter, check andensure that theattributes in EthernetInterface of the portare set correctly andare the same as theplanning information.
l The value of thisparameter cannot bethe same as the valueof sink port.
l The value of thisparameter cannot beused for the E-LANport.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
420
Parameter Value Range Default Value Description
Source VLANs 1 to 4094 - l This parameter can beset to null, a number,or several numbers.When setting thisparameter to severalnumbers, use thecomma (,) to separatethe discrete numbers,or use the endash (-) torepresent aconsecutive number.For example, thenumbers 1, and 3-6indicate 1, 3, 4, 5, and6.
l If this parameter is setto null, all the servicesat the source port areused as the servicesource.
l If this parameter is notset to null, only theservice that containsthe VLAN ID at thesource port can beused as the servicesource.
PRI - - The OptiX RTN 950 doesnot support thisparameter.
Bearer Type QinQ LinkPW
PW For UNI-NNI ETHPWE3 services, theparameter value is alwaysPW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
421
Parameter Value Range Default Value Description
Protection Type No ProtectionPW APSSlave Protection Pair
No Protection l If this parameter is setto PW APS, workingand protection PWsneed to be configured.
l If this parameter is setto Slave ProtectionPair, you need to bindthe slave PW APSprotection group withthe master PW APSprotection group. Theswitching of themaster PW APSprotection grouptriggers the switchingof the slave PW APSprotection groupsimultaneously.
Table A-6 Service direction of UNI-NNI (carried by QinQ links)
Parameter Value Range Default Value Description
Service ID 1 to 4294967294 - This parameter specifiesthe ID of the E-Lineservice.
Service Name - - This parameter specifiesthe name of the E-Lineservice.
Direction UNI-UNIUNI-NNINNI-NNI
UNI-UNI l This parameterspecifies the directionof the E-Line service.
l Set this parameter toUNI-NNI.
BPDU Not TransparentlyTransmittedTransparentlyTransmitted
Not TransparentlyTransmitted
For UNI-NNI QinQservices, the parametervalue is always NotTransparentlyTransmitted.
MTU(bytes) - - This parameter cannot beset here.
Service Tag Role - - The OptiX RTN 950 doesnot support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
422
Parameter Value Range Default Value Description
Source Port - - l Before setting thisparameter, check andensure that theattributes in EthernetInterface of the portare set correctly andare the same as theplanning information.
l The value of thisparameter cannot bethe same as the valueof sink port.
l The value of thisparameter cannot beused for the E-LANport.
l This parameter is setaccording to theplanning information.
Source VLANs 1 to 4094 - l This parameter can beset to null, a number,or several numbers.When setting thisparameter to severalnumbers, use thecomma (,) to separatethe discrete numbers,or use the endash (-) torepresent aconsecutive number.For example, thenumbers 1, and 3-6indicate 1, 3, 4, 5, and6.
l If this parameter is setto null, all the servicesat the source port areused as the servicesource.
l If this parameter is notset to null, only theservice that containsthe VLAN ID at thesource port can be usedas the service source.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
423
Parameter Value Range Default Value Description
PRI - - The OptiX RTN 950 doesnot support thisparameter.
Bearer Type QinQ LinkPW
PW For NNI-NNI QinQservices, the parametervalue is always QinQLink.
QinQ Link ID - - Selects or specifies the IDof a QinQ link. You cancreate a QinQ link orselect an existing QinQlink.
Table A-7 Service direction of NNI-NNI
Parameter Value Range Default Value Description
Service ID 1 to 4294967294 - This parameter specifiesthe ID of the E-Lineservice.
Service Name - - This parameter specifiesthe name of the E-Lineservice.
Direction UNI-UNIUNI-NNINNI-NNI
UNI-UNI l This parameterspecifies the directionof the E-Line service.
l Set this parameter toNNI-NNI.
BPDU Not TransparentlyTransmittedTransparentlyTransmitted
Not TransparentlyTransmitted
For NNI-NNI QinQservices, the parametervalue is alwaysNot TransparentlyTransmitted.
MTU(bytes) - - This parameter cannot beset here.
Service Tag Role - - The OptiX RTN 950 doesnot support thisparameter.
PRI - - The OptiX RTN 950 doesnot support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
424
Parameter Value Range Default Value Description
Bearer Type 1 QinQ Link QinQ Link Uses the QinQ link tocarry the E-Line service.
QinQ Link ID 1 - - l Selects the QinQ linkID of the first QinQlink.
l The QinQ link ID ispreset in QinQ Link.
Bearer Type 2 QinQ Link QinQ Link Uses the QinQ link tocarry the E-Line service.
QinQ Link ID 2 - - l Selects the QinQ linkID of the second QinQlink.
l The QinQ link ID ispreset in QinQ Link.
QinQ Link ID - - Selects or specifies the IDof a QinQ link. You cancreate a QinQ link orselect an existing QinQlink.
Parameters of PWsNOTE
l Parameters of PWs need to be configured only when Direction is UNI-NNI and Bearer Type is PW.
l If the parameter Protection Type of PWs is set to PW APS or Slave Protection Pair, all the parametersof working and protection PWs need to be configured. This section considers the parameters of the workingPW as an example.
Parameter Value Range Default Value Description
PW ID - - Specifies the ID of the PWthat carries services.
PW Signaling Type Static Static Labels for static PWs needto be manually assigned.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
425
Parameter Value Range Default Value Description
PW Type EthernetEthernet Tagged Mode
Ethernet l Specifies the type ofthe PW.
l PW Type indicateswhether P-TAG isadded to Ethernetframes that areencapsulated fortransmission on PWs.If it is not required toadd VLAN IDs, set thisparameter toEthernet. If it isrequired to add VLANIDs, set this parameterto Ethernet TaggedMode and then setRequest VLAN in theAdvanced Attributestab.
PW Direction Bidirectional Bidirectional Displays the direction ofthe PW.
PW Encapsulation Type MPLS MPLS Displays theencapsulation type of thepackets on the PW.
PW Ingress Label/Source Port
16 to 1048575 - Specifies the PW Ingresslabel.
PW Egress Label/SinkPort
16 to 1048575 - Specifies the PW Egresslabel.
Tunnel selection mode - - Displays the method toselect tunnels.
Tunnel Type MPLS MPLS Displays the type of thetunnel that carries the PW.
Tunnel - - A tunnel needs to beselected. If no tunnel isavailable, creation of aPW will fail.
Egress Tunnel - - For a bidirectional tunnel,the system will configurethe egress tunnelautomatically.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
426
Parameter Value Range Default Value Description
Peer LSR ID - - Specifies the LSR ID ofthe PW at the remote end.If an existing tunnel isselected, the LSR ID willbe automatically assigned.
QoS Parameters (PW)NOTE
QoS parameters need to be configured only when Direction is UNI-NNI and Bearer Type is PW.
Parameter Value Range Default Value Description
Bandwidth Limit - - Specifies whether thebandwidth limit functionis enabled.l This function limits the
bandwidth of one ormore PWs in an MPLStunnel.
l An ETH PWE3 servicecorresponds to a PW.Therefore, thisfunction can also limitthe bandwidth of ETHPWE3 services in anMPLS tunnel.
Policy - - The OptiX RTN 950 doesnot support this parameter.
CIR(Kbit/s) - - Specifies the committedinformation rate (CIR) ofa PW.It is recommended thatyou set this parameter tothe same value as PIR.
CBS(byte) - - Specifies the committedburst size (CBS) of a PW.
PIR(Kbit/s) - - Specifies the peakinformation rate (PIR) of aPW.It is recommended thatyou set this parameter tothe same value as CIR.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
427
Parameter Value Range Default Value Description
PBS(byte) - - Specifies the peak burstsize (PBS) of a PW.
EXP - - The OptiX RTN 950 doesnot support this parameter.
LSP Mode Pipe Pipe Pipe: When strippingMPLS tunnel labels frompackets, an egress nodedoes not update thescheduling priority for thepackets.
Parameters of Advanced Attributes (PW)Parameter Value Range Default Value Description
Control Word No Use No Use For ETH PWE3 services,the parameter value isalways No Use.
Control Channel Type NoneAlert Label
Alert Label l Specifies the mode ofPW connectivitycheck.
l None indicates thatVCCV is not used.
l Alert Label indicatesVCCV packets inAlert Labelencapsulation mode.
VCCV VerificationMode
PingNone
Ping l Specifies the VCCVverification mode. TheVCCV verification isused for PWconnectivity check.
l If the VCCV-Ping testis required, do not setthis parameter toNone.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
428
Parameter Value Range Default Value Description
Request VLAN - - l Set this parameterwhen PW Type isEthernet TaggedMode.
l If the received packetsdo not carry anyVLAN IDs, the PWwill add VLAN IDs tothe packets as requiredby the setting of thisparameter.
TPID - - The OptiX RTN 950 doesnot support request VLANTPID of the PW level.
Protection Group Parameters (PW APS)NOTE
The parameters of the PW APS protection group need to be configured if the Protection Type of PWs is set toPW APS.
Parameter Value Range Default Value Description
Protection Type - - Specifies the protectiontype.
Protection Group ID - - Specifies the protectiongroup ID.
Enabling Status DisabledEnabled
Disabled l Specifies the enablingstatus of the PWprotection group.
l During the creation ofa protection group, setEnabling Status toDisabled. After theAPS protection groupis configured at bothends, set EnablingStatus to Enabled.
Protection Mode - - Displays the protectionmode.NOTE
The OptiX RTN 950supports 1:1 protectionmode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
429
Parameter Value Range Default Value Description
Working PW ID - - Displays the ID of theworking PW.
Protection PW ID - - Displays the ID of theprotection PW.
Switching Mode - - Displays the switchingmode to be used when aPW fails.NOTE
The OptiX RTN 950supports dual-endedswitching.
Revertive Mode Non-revertiveRevertive
Revertive l This parameterspecifies whether toswitch services back tothe original workingPW after it recovers.
l The value Revertiveindicates that servicesare switched to theoriginal working PWand the value Non-revertive indicatesthat services are notswitched to theoriginal working PW.
l The value Revertive isrecommended.
Switchover RestorationTime(min)
1 to 12 1 l Specifies the WTRtime of the protectiongroup.
l When the preset WTRtime expires after theoriginal working PWrecovers, services areswitched to theoriginal working PW.
l This parameter isavailable only whenRestoration Mode isRevertive.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
430
Parameter Value Range Default Value Description
Switchover Delay Time(100ms)
0 to 100 0 l Specifies the hold-offtime of the protectiongroup.
l If this parameter is setto a value other than 0,the protection groupdoes not triggerswitching once itdetects faults, but waitsuntil the hold-off timeexpires, and thendetects whether anyfaults persist. If anyfaults persist, theswitching is triggered;otherwise, noswitching is triggered.
l The default value isrecommended.
Detection mode - - Displays the detectionmode of the PW APSprotection group.
OAM ParametersNOTE
l The OAM parameters of the PW APS protection group need to be configured if the Protection Type ofPWs is set to PW APS.
l To configure PW OAM parameters, choose Configuration > MPLS Management > PW Management >PW OAM Parameter from the Function Tree.
Parameter Value Range Default Value Description
OAM Status - - Displays the enablingstatus of PW OAM.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
431
Parameter Value Range Default Value Description
Detection Mode Auto-SensingManual
Auto-Sensing l Specifies the detectionmode of OAM packets.
l Manual: Theconnectivity check(CC) packets are sentat the interval specifiedby the user.
l Auto-Sensing: Theconnectivity check(CC) packets are sentat the interval ofreceiving PW OAMpackets.
l If Detection Mode isset to Manual, youneed to set the PWOAM detectionpackets to be receivedand transmitted.
l The value Auto-Sensing isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
432
Parameter Value Range Default Value Description
Detection Packet Type CVFFD
CV l CV: The detectionpackets are sent at afixed interval.
l FFD: The detectionpackets are sent at theinterval specified bythe user.
l If Detection Mode isset to Auto-Sensing,this parameterspecifies the PW OAMdetection packets to betransmitted.
l If Detection Mode isset to Manual, thisparameter specifies thePW OAM detectionpackets to be receivedand transmitted.
l The value FFD isassumed for PW APSand the value CV isassumed forcontinuousconnectivity check onPWs.
Detection Packet Period(ms)
3.3102050100200500
50 l Specifies the period ofdetection packets.
l This parameter isconfigurable whenDetection PacketType is FFD andassumes the fixedvalue of 1000 whenDetection PacketType is CV.
l Set this parameter to3.3 for PW APS.
LSR ID to be Received - - Specifies the LSR ID to bereceived.
PW ID to be Received - - Specifies the PW ID to bereceived.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
433
Protection Group Parameters (Slave Protection Pair)NOTE
The parameters of the PW APS protection group need to be configured if the Protection Type of PWs is set toSlave Protection Pair.
Parameter Value Range Default Value Description
Protection Mode - - Displays the protectionmode.
Protection Group ID - - Specifies the ID of theslave protection pair. Theswitching of the masterPW APS protection grouptriggers the switching ofthe slave PW APSprotection groupsimultaneously.
Working PW ID - - Displays the ID of theworking PW in the slaveprotection pair.
Protection PW ID - - Displays the ID of theprotection PW in the slaveprotection pair.
A.6.1.2 Parameter Description: E-Line Service
This topic describes the parameters that are related to E-Line services.
Navigation Path
Select the NE from the Object Tree in the NE Explorer. Choose Configuration > EthernetService Management > E-Line Service from the Function Tree.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Service ID 1 to 4294967294 - This parameter indicatesthe ID of the E-Lineservice.
Service Name - - This parameter indicatesor specifies the name ofthe E-Line service.
Source Node - - This parameter indicatesthe source node.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
434
Parameter Value Range Default Value Description
Sink Node - - This parameter indicatesthe sink node.
Service Tag Role - - The OptiX RTN 950 doesnot support thisparameter.
MTU(byte) - - This parameter cannot bequeried here.
BPDU Not TransparentlyTransmittedTransparentlyTransmitted
- This parameter indicatesthe transparenttransmission tag of thebridge protocol data unit(BPDU) packets. Thisparameter is used toindicate whether theEthernet linetransparently transmitsthe BPDU packets.
Deployment Status - - This parameter indicateswhether E-Line service isdeployed.
Parameters Associated with UNI PortsParameter Value Range Default Value Description
Port - - This parameter indicatesthe UNI port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
435
Parameter Value Range Default Value Description
VLANs 1 to 4094 - This parameter indicatesor specifies the VLAN IDof the UNI port.l This parameter can be
set to null, a number,or several numbers.When setting thisparameter to severalnumbers, use thecomma (,) to separatethe discrete numbers,or use the endash (-) torepresent aconsecutive number.For example, thenumbers 1, and 3-6indicate 1, 3, 4, 5, and6.
l This parameter is validonly when Directionis set to UNI-UNI orUNI-NNI in theprocess of creating anE-Line service.
l If this parameter is setto null, all the servicesof the UNI work as theservice source orservice sink.
l If this parameter is notset to null, only theservices of the UNIport whose VLAN IDsare included in the setvalue of this parameterwork as the servicesource or service sink.
NNI Parameters (PW)
Parameter Value Range Default Value Description
PW ID - - This parameter displaysthe PW ID.
Working Status - - This parameter displaysthe working status of aPW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
436
Parameter Value Range Default Value Description
Enable Status - - This parameter displayswhether a PW is enabled.
PW Signaling Type - - This parameter displaysthe PW signaling type.NOTE
The OptiX RTN 950 usesstatic PWs only.
PW Type - - This parameter displaysthe configured PW type.
PW Direction - - This parameter displaysthe direction of the PW.
PW Encapsulation Type - - This parameter displaysthe PW encapsulationtype.NOTE
The OptiX RTN 950 usesMPLS only.
PW Ingress Label/Source Port
- - This parameter displaysthe configured PW ingresslabel.
PW Egress Label/SinkPort
- - This parameter displaysthe configured PW egresslabel.
Tunnel Type MPLS MPLS This parameter displaysthe type of the tunnel thatcarries a PW.
Peer LSR ID - - This parameter displaysthe opposite LSR ID.
Tunnel - - This parameter displaysthe tunnel.
Control Word - - For ETH PWE3 services,the parameter value isalways No Use.
Control Channel Type - - This parameter displaysthe control channel type.
VCCV VerificationMode
- - This parameter displaysthe VCCV mode.
Local Working Status - - Displays the workingstatus of the PW at thelocal end.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
437
Parameter Value Range Default Value Description
Remote Working Status - - This parameter displaysthe working status of thePW at the remote end.
Compositive WorkingStatus
- - This parameter displaysthe comprehensiveworking status of the PW.
Request VLAN - - This parameter displaysthe request VLAN.
Deployment Status - - This parameter displaysthe deployment status.
Tunnel AutomaticSelection Policy
- - This parameter displaysthe automatic tunnelselection policy.
TPID - - The OptiX RTN 950 doesnot support requestVLAN TPID of the PWlevel.
Parameters Associated with NNI PortsParameter Value Range Default Value Description
QinQ Link ID 1 to 4294967295 - l This parameterindicates the QinQ linkID of the QinQ linkconnected to the NNIport.
l This parameter is validonly when Directionis set to UNI-UNI orUNI-NNI in theprocess of creating anE-Line service.
Port - - l This parameterindicates the NNI port.
l This parameter is validonly when Directionis set to UNI-UNI orUNI-NNI in theprocess of creating anE-Line service.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
438
Parameter Value Range Default Value Description
S-VLAN ID - - l This parameterindicates or specifiesthe VLAN ID of theNNI port.
l This parameter is validonly when Directionis set to UNI-NNI orNNI-NNI in theprocess of creating anE-Line service.
l This parameter ispreset in QinQ Link.
QoS ParametersParameter Value Range Default Value Description
PW ID - - This parameter displaysthe PW ID.
Direction - - l This parameterdisplays the directionof the PW.
l Egress indicates theegress direction of thePW.
l Ingress indicates theingress direction of thePW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
439
Parameter Value Range Default Value Description
Bandwidth Limit - - This parameter displays orspecifies whether thebandwidth limit functionis enabled for a PW toprevent networkcongestion.l Regarding
transmission channels,this function can beused to limit thebandwidth of one ormore PWs in an MPLStunnel.
l An ETH PWE3service corresponds toa PW. Therefore, thisfunction can also limitthe bandwidth of ETHPWE3 services in anMPLS tunnel.
Policy - - The OptiX RTN 950 doesnot support thisparameter.
CIR (Kbit/s) - - This parameter displays orspecifies the committedinformation rate (CIR) ofa PW.It is recommended thatyou set this parameter tothe same value as PIR.
CBS (kbyte) - - This parameter displays orspecifies the committedburst size (CBS) of a PW.
PIR (kbit/s) - - This parameter displays orspecifies the peakinformation rate (PIR) ofa PW.It is recommended thatyou set this parameter tothe same value as CIR.
PBS (kbyte) - - This parameter displays orspecifies the peak burstsize (PBS) of a PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
440
Parameter Value Range Default Value Description
EXP - - The OptiX RTN 950 doesnot support thisparameter.
LSP Mode Pipe Pipe Pipe: When strippingMPLS tunnel labels frompackets, an egress nodedoes not update thescheduling priority for thepackets.
Parameters for the Port AttributesParameter Value Range Default Value Description
Port - - Displays the portinformation.
Enable Port - - l This parameterindicates whether toenable the port.
l This parameter ispreset in GeneralAttributes ofEthernet Interface.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
441
Parameter Value Range Default Value Description
Encapsulation Type Null802.1QQinQ
- l This parameterindicates theencapsulation type ofthe port.
l This parameter is validonly when Directionis set to UNI-UNI orUNI-NNI in theprocess of creating anE-Line service.
l If this parameter is setto Null, the porttransparentlytransmits the receivedpackets.
l If this parameter is setto 802.1Q, the portidentifies the packetsthat comply with theIEEE 802.1Qstandard.
l If this parameter is setto QinQ, the portidentifies the packetsthat comply with theIEEE 802.1 QinQstandard.
l This parameter ispreset in GeneralAttributes ofEthernet Interface.
TAG Tag AwareAccessHybrid
- l This parameterdisplays the tag of theport.
l This parameter ispreset in Layer 2Attributes ofEthernet Interface .
Protection Group Parameters (PW APS)NOTE
The following parameters are available only after the PW APS protection group is configured.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
442
Parameter Value Range Default Value Description
Protection Group ID - - Displays the ID of theprotection group to becreated.
Working PW ID - - Displays the ID of theworking PW.
Protection PW ID - - Displays the ID of theprotection PW.
Protection Mode - - Displays the protectionmode.
Enabling Status EnabledDisabled
- l Displays or specifiesthe enabling status ofthe PW protectiongroup.
l During the creation ofa protection group, setEnabling Status toDisabled. After theAPS protection groupis configured at bothends, set EnablingStatus to Enabled.
Switchover Mode - - Displays the switchingmode to be used when aPW fails.NOTE
The OptiX RTN 950supporting dual-endedswitching.
Restoration Mode Non-revertiveRevertive
- l Specifies whether toswitch services to theoriginal working PWafter the fault isrectified.
l The value Revertiveindicates that servicesare switched to theoriginal working PWand the value Non-revertive indicatesthat services are notswitched to theoriginal working PW.
l The value Revertive isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
443
Parameter Value Range Default Value Description
Switchover RestorationTime(min)
1 to 12 - l Displays or specifiesthe WTR time of theprotection group.
l When the preset WTRtime expires after theoriginal working PWrecovers, services areswitched to theoriginal working PW.
l This parameter isavailable only whenRestoration Mode isRevertive.
Switchover Delay Time(100ms)
0 to 100 - l Displays or specifiesthe hold-off time of theprotection group.
l If this parameter is setto a value other than 0,the protection groupdoes not triggerswitching once itdetects faults, but waitsuntil the hold-off timeexpires, and thendetects whether anyfaults persist. If anyfaults persist, theswitching is triggered;otherwise, noswitching is triggered.
Deployment Status - - Display the deploymentstatus of the protectiongroup.
Switchover Status - - Displays the switchoverstatus of the protectiongroup.
Protocol Status - - Displays the enablingstatus of the protocol.
Working Path Status - - Displays the status of thecurrent working path.
Protection Path Status - - Display the status of thecurrent protection path.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
444
Protection Group Parameters (Slave Protection Pair)NOTE
The following parameters are available only after the slave protection pair is configured.
Parameter Value Range Default Value Description
Protection Group ID - - Specifies the ID of theslave protection pair. Theswitching of the masterPW APS protection grouptriggers the switching ofthe slave PW APSprotection groupsimultaneously.
Working PW ID - - Displays the ID of theworking PW in the slaveprotection pair.
Protection PW ID - - Displays the ID of theprotection PW in the slaveprotection pair.
DNI PW ID - - Displays the DNI PW ID.
PW Type - - Displays the PW type.
Deployment Status - - Displays the deploymentstatus of the slaveprotection pair.
A.6.1.3 Parameter Description: VLAN Forwarding Table Items for E-LineServices_Creation
This topic describes the parameters that are used for creating VLAN forwarding table items.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Service Management > E-Line Service from the Function Tree.
2. Click the VLAN Forwarding Table Item tab.
3. Click New.
Parameters for VLAN Forwarding Table Item
Parameter Value Range Default Value Description
Source Interface Type V-UNI V-UNI This parameter specifiesthe network attribute ofthe source interface.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
445
Parameter Value Range Default Value Description
Source Interface - - This parameter specifiesthe source interface.
Source VLAN ID 1 to 4094 - This parameter specifiesthe VLAN ID of thesource service.
Sink Interface Type V-UNI V-UNI This parameter specifiesthe network attribute ofthe sink interface.
Sink Interface - - This parameter specifiesthe sink interface.
Sink VLAN ID 1 to 4094 - This parameter specifiesthe VLAN ID of the sinkservice.
NOTE
l The VLAN ID of the UNI-UNI E-Line service can be converted after a VLAN forwarding table item iscreated. In this case, a service from Source Interface to Sink Interface carries the VLAN ID specified inSink VLAN ID when the service is transmitted from Sink Interface.
l The VLAN ID in a VLAN forwarding table item is converted unidirectionally and can be converted fromSource VLAN ID to Sink VLAN ID only. The VLAN ID can be converted bidirectionally only when theother VLAN forwarding table item is configured reversely.
l In normal cases, Ethernet services are bidirectional. Hence, you need to set bidirectional conversion ofVLAN IDs.
A.6.1.4 Parameter Description: E-LAN Service_CreationThis topic describes the parameters that are used for creating an Ethernet local area network (E-LAN) service.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Service Management > E-LAN Service from the Function Tree.2. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
446
Parameters on the Main InterfaceParameter Value Range Default Value Description
Service ID 1 to 4294967294 - l This parameterspecifies the ID of theE-LAN service.
l The OptiX RTN 950supports simultaneouscreation of an E-LANservice only.
Service Name - - This parameter specifiesthe name of the E-LANservice.
BPDU - - l This parameterindicates thetransparenttransmission tag of theBPDU packets.
l In the case of an E-LAN service, thisparameter supportsonly NotTransparentlyTransmitted andcannot be setmanually.
l Not TransparentlyTransmittedindicates that theBPDU packets areused as the protocolpackets to compute thespanning tree topologyof the network.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
447
Parameter Value Range Default Value Description
Tag Type C-AwaredS-AwaredTag-Transparent
C-Awared l C-Awared indicatesthat the packets arelearnt according to C-Tag (the VLAN tag onthe client-side). Tocreate the 802.1qbridge, set thisparameter to C-Awared.
l S-Awared indicatesthat the packets arelearnt according to S-Tag (the VLAN tag atthe carrier servicelayer). To create the802.1ad bridge, set thisparameter to S-Awared.
l Tag-Transparentindicates that thepackets aretransparentlytransmitted. To createthe 802.1d bridge, setthis parameter to Tag-Transparent.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
448
Parameter Value Range Default Value Description
Self-Learning MACAddress
EnabledDisabled
Enabled l This parameterspecifies whether toenable the MACaddress self-learningfunction.
l If the MAC self-learning function of anEthernet LAN isenabled, the EthernetLAN learns an MACaddress according tothe original MACaddress in the packetand automaticallyrefreshes the MACaddress forwardingtable.
l If the MAC self-learning function of anEthernet LAN isdisabled, a static MACaddress forwardingtable is recommendedto be configured.
MAC Address LearningMode
IVLSVL
- l This parameterindicates the modeused to learn an MACaddress.
l When the bridge usesthe SVL mode, all theVLANs share oneMAC address table. Ifthe bridge uses the IVLmode, each VLAN hasan MAC address table.
Deployment Status - - This parameter indicateswhether E-LAN service isdeployed.
MTU(byte) - - This parameter cannot beset here.
Service Tag Role - - The OptiX RTN 950 doesnot support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
449
Parameters for UNIsParameter Value Range Default Value Description
Port - - This parameter indicatesthe UNI port.
SVLAN 1 to 4094 - l This parameterspecifies the S-VLANID of the UNI port.
l This parameter is validonly when Tag Typeis set to S-Awared.
l This parameter is setaccording to theplanning information.
VLANs/CVLAN 1 to 4094 - l This parameterspecifies the VLAN IDof the UNI port.
l This parameter can beset to null, a number,or several numbers.When setting thisparameter to severalnumbers, use thecomma (,) to separatethe discrete numbers,or use the endash (-) torepresent aconsecutive number.For example, thenumbers 1, and 3-6indicate 1, 3, 4, 5, and6.
l If this parameter is setto null, all the servicesof the UNI work as theservice source orservice sink.
l If this parameter is notset to null, only theservices of the UNIport whose VLAN IDsare included in the setvalue of this parameterwork as the servicesource or service sink.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
450
Parameters of NNIsParameter Value Range Default Value Description
Port - - l This parameterindicates the NNI port.
l This parameter is validonly when Tag Typeis set to S-Awared.
SVLANs - - l This parameterspecifies the S-VLANID of the NNI port.
l This parameter is validonly when Tag Typeis set to S-Awared.
Parameters for the Split Horizon GroupParameter Value Range Default Value Description
Split Horizon Group ID - 1 l This parameterindicates the ID of thesplit horizon group.
l The default splithorizon group ID is 1and cannot be setmanually.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
451
Parameter Value Range Default Value Description
Split Horizon GroupMember
- - l A split horizon groupmember indicates thelogical port member inthe split horizongroup.
l The port members thatare added to the samesplit horizon groupcannot communicatewith each other.
l The OptiX RTN 950supports only thedivision of the splithorizon groupmembers according tothe Ethernet physicalport.
l If a UNI or NNI logicalport of the 802.1adbridge is added to asplit horizon groupmember, the physicalport that is mountedwith the logical port isautomatically added tothe split horizon groupmember.
A.6.1.5 Parameter Description: E-LAN ServiceThis topic describes the parameters that are related to E-LAN services.
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Configuration > EthernetService Management > E-LAN Service from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
452
Parameters on the Main InterfaceParameter Value Range Default Value Description
Service ID 1 to 4294967294 - l This parameterindicates the ID of theE-LAN service.
l The supportssimultaneous creationof an E-LAN serviceonly.
Service Name - - This parameter specifiesthe name of the E-LANservice.
BPDU - - l This parameterindicates thetransparenttransmission tag of theBPDU packets.
l In the case of an E-LAN service, thisparameter supportsonly NotTransparentlyTransmitted andcannot be setmanually.
l Not TransparentlyTransmittedindicates that theBPDU packets areused as the protocolpackets to compute thespanning tree topologyof the network.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
453
Parameter Value Range Default Value Description
Tag Type C-AwaredS-AwaredTag-Transparent
C-Awared l C-Awared indicatesthat the packets arelearnt according to C-Tag (the VLAN tag onthe client-side). Tocreate the 802.1qbridge, set thisparameter to C-Awared.
l S-Awared indicatesthat the packets arelearnt according to S-Tag (the VLAN tag atthe carrier servicelayer). To create the802.1ad bridge, set thisparameter to S-Awared.
l Tag-Transparentindicates that thepackets aretransparentlytransmitted. To createthe 802.1d bridge, setthis parameter to Tag-Transparent.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
454
Parameter Value Range Default Value Description
Self-Learning MACAddress
Enabled Enabled l This parameterindicates whether toenable the MACaddress self-learningfunction.
l If the MAC self-learning function of anEthernet LAN isenabled, the EthernetLAN learns an MACaddress according tothe original MACaddress in the packetand automaticallyrefreshes the MACaddress forwardingtable.
l If the MAC self-learning function of anEthernet LAN isdisabled, a static MACaddress forwardingtable is recommendedto be configured.
MAC Address LearningMode
- - l This parameterindicates the modeused to learn an MACaddress.
l When the bridge usesthe SVL mode, all theVLANs share oneMAC address table. Ifthe bridge uses the IVLmode, each VLAN hasan MAC address table.
MTU(byte) - - This parameter cannot bequeried here.
Service Tag Role - - The OptiX RTN 950 doesnot support thisparameter.
Deployment Status - - This parameter indicateswhether E-LAN service isdeployed.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
455
Parameters for UNIsParameter Value Range Default Value Description
Port - - This parameter indicatesthe UNI port.
SVLAN 1 to 4094 - l This parameterspecifies the S-VLANID of the UNI port.
l This parameter is validonly when Tag Typeis set to S-Awared.
l This parameter is setaccording to theplanning information.
VLANs/CVLAN 1 to 4094 - l This parameterspecifies the VLAN IDof the UNI port.
l This parameter can beset to null, a number,or several numbers.When setting thisparameter to severalnumbers, use thecomma (,) to separatethe discrete numbers,or use the endash (-) torepresent aconsecutive number.For example, thenumbers 1, and 3-6indicate 1, 3, 4, 5, and6.
l If this parameter is setto null, the E-LANservice exclusivelyuses the correspondingUNI physical port.That is, the entire portis mounted to thebridge.
l If this parameter is setto a non-null value,only thecorresponding UNIport whose servicepackets contain thisVLAN ID works as thelogical port and ismounted to the bridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
456
Parameters for NNIsParameter Value Range Default Value Description
Port - - l This parameterindicates the NNI port.
l This parameter is validonly when Tag Typeis set to S-Awared.
SVLANs - - l This parameterspecifies the S-VLANID of the UNI port.
l This parameter is validonly when Tag Typeis set to S-Awared.
l This parameter can beset to null, a number,or several numbers.When setting thisparameter to severalnumbers, use thecomma (,) to separatethe discrete numbers,or use the endash (-) torepresent aconsecutive number.For example, thenumbers 1, and 3-6indicate 1, 3, 4, 5, and6.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
457
Parameters for Static MAC AddressesParameter Value Range Default Value Description
VLAN ID - - l This parameter isinvalid if MACAddress LearningMode is SVL. That is,the preset static MACaddress entries arevalid for all VLANs.
l If MAC AddressLearning Mode is setto IVL, the presetstatic MAC addressentries are valid foronly the VLANswhose VLAN ID isequal to the presetVLAN ID.
l This parameter is setaccording to theplanning information.
MAC Address - - l This parameterindicates or specifiesthe static MACaddress.
l A static MAC addressis an address that is setmanually. It is notaged automaticallyand needs to be deletedmanually.
l Generally, a staticMAC address is usedfor the port thatreceives but does notforward Ethernetservice packets or theport whose MACaddress need not beaged automatically.
Egress Interface - - l This parameterspecifies the Ethernetport that correspondsto the MAC address.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
458
Parameters for Self-Learning MAC AddressParameter Value Range Default Value Description
VLAN ID - - l This parameter isinvalid if MACAddress LearningMode is SVL. That is,the preset self-learningMAC address entriesare valid for allVLANs.
l If MAC AddressLearning Mode is setto IVL, the preset self-learning MAC addressentries are valid foronly the VLANswhose VLAN ID isequal to the presetVLAN ID.
l This parameter is setaccording to theplanning information.
MAC Address - - l This parameterindicates or specifiesthe self-learning MACaddress. A self-learning MAC addressis also called adynamic MACaddress.
l A self-learning MACaddress is an entryobtained by a bridge inSVL or IVL learningmode. A self-learningMAC address can beaged.
Egress Interface - - l This parameterspecifies the Ethernetport that correspondsto the MAC address.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
459
Parameters Associated with MAC Address LearningParameter Value Range Default Value Description
Aging Ability EnabledDisabled
Enabled The OptiX RTN 950supports enabling/disabling of the agingfunction and aging timefor the MAC addresstable.If one routing entry is notupdated in a certainperiod, that is, if no newpacket from this MACaddress is received toenable the re-learning ofthis MAC address, thisrouting entry isautomatically deleted.This mechanism is calledaging, and this period iscalled aging time. Theaging time of a MACaddress table is 5 minutesby default.
Aging Time(min) 1 to 640 5
Parameters for Disabled MAC AddressesParameter Value Range Default Value Description
VLAN ID - - This parameter indicatesor specifies the VLAN IDof the service. A disabledMAC address is valid forthe VLAN whose VLANID is equal to the presetVLAN ID.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
460
Parameter Value Range Default Value Description
MAC Address - - l This parameterspecifies or indicatesthe disabled MACaddress. A disabledMAC address is alsocalled a blacklistedMAC address.
l This parameter is usedfor discarding anentry, also called ablack hole entry,whose data frame thatcontains a specificdestination MACaddress. A disabledMAC address needs tobe set manually andcannot be aged.
Parameters for the Split Horizon GroupParameter Value Range Default Value Description
Split Horizon Group ID - 1 l This parameterindicates the ID of thesplit horizon group.
l The default splithorizon group ID is 1and cannot be setmanually.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
461
Parameter Value Range Default Value Description
Split Horizon GroupMember
- - l A split horizon groupmember indicates thelogical port member inthe split horizongroup.
l The port members thatare added to differentsplit horizon groupscannot communicatewith each other.
l The supports only thedivision of the splithorizon groupmembers according tothe Ethernet physicalport.
l If a UNI or NNI logicalport of the 802.1adbridge is added to asplit horizon groupmember, the physicalport that is mountedwith the logical port isautomatically added tothe split horizon groupmember.
Parameters for Unknown Frame ProcessingParameter Value Range Default Value Description
Frame Type UnicastMulticast
- This parameter indicatesthe type of the receivedunknown frame.
Handing Mode DiscardBroadcast
Broadcast Selects the method ofprocessing the unknownframe. If this parameter isset to Discard, theunknown frame is directlydiscarded. If thisparameter is set toBroadcast, the unknownframe is broadcast at theforwarding port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
462
A.6.1.6 Parameter Description: QinQ Link_Creation
This topic describes the parameters that are used for creating a QinQ link.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Service Management > QinQ Link from the Function Tree.
2. Click New.
Parameters for the General Attributes
Parameter Value Range Default Value Description
QinQ Link ID 1 to 4294967295 - This parameter specifiesthe ID of the QinQ link.NOTE
The OptiX RTN 950supports 1024 QinQ links,whose IDs must be differentfrom each other.
Board - - This parameter specifiesthe board where the QinQlink is located.
Port - - This parameter specifiesthe port where the QinQlink is located.
S-Vlan ID 1 to 4094 - l This parameterspecifies the VLAN ID(at the networkoperator side) for theQinQ link.
l This parameter is setaccording to theplanning information.
A.6.1.7 Parameter Description: E-AGGR Services_Creation
This topic describes the parameters for creating E-AGGR services.
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and choose
Configuration > Ethernet Service Management > E-AGGR Service from the FunctionTree.
2. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
463
Parameters on the Main InterfaceParameter Value Range Default Value Description
Service ID 1 to 4294967294 - This parameter specifiesthe ID of an E-AGGRservice.
Service Name - - This parameter specifiesthe name of an E-AGGRservice.
MTU(bytes) - - Setting this parameter isnot available.
Service Tag Role - - Setting this parameter isnot available.
UNI ParametersParameter Value Range Default Value Description
Location SinkSource
- This parameter specifieswhether a port functionsas a service source or sink.You can configure one ormore source ports but onlyone sink port for an E-AGGR service.Otherwise, configurationof the E-AGGR servicewill fail.
Port - - This parameter displaysUNI ports.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
464
Parameter Value Range Default Value Description
VLANs 1 to 4094 - l This parameterspecifies the VLAN IDfor a UNI port.
l Set this parameter to anumeral or severalnumerals. When youset this parameter toseveral numerals, use","s to separatediscrete values and use" - "s to indicateconsecutive numerals.For example, 1, 3 - 6indicates numerals 1,3, 4, 5, and 6.
l It is recommended thatyou do not set thisparameter to null.
Priority - - Setting this parameter isnot available.
NNI (PW) Parameters
Table A-8 Basic attributes
Parameter Value Range Default Value Description
Location SinkSource
- This parameter specifieswhether a port functionsas a service source or sink.You can configure one ormore source ports but onlyone sink port for an E-AGGR service.Otherwise, configurationof the E-AGGR servicewill fail.
PW ID 1 to 4294967295 - This parameter specifiesthe ID of a PW.
PW Signaling Type Static Static This parameter displaysthe signaling type of aPW.You need to allocate thesame PW label for bothends of a static PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
465
Parameter Value Range Default Value Description
PW Type EthernetEthernet Tagged Mode
Ethernet l This parameterspecifies whether P-TAGs will be added toEthernet frames whenthe Ethernet frames areencapsulated on a PW.
l If Request VLANdoes not need to beadded to Ethernetframes that areencapsulated on a PW,set this parameter toEthernet. If RequestVLAN needs to beadded to Ethernetframes that areencapsulated on a PW,set this parameter toEthernet TaggedMode.
Currently, this parametercan be set only toEthernet because E-AGGR services on theOptiX RTN 950 do notsupport PWs in Ethernettagged mode.
PW Direction - - This parameter displaysthe direction of a PW.
PW Encapsulation Type MPLS MPLS This parameter displaysthe encapsulation type ofa PW.
PW Incoming Label 16 to 1048575 - This parameter specifiesthe ingress label for a PW.
PW Outgoing Label 16 to 1048575 - This parameter specifiesthe egress label for a PW.
Tunnel Selection Mode - - This parameter displayswhether an existingMPLS tunnel or a newMPLS tunnel is used.
Tunnel Type - - This parameter displaysthe type of a tunnel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
466
Parameter Value Range Default Value Description
Tunnel - - This parameter requiresyou to select an existingstatic MPLS tunnel. Ifthere is no static MPLStunnel available, PWcreation will fail.
Peer LSR ID - - This parameter specifiesthe LSR ID for the NE atthe opposite end of a PW.If an existing MPLStunnel is used, the peerLSR ID is automaticallygenerated based on thelocal LSR ID.
Table A-9 Advanced attributes
Parameter Value Range Default Value Description
Control Word Not in use Not in use For ETH PWE3 services,this parameter has a fixedvalue of Not in use.
Control Channel Type Alert LabelNone
This parameter specifiesthe control channel type,which determines the PWcontinuity check (CC)mode.l None: indicates that
virtual circuitconnectivityverification (VCCV)packets are not used.
l
l Alert Label: indicatesthat VCCV packets inAlert Labelencapsulation modeare used.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
467
Parameter Value Range Default Value Description
VCCV VerificationMode
PingNone
Ping l This parameterspecifies the VCCVverification mode,which is used for a PWCC test.
l If the LSP pingfunction is used toimplement VCCV,VCCV VerificationMode cannot be set toNone.
Request VLAN - - Setting this parameter isnot available.
TPID - - Setting this parameter isnot available.
Parameters for a VLAN Forwarding TableParameter Value Range Default Value Description
Source Interface Type V-UNI V-UNI This parameter specifiesthe network attribute for asource port.
Source Interface - - This parameter specifies asource port.
Source VLAN ID 1 to 4094 - This parameter specifiesthe source VLAN ID.
Sink Interface Type V-UNI V-UNI This parameter specifiesthe network attribute forthe sink port.
Sink Interface - - This parameter specifiesthe sink port.
Sink VLAN ID 1 to 4094 - This parameter specifiesthe sink VLAN ID.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
468
NOTE
l Regardless of whether VLAN ID swapping is required by an E-AGGR service, a VLAN forwarding tableneeds to be configured, specifying the source and sink VLAN IDs of each VLAN-based service.
l A VLAN forwarding table enables VLAN ID swapping for an E-AGGR service. After a VLAN forwardingtable is created, a service from Source Interface will carry the VLAN ID specified in Sink VLAN ID whenleaving Sink Interface.
l For an E-AGGR service, the VLAN forwarding table specifies bidirectional VLAN ID swappingrelationships. This means that swapping from Sink VLAN ID to Source VLAN ID and swapping fromSource VLAN ID to Sink VLAN ID will be implemented once a VLAN forwarding entry for changingSource VLAN ID to Sink VLAN ID is configured.
l For service aggregation from UNI ports to an NNI port, Source VLAN ID must take any of the VLAN IDsthat have been configured for UNI ports.
l For service aggregation from NNI ports to a UNI port, Sink VLAN ID must take any of the VLAN IDs thathave been configured for UNI ports.
QoS (PW)Parameter Value Range Default Value Description
PW ID - - This parameter displaysthe ID of a PW.
Direction - - l This parameterdisplays the directionof a PW.
l Egress: indicates theegress direction of aPW.
l Ingress: indicates theingress direction of aPW.
PW Type - - This parameter displaysthe type of a PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
469
Parameter Value Range Default Value Description
Bandwidth Limit - - This parameter displays orspecifies whether thebandwidth limit functionis enabled for a PW toprevent networkcongestion.l For transmission
channels, thebandwidth limitfunction controls thebandwidth of one ormore PWs as required.
l For services, thebandwidth limitfunction controls thebandwidth of eachETH PWE3 service inan MPLS tunnel,because an ETHPWE3 servicecorresponds to a PW.
Policy - - Setting this parameter isnot available.
CIR(Kbit/s) - - This parameter displays orspecifies the committedinformation rate (CIR) fora PW.The CIR is recommendedto be the same as the PIR.
CBS(Kbit/s) - - This parameter displays orspecifies the committedburst size (CBS) for a PW.
PIR(Kbit/s) - - This parameter displays orspecifies the peakinformation rate (PIR) fora PW.The PIR is recommendedto be the same as the CIR.
PBS(Kbit/s) - - This parameter displays orspecifies the peak burstsize (PBS) for a PW.
EXP - - Setting this parameter isnot available.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
470
Parameter Value Range Default Value Description
LSP Mode Pipe Pipe Pipe: When an egressnode strips off the MPLStunnel labels in thereceived service packets,it does not renew thepacket schedulingpriorities.
A.6.1.8 Parameter Description: E-AGGR Services
This topic describes E-AGGR service parameters.
Navigation Path1. In the NE Explorer, select the desired NE from the Object Tree and choose
Configuration > Ethernet Service Management > E-AGGR Service from the FunctionTree.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Service ID 1 to 4294967294 - This parameter specifiesthe ID of an E-AGGRservice.
Service Name - - This parameter specifiesthe name of an E-AGGRservice.
MTU(byte) - - Setting this parameter isnot available.
Service Tag Role - - Setting this parameter isnot available. OptiX RTN950.
Deployment Status - - This parameter displayswhether an E-AGGRservice has been deployed.
UNI Parameters
Parameter Value Range Default Value Description
ID - - This parameter displaysthe ID of a UNI port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
471
Parameter Value Range Default Value Description
Location - - This parameter displayswhether a port functionsas a service source or sink.
Port - - This parameter displaysUNI ports.
VLANs - - This parameter displaysthe VLAN ID of a UNIport.
Priority - - Setting this parameter isnot available.
NNI (PW) Parameters
Table A-10 Basic attributes
Parameter Value Range Default Value Description
ID - - This parameter displaysthe ID of an NNI port.
Location - - This parameter displayswhether a port functionsas a service source or sink.
PW ID - - This parameter displaysthe ID of a PW.
PW Status - - This parameter displayswhether a PW is enabled.
PW Signaling Type - - This parameter displaysthe signaling type of aPW.
PW Type - - This parameter displaysthe type of a PW.
PW Direction - - This parameter displaysthe direction of a PW.
PW Encapsulation Type - - This parameter displaysthe encapsulation type ofa PW.
PW Incoming Label - - This parameter displaysthe ingress label of a PW.
PW Outgoing Label - - This parameter displaysthe egress label of a PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
472
Parameter Value Range Default Value Description
Peer LSR ID - - This parameter displaysthe LSR ID for the NE atthe opposite end of a PW.
Tunnel Type - - This parameter displaysthe type of a tunnel.
Tunnel - - This parameter displaysthe tunnel carrying PWs.Select an existing staticMPLS tunnel. If there isno static MPLS tunnelavailable, PW creationwill fail.
Control Word - - This parameter displayswhether the control wordis used.
Control Channel Type - - This parameter displaysthe control channel type.
VCCV VerificationMode
- - This parameter displaysthe VCCV verificationmode.
Local Operation Status - - This parameter displaysthe PW running status atthe local end.
Local Operation Status - - This parameter displaysthe PW running status atthe opposite end.
Overall OperationStatus
- - This parameter displaysthe overall PW runningstatus.
Request VLAN - - This parameter displaysthe request VLAN ID.
Automatic TunnelSelection Policy
- - This parameter displaysthe automatic tunnelselection policy.
TPID - - The OptiX RTN 950 doesnot allow TPIDs inrequest VLANs to bespecified for a PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
473
Parameters for a VLAN Forwarding TableParameter Value Range Default Value Description
Source Interface Type V-UNI V-UNI This parameter specifiesthe network attribute for asource port.
Source Interface - - This parameter specifies asource port.
Source VLAN ID 1 to 4094 - This parameter specifiesthe source VLAN ID.
Sink Interface Type V-UNI V-UNI This parameter specifiesthe network attribute forthe sink port.
Sink Interface - - This parameter specifiesthe sink port.
Sink VLAN ID 1 to 4094 - This parameter specifiesthe sink VLAN ID.
NOTE
l Regardless of whether VLAN ID swapping is required by an E-AGGR service, a VLAN forwarding tableneeds to be configured, specifying the source and sink VLAN IDs of each VLAN-based service.
l A VLAN forwarding table enables VLAN ID swapping for an E-AGGR service. After a VLAN forwardingtable is created, a service from Source Interface will carry the VLAN ID specified in Sink VLAN ID whenleaving Sink Interface.
l For an E-AGGR service, the VLAN forwarding table specifies bidirectional VLAN ID swappingrelationships. This means that swapping from Sink VLAN ID to Source VLAN ID and swapping fromSource VLAN ID to Sink VLAN ID will be implemented once a VLAN forwarding entry for changingSource VLAN ID to Sink VLAN ID is configured.
l For service aggregation from UNI ports to an NNI port, Source VLAN ID must take any of the VLAN IDsthat have been configured for UNI ports.
l For service aggregation from NNI ports to a UNI port, Sink VLAN ID must take any of the VLAN IDs thathave been configured for UNI ports.
QoS (PW)Parameter Value Range Default Value Description
PW ID - - This parameter displaysthe ID of a PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
474
Parameter Value Range Default Value Description
Direction - - l This parameterdisplays the directionof a PW.
l Egress: indicates theegress direction of aPW.
l Ingress: indicates theingress direction of aPW.
PW Type - - This parameter displaysthe type of a PW.
Bandwidth Limit - - This parameter displays orspecifies whether thebandwidth limit functionis enabled for a PW toprevent networkcongestion.l For transmission
channels, thebandwidth limitfunction controls thebandwidth of one ormore PWs as required.
l For services, thebandwidth limitfunction controls thebandwidth of eachETH PWE3 service inan MPLS tunnel,because an ETHPWE3 servicecorresponds to a PW.
Policy - - Setting this parameter isnot available.
CIR(Kbit/s) - - This parameter displays orspecifies the committedinformation rate (CIR) fora PW.The CIR is recommendedto be the same as the PIR.
CBS(Kbit/s) - - This parameter displays orspecifies the committedburst size (CBS) for a PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
475
Parameter Value Range Default Value Description
PIR(Kbit/s) - - This parameter displays orspecifies the peakinformation rate (PIR) fora PW.The PIR is recommendedto be the same as the CIR.
PBS(Kbit/s) - - This parameter displays orspecifies the peak burstsize (PBS) for a PW.
EXP - - Setting this parameter isnot available.
LSP Mode Pipe Pipe Pipe: When an egressnode strips off the MPLStunnel labels in thereceived service packets,it does not renew thepacket schedulingpriorities.
A.6.2 Parameters for Ethernet ProtocolsThis topic describes the parameters that are related to the Ethernet protocol.
A.6.2.1 Parameter Description: ERPS Management_CreationThis topic describes the parameters that are used for creating ERPS management tasks.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Protection > ERPS Management.2. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
476
ParametersParameter Value Range Default Value Description
ERPS ID 1 to 8 - l This parameterspecifies the ID of theEthernet ringprotection switching(ERPS) instance.
l The IDs of ERPSinstances on an NEmust be different fromeach other.
East Port - - This parameter specifiesthe east port of the ERPSinstance.
West Port - - This parameter specifiesthe west port of the ERPSinstance.
RPL Owner Ring NodeFlag
YesNo
No l This parameterspecifies whether thenode on the ring is thering protection link(RPL) owner.
l Only one node on thering can be set as theRPL owner for eachEthernet ring.
l An RPL owner needsto balance the trafficon each link of anEthernet ring.Therefore, it is notrecommended that youselect a convergencenode as an RPL owner.Instead, select the NEthat is farthest awayfrom the convergencenode as an RPL owner.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
477
Parameter Value Range Default Value Description
RPL Port - - l This parameterspecifies the RPL port.
l There is only one RPLport and this RPL portmust be the east orwest port on the RPLowner node.
l It is recommended thatyou set the east port onan RPL owner as anRPL Port.
Control VLAN 1 to 4094 - l This parameterspecifies the VLAN IDof Control VLAN.
l Each node on theEthernet ring transmitsthe R-APS packets onthe dedicated ring APS(R-APS) channel toensure consistencybetween the nodeswhen the ERPSswitching isperformed. ControlVLAN is used forisolating the dedicatedR-APS channel.Therefore, the VLANID in Control VLANcannot be duplicatewith the VLAN IDsthat are contained inthe service packets.
l The ID of a ControlVLAN must not be thesame as any VLAN IDused by Ethernetservices. All ringnodes should use thesame Control VLANID.
Destination Node 01-19-A7-00-00-01 01-19-A7-00-00-01 This parameter indicatesthe MAC address of thedestination node. Thedefault destination MACaddress in the R-APSpackets is always 01-19-A7-00-00-01.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
478
A.6.2.2 Parameter Description: ERPS ManagementThis topic describes the parameters that are used for Ethernet ring protection switching (ERPS)management.
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Configuration > EthernetProtection > ERPS Management from the Function Tree.
ParametersParameter Value Range Default Value Description
ERPS ID 1 to 8 - This parameter indicatesthe ID of the ERPSinstance.
East Port - - This parameter indicatesthe east port of the ERPSinstance.
West Port - - This parameter indicatesthe west port of the ERPSinstance.
RPL Owner Ring NodeFlag
YesNo
- This parameter indicateswhether a node on the ringis the ring protection link(RPL) owner.
RPL Port - - This parameter indicatesthe RPL port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
479
Parameter Value Range Default Value Description
Control VLAN 1 to 4094 - l This parameterindicates or specifiesthe VLAN ID ofControl VLAN.
l Each node on theEthernet ring transmitsthe R-APS packets onthe dedicated ring APS(R-APS) channel toensure consistencybetween the nodeswhen the ERPSswitching isperformed. ControlVLAN is used forisolating the dedicatedR-APS channel.Therefore, the VLANID in Control VLANcannot be duplicatewith the VLAN IDsthat are contained inthe service packets orinband DCN packets.
l The Control VLANmust be set to the samevalue for all the NEson an ERPS ring.
Destination Node 01-19-A7-00-00-01 - This parameter indicatesthe MAC address of thedestination node. Thedefault destination MACaddress in the R-APSpackets is always 01-19-A7-00-00-01.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
480
Parameter Value Range Default Value Description
Hold-Off Time(ms) 0 to 10000, in step of 100 0 l This parameterindicates or specifiesthe hold-off time of theERPS hold-off timer.
l The hold-off timer isused for negotiatingthe protectionswitching sequencewhen the ERPScoexists with otherprotection schemes sothat the fault can berectified in the case ofother protectionswitching (such asLAG protection)before the ERPSoccurs. When a nodeon the ring detects oneor more new faults, itstarts up the hold-offtimer if the presethold-off time is set to avalue that is not 0.During the hold-offtime, the fault is notreported to trigger anERPS. When the hold-off timer times out, thenode checks the linkstatus regardlesswhether the fault thattriggers the startup ofthe timer exists. If thefault exists, the nodereports it to trigger anERPS. This fault canbe the same as ordifferent from the faultthat triggers the initialstartup of the hold-offtimer.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
481
Parameter Value Range Default Value Description
Guard Time(ms) 10 to 2000, in step of 10 500 l This parameterindicates or specifiesthe guard time of theERPS guard timer.
l The nodes on the ringcontinuously forwardthe R-APS packets tothe Ethernet ring. As aresult, the outdated R-APS packets may existon the ring network.After a node on thering receives theoutdated R-APSpackets, an incorrectERPS may occur. TheERPS guard timer is anR-APS timer used forpreventing a node onthe ring from receivingoutdated R-APSpackets. When a faultynode on the ringdetects that theswitching condition iscleared, the node startsup the guard timer andstarts to forward the R-APS (NR) packets.During this period, theR-APS packetsreceived by the nodeare discarded. Thereceived R-APSpackets are forwardedonly after the time ofthe guard timerexpires.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
482
Parameter Value Range Default Value Description
WTR Time(mm:ss) 5 to 12, in step of 1 5 l This parameterindicates or specifiesthe WTR time of theWRT timer in the caseof ERPS protection.
l The WTR time refersto the duration fromthe time when theworking channel isrestored to the timewhen the switching isreleased. When theworking channel isrestored, the WTRtimer of the RPLowner starts up. Inaddition, a signal thatindicates the operationof the WTR timer iscontinuously output inthe timing process.When the WTR timertimes out and noswitching request of ahigher priority isreceived, the signalindicating theoperation of the WTRtimer is nottransmitted. Inaddition, the WTRrelease signal iscontinuously output.
l The WTR timer is usedto prevent frequentswitching caused bythe unstable workingchannel.
Packet TransmitInterval(s)
1 to 10 5 This parameter displays orspecifies the interval forsending R-APS packetsperiodically.
Entity Level 0 to 7 4 This parameter indicatesor specifies the level of themaintenance entity.
Last Switching Request - - This parameter indicatesthe last switching request.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
483
Parameter Value Range Default Value Description
RB Status - - This parameter indicatesthe RB (RPL Blocked)status of the packetsreceived by the workingnode.l noRB: The RPL is not
blocked.l RB: The RPL is
blocked.
DNF Status - - This parameter indicatesthe DNF status of thepackets received by theworking node.l noDNF: The R-APS
packets do not containthe DNF flag. In thiscase, the packets areforwarded by the nodethat detects the fault ona non-RPL link, andthe node that receivesthe packets isrequested to clear theforwarding addresstable.
l DNF: The R-APSpackets contain theDNF flags. In thiscase, the packets areforwarded by the nodethat detects the fault onan RPL link, and thenode that receives thepackets is informednot to clear theforwarding addresstable.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
484
Parameter Value Range Default Value Description
State Machine Status - - This parameter indicatesthe status of the statemachine at the workingnode.l Idle: The Ethernet ring
is in normal state. Forexample, no node onthe Ethernet ringdetects any faults orreceives the R_APS(NR, RB) packets.
l Protection: TheEthernet ring is inprotected state. Forexample, a fault on thenode triggers theERPS, or a node on thering is in the WTRperiod after the fault isrectified.
Node Carried withCurrent Packet
- - This parameter indicatesthe MAC address carriedin the R-APS packetsreceived by the currentnode. The MAC addressrefers to the MAC addressof the source node thatinitiates the switchingrequest.
East Port Status - - Displays the status of theeast port.
West Port Status - - Displays the status of thewest port.
A.6.2.3 Parameter Description: MSTP Configuration_Port Group CreationThis topic describes the parameters that are used for creating MSTP port groups.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Protocol Configuration > MSTP Configuration from the Function Tree.2. Click the Port Group Parameters tab.3. Click Create.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
485
Parameters on the Main InterfaceParameter Value Range Default Value Description
Protocol Type MSTPSTP
MSTP This parameter specifiesthe protocol type.l MSTP: stands for
Multiple SpanningTree Protocol. TheOptiX RTN 950supports the CISTMSTP only.
l STP: stands forSpanning TreeProtocol.
Enable Protocol EnabledDisabled
Disabled l This parameterspecifies whether toenable the protocol ofthe port group or amember port in theport group.
l If the STP or MSTP isenabled, the spanningtree topology isautomatically re-configured. As aresult, the services areinterrupted.
Parameters for Application PortsParameter Value Range Default Value Description
Board - - This parameter specifiesthe board where themember of port group islocated.
Available Port List - - This parameter indicatesthe available port list inwhich a port can be addedto the port group.
Selected Port List - - This parameter indicatesthe selected ports that canbe added to the port group.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
486
A.6.2.4 Parameter Description: MSTP Configuration_Port Group ConfigurationThis topic describes the parameters that are used for creating MSTP port groups.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Protocol Configuration > MSTP Configuration from the Function Tree.2. Click the Port Group Parameters tab.3. On the main interface, select the port group to be configured.4. Click Config. The Config Port Group dialog box is displayed.
Parameters for the Added PortParameter Value Range Default Value Description
Board - - This parameter specifiesthe board where themember of port group islocated.
Available Port List - - This parameter indicatesthe available port list inwhich a port needs to beadded to the port group.
Selected Port List - - This parameter indicatesthe selected ports thatneed to be added to theport group.
A.6.2.5 Parameter Description: MSTP Configuration_ Bridge ParametersThis topic describes the parameters that are related to MSTP bridges.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Protocol Configuration > MSTP Configuration from the Function Tree.2. Click the Bridge Parameters tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
487
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port Group ID - - l This parameterindicates the ID of theport group.
l This parameter can beset to only the portgroup ID that isautomaticallyallocated.
MST Domain Name - - The OptiX RTN 950 doesnot support thisparameter.
Redaction Level - - The OptiX RTN 950 doesnot support thisparameter.
Mapping List - - The OptiX RTN 950 doesnot support thisparameter.
Bridge ParametersParameter Value Range Default Value Description
Port Group ID - - l This parameterindicates the ID of theport group.
l This parameter can beset to only the portGroup ID that isautomaticallyallocated.
MST Domain Max HopCount
- 20 Specifies the maximumhop count of the MSTP.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
488
Parameter Value Range Default Value Description
Network Diameter 2 to 7 7 l This parameterspecifies the MSTPnetwork diameter.
l Network Diameter isrelated to the linkwhose number ofswitches is the mostand is indicated by thenumber of switchesthat are connected tothe link. When you setNetwork Diameterfor the switches, theMSTP automaticallysets Max Age(s),Hello Time(s), andForward Delay(s) tothe more appropriatevalues for theswitches.
l If the value ofNetwork Diameter isgreater, the network isin a larger scale.
Hello Time(s) 1 to 10 2 l This parameterspecifies the intervalfor transmitting theCBPDU packetsthrough the bridge.
l The greater the valueof this parameter, theless the networkresources that areoccupied by thespanning tree. Thetopology stability,however, decreases.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
489
Parameter Value Range Default Value Description
Max Age(s) 6 to 40 20 l This parameterspecifies themaximum age of theCBPDU packet that isrecorded by the port.
l The greater the value,the longer thetransmission distanceof the CBPDU, whichindicates that thenetwork diameter isgreater. When thevalue of this parameteris greater, it is lesspossible that the bridgedetects the link fault ina timely manner andthus the networkadaptation ability isreduced.
Forward Delay(s) 4 to 30 15 l This parameterspecifies the holdofftime of a port in thelistening state and inthe learning state.
l The greater the value,the longer the delay ofthe network statechange. Hence, thetopology changes areslower and therecovery in the case offaults is slower.
Port ParametersParameter Value Range Default Value Description
Port - - This parameter indicatesthe port in the port group.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
490
Parameter Value Range Default Value Description
Enable Edge Attribute DisabledEnabled
Disabled l This parameterspecifies themanagement edgeattributes of the port.
l This parameterspecifies whether toset the port as an edgeport. The edge portrefers to the bridgeport that is connectedto the LAN. In normalcases, this port doesnot receive or transmitBPDU messages.
l This parameter can beset to Enabled onlywhen the port isdirectly connected tothe datacommunicationsterminal equipment,such as a computer. Inother cases, it isrecommended that youuse the default value.
Actual Edge Attribute - - This parameter indicatesthe actual managementedge attributes of the port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
491
Parameter Value Range Default Value Description
Point-to-Point Attribute falsetrueauto
auto l This parameterspecifies the point-to-point attribute of theport.
l false: forced non-point-to-point linkattribute
l true: forced point-to-point link attribute
l auto: automaticallydetected point-to-point link attribute
l If this parameter is setto auto, the bridgedetermines ActualPoint-to-PointAttribute of the portaccording to the actualworking mode. If theactual working modeis full-duplex, theactual point-to-pointattribute is true. If theactual working modeis half-duplex, ActualPoint-to-PointAttribute is false.
l Only the designatedport whose ActualPoint-to-PointAttribute is "True"can transmit the rapidstate migration requestand response.
l It is recommended thatyou use the defaultvalue.
Actual Point-to-PointAttribute
- - This parameter indicatesthe actual point-to-pointattribute of the port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
492
Parameter Value Range Default Value Description
Max Transmit PacketCount
1 to 255 3 l This parameterspecifies themaximum number ofpackets to betransmitted.
l The maximum numberof packets to betransmitted by the portrefers to the maximumnumber of MSTPpackets that the portcan transmit within 1s.
l This parameter needsto be set according tothe planninginformation.
