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Copyright
© Ericsson AB 2011. All rights reserved. No part of this document may bereproduced in any form without the written permission of the copyright owner.
Disclaimer
The contents of this document are subject to revision without notice due tocontinued progress in methodology, design and manufacturing. Ericsson shallhave no liability for any error or damage of any kind resulting from the useof this document.
Trademark List
Ericsson and the Ericsson logoare trademarks of Telefonaktiebolaget LM Ericsson.
Acrobat(R) Reader copyright (C) 1987-1996 Adobe Systems Incorporated,- All rights reserved.
Adobe and Acrobat are trademarks of Adobe SystemsIncorporated.
All trademarks and registered trademarks mentioned in a document of thiscollection are the property of their respective holders.
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Contents
Contents
1 Technical Specifications 1
1.1 Conformity 1
1.2 Environmental Conditions 3
1.3 OMS 3200 Mechanical Features and Power Consumptions 5
1.4 Optical Performances 17
2 Front Panel Devices 37
2.1 Switch 1K Unit 37
2.2 Switch Unit 64CE 38
2.3 Switch 1K Secondary Unit 39
2.4 ODU Switch Primary Unit 40
2.5 ODU Switch Secondary Unit 41
2.6 OMS 3255 Switch 1K Primary Unit 42
2.7 OMS 3255 Switch 1K Secondary Unit 43
2.8 OMS 3255 Primary Switch (720G) Unit 44
2.9 OMS 3255 Secondary Switch (720G) Unit 45
2.10 OMS 3255 Front Panel Unit (720G) 46
2.11 Low Order Switch 5Gb/s Capacity Unit 47
2.12 Low Order Switch 10Gb/s Capacity Unit 48
2.13 Low Order Switch 10Gbit/s Optical SFP Unit 49
2.14 40Gbit/s Low Order Blade 50
2.15 Alarms Module 51
2.16 Controller ADM256, OMS 2400/3200 Enhanced Controller 52
2.17 Auxiliary Unit 53
2.18 ALARM-SYNC LTU 54
2.19 Fan Tray Unit 55
2.20 Management LTU 56
2.21 OMS 3250 Battery Interface Unit 57
2.22 OMS 3255 Battery Interface Unit 58
2.23 AUX-PSU LTU 59
2.24 16xSTM-1el. Tributary Unit 60
2.25 16xSTM-1 Optical Unit (LC) 61
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Subrack Installation Guide
2.26 16xSTM-1 Optical Pluggable Unit and 16xSTM-1/4/16Optical Multirate Unit 62
2.27 8xSTM-4 Optical Unit (SC) 63
2.28 8xSTM-4 Optical Pluggable Unit and 8xSTM-1/4/16 OpticalMultirate Unit 64
2.29 STM-16 c/v Optical Unit 65
2.30 2xSTM-16 Optical Unit (SC) 66
2.31 4xSTM-16 Optical Unit (SC) 67
2.32 2.32 4xSTM-16 Optical Pluggable Unit and 4xSTM-4/16Optical Multirate Unit 68
2.33 16xSTM-16 SFP Core Card 69
2.34 STM-64 DWDM G.709 Optical Unit (SC) 70
2.35 STM-64 Optical Unit (SC) 71
2.36 STM-64 XFP Unit 72
2.37 4xSTM-64 XFP Core Card (LC) 73
2.38 Optical Amplifier Motherboard 74
2.39 Quad Gbit Ethernet Motherboard 75
2.40 Multiprotocol Data Core Units 76
2.41 L2 Aggregation Card 77
2.42 L2 Aggregation LTU 78
2.43 1x10GE Layer 2 Card 79
2.44 10x1GE Layer 2 Card 80
3 Hardware Settings 81
3.1 Types Of Settings 81
3.2 Management LTU 83
3.3 ALARM-SYNC LTU 84
3.4 L2C Aggregation LTU 85
3.5 Controller ADM256, OMS 2400/3200 Enhanced Controller 87
3.6 Alarm Module 89
3.7 16xSTM-1el. Tributary Unit 91
3.8 16xSTM-1 Optical Unit (LC) 92
3.9 8xSTM-4 Optical Unit (SC) 94
3.10 STM-16 c/v Optical Unit 96
3.11 2xSTM-16 Optical Unit (SC) 98
3.12 4xSTM-16 Optical Unit (SC) 100
3.13 STM-64 DWDM G.709 Optical Unit (SC) 102
3.14 STM-64 Optical Unit (SC) 103
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Contents
3.15 STM-64 XFP Optical Unit 104
3.16 4xSTM-64 Optical Pluggable Unit 105
3.17 16xSTM-16 Optical Pluggable Unit 107
3.18 16xSTM-1 Optical Pluggable Unit and 16xSTM-1/4/16Optical Multirate Unit 109
3.19 8xSTM-4 Optical Pluggable Unit and 8xSTM-1/4/16 OpticalMultirate Unit 111
3.20 4xSTM-16 Optical Pluggable Unit and 4xSTM-4/16 OpticalMultirate Unit 113
3.21 Switch 1K Primary Unit 115
3.22 Switch 1K Secondary Unit 117
3.23 Switch 1K Unit 118
3.24 Switch 1K Secondary Unit 120
3.25 Quad. Gigabit Ethernet Motherboard 121
3.26 Multiprotocol Data Core Unit 123
3.27 L2 Aggregation Card 125
3.28 1x10GE Layer 2 Card 126
3.29 10x1GE Layer 2 Card 127
3.30 Low Order Switch 10Gbit/s Optical SFP Unit 128
3.31 Low Order Switch 40Gbit/s Blind Unit 130
3.32 Auxiliary Unit 131
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Technical Specifications
1 Technical Specifications
This chapter collects the Equipment conformity information.