A.6.2.6 Parameter Description: MSTP Configuration_CIST ParametersThis topic describes the parameters that are related to the MSTP CIST.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Protocol Configuration > MSTP Configuration from the Function Tree.2. Click the CIST&MSTI Parameters tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port Group - - This parameter specifiesthe port group.
MSTI ID 0 0 This parameter indicatesthe MSTI ID. The value 0indicates common andinternal spanning tree(CIST). The OptiX RTN950 supports only theMSTP that uses CIST.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
493
Parameter Value Range Default Value Description
Bridge Priority 0 to 61440, in step of 4096 32768 l The most significant16 bits of the bridge IDindicate the priority ofthe bridge.
l When the value issmaller, the priority ishigher. As a result, thebridge is more possibleto be selected as theroot bridge.
l If the priorities of allthe bridges in the STP/MSTP network use thesame value, the bridgewhose MAC address isthe smallest is selectedas the root bridge.
Port ParametersParameter Value Range Default Value Description
Port - - This parameter indicatesthe port in the port group.
Priority 0 to 240, in step of 16 128 l The most significanteight bits of the port IDindicate the portpriority.
l When the value issmaller, the priority ishigher.
Path Cost 1 to 200000000 FE Port: 200000GE Port: 20000
l This parameterindicates the status ofthe network that theport is connected to.
l In the case of thebridges on both ends ofthe path, set thisparameter to the samevalue.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
494
A.6.2.7 Parameter Description: MSTP Configuration_Running Information Aboutthe CIST
This topic describes the parameters that are related to the running information about the MSTPCIST.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
Protocol Configuration > MSTP Configuration from the Function Tree.2. Click the CIST Running Information tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port Group ID - - This parameter indicatesthe ID of the port group.
Protocol Running Mode MSTPSTP
- l This parameterindicates the runningmode of the protocol.
l MSTP: stands forMultiple SpanningTree Protocol. TheOptiX RTN 950supports only theCIST-based MSTP.
l STP: stands forSpanning TreeProtocol.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
495
Parameter Value Range Default Value Description
Bridge Priority 0 to 61440, in step of 4096 32768 l This parameterindicates the priorityof the bridge.
l The most significant16 bits of the bridge IDindicate the priority ofthe bridge.
l When the value issmaller, the priority ishigher. As a result, thebridge is more possibleto be selected as theroot bridge.
l If the priorities of allthe bridges in the STPnetwork use the samevalue, the bridgewhose MAC address isthe smallest is selectedas the root bridge.
Bridge MAC Address - - This parameter indicatesthe MAC address of thebridge.
Root Bridge Priority 0 to 61440, in step of 4096 32768 This parameter indicatesthe priority of the rootbridge.
Root Bridge MACAddress
- - This parameter indicatesthe MAC address of theroot bridge.
External Path CostERPC
- - The OptiX RTN 950 doesnot support thisparameter.
Domain Root BridgePriority
- - The OptiX RTN 950 doesnot support thisparameter.
Domain Root BridgeMAC Address
- - The OptiX RTN 950 doesnot support thisparameter.
Internal Path Cost IRPC - - The OptiX RTN 950 doesnot support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
496
Parameter Value Range Default Value Description
Root Port Priority 0 to 240, in step of 16 128 l This parameterindicates the priorityof the root port.
l The most significanteight bits of the ID ofthe root port indicatethe priority of the rootport.
l When the value issmaller, the priority ishigher.
Root Port - - This parameter indicatesthe root port.
Hello Time(s) - 2 l This parameterindicates the intervalfor transmittingCBPDU packetsthrough the bridge.
l The greater the valueof this parameter, theless the networkresources that areoccupied by thespanning tree. Thetopology stability,however, decreases.
Max Age(s) 6 to 40 20 l This parameterspecifies themaximum age of theCBPDU packet that isrecorded by the port.
l The greater the value,the longer thetransmission distanceof the CBPDU, whichindicates that thenetwork diameter isgreater. When thevalue of this parameteris greater, it is lesspossible that the bridgedetects the link fault ina timely manner andthus the networkadaptation ability isreduced.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
497
Parameter Value Range Default Value Description
Forward Delay(s) 4 to 30 15 l This parameterspecifies the holdofftime of a port in thelistening state and inthe learning state.
l The greater the value,the longer the delay ofthe network statechange. Hence, thetopology changes areslower and therecovery in the case offaults is slower.
MST Domain Max HopCount
- - This parameter indicatesthe maximum hop countof the MSTP.
Topology Change Count - - This parameter indicatesthe identifier of thetopology change.
Last Topology ChangeTime(s)
- - This parameter indicatesthe duration of the lasttopology change.
Topology Change Count - - This parameter indicatesthe count of the topologychanges.
Port ParametersParameter Value Range Default Value Description
Port - - This parameter indicatesthe port in the port group.
Enable Protocol EnabledDisabled
Disabled This parameter indicateswhether the protocol ofthe port group or amember of the port groupis enabled.
Port Role - Disabled This parameter indicatesthe role of a port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
498
Parameter Value Range Default Value Description
Port Status DiscardingLearningForwarding
Discarding This parameter indicatesthe state of a port.l Discarding: receives
only BPDU packetsl Learning: only
receives or transmitsBPDU packets
l Forwarding: forwardsuser traffic, andtransmits/receivesBPDU packets
Priority 0 to 240, in step of 16 128 l The most significanteight bits of the port IDindicate the portpriority.
l When the value issmaller, the priority ishigher.
Path Cost 1 to 200000000 200000 l This parameterindicates the status ofthe network that theport is connected to.
l In the case of thebridges on both ends ofthe path, set thisparameter to the samevalue.
Bridge Priority 0 to 61440, in step of 4096 32768 l The most significant16 bits of the bridge IDindicate the priority ofthe bridge.
l When the value issmaller, the priority ishigher. As a result, thebridge is more possibleto be selected as theroot bridge.
l If the priorities of allthe bridges in the STPnetwork use the samevalue, the bridgewhose MAC address isthe smallest is selectedas the root bridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
499
Parameter Value Range Default Value Description
Bridge MAC Address - - This parameter indicatesthe MAC address of thebridge.
Designated Port Priority 0 to 240, in step of 16 0 l The most significanteight bits of the port IDindicate the portpriority.
l When the value issmaller, the priority ishigher.
Design Port - 0 This parameter indicatesthe designated port.
Edge Port Attribute DisabledEnabled
Disabled l This parameterspecifies themanagement edgeattributes of the port.
l This parameterspecifies whether toset the port as an edgeport. The edge portrefers to the bridgeport that is connectedto the LAN. In normalcases, this port doesnot receive or transmitBPDU messages.
l This parameter can beset to Enabled onlywhen the port isdirectly connected tothe datacommunicationsterminal equipment,such as a computer. Inother cases, it isrecommended that youuse the default value.
Actual Edge PortAttribute
- Disabled This parameter indicatesthe actual managementedge attributes of the port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
500
Parameter Value Range Default Value Description
Point to Point falsetrueauto
auto l This parameterspecifies the point-to-point attribute of theport.
l false: forced non-point-to-point linkattribute
l true: forced point-to-point link attribute
l auto: automaticallydetected point-to-point link attribute
l If this parameter is setto auto, the bridgedetermines ActualPoint to PointAttribute of the portaccording to the actualworking mode. If theactual working modeis full-duplex, theactual point-to-pointattribute is true. If theactual working modeis half-duplex, ActualPoint to PointAttribute is false.
l Only the designatedport whose ActualPoint-to-PointAttribute is "True"can transmit the rapidstate migration requestand response.
l It is recommended thatyou use the defaultvalue.
Actual Point to Point - - This parameter indicatesthe actual point-to-pointattribute of the port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
501
Parameter Value Range Default Value Description
Max Count ofTransmitting Message
1 to 255 3 l This parameterindicates themaximum number ofpackets to betransmitted.
l The maximum numberof packets to betransmitted by the portrefers to the maximumnumber of MSTPpackets that the portcan transmit within 1s.
Protocol Running Mode STPMSTP
- l This parameterindicates the runningmode of the protocol.
l MSTP: stands forMultiple SpanningTree Protocol. TheOptiX RTN 950supports only theCIST-based MSTP.
l STP: stands forSpanning TreeProtocol.
Hello Time(s) 1 to 10 2 l This parameterindicates the intervalfor transmitting theCBPDU packetsthrough the bridge.
l The greater the valueof this parameter, theless the networkresources that areoccupied by thespanning tree. Thetopology stability,however, decreases.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
502
Parameter Value Range Default Value Description
Max Age(s) 6 to 40 20 l This parameterspecifies themaximum age of theCBPDU packet that isrecorded by the port.
l The greater the value,the longer thetransmission distanceof the CBPDU, whichindicates that thenetwork diameter isgreater. When thevalue of this parameteris greater, it is lesspossible that the bridgedetects the link fault ina timely manner andthus the networkadaptation ability isreduced.
Forward Delay(s) 4 to 30 15 l This parameterspecifies the holdingtime of a port in thelistening state and inthe learning state.
l The greater the value,the longer the delay ofthe network statechange. Hence, thetopology changes areslower and therecovery in the case offaults is slower.
Remain Hop - - The OptiX RTN 950 doesnot support thisparameter.
A.6.2.8 Parameter Description: Ethernet Link Aggregation Management_LAGCreation
This topic describes the parameters that are used for creating a link aggregation group (LAG).
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Interface
Management > Link Aggregation Group Management from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
503
2. Click the Link Aggregation Group Management tab.3. Click New.
Parameters on the Main InterfaceParameter Value Range Default Value Description
LAG No. - 1 l This parameterspecifies the LAGnumber to be setmanually.
l This parameter is validonly whenAutomaticallyAssign is not selected.
Automatically Assign SelectedDeselected
Selected l This parameterindicates whetherLAG No. is allocatedautomatically.
l When AutomaticallyAssign is selected,LAG No. cannot beset.
LAG Name - - This parameter specifiesthe LAG name.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
504
Parameter Value Range Default Value Description
LAG Type StaticManual
Static l Static: You can createa LAG. When you addor delete a memberport to or from theLAG, the LinkAggregation ControlProtocol (LACP)protocol is required. Ina LAG, a port can be inselected, standby, orunselected state. Theaggregationinformation isexchanged amongdifferent equipmentthrough the LACPprotocol to ensure thatthe aggregationinformation is thesame among all thenodes.
l Manual: You cancreate a LAG. Whenyou add or delete amember port, theLACP protocol is notrequired. The port canbe in the up or downstate. The systemdetermines whether toaggregate a portaccording to itsphysical state (UP orDOWN), workingmode, and rate.
Switch Protocol - - The OptiX RTN 950 doesnot support thisparameter.
Switch Mode - - The OptiX RTN 950 doesnot support thisparameter.
Link Trace Protocol - - The OptiX RTN 950 doesnot support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
505
Parameter Value Range Default Value Description
Revertive Mode Revertive ModeNon-Revertive Mode
Non-Revertive Mode l Revertive Mode canbe set only when LoadSharing is set to Non-Sharing.
l When RevertiveMode is set toRevertive Mode, theservices are switchedback to the formerworking channel afterthis channel is restoredto normal.
l When RevertiveMode is set to Non-Revertive Mode, thestatus of the LAG doesnot change after theformer workingchannel is restored tonormal. That is, theservices are stilltransmitted on theprotection channel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
506
Parameter Value Range Default Value Description
Load Sharing SharingNon-Sharing
Non-Sharing l Set Load Sharing tothe same value as thepeer equipment. It isrecommended that youset Load Sharing toNon-Sharing at bothends if the LAGs areused for protection andset Load Sharing toSharing at both ends ifthe LAGs are used forincreasingbandwidths.
l Sharing: Each memberlink of a LAGprocesses traffic at thesame time and sharesthe traffic load. Thesharing mode canincrease a bandwidthutilization for the link.When the LAGmembers change, orcertain links fail, thesystem automaticallyre-allocates the traffic.
l Non-Sharing: Onlyone member link of aLAG carries traffic,and the other link is inthe standby state. Inthis case, a hot backupmechanism isprovided. When theactive link of a LAG isfaulty, the systemactivates the standbylink, thus preventinglink failure.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
507
Parameter Value Range Default Value Description
Load Sharing HashAlgorithm
Source MACDestination MACSource and DestinationMACSource IPDestination IPSource and Destination IPMPLS Label
Source MAC l This parameter is validonly when LoadSharing of a LAG isset to Sharing.
l The load sharingcomputation methodsinclude computationbased on MACaddresses (based onthe source MACaddress, based on thedestination MACaddress, and based onthe source MACaddress + sink MACaddress), computationbased on IP addresses(based on the source IPaddress, based on thedestination IP address,and based on thesource IP address andsink IP address), andcomputation based onMPLS labels.
l After the configurationdata is deployed, LoadSharing HashAlgorithm takeseffect for the entireNE.
l For PW-carried UNI-NNI E-Line services,Load Sharing HashAlgorithm cannot beset to MPLS Label.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
508
Parameter Value Range Default Value Description
System Priority 0 to 65535 32768 l System Priorityindicates the priorityof a LAG. The smallerthe value of SystemPriority, the higherthe priority.
l When a local LAGnegotiates with anopposite LAG throughLACP packets, bothLAGs can obtain thesystem priorities ofeach other. Then, theLAG of the highersystem priority isconsidered as thecomparison result ofboth LAGs so that theaggregationinformation isconsistent at bothLAGs. If the prioritiesof both LAGs are thesame, the system MACaddresses arecompared. Then, thecomparison resultbased on the LAG withsmaller system MACaddress is consideredas the result of bothLAGs and is used toensure that theaggregationinformation isconsistent at bothLAGs.
WTR Time(min) 1 to 30 10 l Specifies the WTRtime for the LAG.
l WTR Time(min)takes effect only whenRevertive Mode isRevertive Mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
509
Parameter Value Range Default Value Description
Switch LAG upon AirInterface SD
DisabledEnabled
Enabled l This parameterspecifies whether toenable the switchingtriggered by bit errors.
l If Switch LAG uponAir Interface SD is setto Enabled, theMW_BER_SD alarmwill trigger the LAGswitching at the airinterface.
Port Settings ParametersParameter Value Range Default Value Description
Main Board - - l This parameterspecifies the mainboard in a LAG.
l This parameter is setaccording to theplanning information.
Main Port - - l This parameterspecifies the main portin a LAG.
l After a LAG is created,you can add Ethernetservices to the mainport only. Servicescannot be added to aslave port. When LoadSharing is set to Non-Sharing, the linkconnected to the mainport is used to transmitthe services, and thelink connected to theslave port is used forprotection.
Board (Available SlavePorts)
- - l This parameterspecifies the slaveboard in a LAG.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
510
Parameter Value Range Default Value Description
Port (Available SlavePorts)
- - l This parameterspecifies the salve portin a LAG.
l The slave ports in aLAG are fixed. Unlessthey are manuallymodified, the systemdoes not automaticallyadd them to or deletethem from the LAG.
Selected Standby Ports - - This parameter indicatesthe selected slave ports.
A.6.2.9 Parameter Description: Ethernet Link Aggregation_Link AggregationThis section describes the parameters for port priorities and system priorities.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Interface
Management > Link Aggregation Group Management from the Function Tree.2. Click the Port Priority tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - This parameter indicatesthe port whose priority canbe set.
Port Priority 0 to 65535 32768 l This parameterindicates the prioritiesof the ports in a LAGas defined in the LACPprotocol. The smallerthe value, the higherthe priority.
l When ports are addedinto a LAG, the port ofthe highest priority ispreferred for servicetransmission.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
511
A.6.2.10 Parameter Description: LPT Management_Point-to-Point LPTThis topic describes the parameters that are related to point-to-point LPT.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > LPT
Management > LPT from the Function Tree.2. Click the Point-to-Point LPT tab.
Parameters on the main interfaceParameter Value Range Default Value Description
Binding Status - - This parameter displaysthe binding status of point-to-point services.
Primary Function Point - - This parameter displaysthe port where the primarypoint of point-to-pointLPT resides.
Secondary FunctionPoint Type
- - This parameter displaysthe type of secondarypoint for point-to-pointLPT.
Secondary FunctionPoint
- - This parameter displaysthe port where thesecondary point of point-to-point LPT resides.
LPT Instance Status - - This parameter displaysthe status of point-to-pointLPT.
LPT Enabled EnabledDisabled
Disabled This parameter displays orspecifies the enablingstatus of point-to-pointLPT.The LPT function can takeeffect only when LPTEnabled is set toEnabled.
Recovery Times(s) 1-600 1 This parameter displays orspecifies the recovery timeof point-to-point LPT.
Hold-Off Times(ms) 0-10000 1000 This parameter displays orspecifies the hold-off timeof point-to-point LPT.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
512
Parameter Value Range Default Value Description
Switching Mode - - This parameter displaysthe switching mode ofpoint-to-point LPT. Point-to-point LPT is availableonly in strict mode.
Fault Detection Mode PW OAMLPT OAM
LPT OAM This parameter displaysthe fault detection mode ofpoint-to-multipoint LPT.l LPT-enabled NEs
periodically transmitLPT OAM packets inspecific formats tocheck the status of anL2 service network orQinQ service network.If the LPT OAMpackets are absent for3.5 fault detectionperiods or the numberand contents ofreceived LPT OAMpackets are incorrect,the NEs consider that anetwork-side faultoccurred and the LPTswitching is triggered.
l To detect a network-side fault on a PSN,LPT OAM or PWOAM packets can beused. Note that the PWOAM function must beenabled on NEs beforeusage of PW OAMpackets.
Fault Detection Period(100ms)
10-100 10 This parameter displays orspecifies the faultdetection period of point-to-point LPT.
User-Side Port Status - - This parameter displaysthe status of a user-sideport.
L2 net ID-L2 Peer net ID - - This parameter displaysthe NET IDs of LPTpacket out ports at bothends.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
513
A.6.2.11 Parameter Description: LPT Management_Creating Point-to-Point LPT
This topic describes the parameters that are related to creating point-to-point LPT.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > LPT
Management > LPT from the Function Tree.
2. Click the Point-to-Point LPT tab.
3. Click Bind in the lower right corner of the pane based on the type of service network.
4. Choose PW+QinQ or L2 net from the shortcut menu based on the type of service network.
Parameters on the Main Interface
Parameter Value Range Default Value Description
L2 net ID 1-4294967295 - This parameter specifiesthe NET ID of LPT packetout port at the local end.
L2 Peer net ID 1-4294967295 - This parameter specifiesthe NET ID of LPT packetout port at the oppositeend.
Primary Function Point - - This parameter specifiesthe port where the primarypoint of point-to-pointLPT resides.
VLAN ID 1-4094 - This parameter specifiesthe VLAN ID that iscarried by a point-to-pointLPT packet to traverse anL2 network.
LPT package out port - - This parameter specifiesthe out port of a point-to-point LPT packet.
A.6.2.12 Parameter Description: LPT Management_Point-to-Multipoint LPT
This topic describes the parameters that are related to point-to-multipoint LPT.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > LPT
Management > LPT from the Function Tree.
2. Click the Point-to-Multipoint LPT tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
514
Parameters of Primary PointParameter Value Range Default Value Description
Primary Function PointType
- - This parameter displaysthe type of primary pointfor point-to-multipointLPT.
Primary Function Point - - This parameter displaysthe port where the primarypoint of point-to-multipoint LPT resides.
LPT Instance Status - - This parameter displaysthe status of point-to-multipoint LPT.
LPT Enabled EnabledDisabled
Disabled This parameter displaysthe enabling status ofpoint-to-multipoint LPT.
Recovery Times(s) 1-600 1 This parameter displays orspecifies the recovery timeof point-to-multipointLPT.
Hold-Off Times(ms) 0-10000 1000 This parameter displays orspecifies the hold-off timeof point-to-multipointLPT.
Switching Mode Strict modeNon-strict mode
Strict mode This parameter displaysthe switching mode ofpoint-to-multipoint LPT.Point-to-point LPT isavailable only in strictmode.l Strict mode
A primary pointtriggers LPT switchingwhen all its secondarypoints detect faults.
l Non-strict modeA primary pointtriggers LPT switchingwhen anyone of itssecondary pointsdetects a fault.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
515
Parameter Value Range Default Value Description
Fault Detection Mode PW OAMLPT OAM
LPT OAM This parameter displaysthe fault detection mode ofpoint-to-multipoint LPT.l LPT-enabled NEs
periodically transmitLPT OAM packets inspecific formats tocheck the status of anL2 service network orQinQ service network.If the LPT OAMpackets are absent for3.5 fault detectionperiods or the numberand contents ofreceived LPT OAMpackets are incorrect,the NEs consider that anetwork-side faultoccurred and the LPTswitching is triggered.
l To detect a network-side fault on a PSN,LPT OAM or PWOAM packets can beused. Note that the PWOAM function must beenabled on NEs beforeusage of PW OAMpackets.
Fault Detection Period(100ms)
10-100 10 This parameter displays orspecifies the faultdetection period of point-to-multipoint LPT.
User-Side Port Status - - This parameter displaysthe status of a user-sideport.
L2 net ID-L2 Peer net ID - - This parameter displaysthe NET IDs of LPTpacket out ports at bothends, when the servicenetwork is an L2 network.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
516
Parameters of Secondary PointParameter Value Range Default Value Description
Access Point Type - - This parameter displaysthe type of second pointfor point-to-multipointLPT.
Access Point - - This parameter displaysthe port or PW ID for thesecondary point of point-to-multipoint LPT.
User-Side Port Status - - This parameter displaysthe status of a user-sideport.
L2 net ID-L2 Peer net ID - - This parameter displaysthe NET IDs of LPTpacket out ports at bothends, when the servicenetwork is an L2 network.
A.6.2.13 Parameter Description: LPT Management_Creating Point-to-MultipointLPT
This topic describes the parameters that are related to creating point-to-multipoint LPT.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > LPT
Management > LPT from the Function Tree.2. Click the Point-to-Multipoint LPT tab.3. Click New in the lower right corner of the pane based on the type of service network.4. Choose PW, QinQ, or L2 net from the shortcut menu based on the type of service network.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
517
Parameters of primary pointParameter Value Range Default Value Description
Point Type UNIPWQinQL2 net
- This parameter specifiesthe type of primary pointfor point-to-multipointLPT. The value range ofthis parameter pertains tothe type of servicenetwork.If the primary point is onthe access side, selectUNI; if the primary pointis on the network side, setthe parameter as follows.l If the service network
is a PSN, select PW.l If the service network
is a QinQ network,select QinQ.
l If the service networkis an L2 network,select L2 net.
Board - - This parameter specifiesthe board where theprimary point of point-to-multipoint LPT resides.This parameter is validonly when Point Type isset to UNI.
Port - - This parameter specifiesthe port where the primarypoint of point-to-multipoint LPT resides.This parameter is validonly when Point Type isset to UNI.
Point ID - - This parameter specifiesthe service ID for theprimary point of point-to-multipoint LPT.This parameter is validonly when Point Type isset to PW or QinQ.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
518
Parameter Value Range Default Value Description
L2 net ID 1-4294967295 - This parameter specifiesthe NET ID of a local NE.This parameter is validonly when Point Type ofthe primary point is set toUNI, and when PointType of the secondarypoint is set to L2 net.
L2 Peer net ID 1-4294967295 - This parameter specifiesthe NET ID of an oppositeNE.This parameter is validonly when Point Type isset to L2 net.
VLAN ID 1-4094 - This parameter specifiesthe VLAN ID that iscarried by an LPT packetto traverse an L2 network.This parameter is validonly when Point Type isset to L2 net.
LPT package out port - - This parameter specifiesthe out port of an LPTpacket.This parameter is validonly when Point Type isset to L2 net.
Parameters of secondary pointParameter Value Range Default Value Description
Point Type UNIPWQinQL2 net
- This parameter displays orspecifies the type ofsecondary point for point-to-multipoint LPT.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
519
Parameter Value Range Default Value Description
Board - - This parameter specifiesthe board where thesecondary point of point-to-multipoint LPT resides.This parameter is validonly when Point Type isset to PW, QinQ, or L2net.
Available Points - - This parameter displaysthe available ports wherethe secondary point ofpoint-to-multipoint LPTcan reside.This parameter is validonly when Point Type isset to PW, QinQ, or L2net.
Selected Points - - This parameter displaysthe selected port where thesecondary point of point-to-multipoint LPT resides.This parameter is validonly when Point Type isset to PW, QinQ, or L2net.
L2 net ID 1-4294967295 - This parameter specifiesthe NET ID of a local NE.This parameter is validonly when Point Type isset to UNI.
L2 Peer net ID 1-4294967295 - This parameter specifiesthe NET ID of an oppositeNE.This parameter is validonly when Point Type ofthe primary point is set toUNI, and when PointType of the secondarypoint is set to L2 net.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
520
Parameter Value Range Default Value Description
VLAN ID 1-4094 - This parameter specifiesthe VLAN ID that iscarried by an LPT packetto traverse an L2 network.This parameter is validonly when Point Type ofthe primary point is set toUNI, and when PointType of the secondarypoint is set to L2 net.
LPT Package out port - - This parameter specifiesthe out port of an LPTpacket.This parameter is validonly when Point Type ofthe primary point is set toUNI, and when PointType of the secondarypoint is set to L2 net.
A.6.3 Parameters for the Ethernet OAMThis topic describes the parameters that are related to the Ethernet operation, administration andmaintenance (OAM).
A.6.3.1 Parameter Description: Ethernet Service OAM Management_MaintenanceDomain Creation
This topic describes the parameters that are used for creating maintenance domains.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
OAM Management > Ethernet Service OAM Management from the Function Tree.2. Click the Maintenance Association tab.3. Choose New > New Maintenance Domain.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
521
Parameters on the Main InterfaceParameter Value Range Default Value Description
MaintenanceDomain Name
- default l This parameter specifies the name of themaintenance domain.
l The maintenance domain refers to thenetwork for the Ethernet OAM.
l This parameter can contain a maximumof eight bytes.
MaintenanceDomain Level
01234567
4 l Maintenance Domain Level specifiesthe level of the maintenance domain.
l The values 0 to 7 indicates maintenancedomain levels in an ascending order.
l MEPs transparently transmit OAMprotocol packets if the packets have ahigher level than the parameter value.
l MEPs discard OAM protocol packets ifthe packets have a lower level than theparameter value.
l MEPs respond to or terminate OAMprotocol packets based on the packet typeif the packets have the same level as theparameter value.
A.6.3.2 Parameter Description: Ethernet Service OAM Management_MaintenanceAssociation Creation
This topic describes the parameters that are used for creating maintenance associations.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
OAM Management > Ethernet Service OAM Management from the Function Tree.2. Click the Maintenance Association tab.3. Select the maintenance domain in which a maintenance association needs to be created.
Choose New > New Maintenance Association.
Parameters on the Main InterfaceParameter Value Range Default Value Description
MaintenanceDomain Name
- - This parameter indicates the maintenancedomain of the created maintenanceassociation.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
522
Parameter Value Range Default Value Description
MaintenanceAssociation Name
- - l This parameter specifies the name of themaintenance association, which is adomain related to a service. Throughmaintenance association division, theconnectivity check (CC) can beperformed on the network that transmitsa service instance.
l This parameter can contain a maximumof eight bytes.
Relevant Service - - This parameter specifies the serviceinstance that is related to the maintenanceassociation.
CC Test TransmitPeriod
1s10s1m10m
1s l This parameter specifies the interval fortransmitting packets in the CC.
l The CC is performed to check theavailability of the service.
A.6.3.3 Parameter Description: Ethernet Service OAM Management_MEP Creation
This topic describes the parameters that are used for creating a maintenance association endpoint (MEP).
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
OAM Management > Ethernet Service OAM Management from the Function Tree.
2. Click the Maintenance Association tab.
3. Select the maintenance association in which an MEP needs to be created. Choose New >New MEP Point.
Parameters on the Main Interface
Parameter Value Range Default Value Description
MaintenanceDomain Name
- - This parameter indicates the maintenancedomain of the created MEP.
MaintenanceAssociation Name
- - This parameter indicates the maintenanceassociation of the created MEP.
Board - - This parameter specifies the board wherethe MEP is located.
Port - - This parameter specifies the port where theMEP is located.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
523
Parameter Value Range Default Value Description
VLAN - - This parameter indicates the VLAN ID ofthe current service.
MP ID 1 to 2048 1 l This parameter specifies the MEP ID.l Each MEP needs to be configured with
an MP ID, which is unique in themaintenance association. The MP ID isrequired in the OAM operation.
Direction IngressEgress
Ingress l Direction specifies the direction of theMEP.
l Ingress indicates the direction in whichthe packets are transmitted to the port,and Egress indicates the direction inwhich the packets are transmitted fromthe port.
CC Status ActiveInactive
Active l This parameter specifies whether toenable the CC function of the MEP.
l In the case of the tests based on the MPIDs, CC Status must be set to Active.
AIS Active Status ActiveInactive
Active l This parameter specifies the AIS activestatus.
l If several MDs exist on a link, to locatea fault accurately, set AIS ActiveStatus to Active and Client LayerLevel that functions to suppress the AISinformation.
l After a fault is detected by an MP, if thisMP activates the AIS, it sends the AISpacket to a higher level MP, informingthe higher level MP of the faultinformation; if this MP does not activatethe AIS, it does not report the fault.
Client Layer Level 1 to 7 1 l Normally, if an MP is set to level n,Client Layer Level that functions tosuppress the AIS information should beset to n+1.
l Client Layer Level is valid only if AISActive Status is Active.
A.6.3.4 Parameter Description: Ethernet Service OAM Management_Remote MEPCreation
This topic describes the parameters that are used for creating a remote MEP.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
524
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
OAM Management > Ethernet Service OAM Management from the Function Tree.
2. Click the Maintenance Association tab.
3. Choose OAM > Manage Remote MEP Point. The Manage Remote MEP Point dialogbox is displayed.
4. Click New.
Parameters on the Main Interface
Parameter Value Range Default Value Description
MaintenanceDomain Name
- - This parameter indicates the maintenancedomain of the MEP.
MaintenanceAssociation Name
- - This parameter indicates the maintenanceassociation of the created MEP.
RemoteMaintenance PointID(e.g:1,3-6)
1 to 2048 - l This parameter specifies the ID of theremote MEP.
l If other MEPs will initiate OAMoperations to an MEP in the same MA,set these MEPs as remote MEPs.
A.6.3.5 Parameter Description: Ethernet Service OAM Management_MIP Creation
This topic describes the parameters that are used for creating a maintenance associationintermediate point (MIP).
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
OAM Management > Ethernet Service OAM Management from the Function Tree.
2. Click the MIP Point tab.
3. Select the maintenance domain in which an MIP needs to be created, and then click New.
Parameters on the Main Interface
Parameter Value Range Default Value Description
MaintenanceDomain Name
- - This parameter indicates the maintenancedomain of the MIP.
Board - - This parameter specifies the board wherethe MIP is located.
Port - - This parameter specifies the port where theMIP is located.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
525
Parameter Value Range Default Value Description
MP ID 1 to 2048 1 l This parameter specifies the MIP ID.l Each MIP needs to be configured with an
MP ID, which is unique in themaintenance domain. The MP ID isrequired in the OAM operation.NOTE
To create MEPs and MIPs in a service at aport, ensure that only one MIP can be createdand the level of the MIP must be higher thanthe level of the MEP.
A.6.3.6 Parameter Description: Ethernet Service OAM Management_LB EnablingThis topic describes the parameters that are used for enabling the LB.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
OAM Management > Ethernet Service OAM Management from the Function Tree.2. Click the Maintenance Association tab.3. Select the maintenance domain and maintenance association for the LB test.4. Choose OAM > Start LB.
Parameters on the Main InterfaceParameter Value Range Default Value Description
DestinationMaintenance PointID
SelectedDeselected
Deselected This parameter needs to be selected if theLB test is performed on the basis ofDestination Maintenance Point IDs.
DestinationMaintenance PointMAC Address
SelectedDeselected
Selected This parameter needs to be selected if theLB test is performed on the basis of MACaddresses.
MaintenanceDomain Name
- - This parameter indicates the name of themaintenance domain for the LB test.
MaintenanceAssociation Name
- - This parameter indicates the name of themaintenance association for the LB test.
SourceMaintenance PointID
- - l This parameter specifies the sourcemaintenance point in the LB test.
l Only the MEP can be set to the sourcemaintenance point.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
526
Parameter Value Range Default Value Description
DestinationMaintenance PointID
- - l This parameter specifies the destinationmaintenance point in the LB test.
l Only the MEP ID can be set to theDestination Maintenance Point ID.
l Destination Maintenance Point ID canbe set only when MP ID is selected.
DestinationMaintenance PointMAC Address
- 00-00-00-00-00-00 l This parameter specifies the MACaddress of the port where the destinationmaintenance point is located in the LBtest.
l Only the MAC address of the MEP canbe set to the MAC address of theDestination Maintenance Point MACAddress.
l Destination Maintenance Point MACAddress can be set only when SinkMaintenance Point MAC Address.
TransmittedPacket Count
1 to 255 3 l This parameter specifies the number ofpackets transmitted each time in the LBtest.
l When the value is greater, the requiredduration is longer.
TransmittedPacket Length
64 to 1400 64 l This parameter specifies the length of atransmitted LBM packet.
l If the packet length is different, the testresult may be different. In normal cases,it is recommended that you use thedefault value.
TransmittedPacket Priority
0 to 7 7 l This parameter specifies the priority oftransmitting packets.
l 0 indicates the lowest priority, and 7indicates the highest priority. In normalcases, this parameter is set to the highestpriority.
Detection Result - - This parameter indicates the relevantinformation and result of the LB test.
A.6.3.7 Parameter Description: Ethernet Service OAM Management_LT EnablingThis topic describes the parameters that are used for enabling the LT.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
527
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
OAM Management > Ethernet Service OAM Management from the Function Tree.2. Click the Maintenance Association tab.3. Select the maintenance domain and maintenance association for the LT test.4. Choose OAM > Start LT.
Test Node ParametersParameter Value Range Default Value Description
DestinationMaintenance PointID
SelectedDeselected
Deselected This parameter needs to be selected if the LTtest is performed on the basis of MP IDs.
DestinationMaintenance PointMAC Address
SelectedDeselected
Selected This parameter needs to be selected if the LTtest is performed on the basis of MACaddresses.
MaintenanceDomain Name
- - This parameter indicates the name of themaintenance domain for the LT test.
MaintenanceAssociation Name
- - This parameter indicates the name of themaintenance association for the LT test.
SourceMaintenance PointID
- - l This parameter specifies the sourcemaintenance point in the LT test.
l Only the MEP can be set to the sourcemaintenance point.
DestinationMaintenance PointID
- - l This parameter specifies the destinationmaintenance point in the LT test.
l Only the MEP ID can be set to theDestination Maintenance Point ID.
l Destination Maintenance Point ID canbe set only when MP ID is selected.
DestinationMaintenance PointMAC Address
- 00-00-00-00-00-00 l This parameter specifies the MACaddress of the port where the destinationmaintenance point is located in the LTtest.
l Only the MAC address of the MEP canbe set to the MAC address of theDestination Maintenance Point MACAddress.
l Destination Maintenance Point MACAddress can be set only when SinkMaintenance Point MAC Address.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
528
Parameters for the Detection ResultParameter Value Range Default Value Description
SourceMaintenance PointID
- - This parameter indicates the sourcemaintenance point in the LT test.
DestinationMaintenance PointID/MAC
- - This parameter indicates the MAC addressof the port where the destinationmaintenance point is located in the LT test.
ResponseMaintenance PointID/MAC
- - This parameter indicates the MAC addressof the port where the respondingmaintenance point is located in the LT test.
Hop Count 1 to 64 - l This parameter indicates the number ofhops from the source maintenance pointto the responding maintenance point orto the destination maintenance point inthe LT test.
l The number of hops indicates theadjacent relation between the respondingmaintenance point to the sourcemaintenance point. The number of hopsincreases by one when a respondingpoint occurs on the link from the sourcemaintenance point to the destinationmaintenance point.
Test Result - - This parameter indicates the result of the LTtest.
A.6.3.8 Parameter Description: Ethernet Service OAM_Enabling Service LoopbackDetection
This topic describes the parameters for enabling E-LAN service loopback detection.
Navigation Path1. In the NE Explorer, select the desired NE and choose Configuration > Ethernet Service
Management > E-LAN Service from the Function Tree.2. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
529
Parameters for Enabling Service Loopback DetectionParameter Value Range Default Value Description
Vlans/CVLAN 1 to 4094 1 to 4094 Vlans/CVLAN displaysthe VLAN ID of aloopback service.Loopback detection can beperformed for only oneservice one time.
Packet Timeout Period(s)
3 to 10 3 Loopback detection stopsif no loopback detectionpackets are received untilPacket Timeout Period(s) expires.
Packet Length - - This parameter displaysthe loopback detectionpacket length.
VLAN Packet SendingInterval(s)
- - This parameter displaysthe intervals fortransmitting differentVLAN packets.
Disable Service WhenLoopback is Detected
NoYes
No Disable Service WhenLoopback is Detecteddisplays whether aloopback service will bedeactivated.
A.6.3.9 Parameter Description: Ethernet Port OAM Management_OAM ParameterThis topic describes the OAM parameters that are related to Ethernet ports.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
OAM Management > Ethernet Port OAM Management from the Function Tree.2. Click the OAM Parameter tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - This parameter indicates the correspondingport.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
530
Parameter Value Range Default Value Description
Enable OAMProtocol
EnabledDisabled
Disabled l This parameter indicates or specifieswhether to enable the OAM protocol.
l After the OAM protocol is enabled, thecurrent Ethernet port starts to use thepreset mode to create the OAMconnection with the opposite end.
OAM WorkingMode
ActivePassive
Active l This parameter indicates or specifies theworking mode of the OAM.
l The port whose OAM working mode isset to Active can initiate the OAMconnection.
l The port whose OAM working mode isset to Passive can only wait for theopposite end to send the OAMconnection request.
l The OAM working mode of theequipment at only one end can bePassive.
Link EventNotification
EnabledDisabled
Enabled l This parameter indicates or specifieswhether the local link events can benotified to the opposite end.
l If the alarms caused by link events canbe reported, that is, if the number ofperformance events (for example, errorframe period, error frame, error framesecond, and error frame signal cycle) atthe local end exceeds the presetthreshold, these performance events arenotified to the port at the opposite endthrough the link event notificationfunction.
l This parameter is set according to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
531
Parameter Value Range Default Value Description
Remote SideLoopbackResponse
DisabledEnabled
Disabled l This parameter indicates or specifieswhether the port responds to the remoteloopback.
l Remote loopback indicates that the localOAM entity transmits packets to theremote OAM entity for loopback. Thelocal OAM entity can locate the fault andtest the link performance throughloopback data analysis.
l If a port does not support remoteloopback response, this port does notrespond to the loopback request from theremote port regardless of the OAM portstatus.
Loopback Status Non-LoopbackInitiate Loopback atLocalRespond Loopbackof Remote
- This parameter indicates the loopback statusat the local end.NOTE
Loopback Status is valid only after you chooseOAM > Enable Remote Loopback.
OAM DiscoveryStatus
- - This parameter indicates the OAMdiscovery status at the local end.
Port TransmitStatus
- - This parameter indicates the status oftransmitting packets at the local end.
Port Receive Status - - This parameter indicates the status ofreceiving packets at the local end.
A.6.3.10 Parameter Description: Ethernet Port OAM Management_OAM ErrorFrame Monitoring
This topic describes the parameters that are used for monitoring the OAM error frames at theEthernet port.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Ethernet
OAM Management > Ethernet Port OAM Management from the Function Tree.2. Click the OAM Error Frame Monitor tab.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Port - - This parameter indicates the correspondingport.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
532
Parameter Value Range Default Value Description
Error FrameMonitor Window(ms)
1000 to 60000, instep of 100
1000 This parameter specifies the duration ofmonitoring error frames.
Error FrameMonitor Threshold(frames)
1 to 4294967295, instep of 1
1 l This parameter specifies the threshold ofmonitoring error frames.
l Within the specified value of ErrorFrame Monitor Window(ms), if thenumber of error frames on the linkexceeds the preset value of ErrorFrame Monitor Threshold(frame), analarm is reported.
Error FramePeriod Window(frame)
1488 to 892800000,in step of 1
892800000 This parameter specifies the window ofmonitoring the error frame period.
Error FramePeriod Threshold(frames)
1 to 892800000, instep of 1
1 l This parameter specifies the threshold ofmonitoring the error frame period.
l Within the specified value of ErrorFrame Period Window(frame), if thenumber of error frames on the linkexceeds the preset value of ErrorFrame Period Threshold(frame), analarm is reported.
Error FrameSecond Window(s)
10 to 900, in step of1
60 This parameter specifies the time window ofmonitoring the error frame second.
Error FrameSecond Threshold(s)
10 to 900, in step of1
1 l This parameter specifies the threshold ofmonitoring error frame seconds.
l If any error frame occurs in one second,this second is called an errored framesecond. Within the specified value ofError Frame Second Window(s), if thenumber of error frames on the linkexceeds the preset value of ErrorFrame Second Threshold(s), an alarmis reported.
A.6.4 QoS ParametersThis topic describes the parameters that are related to QoS.
A.6.4.1 Parameter Description: Diffserv Domain ManagementThis topic describes the parameters that are used for managing DiffServ domains.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
533
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Configuration > QoSManagement > Diffserv Domain Management > Diffserv Domain Management from theFunction Tree.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Mapping Relation ID 1 to 8 1 This parameter indicatesthe ID of the mappingrelation between DiffServdomains.
Mapping Relation Name - Default Map This parameter indicatesthe name of the mappingrelation between DiffServdomains.
NOTE
If one default DiffServ domain exists on the OptiX RTN 950 equipment, Mapping Relation ID is set to 1, andMapping Relation Name is set to Default Map. If these parameters are not set, all the ports belong to thisdomain.
Parameters for Ingress Mapping RelationParameter Value Range Default Value Description
CVLAN 0 to 7 - l This parameterindicates the priorityof the C-VLAN of theingress packets.
l C-VLAN indicates theclient-side VLAN, andthe value 7 indicatesthe highest priority.
SVLAN 0 to 7 - l This parameterindicates the priorityof the S-VLAN of theingress packets.
l S-VLAN indicates theserver-side VLAN,and the value 7indicates the highestpriority.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
534
Parameter Value Range Default Value Description
IP DSCP 0 to 63 - l This parameterindicates the DSCPpriority of the IPaddresses of theingress packets.
l The differentiatedservices code point(DSCP) refers to bits0-5 of thedifferentiated services(DS) field in the packetand indicates theservice class anddiscarding priority ofthe packet.
MPLS EXP 0 to 7 - l Displays the MPLSEXP value of ingresspackets.
l When a packet in anegress queue leaves anNNI port, the NNI portobtains the packetpriority valueaccording to themappings betweenPHB service classes ofegress queues andegress packetpriorities (MPLS EXPvalues), and writes theobtained priority valueinto the EXP field ofthe egress MPLSpacket.
NOTEThe MPLS EXP value canbe modified in the defaultDiffserv domain (DefaultMap) only.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
535
Parameter Value Range Default Value Description
PHB BEAF1AF2AF3AF4EFCS6CS7
- l This parameterindicates the per-hopbehavior (PHB)service class of theDiffServ domain.
l The PHB service classrefers to theforwarding behaviorof the DiffServ nodeon the behavioraggregate (BA)operation. Theforwarding behaviorcan meet the specificrequirements.
l The PHB serviceclasses are BE, AF1,AF2, AF3, AF4, EF,CS6, and CS7. Thepriorities (C_VLANpriority, S_VLANpriority, DSCP value,and MPLS EXP value)contained in thepackets of the DiffServdomain and the eightPHB service classesmeet the requirementsof the specified ordefault mappingrelation.
NOTEThe AF1 is classified intothree sub service classes,namely, AF11, AF12, andAF13, only one of which isvalid. It is the same casewith the AF2, AF3, andAF4.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
536
Parameters for Egress Mapping RelationParameter Value Range Default Value Description
PHB BEAF1AF2AF3AF4EFCS6CS7
- l This parameterindicates the PHBservice class of theDiffServ domain.
l The PHB service classrefers to theforwarding behaviorof the DiffServ nodeon the behavioraggregate (BA)operation. Theforwarding behaviorcan meet the specificrequirements.
l The PHB serviceclasses are BE, AF1,AF2, AF3, AF4, EF,CS6, and CS7. Thepriorities (C_VLANpriority, S_VLANpriority, DSCP valueand MPLS value)contained in thepackets of the DiffServdomain and the eightPHB service classesmeet the requirementsof the specified ordefault mappingrelation.
NOTEThe AF1 is classified intothree sub service classes,namely, AF11, AF12, andAF13, only one of which isvalid. It is the same casewith the AF2, AF3, andAF4.
CVLAN 0 to 7 - l This parameterindicates the priorityof the C-VLAN of theegress packets.
l C-VLAN indicates theclient-side VLAN, andthe value 7 indicatesthe highest priority.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
537
Parameter Value Range Default Value Description
SVLAN 0 to 7 - l This parameterindicates the priorityof the S-VLAN of theegress packets.
l S-VLAN indicates theserver-side VLAN,and the value 7indicates the highestpriority.
IP DSCP 0 to 63 - l This parameterindicates the DSCPpriority of the IPaddresses of theingress packets.
l The DSCP refers tobits 0-5 of the DS fieldin the packet andindicates the serviceclass and discardingpriority of the packet.
MPLS EXP 0 to 7 - l Displays the MPLSEXP value of egresspackets.
l When a packet arrivesat an NNI port, theNNI port obtains thepacket priority valuedepending on itstrusted priority type(MPLS EXP value)and specifies the PHBservice class of thepacket according to themappings betweenpacket priorities andPHB service classes.
NOTEThe MPLS EXP value canbe modified in the defaultDiffserv domain (DefaultMap) only.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
538
Parameters for Application PortsParameter Value Range Default Value Description
Port - - This parameter indicatesthe port that uses theDiffServ domain.
Packet Type CVLANSVLANIP-DSCPMPLS-EXP
CVLAN The packets trusted by theOptiX RTN 950 are theC_VLAN, S_VLAN andIP DSCP packets thatcontain the C_VLANpriority, S_VLANpriority, DSCP value orMPLS value. By default,the untrusted packets aremapped to the BE serviceclass for best-effortforwarding.NOTEl The trusted packet
priorities of a UNI portinclude DSCP value, C-VLAN priority, and S-VLAN priority. For theE-Line services that aretransparentlytransmitted end to end(UNI-UNI), a UNI portonly trusts DSCP value.
l An NNI port carryingMPLS/PWE3 servicestrusts only packets withMPLS EXP values.
l The trusted packetpriorities of a QinQ linkNNI port are configuredaccording to theplanning information.
A.6.4.2 Parameter Description: DiffServ Domain Management_CreateThis parameter describes the parameters that are used for creating DiffServ (DS) domains.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > QoS
Management > Diffserv Domain Management > Diffserv Domain Management fromthe Function Tree.
2. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
539
Parameters on the Main InterfaceParameter Value Range Default Value Description
Mapping Relation ID 2 to 8 - This parameter specifiesthe ID of the mappingrelationship of a DSdomain.
Mapping Relation Name - - This parameter specifiesthe name of the mappingrelationship of a DSdomain.
Parameters for Ingress Mapping RelationParameter Value Range Default Value Description
CVLAN 0 to 7 - l This parameterspecifies the C-VLANpriority of the ingresspackets.
l C-VLAN indicates theclient-side VLAN, andthe value 7 indicatesthe highest priority.
SVLAN 0 to 7 - l This parameterspecifies the S-VLANpriority of the ingresspackets.
l S-VLAN indicates theserver-side VLAN,and the value 7indicates the highestpriority.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
540
Parameter Value Range Default Value Description
IP DSCP 0 to 63 - l This parameterspecifies the DSCPpriority of the IPaddresses of theingress packets.
l The differentiatedservices code point(DSCP) refers to bits0-5 of thedifferentiated services(DS) field in the packetand indicates theservice class anddiscarding priority ofthe packet.
MPLS EXP - - l Displays the MPLSEXP value of ingresspackets.
l When a packet in anegress queue leaves anNNI port, the NNI portobtains the packetpriority valueaccording to themappings betweenPHB service classes ofegress queues andegress packetpriorities (MPLS EXPvalues), and writes theobtained priority valueinto the EXP field ofthe egress MPLSpacket.
NOTEThe MPLS EXP value canbe modified in the defaultDiffserv domain (DefaultMap) only.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
541
Parameter Value Range Default Value Description
PHB BEAF1AF2AF3AF4EFCS6CS7
- l This parameterindicates the PHBservice class of the DSdomain.
l The PHB service classrefers to theforwarding behaviorof the DS node on thebehavior aggregate(BA) operation. Theforwarding behaviorcan meet the specificrequirements.
l The PHB serviceclasses are BE, AF1,AF2, AF3, AF4, EF,CS6, and CS7. Thepriorities (C_VLANpriority, S_VLANpriority, DSCP valueand MPLS EXP value)contained in thepackets of the DSdomain and the eightPHB service classesmeet the requirementsof the specified ordefault mappingrelationship.
NOTEThe AF1 is classified intothree sub service classes,namely, AF11, AF12, andAF13, only one of which isvalid. It is the same casewith the AF2, AF3, andAF4.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
542
Parameters for Egress Mapping RelationParameter Value Range Default Value Description
PHB BEAF1AF2AF3AF4EFCS6CS7
- l This parameterindicates the PHBservice class of the DSdomain.
l The PHB service classrefers to theforwarding behaviorof the DS node on thebehavior aggregate(BA) operation. Theforwarding behaviorcan meet the specificrequirements.
l The PHB serviceclasses are BE, AF1,AF2, AF3, AF4, EF,CS6, and CS7. Thepriorities (C_VLANpriority, S_VLANpriority, DSCP valueand MPLS EXP value)contained in thepackets of the DSdomain and the eightPHB service classesmeet the requirementsof the specified ordefault mappingrelationship.
NOTEThe AF1 is classified intothree sub service classes,namely, AF11, AF12, andAF13, only one of which isvalid. It is the same casewith the AF2, AF3, andAF4.
CVLAN 0 to 7 - l This parameterspecifies the C-VLANpriority of the egresspackets.
l C-VLAN indicates theclient-side VLANpriority, and the value7 indicates the highestpriority.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
543
Parameter Value Range Default Value Description
SVLAN 0 to 7 - l This parameterspecifies the S-VLANpriority of the egresspackets.
l S-VLAN indicates theserver-side VLANpriority, and the value7 indicates the highestpriority.
IP DSCP 0 to 63 - l This parameterspecifies the DSCPpriority of the IPaddresses of the egresspackets.
l The differentiatedservices code point(DSCP) refers to bits0-5 of thedifferentiated services(DS) field in the packetand indicates theservice class anddiscarding priority ofthe packet.
MPLS EXP - - l Displays the MPLSEXP value of egresspackets.
l When a packet in anegress queue leaves anNNI port, the NNI portobtains the packetpriority valueaccording to themappings betweenPHB service classes ofegress queues andegress packetpriorities (MPLS EXPvalues), and writes theobtained priority valueinto the EXP field ofthe egress MPLSpacket.
NOTEThe MPLS EXP value canbe modified in the defaultDiffserv domain (DefaultMap) only.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
544
Parameters for Application PortsParameter Value Range Default Value Description
Board - - This parameter specifiesthe board that uses themapping relationshipsbetween DS domains.
Available Port - - This parameter displaysthe available port list fromwhich you can select theport that uses the mappingrelationships between DSdomains.
Port - - This parameter displaysthe selected port list. Theports in the list use themapping relationshipsbetween DS domains.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
545
Parameter Value Range Default Value Description
Packet Type cvlansvlanip-dscpmpls-exp
cvlan l This parameterspecifies the type ofthe packet.
l The packets trusted bythe OptiX RTN 950are the C_VLAN,S_VLAN, IP DSCPand MPLS packets thatcontain the C_VLANpriority, S_VLANpriority, DSCP valueor MPLS EXP value.By default, theuntrusted packets aremapped to the BEservice class for best-effort forwarding.
NOTEl The trusted packet
priorities of a UNI portinclude DSCP value, C-VLAN priority, and S-VLAN priority. For theE-Line services that aretransparentlytransmitted end to end(UNI-UNI), a UNI portonly trusts DSCP value.
l An NNI port carryingMPLS/PWE3 servicestrusts only packets withMPLS EXP values.
l The trusted packetpriorities of a QinQ linkNNI port are configuredaccording to theplanning information.
A.6.4.3 Parameter Description: DiffServ Domain Applied Port_Modification
This topic describes the parameters that are used for changing DiffServ (DS) domain appliedports.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > QoS
Management > Diffserv Domain Management > Diffserv Domain Management fromthe Function Tree.
2. Select the DS domain to be changed in the main interface.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
546
3. Click the Apply Port tab.4. Click Modify.
Parameters for Configuring the Applied PortsParameter Value Range Default Value Description
Mapping Relation Name - - This parameter indicatesthe name of the mappingrelation of a DS domain.
Packet Type CVLANSVLANIP-DSCPMPLS-EXP
CVLAN The packets trusted by theOptiX RTN 950 are the C-VLAN, S-VLAN, IPDSCP packets, and MPLSpackets that respectivelycontain the C-VLANpriority, S-VLANpriority, IP DSCP valueand MPLS EXP value. Bydefault, the untrustedpackets are mapped to theBE service class for best-effort forwarding.NOTEl The trusted packet
priorities of a UNI portinclude DSCP value, C-VLAN priority, and S-VLAN priority. For theE-Line services that aretransparentlytransmitted end to end(UNI-UNI), a UNI portonly trusts DSCP value.
l An NNI port carryingMPLS/PWE3 servicestrusts only packets withMPLS EXP values.
l The trusted packetpriorities of a QinQ linkNNI port are configuredaccording to theplanning information.
Board - - This parameter specifiesthe board where the port islocated.
Available Port - - This parameter indicatesthe available port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
547
Parameter Value Range Default Value Description
Selected Port - - This parameter indicatesthe selected port.The selected port isapplied to the DS domain.
NOTE
If one default DS domain exists on the OptiX RTN 950, Mapping Relation ID is set to 1, and Mapping RelationName is set to Default Map. If these parameters are not set, all the ports belong to this domain.
A.6.4.4 Parameter Description: Policy ManagementThis topic describes the parameters that are related to port policies.
Navigation Path (Port Policy)1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > QoS
Management > Policy Management > Port Policy from the Function Tree.2. Click the CoS Configuration tab.
Parameters (Port Policy)Parameter Value Range Default Value Description
Policy ID - - This parameter indicatesthe policy ID of the port.
Policy Name - - This parameter indicatesor specifies the policyname of the port.
WRR Scheduling Policy - - This parameter indicatesthe current WRRscheduling policy.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
548
Parameter Value Range Default Value Description
CoS CS7CS6EFAF4AF3AF2AF1BE
- l The BE, AF1, AF2,AF3, AF4, EF, CS6,and CS7 serviceclasses respectivelymap eight queuingentities. The OptiXRTN 950 providesdifferent QoS policiesfor the queues atdifferent serviceclasses.
l CS6-CS7: indicatesthe highest servicegrade, which is mainlyinvolved in signalingtransmission.
l EF: indicates fastforwarding. Thisservice class isapplicable to the trafficwhose delay is smalland packet loss ratio islow, for example,voice and videoservices.
l AF1-AF4: indicatesassured forwarding.This service class isapplicable to the trafficthat requires rateguarantee but does notrequire delay or jitterlimit.
l BE: indicates that thetraffic is forwarded inbest-effort mannerwithout specialprocessing.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
549
Parameter Value Range Default Value Description
Grooming Police AfterReloading
SPWRR
CS7, CS6, EF, BE: SPAF4, AF3, AF2, AF1:WRR
l The strict priority (SP)scheduling algorithmis designed for the keyservices. Oneimportantcharacteristic of thekey services is thathigher priorities arerequired to minimizethe response delay inthe case of congestionevents.
l The weighted roundrobin (WRR)scheduling algorithmdivides each port intomultiple output sub-queues. The pollingscheduling isperformed among theoutput sub-queues toensure that each sub-queue has a certainperiod of service time.
l The OptiX RTN 950supports the setting ofthe SP+WRRscheduling algorithmof the CoS queueaccording to therequirement, andprovides one or morequeues that complywith the SP algorithm.Except for the defaultvalue, however, thevalue of the WRRscheduling algorithmand the value of the SPscheduling algorithmcannot be interleaved.That is, except for thedefault value,Grooming PoliceAfter Reloading canbe changed from SP toWRR according to thequeue priorities in adescending order(CS7-BE).
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
550
Parameter Value Range Default Value Description
l This parameter is setaccording to theplanning information.
Bandwidth Limit DisabledEnabled
Disabled l This parameterindicates or specifieswhether trafficshaping is enabled foran egress queuecorresponding to aPHB service class.
l CIR (kbit/s), PIR(kbit/s), CBS (byte),and PBS (byte) can beset only whenBandwidth Limit isset to Enabled.
l This parameter is setaccording to theplanning information.
CIR(kbit/s) - - Traffic shaping for anegress queue uses thesingle token bucket twocolor marker algorithm.The value of the CIR mustbe equal to the value of thePIR. In actual trafficshaping processing, onlythe PIR is valid.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
551
Parameter Value Range Default Value Description
PIR(kbit/s) - - l When the buffer queueis empty, the packetsare processed asfollows: If the rate of apacket is equal to orlower than the PIR, itis directly forwarded;if the rate of a packet ishigher than the PIR, itenters the buffer queueand then is forwardedat a rate equal to thePIR.
l When the buffer queueis not empty, thepackets whose ratepasses the restrictionof the PIR directlyenter the buffer queueand then are forwardedat a rate equal to thePIR.
l This parameter is setaccording to theplanning information.
CBS(byte) - - l It is recommended thatyou set the value of theCBS equal to the valueof the PIR. In actualtraffic shapingprocessing, only thePBS is valid.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
552
Parameter Value Range Default Value Description
PBS(byte) - - l When the buffer queueis empty, certain burstpackets can beforwarded if the rate ofthe packets is equal toor lower than the PIRin a certain period. Themaximum traffic of theburst packets isdetermined by thePBS.
l This parameter is setaccording to theplanning information.
Navigation Path (WRR Scheduling Policy)1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > QoS
Management > Policy Management > WRR Scheduling Policy from the Function Tree.
Parameters (WRR Scheduling Policy)Parameter Value Range Default Value Description
Policy ID - - This parameter indicatesthe policy ID of the WRRscheduling policy.
Policy Name - - This parameter indicatesthe policy name of theWRR scheduling policy.
Scheduling Weight 1 to 100 - l The eight classes ofservice (CoSs),namely, BE, AF1,AF2, AF3, AF4, EF,CS6, and CS7correspond to eightqueues.
l The SchedulingWeight parameterindicates thepercentage of thebandwidth resourcesgained by the WRRqueue.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
553
A.6.4.5 Parameter Description: Port PolicyThis topic describes the parameters that are used for creating port policies.
Navigation Path (Creating a Port Policy)1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > QoS
Management > Policy Management > Port Policy from the Function Tree.2. Click the CoS Configuration tab.3. Click New. The Create Port Policy dialog box is displayed.
Parameters (Creating a Port Policy)Parameter Value Range Default Value Description
Policy ID - - This parameter specifiesthe policy ID of the port.
Automatically Assign SelectedDeselected
Deselected This parameter specifieswhether to automaticallyallocate the policy ID ofthe port policy. After thisparameter is selected, thesystem automaticallyallocates the policy ID,and then the policy IDcannot be set manually.
Policy Name - - This parameter specifiesthe policy name of theport.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
554
Parameter Value Range Default Value Description
WRR Scheduling Policy - - l This parameterspecifies the desiredWRR schedulingpolicy.
l The WRR weight setin the WRRscheduling policy onlyapplies to WRRqueues.
l When the total WRRweight value of allWRR queues equals to100%, the WRRweight set for eachqueue in the WRRscheduling policy isthe actual WRRweight. For example,when AF4, AF3, AF2,and AF1 are all WRRqueues and theirweight values are25%, 25%, 25%, and25% respectively,each queue is actuallyallocated with 25%total bandwidth.
l When the total WRRweight value of allWRR queues is lessthan 100%, the actualWRR weight isrecalculated based onthe proportionbetween the WRRweights of differentqueues set in the WRRscheduling policy. Forexample, when AF4,AF3, AF2, and AF1are all WRR queuesand their weight valuesare 20%, 20%, 20%,and 20% respectively,the actual bandwidthallocation weight ofeach queue will berecalculated based onthe proportion
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
555
Parameter Value Range Default Value Description
between the set WRRweight (1:1:1:1). Thatis, each queue isallocated with 25%total bandwidth.
CoS CS7CS6EFAF4AF3AF2AF1BE
- l The BE, AF1, AF2,AF3, AF4, EF, CS6,and CS7 serviceclasses respectivelymap eight queuingentities. The OptiXRTN 950 providesdifferent QoS policiesfor the queues atdifferent service class.
l CS6-CS7: indicatesthe highest servicegrade, which is mainlyinvolved in signalingtransmission.
l EF: indicates fastforwarding. Thisservice class isapplicable to the trafficwhose delay is smalland packet loss ratio islow, for example,voice and videoservices.
l AF1-AF4: indicatesassured forwarding.This service class isapplicable to the trafficthat requires rateguarantee but does notrequire delay or jitterlimit.
l BE: indicates that thetraffic is forwarded inbest-effort mannerwithout specialprocessing.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
556
Parameter Value Range Default Value Description
Grooming Police AfterReloading
SPWRR
CS7, CS6, EF, BE: SPAF4, AF3, AF2, AF1:WRR
l The strict priority (SP)scheduling algorithmis designed for the keyservices. Oneimportantcharacteristic of thekey services is thathigher priorities arerequired to minimizethe response delay inthe case of congestionevents.
l The weighted roundrobin (WRR)scheduling algorithmdivides each port intomultiple output sub-queues. The pollingscheduling isperformed among theoutput sub-queues toensure that each sub-queue has a certainperiod of service time.
l The OptiX RTN 950supports the setting ofthe SP+WRRscheduling algorithmof the CoS queueaccording to therequirement, andprovides one or morequeues that complywith the SP algorithm.Except for the defaultvalue, however, thevalue of the WRRscheduling algorithmand the value of the SPscheduling algorithmcannot be interleaved.That is, except for thedefault value,Grooming PoliceAfter Reloading canbe changed from SP toWRR according to thequeue priorities in adescending order(CS7-BE).
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
557
Parameter Value Range Default Value Description
l This parameter is setaccording to theplanning information.
Bandwidth Limit DisabledEnabled
Disabled l Bandwidth Limitindicates or specifieswhether trafficshaping is enabled foran egress queuecorresponding to aPHB service class.
l CIR (kbit/s), PIR(kbit/s), CBS (byte),and PBS (byte) can beset only whenBandwidth Limit isset to Enabled.
l This parameter is setaccording to theplanning information.
CIR(kbit/s) - - Traffic shaping for anegress queue uses thesingle token bucket twocolor marker algorithm.The value of the CIR mustbe equal to the value of thePIR. In actual trafficshaping processing, onlythe PIR is valid.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
558
Parameter Value Range Default Value Description
PIR(kbit/s) - - l When the buffer queueis empty, the packetsare processed asfollows: If the rate of apacket is equal to orlower than the PIR, itis directly forwarded;if the rate of a packet ishigher than the PIR, itenters the buffer queueand then is forwardedat a rate equal to thePIR.
l When the buffer queueis not empty, thepackets whose ratepasses the restrictionof the PIR directlyenter the buffer queueand then are forwardedat a rate equal to thePIR.
l This parameter is setaccording to theplanning information.
CBS(byte) - - l It is recommended thatyou set the value of theCBS equal to the valueof the PIR. In actualtraffic shapingprocessing, only thePBS is valid.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
559
Parameter Value Range Default Value Description
PBS(byte) - - l When the buffer queueis empty, certain burstpackets can beforwarded if the rate ofthe packets is equal toor lower than the PIRin a certain period. Themaximum traffic of theburst packets isdetermined by thePBS.
l This parameter is setaccording to theplanning information.
Navigation Path (Creating a WRR Scheduling Policy)1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > QoS
Management > Policy Management > WRR Scheduling Policy from the Function Tree.2. Click New. The Create WRR Policy dialog box is displayed.
Parameters (Creating a WRR Scheduling Policy)Parameter Value Range Default Value Description
Policy ID - - This parameter specifiesthe policy ID of the WRRscheduling policy.
Assign automatically SelectedDeselected
Deselected This parameter specifieswhether to automaticallyassign the policy ID of theWRR scheduling policy.If this parameter is set toSelected, the policy ID ofthe WRR schedulingpolicy can only beassigned automatically.Manual assignment is notavailable.
Policy Name - - This parameter specifiesthe policy name of theWRR scheduling policy.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
560
Parameter Value Range Default Value Description
Scheduling Weight 1 to 100 - l The eight classes ofservice (CoSs),namely, BE, AF1,AF2, AF3, AF4, EF,CS6, and CS7correspond to eightqueues.
l The SchedulingWeight parameterindicates thepercentage of thebandwidth resourcesgained by the WRRqueue.
l This parameter mustbe set to 0% for SPqueues.
l The scheduling weightsum of WRR queuesmust be 100%.
A.6.4.6 Parameter Description: Port Policy_Traffic Classification ConfigurationThis parameter describes the parameters that are used for creating traffic classification.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > QoS
Management > Policy Management > Port Policy from the Function Tree.2. Click the Traffic Classification Configuration tab.3. Click New.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Traffic Classification ID 1 to 512 - l This parameterspecifies the ID of thetraffic classification.
l The OptiX RTN 950supports a maximumof 512 flowclassifications.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
561
Parameter Value Range Default Value Description
ACL Action PermitDeny
Permit l The access control list(ACL) determineswhether to forward ordiscard the packetsthat enter the portaccording to thespecified matchingrules.
l When ACL Action isset to Permit, theingress port acceptsand then performs QoSprocessing for only thepackets that meet thespecified mappingrules.
l When ACL Action isset to Deny, theingress port discardsthe packets that meetthe specified mappingrules.
Ingress ParametersParameter Value Range Default Value Description
Logical RelationBetween Matched Rules
And And l This parameterspecifies the logicalrelationship betweenthe trafficclassificationmatching rules.
l The OptiX RTN 950supports the setting ofthe logical ANDbetween multiplematching rules.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
562
Parameter Value Range Default Value Description
Match Type DSCP ValueCVlan IDCVlan prioritySVlan IDSVlan priority
- l After you click Add orDelete, complextraffic classificationcan be performed onthe traffic that entersthe ingress portaccording to the presetmatching rules.
l In the case a specificservice, complextraffic classificationcan be divided intobasic traffic typesaccording to the DSCPvalue, C-VLAN ID, C-VLAN priority, S-VLAN ID, or S-VLAN priority.Traffic type is basedon the associatedEthernet packets.Therefore, thisparameter is setaccording to the packettype and the planninginformation.
Match Value DSCP Value: 0 to 63CVlan ID: 1 to 4094CVlan priority: 0 to 7SVlan ID: 1 to 4094SVlan priority: 0 to 7
- l If the matching valueof the packets is thesame as the presetMatch Value, thepackets match therules of complextraffic classification.
l This parameter is setaccording to theplanning information.
Wildcard - - This parameter has a fixedvalue of 0.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
563
Parameter Value Range Default Value Description
CoS -CS7CS6EFAF4AF3AF2AF1BE
- l This parameterspecifies the PHBservice class queuemapped by the trafficclassification packets.
l If this parameter is setto empty (-), the trafficclassification packetsmap the PHB serviceclass queue accordingthe mapping relationspecified in the topicabout Diffserv domainmanagement.
l This parameter is setaccording to theplanning information.
Bandwidth Limit DisabledEnabled
Enabled l This parameterindicates or specifieswhether the CARoperation is performedfor the flow in theingress direction.
l CIR (kbit/s), PIR(kbit/s), CBS (byte),and PBS (byte) can beset only whenBandwidth Limit isset to Enabled.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
564
Parameter Value Range Default Value Description
CIR(kbit/s) - - l When the rate of thepackets is not morethan the CIR, thepackets are markedblue and pass the CARpolicing. Thesepackets are firstforwarded in the caseof network congestion.
l When the rate of thepackets is more thanthe CIR but not morethan the PIR, thepackets whose rate ismore than the CIR canpass the restriction ofthe CAR and aremarked yellow. Theprocessing method ofthe packets markedyellow can be set to"Pass" or "Remark"."Remark" indicatesthat the packets aremapped into anotherspecified queue of ahigher priority (this isequal to changing thepriority of the packets)and then forwarded tothe next port. If anetwork congestionevent occurs again, thepackets markedyellow can beprocessed according tothe new priority.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
565
Parameter Value Range Default Value Description
PIR(kbit/s) - - l When the rate of thepackets is more thanthe PIR, the packetsthat exceed the raterestriction are markedred and directlydiscarded.
l When the rate of thepackets is more thanthe CIR but not morethan the PIR, thepackets whose rate ismore than the CIR canpass the restriction ofthe CAR and aremarked yellow. Theprocessing method ofthe packets markedyellow can be set to"Pass" or "Remark"."Remark" indicatesthat the packets aremapped into anotherspecified queue of ahigher priority (this isequal to changing thepriority of the packets)and then forwarded tothe next port. If anetwork congestionevent occurs again, thepackets markedyellow can beprocessed according tothe new priority.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
566
Parameter Value Range Default Value Description
CBS(byte) - - l During a certainperiod, if the rate of thepackets whoseprocessing method ismarked "Pass" is notmore than the CIR,certain burst packetsare allowed and can befirst forwarded in thecase of networkcongestion. Themaximum traffic of theburst packets isdetermined by theCBS.
l This parameter is setaccording to theplanning information.
PBS(byte) - - l During a certainperiod, if the rate of thepackets whoseprocessing method ismarked "Pass" is morethan the CIR but notmore than the PIR,certain burst packetsare allowed andmarked yellow. Themaximum traffic of theburst packets isdetermined by thePBS.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
567
Parameter Value Range Default Value Description
Coloration Mode Color Blindness Color Blindness l This parameterspecifies the CARoperation performedby the equipment onthe packets. Thepackets are dyedaccording to the resultof the CAR operation.The dying rule isdetermined by thecomparison betweenthe rate of the packetsand the preset CARvalue.
l The OptiX RTN 950supports ColorBlindness only.
Packet Color RedYellowGreen
- Packets can be dyed inthree colors: red, yellow,and green. The packets inred are first discarded.
Handling Mode DiscardPassRemark
- l This parameterspecifies the method ofhandling the packets.
l Discard: The packetsare discarded.
l Pass: The packets areforwarded.
l Remark: The packetsare remarked."Remark" indicatesthat the packets aremapped into anotherspecified queue of ahigher priority (this isequal to changing thepriority of the packets)and then forwarded tothe next port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
568
Parameter Value Range Default Value Description
Relabeled CoS CS7CS6EFAF4AF3AF2AF1BE
- If the handling method isset to "Remark", you canreset the CoS of thepackets.
Egress ParametersParameter Value Range Default Value Description
Bandwidth Limit DisabledEnable
Enable l This parameterindicates or specifieswhether the trafficshaping is performedin the egress function.
l CIR (kbit/s), PIR(kbit/s), CBS (byte),and PBS (byte) can beset only whenBandwidth Limit isset to Enabled.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
569
Parameter Value Range Default Value Description
CIR(kbit/s) - - l In the case that nopackets exist in theegress queue: Whenthe rate of the packetsis not more than theCIR, these packetsdirectly enter theegress queue.
l In the case that certainpackets exist in theegress queue: Thepackets whose ratepasses the restrictionof the PIR directlyenter the egress queue,which forwards thepackets to the next portat the CIR.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
570
Parameter Value Range Default Value Description
PIR(kbit/s) - - l In the case that nopackets exist in theegress queue: If therate of the packets ismore than the CIR butis not more than thePIR, the packetswhose rate is morethan the CIR enter theegress queue, whichforwards the packets tothe next port at theCIR. If the rate of thepackets is more thanthe PIR, the packetsare directly discarded.
l In the case that certainpackets exist in theegress queue: Thepackets whose ratepasses the restrictionof the PIR directlyenter the egress queue,which forwards thepackets to the next portat the CIR.
l This parameter is setaccording to theplanning information.
CBS(byte) - - l If the rate of thepackets is not morethan the CIR during acertain period, theburst packets aredirectly transmitted.The maximum trafficof the burst packets isdetermined by theCBS.
l This parameter is setaccording to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
571
Parameter Value Range Default Value Description
PBS(byte) - - l If the rate of thepackets is more thanthe CIR but is not morethan the PIR during acertain period, theburst packets enter theegress queue. Themaximum traffic of theburst packets isdetermined by thePBS.
l This parameter is setaccording to theplanning information.
A.6.4.7 Parameter Description: Port Shaping Management_Creation
This topic describes the parameters that are used for creating port shaping management tasks.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > QoS
Management > Port Shaping Management from the Function Tree.
2. Click New.
Parameters for Port Shaping Management
Parameter Value Range Default Value Description
Slot No. - - This parameter specifiesthe slot ID.
Port - - This parameter specifiesthe port.
CIR (kbit/s) - - Traffic shaping for anegress queue uses thesingle token bucket twocolor marker algorithm.The value of the CIR mustbe equal to the value of thePIR. In actual trafficshaping processing, onlythe PIR is valid.If the traffic shapingfunction is enabled, OptiXRTN 950 processes thepackets in the buffer
CBS (byte) - -
PIR (kbit/s) - -
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
572
Parameter Value Range Default Value Description
PBS (byte) - - queue through thefollowing methods whenno packets are available inthe queue.l When the buffer queue
is empty, the packetsare processed asfollows: If the rate of apacket is equal to orlower than the PIR, itis directly forwarded;if the rate of a packet ishigher than the PIR, itenters the buffer queueand then is forwardedat a rate equal to thePIR.
l When the buffer queueis empty, certain burstpackets can beforwarded if the rate ofthe packets is equal toor lower than the PIRin a certain period. Themaximum traffic of theburst packets isdetermined by thePBS.
l When the buffer queueis not empty, thepackets whose ratepasses the restrictionof the PIR directlyenter the buffer queueand then are forwardedat a rate equal to thePIR.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
573
A.7 Parameters for Ethernet Services and Ethernet Featureson the EoS/EoPDH Plane
This section describes the parameters for the Ethernet services and Ethernet features on the EoS/EoPDH plane, including service parameters, protocol parameters, OAM parameters, Ethernetport parameters, and QoS parameters.
A.7.1 Parameters for Ethernet ServicesThis section describes the parameters for EoS/EoPDH-plane Ethernet services.
A.7.1.1 Parameter Description: Ethernet Line Service_CreationThis section describes the parameters for creating an Ethernet line service.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Service > Ethernet Line Service from the Function Tree.2. Deselect Display QinQ Shared Service.3. Click New.
Parameters on the Main Interface
Table A-11 Parameters on the main interface
Parameter Value Range Default Value Description
Board - - Displays the board name.
Service Type EPLEVPL(QinQ)
EPL Specify the Ethernet service type to EPL.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
574
Parameter Value Range Default Value Description
Service Direction BidirectionalUnidirectional
Bidirectional l If this parameter is set toUnidirectional, you only need to createa service from the service source to theservice sink. That is, there is traffic onlyin the direction from the service sourceto the sink port.
l If this parameter is set to Bidirectional,you need to create a service from theservice source to the service sink and aservice from the service sink to theservice source. That is, there is traffic inthe direction from the service source tothe sink port and in the direction from theservice sink to the source port at the sametime.
l In normal cases, it is recommended thatyou set this parameter to Bidirectional.
Source Port - - l Specifies the port of the service source.l When you create bidirectional Ethernet
services from a PORT to a VCTRUNK,it is recommended that you set the PORTto the source port.
Source VLAN(e.g.1,3-6)
1-4095 - l This parameter can be set to null, anumber, or several numbers. Whensetting this parameter to severalnumbers, use the comma (,) to separatethe discrete numbers, or use the hyphen(-) to represent consecutive numbers. Forexample, the numbers 1, and 3-6 indicate1, 3, 4, 5, and 6.
l The number of VLANs must be the sameas the value of Sink VLAN(e.g. 1,3-6).
l If this parameter is set to null, all theservices at the source port are used as theservice source.
l If this parameter is not set to null, onlythe service that carries a specified VLANID at the source port can be used as theservice source.
Sink Port - - l Specifies the port of the service sink.l This parameter cannot take the same
value as Source Port.l When you create bidirectional Ethernet
services from a PORT to a VCTRUNK,it is recommended that you set theVCTRUNK to the sink port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
575
Parameter Value Range Default Value Description
Sink VLAN(e.g.1,3-6)
1-4095 - l This parameter can be set to null, anumber, or several numbers. Whensetting this parameter to severalnumbers, use the comma (,) to separatethe discrete numbers, or use the hyphen(-) to represent consecutive numbers. Forexample, the numbers 1, and 3-6 indicate1, 3, 4, 5, and 6.
l The number of VLANs must be the sameas the value of Source VLAN(e.g.1,3-6).
l If this parameter is set to null, all theservices at the sink port are used as theservice sink.
l If this parameter is not set to null, onlythe service that carries a specified VLANID at the sink port can be used as theservice sink.
Table A-12 Parameters for port attributes
Parameter Value Range Default Value Description
Port - - Displays the ports involved in the Ethernetservice.
Port Type - - Displays the network attribute of theEthernet port.
Port Enabled EnabledDisabled
- l When the source port or the sink port isset to a PORT, set Port Enabled toEnabled.
l This parameter need not be set when thesource port or sink port is a VCTRUNK.
TAG Tag AwareAccessHybrid
- l If all the accessed services are frameswith VLAN tags (tagged frames), set thisparameter to Tag Aware.
l If all the accessed services are frameswithout VLAN tags (untagged frames),set this parameter to Access.
l If the accessed services contain taggedframes and untagged frames, set thisparameter to Hybrid.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
576
Table A-13 Parameters for bound paths
Parameter Value Range Default Value Description
ConfigurablePorts
EFP8:VCTRUNK1-VCTRUNK16EMS6:VCTRUNK1-VCTRUNK8
VCTRUNK1 Specifies the VCTRUNK to bind paths.
Level - - Displays the level of the bound VC path.In the case of the EFP8 board, this parameteralways takes the value of VC12-Xv.
Service Direction BidirectionalUplinkDownlink
Bidirectional l Specifies the direction of the bound path.l Set this parameter to Bidirectional
unless otherwise specified.
AvailableResources
- - l Displays the available VC4 paths.l In the case of the EFP8 board, this
parameter always takes the value ofVC4-1.
l For EMS6 boards, when a VCTRUNKneeds to bind VC-12 paths, select VC-12paths only in VC-4-4s.
AvailableTimeslots
- - Specifies the available timeslots.
Bound Path - - You need to plan and set this parameteraccording to the following principles:l The capacity of the VCTRUNK is
determined by the actual bandwidthrequired by the services.
l The EFP8 board supports 16VCTRUNKs. Each VCTRUNK canbind a maximum of 16 VC-12 paths andthe total number of bound VC-12 pathscannot exceed 63.
l For EMS6 boards, their VCTRUNKs 1-7each support a maximum bandwidth of100 Mbit/s. If a bandwidth higher than100 Mbit/s is required, VCTRUNK8 isrecommended.
Number of BoundPaths
- - Displays the number of the bound VC path.
Activation Status - - Displays the activation status of the boundVC path.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
577
A.7.1.2 Parameter Description: Ethernet Line Service_Creating QinQ-BasedEthernet Line Services
This section describes the parameters associated with QinQ-based Ethernet line services, whichneed to be set on the NMS.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board, and choose Configuration > Ethernet
Service > Ethernet Line Service from the Function Tree.2. Select Display QinQ Shared Service.3. Click New.
Parameters on the Main Interface
Table A-14 Parameters on the main interface
Parameter Value Range Default Value Description
Board - - Displays the board name.
Service Type EPLEVPL(QinQ)
EPL Specifies the service type to EVPL(QinQ).
Direction BidirectionalUnidirectional
Bidirectional l When this parameter is set toUnidirectional, only the service fromthe service source to the service sink iscreated. That is, the service source isforwarded only to the sink port.
l When this parameter is set toBidirectional, both the service from theservice source to the service sink and theservice from the service sink to theservice source are created. That is, whenthe service source is forwarded to thesink port, the service sink is forwarded tothe source port.
l It is recommended that you set thisparameter to Bidirectional.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
578
Parameter Value Range Default Value Description
Operation Type l Add S-VLANl Transparently
transmit C-VLAN
l Transparentlytransmit S-VLAN
l Transparentlytransmit S-VLAN and C-VLAN
l Translate S-VLAN
l Translate S-VLAN andtransparentlytransmit C-VLAN
l Strip S-VLAN
Strip S-VLAN l When used for private line services,QinQ can process VLAN tags indifferent manners as required.
l When Service Direction is set toUnidirectional, you can set OperationType to Strip S-VLAN.
l Set this parameter according to actualsituations.
Source Port - - l Specifies the port where the servicesource resides.
l When creating a bidirectional Ethernetservice from a PORT to a VCTRUNK, itis recommended that you use the PORTas the source port.
Source C-VLAN(e.g. 1, 3-6)
1-4095 - l You can set this parameter to null, anumber, or several numbers. When youset this parameter to several numbers,use "," to separate these discrete valuesand use "-" to indicate continuousnumbers. For example, "1, 3-6" indicatesnumbers 1, 3, 4, 5, and 6.
l The number of VLANs set in thisparameter should be the same as thenumber of VLANs set in Sink C-VLAN(e.g. 1, 3-6).
l When you set this parameter to null, allthe services of the source port work asthe service source.
l When you set this parameter to a non-null value, only the services of the sourceport whose VLAN IDs are included inthe value range of this parameter work asthe service source.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
579
Parameter Value Range Default Value Description
Source S-VLAN 1-4095 - l This parameter must be set to anumerical value.
l Only the service of the source port whoseS-VLAN ID is equal to the value of thisparameter work as the service source.
Sink Port - - l Specifies the port where the service sinkresides.
l This parameter must be set to be a valuedifferent from Source Port.
l When creating a bidirectional Ethernetservice from a PORT to a VCTRUNK, itis recommended that you use theVCTRUNK as the sink port.
Sink C-VLAN(e.g.1, 3-6)
1-4095 - l You can set this parameter to null, anumber, or several numbers. When youset this parameter to several numbers,use "," to separate these discrete valuesand use "-" to indicate continuousnumbers. For example, "1, 3-6" indicatesnumbers 1, 3, 4, 5, and 6.
l The number of VLANs set in thisparameter should be the same as thenumber of VLANs set in Source C-VLAN(e.g. 1, 3-6).
l When you set this parameter to null, allthe services of the sink port work as theservice sink.
l When you set this parameter to a non-null value, only the services of the sinkport whose VLAN IDs are included inthe value range of this parameter work asthe service sink.
Sink S-VLAN 1-4095 - l This parameter must be set to anumerical value.
l Only the services of the sink port whoseS-VLAN IDs are equal to the value ofthis parameter work as the service sink.
C-VLAN Priority AUTO AUTO Displays the C-VLAN priority.
S-VLAN Priority AUTOPriority 0 to Priority7
AUTO Specifies the S-VLAN priority. The biggerthe value, the higher the priority.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
580
Table A-15 Parameters of port attributes
Parameter Value Range Default Value Description
Port - - Displays the ports that are configured totransmit the service.
Port Type - - Displays the network attribute of theEthernet port.
Port Enabled EnabledDisabled
- l When the source port or the sink port isset to a PORT, set Port Enabled toEnabled.
l This parameter need not be set when thesource port or sink port is a VCTRUNK.
TAG - - This parameter is invalid for QinQ lineservices.
Table A-16 Parameters for bound paths
Parameter Value Range Default Value Description
ConfigurablePorts
EFP8:VCTRUNK1-VCTRUNK16EMS6:VCTRUNK1-VCTRUNK8
VCTRUNK1 Specifies the VCTRUNK to bind paths.
Level - - Displays the level of the bound VC path.In the case of the EFP8 board, this parameteralways takes the value of VC12-Xv.
Service Direction BidirectionalUplinkDownlink
Bidirectional l Specifies the direction of the bound path.l Set this parameter to Bidirectional
unless otherwise specified.
AvailableResources
- - l Displays the available VC4 paths.l In the case of the EFP8 board, this
parameter always takes the value ofVC4-1.
l For EMS6 boards, when a VCTRUNKneeds to bind VC-12 paths, select VC-12paths only in VC-4-4s.
AvailableTimeslots
- - Specifies the available timeslots.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
581
Parameter Value Range Default Value Description
Bound Path - - You need to plan and set this parameteraccording to the following principles:l The capacity of the VCTRUNK is
determined by the actual bandwidthrequired by the services.
l The EFP8 board supports 16VCTRUNKs. Each VCTRUNK canbind a maximum of 16 VC-12 paths andthe total number of bound VC-12 pathscannot exceed 63.
l For EMS6 boards, their VCTRUNKs 1-7each support a maximum bandwidth of100 Mbit/s. If a bandwidth higher than100 Mbit/s is required, VCTRUNK8 isrecommended.
Number of BoundPaths
- - Displays the number of the bound VC path.
Activation Status - - Displays the activation status of the boundVC path.
A.7.1.3 Parameter Description: Ethernet Line ServiceThis section describes the parameters for Ethernet line services.
Navigation PathIn the NE Explorer, select the EFP8/EMS6 board from the Object Tree and chooseConfiguration > Ethernet Service > Ethernet Line Service from the Function Tree.
Parameters on the Main Interface
Table A-17 Parameters on the main interface (Display QinQ Shared Service is not selected)
Parameter Value Range Default Value Description
Board - - Displays the board name.
Service Type - - Displays the service type.
Service Direction - - Displays the service direction.
Source Port - - Displays the port of the service source.
Source VLAN - - Displays the VLAN ID of the service source.
Sink Port - - Displays the port of the service sink.
Sink VLAN - - Displays the VLAN ID of the service sink.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
582
Parameter Value Range Default Value Description
Activation Status - - Displays whether to activate the service.
Table A-18 Parameters on the main interface (Display QinQ Shared Service is selected)
Parameter Value Range Default Value Description
Board - - Displays the board name.
Service Type - - Displays the service type.
Service Direction - - Displays the service direction.
Source Port - - Displays the port of the service source.
Source C-VLAN - - Displays the VLAN ID of the service source.
Source S-VLAN - - l Displays the S-VLAN ID of the servicesource.
l This parameter can be set only for theQinQ-based EVPL service.
Sink Port - - Displays the port of the service sink.
Sink C-VLAN - - Displays the VLAN ID of the service sink.
Sink S-VLAN - - l Displays the S-VLAN ID of the servicesink.
l This parameter can be set only for theQinQ-based EVPL service.
C-VLAN Priority - - l Displays the priority of the C-VLAN.l This parameter can be set only for the
QinQ-based EVPL service.
S-VLAN Priority - - l Displays the priority of the S-VLAN.l This parameter can be set only for the
QinQ-based EVPL service.
Activation Status - - Displays whether to activate the service.
Table A-19 Parameters for port attributes
Parameter Value Range Default Value Description
Port - - Displays the port name.
Port Type - - Displays the network attribute of theEthernet port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
583
Parameter Value Range Default Value Description
Port Enabled - - When the source port or sink port is a PORT,this parameter indicates whether the port isenabled.
TAG - - Displays the tag attribute of the Ethernetport.
Table A-20 Parameters for bound paths
Parameter Value Range Default Value Description
VCTRUNK Port - - Displays the VCTRUNK that binds VCpaths.
Level - - Displays the level of the bound VC paths.
Service Direction - - Displays the direction of the bound VCpaths.
Bound Path - - Displays the serial numbers of the bound VCpaths.
Number of BoundPaths
- - Displays the number of the bound VC paths.
Activation Status - - Displays whether the bound VC paths areactivated.
A.7.1.4 Parameter Description: Ethernet LAN Service_Creation of Ethernet LANServices Based on IEEE 802.1d/802.1q Bridge
This section describes the parameters for creating an Ethernet LAN service.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Service > Ethernet LAN Service from the Function Tree.
2. Click New.
Parameters on the Main Interface
Table A-21 Parameters on the main interface
Parameter Value Range Default Value Description
Board - - Displays the board that is configured with abridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
584
Parameter Value Range Default Value Description
VB name - - Describes the bridge. It is recommended thatyou set this parameter to a character stringthat indicates the function of the bridge.
Bridge Type 802.1q802.1d802.1ad
802.1q l If this parameter is set to 802.1q, anIEEE 802.1q bridge is created.
l If this parameter is set to 802.1d, anIEEE 802.1d bridge is created.
Bridge SwitchMode
l IVL/IngressFilter Enable(supported by theIEEE 802.1qbridge and IEEE802.1ad bridge,unsupported bythe IEEE 802.1dbridge)
l SVL/IngressFilter Disable(supported by theIEEE 802.1dbridge and IEEE802.1ad bridge,unsupported bythe IEEE 802.1qbridge)
l IVL/IngressFilter Enable(IEEE 802.1qbridge and theIEEE 802.1adbridge)
l SVL/IngressFilter Disable(IEEE 802.1dbridge)
l When the bridge uses the SVL mode, allthe VLANs share one MAC addresstable. When the bridge uses the IVLmode, each VLAN has an MAC addresstable.
l When the filtering function is enabled atthe ingress port, the ingress port checksthe VLAN tags of all incoming packets.If the VLAN ID contained in the VLANtag of a packet is not included in theVLAN filtering table, the packet isdiscarded. When the filtering function isdisabled at the ingress port, the ingressport does not check any VLAN tag of theincoming packets.
Bridge LearningMode
- - Displays the learning mode of the bridge.
Ingress Filter - - Displays whether the filtering function isenabled at the ingress port.
MAC Address Self-learning
- - Displays whether the MAC address self-learning of the bridge is enabled.
Table A-22 Parameters for mounting services
Parameter Value Range Default Value Description
VB Port - - Displays the ID of the logical port on thebridge.
Mount Port - - Displays or specifies which physical port orVCTRUNK on the Ethernet switch board ismounted to the bridge.
Port Type - - Displays the network attribute of the portmounted to the bridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
585
Parameter Value Range Default Value Description
Port Enabled DisabledEnabled
- Displays or specifies whether the portmounted to the bridge is enabled.
TAG AccessTag AwareHybrid
- Displays or specifies the tag attribute of theport mounted to the bridge.
Default VLAN ID - - Displays or specifies the default VLAN IDof the port mounted to the bridge.This parameter is valid only when you setthe tag attribute of the port to Access orHybrid.
Working Mode Auto-Negotiation10M Half-Duplex10M Full-Duplex100M Half-Duplex100M Full-DuplexGE port: 1000MFull-Duplex
- Displays or specifies the working mode ofthe port mounted to the bridge.
Active - - Displays whether to activate the service.
Service Direction - - Displays the direction of the service.
C-VLAN - - The IEEE 802.1d/802.1q bridge does notsupport this parameter.
S-VLAN - - The IEEE 802.1d/802.1q bridge does notsupport this parameter.
S-VLAN Priority - - The IEEE 802.1d/802.1q bridge does notsupport this parameter.
C-VLAN Priority - - The IEEE 802.1d/802.1q bridge does notsupport this parameter.
Table A-23 Parameters for mounting configuration
Parameter Value Range Default Value Description
Available MountedPorts
- - Displays which physical port or VCTRUNKon the Ethernet switch board can be mountedto the bridge.
Selected MountedPorts
- - Displays which physical port or VCTRUNKon the Ethernet switch board is mounted tothe bridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
586
Table A-24 Parameters for bound paths
Parameter Value Range Default Value Description
ConfigurablePorts
EFP8:VCTRUNK1-VCTRUNK16EMS6:VCTRUNK1-VCTRUNK8
VCTRUNK1 Specifies the VCTRUNK to bind paths.
Level - - Displays the level of the bound VC path.In the case of the EFP8 board, this parameteralways takes the value of VC12-Xv.
Service Direction BidirectionalUplinkDownlink
Bidirectional l Specifies the direction of the bound path.l Set this parameter to Bidirectional
unless otherwise specified.
AvailableResources
- - l Displays the available VC4 paths.l In the case of the EFP8 board, this
parameter always takes the value ofVC4-1.
l For EMS6 boards, when a VCTRUNKneeds to bind VC-12 paths, select VC-12paths only in VC-4-4s.
AvailableTimeslots
- - Specifies the available timeslots.
Bound Path - - You need to plan and set this parameteraccording to the following principles:l The capacity of the VCTRUNK is
determined by the actual bandwidthrequired by the services.
l The EFP8 board supports 16VCTRUNKs. Each VCTRUNK canbind a maximum of 16 VC-12 paths andthe total number of bound VC-12 pathscannot exceed 63.
l For EMS6 boards, their VCTRUNKs 1-7each support a maximum bandwidth of100 Mbit/s. If a bandwidth higher than100 Mbit/s is required, VCTRUNK8 isrecommended.
Number of BoundPaths
- - Displays the number of the bound VC path.
Activation Status - - Displays the activation status of the boundVC path.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
587
A.7.1.5 Parameter Description: Ethernet LAN Service_Creating IEEE 802.1adBridge-Based Ethernet LAN Service
This section describes the parameters associated with IEEE 802.1ad bridge-based Ethernet LANservices, which need to be set on the NMS.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board, and then choose Configuration >
Ethernet Service > Ethernet LAN Service from the Function Tree.
2. Click New.
Parameters on the Main Interface
Table A-25 Parameters on the main interface
Parameter Value Range Default Value Description
Board - - Displays the board where the bridge isconfigured.
VB Name - - This parameter is a string that describes thebridge. It is recommended that you set thisparameter to a character string that containsthe information about the detailedapplication of the bridge.
Bridge Type 802.1q802.1d802.1ad
802.1q When this parameter is set to 802.1ad,create the IEEE 802.1ad bridge.
Bridge SwitchMode
l IVL/IngressFilter Enable(supported by the802.1q bridgeand 802.1adbridge,unsupported bythe 802.1dbridge)
l SVL/IngressFilter Disable(supported by the802.1d bridgeand 802.1adbridge,unsupported bythe 802.1qbridge)
l IVL/IngressFilter Enable (the802.1q bridgeand the 802.1adbridge)
l SVL/IngressFilter Disable(the 802.1dbridge)
l When the bridge uses the SVL mode, allthe VLANs share one MAC addresstable. When the bridge uses the IVLmode, all the VLANs correspond to theirrespective MAC address tables.
l If the ingress filter is enabled, the VLANtag is checked at the ingress port. If theVLAN ID does not equal the VLAN IDof the port defined in the VLAN filteringtable, the packet is discarded. If theingress filter is disabled, the precedingdescribed check is not conducted.
Bridge LearningMode
- - Displays the bridge learning mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
588
Parameter Value Range Default Value Description
Ingress Filter - - Displays whether the ingress filter functionis enabled.
MAC Address Self-learning
- - Displays whether the MAC address self-learning function of the bridge is enabled.
Table A-26 Parameters of service mounting
Parameter Value Range Default Value Description
VB Port - - Displays the ID of the logical port of thebridge.
Mount Port - - Displays or specifies the external port orVCTRUNK on the Ethernet switchingboard that is connected to the bridge.
Port Type - - Displays the network attribute of theexternal port/VCTRUNK connected to thebridge.
Port Enabled DisabledEnabled
- Displays or specifies whether the externalport connected to the bridge is enabled.
TAG - - This parameter is invalid in the case ofEthernet LAN services based on 802.1adbridge.
Default VLAN ID - - Displays or specifies the default VLAN ID.This parameter is valid only when TAG isset to Access or Hybrid.
Working Mode Auto-Negotiation10M Half-Duplex10M Full-Duplex100M Half-Duplex100M Full-DuplexGE port: 1000MFull-Duplex
Auto-Negotiation Displays or specifies the working mode ofthe external port.
Activate - - Displays whether the service is activated.
Service Direction - - Displays the service direction.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
589
Parameter Value Range Default Value Description
C-VLAN - - Displays or specifies the C-VLAN ID thatthe data frames carry.Is valid only when the bridge is an IEEE802.1ad bridge and Operation Type is setto Add S-VLAN Base for Port and C-VLAN.Specifies the mapping relationship betweenthe C-VLAN ID carried by the data framesand the S-VLAN ID to be added.
S-VLAN - - Displays or specifies the S-VLAN ID thatthe data frames carry.l When Operation Type is set to Add S-
VLAN Base for Port, this parameterspecifies that the data frames that enterthe IEEE 802.1ad bridge need to beadded with the S-VLAN ID.
l When Operation Type is set to Add S-VLAN Base for Port and C-VLAN,this parameter and C-VLAN specify themapping relationship between the S-VLAN ID to be added and the C-VLANID carried by the data frames that enterthe IEEE 802.1ad bridge.
l When Operation Type is set to MountPort, this parameter is invalid.
l When Operation Type is set to MountPort and Base for Port and S-VLAN,this parameter specifies the S-VLAN IDto be carried by the data frames that enterthe IEEE 802.1ad bridge.
S-VLAN Priority - - Displays or specifies the S-VLAN priority.
C-VLAN Priority - - Displays or specifies the C-VLAN priority.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
590
Table A-27 Parameters of service mounting
Parameter Value Range Default Value Description
Operation Type Add S-VLAN basefor portAdd S-VLAN basefor Port and C-VLANMount PortMount Port and basefor Port and S-VLAN
Add S-VLAN basefor port
For the meaning of each operation type, seeApplication of the QinQ Technology in802.1ad Bridge Services.
VB Port - - Specifies the ID of the logical port of thebridge.
Mount Port - - Selects the external port or VCTRUNK onthe Ethernet switching board that isconnected to the bridge.
Port Type - - Displays the port type.
C-VLAN 1-4095 - Is valid only when Operation Type is set toAdd S-VLAN Base for Port and C-VLAN.Specifies the mapping relationship betweenthe C-VLAN ID carried by the data framesand the S-VLAN ID to be added.
S-VLAN 1-4095 - l When Operation Type is set to Add S-VLAN Base for Port, this parameterspecifies that the data frames that enterthe IEEE 802.1ad bridge need to beadded with the S-VLAN ID.
l When Operation Type is set to Add S-VLAN Base for Port and C-VLAN,this parameter and C-VLAN specify themapping relationship between the S-VLAN ID to be added and the C-VLANID carried by the data frames that enterthe IEEE 802.1ad bridge.
l When Operation Type is set to MountPort, this parameter is invalid.
l When Operation Type is set to MountPort and Base for Port and S-VLAN,this parameter specifies the S-VLAN IDto be carried by the data frames that enterthe IEEE 802.1ad bridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
591
Parameter Value Range Default Value Description
S-VLAN Priority AUTOPriority 0 to Priority7
AUTO Specifies the S-VLAN priority.
C-VLAN Priority AUTO AUTO Specifies the C-VLAN priority.
Port Enabled - - Displays or specifies whether the externalport connected to the bridge is enabled.
Table A-28 Parameters for bound paths
Parameter Value Range Default Value Description
ConfigurablePorts
EFP8:VCTRUNK1-VCTRUNK16EMS6:VCTRUNK1-VCTRUNK8
VCTRUNK1 Specifies the VCTRUNK to bind paths.
Level - - Displays the level of the bound VC path.In the case of the EFP8 board, this parameteralways takes the value of VC12-Xv.
Service Direction BidirectionalUplinkDownlink
Bidirectional l Specifies the direction of the bound path.l Set this parameter to Bidirectional
unless otherwise specified.
AvailableResources
- - l Displays the available VC4 paths.l In the case of the EFP8 board, this
parameter always takes the value ofVC4-1.
l For EMS6 boards, when a VCTRUNKneeds to bind VC-12 paths, select VC-12paths only in VC-4-4s.
AvailableTimeslots
- - Specifies the available timeslots.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
592
Parameter Value Range Default Value Description
Bound Path - - You need to plan and set this parameteraccording to the following principles:l The capacity of the VCTRUNK is
determined by the actual bandwidthrequired by the services.
l The EFP8 board supports 16VCTRUNKs. Each VCTRUNK canbind a maximum of 16 VC-12 paths andthe total number of bound VC-12 pathscannot exceed 63.
l For EMS6 boards, their VCTRUNKs 1-7each support a maximum bandwidth of100 Mbit/s. If a bandwidth higher than100 Mbit/s is required, VCTRUNK8 isrecommended.
Number of BoundPaths
- - Displays the number of the bound VC path.
Activation Status - - Displays the activation status of the boundVC path.
A.7.1.6 Parameter Description: Ethernet LAN Service
This section describes the parameters for creating an Ethernet LAN service.
Navigation Path
In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and chooseConfiguration > Ethernet Service > Ethernet LAN Service from the Function Tree.
Parameters on the Main Interface
Table A-29 Parameters on the main interface
Parameter Value Range Default Value Description
Board - - Displays the board that is configured with abridge.
VB ID - - Displays the ID of the bridge.
VB Name - - This parameter is a character string thatdescribes the bridge. It is recommended thatyou set this character string to a value thatindicates the specific purpose of the bridge.
Bridge Type - - Displays the type of the bridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
593
Parameter Value Range Default Value Description
Bridge SwitchMode
- - Displays the switching mode of the bridge.
Bridge LearningMode
- - Displays the learning mode of the bridge.
Ingress Filter - - Displays whether the filtering function isenabled at the ingress port.
MAC Address self-Learning
- - Displays whether the MAC address self-learning of the bridge is enabled.
Active - - Displays whether to activate the service.
Table A-30 Parameters for mounting services
Parameter Value Range Default Value Description
VB Port - - Displays the ID of the logical port of thebridge.
Mount Port - - Displays or specifies which physical port orVCTRUNK on the Ethernet switch board ismounted to the bridge.
Port Type - - Displays the network attribute of the portmounted to the bridge.
Port Enabled - - Displays or specifies whether the portmounted to the bridge is enabled.
Hub/Spoke HubSpoke
Hub Displays or specifies the Hub/Spokeattribute of the port mounted to the bridge.l Hub ports can mutually access each
other.l Hub ports and Spoke ports can mutually
access each other.l Spoke ports cannot mutually access each
other.
TAG - - Displays or specifies the TAG attribute ofthe mounted port in the case of EthernetLAN services based on 802.1d bridge or802.1q bridge.This parameter is invalid in the case ofEthernet LAN services based on 802.1adbridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
594
Parameter Value Range Default Value Description
Default VLAN ID - - Displays or specifies the default VLAN IDof the port mounted to the bridge.This parameter is valid only when you setthe tag attribute of the port to Access orHybrid.
Working Mode - - Displays or specifies the working mode ofthe port mounted to the bridge.
Service Direction - - Displays the direction of the service.
C-VLAN - - Displays or specifies the C-VLAN IDcarried by the data frame.This parameter is valid only when the bridgeis an IEEE 802.1ad bridge and OperationType is Add S-VLAN Base for Port andC-VLAN.This parameter specifies the mappingrelation between the C-VLAN tag carried bythe data frame and the S-VLAN tag to beadded.
S-VLAN - - Displays or specifies the S-VLAN IDcarried by the data frame.l When Operation Type is set to Add S-
VLAN Base for Port, this parameterspecifies the S-VLAN to be added to thedata frames that enter the IEEE 802.1adbridge.
l When Operation Type is set to Add S-VLAN Base for Port and C-VLAN,this parameter and C-VLAN specify themapping relation between the S-VLANtag to be added and the C-VLAN tagcarried by the data frame that enters theIEEE 802.1ad bridge.
l When Operation Type is set to MountPort, this parameter is invalid.
l When Operation Type is set to MountPort and Base for Port and S-VLAN,this parameter specifies the S-VLAN tagto be carried by the data frames that enterthe IEEE 802.1ad bridge.
S-VLAN Priority - - Displays the priority of the S-VLAN.
C-VLAN Priority - - Displays the priority of the C-VLAN.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
595
Table A-31 Parameters for VLAN filtering table
Parameter Value Range Default Value Description
VLAN ID - - Displays the VLAN ID that needs to befiltered in forwarding.
VB Port - - Displays the ID of the logical port of thebridge.
ForwardingPhysical Port
- - Displays the actually specified forwardingport.l Selected forwarding ports can send
packets only among themselves.l Selected forwarding ports can only
forward the packet that carries theVLAN ID tag. These ports discard thepacket that carries other VLAN tags.
l The broadcast packets transmitted byany of Selected forwarding ports canbe forwarded only among Selectedforwarding ports.
Activation Status - - Displays whether the VLAN ID entry isvalid.
Table A-32 Parameters for VLAN unicast
Parameter Value Range Default Value Description
VLAN ID - - l This parameter is invalid for the 802.1dbridge and the 802.1ad bridge that adoptthe SVL learning mode. The entryapplies to all VLANs.
l In the case of the 802.1d bridge and the802.1ad bridge that adopt the SVLlearning mode, the entry applies to onlythe VLAN with the ID specified by thisparameter.
l Set this parameter according to theplanning information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
596
Parameter Value Range Default Value Description
MAC Address - - l Displays or specifies the static MACaddress.
l A static MAC address is an address thatis set manually. It does not ageautomatically and needs to be deletedmanually.
l Generally, a static MAC address is usedfor the port that receives but does notforward Ethernet service packets or theport whose MAC address need not ageautomatically.
VB Port - - Displays the ID of the logical port of thebridge.
Physical Port - - l Specifies the Ethernet port thatcorresponds to the MAC address.
l Set this parameter according to theplanning information.
Aging Status - - Displays the aging status of the entries.
Table A-33 Parameters for disabling MAC addresses
Parameter Value Range Default Value Description
VLAN ID(e.g.1,3-6)
- - Displays or specifies the VLAN ID of theservice. A disabled MAC address is valid forthe VLAN with the ID as specified by thisparameter.
MAC Address - - l Displays or specifies the disabled MACaddress. A disabled MAC address is alsocalled a blacklisted MAC address.
l The data frame that contains a disableddestination MAC address is discarded. Adisabled MAC address needs to be setmanually and does not age.
Table A-34 Parameters for bound paths
Parameter Value Range Default Value Description
VCTRUNK Port - - Displays the VCTRUNK to bind VC paths.
Level - - Displays the level of the bound VC paths.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
597
Parameter Value Range Default Value Description
Service Direction - - Displays the direction of the bound VCpaths.
Bound Path - - Displays the bound paths.
Number of BoundPaths
- - Displays the number of bound paths.
Table A-35 Parameters for self-learned MAC addresses
Parameter Value Range Default Value Description
MAC Address - - l Displays or specifies the self-learnedMAC address. A self-learned MACaddress is also called a dynamic MACaddress.
l The entries of self-learned MACaddresses are obtained when the bridgeuses the SVL or IVL learning mode. Aself-learned MAC address ages.
VB Port - - Displays the ID of the logical port of thebridge.
VLAN ID - - l If the bridge uses the SVL learningmode, this parameter is invalid. That is,the preset self-learned MAC addressentries are valid for all VLANs.
l If the bridge uses the IVL learning mode,the preset self-learned MAC addressentries are valid only for the VLAN withthe ID specified by this parameter.
l Set this parameter according to theplanning information.
Table A-36 Parameters for VLAN MAC address table capacity
Parameter Value Range Default Value Description
VLAN ID - - Displays the VLAN ID specified forquerying the self-learned MAC addresses.
Actual MACAddress TableCapacity
- - Displays how many MAC addresses areactually self-learned in the query conditionof a specific VLAN ID.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
598
Table A-37 Parameters for VB port MAC address table capacity
Parameter Value Range Default Value Description
VB Port - - Displays the ID of the logical port of thebridge. The ID is specified for querying theself-learned MAC addresses.
Actual MACAddress TableCapacity
- - Displays how many MAC addresses areactually self-learned in the query conditionof a specific VB port.
A.7.1.7 Parameter Description: VLAN Filtering Table_Creation
This section describes the parameters for creating VLAN filtering tables.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Service > Ethernet LAN Service from the Function Tree.
2. Select an IEEE 802.1q or 802.1ad bridge and click the VLAN Filtering tab.
NOTEIn the case of IEEE 802.1ad bridge-based Ethernet LAN services, the learning mode of the VB mustbe IVL.
3. Click New.
Parameters on the Main Interface
Table A-38 Parameters on the main interface
Parameter Value Range Default Value Description
VB - - Displays the bridge whose VLAN filteringtable is to be created.
VLAN ID(e.g.1,3-6)
1-4095 1 Specifies the VLAN IDs in the VLANfiltering table.l You can set this parameter to a number
or several numbers. When you set thisparameter to several numbers, use "," toseparate these discrete values and use "-"to indicate continuous numbers. Forexample, "1, 3-6" indicates numbers 1,3, 4, 5, and 6.
l Set this parameter as required.
Availableforwarding ports
- - Displays the ports mounted to the bridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
599
Parameter Value Range Default Value Description
Selectedforwarding ports
- - Displays the selected forwarding ports.l The selected forwarding ports can send
packets only among themselves.l The selected forwarding ports can only
forward the packet that carries theVLAN ID (e.g:1,3-6) tag. These portsdiscard the packet that carries otherVLAN tags.
l The broadcast packet that carries theVLAN ID(e.g.1,3-6) tag can beforwarded only among the selectedforwarding ports.
A.7.1.8 Parameter Description: Aging Time of MAC Address Table EntriesThis section describes the parameters associated with the aging time of MAC address tableentries, which need to be set on the NMS.
Navigation PathIn the NE Explorer, select the EFP8/EMS6 board, and choose Configuration > Layer-2Switching Management > Aging Time from the Function Tree.
Parameters on the Main Interface
Table A-39 Parameters on the main interface
Parameter Value Range Default Value Description
Board - - Displays the Ethernet board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
600
Parameter Value Range Default Value Description
MAC AddressAging Time
l 1 to 120 Minl 1 to 120 Hourl 1 to 12 Day
5 Min l If one entry is not updated in a certainperiod, that is, if no new packet from thisMAC address is received to enable there-learning of this MAC address, thisentry is deleted automatically. Thismechanism is called aging, and thisperiod is called the aging time.
l If you set this parameter to a very largevalue, the bridge stores excessive MACaddress table entries that are outdated,which exhausts the resources of theMAC address forwarding table.
l If you set this parameter to a very smallvalue, the bridge may delete the MACaddress table entry that is required,which reduces the forwardingefficiency.
l It is recommended that this parametertakes the default value.
NOTEThe maximum MAC Address Aging Timesupported by EFP8 and EMS6 boards is 12 days.
A.7.2 Parameters for Ethernet ProtocolsThis section describes the parameters for EoS/EoPDH-plane Ethernet protocols.
A.7.2.1 Parameter Description: ERPS Management_CreationThis topic describes the parameters that are used for creating ERPS management tasks.
Navigation Path1. In the NE Explorer, select the EMS6 board. Choose Configuration > Ethernet
Protection > ERPS Management.2. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
601
ParametersParameter Value Range Default Value Description
ERPS ID 1 to 7 - l This parameterspecifies the ID of theEthernet ringprotection switching(ERPS) instance.
l The IDs of ERPSinstances on an NEmust be different fromeach other.
East Port - - This parameter specifiesthe east port of the ERPSinstance.
West Port - - This parameter specifiesthe west port of the ERPSinstance.
RPL Owner Ring NodeFlag
YesNo
No l This parameterspecifies whether thenode on the ring is thering protection link(RPL) owner.
l Only one node on thering can be set as theRPL owner for eachEthernet ring.
l An RPL owner needsto balance the trafficon each link of anEthernet ring.Therefore, it is notrecommended that youselect a convergencenode as an RPL owner.Instead, select the NEthat is farthest awayfrom the convergencenode as an RPL owner.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
602
Parameter Value Range Default Value Description
RPL Port - - l This parameterspecifies the RPL port.
l There is only one RPLport and this RPL portmust be the east orwest port on the RPLowner node.
l It is recommended thatyou set the east port onan RPL owner as anRPL Port.
Control VLAN 1 to 4094 - l This parameterspecifies the VLAN IDof Control VLAN.
l Each node on theEthernet ring transmitsthe R-APS packets onthe dedicated ring APS(R-APS) channel toensure consistencybetween the nodeswhen the ERPSswitching isperformed. ControlVLAN is used forisolating the dedicatedR-APS channel.Therefore, the VLANID in Control VLANcannot be duplicatewith the VLAN IDsthat are contained inthe service packets.
l The ID of a ControlVLAN must not be thesame as any VLAN IDused by Ethernetservices. All ringnodes should use thesame Control VLANID.
Destination Node 01-19-A7-00-00-01 01-19-A7-00-00-01 This parameter indicatesthe MAC address of thedestination node. Thedefault destination MACaddress in the R-APSpackets is always 01-19-A7-00-00-01.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
603
A.7.2.2 Parameter Description: ERPS ManagementThis topic describes the parameters that are used for Ethernet ring protection switching (ERPS)management.
Navigation PathIn the NE Explorer, select the EMS6 board. Choose Configuration > Ethernet Protection >ERPS Management from the Function Tree.
ParametersParameter Value Range Default Value Description
ERPS ID 1 to 8 - This parameter indicatesthe ID of the ERPSinstance.
East Port - - This parameter indicatesthe east port of the ERPSinstance.
West Port - - This parameter indicatesthe west port of the ERPSinstance.
RPL Owner Ring NodeFlag
YesNo
- This parameter indicateswhether a node on the ringis the ring protection link(RPL) owner.
RPL Port - - This parameter indicatesthe RPL port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
604
Parameter Value Range Default Value Description
Control VLAN 1 to 4094 - l This parameterindicates or specifiesthe VLAN ID ofControl VLAN.
l Each node on theEthernet ring transmitsthe R-APS packets onthe dedicated ring APS(R-APS) channel toensure consistencybetween the nodeswhen the ERPSswitching isperformed. ControlVLAN is used forisolating the dedicatedR-APS channel.Therefore, the VLANID in Control VLANcannot be duplicatewith the VLAN IDsthat are contained inthe service packets orinband DCN packets.
l The Control VLANmust be set to the samevalue for all the NEson an ERPS ring.
Destination Node 01-19-A7-00-00-01 - This parameter indicatesthe MAC address of thedestination node. Thedefault destination MACaddress in the R-APSpackets is always 01-19-A7-00-00-01.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
605
Parameter Value Range Default Value Description
Hold-Off Time(ms) 0 to 10000, in step of 100 0 l This parameterindicates or specifiesthe hold-off time of theERPS hold-off timer.
l The hold-off timer isused for negotiatingthe protectionswitching sequencewhen the ERPScoexists with otherprotection schemes sothat the fault can berectified in the case ofother protectionswitching (such asLAG protection)before the ERPSoccurs. When a nodeon the ring detects oneor more new faults, itstarts up the hold-offtimer if the presethold-off time is set to avalue that is not 0.During the hold-offtime, the fault is notreported to trigger anERPS. When the hold-off timer times out, thenode checks the linkstatus regardlesswhether the fault thattriggers the startup ofthe timer exists. If thefault exists, the nodereports it to trigger anERPS. This fault canbe the same as ordifferent from the faultthat triggers the initialstartup of the hold-offtimer.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
606
Parameter Value Range Default Value Description
Guard Time(ms) 10 to 2000, in step of 10 500 l This parameterindicates or specifiesthe guard time of theERPS guard timer.
l The nodes on the ringcontinuously forwardthe R-APS packets tothe Ethernet ring. As aresult, the outdated R-APS packets may existon the ring network.After a node on thering receives theoutdated R-APSpackets, an incorrectERPS may occur. TheERPS guard timer is anR-APS timer used forpreventing a node onthe ring from receivingoutdated R-APSpackets. When a faultynode on the ringdetects that theswitching condition iscleared, the node startsup the guard timer andstarts to forward the R-APS (NR) packets.During this period, theR-APS packetsreceived by the nodeare discarded. Thereceived R-APSpackets are forwardedonly after the time ofthe guard timerexpires.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
607
Parameter Value Range Default Value Description
WTR Time(mm:ss) 5 to 12, in step of 1 5 l This parameterindicates or specifiesthe WTR time of theWRT timer in the caseof ERPS protection.
l The WTR time refersto the duration fromthe time when theworking channel isrestored to the timewhen the switching isreleased. When theworking channel isrestored, the WTRtimer of the RPLowner starts up. Inaddition, a signal thatindicates the operationof the WTR timer iscontinuously output inthe timing process.When the WTR timertimes out and noswitching request of ahigher priority isreceived, the signalindicating theoperation of the WTRtimer is nottransmitted. Inaddition, the WTRrelease signal iscontinuously output.
l The WTR timer is usedto prevent frequentswitching caused bythe unstable workingchannel.
Packet TransmitInterval(s)
1 to 10 5 This parameter displays orspecifies the interval forsending R-APS packetsperiodically.
Entity Level 0 to 7 4 This parameter indicatesor specifies the level of themaintenance entity.
Last Switching Request - - This parameter indicatesthe last switching request.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
608
Parameter Value Range Default Value Description
RB Status - - This parameter indicatesthe RB (RPL Blocked)status of the packetsreceived by the workingnode.l noRB: The RPL is not
blocked.l RB: The RPL is
blocked.
DNF Status - - This parameter indicatesthe DNF status of thepackets received by theworking node.l noDNF: The R-APS
packets do not containthe DNF flag. In thiscase, the packets areforwarded by the nodethat detects the fault ona non-RPL link, andthe node that receivesthe packets isrequested to clear theforwarding addresstable.
l DNF: The R-APSpackets contain theDNF flags. In thiscase, the packets areforwarded by the nodethat detects the fault onan RPL link, and thenode that receives thepackets is informednot to clear theforwarding addresstable.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
609
Parameter Value Range Default Value Description
State Machine Status - - This parameter indicatesthe status of the statemachine at the workingnode.l Idle: The Ethernet ring
is in normal state. Forexample, no node onthe Ethernet ringdetects any faults orreceives the R_APS(NR, RB) packets.
l Protection: TheEthernet ring is inprotected state. Forexample, a fault on thenode triggers theERPS, or a node on thering is in the WTRperiod after the fault isrectified.
Node Carried withCurrent Packet
- - This parameter indicatesthe MAC address carriedin the R-APS packetsreceived by the currentnode. The MAC addressrefers to the MAC addressof the source node thatinitiates the switchingrequest.
East Port Status - - Displays the status of theeast port.
West Port Status - - Displays the status of thewest port.
A.7.2.3 Parameter Description: Spanning Tree_Protocol Enabling
This section describes the parameters for the types of spanning tree protocols and for enablingthe spanning tree protocols.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Layer-2 Switching Management > Spanning Tree from the FunctionTree.
2. Click the Protocol Enabled tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
610
Parameters on the Main Interface
Table A-40 Parameters on the main interface
Parameter Value Range Default Value Description
VB - - Displays the created bridge.
Protocol Enabled EnabledDisabled
Disabled l Indicates whether to enable the spanningtree protocol.
l Try to avoid Layer 2 service loopbacksin the service networking. If no loopoccurs, you need not start the STP/RSTP.
l If the loop is already formed in theservice networking, you must start theSTP or RSTP.
Protocol Type STPRSTP
RSTP l This parameter is valid only whenProtocol Enabled is Enabled.
l The protocol type should be setaccording to the requirement of theinterconnected Ethernet equipment. Thedefault value is recommended unlessotherwise specified.
A.7.2.4 Parameter Description: Spanning Tree_Bridge ParametersThis section describes the parameters for the spanning tree protocol.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Layer-2 Switching Management > Spanning Tree from the FunctionTree.
2. Click the Bridge Parameters tab.
Parameters on the Main Interface
Table A-41 Parameters on the main interface
Parameter Value Range Default Value Description
VB - - Displays the created bridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
611
Parameter Value Range Default Value Description
Priority 0-61440 32768 l The most significant 16 bits of the bridgeID indicate the priority of the bridge.
l When the value is smaller, the priority ishigher. As a result, the bridge is morelikely to be selected as the root bridge.
l If the priorities of all the bridges on theSTP network take the same value, thebridge whose MAC address is thesmallest is selected as the root bridge.
MAC Address - - Displays the MAC address of a bridge.
Max Age(s) 6-40 20 l Indicates the maximum age of theCBPDU packet that is recorded by theport.
l The greater the value, the longer thetransmission distance of the CBPDUpacket, and the greater the networkdiameter. When the value of thisparameter is greater, however, the linkfault detection of the bridge is slower andthus the network adaptability is reduced.
Hello Time(s) 1-10 2 l Indicates the interval for transmittingCBPDU packets through the bridge.
l The greater the value of this parameter,the less the network resources that areoccupied by the spanning tree. As thevalue of this parameter increases,however, the topology stabilitydecreases.
Forward Delay(s) 4-30 15 l Indicates the holding time of a port in thelistening state and in the learning state.
l The greater the value, the longer thedelay of the network state change.Therefore, the topology changes areslower and recovery in the case of faultsis slower.
TxHoldCout(persecond)
1-10 6 Indicates how many times the port transmitsCBPDU packets in every second.
A.7.2.5 Parameter Description: Spanning Tree_Port ParametersThis section describes the parameters associated with the spanning tree protocol, which need tobe set on the NMS.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
612
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board, and choose Configuration > Layer-2
Switching Management > Spanning Tree from the Function Tree.2. Click the Port Parameters tab.
Parameters on the Main Interface
Table A-42 Parameters on the main interface
Parameter Value Range Default Value Description
Port - - Displays the created bridge.
Priority 0-240 128 l The most significant eight bits of the portID indicate the port priority.
l The smaller the value of this parameter,the higher the priority.
Port Path Cost 1-200000000 - l Indicates the status of the network towhich the port is connected.
l In the case of the bridges on both ends ofthe path, set this parameter to the samevalue.
Status - - Displays the state of a port.
Admin EdgeAttribute
EnabledDisabled
Disabled l Is valid only when the RSTP is used.l Specifies whether to set the port to an
edge port. The edge port refers to thebridge port that is connected only to theLAN. The edge port receives the BPDUand does not transmit the BPDU.
l Set this parameter to Enabled only whenthe Ethernet port on the Ethernet boardis directly connected to the datacommunication terminal equipment,such as a computer. In other cases, it isrecommended that this parameter takesthe default value.
Protocol Enabled EnabledDisabled
Enabled l Specifies whether the STP or RSTP isenabled for the port.
l When this parameter is set to Disabled,the port does not process or transmit theBPDU.
l It is recommended that this parametertakes the default value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
613
Parameter Value Range Default Value Description
Auto EdgeDetection
EnabledDisabled
Disabled l Is valid only when Admin EdgeAttribute is set to Enabled.
l When this parameter is set to Enabled,if the bridge detects that this port isconnected to the port of another bridge,the RSTP considers this port as a non-edge port.
l When Admin Edge Attribute is set toEnabled, set this parameter toEnabled. In other cases, it isrecommended that this parameter takesthe default value.
A.7.2.6 Parameter Description: Spanning Tree_Bridge Running Information
This section describes the parameters associated with the type and enabled status of the spanningtree protocol, which need to be set on the NMS.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board, and choose Configuration > Layer-2
Switching Management > Spanning Tree from the Function Tree.
2. Click the Bridge Running Information tab.
Parameters on the Main Interface
Table A-43 Parameters on the main interface
Parameter Value Range Default Value Description
VB - - Displays the created bridge.
Priority - - Displays the priority of the bridge. The mostsignificant 16 bits of the bridge ID indicatethe priority of the bridge.
MAC Address - - Displays the MAC address of the bridge.
Designed RootBridge Priority
- - Displays the priority of the specified bridge.
Designed RootBridge MACAddress
- - Displays the MAC address of the specifiedbridge.
Root Path Cost - - Displays the root path cost. The root pathcost is the path cost of the root port and isused for calculating the network topology.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
614
Parameter Value Range Default Value Description
Root Port - - Displays the root port of the spanning treeprotocol.
Max Age(s) - - Displays the maximum age of the CBPDUpacket that is recorded by the port.
Hello Time(s) - - Displays the interval for transmitting theCBPDU packets through the bridge.
Forward Delay(s) - - Displays the holding time of a port inlistening state and in learning state.
HoldCout - - Displays the number of times that each porttransmits CBPDU packets per second.
A.7.2.7 Parameter Description: Spanning Tree_Port Running Information
This section describes the parameters associated with the type and enabled status of the spanningtree protocol, which need to be set on the NMS.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board, and choose Configuration > Layer-2
Switching Management > Spanning Tree from the Function Tree.
2. Click the Port Running Information tab.
Parameters on the Main Interface
Table A-44 Parameters on the main interface
Parameter Value Range Default Value Description
Port - - Displays the logical port of the bridge.
Port ID - - Displays the port ID.
Port Status - - Displays the port status.
Port Path Cost - - Displays the port path cost.
Designated Port D - - Displays the ID of the specified port.
Designated RootBridge Priority
- - Displays the priority of the specified rootbridge.
Designated RootBridge MACAddress
- - Displays the MAC address of the specifiedroot bridge.
Designated PathCost
- - Displays the specified path cost.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
615
Parameter Value Range Default Value Description
Designated BridgePriority
- - Displays the priority of the specified bridge.
Designated BridgeMAC Address
- - Displays the MAC address of the specifiedbridge.
TopologyDetection
- - Displays the enabled status of topologydetection.
Edge Port Status - - Displays the enabled status of the edge port.
Running Time(s) - - Displays the duration when the topologyremains unchanged.
A.7.2.8 Parameter Description: Spanning Tree_Point-to-Point AttributeThis section describes the parameters associated with the point-to-point attribute of the spanningtree protocol, which need to be set on the NMS.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board, and choose Configuration > Layer-2
Switching Management > Spanning Tree from the Function Tree.2. Click the Point to Point Attribute tab.
Parameters on the Main Interface
Table A-45 Parameters on the main interface
Parameter Value Range Default Value Description
Port - - Displays the internal and external ports onthe Ethernet board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
616
Parameter Value Range Default Value Description
Point-to-pointAttribute
AdaptiveconnectionLink connectionShared media
Adaptive connection l This parameter is valid only when theRSTP is used.
l If this parameter is set to Adaptiveconnection, the bridge determines theactual point-to-point attribute of the portaccording to the actual working mode ofthe port. If the port works in full-duplexmode, the actual point-to-point attributeof the port is True. If the port works inhalf-duplex mode, the actual point-to-point attribute of the port is False.
l If you set this parameter to Linkconnection, the actual point-to-pointattribute of the port is True.
l If you set this parameter to Sharedmedia, the actual point-to-point attributeof the port is False.
l Only the port whose actual point to pointattribute is True can transmit the fasttransition request and responsemessages.
l It is recommended that this parametertakes the default value.
A.7.2.9 Parameter Description: IGMP Snooping Protocol_EnablingThis section describes the parameters for enabling the IGMP snooping protocol.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Layer-2 Switching Management > IGMP Snooping Protocol from theFunction Tree.
2. Click the Enable IGMP Snooping Protocol tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Board - - Displays the board name.
VB - - Displays the ID of the bridge.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
617
Parameter Value Range Default Value Description
Protocol Enable EnabledDisabled
Disabled l Specifies whether to enable the IGMPsnooping protocol.
l If the IGMP multicast router exists onthe interconnected Ethernet network,enable the IGMP snooping protocolaccording to the requirements of therouter.
The Discarded Tagof the PacketExcluded in theMulticast Group
Disabled Disabled l This parameter specifies the method ofthe port to process unknown multicastpackets. When the IEEE 802.1q or802.1ad bridge receives the multicastpackets whose multicast addresses arenot included in the multicast table, thesepackets are considered as unknownpackets.
l This parameter is valid only whenProtocol Enable is Enabled.
l If this parameter is set to Disabled,unknown multicast packets arebroadcast in the VLAN.
l Set this parameter as required by theIGMP multicast server.
Max.Non-Response Times
1 to 4 3 If the bridge transmits an IGMP group querypacket to the multicast member ports, therouter port starts the timer for the query ofthe maximum response time. If the bridgedoes not receive the IGMP report packetwithin the maximum response time, thebridge adds one to the no-response times ofthe multicast member port. When the no-response times of the port exceed the presetthreshold, the bridge deletes the multicastmember from the multicast group.
A.7.2.10 Parameter Description: IGMP Snooping Protocol_Creation of StaticMulticast Table Entries
This section describes the parameters for creating static multicast table entries.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Layer-2 Switching Management > IGMP Snooping Protocol from theFunction Tree.
2. Click the Static Multicast Table tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
618
3. Click New.
Parameters on the Main InterfaceParameter Value Range Default Value Description
VB ID - - Displays the ID of the created bridge.
VLAN ID - - Specifies the VLAN ID of the staticmulticast table entry.
MAC Address - - l Specifies the MAC address in the staticmulticast table.
l Set this parameter as required.
Multicast Port - - l Specifies the port as an entry in the staticmulticast table.
l An entry in the static multicast table doesnot age.
A.7.2.11 Parameter Description: IGMP Snooping Protocol_Aging Time of MulticastTable Entries
This section describes the parameters for the aging time of multicast table entries.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Layer-2 Switching Management > IGMP Snooping Protocol from theFunction Tree.
2. Click the Multicast Aging Time tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Board - - Displays the board name.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
619
Parameter Value Range Default Value Description
Multicast AgingTime(Min)
1-120 8 l Specifies the aging time for multicasttable entries. When a dynamic multicasttable entry is not updated in a certainperiod (that is, no IGMP request fromthis multicast address is received), thisentry is automatically deleted. Thismechanism is called aging, and thisperiod is called aging time.
l If this parameter is set to a very greatvalue, the bridge stores excessivemulticast table entries that are no longerneeded, which exhausts the resources ofthe multicast table.
l If this parameter is set to a very smallvalue, the bridge may delete themulticast table entry that is needed,which reduces the forwardingefficiency.
l The default value is recommended.
A.7.2.12 Parameter Description: Ethernet Link Aggregation_Creation of LAGsThis topic describes the parameters for creating a link aggregation group (LAG).
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Interface Management > Ethernet Link AggregationManagement from the Function Tree.
2. Click the Link Aggregation Group Management tab.3. Click New.
Attribute ParametersParameter Value Range Default Value Description
LAG No EFP8: 1-12EMS6: 1-8
1 Specifies the LAG number.
LAG Name - - Specifies the LAG name.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
620
Parameter Value Range Default Value Description
LAG Type StaticManual
Static l Static: A static LAG is created by theuser. To add or delete a member port, youneed to run the Link AggregationControl Protocol (LACP) protocol. In astatic LAG, a port can be in selected,standby, or unselected state. By runningthe LACP protocol, devices exchangeaggregation information so that theyshare the same aggregation information.
l Manual: A manual LAG is created by theuser. When you add or delete a memberport, you need not run the LACPprotocol. In a manual LAG, a port can bein the UP or DOWN state. The systemdetermines whether to aggregate a portaccording to its physical state (UP orDOWN), working mode, and rate.
Load Sharing SharingNon-Sharing
Sharing l Sharing: In a sharing LAG, all memberports always share the traffic load. Thesharing mode can improve bandwidthutilization on a link. When the memberports are changed or some member portsfail, the traffic load of each member portis automatically re-allocated.
l Non-Sharing: In a non-sharing LAG,only one member port carries the trafficload and the other member ports are inStandby state. Actually, a non-sharingLAG works in hot-standby mode. Whenthe active port fails, the system selects astandby port to substitute for the failedport, thus preventing a link failure.
Sharing Mode IP Sharing ModeMAC Sharing Mode
IP Sharing Mode You can set this parameter only when LoadSharing is Sharing.
Revertive Mode RevertiveNon-Revertive
Revertive l You can set this parameter only whenLoad Sharing is Non-Sharing.
l If this parameter is set to Revertive,services are automatically switched backto the working path after the workingpath recovers.
l If this parameter is set to Non-Revertive, services are still transmittedin the protection path after the workingpath recovers and the LAG remains thesame.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
621
Port Setting ParametersParameter Value Range Default Value Description
Main Port - - l Specifies the main port in a LAG.l After a LAG is created, you can add
Ethernet services to the main port only.That is, services cannot be added to aslave port.
l When Load Sharing is set to Non-Sharing, the link connected to the mainport is the working path and the linksconnected to the slave ports areprotection paths.
Available StandbyPorts
- - l Specifies the salve port in a LAG.l After a LAG is created, you need to
perform manual operations to add ordelete a slave port.
Selected StandbyPorts
- - Displays the selected slave ports.
A.7.2.13 Parameter Description: Ethernet Link Aggregation_Link AggregationThis section describes the parameters for port priorities and system priorities.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Interface Management > Ethernet Link AggregationManagement from the Function Tree.
2. Click the Link Aggregation Parameters tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - Displays the port name.
Port Priority 0-65535 32768 l This parameter is valid only when LAGType of a LAG is set to Static.
l This parameter indicates the priorities ofthe ports in a LAG as defined in theLACP protocol. The smaller the value,the higher the priority.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
622
Parameters for the system settingsParameter Value Range Default Value Description
System Priority 0-65535 32768 l This parameter is valid only when LAGType of a LAG is set to Static.
l This parameter indicates the priority of aLAG. The smaller the value, the higherthe priority.
l When the local LAG and the oppositeLAG negotiate through LACP packets,one can obtain the system priority of theother. The LAG with the higher systempriority is considered as the comparisonresult. Then, the aggregationinformation is consistent at both ends. Ifthe local LAG and the opposite LAGhave the same system priority, the MACaddresses are compared. The LAG witha lower MAC address is considered asthe comparison result. Then, theaggregation information is consistent atboth ends.
System MACAddress
- - Displays the MAC address of the system.
A.7.2.14 Parameter Description: LPT Management_Creation of Point-to-PointService LPT
This section describes the parameters for creating point-to-point service LPT.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Interface Management > LPT Management from theFunction Tree.
2. Click Query.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - Displays the port name.
VCTRUNK Port - - Displays the VCTRUNK used by theEthernet service.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
623
Parameter Value Range Default Value Description
Direction - - l Displays the direction of the Ethernetservice at the port.
l The service direction is set to positivewhen the source port is a PORT and thesink port is a VCTRUNK; the servicedirection is set to reverse when thesource port is a VCTRUNK and the sinkport is a PORT.
LPT YesNo
No Specifies whether to enable the LPT.
Bearer Mode GFP(HUAWEI)EthernetGFP-CSF
GFP(HUAWEI) l Specifies the bearer mode of the LPTpackets.
l The default value is recommended.
PORT-Type PortHold-Off Time(ms)
0-10000 100 l When the link on which Ethernetservices are transmitted is configuredwith other protection schemes, you needto set the hold-off time of LPT. Thisenables the NE to notify the equipmentat both ends of a transmission network ofthe fault on the transmission link onlywhen the other protection schemes fail.
l This parameter is valid only in thepositive direction of LPT.
VCTRUNK PortHold-Off Time(ms)
0-10000 100 l When the link on which Ethernetservices are transmitted is configuredwith other protection schemes, you needto set the hold-off time of LPT. Thisenables the NE to notify the equipmentat both ends of a transmission network ofthe fault on the transmission link onlywhen the other protection schemes fail.
l This parameter is valid only in thereverse direction of LPT.
A.7.2.15 Parameter Description: LPT Management_Creation of Point-to-MultipointService LPT
This section describes the parameters for creating point-to-multipoint service LPT.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Interface Management > LPT Management from theFunction Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
624
2. Click PtoMP LPT. Then, the LPT Management dialog box appears.3. Click New.
Parameters for Convergence PointsParameter Value Range Default Value Description
Port - - Specifies the port of the convergence point.
Bearer Mode GFP(HUAWEI)EthernetGFP-CSF
GFP(HUAWEI) l This parameter can be set only when theselected port is a VCTRUNK.
l The default value is recommended.
Port Hold-OffTime(ms)
0-10000 0 When the link on which Ethernet servicesare transmitted is configured with otherprotection schemes, you need to set thehold-off time of LPT. This enables the NEto notify the equipment at both ends of atransmission network of the fault on thetransmission link only when the otherprotection schemes fail.
Parameters for Access PointsParameter Value Range Default Value Description
Port - - Specifies the port at the access node.
Bearer Mode GFP(HUAWEI)EthernetGFP-CSF
GFP(HUAWEI) l This parameter can be set only when theselected port is a VCTRUNK.
l The default value is recommended.
A.7.2.16 Parameter Description: Port Mirroring_CreationThis section describes the parameters for creating port mirroring tasks.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Interface Management > Port Mirroring from the FunctionTree.
2. Click New.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Board - - Displays the board name.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
625
Parameter Value Range Default Value Description
Mirror ListenerPort
- - l After the mirroring function of the portis configured, you can monitor all themirrored ports by analyzing the packetsat the mirroring port only. As a result,you can easily manage the ports.
l Mirror Listener Port indicates the portthat sends the packets copied fromUplink Listened Port and DownlinkListened Port.
l Mirror Listener Port cannot be set to aport that carries any service.
MirroredUpstream Port
- - l Mirrored Upstream Port andMirrored Downstream Port indicatethe ports that copy packets for MirrorListener Port.
l Mirrored Upstream Port can be aPORT or a VCTRUNK. As a PORT, theport copies the packets that it receives;as a VCTRUNK, the port copies thepackets that it transmits. MirrorListener Port sends the packets copiedfrom Mirrored Upstream Port.
l Mirrored Downstream Port can be aPORT or a VCTRUNK. As a PORT, theport copies the packets that it transmits;as a VCTRUNK, the port copies thepackets that it receives. Mirror ListenerPort sends the packets copied fromMirrored Downstream Port.
NOTEThe transmit direction and receive directionmentioned in this section are related to the localNE.
MirroredDownstream Port
- -
A.7.3 Parameters for the Ethernet OAMThis section describes the parameters for the Ethernet OAM on the EoS/EoPDH plane.
A.7.3.1 Parameter Description: Ethernet Service OAM_Creation of MDsThis topic describes the parameters for creating maintenance domains (MDs).
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
626
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Maintenance > Ethernet Service OAM from the FunctionTree.
2. In the right pane, click OAM Configuration.
3. Click New and choose Create MD from the drop-down list.
Parameters on the Main Interface
Table A-46 Parameters on the main interface
Parameter Value Range Default Value Description
Maintenance DomainName
For example: MD1 - Specifies the name of theMD.
Maintenance DomainLevel
Consumer High(7)Consumer Middle(6)Consumer Low(5)Provider High(4)Provider Low(3)Operator High(2)Operator Middle(1)Operator Low(0)
Operator Low(0) Specifies the level of theMD. The greater the value,the higher the level.
A.7.3.2 Parameter Description: Ethernet Service OAM_Creation of MAs
This section describes the parameters for creating maintenance associations (MAs).
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Maintenance > Ethernet Service OAM from the FunctionTree.
2. In the right pane, click OAM Configuration.
3. Click New and choose Create MA from the drop-down list.
Parameters on the Main Interface
Table A-47 Parameters on the main interface
Parameter Value Range Default Value Description
Maintenance DomainName
For example: MD1 - Displays the MD in whichan MA is to be created.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
627
Parameter Value Range Default Value Description
MaintenanceAssociation Name
For example: MA1 - This parameter specifiesthe name of the MA,which is a service-relateddomain. By creating MAs,the connectivity check(CC) can be performed onthe network that transmitsa particular serviceinstance.
A.7.3.3 Parameter Description: Ethernet Service OAM_Creation of MPsThis section describes the parameters for creating a maintenance point (MP).
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Maintenance > Ethernet Service OAM from the FunctionTree.
2. Click New.
Parameters on the Main Interface
Table A-48 Parameters on the main interface
Parameter Value Range Default Value Description
MaintenanceDomain Name
- NULL Specifies the maintenance domain (MD) ofthe MP.NOTE
An MD is not required for a common MP. Forthe creation of a common MP, select NULL.
MaintenanceAssociation Name
- NULL Specifies the maintenance association (MA)of the MP.NOTE
An MA is not required for a common MP. Forthe creation of a common MP, select NULL.
Node - - Specifies the port where you want to createan MP.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
628
Parameter Value Range Default Value Description
VLAN ID - - l Configures the ID of the VLAN to whichthe service of the MP belongs. Theinformation is contained in the OAMdata packet. The MPs with the sameVLAN ID in an MD can communicatewith each other.
l This parameter can be null in the case ofPORT services, but need to be set in thecase of PORT+VLAN services.
MP ID Standard MP:00-00-0000 to FF-FF-1FFFCommon MP:00-00-0000 to FF-FF-FF00
00-00-0000 Uniquely identifies an MP. From the highestto the lowest, the first byte indicates thenetwork number, the second byte indicatesthe number of the node in the local network,and the third and forth bytes indicate the IDof the MP on the network node. The MP IDmust be unique in the entire network.
Type MEPMIP
MEP Specifies the MP type defined in IEEE802.1ag. An MP can be a maintenanceassociation end point (MEP) or amaintenance association intermediate point(MIP).
Direction SDHIP
SDH l Specifies the MEP direction.l Set this parameter to SDH if the OAM
data initiated by the MEP travels throughthe Ethernet switching unit on the localNE. Otherwise, set this parameter to IP.
Parameters for Advanced Attributes
Table A-49 Parameters for advanced attributes
Parameter Value Range Default Value Description
Level Consumer High(7)Consumer Middle(6)Consumer Low(5)Provider High(4)Provider Low(3)Operator High(2)Operator Middle(1)Operator Low(0)
Provider High(4) Specifies the level of a common MP. Thegreater the value, the higher the level.NOTE
This parameter is valid only for a common MP(NULL).
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
629
Parameter Value Range Default Value Description
CC Status ActiveInactive
Inactive Specifies whether to enable the connectivitycheck (CC) function at an MP.
LB Timeout(ms) 3000 to 60000, instep of 100
5000 l Specifies the timeout duration of an LBtest.
l This parameter can be set only for anMEP.
LT Timeout(ms) 3000 to 60000, instep of 100
5000 l Specifies the timeout duration of an LTtest.
l This parameter can be set only for anMEP.
CCM SendingPeriod(ms)
Standard MP:1000100006000600000Common MP:1000 to 60000, instep of 100
Standard MP1000Common MP:5000
Specifies the interval for sending the CCMpacket at the MP where the CC test isperformed.l If this parameter takes a very small
value, service bandwidth decreasessignificantly.
l If this parameter takes a very large value,the CC test will become less capable indetecting service interruptions. Thedefault value is recommended.
l This parameter can be set only for anMEP.
A.7.3.4 Parameter Description: Ethernet Service OAM_Enabling LB
This section describes the parameters for enabling the LB.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Maintenance > Ethernet Service OAM from the FunctionTree.
2. Select the node that requires an LB test, click OAM Operation, and select Start LB.
Parameters on the Main Interface
Table A-50 Parameters on the main interface
Parameter Value Range Default Value Description
LB Source MP ID - - Specifies the ID of thesource maintenance pointin the LB test.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
630
Parameter Value Range Default Value Description
LB Sink MP ID - - Specifies the ID of the sinkmaintenance point in theLB test.
Test Result - - Indicates the result of oneLB test.
Test based on the MACAddress
SelectedNot selected
Not selected Select this parameter foran LB test based on MACaddresses.NOTE
This parameter is valid onlyfor a standard MP.
LB Sink MP MACAddress
- - Specifies the MACaddress of the sinkmaintenance point in theLB test. This parameter isvalid only in the case ofTest based on the MACAddress.
A.7.3.5 Parameter Description: Ethernet Service OAM_Enabling LTThis topic describes the parameters for enabling the LT.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Maintenance > Ethernet Service OAM from the FunctionTree.
2. Select the node that requires an LT test, click OAM Operation, and select Start LT.
Parameters on the Main Interface
Table A-51 Parameters on the main interface
Parameter Value Range Default Value Description
LT Source MP ID - - Specifies the source MP inthe LT test.
LT Sink MP ID - - Specifies the sink MP inthe LT test.
Responding MP ID - - Displays the MP thatresponds to the test.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
631
Parameter Value Range Default Value Description
Responding MP Type - - Displays the type of theMP that responds to thetest.
Hop Count - - Displays the count of hopsbetween the source MPand the responding MP.That is, the number ofresponding MPs from thesource MP to a certainresponding MP in an LTtest.
Test Result - - Indicates the result of oneLT test.
A.7.3.6 Parameter Description: Ethernet Port OAM_OAM ParameterThis section describes the OAM parameters that are related to Ethernet ports.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Maintenance > Ethernet Port OAM from the Function Tree.2. Click the OAM Parameter tab.
Parameters on the Main Interface
Table A-52 Parameters on the main interface
Parameter Value Range Default Value Description
PORT - - Displays the name of theexternal Ethernet port.
Enable OAM Protocol EnabledDisabled
Disabled Specifies whether thepoint-to-point OAMprotocol is enabled.After the OAM protocol isenabled, the currentEthernet port starts to usethe preset mode to set upan OAM connection withthe opposite end.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
632
Parameter Value Range Default Value Description
OAM Working Mode ActivePassive
Active The negotiation mode ofEthernet port OAMincludes active andpassive modes.If this parameter is set toActive, the port caninitiate an OAMconnection. If thisparameter is set toPassive, the port can onlyrespond to the OAMconnection requests fromthe opposite end.
Remote Alarm Supportfor Link Event
EnabledDisabled
Enabled Specifies whether thedetected link event isnotified to the oppositeend (for example, errorframe periods, errorframes, and error frameseconds).
Max OAM PacketLength(byte)
- - Displays the maximumlength of the OAMpackets.This parameter takes thesame value as theMaximum FrameLength of the externalport.
Loopback Status - - Displays the loopbackstatus.
A.7.3.7 Parameter Description: Ethernet Port OAM_OAM Error Frame MonitoringThis section describes the parameters for monitoring the OAM error frames at the Ethernet port.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > Ethernet Maintenance > Ethernet Port OAM from the Function Tree.2. Click the OAM Error Frame Monitor tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
633
Parameters on the Main Interface
Table A-53 Parameters on the main interface
Parameter Value Range Default Value Description
PORT For example:PORT1
- Displays the name of the external Ethernetport.
Error FrameMonitor Window(ms)
1000 to 60000, instep of 100
1000 In the specified Error Frame MonitorWindow (ms), if the number of error framesexceeds the specified Error FrameMonitor Threshold (Entries) due to thelink degradation, the link event alarm isreported.
Error FrameMonitor Threshold(frames)
1 to 4294967295, instep of 1
2 Specifies the threshold of monitoring errorframes.
Error FramePeriod Window(frames)
1488 to 89280000,in step of 1
GE port: 1488000FE port: 148800
Within the specified value of Error FramePeriod Window (frames), if the number oferror frames on the link exceeds the presetvalue of Error Frame Period Threshold(frames), an alarm is reported.
Error FramePeriod Threshold(frames)
1 to 89280000, instep of 1
2 Specifies the threshold of monitoring theerror frame period.
Error FrameSecond Window(s)
10 to 900, in step of1
60 If any error frame occurs in one second, thissecond is called an error frame second.Within the specified value of Error FrameSecond Window(s), if the number of errorframes on the link exceeds the preset valueof Error Frame Second Threshold (s), analarm is reported.
Error FrameSecond Threshold(s)
1 to 900, in step of 1 2 Specifies the threshold of monitoring errorframe seconds.
A.7.3.8 Parameter Description: Ethernet Port OAM_Remote OAM Parameter
This section describes the parameters for monitoring the OAM errored frames at the Ethernetport.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board and choose Configuration > Ethernet
Maintenance > Ethernet Port OAM from the Function Tree.2. Click the Remote OAM parameter tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
634
Parameters on the Main Interface
Table A-54 Parameters on the main interface
Field Value Range Default Value Description
Port - - Displays the name of theremote Ethernet port.
Remote OAM WorkingMode
- - Displays the workingmode of the remoteEthernet port.
Remote Alarm Supportfor Link Event
- - Displays whether theremote Ethernet port cannotify link events to thelocal port.
Remote Side LoopbackResponse
- - Displays how the remoteEthernet port responds to aloopback.
UnidirectionalOperation
- - Displays whether theremote Ethernet portsupports unidirectionaloperations.
Max.OAM PacketLength (byte)
- - Displays the maximumOAM packet sizesupported by the remoteEthernet port.
A.7.4 QoS ParametersThis section describes the parameters for the QoS on the EoS/EoPDH plane.
A.7.4.1 Parameter Description: QoS Management_Creation of FlowsThis parameter describes the parameters for creating flows.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > QoS Management > Flow Management from the Function Tree.2. Click the Flow Configuration tab.3. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
635
Parameters on the Main Interface
Table A-55 Parameters on the main interface
Parameter Value Range Default Value Description
Flow Type Port FlowPort+VLAN FlowPort+SVLAN FlowPort+CVLAN+SVLAN FlowPort+VLAN+Priority Flow
Port Flow l Port flow: The packets from a certainport are classified as a type of flow. TheEthernet service associated with thisflow type is the line service or Layer 2switching service that uses this port asthe service source.
l Port+VLAN flow: The packets that arefrom a certain port and have a specifiedVLAN ID are classified as a type of flow.The associated Ethernet service of thisflow type is the EVPL service (based onVLAN) or EVPLAN service (based onthe 802.1q bridge) that uses this PORT+VLAN as the service source.
l Port+SVLAN flow: The packets that arefrom a certain port and have a specifiedSVLAN ID are classified as a type offlow. The associated Ethernet service ofthis flow type is the EVPL service (basedon QinQ) or EVPLAN service (based onthe 802.1ad bridge) that uses this PORT+SVLAN as the service source.
l Port+CVLAN+SVLAN flow: Thepackets that are received from ortransmitted to a certain port and have aspecified CVLAN+SVLAN areclassified as a type of flow. Theassociated Ethernet service of this flowtype is the EVPL service (based onQinQ) or EVPLAN service (based on the802.1ad bridge) that uses this PORT+CVLAN+SVLAN as the servicesource.
l Port+VLAN+Priority flow: The packetsthat are from a certain port and have aspecified VLAN ID and a specifiedVLAN priority are classified as a type offlow. The associated Ethernet service ofthis flow type is the line service that usesthis Port+VLAN+Priority as the servicesource.
NOTEAn EMS6 board does not support Port+VLAN+Priority Flow.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
636
Parameter Value Range Default Value Description
Port EFP8: PORT1 toPORT9,VCTRUNK1 toVCTRUNK16EMS6: PORT1 toPORT7,VCTRUNK1 toVCTRUNK8
PORT1 l When the associated service is the lineservice, set this parameter to the sourceport or sink port of the associatedEthernet service.
l When the associated service is the Layer2 switching service, set this parameter toa mounted port of the bridge.
VLAN ID 1 to 4095 1 l This parameter is valid only when FlowType is set to Port+VLAN Flow or Port+VLAN+Priority Flow.
l Set this parameter to the source VLANof the associated Ethernet service.
C-VLAN 1 to 4095 1 l This parameter is valid only when FlowType is set to Port+CVLAN+SVLANFlow.
l Set this parameter to the source C-VLAN of the associated Ethernetservice.
S-VLAN 1 to 4095 1 l This parameter is valid only when FlowType is set to Port+SVLAN Flow orPort+SVLAN+CVLAN Flow.
l Set this parameter to the source S-VLANof the associated Ethernet service.
Priority - - l This parameter is valid only when FlowType is PORT+VLAN+Priority Flow.
l This parameter indicates the VLANpriority of the flow-associated Ethernetservices.
NOTEAn EMS6 board does not support Priority.
A.7.4.2 Parameter Description: QoS Management_Creation of CARThis section describes the parameters for creating CAR.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board, and then choose Configuration > QoS
Management > Flow Management from the Function Tree.2. Click the CAR Configuration.3. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
637
Parameters on the Main Interface
Table A-56 Parameters on the main interface
Parameter Value Range Default Value Description
CAR ID EFP8: 1 to 512EMS6: 1 to 1024
1 This parameter identifies a CAR operation,and is used to bind a flow to an associatedCAR operation.
Enabled/Disabled EnabledDisabled
Disabled Indicates whether to enable the CARoperation performed on the flow bound tothe CAR.
Committedinformation Rate(kbit/s)
EFP8: 0 to 100032,in steps of 64EMS6 (FE ports): 0to 102400, in stepsof 64EMS6 (GE ports): 0to 1024000, in stepsof 64
0 l Indicates the CIR. When the rate of apacket is not more than the CIR, thispacket passes the restriction of the CARand is forwarded first even in the case ofnetwork congestion.
l The value of this parameter should notbe more than the PIR.
Committed BurstSize (kbyte)
EFP8: 0 to 1024EMS6: 0 to 16384
0 Indicates the CBS. When the rate of a packetthat passes the restriction of the CAR is notmore than the CIR in a certain period, somepackets can burst. These packets can beforwarded first even in the case of networkcongestion. The maximum traffic of theburst packets is determined by the CBS.Note that the CBS has an inherent size, andthis parameter indicates the increment valueonly. The inherent size of the CBS isdetermined by the CIR. The greater the CIR,the greater the CBS.
Peak informationRate (kbit/s)
EFP8: 0 to 100032,in steps of 64EMS6 (FE ports): 0to 102400, in stepsof 64EMS6 (GE ports): 0to 1024000, in stepsof 64
0 l Indicates the PIR. When the rate of apacket is more than the PIR, the packetthat exceeds the rate restriction isdirectly discarded. When the rate ofpackets is more than the CIR but is lowerthan or equal to the PIR, these packetswhose rate exceeds the CIR can pass therestriction of the CAR and are markedyellow.
l The value of this parameter should notbe more than the port bandwidth.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
638
Parameter Value Range Default Value Description
Maximum BurstSize (kbyte)
EFP8: 0 to 1024EMS6: 0 to 16384
0 Indicates the MBS. When the rate of thepacket that passes the restriction of the CARis more than the CIR but is not more thanthe PIR, some packets can burst and aremarked yellow. The maximum traffic of theburst packets is determined by the MBS.Note that the MBS has an inherent size, andthis parameter indicates the increment valueonly. The inherent size of the MBS isdetermined by the PIR. The greater the PIR,the greater the MBS.
A.7.4.3 Parameter Description: QoS Management_Creation of CoSThis section describes the parameters for creating CoS.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and choose
Configuration > QoS Management > Flow Management from the Function Tree.2. Click the CoS Configuration tab.3. Click New.
Parameters on the Main Interface
Table A-57 Parameters on the main interface
Parameter Value Range Default Value Description
CoS ID EFP8: 1-64EMS6: 1-65535
1 This parameter identifies a CoS operation,and is used to bind a flow to an associatedCoS operation.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
639
Parameter Value Range Default Value Description
CoS Type simpleVLAN PriorityIPTOSDSCP
simple l If the CoS type of a flow is set to simple,all the packets in this flow are directlyscheduled to a specified egress queue.
l If the CoS type of a flow is set to VLANpriority, the packets in this flow arescheduled to specified egress queuesaccording to the user priorities specifiedin the VLAN tags of these packets.
l If the CoS type of a flow is set to DSCP,the packets in this flow are scheduled tospecified egress queues according todifferentiated services code point(DSCP) in the IPv6 tags of these packets.
l If the CoS type of a flow is set to IP TOS,the packets in this flow are scheduled tospecified egress queues according to theTOS values carried in the IPv4 packets.This CoS type is applicable to IPv4packets.
CoS parameter - - Displays the CoS parameters correspondingto different CoS types.
CoS Priority 0-7 - This parameter determines to which egressqueue a packet is schedule.l Each Ethernet port on the EFP8/EMS6
board supports eight egress port queues.Queues 1-8 respectively correspond tothe CoS priorities from 0 to 7.
l Queue 8, with the CoS priority of 7, is asSP queue. Queues 1-7, with the CoSpriorities from 0 to 6, are WRR queues.The weighted proportion of these WRRqueues is 1:2:4:8:16:32:64 (frompriority 0 to priority 6). On the EFP8board, the weighted proportion of theseWRR queues cannot be changed. On theEMS6 board, the weighted proportion ofthese WRR queues can be changed.
l If the traffic shaping feature of somequeues is enabled, bandwidth isallocated first to the queues whose trafficshaping feature is enabled based on theCIR. The remaining bandwidth isallocated to the eight queues by using theSP+WRR algorithm.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
640
A.7.4.4 Parameter Description: QoS Management_Creation of CAR/CoS
This section describes the parameters for creating CAR/CoS.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board, and then choose Configuration > QoS
Management > Flow Management from the Function Tree.
2. Click the Flow Configuration tab.
Parameters on the Main Interface
Table A-58 Parameters on the main interface
Parameter Value Range Default Value Description
Flow Type - - Displays the type of a flow.
VB ID - - Displays the ID of the bridge.
Port - - Displays the port where a flow is to becreated.
C-VLAN - - l Displays the C-VLAN.l This parameter is valid is Flow Type is
Port+VLAN Flow, Port+CVLAN+SVLAN Flow, or Port+VLAN+Priority Flow.
S-VLAN - - l Displays the S-VLAN.l This parameter is valid when Flow
Type is Port+SVLAN Flow or Port+CVLAN+SVLAN Flow.
Priority - - l Displays the priority of the flow.l This parameter is valid when Flow
Type is Port+VLAN+Priority Flow.
Bound CAR - None This parameter indicates the CAR IDcorresponding to a CAR operation.Different CAR IDs should be bound todifferent flows, even though the parametersof the CAR operations are the same.
Bound CoS - None Indicates the CoS ID that corresponds to aCoS operation.
A.7.4.5 Parameter Description: QoS Management_Shaping Management of EgressQueues
This section describes the parameters for shaping management of egress queues.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
641
Navigation PathIn the NE Explorer, select the required Ethernet switching board from the Object Tree and chooseConfiguration > QoS Management > Port Shaping Management from the Function Tree.
Click the Port Queue Information tab.
Parameters on the Main Interface
Table A-59 Parameters on the main interface
Parameter Value Range Default Value Description
Port - - Displays the port name.
Port Queue - - Displays the queue name.
Status EnabledDisabled
Disabled Indicates whether to enable the trafficshaping feature of an egress queue.
CIR (kbit/s) EFP8: 0 to 100032,in steps of 64EMS6 (FE ports): 0to 102400, in stepsof 64EMS6 (GE ports): 0to 1024000, in stepsof 64
0 l When the rate of a packet is not morethan the CIR, this packet directly entersthe egress queue.
l The value of this parameter should notbe more than the PIR.
DCBS (kbyte) - 0 Displays the excess burst size.
PIR (kbit/s) EFP8: 0 to 100032,in steps of 64EMS6 (FE ports): 0to 102400, in stepsof 64EMS6 (GE ports): 0to 1024000, in stepsof 64
0 l When the rate of a packet is more thanthe PIR, the packet that exceeds the raterestriction is directly discarded. Whenthe rate of packets is more than the CIRbut not more than the PIR, the packetsthat exceed the restriction of the CIRenter the buffer of the CIR. When thebuffer overflows, the packets are markedyellow and enter the egress queue, whichenables the packets to be discarded firstin the case of queue congestion.
l The value of this parameter should notbe more than the port bandwidth.
DMBS (kbyte) - 0 Displays the maximum excess burst size.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
642
Parameter Value Range Default Value Description
Scheduling Mode SPWRR
Queue 1: WRRQueue 2: WRRQueue 3: WRRQueue 4: WRRQueue 5: WRRQueue 6: WRRQueue 7: WRRQueue 8: SP
By default, queue 8 (with the CoS priorityof 7) of the EMS6 board is the SP queue, andqueues 1-7 (with the respective CoS priorityof 0-6) are the WRR queues and theirweights are in the proportion of1:2:8:16:32:64.The scheduling principles of the SP+WRRare as follows:l A port immediately transmits the packets
in the SP queue and can transmit thepackets in the WRR queue only when nopackets exist in the SP queue.
l If multiple SP queues exist on a port, theport compares the SP queues accordingto their priorities (queue 8 has the highestpriority and queue 1 has the lowestpriority).
l According to the fixed weight value, youcan allocate the time slice to each WRRqueue. Then, the port transmits thepackets in the corresponding WRRqueue in each time slice. If a WRR queuein a time slice does not contain anypackets, the WRR queue removes thistime slice and then transmits the packetsin the corresponding WRR queue in thenext time slice.
Weight An integer rangingfrom 1 to 64
Queue 1: 1Queue 2: 2Queue 3: 4Queue 4: 8Queue 5: 16Queue 6: 32Queue 7: 64Queue 8: -
By default, queue 8 (with the CoS priorityof 7) of the EMS6 board is the SP queue, andqueues 1-7 (with the respective CoS priorityof 0-6) are the WRR queues and theirweights are 1:2:4:8:16:32:64.
A.7.4.6 Parameter Description: QoS Management_Port ShapingThis section describes the parameters associated with egress port shaping management.
Navigation PathIn the NE Explorer, select the EMS6 board from the Object Tree and choose Configuration >QoS Management > Port Shaping Management from the Function Tree.
Click the Port Shaping tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
643
Parameters on the Main Interface
Table A-60 Parameters on the main interface
Parameter Value Range Default Value Description
Port - - Displays the port name.
Status EnabledDisabled
Disabled This parameter specifies whether to enablethe traffic shaping at a port.
PIR (kbit/s) EMS6 (FE ports): 0to 102400, in stepsof 64EMS6 (GE ports): 0to 1024000, in stepsof 64
0 In the case of an EMS6 board, the PIR of aport meets the following constraints:l The PIR of the port is equal to or more
than the PIR of any queue at this port.l The PIR of the port is equal to or more
than the sum of the CIRs of all the queuesat this port.
A.7.5 Parameters for the Ports on Ethernet BoardsThis section describes the parameters for the Ethernet ports on the EoS/EoPDH plane.
A.7.5.1 Parameter Description: Ethernet Port_External PortThis section describes the parameters for Ethernet external ports.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board and then choose Configuration >
Ethernet Interface Management > Ethernet Interface from the Function Tree.2. Select External Port.
Parameters on the Main Interface
Table A-61 Parameters for the basic attributes
Parameter Value Range Default Value Description
Port - - Displays the name of the external port.
Name - - Displays or specifies the name of theexternal port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
644
Parameter Value Range Default Value Description
Enabled/Disabled EnabledDisabled
Disabled l If the port gains access to services, setthis parameter to Enabled. Otherwise,set this parameter to Disabled.
l If this parameter is set to Enabled for theport that does not access services, anETH_LOS alarm may be generated.
This parameter is invalid for PORT9 on anEFP8 board.This parameter is invalid for PORT7 on anEMS6 board.
Working Mode EFP8:l Auto-
Negotiationl 10M Half-
Duplexl 10M Full-
Duplexl 100M Half-
Duplexl 100M Full-
DuplexEMS6:l Auto-
Negotiationl 10M Half-
Duplexl 10M Full-
Duplexl 100M Half-
Duplexl 100M Full-
Duplexl 1000M Full-
Duplex
Auto-Negotiation l Different types of Ethernet ports supportdifferent working modes.
l If the opposite port works in auto-negotiation mode, set this parameter toAuto-Negotiation.
l If the opposite port works in full-duplexmode, set this parameter to 10M Full-Duplex or 100M Full-Duplex,depending on the rate of the oppositeport.
l If the opposite port works in half-duplexmode, set this parameter to 10M Half-Duplex or 100M Half-Duplex,depending on the rate of the oppositeport, or set this parameter to Auto-Negotiation.
l GE optical ports on an EMS6 boardsupport only Auto-Negotiation and1000M Full-Duplex modes.
NOTEThis parameter is invalid for PORT9 on an EFP8board.
This parameter is invalid for PORT7 on an EMS6board.
Maximum FrameLength
EFP8: 1518 to 2000EMS6: 1518 to 9600
1522 l Set this parameter to a value greater thanthe maximum length of all the dataframes to be transmitted.
l The default value is recommended if thejumbo frame is not considered and thedata frames contain only one layer ofVLAN tags or even no tags. The value of1526 or greater is recommended if thedata frames contain two layers of tags,such as QinQ.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
645
Parameter Value Range Default Value Description
Port PhysicalParameters
- - Displays the actual working status of aPORT.This parameter is invalid for PORT9 on anEFP8 board.This parameter is invalid for PORT7 on anEMS6 board.
MAC Loopback Non-LoopbackLoopback
Non-Loopback l A MAC loopback is to loop back theEthernet frames transmitted to theopposite port.
l Use the default value unless otherwisespecified.
PHY Loopback Non-LoopbackLoopback
Non-Loopback l A PHY loopback is to loop back theEthernet physical signals transmitted tothe opposite port.
l Use the default value unless otherwisespecified.
This parameter is invalid for PORT9 on anEFP8 board.This parameter is invalid for PORT7 on anEMS6 board.
Table A-62 Parameters for flow control
Parameter Value Range Default Value Description
Port - - Displays the name of the external port.
Non-AutonegotiationFlow ControlMode
DisabledEnable SymmetricFlow Control ModeSend OnlyReceive Only
Disabled l This parameter is valid only whenWorking Mode is not set to Auto-Negotiation.
l If this parameter is set to EnableSymmetric Flow Control Mode, theport can send PAUSE frames andprocess the received PAUSE frames.
l If this parameter is set to Send Only, theport can send PAUSE frames in the caseof congestion but cannot process thereceived PAUSE frames.
l If this parameter is set to Receive Only,the port can process the received PAUSEframes but cannot send PAUSE framesin the case of congestion.
l Set this parameter to the same as the non-autonegotiation flow control mode of theopposite port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
646
Parameter Value Range Default Value Description
AutonegotiationFlow ControlMode
DisabledEnableDissymmetric FlowControlEnable SymmetricControlEnable Symmetric/Dissymmetric FlowControl
Disabled l This parameter is valid only whenWorking Mode is Auto-Negotiation.
l If this parameter is set to EnableSymmetric Control, the port can sendPAUSE frames and process the receivedPAUSE frames.
l If this parameter is set to EnableDissymmetric Flow Control, the portcan send PAUSE frames in the case ofcongestion but cannot process thereceived PAUSE frames.
l If this parameter is set to EnableSymmetric/Dissymmetric FlowControl, the port can function asfollows:– Sends and processes PAUSE frames.– Sends but does not process PAUSE
frames.– Processes but does not send PAUSE
frames.l Set this parameter according to the
autonegotiation flow control mode of theopposite port.
This parameter is invalid for PORT9 on anEFP8 board.This parameter is invalid for PORT7 on anEMS6 board.
Table A-63 Parameters for the tag attributes
Parameter Value Range Default Value Description
Port - - Displays the name of the external port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
647
Parameter Value Range Default Value Description
TAG Tag AwareAccessHybrid
Tag Aware l With different tag attributes, the portprocesses frames in different modes. Fordetails, see Table A-66.
l Set this parameter to Tag Aware if theport processes the frames with VLANtags (or tagged frames).
l Set this parameter to Access if the portprocesses the frames without VLAN tags(or untagged frames).
l Set this parameter to Hybrid if the portprocesses the tagged frames anduntagged frames.
Default VLAN ID 1-4095 1 l This parameter is valid only whenTAG is set to Access or Hybrid.
l For the usage of this parameter, seeTable A-66.
l Set this parameter as required.
VLAN Priority 0-7 0 l This parameter is valid only whenTAG is set to Access or Hybrid.
l For the usage of this parameter, seeTable A-66.
l When the VLAN priority is required fortraffic classification or other purposes,set this parameter as required. Use thedefault value unless otherwise specified.
Entry Detection EnabledDisabled
Enabled l Indicates whether to check the incomingpackets according to the tag attribute.
l Set this parameter as required.
Table A-64 Parameters for the network attributes
Parameter Value Range Default Value Description
Port - - Displays the name of the external port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
648
Parameter Value Range Default Value Description
Port Attributes UNIC-AwareS-Aware
UNI l If this parameter is set to UNI, the portprocesses data frames according to thetag attribute.
l If this parameter is set to C-Aware or S-Aware, the port processes the dataframes by using the processing methodof QinQ services.
l Set this parameter to C-Aware or S-Aware when the port processes QinQservices. Otherwise, this parameter takesthe default value.
Table A-65 Parameters for the advanced attributes
Parameter Value Range Default Value Description
Port - - Displays the name of the external port.
Broadcast PacketSuppression
DisabledEnabled
Disabled This parameter specifies whether to restrictthe traffic of broadcast packets according tothe proportion of the broadcast packets tothe total packets. Set this parameter toEnabled when a broadcast storm may occurat the opposite port.
Broadcast PacketSuppressionThreshold
10%-100% 30% When the proportion of the receivedbroadcast packets to the total packetscrosses the threshold, the port discards thereceived broadcast packets. Set thisparameter to a value greater than theproportion when no broadcast storm occurs.The value of 30% or greater isrecommended.
Traffic Threshold(Mbit/s)
EFP8:l 0 to 100 (PORT1
to PORT8)l 0 to 1000
(PORT9)EMS6:l 0 to 1000
(PORT1 andPORT2)
l 0 to 100 (PORT3to PORT6)
l 0 to 1000(PORT7)
- Specifies the traffic threshold of the port.You can specify the traffic monitoringperiod by setting Port Traffic ThresholdTime Window(Min).
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
649
Parameter Value Range Default Value Description
Port TrafficThreshold TimeWindow(Min)
0-30 0 Specifies the traffic monitoring period.l If Port Traffic Threshold Time
Window(Min) is set to 0, an associatedalarm is reported at the moment when thetraffic received at the port crosses thevalue of Traffic Threshold(Mbit/s).
l If the Port Traffic Threshold TimeWindow(Min) is set to a value otherthan 0, an associated alarm is reportedonly when the traffic received at the portalways crosses the value of TrafficThreshold(Mbit/s) in the monitoringperiod.
Loop Detection EnabledDisabled
Disabled This parameter specifies whether to enableloop detection, which is used to checkwhether a loop exists on the port.
Table A-66 Methods used by ports to process data frames
Direction Type of DataFrame
Processing Method
Tag aware Access Hybrid
Ingress port Tagged frame Receives the frame. Discards the frame. Receives the frame.
Untagged frame Discards the frame. The port receives theframe after adding tothe frame the VLANtag that containsDefault VLAN IDand VLANPriority.
The port receives theframe after adding tothe frame the VLANtag that containsDefault VLAN IDand VLANPriority.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
650
Direction Type of DataFrame
Processing Method
Tag aware Access Hybrid
Egress port Tagged frame Transmits the frame. The port strips theVLAN tag from theframe and thentransmits the frame.
l If the VLAN IDin the frame isDefault VLANID, the portstrips the VLANtag from theframe and thentransmits theframe.
l If the VLAN IDin the frame isnot DefaultVLAN ID, theport directlytransmits theframe.
A.7.5.2 Parameter Description: Ethernet Port_Internal PortThis section describes the parameters for Ethernet internal ports.
Navigation Path1. In the NE Explorer, select the EFP8/EMS6 board and then choose Configuration >
Ethernet Interface Management > Ethernet Interface from the Function Tree.2. Select Internal Port.
Parameters on the Main Interface
Table A-67 Parameters for the tag attributes
Parameter Value Range Default Value Description
Port - - Displays the name of the internal port.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
651
Parameter Value Range Default Value Description
TAG Tag AwareAccessHybrid
Tag Aware l With different tag attributes, the portprocesses frames in different modes. Fordetails, see Table A-72.
l Set this parameter to Tag Aware if theport processes the frames with VLANtags (or tagged frames).
l Set this parameter to Access if the portprocesses the frames without VLAN tags(or untagged frames).
l Set this parameter to Hybrid if the portprocesses the tagged frames anduntagged frames.
Default VLAN ID 1-4095 1 l This parameter is valid only whenTAG is set to Access or Hybrid.
l For the usage of this parameter, seeTable A-72.
l Set this parameter as required.
VLAN Priority 0-7 0 l This parameter is valid only whenTAG is set to Access or Hybrid.
l For the usage of this parameter, refer toTable A-72.
l When the VLAN priority is required fortraffic classification or other purposes,set this parameter as required. Thedefault value is recommended unlessotherwise specified.
Entry Detection EnabledDisabled
Enabled l Indicates whether to check the incomingpackets according to the tag attribute.
l Set this parameter as required.
Table A-68 Parameters for encapsulation or mapping
Parameter Value Range Default Value Description
Port - - Displays the name of the internal port.
Mapping Protocol GFPHDLCLAPS
GFP The default value is recommended.The EFP8 board supports GFP only.
Scramble Scrambling Mode[X43+1]Unscrambled
Scrambling Mode[X43+1]
l Indicates the scrambling polynomialused by the mapping protocol.
l The default value is recommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
652
Parameter Value Range Default Value Description
Set Inverse Valuefor CRC
- - l This parameter indicates whether thevalue of the CRC field defined in theLAPS or HDLC encapsulation frameformat will be reversed. This means thatthis parameter takes effect only ifMapping Protocol is set to LAPS orHDLC.
l Set Set Inverse Value for CRC to thesame value for the VCTRUNKs at bothends.
Check FieldLength
FCS32No
FCS32 l When the Ethernet board uses the GFPmapping protocol, set this parameter toFCS32 or No.
l When you set this parameter to FCS32,a 32-bit FCS is used.
l The default value is recommended.
FCS Calculated BitSequence
Big endianLittle endian
Big endian l When you set this parameter to Bigendian, the least significant byte of theFCS is placed first and the mostsignificant byte is placed last.
l When you set this parameter to Littleendian, the most significant byte of theFCS is placed first and the leastsignificant byte is placed last.
l The default value is recommended.
Table A-69 Parameters for the network attributes
Parameter Value Range Default Value Description
Port - - Displays the name of the internal port.
Port Attributes UNIC-AwareS-Aware
UNI l If this parameter is set to UNI, the portprocesses data frames according to thetag attribute.
l If this parameter is set to C-Aware or S-Aware, the port processes the dataframes by using the processing methodof QinQ services.
l Set this parameter to C-Aware or S-Aware when the port processes QinQservices. Otherwise, this parameter takesthe default value.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
653
Table A-70 Parameters for the LCAS
Parameter Value Range Default Value Description
Port - - Displays the name of the internal port.
Enabling LCAS DisabledEnabled
Disabled l Indicates whether to enable the LCASfunction.
l The LCAS can dynamically adjust thenumber of virtual containers formapping required services to meet thebandwidth needs of the applications. Asa result, the bandwidth utilization isimproved.
LCAS Mode Huawei ModeStandard Mode
Huawei Mode l Indicates the sequence in which theLCAS sink sends the MST controlpacket and Rs-Ack control packet.
l When you set this parameter to HuaweiMode, the LCAS sink first sends the Rs-Ack and then sends the MST.
l When you set this parameter toStandard Mode, the LCAS sink firstsends the MST and then sends the Rs-Ack.
l If the equipment at the opposite end isthe third-party equipment and does notsupport the Huawei mode, set thisparameter to Standard Mode.Otherwise, set this parameter to HuaweiMode.
Hold Off Time(ms) An integer rangingfrom 0, 2000 to10000, in theincrements of 100
2000 l When a member link is faulty, the LCASperforms switching after a delay of timeto prevent the situation where an NEsimultaneously performs a protectionswitching such as SNCP and performs anLCAS switching. This parameterspecifies the duration of the delay.
l The default value is recommended.
WTR Time(s) 0-720 300 l When the time after a member link isrestored to normal reaches the specifiedvalue of this parameter, the VCG usesthe restored member link.
l The default value is recommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
654
Parameter Value Range Default Value Description
TSD DisabledEnabled
Disabled l Indicates whether the TSD is used as acondition for determining whether amember link is faulty. In the case of theVC-12, the TSD refers to the BIP_SD.In the case of the VC-3, the TSD refersto the B3_SD_VC3.
l The default value is recommended.
Min. Members-Transmit Direction
2-256 16 l Specifies the minimum number ofmembers in the transmit direction. Afterthe LCAS is enabled, the LCAS_PLCTalarm is reported when the number ofeffective members in the transmitdirection becomes lower than theminimum number specified by thisparameter.
l The default value is recommended.
Mini. Members-Receive Direction
2-256 16 l Specifies the minimum number ofmembers in the receive direction. Afterthe LCAS is enabled, the LCAS_PLCTalarm is reported when the number ofeffective members in the receivedirection becomes lower than theminimum number specified by thisparameter.
l The default value is recommended.
Table A-71 Parameters for bound paths
Parameter Value Range Default Value Description
ConfigurablePorts
EFP8:VCTRUNK1-VCTRUNK16EMS6:VCTRUNK1-VCTRUNK8
VCTRUNK1 Specifies the VCTRUNK to bind paths.
Level - - Displays the level of the bound VC path.In the case of the EFP8 board, this parameteralways takes the value of VC12-Xv.
Service Direction BidirectionalUplinkDownlink
Bidirectional l Specifies the direction of the bound path.l Set this parameter to Bidirectional
unless otherwise specified.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
655
Parameter Value Range Default Value Description
AvailableResources
- - l Displays the available VC4 paths.l In the case of the EFP8 board, this
parameter always takes the value ofVC4-1.
l For EMS6 boards, when a VCTRUNKneeds to bind VC-12 paths, select VC-12paths only in VC-4-4s.
AvailableTimeslots
- - Specifies the available timeslots.
Bound Path - - You need to plan and set this parameteraccording to the following principles:l The capacity of the VCTRUNK is
determined by the actual bandwidthrequired by the services.
l The EFP8 board supports 16VCTRUNKs. Each VCTRUNK canbind a maximum of 16 VC-12 paths andthe total number of bound VC-12 pathscannot exceed 63.
l For EMS6 boards, their VCTRUNKs 1-7each support a maximum bandwidth of100 Mbit/s. If a bandwidth higher than100 Mbit/s is required, VCTRUNK8 isrecommended.
Number of BoundPaths
- - Displays the number of the bound VC path.
Activation Status - - Displays the activation status of the boundVC path.
Table A-72 Methods used by ports to process data frames
Direction Type of DataFrame
Processing Method
Tag aware Access Hybrid
Ingress port Tagged frame Receives the frame. Discards the frame. Receives the frame.
Untagged frame Discards the frame. The port receives theframe after adding tothe frame the VLANtag that containsDefault VLAN IDand VLANPriority.
The port receives theframe after adding tothe frame the VLANtag that containsDefault VLAN IDand VLANPriority.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
656
Direction Type of DataFrame
Processing Method
Tag aware Access Hybrid
Egress port Tagged frame Transmits the frame. The port strips theVLAN tag from theframe and thentransmits the frame.
l If the VLAN IDin the frame isDefault VLANID, the portstrips the VLANtag from theframe and thentransmits theframe.
l If the VLAN IDin the frame isnot DefaultVLAN ID, theport directlytransmits theframe.
A.7.5.3 Parameter Description: Type Field of QinQ Frames
This section describes the parameters for setting the type field of QinQ frames.
Navigation Path
In the NE Explorer, select the EFP8/EMS6 board from the Object Tree and chooseConfiguration > Advance Attribute > QinQ Type Area Settings from the Function Tree.
Parameters on the Main Interface
Table A-73 Parameters on the main interface
Parameter Value Range Default Value Description
Board - - Displays the Ethernet board on which thetype field of QinQ frames needs to be set.If the Ethernet board is the EFP8 board, thisparameter always takes the value of EFP8.If the Ethernet board is the EMS6 board, thisparameter always takes the value of EMS6.
QinQ Type Area(Hexadecimal)
81 0088 A891 000600 to FFFF
8100 Specifies the type field of QinQ frames. Setthis parameter according to the type field ofthe accessed QinQ frames.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
657
A.8 RMON ParametersThis topic describes the parameters that are related to RMON performances.
A.8.1 Parameter Description: RMON Performance_Statistics GroupThis topic describes the parameters that are related to RMON statistics groups.
Navigation Path1. Select the corresponding board from the Object Tree in the NE Explorer. Choose
Performance > RMON Performance from the Function Tree.2. Click the Statistics Group tab.
ParametersParameter Value Range Default Value Description
Object - - This parameter specifies the object to bemonitored.
Sampling Period 5 to 150 5 This parameter specifies the duration of themonitoring period.
DisplayAccumulatedValue
SelectedDeselected
Deselected l This parameter specifies the method ofdisplaying the performance events.
l If this parameter is not selected, thedisplayed value is an incrementcompared to the value that is collected inlast sampling period and stored in theregister.
l If this parameter is selected, thedisplayed value is an absolute value thatis currently stored in the register.
Display Mode GraphicsList
List l This parameter specifies the method ofdisplaying the performance events.
l If this parameter is set to Graphics, thenumber of performance events to bemonitored at each time cannot be morethan 10, and the unit should be the same.
Legend ColorDescription
- l This parameter indicates the descriptionof different colors.
l This parameter is valid only whenDisplay Mode is set to Graphics.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
658
Parameter Value Range Default Value Description
Event - - l This parameter indicates the queriedperformance events.
l This parameter is valid only whenDisplay Mode is set to List.
A.8.2 Parameter Description: RMON Performance_History GroupThis topic describes the parameters that are related to RMON history groups.
Navigation Path1. Select the corresponding board from the Object Tree in the NE Explorer. Choose
Performance > RMON Performance from the Function Tree.
2. Click the History Group tab.
Parameters
Parameter Value Range Default Value Description
Object - - The parameter indicates the object to bemonitored.
Ended from/to - - This parameter specifies the start time andend time of the monitoring period.
History TableType
30-Second30-MinuteCustom Period 1Custom Period 2
30-Second This parameter specifies the monitoringperiod.
Display Mode GraphicsList
List l This parameter specifies the method ofdisplaying the performance events.
l If this parameter is set to Graphics, thenumber of performance events to bemonitored at each time cannot be morethan 10, and the unit should be the same.
Legend ColorDescription
- l This parameter indicates the descriptionof different colors.
l This parameter is valid only whenDisplay Mode is set to Graphics.
Event - - l This parameter indicates the queriedperformance events.
l This parameter is valid only whenDisplay Mode is set to List.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
659
Parameter Value Range Default Value Description
Statistical Item - - This parameter indicates the performanceitems to be monitored.
Statistical Value - - This parameter indicates the statistical valueof the monitored performance items.
Time Flag - - This parameter indicates the time point ofeach performance event.
A.8.3 Parameter Description: RMON Performance_History ControlGroup
This topic describes the parameters that are related to RMON history control groups.
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Performance > RMON HistoryControl Group.
ParametersParameter Value Range Default Value Description
30-Second EnabledDisabled
Disabled This parameter indicates or specifieswhether to enable the 30-Secondmonitoring function.
30-Minute EnabledDisabled
Enabled This parameter indicates or specifieswhether to enable the 30-Minutemonitoring function.
Custom Period 1 EnabledDisabled
Disabled This parameter indicates or specifieswhether to enable Custom Period 1.
Custom Period 2 EnabledDisabled
Disabled This parameter indicates or specifieswhether to enable Custom Period 2.
Period Length(s) 300 to 43200(Custom Period 1)300 to 86400(Custom Period 2)
900(Custom Period1)86400(CustomPeriod 2)
l This parameter indicates or specifies themonitoring period in Custom Period 1and Custom Period 2.
l The value must be an integer multiple of30.
History RegisterCount
1 to 50 166(Custom Period 2)
This parameter indicates or specifies thequantity of the history registers.
RMON MonitorStart Time
- - This parameter specifies the RMON starttime.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
660
A.8.4 Parameter Description: RMON Performance_RMON SettingThis topic describes the parameters that are related to RMON setting.
Navigation Pathl Select the corresponding board from the Object Tree in the NE Explorer. Choose
Performance > RMON Performance from the Function Tree.l Click the RMON Setting tab.
Object ParametersParameter Value Range Default Value Description
Object - - This parameter indicates the object to becollected.
30-Second EnabledDisabled
- This parameter indicates or specifieswhether to enable the 30-Secondmonitoring function.NOTE
In the case of Object, 30-Second cannot be set.
30-Minute EnabledDisabled
Disabled l This parameter indicates or specifieswhether to enable the 30-Minutemonitoring function.
l In RMON History Control Group ofthe NE, if 30-Minute is set to Disabled,Not Supported is displayed for thisparameter.
Custom Period 1 EnabledDisabled
- l This parameter indicates or specifieswhether to enable the monitoringfunction based on Custom Period 1.
l In RMON History Control Group ofthe NE, if Custom Period 1 is set toDisabled, Not Supported is displayedfor this parameter.
Custom Period 2 EnabledDisabled
- l This parameter indicates or specifieswhether to enable the monitoringfunction based on Custom Period 2.
l In RMON History Control Group ofthe NE, if Custom Period 2 is set toDisabled, Not Supported is displayedfor this parameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
661
Event ParametersParameter Value Range Default Value Description
Event - - This parameter indicates the performanceevent to be monitored.
30-Second EnabledDisabled
Disabled This parameter indicates or specifieswhether to enable the monitoring functionbased on 30-Second.
30-Minute EnabledDisabled
- This parameter indicates or specifieswhether to enable the 30-Minutemonitoring function.
Custom Period 1 EnabledDisabled
Disabled This parameter indicates or specifieswhether to enable the monitoring functionbased on Custom Period 1Custom Period1 Monitor.
Custom Period 2 EnabledDisabled
Disabled This parameter indicates or specifieswhether to enable the monitoring functionbased on Custom Period 2Custom Period2 Monitor.
Threshold Detect Report AllDo Not DetectReport Only theUpper ThresholdReport Only theLower Threshold
Report All l This parameter indicates or specifies thethreshold detection method.
l If the number of detected events reachesthe preset threshold, the events arereported to the NMS. Otherwise, theevents are not reported to the NMS.
l If an event does not support thisparameter, Not Supported is displayed.
Upper Threshold - - This parameter indicates or specifies theupper threshold. If the number ofperformance events exceeds the presetupper threshold, the correspondingperformance events are reported.
Lower Threshold - - This parameter indicates or specifies thelower threshold. If the number ofperformance events is less than the presetlower threshold, the correspondingperformance events are reported.
Threshold Unit - - This parameter indicates the unit of eachthreshold of the performance events.
A.9 Parameters for MPLS/PWE3 ServicesThis topic describes parameters that are related to MPLS/PWE3 services.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
662
NOTE
For parameters for PW-carried E-Line services, see A.6 Parameters for Ethernet Services and EthernetFeatures on the Packet Plane.
A.9.1 MPLS Tunnel ParametersThis topic describes parameters that are related to MPLS tunnels.
A.9.1.1 Parameter Description: Basic Configurations of MPLS Tunnels
This topic describes parameters that are related to the basic configurations of MPLS tunnels.
Navigation Path
In the NE Explorer, select the required NE from the Object Tree and choose Configuration >MPLS Management > Basic Configuration from the Function Tree.
Parameters on the Main Interface
Parameter Value Range Default Value Description
LSR ID - 0.0.0.0 l Specifies or displaysthe LSR ID of an NE.On a PSN, each NE isassigned a unique LSRID.
l This parameter mustbe set in IPv4 addressformat.
Start of Global LabelSpace
0-1015808 0 l Specifies the startvalue of a global labelspace. The OptiX RTN950 supports a step of2048.
l The start value of aglobal label space isthe smallest unicasttunnel label. WhenStart of Global LabelSpace is 0, the smallestunicast tunnel label is16, with values 0 to 15reserved.
l On an MPLS-enablednetwork, global labelspaces of NEs arerecommended tooverlap each other ifpossible.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
663
Parameter Value Range Default Value Description
Global Label Space Size - - Displays the size of aglobal label space.
Start of Multicast LabelSpace
- - The OptiX RTN 950 doesnot support this parameter.
A.9.1.2 Parameter Description: Unicast Tunnel Management_Static TunnelThis topic describes parameters that are related to static tunnels.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > Unicast Tunnel Management from the FunctionTree.
2. Click the Static Tunnel tab.3. Click Query.
Parameters on the Main InterfaceParameter Value Range Default Value Description
ID - - Displays the tunnel ID.
Name - - Specifies or displays thecustomized tunnel name.
Enable State EnabledDisabled
Enabled l Specifies or displayswhether a tunnel isenabled.
NOTEThe OptiX RTN 950supports only the valueEnabled.
Node Type - - l Displays the node type.l For bidirectional
tunnels, this parameterdisplays the node typesof forward tunnels.
Direction - - Displays the direction of atunnel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
664
Parameter Value Range Default Value Description
CIR(kbit/s) No Limit1024-1024000
- l Specifies or displaysthe committedinformation rate (CIR)of a tunnel.
l Generally, it isrecommended that youset this parameter to NoLimit. If you need toenable the CES CACfunction or limit thePW bandwidth, set thisparameter to be thesame as the plannedtunnel bandwidth.
PIR(kbit/s) - - The OptiX RTN 950 doesnot support this parameter.
CBS(byte) - - The OptiX RTN 950 doesnot support this parameter.
PBS(byte) - - The OptiX RTN 950 doesnot support this parameter.
Bandwidth Remaining(kbit/s)
- - The OptiX RTN 950 doesnot support this parameter.
In Port - - Displays the ingress portof a forward tunnel, whichis also the egress port ofthe mapping reversetunnel.
Forward In Label - - Displays the MPLS labelthat a forward tunnelcarries when entering anode.
Reverse Out Label - - Specifies the MPLS labelthat a reverse tunnelcarries when entering atunnel.
Out Port - - Displays the egress port ofa forward tunnel, which isalso the ingress port of themapping reverse tunnel.
Forward Out Label - - Displays the MPLS labelthat a forward tunnelcarries when leaving anode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
665
Parameter Value Range Default Value Description
Reverse In Label - - Displays the MPLS labelthat a reverse tunnelcarries when leaving anode.
Forward Next HopAddress
- - Displays the IP address ofthe next-hop port of aforward tunnel.
Reverse Next HopAddress
- - Displays the IP address ofthe next-hop port of areverse tunnel.
Source Node - - Displays the LSR ID of theingress node.
Sink Node - - Displays the LSR ID of theegress node.
Tunnel Type - - Displays the tunnel type.
EXP 0-7None
- l Specifies or displaysthe value of the EXPfield in the packetstransmitted throughMPLS tunnels.
l For unidirectionaltunnels, this parameteris available only ifNode Type is Ingress.
l For bidirectionaltunnels, this parametercannot be set if NodeType is Transit.
l If this parameter is setto a value from 0 to 7,the EXP field takes itsfixed value.
l If this parameter takesits default value None,the EXP field variesbased on the DiffServmappings.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
666
Parameter Value Range Default Value Description
LSP Mode Pipe - l Displays or specifiesthe LSP mode.
l Pipe: When strippingMPLS tunnel labelsfrom packets, an egressnode does not updatethe scheduling priorityfor the packets.
l For bidirectionaltunnels, this parameteris available only ifNode Type is Egress.
l For bidirectionaltunnels, this parametercannot be set if NodeType is Transit.
NOTEOn the OptiX RTN 950, thisparameter can be set toPipe only.
MTU(byte) - - The OptiX RTN 950 doesnot support this parameter.
Protection Group - - Displays the MPLS APSprotection group to whicha tunnel belongs.
VLAN ID - - l Specifies or displaysthe VLAN ID thatEthernet packets carrywhen transmitted overMPLS tunnels.
l If packets need totraverse a Layer 2network, set the VLANID for the tunnelcarried by the NNI portaccording to theVLAN planningrequirements on theLayer 2 network.
l Set this parameter tothe same value for bothends of a tunnel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
667
Parameter Value Range Default Value Description
CoS CS7CS6EFAF4AF3AF2AF1BE
- l This parameterspecifies the PHBservice class of an L-LSP, if the type of anMPLS tunnel is L-LSP.
l CS6-CS7: indicates thehighest service grade,which is mainlyinvolved in signalingtransmission.
l EF: indicates fastforwarding. Thisservice class isapplicable to the trafficwhose delay is smalland packet loss ratio islow, for example,voice and videoservices.
l AF1-AF4: indicatesassured forwarding.This service class isapplicable to the trafficthat requires rateguarantee but does notrequire delay or jitterlimit.
l BE: indicates that thetraffic is forwarded inbest-effort mannerwithout specialprocessing.
Deployment - - Displays the deploymentstatus of the tunnel.
A.9.1.3 Parameter Description: Unicast Tunnel Management_Creation ofUnidirectional Tunnels
This topic describes parameters that are used for creating unidirectional tunnels.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > Unicast Tunnel Management from the FunctionTree.
2. Click the Static Tunnel tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
668
3. Click New and choose Unidirectional Tunnel from the drop-down list.The New Unicast Unidirectional Tunnel dialog box is displayed.
4. Select New Reverse Tunnel.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Tunnel ID 1-65535 - l Specifies the tunnel ID.l The total number of tunnels and PWs
must be equal to or less than 1024. Thenumber of tunnels that carry PWs is notincluded in the total.
NOTEIf you select New Reverse Tunnel, set forwardtunnel IDs and reverse tunnel IDs respectively.
Tunnel Name - - Specifies the tunnel name.
Node Type IngressEgressTransit
Ingress Specifies the node type of a forward tunnel.
Direction - - Indicates the direction of a tunnel.
CIR(kbit/s) No Limit1024-1024000
No Limit l Specifies the committed information rate(CIR) of a tunnel.
l Generally, it is recommended that you setthis parameter to No Limit. If you needto enable the CES CAC function or limitthe tunnel bandwidth, set this parameterto be the same as the planned tunnelbandwidth.
CBS(kbit/s) - - The OptiX RTN 950 does not support thisparameter.
PIR(Byte) - - The OptiX RTN 950 does not support thisparameter.
PBS(Byte) - - The OptiX RTN 950 does not support thisparameter.
In Board/LogicInterface Type
- - Specifies the MPLS port at the ingressdirection of a forward tunnel on a transit oregress node.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
669
Parameter Value Range Default Value Description
In Port - - NOTEl If the MPLS port is an FE/GE port, ensure
that:l The Port Mode parameter of the MPLS
port is set to Layer 3 according to Settingthe General Attributes of Ethernet Ports.
l The Enable Tunnel, Specify IPAddress, andIP Address parameters ofthe MPLS port are set to the valuesspecified in the network plan according toSetting Layer 3 Attributes of EthernetPorts.
l If the MPLS port is an IF_ETH port, ensurethat:l The Port Mode parameter of the MPLS
port is set to Layer 3 according to Settingthe General Attributes of IF_ETH Ports.
l The Enable Tunnel, Specify IPAddress, and IP Address parameters ofthe MPLS port are set to the valuesspecified in the network plan according toSetting Layer 3 Attributes of IF_ETHPorts.
In Label 16-1048575 - Specifies the MPLS label at the ingressdirection of a forward tunnel on a transit oregress node.
Out Board/LogicInterface Type
- - Specifies the MPLS port at the egressdirection of a forward tunnel on an ingress ortransit node.NOTE
The method and prerequisites for settingparameters of the MPLS port at the egressdirection of a forward tunnel are the same as thoseon the ingress direction.
Out Port - -
Out Label 16-1048575 - Specifies the MPLS label at the egressdirection of a forward tunnel on an ingress ortransit node.
Next Hop Address - - l The Next Hop Address parameter needsto be set only for the egress port on aningress or transit node.
l Set the IP address of the MPLS ingressport on the next hop LSR node to NextHop Address according to the networkplan.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
670
Parameter Value Range Default Value Description
Source Node - - l The Source Node parameter needs to beset only on an egress or transit node.
l Set the LSR ID for the last hop MPLSnode to Source Node according to thenetwork plan.
Sink Node - - l The Sink Node parameter needs to be setonly on an ingress or transit node.
l Set the LSR ID for the next hop MPLSnode to Sink Node according to thenetwork plan.
Tunnel Type E-LSPL-LSP
E-LSP l Specifies the tunnel type.l The value E-LSP indicates that the EXP
field is used to identify packet schedulingpriorities of PWs. An E-LSP tunnel cancontain PWs of eight packet schedulingpriorities.
l The value L-LSP indicates that theMPLS label value is used to identifypacket scheduling priorities of PWs. AnL-LSP tunnel can contain PWs of thesame packet scheduling priority.
EXP 0-7None
None l Specifies the value of the EXP field in thepackets transmitted through MPLStunnels.
l This parameter is available only if NodeType is Ingress.
l If this parameter is set to a value from 0to 7, the EXP field takes its fixed value.
l If this parameter takes its default valueNone, the EXP field is set based on theDiffServ mappings.
LSP Mode Pipe Pipe l Pipe: When stripping MPLS tunnellabels from packets, an egress node doesnot update the scheduling priority for thepackets.
l This parameter is available only if NodeType is Egress.
NOTEThe OptiX RTN 950 supports only the valuePipe.
MTU - - The OptiX RTN 950 does not support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
671
Parameter Value Range Default Value Description
CoS CS7CS6EFAF4AF3AF2AF1BE
BE l This parameter specifies the PHB serviceclass of an L-LSP, if the type of an MPLStunnel is L-LSP.
l CS6-CS7: indicates the highest servicegrade, which is mainly involved insignaling transmission.
l EF: indicates fast forwarding. Thisservice class is applicable to the trafficwhose delay is small and packet loss ratiois low, for example, voice and videoservices.
l AF1-AF4: indicates assured forwarding.This service class is applicable to thetraffic that requires rate guarantee butdoes not require delay or jitter limit.
l BE: indicates that the traffic is forwardedin best-effort manner without specialprocessing.
A.9.1.4 Parameter Description: Unicast Tunnel Management_Creation ofBidirectional Tunnels
This topic describes the parameters that are related to creating bidirectional tunnels.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > Unicast Tunnel Management from the FunctionTree.
2. Click the Static Tunnel tab.3. Click New and choose Bidirectional Tunnel from the drop-down list.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Tunnel ID 1 to 65535 - l Specifies the tunnel ID.l The total number of tunnels and PWs
must be equal to or less than 1024.The number of tunnels that carryPWs is not included in the total.
Tunnel Name - - Specifies the tunnel name.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
672
Parameter Value Range Default Value Description
Node Type IngressEgressTransit
Ingress Specifies the node type of a forwardtunnel.
Direction - - Indicates the direction of a tunnel.
CIR(kbit/s) No Limit1024-1024000
No Limit l Specifies the committed informationrate (CIR) of a tunnel.
l Generally, it is recommended thatyou set this parameter to No Limit.If you need to enable the CES CACfunction or limit the PW bandwidth,set this parameter to be the same asthe planned tunnel bandwidth.
CBS(kbit/s) - - The OptiX RTN 950 does not supportthis parameter.
PIR(Byte) - - The OptiX RTN 950 does not supportthis parameter.
PBS(Byte) - - The OptiX RTN 950 does not supportthis parameter.
In Board/LogicInterface Type
- - Specifies the MPLS port at the ingressdirection of a forward tunnel on a transitor egress node.NOTEl If the MPLS port is an FE/GE port,
ensure that:l The Port Mode parameter of the
MPLS port is set to Layer 3according to Setting the GeneralAttributes of Ethernet Ports.
l The Enable Tunnel, Specify IPAddress, and IP Addressparameters of the MPLS port are setto the values specified in thenetwork plan according to SettingLayer 3 Attributes of Ethernet Ports.
l If the MPLS port is an IF_ETH port,ensure that:l The Port Mode parameter of the
MPLS port is set to Layer 3according to Setting the GeneralAttributes of IF_ETH Ports.
l The Enable Tunnel, Specify IPAddress, and IP Addressparameters of the MPLS port are setto the values specified in thenetwork plan according to SettingLayer 3 Attributes of IF_ETH Ports.
In Port - -
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
673
Parameter Value Range Default Value Description
Forward In Label 16 to 1048575 - Specifies the MPLS label at the ingressdirection of a forward tunnel on a transitor egress node.
Reverse Out Label 16 to 1048575 - l Specifies the MPLS label at theegress direction of a reverse tunnelon a transit or egress node.
l Reverse Out Label and ForwardIn Label can be set to either the samevalue or different values.
Out Board/LogicInterface Type
- - Specifies the MPLS port at the egressdirection of a forward tunnel on aningress or transit node.NOTE
The method and prerequisites for settingparameters of the MPLS port at the egressdirection of a forward tunnel are the same asthose on the ingress direction.
Out Port - -
Forward Out Label 16 to 1048575 - Specifies the MPLS label at the egressdirection of a forward tunnel on aningress or transit node.
Reverse In Label 16 to 1048575 - l Specifies the MPLS label at theingress direction of a reverse tunnelon an ingress or transit node.
l The Reverse In Label and ForwardOut Label parameters can be set toeither the same value or differentvalues.
Forward Next HopAddress
- - l The Forward Next Hop Addressparameter needs to be set only for theegress port on an ingress or transitnode.
l Set the IP address of the MPLSingress port on the next hop LSRnode to Forward Next HopAddress according to the networkplan.
Reverse Next HopAddress
- - l The Reverse Next Hop Addressparameter needs to be set only for theingress port on a transit or egressnode.
l Set the IP address of the MPLSingress port on the next hop LSRnode to Reverse Next HopAddress according to the networkplan.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
674
Parameter Value Range Default Value Description
Source Node - - l The Source Node parameter needsto be set only on an egress or transitnode.
l Set the LSR ID for the last hopMPLS node to Source Nodeaccording to the network plan.
Sink Node - - l The Sink Node parameter needs tobe set only on an ingress or transitnode.
l Set the LSR ID for the next hopMPLS node to Sink Node accordingto the network plan.
Tunnel Type E-LSPL-LSP
E-LSP l Specifies the tunnel type.l The value E-LSP indicates that the
EXP field is used to identify packetscheduling priorities of PWs. An E-LSP tunnel can contain PWs of eightpacket scheduling priorities.
l The value L-LSP indicates that theMPLS label value is used to identifypacket scheduling priorities of PWs.An L-LSP tunnel can contain PWs ofthe same packet scheduling priority.
EXP 0 to 7None
None l Specifies the value of the EXP fieldin the packets transmitted throughMPLS tunnels.
l This parameter cannot be set if NodeType is Transit.
l If this parameter is set to a valuefrom 0 to 7, the EXP field takes itsfixed value.
l If this parameter takes its defaultvalue None, the EXP field is setbased on the DiffServ mappings.
LSP Mode Pipe Pipe l Pipe: When stripping MPLS tunnellabels from packets, an egress nodedoes not update the schedulingpriority for the packets.
l This parameter cannot be set if NodeType is Transit.
NOTEThe OptiX RTN 950 supports only the valuePipe.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
675
Parameter Value Range Default Value Description
MTU - - The OptiX RTN 950 does not supportthis parameter.
CoS CS7CS6EFAF4AF3AF2AF1BE
BE l This parameter specifies the PHBservice class of an L-LSP, if the typeof an MPLS tunnel is L-LSP.
l CS6-CS7: indicates the highestservice grade, which is mainlyinvolved in signaling transmission.
l EF: indicates fast forwarding. Thisservice class is applicable to thetraffic whose delay is small andpacket loss ratio is low, for example,voice and video services.
l AF1-AF4: indicates assuredforwarding. This service class isapplicable to the traffic that requiresrate guarantee but does not requiredelay or jitter limit.
l BE: indicates that the traffic isforwarded in best-effort mannerwithout special processing.
A.9.1.5 Parameter Description: Unicast Tunnel Management_OAM Parameters
This topic describes parameters that are related to MPLS OAM.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > Unicast Tunnel Management from the FunctionTree.
2. Click the OAM Parameter tab.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Tunnel ID - - Displays the tunnel ID.
Tunnel Name - - Displays the tunnel name.
Node Type - - l Displays the node type.l For bidirectional
tunnels, this parameterdisplays the node typesof forward tunnels.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
676
Parameter Value Range Default Value Description
Tunnel Direction - - Displays the direction of atunnel.
OAM Status EnabledDisabled
Disabled l Specifies or displayswhether the local nodecan perform andrespond to OAMoperations.
l If OAM Status isEnabled, the local NEcan perform andrespond to OAMoperations.
l If OAM Status isDisabled, the local NEcannot perform andrespond to OAMoperations.
l If MPLS APSprotection needs to beconfigured or a CC testneeds to be performedfor the tunnel, OAMStatus needs to be setto Enabled.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
677
Parameter Value Range Default Value Description
Detection Mode Auto-SensingManual
Auto-Sensing l Specifies or displaysthe MPLS OAMdetection mode.
l Manual: During a CCtest, MPLS OAMpackets are sent at theinterval specified bythe user.
l Auto-Sensing: Duringa CC test, MPLS OAMpackets are sent at theinterval for receivingMPLS OAM packets.
l For a unidirectionaltunnel, this parametercan be set for its egressnode only.
l For a bidirectionaltunnel, if DetectionMode is set toManual, you need toset the MPLS OAMdetection packets to bereceived andtransmitted.
l Generally, the valueAuto-Sensing isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
678
Parameter Value Range Default Value Description
Detection Packet Type CVFFD
CV l CV: The detectionpackets are sent at afixed interval.
l FFD: The detectionpackets are sent at theinterval specified bythe user.
l For the egress node ofa unidirectional tunnel,if Detection Mode isset to Manual, thisparameter specifies thetype of MPLS OAMdetection packets to bereceived.
l For a bidirectionaltunnel, if DetectionMode is set to Auto-Sensing, thisparameter specifies thetype of MPLS OAMdetection packets to betransmitted.
l For a bidirectionaltunnel, if DetectionMode is set toManual, thisparameter specifies thetypes of MPLS OAMdetection packets to bereceived andtransmitted.
l The value FFD isassumed for MPLSAPS and the valueCV is assumed forcontinuousconnectivity check onMPLS tunnels.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
679
Parameter Value Range Default Value Description
Detection Packet Period(ms)
3.3102050100200500
50 l Displays or specifiesthe OAM detectionperiod.
l This parameter isavailable only whenDetection PacketType is FFD. It takesits fixed value of 1000ms when DetectionPacket Type is CV.
l Set this parameter to3.3 for MPLS APSusually. If the packettransmission delaytime of an MPLStunnel exceeds 3.3 ms,the transmissioninterval of FFDpackets needs to be avalue greater than thedelay time.
Reverse Tunnel - - l Specifies the mappingreverse tunnel of aforward tunnel.
l For a bidirectionaltunnel, this parametercannot be set.
CV/FFD Status - - Displays whether CV/FFD is enabled.
LSP Status - - Displays whether an LSPis available.
LSP Defect Type - - Displays the LSP defecttype.
Disable LSP Duration(ms)
- - Displays the durationwhen an LSP isunavailable.
LSP Defect Location - - Displays the LSR ID of anode where LSP defectsare detected.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
680
Parameter Value Range Default Value Description
SD Threshold 0-100 0 l Specifies or displaysthe SD threshold.When the OAM packetloss ratio is higher thanthe parameter value,the correspondingalarm is reported.
l For a unidirectionaltunnel, this parametercan be set for its egressnode only.
l When this parameter isset to 0, SD thresholddetection is notsupported.
SF Threshold 0-100 0 l Specifies or displaysthe SF threshold.When the OAM packetloss ratio is higher thanthe parameter value,the correspondingalarm is reported.
l For a unidirectionaltunnel, this parametercan be set for its egressnode only.
l When this parameter isset to 0, SF thresholddetection is notsupported.
l The SD threshold is nothigher than the SFthreshold.
Source Node - - Displays the source nodeof a tunnel.
Sink Node - - Displays the sink node ofa tunnel.
A.9.1.6 Parameter Description: Unicast Tunnel Management_FDIThis topic describes FDI parameters.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
681
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > Unicast Tunnel Management from the FunctionTree.
2. Click the FDI tab.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Enable FDI SelectedNot selected
Selected l Specifies or displayswhether Enable FDI isselected.
l If the FDI function isenabled for a transitnode, the transit nodeinserts an FDI packetto all LSPs that travelthrough the transitnode when a faultoccurs on the linkbetween the ingressand transit nodes. Onreception of the FDIpacket, the egress nodereports an alarm. Inthis case, if MPLS APSis configuredcorrectly, protectionswitching is triggeredbefore the egress nodedetects an LSP defectwithin a detectionperiod.
l Generally, the defaultparameter value isrecommended.
A.9.1.7 Parameter Description: Unicast Tunnel Management_LSP Ping
This topic describes the parameters that are related to the LSP Ping test.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > Unicast Tunnel Management from the FunctionTree.
2. Click the OAM Parameters tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
682
3. Select the required tunnel, click OAM Operation in the lower right corner, and choosePing Test from the drop-down list.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Packet Count 1 to 4294967295 3 Specifies the number oftest request packets.
EXP Value 0 to 7 7 l Specifies the EXPvalue of the MPLSlabel in test requestpackets. The value 7indicates the highestpriority.
l The default value isrecommended.
TTL 1 to 255 255 l Specifies the time-to-live (TTL) value of theMPLS label in testrequest packets.
l The default value isrecommended.
Transmit Interval(10ms)
1 to 1000 100 l Specifies the intervalfor transmitting testrequest packets.
l The default value isrecommended.
Packet Length 64 to 1400 64 l Specifies the length oftest request packets.
l The default value isrecommended.
Wait-to-ResponseTimeout Time(10ms)
1 to 6000 300 l Specifies the wait-to-response timeoutvalue.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
683
Parameter Value Range Default Value Description
Response Mode IPv4 UDP ResponseNo ResponseApplication ControlChannel
IPv4 UDP Response l Specifies the responsemode of test requestpackets.
l The value NoResponse indicatesthat the testperformance event isreported withoutsending responsepackets.
l The value ApplicationControl Channelindicates that responseis performed throughthe reverse channel.
l The value IPv4 UDPResponse indicatesthat the IPv4 UDPpackets encapsulatingMPLS echo replymessages are sent asresponse packets.
l The value IPv4 UDPResponse is reservedfor scenarios where allnodes on an LSPcommunicate witheach other over a DCNrunning IP protocols.
l Set this parameterbased on the situationof the egress node. Ifthe egress nodesupports reversechannel response, setthis parameter toApplication ControlChannel. If the egressnode does not supportreverse channelresponse but supportsDCN channel responseby means of IPprotocols, set thisparameter to IPv4UDP Response.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
684
Parameter Value Range Default Value Description
NOTEFor a unidirectionaltunnel, ResponseMode cannot be set toApplication ControlChannel.
A.9.1.8 Parameter Description: Unicast Tunnel Management_LSP TracerouteThis topic describes the parameters that are related to the LSP Traceroute test.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > Unicast Tunnel Management from the FunctionTree.
2. Click the OAM Parameters tab.3. Select the required tunnel, click OAM Operation in the lower right corner, and choose
Traceroute Test from the drop-down list.
Parameters on the Main InterfaceParameter Value Range Default Value Description
EXP Value 0 to 7 7 l Specifies the EXPvalue of the MPLSlabel in test requestpackets. The value 7indicates the highestpriority.
l The default value isrecommended.
TTL 1 to 255 255 l Specifies the time-to-live (TTL) value of theMPLS label in testrequest packets.
l The default value isrecommended.
Packet Length 84 to 1400 84 l Specifies the length oftest request packets.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
685
Parameter Value Range Default Value Description
Wait-to-ResponseTimeout Time(10ms)
1 to 6000 300 l Specifies the wait-to-response timeoutvalue.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
686
Parameter Value Range Default Value Description
Response Mode IPv4 UDP ResponseNo ResponseApplication ControlChannel
IPv4 UDP Response l Specifies the responsemode of test requestpackets.
l The value NoResponse indicatesthat the testperformance event isreported withoutsending responsepackets.
l The value ApplicationControl Channelindicates that responseis performed throughthe reverse channel.
l The value IPv4 UDPResponse indicatesthat the IPv4 UDPpackets encapsulatingMPLS echo replymessages are sent asresponse packets.
l The value IPv4 UDPResponse is reservedfor scenarios where allnodes on an LSPcommunicate witheach other over a DCNrunning IP protocols.
l Set this parameterbased on the situationof the egress node. Ifthe egress nodesupports reversechannel response, setthis parameter toApplication ControlChannel. If the egressnode does not supportreverse channelresponse but supportsDCN channel responseby means of IPprotocols, set thisparameter to IPv4UDP Response.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
687
Parameter Value Range Default Value Description
NOTEFor a unidirectionaltunnel, ResponseMode cannot be set toApplication ControlChannel.
A.9.1.9 Parameter Description: PW Management_PW ManagementThis topic describes parameters that are related to PW management.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > PW Management from the Function Tree.2. Click the PW Management tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
PW ID - - Displays the ID of the PW that carries aservice.
Enable State - - Displays whether a PW is enabled.
PW SignalingType
- - Displays the PW signaling type.NOTE
The OptiX RTN 950 uses only static PWs.
PW Type - - l Displays the PW type. Different PW typesperform different service processingmodes.
l When a PW transmits E-Line services, setPW Type to Ethernet or EthernetTagged Mode.
l If a PW transmits CES services, set PWType to CESoPSN or SATop.
l If a PW transmits ATM services, set PWType to ATM n-to-one VCC Celltransport, ATM one-to-one VCC CellMode, ATM n-to-one VPC Celltransport, or ATM one-to-one VPC CellMode.
Direction - - Displays the direction of a PW.
PW IngressLabel/SourcePort
- - Displays the ingress label at the source port ofa PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
688
Parameter Value Range Default Value Description
PWEncapsulationType
- - Displays the encapsulation type of the packetson a PW.NOTE
The OptiX RTN 950 supports only MPLSencapsulation.
PW EgressLabel/SinkPort
- - Displays the egress label at the sink port of aPW.
Opposite LSRID
- - Displays the LSR ID of the node at the otherend of a PW.
LocalWorkingStatus
- - Displays the working status of the PW at thelocal end.
RemoteWorkingStatus
- - Displays the working status of the PW at theremote end.
CompositiveWorkingStatus
- - Displays the working status of the entire PW.
Tunnel Type - - Displays the type of the tunnel that carries aPW.NOTE
The OptiX RTN 950 supports only MPLS tunnels.
Tunnel - - Displays the ID of the tunnel that carries a PW.
DeploymentStatus
- - Displays the deployment status of a PW.
TunnelAutomaticSelectionPolicy
- - The OptiX RTN 950 does not support thisparameter.
QoS Parameters
Table A-74 CES services
Parameter Value Range Default Value Description
PW ID - - Displays the ID of the PWthat carries the service.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
689
Parameter Value Range Default Value Description
Direction - - Displays the direction ofthe PW that carries theservice.
CIR(kbit/s) - - The OptiX RTN 950 doesnot support this parameter.
EXP - - The OptiX RTN 950 doesnot support this parameter.
Table A-75 E-Line services
Parameter Value Range Default Value Description
PW ID - - Displays the ID of the PWthat carries the service.
Direction - - Displays the direction ofthe PW that carries theservice.
Bandwidth Limit - - Displays whether thebandwidth is limited.
CIR(kbit/s) - - Displays the committedinformation rate (CIR) ofa PW.
CBS(byte) - - Displays the committedburst size (CBS) of a PW.
PIR(kbit/s) - - Displays the peakinformation rate (PIR) of aPW
PBS(byte) - - Displays the peak burstsize (PBS) of a PW.
EXP - - The OptiX RTN 950 doesnot support this parameter.
LSP Mode - - Displays the LSP mode.NOTE
The OptiX RTN 950supports only Pipe.
Policy - - The OptiX RTN 950 doesnot support this parameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
690
Table A-76 ATM services
Parameter Value Range Default Value Description
PW ID - - Displays the ID of the PWthat carries the service.
Direction - - Displays the direction ofthe PW that carries theservice.
Bandwidth Limit - - Displays whether thebandwidth is limited.
CIR(kbit/s) - - Displays the committedinformation rate (CIR) ofa PW.
CBS(byte) - - Displays the committedburst size (CBS) of a PW.
PIR(kbit/s) - - Displays the peakinformation rate (PIR) of aPW
PBS(byte) - - Displays the peak burstsize (PBS) of a PW.
EXP - - The OptiX RTN 950 doesnot support this parameter.
Policy - - The OptiX RTN 950 doesnot support this parameter.
Parameters for Advanced Attributes
Table A-77 CES services
Parameter Value Range Default Value Description
PW ID - - Displays the PW ID.
RTP Head - - Displays whether the CESservice packets carry anRTP header.
Packet Loading Time(us)
- - Displays the packetloading time.
Jitter CompensationBuffering Time(us)
- - Displays the jitter buffertime for the received CESpackets.
Ingress Clock Mode - - The OptiX RTN 950 doesnot support this parameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
691
Parameter Value Range Default Value Description
Egress Clock Mode - - The OptiX RTN 950 doesnot support this parameter.
Control Channel Type - - Displays the controlchannel type.
VCCV VerificationMode
- - Displays the VCCV mode.
Enable CES ServiceAlarm TransparentTransmission
- - Displays whether CESservice alarms aretransparently transmitted.
Threshold of Entering Rbit Inserting Status
- - Displays the threshold ofthe packet loss ratio ofCES services. Thecorresponding alarm willbe reported if the actualpacket loss ratio crossesthis threshold.
Threshold of Exiting Rbit Inserting Status
- - Displays the threshold ofreceived CES servicepackets. Thecorresponding alarm willbe cleared after the actualnumber of received CESservice packets crossesthis threshold.
Sequence Number Mode - - Displays the sequencenumber mode.
Table A-78 E-Line services
Parameter Value Range Default Value Description
PW ID - - Displays the PW ID.
Control Word - - Displays whether thecontrol word is used totransfer packetinformation. For ETHPWE3 services, thisparameter is always notused.
Control Channel Type - - Displays the controlchannel type.
VCCV VerificationMode
- - Displays the VCCV mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
692
Parameter Value Range Default Value Description
Request VLAN - - When PW Type isEthernet Tag, thisparameter displays theVLAN ID to be added topackets that are sent fromthe opposite end and donot carry any VLAN IDs.
TPID - - When PW Type isEthernet Tag, thisparameter displays theTPID.
Table A-79 ATM services
Parameter Value Range Default Value Description
PW ID - - Displays the PW ID.
Control Word - - Displays whether thecontrol word is used totransfer packetinformation.
Control Channel Type - - Displays the controlchannel type.
VCCV VerificationMode
- - Displays the VCCV mode.
Max Concatenated CellCount
- - Displays the maximumnumber of concatenatedcells.
Packet Loading Time(us)
- - Displays the packetloading time.
A.9.1.10 Parameter Description: PW Management_MS-PW Creation
This topic describes the parameters that are related to MS-PW creation.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > PW Management from the Function Tree.
2. Click the MS PW tab.
3. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
693
Parameters on the Main InterfaceParameter Value Range Default Value Description
ID - - Specifies the ID of MS-PW.
Name - - Specifies the name of MS-PW.
MTU(bytes) - - The OptiX RTN 950 does not support thisparameter.
Service Type Ethernet ServiceCES ServiceATM Service
Ethernet Service l Specifies the type of services carried by theMS-PW.
l Set this parameter according to theplanning information.
ConnectionType
Port TransparentPVPPVC
Port Transparent l This parameter is available only whenService Type is ATM Service.
l PVP: Only the VPIs of the source and sinkare exchanged.
l PVP: The VPIs and VCIs of the source andsink are exchanged.
l Port Transparent: ATM transparenttransmission refers to the transparenttransmission of ATM cells that areencapsulated into PWs as payloads.
Parameters for the Basic Attributes of PWsParameter Value Range Default Value Description
PW ID - - Specifies the ID of the PWthat carries services.
PW Signaling Type Static Static Specifies the signalingtype of the PW. Labels forstatic PWs need to bemanually assigned.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
694
Parameter Value Range Default Value Description
PW Type - - l Specifies the type ofthe PW.
l Set this parameter toEthernet if ServiceType is ETH Serviceand no VLAN IDsneed to be added. If itis required to addVLAN IDs, set thisparameter to EthernetTag Mode and then setRequest VLAN in theAdvanced Attributetab.
l If Service Type isCES Service, thevalue CESoPSNindicates structure-aware emulation,which allows timeslotcompression; the valueSAToP indicatesstructure-agnosticemulation, which doesnot allow timeslotcompression.
l If Service Type isATM Service, set thisparameter according tothe value ofConnection Type.
PW Direction - - Displays the direction ofthe PW.
PW Encapsulation Type - - Displays theencapsulation type of thePW.
PW Ingress Label/Source Port
16 to 1048575 - Specifies the PW Ingresslabel.
PW Egress Label/SinkPort
16 to 1048575 - Specifies the PW Egresslabel.
Tunnel Selection Mode Manually Manually Specifies the method toselect tunnels.NOTE
The OptiX RTN 950supports only the valueManually.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
695
Parameter Value Range Default Value Description
Tunnel Type MPLS MPLS Specifies the type of thetunnel that carries the PW.
Tunnel - - A created tunnel needs tobe selected. If no tunnel isavailable, no PW can becreated.
Peer LSR ID - - Specifies the LSR ID ofthe PW at the remote end.If an existing tunnel isselected, the LSR ID willbe automatically assigned.
Egress Tunnel - - For a bidirectional tunnel,the system will configurethe reverse tunnelautomatically.
QoS Parameters
CES Services
Parameter Value Range Default Value Description
EXP - - The OptiX RTN 950 doesnot support this parameter.
Ethernet services
Parameter Value Range Default Value Description
Bandwidth Limit - - Specifies whether thebandwidth limit functionis enabled.l This function limits the
bandwidth of one ormore PWs in an MPLStunnel.
l An ETH PWE3 servicecorresponds to a PW.Therefore, thisfunction can also limitthe bandwidth of ETHPWE3 services in anMPLS tunnel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
696
Parameter Value Range Default Value Description
Policy - - The OptiX RTN 950 doesnot support this parameter.
CIR(Kbit/s) - - Specifies the committedinformation rate (CIR) ofa PW.It is recommended thatyou set this parameter tothe same value as PIR.
CBS(byte) - - Specifies the committedburst size (CBS) of a PW.
PIR(Kbit/s) - - Specifies the peakinformation rate (PIR) of aPW.It is recommended thatyou set this parameter tothe same value as CIR.
PBS(byte) - - Specifies the peak burstsize (PBS) of a PW.
EXP - - The OptiX RTN 950 doesnot support this parameter.
LSP Mode Pipe Pipe Pipe: When strippingMPLS tunnel labels frompackets, an egress nodedoes not update thescheduling priority for thepackets.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
697
ATM services
Table A-80 ATM services
Parameter Value Range Default Value Description
Bandwidth Limit - - Specifies whether thebandwidth limit isenabled.l This function can be
used to limit thebandwidth of one ormore PWs, or thebandwidth of one ormore ATM PWE3services, in an MPLStunnel. (One ATMPWE3 servicecorresponds to onePW.)
l An ATM PWE3service corresponds toa PW. Therefore, thisfunction can also limitthe bandwidth of ATMPWE3 services in anMPLS tunnel.
Policy - - The OptiX RTN 950 doesnot support this parameter.
CIR (Kbit/s) - - Specifies the committedinformation rate (CIR) ofthe PW.It is recommended thatyou set this parameter tothe same value as PIR.
CBS (kbyte) - - Specifies the excess burstsize of the PW.
PIR (kbit/s) - - Specifies the peakinformation rate (PIR) ofthe PW.It is recommended thatyou set this parameter tothe same value as CIR.
PBS (kbyte) - - Specifies the maximumexcess burst size of thePW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
698
Parameter Value Range Default Value Description
EXP - - The OptiX RTN 950 doesnot support this parameter.
Parameters for the Advanced Attributes of PWs
CES ServicesParameter Value Range Default Value Description
RTP Header DisableEnable
Disable l Specifies the RTPheader.
l The RTP headercarries time stamps.
l The default value isrecommended.
Jitter CompensationBuffering Time(us)
375 to 16000 8000 l Specifies the jitterbuffer time for thereceived CES packets.
l A greater value of thisparameter meansfewer impacts oftransmission jitters onCES services, greaterdelays of CESservices, and moreresources occupied byCES services.
l The default value isrecommended.
NOTESet Jitter CompensationBuffering Time(us) to avalue greater than the valueof Packet Loading Time(us) at the opposite end andthe local end.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
699
Parameter Value Range Default Value Description
Packet Loading Time(us)
125 to 5000 1000 l Specifies the length offragments in the TDMdata stream. Eachfragment isencapsulated into onePW packet.
l A greater value of thisparameter meanshigher encapsulationefficiency but greaterdelays of CESservices.
l The default value isrecommended.
Ingress Clock mode - - The OptiX RTN 950 doesnot support this parameter.
Egress Clock mode - - The OptiX RTN 950 doesnot support this parameter.
Control Channel Type NoneCWAlert Label
CW l Specifies the mode ofPW connectivitycheck.
l The value Noneindicates that thecontrol word is notsupported. That is, thePW connectivitycheck is not supported.
l Alert Label indicatesVCCV packets in AlertLabel encapsulationmode.
l The value CWindicates that thecontrol word issupported.
VCCV VerificationMode
NonePing
Ping l Specifies the VCCVverification mode. TheVCCV verification isused for PWconnectivity check.
l If the VCCV-Ping testis required, do not setthis parameter toNone.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
700
Parameter Value Range Default Value Description
64K Timeslot Number 1 to 31 1 l Specifies the numberof 64 kbit/s timeslotsthat transmit servicetraffic. If FrameMode of the oppositeend is 30, the source 64kbit/s timeslots at thelocal end must includethe 16th timeslot.
l On the two ends of aradio link, the timeslotlists can be differentbut the numbers oftimeslots must be thesame.
l This parameter isunavailable if PWType is SAToP.
Sequence Number Mode Huawei ModeStandard Mode
Huawei Mode Specifies the sequencenumber mode.
Ethernet servicesParameter Value Range Default Value Description
Control Word No Use No Use For ETH PWE3 services,the parameter value isalways No Use.
Control Channel Type NoneAlert Label
Alert Label l Specifies the mode ofPW connectivitycheck.
l None indicates thatVCCV is not used.
l Alert Label indicatesVCCV packets inAlert Labelencapsulation mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
701
Parameter Value Range Default Value Description
VCCV VerificationMode
PingNone
Ping l Specifies the VCCVverification mode. TheVCCV verification isused for PWconnectivity check.
l If the VCCV-Ping testis required, do not setthis parameter toNone.
Request VLAN - - l Set this parameterwhen PW Type isEthernet TaggedMode.
l If the received packetsdo not carry anyVLAN IDs, the PWwill add VLAN IDs tothe packets as requiredby the setting of thisparameter.
TPID - - The OptiX RTN 950 doesnot support request VLANTPID of the PW level.
ATM servicesParameter Value Range Default Value Description
Control Word Must UseNo Use
Must Use l Specifies whether touse the control word.In the MPLS packetswitching network, thecontrol word is used totransmit packetinformation.
l Set Control Word toMust Use if PWType is ATM 1:1.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
702
Parameter Value Range Default Value Description
Control Channel Type CWNoneAlert Label
CW l Specifies the mode ofPW connectivitycheck.
l The value Noneindicates that thecontrol word is notsupported. That is, thePW connectivity checkis not supported.
l The value CWindicates that thecontrol word issupported.
l The value AlertLabel indicates VCCVpackets in AlertLabel encapsulationmode.
VCCV VerificationMode
PingNone
Ping l Specifies the VCCVverification mode. TheVCCV verification isused for PWconnectivity check.
l If the VCCV-Ping testis required, do not setthis parameter toNone.
Max. Concatenated CellCount
1 to 31 10 l Specifies themaximum number ofconcatenated cells.
l If the value 1 isassumed, only oneATM cell isencapsulated in onepacket. If the valuefrom 2 to 31 isassumed, a maximumof 2 to 31 ATM cellsare encapsulated intoone packet.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
703
Parameter Value Range Default Value Description
Packet Loading Time(us)
100 to 50000 1000 l Specifies the packetloading time. Once thepacket loading timeexpires, the packet issent out even if theconcatenated cells areless than themaximum.
l If Max. ConcatenatedCell Count assumesthe value 1, thisparameter isineffective. That is, thepacket will be sent outonce the cell is loaded.
A.9.1.11 Parameter Description: PW Management_PW OAMThis topic describes parameters that are related to PW OAM.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > PW Management from the Function Tree.2. Click the PW OAM Parameter tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
PW ID - - Displays the ID of the PWthat carries the service.
PW Type - - Displays the type of thePW that carries theservice.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
704
Parameter Value Range Default Value Description
OAM Status EnabledDisabled
Disabled l Specifies or displayswhether the local nodecan perform andrespond to OAMoperations.
l If OAM Status isEnabled, the local NEcan perform andrespond to OAMoperations.
l If OAM Status isDisabled, the local NEcannot perform andrespond to OAMoperations.
l If PW APS protectionneeds to be configuredor a CC test needs to beperformed for thetunnel, OAM Statusneeds to be set toEnabled.
Associate AC State - - The OptiX RTN 950 doesnot support this parameter.
Detection Mode Auto-SensingManual
Auto-Sensing l Specifies or displaysthe detection mode forPW OAM packets.
l Manual: During a CCtest, PW OAM packetsare sent at the intervalspecified by the user.
l Auto-Sensing: Duringa CC test, PW OAMpackets are sent at theinterval for receivingPW OAM packets.
l If Detection Mode isset to Manual, youneed to set the type ofPW OAM detectionpackets to be receivedand transmitted.
l The value Auto-Sensing isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
705
Parameter Value Range Default Value Description
Detection Packet Type CVFFD
CV l CV: The detectionpackets are sent at afixed interval.
l FFD: The detectionpackets are sent at theinterval specified bythe user.
l If Detection Mode isset to Auto-Sensing,this parameterspecifies the type ofPW OAM detectionpackets to betransmitted.
l If Detection Mode isset to Manual, thisparameter specifies thetype of PW OAMdetection packets to bereceived andtransmitted.
l The value FFD isassumed for PW APSand the value CV isassumed forcontinuousconnectivity check onPWs.
Detection Packet Period(ms)
3.3102050100200500
50 l Displays or specifiesthe OAM detectionperiod.
l If Detection PacketType is FFD, thisparameter can be set; ifDetection PacketType is CV, the valueis always 1000.
l Set this parameter to3.3 for PW APSusually. If the packettransmission delaytime of a PW exceeds3.3 ms, thetransmission intervalof FFD packets needsto be a value greaterthan the delay time.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
706
Parameter Value Range Default Value Description
SD Threshold (%) 0-100 0 l Specifies or displaysthe SD threshold.When the OAM packetloss ratio is higher thanthe parameter value,the correspondingalarm is reported.
l When this parameter isset to 0, SD thresholddetection is notsupported.
SF Threshold (%) 0-100 0 l Specifies or displaysthe SF threshold.When the OAM packetloss ratio is higher thanthe parameter value,the correspondingalarm is reported.
l When this parameter isset to 0, SF thresholddetection is notsupported.
l The SD threshold is nothigher than the SFthreshold.
LSR ID to Be Received - - l Specifies or displaysthe LSR ID to bereceived.
l This parameter isavailable only if OAMStatus is Disabled.
PW ID to be Received - - l Specifies or displaysthe PW ID to bereceived.
l This parameter isavailable only if OAMStatus is Disabled.
Local Working Status - - Displays whether PWs atthe local end are available.
Local PW Defect Type - - Displays the local PWdefect type.
Local Disable PWDuration(ms)
- - Displays the durationwhen the local PW isunavailable.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
707
Parameter Value Range Default Value Description
Local PW DefectLocation
- - Displays the local PWdefect location.
Remote Working Status - - Displays whether PWs atthe remote end areavailable.
Remote PW Defect Type - - Displays the remote PWdefect type.
Remote Disable PWDuration(ms)
- - Displays the durationwhen the remote PW isunavailable.
Remote PW DefectLocation
- - Displays the remote PWdefect location.
A.9.1.12 Parameter Description: PW Management_PW Ping
This topic describes the parameters that are related to the PW Ping test.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > PW Management from the Function Tree.2. Click the PW OAM Parameter tab.3. Select the required PW and click OAM Operation > Ping Test.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Packet Count 1 to 4294967295 3 Specifies the number oftest request packets.
EXP Value 0 to 7 7 l Specifies the EXPvalue of the PW labelin test request packets.The value 7 indicatesthe highest priority.
l The default value isrecommended.
TTL 1 to 255 255 l Specifies the time-to-live (TTL) value of thePW label in test requestpackets.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
708
Parameter Value Range Default Value Description
Transmit Interval(10ms)
1 to 1000 100 l Specifies the intervalfor transmitting testrequest packets.
l The default value isrecommended.
Packet Length 64 to 1400 64 l Specifies the length oftest request packets.
l The default value isrecommended.
Wait-to-ResponseTimeout Time(10ms)
1 to 6000 300 l Specifies the wait-to-response timeoutvalue.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
709
Parameter Value Range Default Value Description
Response Mode IPv4 UDP ResponseNo ResponseApplication ControlChannel Response
IPv4 UDP Response l Specifies the responsemode of test requestpackets.
l The value NoResponse indicatesthat the testperformance event isreported withoutsending responsepackets.
l The value ApplicationControl ChannelResponse indicatesthat response isperformed through thereverse channel.
l The value IPv4 UDPindicates that the IPv4UDP packetsencapsulating MPLSecho reply messagesare sent as responsepackets.
l The value IPv4 UDP isreserved for scenarioswhere all nodes on anLSP communicatewith each other over aDCN running IPprotocols.
l Set this parameterbased on the situationof the remote PE. If theremote PE supportsreverse channelresponse, set thisparameter toApplication ControlChannel Response. Ifthe remote PE does notsupport reversechannel response butsupports DCN channelresponse by means ofIP protocols, set thisparameter to IPv4UDP Response.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
710
Parameter Value Range Default Value Description
Peer PW ID - - Specifies the PW ID of thepeer end.
Peer IP - - Specifies the IP address ofthe peer port.
A.9.1.13 Parameter Description: PW Management_PW Traceroute
This topic describes the parameters that are related to the PW Traceroute test.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > MPLS Management > PW Management from the Function Tree.
2. Click the PW OAM Parameter tab.
3. Select the required PW, click OAM Operation in the lower right corner, and chooseTraceroute Test from the drop-down list.
Parameters on the Main Interface
Parameter Value Range Default Value Description
EXP Value 0 to 7 7 l Specifies the EXPvalue of the PW labelin test request packets.The value 7 indicatesthe highest priority.
l The default value isrecommended.
TTL 1 to 255 255 l Specifies the time-to-live (TTL) value of thePW label in test requestpackets.
l The default value isrecommended.
Packet Length 84 to 1400 84 l Specifies the length oftest request packets.
l The default value isrecommended.
Wait-to-ResponseTimeout Time(10ms)
1 to 6000 300 l Specifies the wait-to-response timeoutvalue.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
711
Parameter Value Range Default Value Description
Response Mode IPv4 UDP ResponseNo ResponseApplication ControlChannel Response
IPv4 UDP Response l Specifies the responsemode of test requestpackets.
l The value NoResponse indicatesthat the testperformance event isreported withoutsending responsepackets.
l The value ApplicationControl ChannelResponse indicatesthat response isperformed through thereverse channel.
l The value IPv4 UDPindicates that the IPv4UDP packetsencapsulating MPLSecho reply messagesare sent as responsepackets.
l The value IPv4 UDP isreserved for scenarioswhere all nodes on anLSP communicatewith each other over aDCN running IPprotocols.
l Set this parameterbased on the situationof the remote PE. If theremote PE supportsreverse channelresponse, set thisparameter toApplication ControlChannel Response. Ifthe remote PE does notsupport reversechannel response butsupports DCN channelresponse by means ofIP protocols, set thisparameter to IPv4UDP Response.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
712
A.9.1.14 Parameter Description: MPLS APS Protection ManagementThis topic describes parameters that are related to MPLS APS protection management.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > APS Protection Management from the Function Tree.2. Click the Tunnel APS Management tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Protection Group ID - - l Displays the protectiongroup ID.
l The systemautomatically assignsIDs to the protectiongroups according totheir creationsequence.
Protection Type - - Displays the protectiongroup type.
Switching Mode Dual-EndedSingle-Ended
- l Displays or specifiesthe switching mode ofa protection group.
l The value Single-Ended indicates thatservices are switchedonly in the directionwhere faults occur.
l The value Dual-Ended indicates thatservices in bothpositive and reversedirections are switchedto their protectionchannels when faultsoccur.
l It is recommended thatyou set this parameterto Dual-Ended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
713
Parameter Value Range Default Value Description
BDI Status DisabledEnabled
- l Specifies or displayswhether the protectionswitching is triggeredupon receiving BDIpackets.
l This parameter isavailable only whenSwitching Mode is setto Single-Ended.
l If BDI Status is set toEnabled, the egressnode notifies theingress node of anydetected faults bysending BDI packets;upon receiving BDIpackets, the ingressnode triggersprotection switching.
Transmit and receiveStatus of Protocol Packet
- - Displays the protocolpacket status.
Revertive Mode Non-RevertiveRevertive
- l Specifies or displayswhether to switchservices to the originalworking tunnel afterthe fault is rectified.
l The value Revertiveindicates to performthe switching; thevalue Non-Revertiveindicates not toperform the switching.
l It is recommended thatyou set this parameterto Revertive.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
714
Parameter Value Range Default Value Description
WTR Time(min) 1-12 - l Specifies and displaysthe WTR time of theprotection group.
l When the preset WTRtime expires after theoriginal workingtunnel recovers,services are switchedto the original workingtunnel.
l This parameter isavailable only whenRevertive Mode isRevertive.
l It is recommended thatyou set this parameterto 5.
Hold-Time(100ms) 0-100 - l Specifies the hold-offtime of the protectiongroup.
l If this parameter is setto a value other than 0,the protection groupdoes not triggerswitching once itdetects faults, but waituntil the hold-off timeexpires, and thendetect whether anyfaults persist. If anyfaults persist, theswitching is triggered;otherwise, noswitching is triggered.
l It is recommended thatyou set this parameterto 0.
Protocol Status - - Displays the protocolstatus.
Switching Status - - Displays the switchingstatus of the protectiongroup.
Deployment Status - - Displays the deploymentstatus of the protectiongroup.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
715
Parameter Value Range Default Value Description
Unit - - Displays whether a tunnelis a working or protectiontunnel.
Active Tunnel - - Displays the currentlyused tunnel.
Tunnel Status - - Displays the tunnel status.
Tunnel Type - - Displays the tunnel type.
Tunnel Direction - - Displays the direction of atunnel.
Ingress Tunnel - - Displays the ingresstunnel.
Egress Tunnel - - Displays the egress tunnel.
A.9.1.15 Parameter Description: Tunnel Protection Group_CreationThis topic describes the parameters that are related to creating a tunnel protection group.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > APS
Protection Management from the Function Tree.2. Click the Tunnel APS Management tab.3. Click New.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Protection Type 1:1 1:1 Specifies the protectiontype of the tunnelprotection group.NOTE
The OptiX RTN 950supports only the value 1:1.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
716
Parameter Value Range Default Value Description
Switching Mode Single-EndedDual-Ended
Dual-Ended l Specifies the switchingmode to be adoptedwhen a tunnel fails.
l The value Single-Ended indicates thatservices are switchedonly in the directionwhere faults occur.
l The value Dual-Ended indicates thatservices are switchedto the protectionchannel in bothdirections when faultsoccur.
l The value Dual-Ended isrecommended.
BDI Status EnabledDisabled
Disabled l Specifies whether theprotection switching istriggered uponreceiving BDI packets.
l This parameter isavailable only whenSwitching Mode is setto Single-Ended.
l If BDI Status is set toEnabled, the egressnode notifies theingress node of anydetected faults bysending BDI packets;upon receiving BDIpackets, the ingressnode triggers theprotection switching.
Working Tunnel Type MPLS Tunnel MPLS Tunnel Specifies the type of theworking tunnel.NOTE
The OptiX RTN 950supports only the valueMPLS Tunnel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
717
Parameter Value Range Default Value Description
Working Ingress TunnelID
- - l Specifies the workingtunnel of the protectiongroup in the ingressdirection.
l If this parameter is setfor a bidirectionaltunnel, a value isautomatically assignedto the parameterWorking EgressTunnel ID.
Working Ingress TunnelName
- - Displays the name of theworking tunnel in theingress direction.
Working Egress TunnelID
- - l Specifies the workingtunnel of the protectiongroup in the egressdirection.
l For a bidirectionaltunnel, if the parameterWorking IngressTunnel ID is set, avalue is automaticallyassigned to theparameter WorkingEgress Tunnel ID.
Working Egress TunnelName
- - Displays the name of theworking tunnel in theegress direction.
Protection Tunnel Type - - Displays the type ofprotection tunnel, which isthe same as the type ofworking tunnel.
Protection IngressTunnel ID
- - l Specifies the workingtunnel of the protectiongroup in the ingressdirection.
l If this parameter is setfor a bidirectionaltunnel, a value isautomatically assignedto the parameterProtection EgressTunnel ID.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
718
Parameter Value Range Default Value Description
Protection IngressTunnel Name
- - Displays the name of theprotection tunnel in theingress direction.
Protection EgressTunnel ID
- - l Specifies theprotection tunnel of theprotection group in theegress direction.
l For a bidirectionaltunnel, if the parameterProtection IngressTunnel ID is set, avalue is automaticallyassigned to theparameter ProtectionEgress Tunnel ID.
Protection EgressTunnel Name
- - Displays the name of theprotection tunnel in theegress direction.
Revertive Mode Non-RevertiveRevertive
Non-Revertive l This parameterspecifies whether toswitch services back tothe original workingtunnel after it recovers.
l The value Revertiveindicates to switchservices back to theoriginal workingtunnel after it recovers;the value Non-Revertive indicatesnot to switch servicesback to the originalworking tunnel after itrecovers.
l The value Revertive isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
719
Parameter Value Range Default Value Description
WTR Time(min) 1 to 12 5 l Specifies the WTRtime of the protectiongroup.
l When the preset WTRtime expires after theoriginal workingtunnel recovers,services are switchedto the original workingtunnel.
l This parameter isavailable only whenRevertive Mode isRevertive.
l The default value isrecommended.
Hold-Time(100ms) 0 to 100 0 l Specifies the hold-offtime of the protectiongroup.
l If this parameter is setto a value other than 0,the protection groupdoes not triggerswitching once itdetects faults, but waitsuntil the hold-off timeexpires, and thendetects whether anyfaults persist. If anyfaults persist, theswitching is triggered;otherwise, noswitching is triggered.
l The default value isrecommended.
Protocol Status DisabledEnabled
Disabled l Specifies the protocolstatus.
l During the creation ofa protection group, setProtocol Status toDisabled. After theAPS protection groupis configured at bothends, set ProtocolStatus to Enabled.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
720
A.9.1.16 Parameter Description: PW APS Protection Group_CreationThis topic describes the parameters that are used for creating a PW APS protection group.
Navigation PathThe navigation path for CES services is as follows:
1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > CESService Management from the Function Tree.
2. Click the Protection Group tab.3. Click the PW APS tab.4. Click New.
The navigation path for E-Line services is as follows:
1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > EthernetService Management > E-Line Service from the Function Tree.
2. Click the Protection Group tab.3. Click the PW APS tab.4. Click New.
The navigation path for ATM services is as follows:
1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > ATMService Management from the Function Tree.
2. Click the Protection Group tab.3. Click the PW APS tab.4. Click New.
Parameters for the Basic Attributes of PWsParameter Value Range Default Value Description
PW ID - - Specifies the ID of the PWthat carries services.
PW Signaling Type Static Static Specifies the signalingtype of the PW. Labels forstatic PWs need to bemanually assigned.
PW Type - - Displays the PW type.
PW Direction - - Displays the direction ofthe PW.
PW Encapsulation Type - - Displays theencapsulation type of thePW.
PW Ingress Label/Source Port
16 to 1048575 - Specifies the PW Ingresslabel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
721
Parameter Value Range Default Value Description
PW Egress Label/SinkPort
16 to 1048575 - Specifies the PW Egresslabel.
Tunnel selection mode - - Displays the method toselect tunnels.
Tunnel Type MPLS MPLS Displays the type of thetunnel that carries the PW.
Tunnel - - A tunnel needs to beselected. If no tunnel isavailable, creation of aPW will fail.
Peer LSR ID - - Specifies the LSR ID ofthe PW at the remote end.If an existing tunnel isselected, the LSR ID willbe automatically assigned.
Egress Tunnel - - For a bidirectional tunnel,the system will configurethe reverse tunnelautomatically.
QoS Parameters
Table A-81 CES services
Parameter Value Range Default Value Description
EXP - - The OptiX RTN 950 doesnot support this parameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
722
Table A-82 E-Line services
Parameter Value Range Default Value Description
Bandwidth Limit DisabledEnabled
- Specifies whether thebandwidth limit functionis enabled.l This function limits the
bandwidth of one ormore PWs in an MPLStunnel.
l An ETH PWE3 servicecorresponds to a PW.Therefore, thisfunction can also limitthe bandwidth of ETHPWE3 services in anMPLS tunnel.
Policy - - The OptiX RTN 950 doesnot support this parameter.
CIR(kbit/s) - - Specifies the committedinformation rate (CIR) ofa PW.It is recommended thatyou set this parameter tothe same value as PIR.
CBS(byte) - - Specifies the committedburst size (CBS) of a PW.
PIR(kbit/s) - - Specifies the peakinformation rate (PIR) of aPW.It is recommended thatyou set this parameter tothe same value as CIR.
PBS(byte) - - Specifies the peak burstsize (PBS) of a PW.
EXP - - The OptiX RTN 950 doesnot support this parameter.
LSP Mode - - Displays the LSP mode.NOTE
The OptiX RTN 950supports only Pipe.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
723
Table A-83 ATM services
Parameter Value Range Default Value Description
Bandwidth Limit DisabledEnabled
- Specifies whether thebandwidth limit functionis enabled.l This function limits the
bandwidth of one ormore PWs in an MPLStunnel.
l An ATM PWE3service corresponds toa PW. Therefore, thisfunction can also limitthe bandwidth of ATMPWE3 services in anMPLS tunnel.
CIR(kbit/s) - - Specifies the committedinformation rate (CIR) ofa PW.It is recommended thatyou set this parameter tothe same value as PIR.
CBS(byte) - - Specifies the committedburst size (CBS) of a PW.
PIR(kbit/s) - - Specifies the peakinformation rate (PIR) of aPW.It is recommended thatyou set this parameter tothe same value as CIR.
PBS(byte) - - Specifies the peak burstsize (PBS) of a PW.
EXP - - The OptiX RTN 950 doesnot support this parameter.
Policy - - The OptiX RTN 950 doesnot support this parameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
724
Parameters for Advanced Attributes
Table A-84 CES services
Parameter Value Range Default Value Description
RTP Head - - Displays whether the CESservice packets carry anRTP header.
Packet Loading Time(us)
- - Displays the packetloading time.
Jitter CompensationBuffering Time(us)
- - Displays the jitter buffertime for the received CESpackets.
Ingress Clock Mode - - The OptiX RTN 950 doesnot support this parameter.
Egress Clock Mode - - The OptiX RTN 950 doesnot support this parameter.
Control Channel Type - - Displays the mode of PWconnectivity check.
VCCV VerificationMode
- - Displays the VCCVverification mode. TheVCCV verification is usedfor PW connectivitycheck.
Enable CES ServiceAlarm TransparentTransmission
- - Displays whether CESservice alarms aretransparently transmitted.
Threshold of Entering Rbit Inserting Status
- - Displays the threshold ofthe packet loss ratio ofCES services. Thecorresponding alarm willbe reported if the actualpacket loss ratio crossesthis threshold.
Threshold of Exiting Rbit Inserting Status
- - Displays the threshold ofreceived CES servicepackets. Thecorresponding alarm willbe cleared after the actualnumber of received CESservice packets crossesthis threshold.
Sequence Number Mode - - Displays the sequencenumber mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
725
Table A-85 E-Line services
Parameter Value Range Default Value Description
Control Word - - Displays whether thecontrol word is used totransfer packetinformation. For ETHPWE3 services, thisparameter is always notused.
Control Channel Type - - Displays the controlchannel type.
VCCV VerificationMode
- - Displays the VCCV mode.
Request VLAN - - When PW Type isEthernet Tag, thisparameter displays theVLAN ID to be added topackets that are sent fromthe opposite end and donot carry any VLAN IDs.
TPID - - The OptiX RTN 950 doesnot support VLAN TPIDof the PW level.
Table A-86 ATM services
Parameter Value Range Default Value Description
Control Word - - Displays whether thecontrol word is used totransfer packetinformation.
Control Channel Type - - Displays the controlchannel type.
VCCV VerificationMode
- - Displays the VCCV mode.
Max Concatenated CellCount
- - Displays the maximumnumber of concatenatedcells.
Packet Loading Time(us)
- - Displays the packetloading time.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
726
Protection Group ParametersParameter Value Range Default Value Description
Protection Type - - Specifies the protectiontype.
Protection Group ID - - Specifies the protectiongroup ID.
Enabling Status DisabledEnabled
Disabled l Specifies the enablingstatus of the PWprotection group.
l During the creation ofa protection group, setEnabling Status toDisabled. After theAPS protection groupis configured at bothends, set EnablingStatus to Enabled.
Protection Mode - - Displays the protectionmode.NOTE
The OptiX RTN 950supports 1:1 protectionmode.
Working PW ID - - Displays the ID of theworking PW.
Protection PW ID - - Displays the ID of theprotection PW.
Switching Mode - - Displays the switchingmode to be used when aPW fails.NOTE
The OptiX RTN 950supports dual-endedswitching.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
727
Parameter Value Range Default Value Description
Revertive Mode Non-revertiveRevertive
Revertive l This parameterspecifies whether toswitch services back tothe original workingPW after it recovers.
l The value Revertiveindicates that servicesare switched to theoriginal working PWand the value Non-revertive indicatesthat services are notswitched to theoriginal working PW.
l The value Revertive isrecommended.
Switchover RestorationTime(min)
1 to 12 1 l Specifies the WTRtime of the protectiongroup.
l When the preset WTRtime expires after theoriginal working PWrecovers, services areswitched to theoriginal working PW.
l This parameter isavailable only whenRestoration Mode isRevertive.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
728
Parameter Value Range Default Value Description
Switchover Delay Time(100ms)
0 to 100 0 l Specifies the hold-offtime of the protectiongroup.
l If this parameter is setto a value other than 0,the protection groupdoes not triggerswitching once itdetects faults, but waitsuntil the hold-off timeexpires, and thendetects whether anyfaults persist. If anyfaults persist, theswitching is triggered;otherwise, noswitching is triggered.
l The default value isrecommended.
Detection mode - - Displays the detectionmode of the PW APSprotection group.
OAM ParametersParameter Value Range Default Value Description
OAM Status - - Displays the enablingstatus of PW OAM.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
729
Parameter Value Range Default Value Description
Detection Mode Auto-SensingManual
Auto-Sensing l Specifies the detectionmode of OAM packets.
l Manual: Theconnectivity check(CC) packets are sentat the interval specifiedby the user.
l Auto-Sensing: Theconnectivity check(CC) packets are sentat the interval ofreceiving PW OAMpackets.
l If Detection Mode isset to Manual, youneed to set the PWOAM detectionpackets to be receivedand transmitted.
l The value Auto-Sensing isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
730
Parameter Value Range Default Value Description
Detection Packet Type CVFFD
CV l CV: The detectionpackets are sent at afixed interval.
l FFD: The detectionpackets are sent at theinterval specified bythe user.
l If Detection Mode isset to Auto-Sensing,this parameterspecifies the PW OAMdetection packets to betransmitted.
l If Detection Mode isset to Manual, thisparameter specifies thePW OAM detectionpackets to be receivedand transmitted.
l The value FFD isassumed for PW APSand the value CV isassumed forcontinuousconnectivity check onPWs.
Detection Packet Period(ms)
3.3102050100200500
50 l Specifies the period ofdetection packets.
l This parameter isconfigurable whenDetection PacketType is FFD andassumes the fixedvalue of 1000 whenDetection PacketType is CV.
l Set this parameter to3.3 for PW APS.
LSR ID to be Received - - Specifies the LSR ID to bereceived.
PW ID to be Received - - Specifies the PW ID to bereceived.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
731
A.9.1.17 Parameter Description: Slave Protection Pair of a PW APS ProtectionGroup_Creation
This topic describes the parameters that are used for creating a slave protection pair of a PWAPS protection group.
Navigation Path
The navigation path for CES services is as follows:
1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > CESService Management from the Function Tree.
2. Click the Protection Group tab.3. Click the Slave Protection Pair tab.4. Click New.
The navigation path for E-Line services is as follows:
1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > EthernetService Management > E-Line Service from the Function Tree.
2. Click the Protection Group tab.3. Click the Slave Protection Pair tab.4. Click New.
The navigation path for ATM services is as follows:
1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > ATMService Management from the Function Tree.
2. Click the Protection Group tab.3. Click the Slave Protection Pair tab.4. Click New.
Parameters for the Basic Attributes of PWs
Parameter Value Range Default Value Description
PW ID - - Specifies the ID of the PWthat carries services.
PW Signaling Type Static Static Specifies the signalingtype of the PW. Labels forstatic PWs need to bemanually assigned.
PW Type - - Displays the PW type.
PW Direction - - Displays the direction ofthe PW.
PW Encapsulation Type - - Displays theencapsulation type of thePW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
732
Parameter Value Range Default Value Description
PW Ingress Label/Source Port
16 to 1048575 - Specifies the PW Ingresslabel.
PW Egress Label/SinkPort
16 to 1048575 - Specifies the PW Egresslabel.
Tunnel selection mode - - Displays the method toselect tunnels.
Tunnel Type MPLS MPLS Displays the type of thetunnel that carries the PW.
Tunnel - - A tunnel needs to beselected. If no tunnel isavailable, creation of aPW will fail.
Peer LSR ID - - Specifies the LSR ID ofthe PW at the remote end.If an existing tunnel isselected, the LSR ID willbe automatically assigned.
Egress Tunnel - - For a bidirectional tunnel,the system will configurethe reverse tunnelautomatically.
QoS Parameters
Table A-87 CES services
Parameter Value Range Default Value Description
EXP - - The OptiX RTN 950 doesnot support this parameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
733
Table A-88 E-Line services
Parameter Value Range Default Value Description
Bandwidth Limit DisabledEnabled
- Specifies whether thebandwidth limit functionis enabled.l This function limits the
bandwidth of one ormore PWs in an MPLStunnel.
l An ETH PWE3 servicecorresponds to a PW.Therefore, thisfunction can also limitthe bandwidth of ETHPWE3 services in anMPLS tunnel.
Policy - - The OptiX RTN 950 doesnot support this parameter.
CIR(kbit/s) - - Specifies the committedinformation rate (CIR) ofa PW.It is recommended thatyou set this parameter tothe same value as PIR.
CBS(byte) - - Specifies the committedburst size (CBS) of a PW.
PIR(kbit/s) - - Specifies the peakinformation rate (PIR) of aPW.It is recommended thatyou set this parameter tothe same value as CIR.
PBS(byte) - - Specifies the peak burstsize (PBS) of a PW.
EXP - - The OptiX RTN 950 doesnot support this parameter.
LSP Mode - - Displays the LSP mode.NOTE
The OptiX RTN 950supports only Pipe.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
734
Table A-89 ATM services
Parameter Value Range Default Value Description
Bandwidth Limit DisabledEnabled
- Specifies whether thebandwidth limit functionis enabled.l This function limits the
bandwidth of one ormore PWs in an MPLStunnel.
l An ATM PWE3service corresponds toa PW. Therefore, thisfunction can also limitthe bandwidth of ATMPWE3 services in anMPLS tunnel.
CIR(kbit/s) - - Specifies the committedinformation rate (CIR) ofa PW.It is recommended thatyou set this parameter tothe same value as PIR.
CBS(byte) - - Specifies the committedburst size (CBS) of a PW.
PIR(kbit/s) - - Specifies the peakinformation rate (PIR) of aPW.It is recommended thatyou set this parameter tothe same value as CIR.
PBS(byte) - - Specifies the peak burstsize (PBS) of a PW.
EXP - - The OptiX RTN 950 doesnot support this parameter.
Policy - - The OptiX RTN 950 doesnot support this parameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
735
Parameters for Advanced Attributes
Table A-90 CES services
Parameter Value Range Default Value Description
RTP Head - - Displays whether the CESservice packets carry anRTP header.
Packet Loading Time(us)
- - Displays the packetloading time.
Jitter CompensationBuffering Time(us)
- - Displays the jitter buffertime for the received CESpackets.
Ingress Clock Mode - - The OptiX RTN 950 doesnot support this parameter.
Egress Clock Mode - - The OptiX RTN 950 doesnot support this parameter.
Control Channel Type - - Displays the mode of PWconnectivity check.
VCCV VerificationMode
- - Displays the VCCVverification mode. TheVCCV verification is usedfor PW connectivitycheck.
Enable CES ServiceAlarm TransparentTransmission
- - Displays whether CESservice alarms aretransparently transmitted.
Threshold of Entering Rbit Inserting Status
- - Displays the threshold ofthe packet loss ratio ofCES services. Thecorresponding alarm willbe reported if the actualpacket loss ratio crossesthis threshold.
Threshold of Exiting Rbit Inserting Status
- - Displays the threshold ofreceived CES servicepackets. Thecorresponding alarm willbe cleared after the actualnumber of received CESservice packets crossesthis threshold.
Sequence Number Mode - - Displays the sequencenumber mode.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
736
Table A-91 E-Line services
Parameter Value Range Default Value Description
Control Word - - Displays whether thecontrol word is used totransfer packetinformation. For ETHPWE3 services, thisparameter is always notused.
Control Channel Type - - Displays the controlchannel type.
VCCV VerificationMode
- - Displays the VCCV mode.
Request VLAN - - When PW Type isEthernet Tag, thisparameter displays theVLAN ID to be added topackets that are sent fromthe opposite end and donot carry any VLAN IDs.
TPID - - The OptiX RTN 950 doesnot support VLAN TPIDof the PW level.
Table A-92 ATM services
Parameter Value Range Default Value Description
Control Word - - Displays whether thecontrol word is used totransfer packetinformation.
Control Channel Type - - Displays the controlchannel type.
VCCV VerificationMode
- - Displays the VCCV mode.
Max Concatenated CellCount
- - Displays the maximumnumber of concatenatedcells.
Packet Loading Time(us)
- - Displays the packetloading time.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
737
Protection Group ParametersParameter Value Range Default Value Description
Protection Mode - - Displays the protectionmode.
Protection Group ID - - Specifies the ID of theslave protection pair. Theswitching of the masterPW APS protection grouptriggers the switching ofthe slave PW APSprotection groupsimultaneously.
Working PW ID - - Displays the ID of theworking PW in the slaveprotection pair.
Protection PW ID - - Displays the ID of theprotection PW in the slaveprotection pair.
A.9.2 CES ParametersThis topic describes parameters that are related to CES services.
A.9.2.1 Parameter Description: CES Service ManagementThis topic describes the parameters that are related to CES service management.
Navigation PathIn the NE Explorer, select the NE from the Object Tree and choose Configuration > CESService Management from the Function Tree.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Service ID - - Displays the ID of the CESservice to be created.
Service name - - Displays or specifies theservice name.
Level - - Displays the level of thereceived TDM frames.
Source Board - - Displays the source boardof the CES service.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
738
Parameter Value Range Default Value Description
Source High Channel - - For the OptiX RTN 950,this parameter cannot beconfigured.
Source Low Channel - - Displays the source lowerorder path.
Source 64K Timeslot - - Displays the source 64kbit/s timeslot.
Priority List CS7CS6EFAF4AF3AF2AF1BE
- l Specifies the priorityof a CES service. Thisparameter is availableonly when Mode is setto UNI-NNI.
l This parameter needsto be configured if QoSprocessing needs to beperformed for differentCES services.
l CS6-CS7: indicate thehighest service classes,which are mainlyinvolved in signalingtransmission.
l EF: indicates theexpedited forwardingof service, which isapplicable to servicesof low transmissiondelay and low packetloss rate, for example,voice and videoservices.
l AF1-AF4: indicate theassured forwardingclasses of service,which are applicable toservices that require anassured rate but nodelay or jitter limit.
l BE: is applicable toservices that need notbe processed in aspecial manner.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
739
Parameter Value Range Default Value Description
PW ID - - Displays the ID of the PWthat carries the CESservice. This parameter ismeaningful when the CESservice type is UNI-NNI.
Tunnel - - Displays the tunnel thatcarries the PW. The tunnelmust have beenconfigured in advance.This parameter ismeaningful when the CESservice type is UNI-NNI.
Sink Board - - Displays the sink board ofthe CES service. Thisparameter is meaningfulwhen the CES service typeis UNI-UNI.
Sink High Channel - - For the OptiX RTN 950,this parameter cannot beconfigured.
Sink Low Channel - - Displays the sink lowerorder path. This parameteris meaningful when theCES service type is UNI-UNI.
Sink 64K Timeslot - - Displays the sink 64 kbit/stimeslot. This parameter ismeaningful when the CESservice type is UNI-UNI.
Deployment Status - - Displays the deploymentstatus of the CES service.
Parameters for the Basic Attributes of PWsParameter Value Range Default Value Description
PW ID - - Displays the ID of the PWthat carries the CESservice.
Working Status - - Displays working status ofthe PW.
PW Status - - Displays the enablingstatus of the PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
740
Parameter Value Range Default Value Description
PW Signaling Type - - Displays the PW signalingtype.NOTE
The OptiX RTN 950supports static PWs only.
PW Type - - Displays the PW type forCES serviceencapsulation.CESoPSN: Indicatesstructure-aware TDMcircuit emulation serviceover packet switchednetwork. Timeslotcompression can be set.SAToP: Indicatesstructure-agnostic TDMover packet. Timeslotcompression cannot beset.
PW Encapsulation Type - - Displays the tunnel typefor PW encapsulation.NOTE
The OptiX RTN 950supports MPLS only.
PW Ingress Label/Source Port
- - Displays the Ingress labelof the PW that carries theCES service.
PW Egress Label/SinkPort
- - Displays the Egress labelof the PW that carries theCES service.
Peer LSR ID - - Displays the LSR ID of thePW at the remote end.
Local Working Status - - Displays the workingstatus of the PW at thelocal end.
Remote Working Status - - Displays the workingstatus of the PW at theremote end.
Compositive WorkingStatus
- - Displays the compositiveworking status of the PW.The compositive workingstatus is up when bothends are up, and is downwhen one end is down.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
741
Parameter Value Range Default Value Description
Tunnel type - - Displays the type of thetunnel that carries the PW.NOTE
The OptiX RTN 950supports MPLS tunnelsonly.
Tunnel - - Displays the ID of thetunnel that carries the CESservice.
Deployment Status - - Displays the deploymentstatus of the tunnel.
Tunnel AutomaticSelection Policy
- - The OptiX RTN 950 doesnot support this parameter.
QoS ParametersParameter Value Range Default Value Description
PW ID - - Displays the PW ID.
Direction - - Displays the direction ofthe PW.
CIR(kbit/s) - - The OptiX RTN 950 doesnot support this parameter.
EXP - - The OptiX RTN 950 doesnot support this parameter.
Parameters of Advanced AttributesParameter Value Range Default Value Description
PW ID - - Displays the PW ID.
RTP Header - - Displays the RTP header.The RTP header carriestime stamps.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
742
Parameter Value Range Default Value Description
Jitter CompensationBuffering Time(us)
375 to 16000 - l Displays or specifiesthe jitter buffer time.
l The jitter buffer timeguarantees the real-time performance ofthe CES service.
NOTESet Jitter CompensationBuffering Time(us) to avalue greater than the valueof Packet Loading Time(us) at the opposite end andthe local end.
Packet Loading Time(us)
- - Displays the packetloading time.
Ingress Clock Mode - - The OptiX RTN 950 doesnot support this parameter.
Egress Clock Mode - - The OptiX RTN 950 doesnot support this parameter.
Control Channel Type - - Displays the mode of PWconnectivity check.
VCCV VerificationMode
- - Displays the VCCVverification mode. TheVCCV verification is usedfor PW connectivitycheck.
Enable CES ServiceAlarm TransparentTransmission
EnabledDisabled
- Displays or specifies theenabling status of thetransparent transmissionof CES service alarms. Ifthis function is enabled,the fault on the AC side ofthe CES service is notifiedto the remote end. Uponreceiving the faultnotification from thenetwork side or the remoteend, the local NE insertsthe corresponding alarm tothe AC side.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
743
Parameter Value Range Default Value Description
Threshold of Entering RBit Inserting Status
1-65535 - Displays or specifies thethreshold of packet lossratio of CES services. Thecorresponding alarm willbe reported once the actualpacket loss ratio crossesthis threshold. Thisparameter is availableonly when the transparenttransmission of CESservice alarms is enabled.
Threshold of Exiting RBit Inserting Status
1-65535 - Displays or specifies thethreshold of received CESservice packets. Thecorresponding alarm willbe cleared after the actualnumber of received CESservice packets crossesthis threshold. Thisparameter is availableonly when the transparenttransmission of CESservice alarms is enabled.
Sequence Number Mode Huawei ModeStandard Mode
- Specifies the sequencenumber mode. TheSequence NumberMode must be set to thesame value at both ends ofa radio link.
Protection Group Parameters (PW APS)NOTE
The following parameters are available only after the PW APS protection group is configured.
Parameter Value Range Default Value Description
Protection Group ID - - Displays the ID of theprotection group to becreated.
Working PW ID - - Displays the ID of theworking PW.
Protection PW ID - - Displays the ID of theprotection PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
744
Parameter Value Range Default Value Description
Protection Mode - - Displays the protectionmode.
Enabling Status EnabledDisabled
- l Displays or specifiesthe enabling status ofthe PW protectiongroup.
l During the creation ofa protection group, setEnabling Status toDisabled. After theAPS protection groupis configured at bothends, set EnablingStatus to Enabled.
Switchover Mode - - Displays the switchingmode to be used when aPW fails.NOTE
The OptiX RTN 950supporting dual-endedswitching.
Restoration Mode Non-revertiveRevertive
- l Specifies whether toswitch services to theoriginal working PWafter the fault isrectified.
l The value Revertiveindicates that servicesare switched to theoriginal working PWand the value Non-revertive indicatesthat services are notswitched to theoriginal working PW.
l The value Revertive isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
745
Parameter Value Range Default Value Description
Switchover RestorationTime(min)
1 to 12 - l Displays or specifiesthe WTR time of theprotection group.
l When the preset WTRtime expires after theoriginal working PWrecovers, services areswitched to theoriginal working PW.
l This parameter isavailable only whenRestoration Mode isRevertive.
Switchover Delay Time(100ms)
0 to 100 - l Displays or specifiesthe hold-off time of theprotection group.
l If this parameter is setto a value other than 0,the protection groupdoes not triggerswitching once itdetects faults, but waitsuntil the hold-off timeexpires, and thendetects whether anyfaults persist. If anyfaults persist, theswitching is triggered;otherwise, noswitching is triggered.
Deployment Status - - Display the deploymentstatus of the protectiongroup.
Switchover Status - - Displays the switchoverstatus of the protectiongroup.
Protocol Status - - Displays the enablingstatus of the protocol.
Working Path Status - - Displays the status of thecurrent working path.
Protection Path Status - - Display the status of thecurrent protection path.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
746
Protection Group Parameters (Slave Protection Pair)NOTE
The following parameters are available only after the slave protection pair is configured.
Parameter Value Range Default Value Description
Protection Group ID - - Specifies the ID of theslave protection pair. Theswitching of the masterPW APS protection grouptriggers the switching ofthe slave PW APSprotection groupsimultaneously.
Working PW ID - - Displays the ID of theworking PW in the slaveprotection pair.
Protection PW ID - - Displays the ID of theprotection PW in the slaveprotection pair.
DNI PW ID - - Displays the DNI PW ID.
PW Type - - Displays the PW type.
Deployment Status - - Displays the deploymentstatus of the slaveprotection pair.
A.9.2.2 Parameter Description: CES Service Management_CreationThis topic describes the parameters that are related to creating CES services.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > CES
Service Management from the Function Tree.2. Click New.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Service ID(e.g.1,3-6) 1 to 4294967295 - Specifies the service ID.
Service name - - Specifies the servicename.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
747
Parameter Value Range Default Value Description
Level E1 E1 The value E1 indicatesthat the CES service isused to transmit the TDMservices from E1 ports.
Mode UNI-NNIUNI-UNI
UNI-NNI l Specifies the mode ofCES service.
l The value UNI-NNIindicates that the CESservice is carried by aPW. Therefore, theinformation about thePW needs to beconfigured.
Source Board - - Specifies the board wherethe source (UNI) of theCES service is located.
Source High Channel - - The OptiX RTN 950 doesnot support this parameter.
Source Low Channel(e.g.1,3-6)
- - If Level is set to E1, thisparameter indicates the E1port where the servicesource is located. IfMode is set to UNI-NNI,this parameter can assumeonly one value.
Source 64K Timeslot(e.g.1,3-6)
1-31 1-31 l Specifies the 64 kbit/stimeslot that transmitsdata. This parametercan assume multiplevalues. If FrameMode of the oppositeend is 30, the source 64kbit/s timeslots at thelocal end must includethe 16th timeslot.
l On the two ends of aradio link, the timeslotlists can be differentbut the numbers oftimeslots must thesame.
l This parameter doesnot need to be set ifMode is UNI-NNI andPW Type is SAToP.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
748
Parameter Value Range Default Value Description
Priority List CS7CS6EFAF4AF3AF2AF1BE
EF l Specifies the priorityof a CES service. Thisparameter is availableonly when Mode is setto UNI-NNI.
l This parameter needsto be configured if QoSprocessing needs to beperformed for differentCES services.
l CS6-CS7: indicate thehighest service classes,which are mainlyinvolved in signalingtransmission.
l EF: indicates theexpedited forwardingof service, which isapplicable to servicesof low transmissiondelay and low packetloss rate, for example,voice and videoservices.
l AF1-AF4: indicate theassured forwardingclasses of service,which are applicable toservices that require anassured rate but nodelay or jitter limit.
l BE: is applicable toservices that need notbe processed in aspecial manner.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
749
Parameter Value Range Default Value Description
PW Type CESoPSNSAToP
CESoPSN l Specifies the type ofthe PW. Thisparameter is availableonly when Mode isUNI-NNI.
l CESoPSN: Indicatesstructure-aware TDMcircuit emulationservice over packetswitched network.Timeslot compressioncan be set. SAToP:Indicates structure-agnostic TDM overpacket. Timeslotcompression cannot beset.
Protection Type No ProtectionPW APSSlave Protection Pair
No Protection l Specifies theprotection mode of thePW. This parameter isavailable only whenMode is UNI-NNI.
l If this parameter is setto PW APS, workingand protection PWsneed to be configured.
l When this parameter isset toSlave Protection Pair, you need to bind theslave PW APSprotection group withthe master PW APSprotection group. Theswitching of the masterPW APS protectiongroup triggers theswitching of the slavePW APS protectiongroup simultaneously.
Sink Board - - l Specifies the boardwhere the sink of theCES service is located.
l This parameter isavailable only whenMode is set to UNI-UNI.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
750
Parameter Value Range Default Value Description
Sink High Channel - - The OptiX RTN 950 doesnot support this parameter.
Sink Low Channel(e.g.1,3-6)
- - l If Level is set to E1,this parameterindicates the E1 portwhere the service sinkis located.
l This parameter isavailable only whenMode is set to UNI-UNI.
Sink 64K Timeslot(e.g.1,3-6)
1-31 1-31 l Specifies the 64 kbit/stimeslot that theservice sink occupies.On the two ends of aradio link, the timeslotlists can be differentbut the numbers oftimeslots must thesame.
l This parameter isavailable only whenMode is set to UNI-UNI.
Parameters for the Basic Attributes of PWsNOTE
If the parameter Protection Type of PWs is set to PW APS or Slave Protection Pair, all the parameters ofworking and protection PWs need to be configured. This section considers the parameters of the working PWas an example.
Parameter Value Range Default Value Description
PW ID - - Specifies the ID of the PWthat carries services.
PW Signaling Type Static Static Specifies the signalingtype of the PW. Labels forstatic PWs need to bemanually assigned.
PW Type - - Displays the PW type.
PW Direction - - Displays the direction ofthe PW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
751
Parameter Value Range Default Value Description
PW Encapsulation Type - - Displays theencapsulation type of thePW.
PW Ingress Label/Source Port
16 to 1048575 - Specifies the PW Ingresslabel.
PW Egress Label/SinkPort
16 to 1048575 - Specifies the PW Egresslabel.
Tunnel selection mode - - Displays the method toselect tunnels.
Tunnel Type MPLS MPLS Displays the type of thetunnel that carries the PW.
Tunnel - - A tunnel needs to beselected. If no tunnel isavailable, creation of aPW will fail.
Peer LSR ID - - Specifies the LSR ID ofthe PW at the remote end.If an existing tunnel isselected, the LSR ID willbe automatically assigned.
Egress Tunnel - - For a bidirectional tunnel,the system will configurethe reverse tunnelautomatically.
QoS ParametersParameter Value Range Default Value Description
EXP - - The OptiX RTN 950 doesnot support this parameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
752
Parameters for the Advanced Attributes of PWsParameter Value Range Default Value Description
RTP Header DisableEnable Huawei RTP
Disable l Specifies the RTPheader.
l The RTP headercarries time stamps.
l The default value isrecommended.
Jitter CompensationBuffering Time (us)
375 to 16000 8000 l Specifies the jitterbuffer time for thereceived CES packets.The step is 125.
l A greater value of thisparameter meansfewer impacts oftransmission jitters onCES services, greaterdelays of CESservices, and moreresources occupied byCES services.
l The default value isrecommended.
NOTESet Jitter CompensationBuffering Time(us) to avalue greater than the valueof Packet Loading Time(us) at the opposite end andthe local end.
Packet Loading Time(us)
125 to 5000 1000 l Specifies the length offragments in the TDMdata stream. The step is125.
l A greater value of thisparameter meanshigher encapsulationefficiency but greaterdelays of CESservices.
l The default value isrecommended.
Ingress Clock Mode NullAdaptive Clock Mode
Null The OptiX RTN 950 doesnot support this parameter.
Egress Clock Mode - - The OptiX RTN 950 doesnot support this parameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
753
Parameter Value Range Default Value Description
Control Channel Type NoneCWAlert Label
CW l Specifies the mode ofPW connectivitycheck.
l The value Noneindicates that thecontrol word is notsupported. That is, thePW connectivitycheck is not supported.
l Alert Label indicatesVCCV packets in AlertLabel encapsulationmode.
l The value CWindicates that thecontrol word issupported.
VCCV VerificationMode
NonePing
Ping l Specifies the VCCVverification mode. TheVCCV verification isused for PWconnectivity check.
l If the VCCV-Ping testis required, do not setthis parameter toNone.
Enable CES ServiceAlarm TransparentTransmission
DisabledEnabled
Disabled If this function is enabled,the fault on the AC side ofthe CES service is notifiedto the remote end. Onreceiving the faultnotification from thenetwork side or the remoteend, the local NE insertsthe corresponding alarmto the AC side.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
754
Parameter Value Range Default Value Description
Threshold of Entering RBit Inserting Status
1-65535 100 l The correspondingalarm will be reportedif the number ofconsecutive lostpackets crosses thethreshold specified bythis parameter.
l This function isavailable only whenthe transparenttransmission of CESservice alarms isenabled.
Threshold of Exiting RBit Inserting Status
1-65535 5 l The correspondingalarm will be cleared ifthe number ofconsecutive receivedpackets crosses thethreshold specified bythis parameter.
l This function isavailable only whenthe transparenttransmission of CESservice alarms isenabled.
Sequence Number Mode Huawei ModeStandard Mode
Standard Mode Specifies the sequencenumber mode. TheSequence NumberMode must be set to thesame value at both ends ofa radio link.
Protection Group Parameters (PW APS)NOTE
The parameters of the PW APS protection group need to be configured if the Protection Type of PWs is set toPW APS.
Parameter Value Range Default Value Description
Protection Type - - Specifies the protectiontype.
Protection Group ID - - Specifies the protectiongroup ID.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
755
Parameter Value Range Default Value Description
Enabling Status DisabledEnabled
Disabled l Specifies the enablingstatus of the PWprotection group.
l During the creation ofa protection group, setEnabling Status toDisabled. After theAPS protection groupis configured at bothends, set EnablingStatus to Enabled.
Protection Mode - - Displays the protectionmode.NOTE
The OptiX RTN 950supports 1:1 protectionmode.
Working PW ID - - Displays the ID of theworking PW.
Protection PW ID - - Displays the ID of theprotection PW.
Switching Mode - - Displays the switchingmode to be used when aPW fails.NOTE
The OptiX RTN 950supports dual-endedswitching.
Revertive Mode Non-revertiveRevertive
Revertive l This parameterspecifies whether toswitch services back tothe original workingPW after it recovers.
l The value Revertiveindicates that servicesare switched to theoriginal working PWand the value Non-revertive indicatesthat services are notswitched to theoriginal working PW.
l The value Revertive isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
756
Parameter Value Range Default Value Description
Switchover RestorationTime(min)
1 to 12 1 l Specifies the WTRtime of the protectiongroup.
l When the preset WTRtime expires after theoriginal working PWrecovers, services areswitched to theoriginal working PW.
l This parameter isavailable only whenRestoration Mode isRevertive.
l The default value isrecommended.
Switchover Delay Time(100ms)
0 to 100 0 l Specifies the hold-offtime of the protectiongroup.
l If this parameter is setto a value other than 0,the protection groupdoes not triggerswitching once itdetects faults, but waitsuntil the hold-off timeexpires, and thendetects whether anyfaults persist. If anyfaults persist, theswitching is triggered;otherwise, noswitching is triggered.
l The default value isrecommended.
Detection mode - - Displays the detectionmode of the PW APSprotection group.
OAM ParametersNOTE
l The OAM parameters of the PW APS protection group need to be configured if the Protection Type ofPWs is set to PW APS.
l To configure PW OAM parameters, choose Configuration > MPLS Management > PW Management >PW OAM Parameter from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
757
Parameter Value Range Default Value Description
OAM Status - - Displays the enablingstatus of PW OAM.
Detection Mode Auto-SensingManual
Auto-Sensing l Specifies the detectionmode of OAM packets.
l Manual: Theconnectivity check(CC) packets are sentat the interval specifiedby the user.
l Auto-Sensing: Theconnectivity check(CC) packets are sentat the interval ofreceiving PW OAMpackets.
l If Detection Mode isset to Manual, youneed to set the PWOAM detectionpackets to be receivedand transmitted.
l The value Auto-Sensing isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
758
Parameter Value Range Default Value Description
Detection Packet Type CVFFD
CV l CV: The detectionpackets are sent at afixed interval.
l FFD: The detectionpackets are sent at theinterval specified bythe user.
l If Detection Mode isset to Auto-Sensing,this parameterspecifies the PW OAMdetection packets to betransmitted.
l If Detection Mode isset to Manual, thisparameter specifies thePW OAM detectionpackets to be receivedand transmitted.
l The value FFD isassumed for PW APSand the value CV isassumed forcontinuousconnectivity check onPWs.
Detection Packet Period(ms)
3.3102050100200500
50 l Specifies the period ofdetection packets.
l This parameter isconfigurable whenDetection PacketType is FFD andassumes the fixedvalue of 1000 whenDetection PacketType is CV.
l Set this parameter to3.3 for PW APS.
LSR ID to be Received - - Specifies the LSR ID to bereceived.
PW ID to be Received - - Specifies the PW ID to bereceived.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
759
Protection Group Parameters (Slave Protection Pair)NOTE
The parameters of the PW APS protection group need to be configured if the Protection Type of PWs is set toSlave Protection Pair.
Parameter Value Range Default Value Description
Protection Mode - - Displays the protectionmode.
Protection Group ID - - Specifies the ID of theslave protection pair. Theswitching of the masterPW APS protection grouptriggers the switching ofthe slave PW APSprotection groupsimultaneously.
Working PW ID - - Displays the ID of theworking PW in the slaveprotection pair.
Protection PW ID - - Displays the ID of theprotection PW in the slaveprotection pair.
A.9.3 ATM ParametersThis topic describes the parameters that are related to ATM services.
A.9.3.1 Parameter Description: ATM IMA Management_IMA Group Management
This topic describes the parameters that are related to IMA group management.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration >
Interface Management > ATM IMA Management from the Function Tree.
2. Click the IMA Group Management tab.
Parameters on the Main Interface
Parameter Value Range Default Value Description
VCTRUNK - - Displays the ATMTRUNK.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
760
Parameter Value Range Default Value Description
IMA Protocol EnableStatus
EnabledDisabled
Disabled l Specifies the IMAprotocol enable status.
l Set IMA ProtocolEnable Status toEnabled if the linksbound in the ATMTRUNK require theIMA protocol;otherwise, set thisparameter toDisabled.
l After IMA ProtocolEnable Status is set toEnabled, the E1 linksor Fractional E1timeslots bound in theATM TRUNK startrunning the IMAprotocol.
Minimum Number ofActive TransmittingLinks
1 to 16 1 l The links of the IMAgroup can carryservices only when thenumber of activatedlinks in the transmit/receive direction is notsmaller than the valueof Minimum Numberof ActiveTransmitting Links/Minimum Number ofActive ReceivingLinks.
l The values ofMinimum Number ofActive TransmittingLinks and MinimumNumber of ActiveReceiving Links mustbe the same becausethe OptiX RTN 950supports SymmetricalMode andSymmetricalOperation only. Theparameters MinimumNumber of ActiveTransmitting Linksand Minimum
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
761
Parameter Value Range Default Value Description
Minimum Number ofActive Receiving Links
1 to 16 1 Number of ActiveReceiving Links mustassume the same valueon the two ends of anIMA link.
l The default value isrecommended.
IMA Protocol Version 1.01.1
1.1 l Specifies the IMAprotocol version.
l The parameter IMAProtocol Versionmust assume the samevalue on the two endsof an IMA link.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
762
Parameter Value Range Default Value Description
IMA Transmit FrameLength
3264128256
128 l Specifies the IMAtransmit frame length.
l Based on the IMAframe format, thereceive end rebuildsthe ATM cell streamwith the cells arrivingfrom diversely-delayed links. LongerIMA frames result inhigher transmissionefficiency and occupymore resources. Once amember link fails, theimpact on the entireIMA group increasesas the length of IMAframes increases.
l The IMA TransmitFrame Length mustassume the same valueon the two ends of anIMA link.
l The default value isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
763
Parameter Value Range Default Value Description
IMA Symmetry Mode Symmetrical Mode andSymmetrical Operation
Symmetrical Mode andSymmetrical Operation
l Specifies thesymmetrical mode ofthe IMA group.
l If the symmetricalmode and symmetricaloperation is adopted,the bandwidth of theIMA group is alwaysconsistent in thetransmit direction andin the receivedirection, even whensome member linksfail. In symmetricalmode:– Bandwidth of the
IMA group = min{bandwidth in thetransmit direction,bandwidth in thereceive direction}
– The unidirectionalfailure in onemember link isequivalent to thebidirectionalfailure in onemember link.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
764
Parameter Value Range Default Value Description
Maximum DelayBetween Links (ms)
1 to 120 25 l Specifies themaximum differentialdelay that is allowedbetween the memberlinks.
l If the differential delaybetween a member linkand the other memberlinks exceeds thevalue, this link will bedeactivated anddeleted from the IMAgroup.
l If this parameter is setto a value higher thanthe normal valuerange, the delay ofIMA services will beprolonged and evenpacket loss will occur;if this parameter is setto a value lower thanthe normal valuerange, a working linkwill be deleted bymistake.
l The Maximum DelayBetween Links (ms)must assume the samevalue on the two endsof an IMA link.
l The default value isrecommended.
Clock Mode CTC ModeITC Mode
CTC Mode l Specifies the clockmode of the IMAgroup.
l Clock Mode is set tothe same value for theinterconnected ends ofIMA links.
A.9.3.2 Parameter Description: ATM IMA Management_Bound Path ConfigurationThis topic describes the parameters that are related to the bound paths in the ATM TRUNK.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
765
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration >
Interface Management > ATM IMA Management from the Function Tree.
2. Click the Binding tab.
3. Click Configuration.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Available Boards - - Selects the availableboards.
Configurable Ports - - Selects the configurableATM trunks.
Level E1Fractional E1
E1 Specifies the level ofbound paths.l If ATM/IMA services
need to be mapped intothe ATM TRUNK thatbinds one or more E1ports, select E1 inLevel.
l If ATM/IMA servicesneed to be mapped intothe ATM TRUNK thatbinds one or moreserial ports, selectFractional E1 inLevel.
Direction - - Displays the direction ofbound paths. The fixedvalue is bidirectional.
Optical Interface - - The OptiX RTN 950 doesnot support this parameter.
Available Resources - - Displays the ports thatcarry the available pathsfor IMA services.NOTE
For Fractional ATM/IMAservices, set Port Mode inPDH Interface to Layer 1and configure Setting SerialPort Parameters.
Available Timeslots - - The OptiX RTN 950 doesnot support this parameter.
Selected Bound Paths - - Displays the bound paths.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
766
Parameter Value Range Default Value Description
VCTRUNK - - Displays the name of theATM TRUNK.
Level - - Displays the level ofbound paths.
Direction - - Displays the direction ofbound paths. The fixedvalue is bidirectional.
Bound Paths - - Displays the bound paths.
Number of Bound Paths - - Displays the number ofbound paths.
Display in Combination SelectedNot selected
Selected Specifies whether todisplay bound paths incombination.
A.9.3.3 Parameter Description: ATM IMA Management_IMA Group StatusThis topic describes the parameters that are related to IMA group status.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration >
Interface Management > ATM IMA Management from the Function Tree.2. Click the IMA Group States tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
VCTRUNK - - Displays the VCTRUNK.
Near-End Group Status - - Displays the status of thenear-end group.
Far-End Group Status - - Displays the status of thefar-end group.
Transmit Rate (cell/s) - - Displays the celltransmission rate.
Receive Rate (cell/s) - - Displays the cell receivingrate.
Number of TransmitLinks
- - Displays the number oftransmit links.
Number of ReceiveLinks
- - Displays the number ofreceive links.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
767
Parameter Value Range Default Value Description
Number of ActivatedTransmit Links
- - Displays the number ofactivated transmit links.
Number of ActivatedReceive Links
- - Displays the number ofactivated receive links.
A.9.3.4 Parameter Description: ATM IMA Management_IMA Link Status
This topic describes the parameters that are related to IMA link status.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration >
Interface Management > ATM IMA Management from the Function Tree.2. Click the IMA Link States tab.
Parameters on the Main Interface
Parameter Value Range Default Value Description
VCTRUNK - - Displays the VCTRUNK.
E1 Link - - Displays E1 links.
Differential Delay CheckStatus
- - Displays the status of thedeferential delay check.
Near-End ReceivingStatus
- - Displays the near-endreceiving status.
Near-End TransmittingStatus
- - Displays the near-endtransmitting status.
Far-End ReceivingStatus
- - Displays the far-endreceiving status.
Far-End TransmittingStatus
- - Displays the far-endtransmitting status.
A.9.3.5 Parameter Description: ATM IMA Management_ATM InterfaceManagement
This topic describes the parameters that are related to ATM interface management.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration >
Interface Management > ATM IMA Management from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
768
2. Click the ATM Interface Management tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - Displays the port.
Name - - Displays or specifies thename of port.
Port Type UNINNI
UNI Specifies the type of ATMport.l UNI: the port
connecting user-sidedevices. For example,the UNI port applies tothe user-side interfaceon the common ATMnetwork or to the user-side interface of the PEon the PSN networkthat transmits ATMPWE3 services.
l NNI: the portconnecting network-side devices. Forexample, the NNI portapplies to the network-side interface on thecommon ATMnetwork.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
769
Parameter Value Range Default Value Description
ATM Cell PayloadScrambling
DisabledEnabled
Enabled Specifies whether toenable payloadscrambling of ATM cells.l The ITU-T G.804
stipulates that thepayload (48 bytes) ofATM cells must bescrambled before it ismapped into E1signals. Therefore, it isrecommended that youset ATM Cell PayloadScrambling toEnabled.
l ATM Cell PayloadScrambling mustassume the same valueon the two ends of anATM link. Otherwise,packet loss will occur.
Min. VPI - - The OptiX RTN 950 doesnot support this parameter.
Max. VPI - - The OptiX RTN 950 doesnot support this parameter.
Min. VCI - - The OptiX RTN 950 doesnot support this parameter.
Max. VCI - - The OptiX RTN 950 doesnot support this parameter.
VCC-Supported VPICount
- - The OptiX RTN 950 doesnot support this parameter.
Loopback No LoopbackOutloopInloop
No Loopback Specifies the loopbackstatus of the port.
A.9.3.6 Parameter Description: Configuration of ATM Service Class MappingTable
This topic describes the parameters that are related to configuration of the ATM service classmapping table.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
770
Navigation PathIn the NE Explorer, select the NE from the Object Tree and choose Configuration > QoSManagement > Diffserv domain Management > ATM COS Mapping Configuration fromthe Function Tree.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Mapping Relation ID - - Specifies the ID of themapping table.
Mapping Relation Name - - Specifies the name of themapping relationship.
UBR BEAF11AF12AF13AF21AF22AF23AF31AF32AF33AF41AF42AF43EFCS6CS7
UBR: BECBR: EFRT-VBR: AF31NRT-VBR: AF21UBR+: AF11PORT-TRANS: BE
Displays or specifies thePHB service classes thatcorrespond to differentATM service types.l Eight PHB service
classes are available:BE, AF1, AF2, AF3,AF4, EF, CS6, andCS7. The OptiX RTN950 provides differentQoS policies for thequeues of differentservice classes.
l CS6 to CS7: highestservice classes, mainlyapplicable to signalingtransmission.
l EF: fast forwarding,applicable to servicesof low transmissiondelays and low packetloss rates.
l AF1 to AF4: assuredforwarding, applicableto services that requirean assuredtransmission raterather than delay orjitter limits.
CBR
RT-VBR
NRT-VBR
UBR+
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
771
Parameter Value Range Default Value Description
PORT-TRANS NOTEThe AF1 class includesthree subclasses: AF11,AF12, and AF13. Onlyone of these subclassescan take effect for onequeue. It is the samecase with AF2, AF3, andAF4.
l BE: best effort,applicable to servicesthat do not requirespecial processing.
A.9.3.7 Parameter Description: Configuration of ATM Service Class MappingTable_Creation
This topic describes the parameters that are related to creation of the ATM service class mappingtable.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > QoS
Management > Diffserv domain Management > ATM COS Mapping Configurationfrom the Function Tree.
2. Click New.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
772
Parameters on the Main InterfaceParameter Value Range Default Value Description
Mapping Relation ID 2 to 8 - Specifies the ID of themapping table.
Mapping Relation Name - - Specifies the name of themapping relationship.
UBR BEAF11AF12AF13AF21AF22AF23AF31AF32AF33AF41AF42AF43EFCS6CS7
UBR: BECBR: EFRT-VBR: AF31NRT-VBR: AF21UBR+: AF11PORT-TRANS: BE
Specifies the PHB serviceclasses that correspond todifferent ATM servicetypes.l Eight PHB service
classes are available:BE, AF1, AF2, AF3,AF4, EF, CS6, andCS7. The OptiX RTN950 provides differentQoS policies for thequeues of differentservice classes.
l CS6 to CS7: highestservice classes, mainlyapplicable to signalingtransmission.
l EF: fast forwarding,applicable to servicesof low transmissiondelays and low packetloss rates.
l AF1 to AF4: assuredforwarding, applicableto services that requirean assuredtransmission raterather than delay orjitter limits.NOTE
The AF1 class includesthree subclasses: AF11,AF12, and AF13. Onlyone of these subclassescan take effect for onequeue. It is the samecase with AF2, AF3, andAF4.
l BE: best effort,applicable to servicesthat do not requirespecial processing.
CBR
RT-VBR
NRT-VBR
UBR+
PORT-TRANS
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
773
A.9.3.8 Parameter Description: ATM Policy ManagementThis topic describes the parameters that are related to ATM policy management.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > QoS
Management > Policy Management > ATM Policy from the Function Tree.2. Click the ATM Policy tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Policy ID - 1 Displays the policy ID ofthe ATM service.
Policy Name - - Displays or specifies thepolicy name of the ATMservice. The maximumlength of the value is 64bytes.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
774
Parameters for Configuring ATM TrafficParameter Value Range Default Value Description
Service Type UBRCBRRT-VBRNRT-VBRUBR+
UBR Displays or specifies thetype of the ATM service.l The UBR service is
characterized by non-real-time applicationsand many bursts. TheUBR service does notspecify traffic-relatedservice guarantees. Tobe specific, the UBRservice only requiresthat the network sideprovides the servicewith the best effort.The network side doesnot provide anyassured QoS for theUBR service. In thecase of networkcongestion, the UBRcells are discardedfirst.
l The CBR servicerequires tightlyconstrained delayvariation and requiresthat data be transmittedat a constant rate. Inaddition, the CBRservice requests astatic amount ofbandwidth and thehighest priority. TheCBR service ischaracterized by stabletraffic and few bursts.
l The rt-VBR servicerequires tightlyconstrained delay anddelay variation.Compared with theCBR service, the rt-VBR service allowssources to transmitdata at a rate that varieswith time.Equivalently, thesources can be
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
775
Parameter Value Range Default Value Description
described as bursty. Inaddition, the rt-VBRservice does notrequire a static amountof bandwidth.
l Compared with the rt-VBR service, the nrt-VBR service does notrequire tightlyconstrained delay ordelay variation, and isintended for non-real-time applications.
l The UBR+ service issupplementary to theUBR service and isintended forapplications thatrequire assuredminimum cell rate,which is indicated bythe minimum cell rate(MCR) parameter. Theother characteristics ofthe UBR+ service arethe same as thecorrespondingcharacteristics of theUBR service.
Traffic Type - - The Table A-93 lists theATM service type, traffictype descriptor, and therelated traffic parameters.ATM policies areconfigured based on thesemapping relationships.
Clp01Pcr(cell/s) 90 to 74539 -
Clp01Scr(cell/s) 90 to 74539 -
Clp0Pcr(cell/s) 90 to 74539 -
Clp0Scr(cell/s) 90 to 74539 -
Max. Cell Burst Size(cell)
2 to 200000 -
Cell Delay VariationTolerance (0.1us)
7 to 13300000 -
Discard Traffic Frame EnabledDisabled
Disabled Displays or specifies theframe discarding mark inATM policies. Thisparameter is effective toAAL5 traffic.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
776
Parameter Value Range Default Value Description
UPC/NPC EnabledDisabled
Disabled Displays or specifiesUPC/NPC.l UPC is user-side
parameter control andNPC is network-sideparameter control.
l After UPC/NPC isenabled, the cells witha frame discardingmark will be discardedin network congestion.
Table A-93 Mapping relationship between ATM service types, traffic types, and traffic parameters
ATMServiceType
ATM Traffic TypeDescriptor
TrafficParameter 1
TrafficParameter 2
TrafficParameter 3
TrafficParameter 4
UBR NoTrafficDescriptor - - - -
NoClpTaggingNoScr Clp01Pcr CDVT - -
NoClpNoScr Clp01Pcr - - -
NoClpNoScrCdvt Clp01Pcr CDVT - -
CBR ClpTransparentNoScr Clp01Pcr CDVT - -
ClpNoTaggingNoScr Clp01Pcr Clp0Pcr - -
ClpTaggingNoScr Clp01Pcr Clp0Pcr - -
NoClpNoScr Clp01Pcr - - -
NoClpNoScrCdvt Clp01Pcr CDVT - -
nrtVBR NoClpScr Clp01Pcr Clp01Scr MBS -
ClpNoTaggingScr Clp01Pcr Clp0Scr MBS -
ClpTaggingScr Clp01Pcr Clp0Scr MBS -
rtVBR ClpTransparentScr Clp01Pcr Clp01Scr MBS CDVT
NoClpScrCdvt Clp01Pcr Clp01Scr MBS CDVT
ClpNoTaggingScrCdvt Clp01Pcr Clp0Scr MBS CDVT
ClpTaggingScrCdvt Clp01Pcr Clp0Scr MBS CDVT
UBR+ atmnotrafficdescriptormcr Clp01Mcr - - -
atmnoclpmcr Clp01Pcr Clp01Mcr - -
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
777
ATMServiceType
ATM Traffic TypeDescriptor
TrafficParameter 1
TrafficParameter 2
TrafficParameter 3
TrafficParameter 4
atmnoclpmcrcdvt Clp01Pcr Clp01Mcr CDVT -
Parameters for the application objectParameter Value Range Default Value Description
Service ID - - Displays the IDconfigured for the ATMservice.
Service Name - - Displays the nameconfigured for the ATMservice.
Link ID - - Displays the link ID.
Direction - - Displays the direction ofthe service.
A.9.3.9 Parameter Description: ATM Policy Management_CreationThis topic describes the parameters that are related to creation of ATM policies.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > QoS
Management > Policy Management > ATM Policy from the Function Tree.2. Click New.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Policy ID - 1 Specifies the policy ID ofthe ATM service. Thepolicy ID can also beautomatically allocated.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
778
Parameter Value Range Default Value Description
Policy Name Synchronous signalSignalingVoiceDataVideo
Synchronous signal Specifies the policy nameof the ATM service. Themaximum length of thevalue is 64 bytes.NOTE
You can select one of thefive ATM service policynames from the drop-downlist or enter the policy name.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
779
Parameter Value Range Default Value Description
Service Type UBRCBRRT-VBRNRT-VBRUBR+
UBR Specifies the type of theATM service.l The UBR service is
characterized by non-real-time applicationsand many bursts. TheUBR service does notspecify traffic-relatedservice guarantees. Tobe specific, the UBRservice only requiresthat the network sideprovides the servicewith the best effort.The network side doesnot provide anyassured QoS for theUBR service. In thecase of networkcongestion, the UBRcells are discardedfirst.
l The CBR servicerequires tightlyconstrained delayvariation and requiresthat data be transmittedat a constant rate. Inaddition, the CBRservice requests astatic amount ofbandwidth and thehighest priority. TheCBR service ischaracterized by stabletraffic and few bursts.
l The rt-VBR servicerequires tightlyconstrained delay anddelay variation.Compared with theCBR service, the rt-VBR service allowssources to transmitdata at a rate that varieswith time.Equivalently, thesources can bedescribed as bursty. In
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
780
Parameter Value Range Default Value Description
addition, the rt-VBRservice does notrequire a static amountof bandwidth.
l Compared with the rt-VBR service, the nrt-VBR service does notrequire tightlyconstrained delay ordelay variation, and isintended for non-real-time applications.
l The UBR+ service issupplementary to theUBR service and isintended forapplications thatrequire assuredminimum cell rate,which is indicated bythe minimum cell rate(MCR) parameter. Theother characteristics ofthe UBR+ service arethe same as thecorrespondingcharacteristics of theUBR service.
Traffic Type - - For the mappingrelationships betweenATM service types, ATMtraffic type descriptors,and traffic parameters, seeTable A-94. ATMpolicies are configuredbased on these mappingrelationships.
Clp01Pcr(cell/s) 90 to 74539 -
Clp01Scr(cell/s) 90 to 74539 -
Clp0Pcr(cell/s) 90 to 74539 -
Clp0Scr(cell/s) 90 to 74539 -
Max. Cell Burst Size(cell)
2 to 200000 -
Cell Delay VariationTolerance (0.1us)
7 to 13300000 -
Discard Traffic Frame EnabledDisabled
Disabled Specifies the framediscarding mark in ATMpolicies. This parameter iseffective to AAL5 traffic.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
781
Parameter Value Range Default Value Description
UPC/NPC EnabledDisabled
Disabled l UPC is user-sideparameter control andNPC is network-sideparameter control.
l After UPC/NPC isenabled, the cells witha frame discardingmark will be discardedin network congestion.
Table A-94 Mapping relationship between ATM service types, ATM traffic types, and traffic parameters
ATMServiceType
ATM Traffic TypeDescriptor
TrafficParameter 1
TrafficParameter 2
TrafficParameter 3
TrafficParameter 4
UBR NoTrafficDescriptor - - - -
NoClpTaggingNoScr Clp01Pcr CDVT - -
NoClpNoScr Clp01Pcr - - -
NoClpNoScrCdvt Clp01Pcr CDVT - -
CBR ClpTransparentNoScr Clp01Pcr CDVT - -
ClpNoTaggingNoScr Clp01Pcr Clp0Pcr - -
ClpTaggingNoScr Clp01Pcr Clp0Pcr - -
NoClpNoScr Clp01Pcr - - -
NoClpNoScrCdvt Clp01Pcr CDVT - -
nrtVBR NoClpScr Clp01Pcr Clp01Scr MBS -
ClpNoTaggingScr Clp01Pcr Clp0Scr MBS -
ClpTaggingScr Clp01Pcr Clp0Scr MBS -
rtVBR ClpTransparentScr Clp01Pcr Clp01Scr MBS CDVT
NoClpScrCdvt Clp01Pcr Clp01Scr MBS CDVT
ClpNoTaggingScrCdvt Clp01Pcr Clp0Scr MBS CDVT
ClpTaggingScrCdvt Clp01Pcr Clp0Scr MBS CDVT
UBR+ atmnotrafficdescriptormcr Clp01Mcr - - -
atmnoclpmcr Clp01Pcr Clp01Mcr - -
atmnoclpmcrcdvt Clp01Pcr Clp01Mcr CDVT -
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
782
A.9.3.10 Parameter Description: ATM Service ManagementThis topic describes the parameters that are related to ATM service management.
Navigation PathIn the NE Explorer, select the NE from the Object Tree and choose Configuration > ATMService Management from the Function Tree.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Service ID - - Displays the service ID.
Service Name - - Displays or specifies theservice name.
Service Type - - Displays the ATM servicetype.
Deployment Status - - Displays the deploymentstatus of the ATM service.
Connection ParametersParameter Value Range Default Value Description
Connection ID - - Displays the connectionID of the ATM service.
Connection Name - - Displays or specifies theconnection name of theATM service.
Source Port - - Displays the source port ofthe ATM service.
PW ID - - Displays the ID of the PWthat carries ATM PWE3services, if any.
Sink Port - - Displays the sink board ofthe ATM service.
Source VPI - - Displays the VPI of thesource port of the ATMservice.
Source VCI - - Displays the VCI of thesource port of the ATMservice.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
783
Parameter Value Range Default Value Description
Sink VPI - - Displays the VPI of thesink port of the ATMservice.
Sink VCI - - Displays the VCI of thesink port of the ATMservice.
Uplink Policy - - Displays the QoS policy ofthe uplink ATMconnection.
Down link Policy - - Displays the QoS policy ofthe downlink ATMconnection.
Parameters for Port Attributes
Parameter Value Range Default Value Description
Port - - Displays the port of theATM IMA service.
Port Type - - Displays the port type ofthe ATM IMA service.
Max. VPI - - Displays the maximumVPI.
Max. VCI - - Displays the maximumVCI.
VCC-Supported VPICount
- - Displays the count of VPIsthat are used for VCexchange.
Parameters for Bound Paths
Parameter Value Range Default Value Description
VCTRUNK - - Displays the VCTRUNK.
Level - - Displays the level ofbound paths.
Direction - - Displays the direction ofbound paths. The fixedvalue is bidirectional.
Bound Paths - - Displays the bound paths.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
784
Parameter Value Range Default Value Description
Number of Bound Paths - - Displays the number ofbound paths.
IMA Group Status - - Displays the status of theIMA group.
Parameters of PWsTab Parameter Value Range Default Value Description
GeneralAttributes
PW ID - - Displays the PW ID.
Work Status - - Displays the workingstatus of a PW.
- - Displays whether a PWis enabled.
PW Signaling Type - - Displays the PWsignaling type.NOTE
The OptiX RTN 950 usesstatic PWs only.
PW Type - - l Displays theconfigured PW type.
l This parametercorresponds to theconnection type.The encapsulationtype can be 1:1 or N:1 if the connectiontype is PVP or PVC.
PW Direction - - Displays the directionof the PW.
PW EncapsulationType
- - Displays theencapsulation type ofthe packets on the PW.NOTE
The OptiX RTN 950 usesMPLS only.
- - Displays the configuredPW Ingress label.
PW OutgoingLabel / Sink Port
- - Displays the configuredPW Egress label.
Peer LSR ID - - Displays the LSR ID ofthe destination.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
785
Tab Parameter Value Range Default Value Description
Tunnel Type - - Displays the type of thetunnel.
Ingress Tunnel No - - Displays the tunnel IDof the ingress tunnel.
Egress Tunnel No - - Displays the tunnel IDof the egress tunnel.
Local OperatingStatus
- - Displays the localrunning status of PW.
Remote OperatingStatus
- - Displays the remoterunning status of PW.
Overall OperatingStatus
- - Displays thecomprehensiveworking status of thePW.
Tunnel for AutoSelection
- - Displays the tunnel thatis automaticallyselected.
QoS PW ID - - Displays the PW ID.
Direction - - Displays the directionof the PW.
Bandwidth Limit - - Displays or specifieswhether the bandwidthlimit is enabled.l This function can be
used to limit thebandwidth of one ormore PWs, or thebandwidth of one ormore ATM PWE3services, in anMPLS tunnel. (OneATM PWE3 servicecorresponds to onePW.)
l An ATM PWE3service correspondsto a PW. Therefore,this function canalso limit thebandwidth of ATMPWE3 services in anMPLS tunnel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
786
Tab Parameter Value Range Default Value Description
CIR (Kbit/s) - - Displays or specifiesthe committedinformation rate.It is recommended thatyou set this parameter tothe same value as PIR.
CBS (kbyte) - - Displays or specifiesthe excess burst size ofthe PW.
PIR (kbit/s) - - Displays or specifiesthe peak informationrate.It is recommended thatyou set this parameter tothe same value as CIR.
PBS (kbyte) - - Displays or specifiesthe maximum excessburst size of the PW.
EXP - - The OptiX RTN 950does not support thisparameter.
Policy - - The OptiX RTN 950does not support thisparameter.
AdvancedAttributes
Control Word Must UseNo Use
- Displays or specifieswhether to use thecontrol word. In theMPLS packet switchingnetwork, the controlword is used to transmitpacket information.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
787
Tab Parameter Value Range Default Value Description
Control ChannelType
CWNoneAlert Label
- l Displays orspecifies the modeof PW connectivitycheck.
l The value Noneindicates that thecontrol word is notsupported. That is,the PW connectivitycheck is notsupported.
l The value CWindicates that thecontrol word issupported.
l The value AlertLabel indicatesVCCV packets inAlert Labelencapsulationmode.
VCCV VerificationMode
PingNone
- l Displays orspecifies the VCCVverification mode.The VCCVverification is usedfor PW connectivitycheck.
l If the VCCV-pingfunction is required,do not set VCCVVerification Modeof PWs to None.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
788
Tab Parameter Value Range Default Value Description
Max. ConcatenatedCell Count
1 to 31 - l Displays orspecifies themaximum numberof concatenatedcells.
l If the value 1 isassumed, only oneATM cell isencapsulated in onepacket. If the valuefrom 2 to 31 isassumed, amaximum of 2 to 31ATM cells areencapsulated intoone packet.
Packet LoadingTime (us)
100 to 50000 - l Displays orspecifies the packetloading time. Oncethe packet loadingtime expires, thepacket is sent outeven if theconcatenated cellsare less than themaximum.
l If Max.Concatenated CellCount assumes thevalue 1, thisparameter isineffective. That is,the packet will besent out once the cellis loaded.
Parameters for CoS MappingParameter Value Range Default Value Description
PW ID - - Displays the ID of the PWthat carries the service.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
789
Parameter Value Range Default Value Description
CoS Mapping - - Specifies the policy formapping different ATMservice levels to CoSpriorities. By setting thisparameter, differentquality measures areprovided for differentATM services.
Protection Group Parameters (PW APS)NOTE
The following parameters are available only after the PW APS protection group is configured.
Parameter Value Range Default Value Description
Protection Group ID - - Displays the ID of theprotection group to becreated.
Working PW ID - - Displays the ID of theworking PW.
Protection PW ID - - Displays the ID of theprotection PW.
Protection Mode - - Displays the protectionmode.
Enabling Status EnabledDisabled
- l Displays or specifiesthe enabling status ofthe PW protectiongroup.
l During the creation ofa protection group, setEnabling Status toDisabled. After theAPS protection groupis configured at bothends, set EnablingStatus to Enabled.
Switchover Mode - - Displays the switchingmode to be used when aPW fails.NOTE
The OptiX RTN 950supporting dual-endedswitching.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
790
Parameter Value Range Default Value Description
Restoration Mode Non-revertiveRevertive
- l Specifies whether toswitch services to theoriginal working PWafter the fault isrectified.
l The value Revertiveindicates that servicesare switched to theoriginal working PWand the value Non-revertive indicatesthat services are notswitched to theoriginal working PW.
l The value Revertive isrecommended.
Switchover RestorationTime(min)
1 to 12 - l Displays or specifiesthe WTR time of theprotection group.
l When the preset WTRtime expires after theoriginal working PWrecovers, services areswitched to theoriginal working PW.
l This parameter isavailable only whenRestoration Mode isRevertive.
Switchover Delay Time(100ms)
0 to 100 - l Displays or specifiesthe hold-off time of theprotection group.
l If this parameter is setto a value other than 0,the protection groupdoes not triggerswitching once itdetects faults, but waitsuntil the hold-off timeexpires, and thendetects whether anyfaults persist. If anyfaults persist, theswitching is triggered;otherwise, noswitching is triggered.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
791
Parameter Value Range Default Value Description
Deployment Status - - Display the deploymentstatus of the protectiongroup.
Switchover Status - - Displays the switchoverstatus of the protectiongroup.
Protocol Status - - Displays the enablingstatus of the protocol.
Working Path Status - - Displays the status of thecurrent working path.
Protection Path Status - - Display the status of thecurrent protection path.
A.9.3.11 Parameter Description: ATM Service Management_CreationThis topic describes the parameters that are related to creation of ATM services.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > ATM
Service Management from the Function Tree.2. Click New.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Service ID 1 to 4294967295 - Specifies the service ID.
Service Name - - Specifies the servicename.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
792
Parameter Value Range Default Value Description
Service Type UNIs-NNIUNI-UNI
UNIs-NNI l Specifies the type ofthe ATM service.
l UNIs-NNI: This valueapplies to ATM PWE3services. The attributesin Connection, PW,and CoS Mappingneed to be configured.
l UNI-UNI: This valueapplies to commonATM services. Onlythe attributes inConnection need to beconfigured.
Connection Type PVCPVPTransparent
PVC Specifies the connectiontype of the ATM service.For common ATMservices (UNI-UNI):l PVP: Only the VPIs of
the source and sink areexchanged.
l PVC: The VPIs andVCIs of the source andsink are exchanged.
For ATM PWE3 services(UNIs-NNI):l PVP: This value
applies to the N-to-1/1-to-1 VPCencapsulation mode.
l PVC: This valueapplies to the N-to-1/1-to-1 VCCencapsulation mode.
For transparentlytransmitted ATMservices, set ConnectionType to Transparent.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
793
Parameter Value Range Default Value Description
Protection Type No ProtectionPW APSSlave Protection Pair
No Protection l Specifies theprotection mode of thePW. This parameter isavailable only whenService Type is UNIs-NNI.
l Set this parameteraccording to thenetwork plan.
Connection Parameters
Parameter Value Range Default Value Description
Connection Name - - Specifies the name of theATM connection.
Source Board - - Specifies the source boardof the ATM service.
Source Port - - Specifies the source portof the ATM service.
Source VPI(eg.35,36-39) UNI: 0 to 255NNI: 0 to 4095
- Specifies the VPI of thesource port of the ATMservice.
Source VCI(eg.35,36-39) 32 to 65535 - Specifies the VCI of thesource port of the ATMservice.
PW ID 1 to 4294967295 - Specifies the ID of the PWthat carries services.
Sink Board - - Specifies the sink board ofthe ATM service.
Sink Port - - Specifies the sink board ofthe ATM service.NOTE
This parameter does notneed to be set if ServiceType is UNIs-NNI. Thisparameter needs to be set ifService Type is UNI-UNIand the value must bedifferent from that of thesource board.
Sink VPI(eg.35,36-39) UNI: 0 to 255NNI: 0 to 4095
- Specifies the VPI of thesink port of the ATMservice.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
794
Parameter Value Range Default Value Description
Sink VCI(eg.35,36-39) 32 to 65535 - Specifies the VCI of thesink port of the ATMservice.
Uplink Policy - - Specifies the QoS policyof the uplink ATMconnection.
Down link Policy - - Specifies the QoS policyof the downlink ATMconnection.
Parameters of PWsNOTE
If the parameter Protection Type of PWs is set to PW APS, all the parameters of working and protection PWsneed to be configured. This section considers the parameters of the working PW as an example.
Parameter Value Range Default Value Description
PW ID - - Specifies the ID of the PWthat carries services.
Working Status - - Displays the workingstatus of the PW.NOTE
This parameter is availableonly after the PWparameters are configured.
Enable Status - - Displays the enablingstatus of the PW.NOTE
This parameter is availableonly after the PWparameters are configured.
PW Signaling Type Static Static Labels for static PWs needto be manually assigned.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
795
Parameter Value Range Default Value Description
PW Type The ATM connection typeis PVC:l ATM n-to-one VCC
cell transportl ATM one-to-one VCC
Cell ModeThe ATM connection typeis PVP:l ATM n-to-one VPC
cell transportl ATM one-to-one VPC
Cell Mode
The ATM connection typeis PVC:ATM n-to-one VCC celltransportThe ATM connection typeis PVP:ATM n-to-one VPC celltransport
l Specifies the type ofthe PW.
l In the case of ATM1_to_1 encapsulation,one PW carries oneVPC or VCC.
l In the case of ATMn_to_1 encapsulation,one PW carries one ormore VPCs or VCCs.
PW Direction Bidirectional Bidirectional Displays the direction ofthe PW.
PW Encapsulation Type MPLS MPLS Displays theencapsulation type of thepackets on the PW.
PW Ingress Label /Source Port
16 to 1048575 - Specifies the PW Ingresslabel.
PW Egress Label / SinkPort
16 to 1048575 - Specifies the PW Egresslabel.
Tunnel Selection Mode Manually Manually Displays the method toselect tunnels.
Tunnel Type MPLS MPLS Displays the type of thetunnel that carries the PW.
Tunnel - - A tunnel needs to beselected. If no tunnel isavailable, creation of aPW will fail.
Peer LSR ID - - Specifies the LSR ID ofthe PW at the remote end.If an existing tunnel isselected, the LSR ID willbe automatically assigned.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
796
QoS Parameters
Table A-95 ATM services
Parameter Value Range Default Value Description
Bandwidth Limit - - Specifies whether thebandwidth limit isenabled.l This function can be
used to limit thebandwidth of one ormore PWs, or thebandwidth of one ormore ATM PWE3services, in an MPLStunnel. (One ATMPWE3 servicecorresponds to onePW.)
l An ATM PWE3service corresponds toa PW. Therefore, thisfunction can also limitthe bandwidth of ATMPWE3 services in anMPLS tunnel.
Policy - - The OptiX RTN 950 doesnot support this parameter.
CIR (Kbit/s) - - Specifies the committedinformation rate (CIR) ofthe PW.It is recommended thatyou set this parameter tothe same value as PIR.
CBS (kbyte) - - Specifies the excess burstsize of the PW.
PIR (kbit/s) - - Specifies the peakinformation rate (PIR) ofthe PW.It is recommended thatyou set this parameter tothe same value as CIR.
PBS (kbyte) - - Specifies the maximumexcess burst size of thePW.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
797
Parameter Value Range Default Value Description
EXP - - The OptiX RTN 950 doesnot support this parameter.
Parameters of Advanced AttributesParameter Value Range Default Value Description
Control Word Must UseNo Use
Must Use l Specifies whether touse the control word.In the MPLS packetswitching network, thecontrol word is used totransmit packetinformation.
l Set Control Word toMust Use if PWType is ATM 1:1.
Control Channel Type CWNoneAlert Label
CW l Specifies the mode ofPW connectivitycheck.
l The value Noneindicates that thecontrol word is notsupported. That is, thePW connectivity checkis not supported.
l The value CWindicates that thecontrol word issupported.
l The value AlertLabel indicates VCCVpackets in AlertLabel encapsulationmode.
VCCV VerificationMode
PingNone
Ping l Specifies the VCCVverification mode. TheVCCV verification isused for PWconnectivity check.
l If the VCCV-Ping testis required, do not setthis parameter toNone.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
798
Parameter Value Range Default Value Description
Max. Concatenated CellCount
1 to 31 10 l Specifies themaximum number ofconcatenated cells.
l If the value 1 isassumed, only oneATM cell isencapsulated in onepacket. If the valuefrom 2 to 31 isassumed, a maximumof 2 to 31 ATM cellsare encapsulated intoone packet.
Packet Loading Time(us)
100 to 50000 1000 l Specifies the packetloading time. Once thepacket loading timeexpires, the packet issent out even if theconcatenated cells areless than themaximum.
l If Max. ConcatenatedCell Count assumesthe value 1, thisparameter isineffective. That is, thepacket will be sent outonce the cell is loaded.
Protection Group Parameters (PW APS)NOTE
The parameters of the PW APS protection group need to be configured if the Protection Type of PWs is set toPW APS.
Parameter Value Range Default Value Description
Protection Type - - Specifies the protectiontype.
Protection Group ID - - Specifies the protectiongroup ID.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
799
Parameter Value Range Default Value Description
Enabling Status DisabledEnabled
Disabled l Specifies the enablingstatus of the PWprotection group.
l During the creation ofa protection group, setEnabling Status toDisabled. After theAPS protection groupis configured at bothends, set EnablingStatus to Enabled.
Protection Mode - - Displays the protectionmode.NOTE
The OptiX RTN 950supports 1:1 protectionmode.
Working PW ID - - Displays the ID of theworking PW.
Protection PW ID - - Displays the ID of theprotection PW.
Switching Mode - - Displays the switchingmode to be used when aPW fails.NOTE
The OptiX RTN 950supports dual-endedswitching.
Revertive Mode Non-revertiveRevertive
Revertive l This parameterspecifies whether toswitch services back tothe original workingPW after it recovers.
l The value Revertiveindicates that servicesare switched to theoriginal working PWand the value Non-revertive indicatesthat services are notswitched to theoriginal working PW.
l The value Revertive isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
800
Parameter Value Range Default Value Description
Switchover RestorationTime(min)
1 to 12 1 l Specifies the WTRtime of the protectiongroup.
l When the preset WTRtime expires after theoriginal working PWrecovers, services areswitched to theoriginal working PW.
l This parameter isavailable only whenRestoration Mode isRevertive.
l The default value isrecommended.
Switchover Delay Time(100ms)
0 to 100 0 l Specifies the hold-offtime of the protectiongroup.
l If this parameter is setto a value other than 0,the protection groupdoes not triggerswitching once itdetects faults, but waitsuntil the hold-off timeexpires, and thendetects whether anyfaults persist. If anyfaults persist, theswitching is triggered;otherwise, noswitching is triggered.
l The default value isrecommended.
Detection mode - - Displays the detectionmode of the PW APSprotection group.
OAM ParametersNOTE
l The OAM parameters of the PW APS protection group need to be configured if the Protection Type ofPWs is set to PW APS.
l To configure PW OAM parameters, choose Configuration > MPLS Management > PW Management >PW OAM Parameter from the Function Tree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
801
Parameter Value Range Default Value Description
OAM Status - - Displays the enablingstatus of PW OAM.
Detection Mode Auto-SensingManual
Auto-Sensing l Specifies the detectionmode of OAM packets.
l Manual: Theconnectivity check(CC) packets are sentat the interval specifiedby the user.
l Auto-Sensing: Theconnectivity check(CC) packets are sentat the interval ofreceiving PW OAMpackets.
l If Detection Mode isset to Manual, youneed to set the PWOAM detectionpackets to be receivedand transmitted.
l The value Auto-Sensing isrecommended.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
802
Parameter Value Range Default Value Description
Detection Packet Type CVFFD
CV l CV: The detectionpackets are sent at afixed interval.
l FFD: The detectionpackets are sent at theinterval specified bythe user.
l If Detection Mode isset to Auto-Sensing,this parameterspecifies the PW OAMdetection packets to betransmitted.
l If Detection Mode isset to Manual, thisparameter specifies thePW OAM detectionpackets to be receivedand transmitted.
l The value FFD isassumed for PW APSand the value CV isassumed forcontinuousconnectivity check onPWs.
Detection Packet Period(ms)
3.3102050100200500
50 l Specifies the period ofdetection packets.
l This parameter isconfigurable whenDetection PacketType is FFD andassumes the fixedvalue of 1000 whenDetection PacketType is CV.
l Set this parameter to3.3 for PW APS.
LSR ID to be Received - - Specifies the LSR ID to bereceived.
PW ID to be Received - - Specifies the PW ID to bereceived.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
803
Protection Group Parameters (Slave Protection Pair)NOTE
The parameters of the PW APS protection group need to be configured if the Protection Type of PWs is set toSlave Protection Pair.
Parameter Value Range Default Value Description
Protection Mode - - Displays the protectionmode.
Protection Group ID - - Specifies the ID of theslave protection pair. Theswitching of the masterPW APS protection grouptriggers the switching ofthe slave PW APSprotection groupsimultaneously.
Working PW ID - - Displays the ID of theworking PW in the slaveprotection pair.
Protection PW ID - - Displays the ID of theprotection PW in the slaveprotection pair.
Parameters for CoS MappingParameter Value Range Default Value Description
PW ID - - Displays the ID of the PWthat carries service.
CoS Mapping - - Specifies the policy formapping different ATMservice levels to CoSpriorities. By setting thisparameter, differentquality measures areprovided for differentATM services.
A.9.3.12 Parameter Description: ATM OAM Management_Segment and EndAttributes
This topic describes the parameters that are related to segment end attributes of ATM OAM.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
804
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > ATM
OAM Management from the Function Tree.2. Click the Segment End Attributes tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Source - - Displays the source nodeof the ATM/IMA service.
Sink - - Displays the sink node ofthe ATM/IMA service.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
805
Parameter Value Range Default Value Description
Connection Direction SourceSink
- Displays the direction ofthe ATM connection.l Source: indicates the
forward direction.– For common ATM
services (UNI-UNI), Sourceindicates thedirection from thesource end to thesink end of theATM connection.
– For ATM PWE3services (UNI-NNI), Sourceindicates thedirection from theUNI port side to theMPLS interfaceside.
l Sink: indicates thebackward direction.– For common ATM
services (UNI-UNI), Sinkindicates thedirection from thesink end to thesource end of theATM connection.
– For ATM PWE3services (UNI-NNI), Sinkindicates thedirection from theMPLS interfaceside to the UNI portside.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
806
Parameter Value Range Default Value Description
Segment and EndAttribute
Non segment andEndpointSegment pointEndpointSegment and Endpoint
Non segment andEndpoint
Specifies the segment andend attributes of the sourceand sink of the ATMconnection.l Non segment and
endpoint: intermediatepoint, which refers tothe OAM nodebetween two segmentpoints or two endpoints. Therefore,intermediate pointscan be furtherclassified intointermediate pointsbetween segmentpoints, andintermediate pointsbetween end points.– Upon detecting a
fault, anintermediate pointreports thecorrespondingalarms and insertssegment AIS cellsand end AIS cells tothe downstream.Afterwards, theintermediate pointperiodically sendsthese cells.
– An intermediatepoint does not catchany AIS/RDI cells.
l Segment point: an endpoint of a segment.One ATM link consistsof multiple segments.– Upon detecting a
fault, a segmentpoint reports thecorrespondingalarms and insertsend AIS cells to thedownstream.Afterwards, thesegment point
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
807
Parameter Value Range Default Value Description
periodically sendsthese cells.
– A segment pointcatches segmentAIS/RDI cellsonly.
l End point: an end pointof an ATM link. It isusually an edge pointon the ATM network.– Upon detecting a
fault, an end pointreports thecorrespondingalarms but does notinsert any AIScells.
– An end pointcatches end AIS/RDI cells only.
l Segment and endpoint:a segment-end point,or an edge point of asegment and an end.– Upon detecting a
fault, a segment-end point reportsthe correspondingalarms but does notinsert any AIScells.
– A segment-endpoint catches theAIS/RDI cells of asegment and anend.
A.9.3.13 Parameter Description: ATM OMA Management_CC Activation Status
This topic describes the parameters that are related to the CC activation status of ATM OAM.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > ATM
OAM Management from the Function Tree.
2. Click the CC Activation Status tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
808
Parameters on the Main InterfaceParameter Value Range Default Value Description
Source - - Displays the source nodeof the ATM/IMA service.
Sink - - Displays the sink node ofthe ATM/IMA service.
Connection Direction SourceSink
- Specifies the connectiondirection.l Source: indicates the
forward direction.– For common ATM
services (UNI-UNI), Sourceindicates thedirection from thesource end to thesink end of theATM connection.
– For ATM PWE3services (UNI-NNI), Sourceindicates thedirection from theUNI port side to theMPLS interfaceside.
l Sink: indicates thebackward direction.– For common ATM
services (UNI-UNI), Sinkindicates thedirection from thesink end to thesource end of theATM connection.
– For ATM PWE3services (UNI-NNI), Sinkindicates thedirection from theMPLS interfaceside to the UNI portside.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
809
Parameter Value Range Default Value Description
Segment and EndAttribute
- - Specifies the segment andend attributes of nodes.l Segment point: an end
point of a segment.One ATM link consistsof multiple segments.Segment CC cells areterminated at segmentpoints.
l End point: an end pointof an ATM link. It isusually an edge pointon an ATM network.End-to-end CC cellsare terminated at endpoints.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
810
Parameter Value Range Default Value Description
CC Activate Flag DeactivateSource activateSink activateSource + sink activate
- l Specifies the CCactivation flag.
l Deactivate: This nodedoes not transmit orreceive CC cells.
l Source activate: Thispoint transmits butdoes not receive CCcells.
l Sink activate: Thispoint receives but doesnot transmit CC cells.If this point does notreceive any servicecells or CC cells withina time interval of 3.5(±0.5) seconds, it willreport the LOC alarmand transmit AIS cellsin the forwarddirection.
l Source + sink activate:This node transmitsand receives CC cells.If this point does notreceive any servicecells or CC cells withina time interval of 3.5(±0.5) seconds, it willreport the LOC alarmand transmit AIS cellsin the forwarddirection.
l Once the node receivesany CC cells or servicecells, the LOC alarmwill be cleared.
A.9.3.14 Parameter Description: ATM OAM Management_Remote End LoopbackStatus
This topic describes the parameters that are related to the remote end loopback status of ATMOAM.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
811
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > ATM
OAM Management from the Function Tree.2. Click the Remote Loopback Test tab.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Source - - Displays the source nodeof the ATM/IMA service.
Sink - - Displays the sink node ofthe ATM/IMA service.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
812
Parameter Value Range Default Value Description
Connection Direction SourceSink
- Displays the direction ofthe ATM connection.l Source: indicates the
forward direction.– For common ATM
services (UNI-UNI), Sourceindicates thedirection from thesource end to thesink end of theATM connection.
– For ATM PWE3services (UNI-NNI), Sourceindicates thedirection from theUNI port side to theMPLS interfaceside.
l Sink: indicates thebackward direction.– For common ATM
services (UNI-UNI), Sinkindicates thedirection from thesink end to thesource end of theATM connection.
– For ATM PWE3services (UNI-NNI), Sinkindicates thedirection from theMPLS interfaceside to the UNI portside.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
813
Parameter Value Range Default Value Description
Segment and EndAttribute
- - Specifies the segment andend attribute.l Segment LB cells are
looped back only at aSegment point,Segment andEndpoint, or Nonsegment andEndpoint.
l End-to-end LB cellsare looped back only atan Endpoint orSegment andEndpoint.
Loopback Point NE - - l Specifies the NEwhere the loopbackpoint is located.
l Before an end-to-endLB test, you need to setend points in the testdomain. After the test,remove the end points.
l Before a segment-to-segment LB test, youneed to set segmentpoints in the testdomain. After the test,remove the segmentpoints.
Test Result - - Displays whether theloopback command issuccessfully issued.
A.9.3.15 Parameter Description: ATM OAM Management_LLIDThis topic describes the parameters that are related to LLID configuration.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration > ATM
OAM Management from the Function Tree.2. Click the LLID tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
814
Parameters on the Main InterfaceParameter Value Range Default Value Description
Country Code(Hexadecimal Code)
- 00 00 Displays or specifies thecountry code of the ATMservice. The value is 2bytes in length.
Network Code(Hexadecimal Code)
- 00 01 Displays or specifies thenetwork code of the ATMservice. The value is 2bytes in length.
NE Code (HexadecimalCode)
- 00 30 00 04 00 00 00 00 0000 00
l Displays or specifiesthe NE code of theATM service. Thevalue is 11 bytes inlength.
l The default NE codecan be used if it isunique on the network.
l NE code and NE ID areassociated. Therefore,each NE on thenetwork has a uniqueNE code.
A.10 Clock ParametersThis topic describes the parameters that are related to clocks.
A.10.1 Physical Clock ParametersThis topic describes physical clock parameters.
A.10.1.1 Parameter Description: Clock Source Priority TableThis topic describes the parameters that are related to the priority table of a clock source.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Clock >
Physical Clock > Clock Source Priority.2. Click the System Clock Source Priority List tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
815
ParametersParameter Value Range Default Value Description
Clock Source - - l External clock source1 indicates the externalclock source at theCLK or TIME1 port onthe CST or CSH boardin physical slot 7.External clock source2 indicates the externalclock source at theCLK or TIME1 port onthe CST or CSH boardin physical slot 8.
l The internal clocksource is always at thelowest priority andindicates that the NEworks in the free-runmode.
l The clock sources andthe correspondingclock source prioritylevels are determinedaccording to the clocksynchronizationschemes.
External Clock SourceMode
2 Mbit/s2 MHz
2Mbit/s l This parameterindicates the type ofthe external clocksource signal.
l This parameter is setaccording to theexternal clock signal.In normal cases, theexternal clock signal isa 2 Mbit/s signal.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
816
Parameter Value Range Default Value Description
Synchronous Status Byte SA4 to SA8 SA4 l This parameter is validonly when ExternalClock Source Mode isset to 2Mbit/s.
l This parameterindicates which bit ofthe TS0 in odd framesof the external clocksignal is used totransmit the SSM.
l This parameter needsto be set only when theSSM or extended SSMis enabled. In normalcases, the externalclock sources use theSA4 to transmit theSSM.
Clock Source PrioritySequence (Highest: 1)
- - Displays the prioritysequence of clock sources.1 indicates the highestclock source priority.
A.10.1.2 Parameter Description: Priority Table for the PLL Clock Source of theExternal Clock Port
This topic describes the parameters that are related to the priority table for the phase-locked loop(PLL) clock source of the external clock port.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and then choose Configuration >
Clock > Physical Clock > Clock Source Priority from the Function Tree.2. Click the Priority for PLL Clock Sources of 1st External Output tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
817
Parameters for configuring the priority table for the PLL clock source of the externalclock port
Parameter Value Range Default Value Description
Clock Source - Internal Clock Source l When the PLL clocksource of the externalclock port extracts thesystem clock (namely,the local clock of theNE), Clock Sourcetakes its default valueInternal ClockSource. In this case,no manualconfiguration isrequired.
l When the PLL clocksource of the externalclock port needs toextract the clock froman SDH line board,clock from a radio link,clock from a PDHtributary board, orsynchronous Ethernetclock, set ClockSource to thecorresponding clocksource according to thenetwork planninginformation.
Current Status - - Displays the valid statusof clock sources.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
818
Parameter Value Range Default Value Description
Lock Status - - l The PLL clock sourceof the external clockport extracts only anunlocked clock source.
l If a clock source is inlocked state, the PLLclock source of theexternal clock portdoes not extract theclock source until theclock source ischanged from thelocked state to theunlocked state.
l The internal clocksource should not be inlocked state.
Clock Source Priority(Highest: 1)
- - Displays the priority levelof a clock source. 1 is thehighest priority.
A.10.1.3 Parameter Description: Clock Subnet Setting_Clock SubnetThis topic describes the parameters that are related to a clock subnet.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Clock >
Physical Clock > Clock Subnet Configuration.2. Click the Clock Subnet tab.
Parameters for Setting a Clock SubnetParameter Value Range Default Value Description
Affiliated Subnet - - The OptiX RTN 950 doesnot support thisparameter.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
819
Parameter Value Range Default Value Description
Protection Status Start Extended SSMProtocolStart Standard SSMProtocolStop SSM Protocol
Stop SSM Protocol l The SSM protocol is ascheme used forsynchronousmanagement on anSDH network andindicates that the SSMis passed by the lowerfour bits of the S1 byteand can be exchangedbetween the nodes.The SSM protocolensures that theequipmentautomatically selectsthe clock source of thehighest quality andhighest priority, thuspreventing mutualclock tracing.
l After the standardSSM protocol isstarted, the NE firstperforms theprotection switchingon the clock sourceaccording to the clockquality levelinformation providedby the S1 byte. If thequality level of theclock source is thesame, the NE thenperforms theprotection switchingaccording to the clockpriority table. That is,the NE selects anunlocked clock sourcethat is of the highestquality and highestpriority from all thecurrent available clocksources as the clocksource to besynchronized andtraced by the localstation.
l If the SSM protocol isstopped, it indicates
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
820
Parameter Value Range Default Value Description
that the S1 byte is notused. The NE selectsand switches a clocksource only accordingto the sequencespecified in thepriority table. Theclock source of thehighest priority is usedas the clock source tobe traced.
l After the SSMprotocol is stopped,each NE performs theprotection switchingon the clock accordingto the preset prioritytable of the clocksource only when theclock source of ahigher priority is lost.
Clock Source - - This parameter indicatesthe clock source that isconfigured for an NE. InClock Source Priority,you can set whether to addor delete a clock source.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
821
Parameter Value Range Default Value Description
Clock Source ID (None)1 to 15
(None) l This parameter is validonly when theextended SSMprotocol is started.
l Clock source IDs areallocated for thefollowing clocksources only:– External clock
source– Internal clock
source of the nodethat accesses theexternal clocksources
– Internal clocksource of the jointnode of a ring and achain or the jointnode of two rings
– Line clock sourcethat enters the ringwhen the intra-ringline clock source isconfigured at thejoint node of a ringand a chain or thejoint node of tworings
A.10.1.4 Parameter Description: Clock Subnet Setting_Clock QualityThis topic describes the parameters that are related clock quality.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Clock >
Physical Clock > Clock Subnet Configuration.2. Click the Received Quality tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
822
Parameters for Clock Source QualityParameter Value Range Default Value Description
Clock Source - - This parameter indicatesthe name of theconfigured clock source.In Clock SourcePriority, you can setwhether to add or delete aclock source.
Configured Quality UnknownSynchronization QualityG.811 Clock SignalG.812 Transit ClockSignalG.812 Local Clock SignalG.813 SDH EquipmentTiming Source (SETS)SignalDo Not Use ForSynchronizationAutomatic Extraction
Automatic Extraction This parameter specifiesthe quality level that isconfigured for the clocksource. This function isrequired only in a specialscenario or in a test.Generally, this parameterneed not be set.
Received Quality - - This parameter indicatesthe clock source qualitysignal received by the NE.The NE extracts the clocksource quality signal fromthe S1 byte of each clocksource.
Parameters for Manual Setting of 0 Quality LevelParameter Value Range Default Value Description
NE Name - - This parameter indicatesthe name of the NE.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
823
Parameter Value Range Default Value Description
Quality Level 0 Do Not Use ForSynchronizationG.811 Reference ClockBetween G.811 ReferenceClock and G.812 TransitClockG.812 Transit ClockBetween G.812 TransitClock and G.812 LocalClockG.812 Local ClockBetween G.812 LocalClock and synchronousequipment timing source(SETS)SETS ClockBetween synchronousequipment timing source(SETS) and qualityunavailable
Do Not Use ForSynchronization
This parameter specifiesthe clock quality whoselevel is manually set tozero.l Do Not Use For
Synchronization: thenotificationinformation in thereverse direction of theselectedsynchronization clocksource to avoid directmutual locking ofadjacent NEs.
l G.811 ReferenceClock: the clock signalspecified in ITU-T G.811.
l Between G.811Reference Clock andG.812 Transit Clock:lower than the qualitylevel of the clocksignal specified inITU-T G.811 buthigher than the qualitylevel of the transitexchange clock signalspecified in ITU-T G.812.
l G.812 Transit Clock:the transit exchangeclock signal specifiedin ITU-T G.812.
l Between G.812Transit Clock and G.812 Local Clock:lower than the qualitylevel of the transitexchange clock signalspecified in ITU-T G.812 but higher than thequality level of thelocal exchange clocksignal specified inITU-T G.812.
l G.812 Local Clock:the local exchange
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
824
Parameter Value Range Default Value Description
clock signal specifiedin ITU-T G.812.
l Between G.812 LocalClock andsynchronousequipment timingsource (SETS): lowerthan the quality levelof the local exchangeclock signal specifiedin ITU-T G.812 buthigher than the qualitylevel of the clocksignal of the SETS.
l SETS Clock: the clocksignal of the SETS.
l Between synchronousequipment timingsource (SETS) andquality unavailable:lower than the qualitylevel of the clocksignal of the SETS buthigher than the qualitylevel unavailable in thesynchronous timingsource.
A.10.1.5 Parameter Description: Clock Subset Setting_SSM Output ControlThis topic describes the parameters that are related to SSM output control.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Clock >
Physical Clock > Clock Subnet Configuration.2. Click the SSM Output tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
825
ParametersParameter Value Range Default Value Description
Line Port - - l This parameterindicates the name ofthe line clock port.
l Line Port: indicatesthe SSM qualityinformation outputport of the currentavailable line clocksource and the externalclock source. Thisoutput port cantransmit the qualityinformation of theclock source byoutputting the S1 byteto the downstream NE.
Output S1 Byte Info EnabledDisabled
Enabled l Output S1 Byte Infois valid only when theSSM protocol or theextended SSMprotocol is started.
l Output S1 Byte Infoindicates whether theSSM is output at theline port.
l When the line port isconnected to an NE inthe same clock subnet,set Output S1 ByteInfo to Enabled.Otherwise, set thisparameter toDisabled.
A.10.1.6 Parameter Description: Clock Subset Setting_Clock ID Enabling StatusThis topic describes the parameters that are used for enabling the clock ID function.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Clock >
Physical Clock > Clock Subnet Configuration.2. Click the Clock ID Output tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
826
ParametersParameter Value Range Default Value Description
Line Port - - l This parameterindicates the name ofthe line clock port.
l Line Port: indicatesthe SSM qualityinformation outputport of the currentavailable line clocksource and the externalclock source. Thisoutput port cantransmit the qualityinformation of theclock source byoutputting the S1 byteto the downstream NE.
Output Clock ID EnabledDisabled
Enabled l Output Clock ID isvalid only when theextended SSMprotocol is started.
l Output Clock IDindicates whether theclock source ID isoutput at the line port.
l If the line ports areconnected to the NEsin the same clocksubnet and if theextended SSMprotocol is started onthe opposite NE,Output Clock ID isset to Enabled.Otherwise, thisparameter is set toDisabled.
A.10.1.7 Parameter Description: Clock Source Switching_Clock Source RestorationParameters
This topic describes the parameters that are related to clock source restoration.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
827
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Clock >
Clock Source Switching.2. Click the Clock Source Reversion tab.
ParametersParameter Value Range Default Value Description
NE Name - - This parameter indicatesthe name of the NE.
Higher Priority ClockSource Reversion
Auto-RevertiveNon-Revertive
Auto-Revertive l When the quality of ahigher-priority clocksource degrades, theNE automaticallyswitches the clocksource to a lower-priority clock source.If this parameter is setto Auto-Revertive,the NE automaticallyswitches the clocksource to the higher-priority clock sourcewhen this higher-priority clock sourcerestores. If thisparameter is set toNon-Revertive, theNE does notautomatically switchthe clock source to thehigher-priority clocksource when thishigher-priority clocksource restores.
l Correct setting ofClock SourceSwitching Conditionensures the reliabilityof the clock sourceswitching. To improvethe clock quality,select Auto-Revertive. Otherwise,to prevent jitter of theclock, generally, it isrecommended that youset this parameter toNon-Revertive.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
828
Parameter Value Range Default Value Description
Clock Source WTRTime(min.)
0 to 12 5 l This parameterspecifies the durationfrom the time when theclock sourcerestoration is detectedto the time when theclock source switchingis triggered. Thisparameter is used toavoid frequentswitching of the clocksource due toinstability of the clocksource state within ashort time.
l This parameter is validonly when HigherPriority ClockSource Reversion isset to Auto-Revertive.
A.10.1.8 Parameter Description: Clock Source Switching_Clock Source SwitchingThis topic describes the parameters that are related to the switching status of a clock source.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration > Clock >
Physical Clock > Clock Source Switching.2. Click the Clock Source Switching tab.
ParametersParameter Value Range Default Value Description
Clock Source - - This parameter indicatesthe name of the clocksource.
Current Status ValidInvalid
- This parameter indicateswhether the clock sourceis valid.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
829
Parameter Value Range Default Value Description
Lock Status LockUnlock
- l This parameterspecifies the lockingstatus of the clocksource in the prioritytable.
l Lock: A clock sourcein the priority table isin the locked state. Theclock source in thelocked state cannot beswitched.
l Unlock: A clocksource in the prioritytable is in the unlockedstate. The clock sourcein the unlocked statecan be switched.
Switching Source - - This parameter indicatesthe clock source to betraced by the NE after theswitching.
Switching Status NormalManual SwitchingForced Switching
- This parameter indicatesthe switching status of thecurrent clock source.
A.10.1.9 Parameter Description: Clock Source Switching_Clock Source SwitchingConditions
This section describes the parameters that are related to the switching conditions of clock sources.
Navigation Path1. In the NE Explorer, select the NE from the Object Tree and choose Configuration >
Clock > Clock Source Switching from the Function Tree.2. Click the Clock Source Switching Conditions tab.
ParametersParameter Value Range Default Value Description
NE Name - - Displays the name of theNE.
Clock Source - - Displays the clock source.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
830
Parameter Value Range Default Value Description
AIS Alarm YesNo
No l The default value isrecommended.
l When this parameter isset to Yes, it indicatesthat clock sourceswitching occurs if theclock source reportsthe AIS alarm.
l When this parameter isset to No, it indicatesthat no clock sourceswitching occurs if theclock source reportsthe AIS alarm.
B1 BER Threshold-Crossing
- - The parameter is invalid.
RLOS,RLOF and OOF/RLOC Alarms
Yes Yes This parameter indicatesthat clock switchingoccurs when the clocksource reports the RLOS,RLOF, OOF, or LOCalarm.
CV Threshold-Crossing - - The parameter is invalid.
CV Threshold - - The parameter is invalid.
B2-EXC Alarm YesNo
No l The default value isrecommended.
l When this parameter isset to Yes, it indicatesthat clock sourceswitching occurs if theclock source reportsthe B2-EXC alarm.
l When this parameter isset to No, it indicatesthat no clock sourceswitching occurs if theclock source reportsthe B2-EXC alarm.
A.10.1.10 Parameter Description: Output Phase-Locked Source of the ExternalClock Source
This topic describes the parameters of the output phase-locked source of the external clocksource.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
831
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Configuration > Clock >Physical Clock > Phase-Locked Source Output by External Clock.
ParametersParameter Value Range Default Value Description
2M Phase-LockedSource Number
External Clock Source 1External Clock Source 2
- This parameter indicatesthe number of the externalclock source output of theNE.
External Clock OutputMode
2Mbit/s2MHz
2Mbit/s l This parameterspecifies the mode ofthe output clock.
l This parameter needsto be set according tothe requirements of theinterconnectedequipment. Generally,the output externalclock signal is a 2Mbit/s signal.
External Clock OutputTimeslot
SA4 to SA8ALL
ALL l This parameter is validonly when ExternalClock Output Modeis set to 2Mbit/s.
l This parameterindicates which bit ofthe TS0 in odd framesof the output clocksignal is used totransmit the SSM.
l If this parameter is setto ALL, it indicatesthat all the bits of theTS0 are used totransmit the SSM.
l It is recommended thatyou use the defaultvalue.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
832
Parameter Value Range Default Value Description
External Source OutputThreshold
Threshold DisabledNot Inferior to G.813SETS SignalNot Inferior to G.812Local SignalNot Inferior to G.812Transit Clock SignalNot Inferior to G.811Clock Signal
Threshold Disabled l This parameterspecifies the lowestquality of the outputclock. If the clockquality is lower thanthe value of thisparameter, it indicatesthat the external clocksource does not outputany clock signal.
l If this parameter is setto ThresholdDisabled, it indicatesthat the external clocksource always outputsthe clock signal.
l It is recommended thatyou use the defaultvalue.
2M Phase-LockedSource FailureCondition
No Failure ConditionAISLOFAIS OR LOF
No Failure Condition l This parameterspecifies the failurecondition of the 2Mbit/s phase-lockedclock source.
l It is recommended thatyou use the defaultvalue.
2M Phase-LockedSource Failure Action
Shut Down Output2M Output S1 ByteUnavailableSend AIS
Shut Down Output l This parameter is validonly when 2M Phase-Locked SourceFailure Condition isnot set to No FailureCondition.
l This parameterspecifies the operationof the 2 Mbit/s phase-locked loop (PLL)when the 2 Mbit/sphase-locked clocksource meets thefailure conditions.
l It is recommended thatyou use the defaultvalue.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
833
A.10.1.11 Parameter Description: Clock Synchronization StatusThis topic describes the parameters that are related to the clock synchronization status.
Navigation PathSelect the NE from the Object Tree in the NE Explorer. Choose Configuration > Clock >Physical Clock > Clock Synchronization Status.
ParametersParameter Value Range Default Value Description
NE Name - - This parameter indicatesthe name of the NE.
NE Clock Mode - - This parameter indicatesthe working mode of theNE clock.
S1 Byte SynchronizationQuality Info
- - This parameter indicatesthe synchronizationquality information of theS1 byte.
S1 Byte ClockSynchronous Source
- - This parameter indicatesthe clock synchronizationsource of the S1 byte.
Synchronous Source - - This parameter indicatesthe synchronizationsource.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
834
Parameter Value Range Default Value Description
Data Output Method inHoldover Mode
Normal Data OutputKeep the Latest Data
Normal Data Output l When all the referencetiming signals are lost,the slave clockchanges to theholdover mode. At thistime, the slave clockworks based on thelatest frequencyinformation storedbefore the referencetiming signals are lost.Then, the frequency ofthe oscillator driftsslowly to ensure thatthe offset between thefrequency of the slaveclock and the referencefrequency is verysmall. As a result, theimpact caused by thedrift is limited withinthe specifiedrequirement.
l Normal Data Output:The slave clock worksbased on the latestfrequency informationstored before thereference timingsignals are lost, and theholdover durationdepends on the size ofthe phase-locked clockregister on theequipment. Theholdover duration canbe up to 24 hours.
l Keep the Latest Data:The slave clock worksin holdover mode allthe time based on thelatest frequencyinformation storedbefore the referencetiming signals are lost.
A.10.2 CES ACR Clock ParametersThis topic describes CES ACR clock parameters.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
835
A.10.2.1 Parameter Description: ACR Clock Source
This topic describes parameters that are related to the ACR clock source.
Navigation Path
In the NE Explorer, select the required NE from the Object Tree and choose Configuration >Clock > ACR Clock from the Function Tree.
Parameters on the Main Interface
Parameter Value Range Default Value Description
ACR Clock Source - - Identifies the ACR clockdomain.
CES Service - - This parameter displays orspecifies the CES servicethat the master ACR clocksource uses.
Track Mode - - This parameter displaysthe trace mode of an ACRclock source.
Lock Status - - This parameter displayswhether an ACR clocksource is locked.
Current CES Service - - This parameter displaysthe CES service fromwhich the current ACRclock source is obtained.
A.10.2.2 Parameter Description: Clock Domain
This topic describes parameters that are related to clock domains.
Navigation Path
In the NE Explorer, select the required NE from the Object Tree and choose Configuration >Clock > Clock Domain from the Function Tree.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Clock Domain - - Displays the clockdomain.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
836
Parameter Value Range Default Value Description
Clock Domain Board - - Displays the board wherethe clock domain islocated.
Clock Port - - Displays the Smart E1ports that are bound to aclock domain.
A.10.2.3 Parameter Description: Clock Domain_Creation
This topic describes the parameters for creating a clock domain.
Navigation Path1. In the NE Explorer, select the required NE from the Object Tree and choose
Configuration > Clock > Clock Domain from the Function Tree.
2. Click New.
Parameters on the Main Interface
Parameter Value Range Default Value Description
Clock Domain System Clock DomainCES ACR1 ClockDomainCES ACR2 ClockDomainCES ACR3 ClockDomainCES ACR4 ClockDomain
System Clock Domain Specifies the clockdomain to be bound.
Clock Domain Board - - Displays the board wherethe clock domain islocated.
Board - - Specifies the board wherethe Smart E1 port islocated.
Available Port - - Displays the Smart E1ports that are not bound toa clock domain.
Selected Port - - Displays the Smart E1ports that are bound to aclock domain.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
837
A.10.3 Parameter Description: Auxiliary PortsThis topic describes parameters that are used for configuring an external time port as an RS-485monitoring port.
Navigation PathIn the NE Explorer, select the NE from the Object Tree and choose Configuration > AuxiliaryInterface from the Function Tree.
Parameters on the Main InterfaceParameter Value Range Default Value Description
Port - - Displays the port thatfunctions as the auxiliaryport.
Interface Mode 1st external clock2nd external clock1st external time2nd external timeMONOrderwireS1/F1Commissioning serial port
1st external clock Specifies the workingmode of the auxiliary port.l If the running status of
the outdoor cabinetneeds to be monitored,set Interface Mode toMON.
l For an external timeinput/output port, setInterface Mode to 1stexternal time or 2ndexternal time.
A.11 Parameters for the Orderwire and Auxiliary InterfacesThis topic describes the parameters that are related to the orderwire and auxiliary interfaces.
A.11.1 Parameter Description: Orderwire_GeneralThis topic describes the parameters that are used for general orderwire features.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration >
Orderwire from the Function Tree.2. Click the General tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
838
ParametersParameter Value Range Default Value Description
Call Waiting Time(s)
1 to 9 9 l This parameter indicates the waitingtime after the local station dials thenumber. If the calling station does notreceive the response message from thecalled station within the call waitingtime, it automatically removes thecommunication connection.
l If less than 30 nodes exist in theorderwire subnet, it is recommended thatyou set this parameter to five seconds. Ifmore than 30 nodes exist in the orderwiresubnet, it is recommended that you setthis parameter to nine seconds.
l The call waiting time should be set to thesame for all the NEs.
Dialling Mode PulseDual-ToneFrequency
Dual-ToneFrequency
This parameter indicates the dialling modeof the orderwire phone.
Conference Call - 888 l This parameter indicates the telephonenumber of the network-wide orderwireconference call.
l When an OptiX RTN 950 dials thetelephone number 888, the orderwirephones of all the NEs on the orderwiresubnet ring. When an OptiX RTN 950receives the call, the orderwire phoneson the other NEs do not ring. In this case,the orderwire point-to-multipoint groupcall changes to a point-to-point callbetween two NEs.
l The telephone number of the orderwireconference call should be the same forall the nodes on the same subnet.
l The telephone number of the orderwireconference call must have the samelength as the telephone number of theorderwire phone (phone 1) at the localsite.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
839
Parameter Value Range Default Value Description
Phone 1 100 to 99999999 101 l This parameter specifies the orderwirephone number of the local station. Anaddressing call refers to a point-to-pointcall.
l The length of the orderwire phonenumber of each NE should be the same.It is recommended that you set the phonenumber to a three-digit number.
l The orderwire phone number of each NEshould be unique. It is recommended thatthe phone numbers are allocated from101 for the NEs in a sequential orderaccording to the NE IDs.
l The orderwire phone number cannot beset to the group call number 888 andcannot start with 888.
AvailableOrderwire Port
- - This parameter indicates the available portfor the orderwire phone.
SelectedOrderwire Port
- - This parameter indicates the selected portfor the orderwire phone.
A.11.2 Parameter Description: Orderwire_AdvancedThis topic describes the parameters that are used for advanced orderwire features.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration >
Orderwire from the Function Tree.2. Click the Advanced tab.
Parameters for Bytes Occupied by Orderwire Phones
Parameter Value Range Default Value Description
OrderwireOccupied Bytes
E1E2
E1 l This parameter specifies the overheadbyte that is used to transmit the orderwiresignals.
l Regardless the parameter value, theradio link always uses a customizedoverhead byte to transmit the orderwiresignals. Hence, this parameter should beset according to the occupied SDHoverhead bytes in the ordinary SDH.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
840
A.11.3 Parameter Description: Orderwire_F1 Data PortThis topic describes the parameters that are used for F1 data ports.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration >
Orderwire from the Function Tree.2. Click the F1 Data Port tab.
ParametersParameter Value Range Default Value Description
Available DataPath
- - l This parameter indicates the available F1data channel.
l Two data channels should be selected forthe configuration.
Number - - This parameter indicates the number of theF1 data port.
Data Channel 1 - - l If an SDH optical or electrical line portis selected, this parameter corresponds tothe F1 byte in the SDH frame at the lineport.
l If an IF port is selected, this parametercorresponds to the customized F1 byte inthe microwave frame at the IF port.
l If F1 is selected, this parametercorresponds to the F1/S1 interface on theAUX board. The F1/S1 interfacecomplies with ITU-T G.703 andoperates at the rate of 64 kbit/s.
Data Channel 2
A.11.4 Parameter Description: Orderwire_Broadcast Data PortThis topic describes the parameters that are used for broadcast data ports.
Navigation Path1. Select the NE from the Object Tree in the NE Explorer. Choose Configuration >
Orderwire from the Function Tree.2. Click the Broadcast Data Port tab.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
841
Parameters for Broadcast Data PortsParameter Value Range Default Value Description
Overhead Byte SERIAL1 toSERIAL4
SERIAL1 l In the case of an SDH optical/electricalline, the preset overhead byte is used totransmit the asynchronous data services.
l In the case of a radio link, a customizedserial overhead byte in the microwaveframe is used to transmit theasynchronous data services.
Broadcast DataSource
- No Data l When this parameter is set to theSERIAL1, the F1/S1 interface on thecorresponding AUX board is used.
l When this parameter is set to the SDHoptical/electrical line port, the value ofOverhead Byte of this port is used.
l When this parameter is set to the IF port,the customized Serial byte in themicrowave frame of this port is used.
AvailableBroadcast DataSink
- - This parameter indicates the availablebroadcast data sink.
Selected BroadcastData Sink
- - l When this parameter is set to theSERIAL1, the F1/S1 interface on thecorresponding AUX board is used.
l When this parameter is set to the SDHoptical/electrical line port, the value ofOverhead Byte of this port is used.
l When this parameter is set to the IF port,the customized Serial byte in themicrowave frame of this port is used.
A.11.5 Parameter Description: Environment Monitoring InterfaceThis topic describes the parameters that are used for environment monitoring interfaces.
Navigation PathSelect the AUX board from the Object Tree in the NE Explorer. Choose Configuration >Environment Monitor Configuration > Environment Monitor Interface from the FunctionTree.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
842
Parameters for the General AttributesParameter Value Range Default Value Description
Operation Object - - This parameter indicates the operationobject.
Relay ControlMode
Auto ControlManual Control
Auto Control l Auto Control: If an alarm is reported, thealarming relay is started upautomatically. Otherwise, the alarmingrelay is shut down.
l Manual Control: Relay Status in MajorAlarm(K0) and Relay Status inCritical Alarm(K1) need to be set.
Relay Status inMajor Alarm(K0)
DisabledEnabled
Disabled l This parameter indicates that the statusof the relay is set manually for majoralarms.
l Enable: The relay is set to the "ON"status for major alarms.
l Disabled: The relay is set to the "OFF"status for major alarms.
l This parameter is valid only when RelayControl Mode is set to ManualControl.
Relay Status inCritical Alarm(K1)
DisabledEnabled
Disabled l This parameter indicates that the statusof the relay is set manually for criticalalarms.
l Enable: The relay is set to the enabledstatus for critical alarms.
l Disabled: The relay is set to the disabledstatus for critical alarms.
l This parameter is valid only when RelayControl Mode is set to ManualControl.
Parameters for the Input RelayParameter Value Range Default Value Description
Operation Object - - This parameter indicates the operationobject.
Path Name - - This parameter indicates or specifies thename of the channel.
Using Status UnusedUsed
Unused This parameter specifies whether the alarminterface of the input relay is used.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
843
Parameter Value Range Default Value Description
Alarm Mode Relay Turns Off/High LevelRelay Turns On/Low Level
Relay Turns Off/High Level
l If this parameter is set to Relay TurnsOff/High Level, an alarm is generatedwhen the relay is turned off.
l If this parameter is set to Relay TurnsOn/Low Level, an alarm is generatedwhen the relay is turned on.
l This parameter is valid only when UsingStatus is set to Used.
Alarm Severity Critical AlarmMajor AlarmMinor AlarmWarning Alarm
Critical Alarm This parameter specifies the severity of thealarm that is generated at the input relay.
Parameters for the Output RelayParameter Value Range Default Value Description
Operation Object - - This parameter indicates the operationobject.
Path Name - - This parameter indicates or specifies thename of the output channel.
Use or Not UnusedUsed
Unused This parameter specifies whether the alarminterface of the output relay is used.
Parameters for the Temperature AttributesParameter Value Range Default Value Description
Operation Object - - This parameter indicates the operationobject.
Monitor Status - - This parameter indicates whether thetemperature attribute is monitored.
TemperatureUpper Threshold(DEG.C)
- - This parameter indicates the uppertemperature threshold of the board. Whenthe actual temperature is higher than thepreset value, an alarm is generated.
TemperatureLower Threshold(DEG.C)
- - This parameter indicates the lowertemperature threshold of the board. Whenthe actual temperature is lower than thepreset value, an alarm is generated.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
844
Parameters for the Alarm RelayParameter Value Range Default Value Description
Alarm Severity Critical AlarmMajor AlarmMinor AlarmWarning Alarm
- This parameter indicates the severity of thealarm.
Alarm OutputChannel
CSK-1CSK-2CSK-3CSK-4
CSK-1 This parameter specifies the channel of theoutput alarm relay.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description A Parameters Description
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
845
B Board Loopback Types
Different service interface boards support different loopback types.
Table B-1 Loopback types that service interface boards support
Board Loopback Type Remarks
SL1D/SL1DA l Inloops at optical portsl Outloops at optical portsl Inloops on VC-4 pathsl Outloops on VC-4 paths
-
SP3S/SP3D/ML1/MD1 l Inloops at E1 tributaryports
l Outloops at E1 tributaryports
-
EM6T/EM6TA/EM6F/EM6FA
l Inloops at the MAC layer ofEthernet ports
l Inloops at the PHY layer ofEthernet ports
-
EFP8 l Inloops at the PHY layer ofEthernet ports excludingports 9 and 10 (bridgingports)
l Inloops at the MAC layer ofEthernet ports excludingport 10 (bridging port)
l Inloops on VC-12 paths
-
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description B Board Loopback Types
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
846
Board Loopback Type Remarks
EMS6 l Inloops at the PHY layer ofEthernet ports excludingports 7 and 8 (bridgingports)
l Inloops at the MAC layer ofEthernet ports excludingport 8 (bridging port)
l Inloops on VC-3 paths
-
IF1 l Inloops at IF portsl Outloops at IF portsl Inloops at composite portsl Outloops at composite
ports
-
IFU2/IFX2 l Inloops and outloops at IFports
l Inloops and outloops atmultiplexing ports
l Inloops at the MAC layer ofIF_ETH ports
-
ISU2/ISX2 l Inloops and outloops at IFports
l Inloops and outloops atmultiplexing ports
-
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description B Board Loopback Types
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
847
C Indicators of Boards
Indicators of Boards
Table C-1 Status explanation for indicators on the CST
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the
board.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the boardduring the power-on or resetting processof the board.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting processof the board.
On (green) l When the board is being powered onor being reset, the upper layersoftware is being initialized.
l When the board is running, thesoftware is running normally.
Blinks on (red) and off at100 ms intervals
The BOOTROM self-check fails duringthe power-on or resetting process of theboard.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
848
Indicator State Meaning
On (red) l The memory self-check fails orloading upper layer software failsduring the power-on or resettingprocess of the board.
l The logic file or upper layer softwareis lost during the running process ofthe board.
l The pluggable storage card is faulty.
SYNC On (green) The clock is working properly.
On (red) The clock source is lost or a clockswitchover occurs.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor or remote alarm occurs in thesystem.
Off In an unprotected system, there is nopower supplied to the system.In a 1+1 protected system, the boardworks as the standby one.
ACT On (green) In a 1+1 protected system, the boardworks as the active one.In an unprotected system, the board hasbeen activated.
Off In a 1+1 protected system, the boardworks as the standby one.In an unprotected system, the board is notactivated.
Table C-2 Status explanation for indicators on the CSH
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the
board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
849
Indicator State Meaning
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the boardduring the power-on or resetting processof the board.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting processof the board.
On (green) l When the board is being powered onor being reset, the upper layersoftware is being initialized.
l When the board is running, thesoftware is running normally.
Blinks on (red) and off at100 ms intervals
The BOOTROM self-check fails duringthe power-on or resetting process of theboard.
On (red) l The memory self-check fails orloading upper layer software failsduring the power-on or resettingprocess of the board.
l The logic file or upper layer softwareis lost during the running process ofthe board.
l The pluggable storage card is faulty.
SYNC On (green) The clock is working properly.
On (red) The clock source is lost or a clockswitchover occurs.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor or remote alarm occurs in thesystem.
Off In an unprotected system, there is nopower supplied to the system.In a 1+1 protected system, the boardworks as the standby one.
ACT On (green) In a 1+1 protected system, the boardworks as the active one.In an unprotected system, the board hasbeen activated.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
850
Indicator State Meaning
Off In a 1+1 protected system, the boardworks as the standby one.In an unprotected system, the board is notactivated.
Table C-3 Status explanation for indicators on the IF1
Indicator State Meaning
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
LINK On (green) The radio link is normal.
On (red) The radio link is faulty.
ODU On (green) The ODU is workingproperly.
On (red) l The ODU is reportingcritical or major alarms.
l There is no powersupplied to the ODU.
On (yellow) The ODU is reporting minoralarms.
Blinks on (yellow) and off at300 ms intervals
The antennas are not aligned.
RMT On (yellow) The remote equipment isreporting defects.
Off The remote equipment is freeof defects.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
851
Indicator State Meaning
ACT On (green) l In a 1+1 protected system,the board works as theactive one.
l In an unprotected system,the board has beenactivated.
Off l In a 1+1 protected system,the board works as thestandby one.
l In an unprotected system,the board is not activated.
Table C-4 Status explanation for indicators on the IFU2
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarm occurs in theservices.
On (yellow) A minor or remote alarm occurs in theservices.
LINK On (green) The radio link is normal.
On (red) The radio link is faulty.
ODU On (green) The ODU is working properly.
On (red) l The ODU is reporting critical or majoralarms.
l There is no power supplied to the ODU.
On (yellow) The ODU is reporting minor alarms.
Blinks on (yellow)and off at 300 msintervals
The antennas are not aligned.
RMT On (yellow) The remote equipment is reporting defects.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
852
Indicator State Meaning
Off The remote equipment is free of defects.
ACT On (green) l In a 1+1 protected system, the boardworks as the active one.
l In an unprotected system, the board hasbeen activated.
Off l In a 1+1 protected system, the boardworks as the standby one.
l In an unprotected system, the board is notactivated.
Table C-5 Status explanation for indicators on the ISU2
Indicator State Meaning
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
LINK On (green) The radio link is normal.
On (red) The radio link is faulty.
ODU On (green) The ODU is workingproperly.
On (red) l The ODU is reportingcritical or major alarms.
l There is no powersupplied to the ODU.
On (yellow) The ODU is reporting minoralarms.
Blinks on (yellow) and off at300 ms intervals
The antennas are not aligned.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
853
Indicator State Meaning
RMT On (yellow) The remote equipment isreporting defects.
Off The remote equipment is freeof defects.
ACT On (green) l In a 1+1 protected system,the board works as theactive one.
l In an unprotected system,the board has beenactivated.
Off l In a 1+1 protected system,the board works as thestandby one.
l In an unprotected system,the board is not activated.
Table C-6 Status explanation for indicators on the IFX2
Indicator State Meaning
XPIC On (green) The XPIC input signal isnormal.
On (red) The XPIC input signal is lost.
Off The XPIC function isdisabled.
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
LINK On (green) The radio link is normal.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
854
Indicator State Meaning
On (red) The radio link is faulty.
ODU On (green) The ODU is workingproperly.
On (red) l The ODU is reportingcritical or major alarms.
l There is no powersupplied to the ODU.
On (yellow) The ODU is reporting minoralarms.
Blinks on (yellow) and off at300 ms intervals
The antennas are not aligned.
RMT On (yellow) The remote equipment isreporting defects.
Off The remote equipment is freeof defects.
ACT On (green) l In a 1+1 protected system,the board works as theactive one.
l In an unprotected system,the board has beenactivated.
Off l In a 1+1 protected system,the board works as thestandby one.
l In an unprotected system,the board is not activated.
Table C-7 Status explanation for indicators on the ISX2
Indicator State Meaning
XPIC On (green) The XPIC input signal isnormal.
On (red) The XPIC input signal is lost.
Off The XPIC function isdisabled.
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
855
Indicator State Meaning
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
LINK On (green) The radio link is normal.
On (red) The radio link is faulty.
ODU On (green) The ODU is workingproperly.
On (red) l The ODU is reportingcritical or major alarms.
l There is no powersupplied to the ODU.
On (yellow) The ODU is reporting minoralarms.
Blinks on (yellow) and off at300 ms intervals
The antennas are not aligned.
RMT On (yellow) The remote equipment isreporting defects.
Off The remote equipment is freeof defects.
ACT On (green) l In a 1+1 protected system,the board works as theactive one.
l In an unprotected system,the board has beenactivated.
Off l In a 1+1 protected system,the board works as thestandby one.
l In an unprotected system,the board is not activated.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
856
Table C-8 Status explanation for indicators on the EM6T/EM6F
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor alarm occurs in the system.
Off There is no power supplied to the system.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the board duringthe power-on or resetting process of theboard.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting process ofthe board.
On (green) l When the board is being powered on orbeing reset, the upper layer software isbeing initialized.
l When the board is running, the softwareis running normally.
Blinks on (red) and off at 100ms intervals
The BOOTROM self-check fails during thepower-on or resetting process of the board.
On (red) l The memory self-check fails or loadingupper layer software fails during thepower-on or resetting process of theboard.
l The logic file or upper layer software islost during the running process of theboard.
l The pluggable storage card is faulty.
LINK1a On (green) The GE1 port is connected correctly and isnot receiving or transmitting data.
Blinking (green) The GE1 port is receiving or transmittingdata.
Off The GE1 port is not connected or isconnected incorrectly.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
857
Indicator State Meaning
LINK2a On (green) The GE2 port is connected correctly and isnot receiving or transmitting data.
Blinking (green) The GE2 port is receiving or transmittingdata.
Off The GE2 port is not connected or isconnected incorrectly.
NOTE
a: The LINK1 and LINK2 indicators are available only on the EM6F and indicate the states of thecorresponding GE ports.
Table C-9 Status explanation for indicators on the EM6TA/EM6FA
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor alarm occurs in the system.
Off There is no power supplied to the system.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the board duringthe power-on or resetting process of theboard.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting process ofthe board.
On (green) l When the board is being powered on orbeing reset, the upper layer software isbeing initialized.
l When the board is running, the softwareis running normally.
Blinks on (red) and off at 100ms intervals
The BOOTROM self-check fails during thepower-on or resetting process of the board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
858
Indicator State Meaning
On (red) The memory self-check fails or loadingupper layer software fails during the power-on or resetting process of the board.The logic file or upper layer software is lostduring the running process of the board.The pluggable storage card is faulty.
L/A1a On (green) The GE1 port is connected correctly and isnot receiving or transmitting data.
Blinking (yellow) The GE1 port is receiving or transmittingdata.
Off The GE1 port is not connected or isconnected incorrectly.
L/A2a On (green) The GE2 port is connected correctly and isnot receiving or transmitting data.
Blinking (yellow) The GE2 port is receiving or transmittingdata.
Off The GE2 port is not connected or isconnected incorrectly.
NOTE
a: The L/A1 and L/A2 indicators are available only on the EM6FA and indicate the states of thecorresponding GE ports.
Table C-10 Status explanation for indicators on the EMS6
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the board duringthe power-on or resetting process of theboard.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting process ofthe board.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
859
Indicator State Meaning
On (green) l The upper layer software is beinginitialized during the power-on orresetting process of the board.
l The software is running properly duringthe running process of the board.
Blinks on (red) and off at 100ms intervals
The BOOTROM self-check fails during thepower-on or resetting process of the board.
On (red) l The memory self-check fails or loadingupper layer software fails during thepower-on or resetting process of theboard.
l The logic file or upper layer software islost during the running process of theboard.
l The pluggable storage card is faulty.
SRV On (green) The system is working normally.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor alarm occurs in the system.
Off There is no power supplied to the system.
LINK1 On (green) The GE1 port is connected correctly.
Blinks on (red) and off at 300ms intervals
The receive optical power at the GE1 opticalport is higher than the upper threshold.
Blinks 300 ms on (red) and 700ms off
The receive optical power at the GE1 opticalport is lower than the lower threshold.
Off The GE1 port is not connected or isconnected incorrectly.
ACT1 Blinking (yellow) The GE1 port is receiving or transmittingdata.
Off The GE1 port is not receiving ortransmitting data.
LINK2 On (green) The GE2 port is connected correctly.
Blinks on (red) and off at 300ms intervals
The receive optical power at the GE2 opticalport is higher than the upper threshold.
Blinks 300 ms on (red) and 700ms off
The receive optical power at the GE2 opticalport is lower than the lower threshold.
Off The GE1 port is not connected or isconnected incorrectly.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
860
Indicator State Meaning
ACT2 Blinking (yellow) The GE2 port is receiving or transmittingdata.
Off The GE2 port is not receiving ortransmitting data.
Table C-11 Status explanation for indicators on the EFP8
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power supplied to the board.
PROG Blinks on (green) and off at100 ms intervals
Software is being loaded to the board duringthe power-on or resetting process of theboard.
Blinks on (green) and off at300 ms intervals
The board software is in BIOS boot stateduring the power-on or resetting process ofthe board.
On (green) l When the board is being powered on orbeing reset, the upper layer software isbeing initialized.
l When the board is running, the softwareis running normally.
Blinks on (red) and off at 100ms intervals
The BOOTROM self-check fails during thepower-on or resetting process of the board.
On (red) l The memory self-check fails or loadingupper layer software fails during thepower-on or resetting process of theboard.
l The logic file or upper layer software islost during the running process of theboard.
l The pluggable storage card is faulty.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor alarm occurs in the system.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
861
Indicator State Meaning
Off There is no power supplied to the system.
Table C-12 Status explanation for indicators on the SL1D/SL1DA
Indicator State Meaning
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
Off The services are notconfigured.
LOS1 On (red) The first port of the SL1D/SL1DA is reporting theR_LOS alarm.
Off The first port of the SL1D/SL1DA is free of R_LOSalarms.
LOS2 On (red) The second port of theSL1D/SL1DA is reportingthe R_LOS alarm.
Off The second port of theSL1D/SL1DA is free ofR_LOS alarms.
Table C-13 Status explanation for indicators on the SP3S/SP3D
Indicator State Meaning
STAT On (green) The board is workingproperly.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
862
Indicator State Meaning
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
Off The services are notconfigured.
Table C-14 Status explanation for indicators on the ML1/MD1
Indicator State Meaning
STAT On (green) The board is workingproperly.
On (red) The board hardware is faulty.
Off l The board is not working.l The board is not created.l There is no power
supplied to the board.
SRV On (green) The services are normal.
On (red) A critical or major alarmoccurs in the services.
On (yellow) A minor or remote alarmoccurs in the services.
Off The services are notconfigured.
Table C-15 Status explanation for indicators on the AUX
Indicator State Meaning
STAT On (green) The board is working properly.
On (red) The board hardware is faulty.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
863
Indicator State Meaning
Off l The board is not working.l The board is not created.l There is no power supplied to the
board.
SRV On (green) The system is working properly.
On (red) A critical or major alarm occurs in thesystem.
On (yellow) A minor or remote alarm occurs in thesystem.
Off There is no power supplied to the system.
Table C-16 Status explanation for indicators on the PIU
Indicator Status Description
PWR On (green) The power supply is connected.
Off There is no power supplied to the PIU or the powersupply is connected incorrectly.
Table C-17 Status explanation for indicators on the FAN
Indicator State Meaning
FAN On (green) The fan is working properly.
On (red) The fan is faulty.
Off The fan is not powered on or is not installed.
NOTE
The CRIT, MAJ, or MIN indicator on the front panel of the FAN indicates the current alarm severity of thesubrack.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description C Indicators of Boards
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
864
D Weight and Power Consumption of EachBoard
Weight and Power Consumption of Each Board
Table D-1 Weight and power consumption of each board
Board Weight (kg) Power Consumption (W)
CST 0.72 kg < 20.7 W
CSH 0.74 kg < 25.3 W
IF1 0.72 kg < 12.0 W
IFU2 0.79 kg < 23.0 W
IFX2 0.80 kg < 33.0 W
ISU2 0.60 kg < 22.0 W
ISX2 0.60 kg < 23.0 W
EM6T 0.37 kg < 10.4 W
EM6TA 0.40 kg < 16.2 W
EM6F 0.40 kg < 11.3 W
EM6FA 0.40 kg < 15.4 W
EMS6 0.50 kg < 16.5 W
EFP8 0.60 kg < 13.5 W
SL1D 0.30 kg < 3.4 W
SL1DA 0.30 kg < 3.3 W
ML1 0.45 kg < 7.0 W
MD1 0.50 kg < 12.2 W
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description D Weight and Power Consumption of Each Board
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
865
Board Weight (kg) Power Consumption (W)
SP3S 0.50 kg(VER.B)0.40 kg(VER.C)
< 5.7 W(VER.B)< 4.8 W(VER.C)
SP3D 0.64 kg(VER.B)0.54 kg(VER.C)
< 9.6 W(VER.B)< 8.3 W(VER.C)
AUX 0.27 kg < 1.3 W
PIU 0.12 kg < 0.5 W
FAN 0.30 kg < 4.1 W (room temperature)< 29.6 W (high temperature)
TCU6 0.27 kg -
Empty chassis(with only thebackplane)
2.80 kg -
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description D Weight and Power Consumption of Each Board
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
866
E Glossary
Terms are listed in an alphabetical order.
E.1 0-9This section provides the terms starting with numbers.
E.2 A-EThis section provides the terms starting with letters A to E.
E.3 F-JThis section provides the terms starting with letters F to J.
E.4 K-OThis section provides the terms starting with letters K to O.
E.5 P-TThis section provides the terms starting with letters P to T.
E.6 U-ZThis section provides the terms starting with letters U to Z.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
867
E.1 0-9This section provides the terms starting with numbers.
1U The standard electronics industries association (EIA) rack unit (44 mm/1.75 in.)
E.2 A-EThis section provides the terms starting with letters A to E.
A
ABR See available bit rate
ACAP See adjacent channel alternate polarization
access control list A list of entities, together with their access rights, which are authorized to have accessto a resource.
ACL See access control list
adaptive modulation A technology that is used to automatically adjust the modulation scheme according tothe channel quality. When the channel quality is favorable, the equipment adopts a high-efficiency modulation scheme to improve the transmission efficiency and the spectrumutilization of the system. When the channel quality is degraded, the equipment adoptsthe low-efficiency modulation scheme to improve the anti-interference capability of thelink that carries high-priority services.
ADC See analog to digital converter
add/drop multiplexer Network elements that provide access to all or some subset of the constituent signalscontained within an STM-N signal. The constituent signals are added to (inserted), and/or dropped from (extracted) the STM-N signal as it passed through the ADM.
Address ResolutionProtocol
Address Resolution Protocol (ARP) is an Internet Protocol used to map IP addresses toMAC addresses. It allows hosts and routers to determine the link layer addresses throughARP requests and ARP responses. The address resolution is a process in which the hostconverts the target IP address into a target MAC address before transmitting a frame.The basic function of the ARP is to query the MAC address of the target equipmentthrough its IP address.
adjacent channelalternate polarization
A channel configuration method, which uses two adjacent channels (a horizontalpolarization wave and a vertical polarization wave) to transmit two signals.
ADM See add/drop multiplexer
administrative unit The information structure which provides adaptation between the higher order path layerand the multiplex section layer. It consists of an information payload (the higher orderVC) and an AU pointer which indicates the offset of the payload frame start relative tothe multiplex section frame start.
AF See assured forwarding
aggregation A collection of objects that makes a whole. An aggregation can be a concrete orconceptual set of whole-part relationships among objects.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
868
AIS See alarm indication signal
alarm automatic report When an alarm is generated on the device side, the alarm is reported to the NetworkManagement System (NMS). Then, an alarm panel prompts and the user can view thedetails of the alarm.
alarm cascading The shunt-wound output of the alarm signals of several subracks or cabinets.
Alarm Filtering An NE reports the detected alarm to the element management system (EMS). Based onthe filter state of the alarm, the EMS determines whether to display or save the alarminformation. If the filter state of an alarm is set to Filter, the alarm is not displayed orstored on the EMS. The alarm, however, is still monitored by the NE.
alarm indication signal A code sent downstream in a digital network as an indication that an upstream failurehas been detected and alarmed. It is associated with multiple transport layers.
alarm suppression A function used not to monitor alarms for a specific object, which may be thenetworkwide equipment, a specific NE, a specific board and even a specific functionmodule of a specific board.
AM See adaptive modulation
analog to digitalconverter
An electronic circuit that converts continuous signals to discrete digital numbers. Thereverse operation is performed by a digital-to-analog converter (DAC).
APS See automatic protection switching
ARP See Address Resolution Protocol
assured forwarding One of the four per-hop behaviors (PHB) defined by the Diff-Serv workgroup of IETF.It is suitable for certain key data services that require assured bandwidth and short delay.For traffic within the bandwidth limit, AF assures quality in forwarding. For traffic thatexceeds the bandwidth limit, AF degrades the service class and continues to forward thetraffic instead of discarding the packets.
AsynchronousTransfer Mode
A protocol for the transmission of a variety of digital signals using uniform 53 byte cells.A transfer mode in which the information is organized into cells; it is asynchronous inthe sense that the recurrence of cells depends on the required or instantaneous bit rate.Statistical and deterministic values may also be used to qualify the transfer mode.
ATM See Asynchronous Transfer Mode
ATM PVC ATM permanent virtual circuit
ATPC See automatic transmit power control
attenuator A device used to increase the attenuation of an Optical Fiber Link. Generally used toensure that the signal at the receive end is not too strong.
AU See administrative unit
automatic protectionswitching
Capability of a transmission system to detect a failure on a working facility and to switchto a standby facility to recover the traffic.
automatic transmitpower control
A method of adjusting the transmit power based on fading of the transmit signal detectedat the receiver
available bit rate A kind of service categories defined by the ATM forum. ABR only provides possibleforwarding service and applies to the connections that does not require the real-timequality. It does not provide any guarantee in terms of cell loss or delay.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
869
B
backward defectindication
When detecting a defect, the sink node of an LSP uses backward defect indication (BDI)to inform the upstream end of the LSP of a downstream defect along the return path.
bandwidth A range of transmission frequencies that a transmission line or channel can carry in anetwork. In fact, it is the difference between the highest and lowest frequencies thetransmission line or channel. The greater the bandwidth, the faster the data transfer rate.
base station controller A logical entity that connects the BTS with the MSC in a GSM network. It interworkswith the BTS through the Abis interface, the MSC through the A interface. It providesthe following functions: radio resource management, base station management, powercontrol, handover control, and traffic measurement. One BSC controls and manages oneor more BTSs in an actual network.
base transceiver station A Base Transceiver Station terminates the radio interface. It allows transmission of trafficand signaling across the air interface. The BTS includes the baseband processing, radioequipment, and the antenna.
basic input/outputsystem
A firmware stored in the computer mainboard. It contains basic input/output controlprograms, power-on self test (POST) programs, bootstraps, and system settinginformation. The BIOS provides hardware setting and control functions for the computer.
BDI See backward defect indication
BE See best effort
BER See bit error rate
best effort A traditional IP packet transport service. In this service, the diagrams are forwardedfollowing the sequence of the time they reach. All diagrams share the bandwidth of thenetwork and routers. The amount of resource that a diagram can use depends of the timeit reaches. BE service does not ensure any improvement in delay time, jitter, packet lossratio, and high reliability.
binding strap The binding strap is 12.7 mm wide, with one hook side (made of transparentpolypropylene material) and one mat side (made of black nylon material).
BIOS See basic input/output system
BIP See bit interleaved parity
bit error An incompatibility between a bit in a transmitted digital signal and the correspondingbit in the received digital signal.
bit error rate Ratio of received bits that contain errors. BER is an important index used to measure thecommunications quality of a network.
bit interleaved parity A method of error monitoring. With even parity an X-bit code is generated by thetransmitting equipment over a specified portion of the signal in such a manner that thefirst bit of the code provides even parity over the first bit of all X-bit sequences in thecovered portion of the signal, the second bit provides even parity over the second bit ofall X-bit sequences within the specified portion, etc. Even parity is generated by settingthe BIP-X bits so that there is an even number of 1s in each monitored partition of thesignal. A monitored partition comprises all bits which are in the same bit position withinthe X-bit sequences in the covered portion of the signal. The covered portion includesthe BIP-X.
BPDU See bridge protocol data unit
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
870
bridge protocol dataunit
The data messages that are exchanged across the switches within an extended LAN thatuses a spanning tree protocol (STP) topology. BPDU packets contain information onports, addresses, priorities and costs and ensure that the data ends up where it wasintended to go. BPDU messages are exchanged across bridges to detect loops in anetwork topology. The loops are then removed by shutting down selected bridgesinterfaces and placing redundant switch ports in a backup, or blocked, state.
broadcast A means of delivering information to all members in a network. The broadcast range isdetermined by the broadcast address.
BSC See base station controller
BTS See base transceiver station
buffer A storage area used for handling data in transit. Buffers are used in inter-networking tocompensate for differences in processing speed between network devices. Bursts of datacan be stored in buffers until they can be handled by slower processing devices. In aprogram, buffers are created to hold some amount of data from each of the files that willbe read or written. In a streaming media application, the program uses buffers to storean advance supply of audio or video data to compensate for momentary delays.
C
cable tie The tape used to bind the cables.
cable tray N/A
cable trough N/A
CAR See committed access rate
CBR See constant bit rate
CBS See committed burst size
CC See connectivity check
CCC See circuit cross connect
CCDP See co-channel dual polarization
CCM See continuity check message
CE See customer edge
central processing unit The computational and control unit of a computer. The CPU is the device that interpretsand executes instructions. The CPU has the ability to fetch, decode, and executeinstructions and to transfer information to and from other resources over the computer'smain data-transfer path, the bus.
CES See circuit emulation service
CF See compact flash
CGMP See Cisco Group Management Protocol
channel A telecommunication path of a specific capacity and/or at a specific speed between twoor more locations in a network. The channel can be established through wire, radio(microwave), fiber or a combination of the three. The amount of information transmittedper second in a channel is the information transmission speed, expressed in bits persecond. For example, b/s (100 bit/s), kb/s (103 bit/s), Mb/s (106 bit/s), Gb/s (109 bit/s),and Tb/s (1012 bit/s).
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
871
CIR See committed information rate
circuit cross connect An implementation of MPLS L2VPN through the static configuration of labels.
circuit emulationservice
A function with which the E1/T1 data can be transmitted through ATM networks. At thetransmission end, the interface module packs timeslot data into ATM cells. These ATMcells are sent to the reception end through the ATM network. At the reception end, theinterface module re-assigns the data in these ATM cells to E1/T1 timeslots. The CEStechnology guarantees that the data in E1/T1 timeslots can be recovered to the originalsequence at the reception end.
Cisco GroupManagement Protocol
N/A
CIST See common and internal spanning tree
CIST root A switch of the highest priority is elected as the root in an MSTP network.
clock tracing The method to keep the time on each node being synchronized with a clock source in anetwork.
co-channel dualpolarization
A channel configuration method, which uses a horizontal polarization wave and a verticalpolarization wave to transmit two signals. The Co-Channel Dual Polarization is twicethe transmission capacity of the single polarization.
coarse wavelengthdivision multiplexing
A signal transmission technology that multiplexes widely-spaced optical channels intothe same fiber. CWDM widely spaces wavelengths at a spacing of several nm. CWDMdoes not support optical amplifiers and is applied in a short-distance chain network.
colored packet A packet whose priority is determined by defined colors.
committed access rate A traffic control method that uses a set of rate limits to be applied to a router interface.CAR is a configurable method by which incoming and outgoing packets can be classifiedinto QoS (Quality of Service) groups, and by which the input or output transmission ratecan be defined.
committed burst size committed burst size. A parameter used to define the capacity of token bucket C, that is,the maximum burst IP packet size when the information is transferred at the committedinformation rate. This parameter must be larger than 0. It is recommended that thisparameter should be not less than the maximum length of the IP packet that might beforwarded.
committed informationrate
The rate at which a frame relay network agrees to transfer information in normalconditions. Namely, it is the rate, measured in bit/s, at which the token is transferred tothe leaky bucket.
common and internalspanning tree
The single spanning tree calculated by STP and RSTP together with the logicalcontinuation of that connectivity by using MST Bridges and regions, calculated by MSTPto ensure that all LANs in the bridged local area network are simply and fully connected.
compact flash Compact flash (CF) was originally developed as a type of data storage device used inportable electronic devices. For storage, CompactFlash typically uses flash memory ina standardized enclosure.
concatenation A process that combines multiple virtual containers. The combined capacities can beused a single capacity. The concatenation also keeps the integrity of bit sequence.
connectivity check Ethernet CFM can detect the connectivity between MEPs. The detection is achieved byeach MEP transmitting a Continuity Check Message (CCM) periodically.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
872
constant bit rate A kind of service categories defined by the ATM forum. CBR transfers cells based onthe constant bandwidth. It is applicable to service connections that depend on preciseclocking to ensure undistorted transmission.
continuity checkmessage
CCM is used to detect the link status.
corrugated pipe Used to protect optical fibers.
CPU See central processing unit
CRC See cyclic redundancy check
cross polarizationinterferencecancellation
A technology used in the case of the Co-Channel Dual Polarization (CCDP) to eliminatethe cross-connect interference between two polarization waves in the CCDP.
customer edge A part of BGP/MPLS IP VPN model. It provides interfaces for direct connection to theService Provider (SP) network. A CE can be a router, switch, or host.
CWDM See coarse wavelength division multiplexing
cyclic redundancycheck
A procedure used in checking for errors in data transmission. CRC error checking usesa complex calculation to generate a number based on the data transmitted. The sendingdevice performs the calculation before transmission and includes it in the packet that itsends to the receiving device. The receiving device repeats the same calculation aftertransmission. If both devices obtain the same result, it is assumed that the transmissionwas error free. The procedure is known as a redundancy check because each transmissionincludes not only data but extra (redundant) error-checking values.
D
data communicationnetwork
A communication network used in a TMN or between TMNs to support the DataCommunication Function (DCF).
data communicationschannel
The data channel that uses the D1-D12 bytes in the overhead of an STM-N signal totransmit information on operation, management, maintenance and provision (OAM&P)between NEs. The DCC channels that are composed of bytes D1-D3 is referred to as the192 kbit/s DCC-R channel. The other DCC channel that are composed of bytes D4-D12is referred to as the 576 kbit/s DCC-M channel.
Datagram A kind of PDU which is used in Connectionless Network Protocol, such as IP datagram,UDP datagram.
DC See direct current
DC-C See DC-return common (with ground)
DC-C DC-return common (with ground)
DC-C See DC-return common (with ground)
DC-I See DC-return isolate (with ground)
DC-return common(with ground)
A power system, in which the BGND of the DC return conductor is short-circuited withthe PGND on the output side of the power supply cabinet and also on the line betweenthe output of the power supply cabinet and the electric equipment.
DC-return common(with ground)
A power system, in which the BGND of the DC return conductor is short-circuited withthe PGND on the output side of the power supply cabinet and also on the line betweenthe output of the power supply cabinet and the electric equipment.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
873
DC-return isolate (withground)
A power system, in which the BGND of the DC return conductor is short-circuited withthe PGND on the output side of the power supply cabinet and is isolated from the PGNDon the line between the output of the power supply cabinet and the electric equipment.
DCC See data communications channel
DCN See data communication network
DDF See digital distribution frame
DDN See digital data network
DE See discard eligible
differentiated services A service architecture that provides the end-to-end QoS function. It consists of a seriesof functional units implemented at the network nodes, including a small group of per-hop forwarding behaviors, packet classification functions, and traffic conditioningfunctions such as metering, marking, shaping and policing.
differentiated servicescode point
A marker in the header of each IP packet that prompts network routers to applydifferentiated grades of service to various packet streams. It is specified by the DiffServpolicy proposed by the IETF (Internet Engineering Task Force). This allows Internet andother IP-based network service providers to offer different levels of service to customers.
DiffServ See differentiated services
digital data network A high-quality data transport tunnel that combines the digital channel (such as fiberchannel, digital microwave channel, or satellite channel) and the cross multiplextechnology.
digital distributionframe
A type of equipment used between the transmission equipment and the exchange withtransmission rate of 2 to 155 Mbit/s to provide the functions such as cables connection,cable patching, and test of loops that transmitting digital signals.
digital modulation A digital modulation controls the changes in amplitude, phase, and frequency of thecarrier based on the changes in the baseband digital signal. In this manner, theinformation can be transmitted by the carrier.
direct current Electrical current whose direction of flow does not reverse. The current may stop orchange amplitude, but it always flows in the same direction.
discard eligible A bit in the frame relay header. It indicates the priority of a packet. If a node supportsthe FR QoS, the rate of the accessed FR packets is controlled. When the packet trafficexceeds the specified traffic, the DE value of the redundant packets is set to 1. In thecase of network congestion, the packets with DE value as 1 are discarded at the node.
Distance VectorMulticast RoutingProtocol
An Internet gateway protocol mainly based on the RIP. The protocol implements a typicaldense mode IP multicast solution. The DVMRP protocol uses IGMP to exchange routingdatagrams with its neighbors.
DS boundary node A DS node that connects one DS domain to a node either in another DS domain or in adomain that is not DS-capable.
DS domain In the DifferServ mechanism, the DS domain is a domain consisting of a group ofnetwork nodes that share the same service provisioning policy and same PHB. It providespoint-to-point QoS guarantees for services transmitted over this domain.
DS interior node A DS node located at the center of a DS domain. It is a non-DS boundary node.
DS node A DS-compliant node, which is subdivided into DS boundary node and ID interior node.
DSCP See differentiated services code point
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
874
dual-polarized antenna An antenna intended to radiate or receive simultaneously two independent radio wavesorthogonally polarized.
DVMRP See Distance Vector Multicast Routing Protocol
E
E-Aggr See Ethernet aggregation
E-LAN See Ethernet LAN
E-Line See Ethernet line
E-Tree See Ethernet-tree
EBS See excess burst size
ECC See embedded control channel
EF See expedited forwarding
electromagneticcompatibility
Electromagnetic compatibility is the condition which prevails when telecommunicationsequipment is performing its individually designed function in a common electromagneticenvironment without causing or suffering unacceptable degradation due to unintentionalelectromagnetic interference to or from other equipment in the same environment.
electromagneticinterference
Any electromagnetic disturbance that interrupts, obstructs, or otherwise degrades orlimits the effective performance of electronics/electrical equipment.
electrostatic discharge The sudden and momentary electric current that flows between two objects at differentelectrical potentials caused by direct contact or induced by an electrostatic field.
embedded controlchannel
A logical channel that uses a data communications channel (DCC) as its physical layer,to enable transmission of operation, administration, and maintenance (OAM)information between NEs.
EMC See electromagnetic compatibility
EMI See electromagnetic interference
Engineering label A mark on a cable, a subrack, or a cabinet for identification.
EPL See Ethernet private line
EPLAN See Ethernet private LAN service
equalization A method of avoiding selective fading of frequencies. Equalization can compensate forthe changes of amplitude frequency caused by frequency selective fading.
ERPS See Ethernet ring protection switching
ESD See electrostatic discharge
ESD jack Electrostatic discharge jack. A hole in the cabinet or shelf, which connect the shelf orcabinet to the insertion of ESD wrist strap.
Ethernet A technology complemented in LAN. It adopts Carrier Sense Multiple Access/CollisionDetection. The speed of an Ethernet interface can be 10 Mbit/s, 100 Mbit/s, 1000 Mbit/s or 10000 Mbit/s. The Ethernet network features high reliability and easy maintaining.
Ethernet A technology complemented in LAN. It adopts Carrier Sense Multiple Access/CollisionDetection. The speed of an Ethernet interface can be 10 Mbit/s, 100 Mbit/s, 1000 Mbit/s or 10000 Mbit/s. The Ethernet network features high reliability and easy maintaining.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
875
Ethernet aggregation A type of Ethernet service that is based on a multipoint-to-point EVC (Ethernet virtualconnection).
Ethernet LAN A type of Ethernet service that is based on a multipoint-to-multipoint EVC (Ethernetvirtual connection).
Ethernet line A type of Ethernet service that is based on a point-to-point EVC (Ethernet virtualconnection).
Ethernet private LANservice
An Ethernet service type, which carries Ethernet characteristic information over adedicated bridge, point-to-multipoint connections, provided by SDH, PDH, ATM, orMPLS server layer networks.
Ethernet private line A type of Ethernet service that is provided with dedicated bandwidth and point-to-pointconnections on an SDH, PDH, ATM, or MPLS server layer network.
Ethernet ringprotection switching
protection switching mechanisms for ETH layer Ethernet ring topologies.
Ethernet virtualprivate LAN service
An Ethernet service type, which carries Ethernet characteristic information over a sharedbridge, point-to-multipoint connections, provided by SDH, PDH, ATM, or MPLS serverlayer networks.
Ethernet virtualprivate line
An Ethernet service type, which carries Ethernet characteristic information over sharedbandwidth, point-to-point connections, provided by SDH, PDH, ATM, or MPLS serverlayer networks.
Ethernet-tree An Ethernet service type that is based on a Point-to-multipoint Ethernet VirtualConnection.
ETS European Telecommunication Standards
ETSI See European Telecommunications Standards Institute
EuropeanTelecommunicationsStandards Institute
A standards-setting body in Europe. Also the standards body responsible for GSM.
EVPL See Ethernet virtual private line
EVPLAN See Ethernet virtual private LAN service
excess burst size A parameter related to traffic. In the single rate three color marker (srTCM) mode, thetraffic control is achieved by the token buckets C and E. Excess burst size is a parameterused to define the capacity of token bucket E, that is, the maximum burst IP packet sizewhen the information is transferred at the committed information rate. This parametermust be larger than 0. It is recommended that this parameter should be not less than themaximum length of the IP packet that might be forwarded.
Exercise Switching An operation to check if the protection switching protocol functions normally. Theprotection switching is not really performed.
expansion Connecting a storage system to more disk enclosures through connection cables,expanding the capacity of the storage system.
expedited forwarding The highest order QoS in the Diff-Serv network. EF PHB is suitable for services thatdemand low packet loss ratio, short delay, and broad bandwidth. In all the cases, EFtraffic can guarantee a transmission rate equal to or faster than the set rate. The DSCPvalue of EF PHB is "101110".
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
876
E.3 F-JThis section provides the terms starting with letters F to J.
F
failure If the fault persists long enough to consider the ability of an item with a required functionto be terminated. The item may be considered as having failed; a fault has now beendetected.
fast Ethernet Any network that supports transmission rate of 100Mbits/s. The Fast Ethernet is 10 timesfaster than 10BaseT, and inherits frame format, MAC addressing scheme, MTU, and soon. Fast Ethernet is extended from the IEEE802.3 standard, and it uses the followingthree types of transmission media: 100BASE-T4 (4 pairs of phone twisted-pair cables),100BASE-TX (2 pairs of data twisted-pair cables), and 100BASE-FX (2-core opticalfibers).
fast link pulse The link pulse that is used to encode information during automatic negotiation.
FD See frequency diversity
FDI See forward defect indication
FE See fast Ethernet
FEC See forward error correction
FFD fast failure detection
fiber patch cord A kind of fiber used for connections between the subrack and the ODF, and forconnections between subracks or inside a subrack.
field programmablegate array
A type of semi-customized circuit used in the Application Specific Integrated Circuit(ASIC) field. It is developed on the basis of the programmable components, such as thePAL, GAL, and EPLD. It not only remedies the defects of customized circuits, but alsoovercomes the disadvantage of the original programmable components in terms of thelimited number of gate arrays.
FIFO See First in First out
File Transfer Protocol A member of the TCP/IP suite of protocols, used to copy files between two computerson the Internet. Both computers must support their respective FTP roles: one must be anFTP client and the other an FTP server.
First in First out A stack management mechanism. The first saved data is first read and invoked.
Forced switch For normal traffic signals, switches normal traffic signal to the protection section, unlessan equal or higher priority switch command is in effect or SF condition exists on theprotection section, by issuing a forced switch request for that traffic signal.
forward defectindication
Forward defect indication (FDI) is generated and traced forward to the sink node of theLSP by the node that first detects defects. It includes fields to indicate the nature of thedefect and its location. Its primary purpose is to suppress alarms being raised at affectedhigher level client LSPs and (in turn) their client layers.
forward errorcorrection
A bit error correction technology that adds the correction information to the payload atthe transmit end. Based on the correction information, the bit errors generated duringtransmission are corrected at the receive end.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
877
Forwarding plane Also referred to as the data plane. The forwarding plane is connection-oriented, and canbe used in Layer 2 networks such as an ATM network.
FPGA See field programmable gate array
fragment Piece of a larger packet that has been broken down to smaller units.
Fragmentation Process of breaking a packet into smaller units when transmitting over a network mediumthat cannot support the original size of the packet.
frame A frame, starting with a header, is a string of bytes with a specified length. Frame lengthis represented by the sampling circle or the total number of bytes sampled during a circle.A header comprises one or a number of bytes with pre-specified values. In other words,a header is a code segment that reflects the distribution (diagram) of the elements pre-specified by the sending and receiving parties.
frequency diversity A diversity scheme that enables two or more microwave frequencies with a certainfrequency interval are used to transmit/receive the same signal and selection is thenperformed between the two signals to ease the impact of fading.
FTP See File Transfer Protocol
full-duplex A full-duplex, or sometimes double-duplex system, allows communication in bothdirections, and, unlike half-duplex, allows this to happen simultaneously. Land-linetelephone networks are full-duplex, since they allow both callers to speak and be heardat the same time. A good analogy for a full-duplex system would be a two-lane road withone lane for each direction.
G
gateway networkelement
A network element that is used for communication between the NE application layer andthe NM application layer
GE See gigabit Ethernet
generic framingprocedure
A framing and encapsulated method which can be applied to any data type. It has beenstandardized by ITU-T SG15.
generic traffic shaping A traffic control measure that initiatively adjusts the output speed of the traffic. This isto adapt the traffic to network resources that can be provided by the downstream routerto avoid packet discarding and congestion.
GFP See generic framing procedure
gigabit Ethernet GE adopts the IEEE 802.3z. GE is compatible with 10 Mbit/s and 100 Mbit/s Ethernet.It runs at 1000 Mbit/s. Gigabit Ethernet uses a private medium, and it does not supportcoaxial cables or other cables. It also supports the channels in the bandwidth mode. IfGigabit Ethernet is, however, deployed to be the private bandwidth system with a bridge(switch) or a router as the center, it gives full play to the performance and the bandwidth.In the network structure, Gigabit Ethernet uses full duplex links that are private, causingthe length of the links to be sufficient for backbone applications in a building and campus.
Global PositioningSystem
A global navigation satellite system. It provides reliable positioning, navigation, andtiming services to worldwide users.
GNE See gateway network element
GPS See Global Positioning System
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
878
graphical user interface A visual computer environment that represents programs, files, and options withgraphical images, such as icons, menus, and dialog boxes, on the screen.
GTS See generic traffic shaping
GUI See graphical user interface
guide rail Components to guide, position, and support plug-in boards.
H
HA See high availability
half-duplex A transmitting mode in which a half-duplex system provides for communication in bothdirections, but only one direction at a time (not simultaneously). Typically, once a partybegins receiving a signal, it must wait for the transmitter to stop transmitting, beforereplying.
HDLC See high level data link control
hierarchical quality ofservice
A type of QoS that can control the traffic of users, and perform the scheduling accordingto the priority of user services. HQoS has a perfect traffic statistics function, and theadministrator can monitor the usage of bandwidth of each service. Hence, the bandwidthcan be allocated reasonably through traffic analysis.
high availability Typically, a scheme in which two modules operate in active/standby mode to achievehigh availability. When the active module fails, the standby module automatically takesover the system functions of the active module.
high level data linkcontrol
The HDLC protocol is a general purpose protocol which operates at the data link layerof the OSI reference model. Each piece of data is encapsulated in an HDLC frame byadding a trailer and a header.
High Speed DownlinkPacket Access
A modulating-demodulating algorithm put forward in 3GPP R5 to meet the requirementfor asymmetric uplink and downlink transmission of data services. It enables themaximum downlink data service rate to reach 14.4 Mbit/s without changing theWCDMA network topology.
higher order path In an SDH network, the higher order path layers provide a server network from the lowerorder path layers.
Hold priority The priority of the tunnel with respect to holding resources, ranging from 0 (indicatesthe highest priority) to 7. It is used to determine whether the resources occupied by thetunnel can be preempted by other tunnels.
hop A network connection between two distant nodes. For Internet operation a hop representsa small step on the route from one main computer to another.
hot standby A mechanism of ensuring device running security. The environment variables andstorage information of each running device are synchronized to the standby device. Whenthe faults occur on the running device, the standby device can take over the services inthe faulty device in automatic or manual way to ensure the normal running of the entiresystem.
HP See higher order path
HQoS See hierarchical quality of service
HSB See hot standby
HSDPA See High Speed Downlink Packet Access
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
879
HSM hitless switch mode
HTB high tributary bus
hybrid radio The hybrid transmission of Native E1 and Native Ethernet signals. Hybrid radio supportsthe AM function.
I
ICMP See Internet Control Message Protocol
IDU See indoor unit
IEC See International Electrotechnical Commission
IEEE See Institute of Electrical and Electronics Engineers
IETF See Internet Engineering Task Force
IF See intermediate frequency
IGMP See Internet Group Management Protocol
IGMP snooping A multicast constraint mechanism running on a layer 2 device. This protocol managesand controls the multicast group by listening to and analyze the Internet GroupManagement Protocol (IGMP) packet between hosts and layer 3 devices. In this manner,the spread of the multicast data on layer 2 network can be prevented efficiently.
IMA See inverse multiplexing over ATM
indoor unit The indoor unit of the split-structured radio equipment. It implements accessing,multiplexing/demultiplexing, and IF processing for services.
Inloop A method of looping the signals from the cross-connect unit back to the cross-connectunit.
Institute of Electricaland ElectronicsEngineers
A society of engineering and electronics professionals based in the United States butboasting membership from numerous other countries. The IEEE focuses on electrical,electronics, computer engineering, and science-related matters.
intermediate frequency The transitional frequency between the frequencies of a modulated signal and an RFsignal.
Intermediate System The basic unit in the IS-IS protocol used to transmit routing information and generateroutes.
Intermediate System toIntermediate Systemrouting protocol
A protocol used by network devices (routers) to determine the best way to forwarddatagrams or packets through a packet-based network, a process called routing.
internal spanning tree A segment of CIST in a certain MST region. An IST is a special MSTI whose ID is 0.
InternationalElectrotechnicalCommission
The International Electrotechnical Commission (IEC) is an international and non-governmental standards organization dealing with electrical and electronic standards.
InternationalOrganization forStandardization
An international association that works to establish global standards for communicationsand information exchange. Primary among its accomplishments is the widely acceptedISO/OSI reference model, which defines standards for the interaction of computersconnected by communications networks.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
880
InternationalTelecommunicationUnion-TelecommunicationStandardization Sector
An international body that develops worldwide standards for telecommunicationstechnologies. These standards are grouped together in series which are prefixed with aletter indicating the general subject and a number specifying the particular standard. Forexample, X.25 comes from the "X" series which deals with data networks and opensystem communications and number "25" deals with packet switched networks.
Internet ControlMessage Protocol
A network-layer (ISO/OSI level 3) Internet protocol that provides error correction andother information relevant to IP packet processing. For example, it can let the IP softwareon one machine inform another machine about an unreachable destination. See alsocommunications protocol, IP, ISO/OSI reference model, packet (definition 1).
Internet EngineeringTask Force
A worldwide organization of individuals interested in networking and the Internet.Managed by the Internet Engineering Steering Group (IESG), the IETF is charged withstudying technical problems facing the Internet and proposing solutions to the InternetArchitecture Board (IAB). The work of the IETF is carried out by various working groupsthat concentrate on specific topics, such as routing and security. The IETF is the publisherof the specifications that led to the TCP/IP protocol standard.
Internet GroupManagement Protocol
The protocol for managing the membership of Internet Protocol multicast groups amongthe TCP/IP protocols. It is used by IP hosts and adjacent multicast routers to establishand maintain multicast group memberships.
Internet Protocol The TCP/IP standard protocol that defines the IP packet as the unit of information sentacross an internet and provides the basis for connectionless, best-effort packet deliveryservice. IP includes the ICMP control and error message protocol as an integral part. Theentire protocol suite is often referred to as TCP/IP because TCP and IP are the twofundamental protocols. IP is standardized in RFC 791.
Internet protocolversion 6
A update version of IPv4. It is also called IP Next Generation (IPng). The specificationsand standardizations provided by it are consistent with the Internet Engineering TaskForce (IETF). IPv6 is also called. It is a new version of the Internet Protocol, designedas the successor to IPv4. The difference between IPv6 and IPv4 is that an IPv4 addresshas 32 bits while an IPv6 address has 128 bits.
Internet protocolversion 6
A update version of IPv4. It is also called IP Next Generation (IPng). The specificationsand standardizations provided by it are consistent with the Internet Engineering TaskForce (IETF). IPv6 is also called. It is a new version of the Internet Protocol, designedas the successor to IPv4. The difference between IPv6 and IPv4 is that an IPv4 addresshas 32 bits while an IPv6 address has 128 bits.
inverse multiplexingover ATM
The ATM inverse multiplexing technique involves inverse multiplexing and de-multiplexing of ATM cells in a cyclical fashion among links grouped to form a higherbandwidth logical link whose rate is approximately the sum of the link rates. This isreferred to as an IMA group.
IP See Internet Protocol
IPV6 See Internet protocol version 6
IPv6 See Internet protocol version 6
IS-IS See Intermediate System to Intermediate System routing protocol
ISO See International Organization for Standardization
IST See internal spanning tree
ITU-T See International Telecommunication Union-Telecommunication StandardizationSector
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
881
J
Jitter Short waveform variations caused by vibration, voltage fluctuations, and control systeminstability.
E.4 K-OThis section provides the terms starting with letters K to O.
L
L2VPN See Layer 2 virtual private network
label switched path A sequence of hops (R0...Rn) in which a packet travels from R0 to Rn through labelswitching mechanisms. A label-switched path can be chosen dynamically, based onnormal routing mechanisms, or through configuration.
label switching router Basic element of MPLS network. All LSRs support the MPLS protocol. The LSR iscomposed of two parts: control unit and forwarding unit. The former is responsible forallocating the label, selecting the route, creating the label forwarding table, creating andremoving the label switch path; the latter forwards the labels according to groupsreceived in the label forwarding table.
LACP See Link Aggregation Control Protocol
LAG See link aggregation group
LAN See local area network
LAN See local area network
LAPS link access protocol-SDH
Laser A component that generates directional optical waves of narrow wavelengths. The laserlight has better coherence than ordinary light. The fiber system takes the semi-conductorlaser as the light source.
layer 2 switch A data forwarding method. In LAN, a network bridge or 802.3 Ethernet switch transmitsand distributes packet data based on the MAC address. Since the MAC address is thesecond layer of the OSI model, this data forwarding method is called layer 2 switch.
Layer 2 virtual privatenetwork
A virtual private network achieved by Layer 2 switching technologies in the packetswitched (IP/MPLS) network.
LB See loopback
LCAS See link capacity adjustment scheme
LCT local craft terminal
line rate The maximum packet forwarding capacity on a cable. The value of line rate equals themaximum transmission rate capable on a given type of media.
line rate forwarding The line rate equals the maximum transmission rate capable on a given type of media.
Link AggregationControl Protocol
A method of bundling a group of physical interfaces together as a logical interface toincrease bandwidth and reliability. For related protocols and standards, refer to IEEE802.3ad.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
882
link aggregation group An aggregation that allows one or more links to be aggregated together to form a linkaggregation group so that a MAC client can treat the link aggregation group as if it werea single link.
link capacityadjustment scheme
LCAS in the virtual concatenation source and sink adaptation functions provides acontrol mechanism to hitlessly increase or decrease the capacity of a link to meet thebandwidth needs of the application. It also provides a means of removing member linksthat have experienced failure. The LCAS assumes that in cases of capacity initiation,increases or decreases, the construction or destruction of the end-to-end path is theresponsibility of the Network and Element Management Systems.
Link Protection Protection provided by the bypass tunnel for the link on the working tunnel. The link isa downstream link adjacent to the PLR. When the PLR fails to provide node protection,the link protection should be provided.
LMSP linear multiplex section protection
local area network A network formed by the computers and workstations within the coverage of a few squarekilometers or within a single building. It features high speed and low error rate. Ethernet,FDDI, and Token Ring are three technologies used to implement a LAN. Current LANsare generally based on switched Ethernet or Wi-Fi technology and running at 1,000 Mbit/s (that is, 1 Gbit/s).
local area network A network formed by the computers and workstations within the coverage of a few squarekilometers or within a single building. It features high speed and low error rate. Ethernet,FDDI, and Token Ring are three technologies used to implement a LAN. Current LANsare generally based on switched Ethernet or Wi-Fi technology and running at 1,000 Mbit/s (that is, 1 Gbit/s).
Locked switching When the switching condition is satisfied, this function disables the service from beingswitched from the working channel to the protection channel. When the service has beenswitched, the function enables the service to be restored from the protection channel tothe working channel.
LOF See Loss Of Frame
LOM loss of multiframe
loopback A troubleshooting technique that returns a transmitted signal to its source so that thesignal or message can be analyzed for errors.
LOP See loss of pointer
LOS See Loss Of Signal
Loss Of Frame A condition at the receiver or a maintenance signal transmitted in the PHY overheadindicating that the receiving equipment has lost frame delineation. This is used to monitorthe performance of the PHY layer.
loss of pointer Loss of Pointer: A condition at the receiver or a maintenance signal transmitted in thePHY overhead indicating that the receiving equipment has lost the pointer to the start ofcell in the payload. This is used to monitor the performance of the PHY layer.
Loss Of Signal Loss of signal (LOS) indicates that there are no transitions occurring in the receivedsignal.
LP lower order path
LPT link-state pass through
LSP See label switched path
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
883
LSR See label switching router
M
MA See maintenance association
MAC See media access control
MAC See media access control
MADM multiple add/drop multiplexer
main topology A interface that displays the connection relationships of NEs on the NMS (screendisplay). The default client interface of the NMS, a basic component of the human-machine interactive interface. The topology clearly shows the structure of the network,the alarms of different NEs, subnets in the network, the communication status as well asthe basic network operation status. All topology management functions are accessedhere.
maintenanceassociation
That portion of a Service Instance, preferably all of it or as much as possible, theconnectivity of which is maintained by CFM. It is also a full mesh of MaintenanceEntities.
maintenanceassociation end point
A MEP is an actively managed CFM Entity, associated with a specific DSAP of a ServiceInstance, which can generate and receive CFM frames and track any responses. It is anend point of a single Maintenance Association, and terminates a separate MaintenanceEntity for each of the other MEPs in the same Maintenance Association.
maintenance domain The network or the part of the network for which connectivity is managed by CFM. Thedevices in an MD are managed by a single ISP.
maintenance point Maintenance Point (MP) is one of either a MEP or a MIP.
managementinformation base
A type of database used for managing the devices in a communications network. Itcomprises a collection of objects in a (virtual) database used to manage entities (such asrouters and switches) in a network.
manual switch Switches normal traffic signal to the protection section, unless a failure condition existson other sections (including the protection section) or an equal or higher priority switchcommand is in effect, by issuing a manual switch request for that normal traffic signal.
maximum transmissionunit
The largest packet of data that can be transmitted on a network. MTU size varies,depending on the network—576 bytes on X.25 networks, for example, 1500 bytes onEthernet, and 17,914 bytes on 16 Mbps Token Ring. Responsibility for determining thesize of the MTU lies with the link layer of the network. When packets are transmittedacross networks, the path MTU, or PMTU, represents the smallest packet size (the onethat all networks can transmit without breaking up the packet) among the networksinvolved.
MBS maximum burst size
MCF See message communication function
MD See maintenance domain
MDI See medium dependent interface
Mean Time BetweenFailures
The average time between consecutive failures of a piece of equipment. It is a measureof the reliability of the system.
Mean Time To Repair The average time that a device will take to recover from a failure.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
884
media access control A protocol at the media access control sublayer. The protocol is at the lower part of thedata link layer in the OSI model and is mainly responsible for controlling and connectingthe physical media at the physical layer. When transmitting data, the MAC protocolchecks whether to be able to transmit data. If the data can be transmitted, certain controlinformation is added to the data, and then the data and the control information aretransmitted in a specified format to the physical layer. When receiving data, the MACprotocol checks whether the information is correct and whether the data is transmittedcorrectly. If the information is correct and the data is transmitted correctly, the controlinformation is removed from the data and then the data is transmitted to the LLC layer.
media access control A protocol at the media access control sublayer. The protocol is at the lower part of thedata link layer in the OSI model and is mainly responsible for controlling and connectingthe physical media at the physical layer. When transmitting data, the MAC protocolchecks whether to be able to transmit data. If the data can be transmitted, certain controlinformation is added to the data, and then the data and the control information aretransmitted in a specified format to the physical layer. When receiving data, the MACprotocol checks whether the information is correct and whether the data is transmittedcorrectly. If the information is correct and the data is transmitted correctly, the controlinformation is removed from the data and then the data is transmitted to the LLC layer.
medium dependentinterface
The electrical and mechanical interface between the equipment and the mediatransmission.
MEP See maintenance association end point
MEP maintenance end point
messagecommunicationfunction
The MCF is composed of a protocol stack that allows exchange of managementinformation with their prs.
MIB See management information base
MIP maintenance intermediate point
mounting ear A piece of angle plate with holes in it on a rack. It is used to fix network elements orcomponents.
MP See maintenance point
MPID maintenance point identification
MPLS See Multiprotocol Label Switching
MPLS L2VPN The MPLS L2VPN provides the Layer 2 VPN service based on an MPLS network. Inthis case, on a uniform MPLS network, the carrier is able to provide Layer 2 VPNs ofdifferent media types, such as ATM, FR, VLAN, Ethernet, and PPP.
MPLS OAM The MPLS OAM provides continuity check for a single LSP, and provides a set of faultdetection tools and fault correct mechanisms for MPLS networks. The MPLS OAM andrelevant protection switching components implement the detection function for the CR-LSP forwarding plane, and perform the protection switching in 50 ms after a fault occurs.In this way, the impact of a fault can be lowered to the minimum.
MPLS TE See multiprotocol label switching traffic engineering
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
885
MPLS TE tunnel In the case of reroute deployment, or when traffic needs to be transported throughmultiple trails, multiple LSP tunnels might be used. In traffic engineering, such a groupof LSP tunnels are referred to as TE tunnels. An LSP tunnel of this kind has twoidentifiers. One is the Tunnel ID carried by the SENDER object, and is used to uniquelydefine the TE tunnel. The other is the LSP ID carried by the SENDER_TEMPLATE orFILTER_SPEC object.
MS See multiplex section
MSP See multiplex section protection
MSTP See Multiple Spanning Tree Protocol
MTBF See Mean Time Between Failures
MTTR See Mean Time To Repair
MTU See maximum transmission unit
Multicast A process of transmitting packets of data from one source to many destinations. Thedestination address of the multicast packet uses Class D address, that is, the IP addressranges from 224.0.0.0 to 239.255.255.255. Each multicast address represents a multicastgroup rather than a host.
Multiple SpanningTree Protocol
Multiple spanning tree protocol. The MSTP can be used in a loop network. Using analgorithm, the MSTP blocks redundant paths so that the loop network can be trimmedas a tree network. In this case, the proliferation and endless cycling of packets is avoidedin the loop network. The protocol that introduces the mapping between VLANs andmultiple spanning trees. This solves the problem that data cannot be normally forwardedin a VLAN because in STP/RSTP, only one spanning tree corresponds to all the VLANs.
multiplex section The trail between and including two multiplex section trail termination functions.
multiplex sectionprotection
A function, which is performed to provide capability for switching a signal between andincluding two multiplex section termination (MST) functions, from a "working" to a"protection" channel.
Multiprotocol LabelSwitching
A technology that uses short tags of fixed length to encapsulate packets in different linklayers, and provides connection-oriented switching for the network layer on the basis ofIP routing and control protocols. It improves the cost performance and expandability ofnetworks, and is beneficial to routing.
multiprotocol labelswitching trafficengineering
N/A
N
N+1 protection A radio link protection system composed of N working channels and one protectionchannel.
NE See network element
NE Explorer The main operation interface, of the NMS, which is used to manage thetelecommunication equipment. In the NE Explorer, the user can query, manage andmaintain the NE, boards, and ports on a per-NE basis.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
886
network element A network element (NE) contains both the hardware and the software running on it. OneNE is at least equipped with one system control and communication(SCC) board whichmanages and monitors the entire network element. The NE software runs on the SCCboard.
Network ManagementSystem
A system in charge of the operation, administration, and maintenance of a network.
network service accesspoint
A network address defined by ISO, through which entities on the network layer canaccess OSI network services.
network to networkinterface
An internal interface within a network linking two or more elements.
next hop The next router to which a packet is sent from any given router as it traverses a networkon its journey to its final destination.
NLP normal link pulse
NMS See Network Management System
NNI See network to network interface
node A node stands for a managed device in the network. For a device with a single frame,one node stands for one device. For a device with multiple frames, one node stands forone frame of the device. Therefore, a node does not always mean a device.
Node Protection A parameter of the FRR protection. It indicates that the bypass tunnel should be able toprotect the downstream node that is involved in the working tunnel and adjacent to thePLR. The node cannot be a merge point, and the bypass tunnel should also be able toprotect the downstream link that is involved in the working tunnel and adjacent to thePLR.
non-gateway networkelement
A network element whose communication with the NM application layer must betransferred by the gateway network element application layer.
non-GNE See non-gateway network element
NSAP See network service access point
NSF not stop forwarding
O
OAM See operation, administration and maintenance
ODF See optical distribution frame
ODU See outdoor unit
OM Operation and maintenance
One-to-One Backup A local repair method in which a backup tunnel is separately created for each protectedtunnel at a PLR.
open shortest path first A link-state, hierarchical interior gateway protocol (IGP) for network routing. Dijkstra'salgorithm is used to calculate the shortest path tree. It uses cost as its routing metric. Alink state database is constructed of the network topology which is identical on all routersin the area.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
887
Open SystemsInterconnection
A framework of ISO standards for communication between different systems made bydifferent vendors, in which the communications process is organized into seven differentcategories that are placed in a layered sequence based on their relationship to the user.Each layer uses the layer immediately below it and provides a service to the layer above.Layers 7 through 4 deal with end-to-end communication between the message sourceand destination, and layers 3 through 1 deal with network functions.
operation,administration andmaintenance
A group of network support functions that monitor and sustain segment operation,activities that are concerned with, but not limited to, failure detection, notification,location, and repairs that are intended to eliminate faults and keep a segment in anoperational state and support activities required to provide the services of a subscriberaccess network to users/subscribers.
optic fiber connector A device installed at the end of a fiber, optical source or receive unit. It is used to couplethe optical wave to the fiber when connected to another device of the same type. Aconnector can either connect two fiber ends or connect a fiber end and an optical source(or a detector).+
optical distributionframe
A frame which is used to transfer and spool fibers.
orderwire A channel that provides voice communication between operation engineers ormaintenance engineers of different stations.
OSI See Open Systems Interconnection
OSPF See open shortest path first
outdoor unit The outdoor unit of the split-structured radio equipment. It implements frequencyconversion and amplification for RF signals.
Outloop A method of looping back the input signals received at a port to an output port withoutchanging the structure of the signals.
Output optical power The ranger of optical energy level of output signals.
E.5 P-TThis section provides the terms starting with letters P to T.
P
packet switchednetwork
A telecommunication network which works in packet switching mode.
Packing case A case which is used for packing the board or subrack.
Path A performance resource object defined in the network management system. The left endof a path is a device node whose port needs to be specified and the right end of a path isa certain IP address which can be configured by the user. By defining a path in thenetwork management system, a user can test the performance of a network path betweena device port and an IP address. The tested performance may be the path delay, packetloss ratio or other aspects.
PBS See peak burst size
PCB See printed circuit board
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
888
PCI bus PCI (Peripheral Component Interconnect) bus. A high performance bus, 32-bit or 64-bitfor interconnecting chips, expansion boards, and processor/memory subsystems.
PDH See plesiochronous digital hierarchy
PDU See protocol data unit
PE See provider edge
peak burst size A parameter used to define the capacity of token bucket P, that is, the maximum burstIP packet size when the information is transferred at the peak information rate. Thisparameter must be larger than 0. It is recommended that this parameter should be notless than the maximum length of the IP packet that might be forwarded.
peak information rate A traffic parameter, expressed in bit/s, whose value should be not less than the committedinformation rate.
penultimate hoppopping
Penultimate Hop Popping (PHP) is a function performed by certain routers in an MPLSenabled network. It refers to the process whereby the outermost label of an MPLS taggedpacket is removed by a Label Switched Router (LSR) before the packet is passed to anadjacent Label Edge Router (LER).
per-hop behavior IETF Diff-Serv workgroup defines forwarding behaviors of network nodes as per-hopbehaviors (PHB), such as, traffic scheduling and policing. A device in the network shouldselect the proper PHB behaviors, based on the value of DSCP. At present, the IETFdefines four types of PHB. They are class selector (CS), expedited forwarding (EF),assured forwarding (AF), and best-effort (BE).
PHB See per-hop behavior
PHP See penultimate hop popping
PIR See peak information rate
PLA physical link aggregation
plesiochronous digitalhierarchy
A multiplexing scheme of bit stuffing and byte interleaving. It multiplexes the minimumrate 64 kit/s into the 2 Mbit/s, 34 Mbit/s, 140 Mbit/s, and 565 Mbit/s rates.
Point-to-Point Protocol A protocol on the data link layer, provides point-to-point transmission and encapsulatesdata packets on the network layer. It is located in layer 2 of the IP protocol stack.
polarization A kind of electromagnetic wave, the direction of whose electric field vector is fixed orrotates regularly. Specifically, if the electric field vector of the electromagnetic wave isperpendicular to the plane of horizon, this electromagnetic wave is called verticallypolarized wave; if the electric field vector of the electromagnetic wave is parallel to theplane of horizon, this electromagnetic wave is called horizontal polarized wave; if thetip of the electric field vector, at a fixed point in space, describes a circle, thiselectromagnetic wave is called circularly polarized wave.
Power box A direct current power distribution box at the upper part of a cabinet, which suppliespower for the subracks in the cabinet.
PPP See Point-to-Point Protocol
PQ See priority queue
PRBS See pseudo random binary sequence
PRC primary reference clock
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
889
printed circuit board A board used to mechanically support and electrically connect electronic componentsusing conductive pathways, tracks, or traces, etched from copper sheets laminated ontoa non-conductive substrate.
priority queue An abstract data type in computer programming that supports the following threeoperations: (1) InsertWithPriority: add an element to the queue with an associatedpriority (2) GetNext: remove the element from the queue that has the highest priority,and return it (also known as "PopElement(Off)", or "GetMinimum") (3) PeekAtNext(optional): look at the element with highest priority without removing it
protection groundcable
A cable which connects the equipment and the protection ground bar. Usually, one halfof the cable is yellow; while the other half is green.
Protection path A specific path that is part of a protection group and is labeled protection.
protocol data unit It is a data packet at the network layer of the OSI model.
provider edge A device that is located in the backbone network of the MPLS VPN structure. A PE isresponsible for VPN user management, establishment of LSPs between PEs, andexchange of routing information between sites of the same VPN. During the process, aPE performs the mapping and forwarding of packets between the private network andthe public channel. A PE can be a UPE, an SPE, or an NPE.
pseudo random binarysequence
A sequence that is random in a sense that the value of an element is independent of thevalues of any of the other elements, similar to real random sequences.
pseudo wire An emulated connection between two PEs for transmitting frames. The PW is establishedand maintained by PEs through signaling protocols. The status information of a PW ismaintained by the two end PEs of a PW.
pseudo wire emulationedge-to-edge
A type of end-to-end Layer 2 transmitting technology. It emulates the essential attributesof a telecommunication service such as ATM, FR or Ethernet in a Packet SwitchedNetwork (PSN). PWE3 also emulates the essential attributes of low speed Time DivisionMultiplexed (TDM) circuit and SONET/SDH. The simulation approximates to the realsituation.
PSN See packet switched network
PTN packet transport network
PW See pseudo wire
PWE3 See pseudo wire emulation edge-to-edge
Q
QinQ A layer 2 tunnel protocol based on IEEE 802.1Q encapsulation. It encapsulates the tagof the user's private virtual local area network (VLAN) into the tag of the public VLAN.The packet carries two layers of tags to travel through the backbone network of thecarrier. In this manner, the layer 2 virtual private network (VPN) is provided for the user.
QoS See quality of service
QPSK See quadrature phase shift keying
quadrature phase shiftkeying
A modulation method of data transmission through the conversion or modulation andthe phase determination of the reference signals (carrier). It is also called the fourth periodor 4-phase PSK or 4-PSK. QPSK uses four dots in the star diagram. The four dots areevenly distributed on a circle. On these phases, each QPSK character can perform two-bit coding and display the codes in Gray code on graph with the minimum BER.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
890
quality of service A commonly-used performance indicator of a telecommunication system or channel.Depending on the specific system and service, it may relate to jitter, delay, packet lossratio, bit error ratio, and signal-to-noise ratio. It functions to measure the quality of thetransmission system and the effectiveness of the services, as well as the capability of aservice provider to meet the demands of users.
R
radio frequency A type of electric current in the wireless network using AC antennas to create anelectromagnetic field. It is the abbreviation of high-frequency AC electromagnetic wave.The AC with the frequency lower than 1 kHz is called low-frequency current. The ACwith frequency higher than 10 kHz is called high-frequency current. RF can be classifiedinto such high-frequency current.
radio networkcontroller
A device in the RNS which is in charge of controlling the use and the integrity of theradio resources.
random early detection A packet loss algorithm used in congestion avoidance. It discards the packet accordingto the specified higher limit and lower limit of a queue so that global TCP synchronizationresulted in traditional Tail-Drop can be prevented.
Rapid Spanning TreeProtocol
An evolution of the Spanning Tree Protocol, providing for faster spanning treeconvergence after a topology change. The RSTP protocol is backward compatible withthe STP protocol.
RDI See remote defect indication
received signal level The signal level at a receiver input terminal.
Received SignalStrength Indicator
The received wide band power, including thermal noise and noise generated in thereceiver, within the bandwidth defined by the receiver pulse shaping filter, for TDDwithin a specified timeslot. The reference point for the measurement shall be the antenna
Receiver Sensitivity Receiver sensitivity is defined as the minimum acceptable value of average receivedpower at point R to achieve a 1 x 10-12 BER (The FEC is open).
RED See random early detection
Reed-Solomon-Code A forward error correction code located before interleaving that enables correction oferrors induced by burst noise. Widely used error correction scheme to fight transmissionerrors at the receiver site.
REI See remote error indication
remote defectindication
A signal transmitted at the first opportunity in the outgoing direction when a terminaldetects specific defects in the incoming signal.
remote error indication A remote error indication (REI) is sent upstream to signal an error condition. There aretwo types of REI alarms: Remote error indication line (REI-L) is sent to the upstreamLTE when errors are detected in the B2 byte. Remote error indication path (REI-P) issent to the upstream PTE when errors are detected in the B3 byte.
Request For Comments A document in which a standard, a protocol, or other information pertaining to theoperation of the Internet is published. The RFC is actually issued, under the control ofthe IAB, after discussion and serves as the standard. RFCs can be obtained from sourcessuch as InterNIC.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
891
Resource ReservationProtocol
The Resource Reservation Protocol (RSVP) is designed for Integrated Service and isused to reserve resources on every node along a path. RSVP operates on the transportlayer; however, RSVP does not transport application data. RSVP is a network controlprotocol like Internet Control Message Protocol (ICMP).
reverse pressure A traffic control method. In telecommunication, when detecting that the transmit endtransmits a large volume of traffic, the receive end sends signals to ask the transmit endto slow down the transmission rate.
RF See radio frequency
RFC See Request For Comments
RIP See Routing Information Protocol
RMON remote network monitoring
RMON remote network monitoring
RNC See radio network controller
Root alarm An alarm directly caused by anomaly events or faults in the network. Some lower-levelalarms always accompany a root alarm.
route A route is the path that network traffic takes from its source to its destination. In a TCP/IP network, each IP packet is routed independently. Routes can change dynamically.
route table A mapping table that stores the relationship between the original address, destinationaddress, short message (SM) protocol type and account. The SMSC delivers an SM tothe designated account according to the information set in the route table.
Routing InformationProtocol
A simple routing protocol that is part of the TCP/IP protocol suite. It determines a routebased on the smallest hop count between source and destination. RIP is a distance vectorprotocol that routinely broadcasts routing information to its neighboring routers and isknown to waste bandwidth.
routing table A table that stores and updates the locations (addresses) of network devices. Routersregularly share routing table information to be up to date. A router relies on thedestination address and on the information in the table that gives the possible routes--inhops or in number of jumps--between itself, intervening routers, and the destination.Routing tables are updated frequently as new information is available.
RSL See received signal level
RSSI See Received Signal Strength Indicator
RSTP See Rapid Spanning Tree Protocol
RSVP See Resource Reservation Protocol
RTN radio transmission node
S
SD See space diversity
SDH See synchronous digital hierarchy
SEMF See synchronous equipment management function
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
892
service level agreement A service contract between a customer and a service provider that specifies theforwarding service a customer should receive. A customer may be a user organization(source domain) or another differentiated services domain (upstream domain). A SLAmay include traffic conditioning rules which constitute a traffic conditioning agreementas a whole or partially.
Service LevelAgreement *
A management-documented agreement that defines the relationship between serviceprovider and its customer. It also provides specific, quantifiable information aboutmeasuring and evaluating the delivery of services. The SLA details the specific operatingand support requirements for each service provided. It protects the service provider andcustomer and allows the service provider to provide evidence that it has achieved thedocumented target measure.
SES See severely errored second
Setup Priority The priority of the tunnel with respect to obtaining resources, ranging from 0 (indicatesthe highest priority) to 7. It is used to determine whether the tunnel can preempt theresources required by other backup tunnels.
severely errored second A one-second period which has a bit error ratio ≥ X 10-3 or at least one defect. Timeinterval of one second during which a given digital signal is received with an error ratiogreater than 1 X 10 -3 (Rec. ITU R F. 592 needs correction).
SF See signal fail
SFP See small form-factor pluggable
side trough The trough on the side of the cable rack, which is used to place nuts so as to fix thecabinet.
signal cable Common signal cables cover the E1 cable, network cable, and other non-subscribersignal cable.
signal fail A signal that indicates the associated data has failed in the sense that a near-end defectcondition (non-degrade defect) is active.
signal to noise ratio The ratio of the amplitude of the desired signal to the amplitude of noise signals at agiven point in time. SNR is expressed as 10 times the logarithm of the power ratio andis usually expressed in dB (Decibel).
Simple NetworkManagement Protocol
A network management protocol of TCP/IP. It enables remote users to view and modifythe management information of a network element. This protocol ensures thetransmission of management information between any two points. The pollingmechanism is adopted to provide basic function sets. According to SNMP, agents, whichcan be hardware as well as software, can monitor the activities of various devices on thenetwork and report these activities to the network console workstation. Controlinformation about each device is maintained by a management information block.
simplex Designating or pertaining to a method of operation in which information can betransmitted in either direction, but not simultaneously, between two points.
SLA See service level agreement
SLA* See Service Level Agreement *
Slicing To divide data into the information units proper for transmission.
small form-factorpluggable
A specification for a new generation of optical modular transceivers.
SNC See subnetwork connection
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
893
SNCP See subnetwork connection protection
SNMP See Simple Network Management Protocol
SNR See signal to noise ratio
space diversity A diversity scheme that enables two or more antennas separated by a specific distanceto transmit/receive the same signal and selection is then performed between the twosignals to ease the impact of fading. Currently, only receive SD is used.
Spanning Tree Protocol STP is a protocol that is used in the LAN to remove the loop. STP applies to the redundantnetwork to block some undesirable redundant paths through certain algorithms and prunea loop network into a loop-free tree network.
SSM See Synchronization Status Message
static virtual circuit Static virtual circuit. A static implementation of MPLS L2VPN that transfers L2VPNinformation by manual configuration of VC labels, instead of by a signaling protocol.
Statistical multiplexing A multiplexing technique whereby information from multiple logical channels can betransmitted across a single physical channel. It dynamically allocates bandwidth only toactive input channels, to make better use of available bandwidth and allow more devicesto be connected than with other multiplexing techniques. Compare with TDM.
STM See Synchronous Transport Module
STM-1 See synchronous transport mode-1
STM-N See synchronous transport module of order N
STP See Spanning Tree Protocol
sub-network Sub-network is the logical entity in the transmission network and comprises a group ofnetwork management objects. The network that consists of a group of interconnected orcorrelated NEs, according to different functions. For example, protection subnet, clocksubnet and so on. A sub-network can contain NEs and other sub-networks. Generally, asub-network is used to contain the equipment located in adjacent regions and closelyrelated with one another, and it is indicated with a sub-network icon on a topologicalview. The U2000 supports multilevels of sub-networks. A sub-network planning canbetter the organization of a network view. On the one hand, the view space can be saved,on the other hand, it helps the network management personnel focus on the equipmentunder their management.
subnet mask The technique used by the IP protocol to determine which network segment packets aredestined for. The subnet mask is a binary pattern that is stored in the client machine,server or router and is matched with the IP address.
subnetwork connection A "transport entity" that transfers information across a subnetwork, it is formed by theassociation of "ports" on the boundary of the subnetwork.
subnetwork connectionprotection
A function, which allows a working subnetwork connection to be replaced by a protectionsubnetwork connection if the working subnetwork connection fails, or if its performancefalls below a required level.
SVC See static virtual circuit
switch To filter, forward frames based on label or the destination address of each frame. Thisbehavior operates at the data link layer of the OSI model.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
894
Synchronization StatusMessage
A message that carries quality levels of timing signals on a synchronous timing link.Nodes on an SDH network and a synchronization network acquire upstream clockinformation through this message. Then the nodes can perform proper operations on theirclocks, such as tracing, switching, or converting to holdoff, and forward thesynchronization information to downstream nodes.
synchronous digitalhierarchy
A transmission scheme that follows ITU-T G.707, G.708, and G.709. It defines thetransmission features of digital signals such as frame structure, multiplexing mode,transmission rate level, and interface code. SDH is an important part of ISDN and B-ISDN. It interleaves the bytes of low-speed signals to multiplex the signals to high-speedcounterparts, and the line coding of scrambling is used only for signals. SDH is suitablefor the fiber communication system with high speed and a large capacity since it usessynchronous multiplexing and flexible mapping structure.
synchronousequipmentmanagement function
The SEMF converts performance data and implementation specific hardware alarms intoobject-oriented messages for transmission over DCCs and/or a Q interface.
synchronous transportmode-1
Synchronous Transfer Mode at 155 Mbit/s.
SynchronousTransport Module
An STM is the information structure used to support section layer connections in theSDH. It consists of information payload and Section Overhead (SOH) information fieldsorganized in a block frame structure which repeats every 125. The information is suitablyconditioned for serial transmission on the selected media at a rate which is synchronizedto the network. A basic STM is defined at 155 520 kbit/s. This is termed STM-1. Highercapacity STMs are formed at rates equivalent to N times this basic rate. STM capacitiesfor N = 4, N = 16 and N = 64 are defined; higher values are under consideration.
synchronous transportmodule of order N
A STM-N is the information structure used to support section layer connections in SDH.See ITU-T Recommendation G. 707 for STM modules of order 1, 4, 16 and 64.
T
tail drop A type of QoS. When a queue within a network router reaches its maximum length,packet drops can occur. When a packet drop occurs, connection-based protocols such asTCP slow down their transmission rates in an attempt to let queued packets be serviced,thereby letting the queue empty. This is also known as tail drop because packets aredropped from the input end (tail) of the queue.
Tail drop A congestion management mechanism, in which packets arrive later are discarded whenthe queue is full. This policy of discarding packets may result in network-widesynchronization due to the TCP slow startup mechanism.
TCI tag control information
TCP See Transmission Control Protocol
TDM See time division multiplexing
TE See traffic engineering
TEDB See traffic engineering database
TelecommunicationManagement Network
A protocol model defined by ITU-T for managing open systems in a communicationsnetwork. An architecture for management, including planning, provisioning, installation,maintenance, operation and administration of telecommunications equipment, networksand services.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
895
TIM trace identifier mismatch
time divisionmultiplexing
A multiplexing technology. TDM divides the sampling cycle of a channel into time slots(TSn, n=0, 1, 2, 3, ...), and the sampling value codes of multiple signals engross timeslots in a certain order, forming multiple multiplexing digital signals to be transmittedover one channel.
time to live A technique used in best-effort delivery systems to prevent packets that loop endlessly.The TTL is set by the sender to the maximum time the packet is allowed to be in thenetwork. Each router in the network decrements the TTL field when the packet arrives,and discards any packet if the TTL counter reaches zero.
TMN See Telecommunication Management Network
ToS priority A ToS sub-field (the bits 0 to 2 in the ToS field) in the ToS field of the IP packet header.
TPS See tributary protection switch
traffic engineering A technology that is used to dynamically monitor the traffic of the network and the loadof the network elements, to adjust in real time the parameters such as traffic managementparameters, route parameters and resource restriction parameters, and to optimize theutilization of network resources. The purpose is to prevent the congestion caused byunbalanced loads.
traffic engineeringdatabase
TEDB is the abbreviation of the traffic engineering database. MPLS TE needs to knowthe features of the dynamic TE of every links by expanding the current IGP, which usesthe link state algorithm, such as OSPF and IS-IS. The expanded OSPF and IS-IS containsome TE features, such as the link bandwidth and color. The maximum reservedbandwidth of the link and the unreserved bandwidth of every link with priority are ratherimportant. Every router collects the information about TE of every links in its area andgenerates TE DataBase. TEDB is the base of forming the dynamic TE path in the MPLSTE network.
Traffic shaping It is a way of controlling the network traffic from a computer to optimize or guaranteethe performance and minimize the delay. It actively adjusts the output speed of trafficin the scenario that the traffic matches network resources provided by the lower layerdevices, avoiding packet loss and congestion.
Transmission ControlProtocol
The protocol within TCP/IP that governs the breakup of data messages into packets tobe sent via IP (Internet Protocol), and the reassembly and verification of the completemessages from packets received by IP. A connection-oriented, reliable protocol (reliablein the sense of ensuring error-free delivery), TCP corresponds to the transport layer inthe ISO/OSI reference model.
tributary protectionswitch
Tributary protection switching, a function provided by the equipment, is intended toprotect N tributary processing boards through a standby tributary processing board.
trTCM See two rate three color marker
TTL See time to live
TU tributary unit
Tunnel A channel on the packet switching network that transmits service traffic between PEs.In VPN, a tunnel is an information transmission channel between two entities. The tunnelensures secure and transparent transmission of VPN information. In most cases, a tunnelis an MPLS tunnel.
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
896
two rate three colormarker
The trTCM meters an IP packet stream and marks its packets based on two rates, PeakInformation Rate (PIR) and Committed Information Rate (CIR), and their associatedburst sizes to be either green, yellow, or red. A packet is marked red if it exceeds thePIR. Otherwise it is marked either yellow or green depending on whether it exceeds ordoesn't exceed the CIR.
E.6 U-ZThis section provides the terms starting with letters U to Z.
U
U-VLAN A VLAN attribute indicating that the current VLAN is a user VLAN of an M-VLAN.Multicast services are copied from the M-VLAN to the user VLAN.
UAS unavailable second
UBR See unspecified bit rate
UDP See User Datagram Protocol
underfloor cabling The cables connected cabinets and other devices are routed underfloor.
UNI See user network interface
unicast The process of sending data from a source to a single recipient.
unspecified bit rate No commitment to transmission. No feedback to congestion. This type of service is idealfor the transmission of IP datagrams. In case of congestion, UBR cells are discarded,and no feedback or request for slowing down the data rate is delivered to the sender.
upload An operation to report some or all configuration data of an NE to the NMS(NetworkManagement system). The configuration data then covers the configuration data storedat the NMS side.
User DatagramProtocol
A TCP/IP standard protocol that allows an application program on one device to send adatagram to an application program on another. User Datagram Protocol (UDP) uses IPto deliver datagrams. UDP provides application programs with the unreliableconnectionless packet delivery service. Therefore, UDP messages can be lost, duplicated,delayed, or delivered out of order. UDP is used to try to transmit the data packet, that is,the destination device does not actively confirm whether the correct data packet isreceived.
user network interface The interface between user equipment and private or public network equipment (forexample, ATM switches).
V
V-UNI See virtual user-network interface
variable bit rate One of the traffic classes used by ATM (Asynchronous Transfer Mode). Unlike apermanent CBR (Constant Bit Rate) channel, a VBR data stream varies in bandwidthand is better suited to non real time transfers than to real-time streams such as voice calls.
VBR See variable bit rate
VC See virtual container
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
897
VCC See virtual channel connection
VCG See virtual concatenation group
VCI See virtual channel identifier
VCTRUNK A virtual concatenation group applied in data service mapping, also called the internalport of a data service processing board
virtual channelconnection
The VC logical trail that carries data between two end points in an ATM network. Alogical grouping of multiple virtual channel connections into one virtual connection.
virtual channelidentifier
A 16-bit field in the header of an ATM cell. The VCI, together with the VPI, is used toidentify the next destination of a cell as it passes through a series of ATM switches onits way to its destination.
virtual concatenationgroup
A group of co-located member trail termination functions that are connected to the samevirtual concatenation link
virtual container The information structure used to support path layer connections in the SDH. It consistsof information payload and path Overhead (POH) information fields organized in a blockframe structure which repeats every 125 or 500 μs.
virtual local areanetwork
A logical grouping of two or more nodes which are not necessarily on the same physicalnetwork segment but which share the same IP network number. This is often associatedwith switched Ethernet.
virtual path identifier The field in the Asynchronous Transfer Mode (ATM) cell header that identifies to whichvirtual path the cell belongs.
virtual private LANservice
A type of point-to-multipoint L2VPN service provided over the public network. VPLSenables geographically isolated user sites to communicate with each other through theMAN/WAN as if they are on the same LAN.
virtual private network A system configuration, where the subscriber is able to build a private network viaconnections to different network switches that may include private network capabilities.
virtual route forward VRF performs the function of establishing multiple virtual routing devices on one actualrouting device. That is, the L3 interfaces of the device are distributed to different VRFs,performing the function of establishing multiple virtual route forwarding instances onthe device.
virtual user-networkinterface
A virtual user-network interface, works as an action point to perform serviceclassification and traffic control in HQoS.
VLAN See virtual local area network
voice over IP An IP telephony term for a set of facilities used to manage the delivery of voiceinformation over the Internet. VoIP involves sending voice information in a digital formin discrete packets rather than by using the traditional circuit-committed protocols of thepublic switched telephone network (PSTN).
VoIP See voice over IP
VPI See virtual path identifier
VPLS See virtual private LAN service
VPN See virtual private network
VRF See virtual route forward
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
898
W
wait to restore The number of minutes to wait before services are switched back to the working line.
WAN See wide area network
Web LCT The local maintenance terminal of a transport network, which is located on the NEmanagement layer of the transport network
weighted fair queuing A fair queue scheduling algorithm based on bandwidth allocation weights. Thisscheduling algorithm allocates the total bandwidth of an interface to queues, accordingto their weights and schedules the queues cyclically. In this manner, packets of all priorityqueues can be scheduled.
weighted random earlydetection
A packet loss algorithm used for congestion avoidance. It can prevent the global TCPsynchronization caused by traditional tail-drop. WRED is favorable for the high-prioritypacket when calculating the packet loss ratio.
weighted round Robin N/A
WFQ See weighted fair queuing
wide area network A network composed of computers which are far away from each other which arephysically connected through specific protocols. WAN covers a broad area, such as aprovince, a state or even a country.
winding pipe A tool for fiber routing, which acts as the corrugated pipe.
WRED See weighted random early detection
WRR See weighted round Robin
WTR See wait to restore
X
XPIC See cross polarization interference cancellation
OptiX RTN 950 Radio Transmission SystemIDU Hardware Description E Glossary
Issue 01 (2011-10-30) Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
899