1.1 Conformity
The Equipment, when installed according to the composition and installationprocedures specified in this handbook, complies with requirements of followingharmonized standards.
The Equipment is in “CLASS 1” against electric shock.
Figure 1 CE Conformity Mark
1.1.1 Electromagnetic Compatibility
The Equipment is compliant with EN 300 386-2: (1997) / Installation Class:“telecommunication center” and with EN 300 386 (2005) / Installation Class:“telecommunication center”.
1.1.2 Protection Requirements
“EMC” COUNCIL DIRECTIVE 89/336/EEC (3 MAY 1989) amended bydirectives:
• 91/263/EEC
• 92/31/EEC
• 93/68/EEC
• 93/97/EEC
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Subrack Installation Guide
1.1.3 Safety Product: Reference Standards
The Equipment is compliant with:
• EN 60950-1: 2001
• EN 60825-1: 1994/A2: 2001
• EN 60825-2: 2000
Do!
Refer to the volume “Optical Safety Rules” for details about Optical Safety.
1.1.4 Acoustic Noise
The Equipment is compliant with ETS 300 753: (1997)
Note: The requirements are met by the subrack alone and do not rely onany features of the rack.
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Technical Specifications
1.2 Environmental Conditions
The minimal classes of environmental conditions, their severities and generaldefinition are specified in compliance with:
• ETSI ETS 300-019-1-0
1.2.1 Storage Endurance
Storage endurance minimal requirements comply with:
• ETSI ETS 300-019-1-1 Class 1.2 “Not temperature controlled storagelocations”
The climatic environmental limits for normal storage conditions are:
• Temperature from –25 to +55�C
• Relative humidity from 10% to 100%
1.2.2 Transport Endurance
Storage endurance minimal requirements comply with:
• ETSI ETS 300-019-1-2 Class 2.3 “Public transportation”
The climatic environmental limits for normal transport condition are:
• Temperature from –40 to +70�C
• Relative humidity up to 95%
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Subrack Installation Guide
1.2.3 Environmental Endurance for Indoor Operation
Weather-protected stationary use endurance minimal requirements areaccording to ETSI ETS 300-019-1-3 Class 3.2 ”Partly temperature controlledlocations”.
The climatic environmental limits for normal operating conditions are:
• Temperature: from –5�C to +45�C
• Relative humidity: from 5% to 95%
Figure 2 Environmental conditions for indoor operations
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Technical Specifications
1.3 OMS 3200 Mechanical Features and PowerConsumptions
This chapter contains the mechanical features and the power consumption forall the subracks used in the Marconi OMS 3200 Family
1.3.1 OMS 3240/OMS 3210 Subrack Features
Figure 3 OMS 3240/OMS 3210 Subrack
Table 1 OMS 3240/OMS 3210 Subrack
Part Number Description Dimension (H x W x D) Weight Power
133-1533/01 OMS 3240 Subrack 800x535x280mm 21Kg 1kW
133-1534/01 OMS 3210 Subrack 800x535x280mm 21Kg 800W
Note: The power consumption indicated above is the highest possible value.It depends on the configuration adopted.
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Subrack Installation Guide
1.3.2 OMS 3250 Subrack Features
Figure 4 OMS 3250 Subrack
Table 2 OMS 3250 Subrack
Part Number Description Dimensions (H x W x D) Weight Power
1HAG60613ACG OMS 3250 Subrack 1725x535x280mm 50Kg 2.7kW
Note: The power consumption indicated above is the highest possible value.It depends on the configuration adopted.
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Technical Specifications
1.3.3 OMS 3255 Subrack Features
Figure 5 OMS 3255 Subrack
Table 3 OMS 3255 Subrack
Part Number Description Dimensions (H x W x D) Weight Power
133-1577/01 OMS 3255 Subrack 949x533x280mm 27Kg 2,5KW
Note: The power consumption indicated above is the highest possible value.It depends on the configuration adopted.
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Subrack Installation Guide
1.3.4 OMS 3255 Units
Figure 6 OMS 3255 Units
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Technical Specifications
1.3.4.1 OMS 3255 Common Parts Units
Table 4 OMS 3255 Common Parts Units
Part Number Description Dimension (H x W x D) Weight Power
151-2483/xx Controller ADM256 397x26.5x255mm 1620g 53W
151-2957/22 OMS 2400/3200 EnhancedController 397x26.5x255mm 1620g 53W
151-2570/01 Alarm Unit 397x21.5x255mm 1460g 20W
151-3105/01 Auxiliary Unit 397x26.5x255mm 1530g 20W
02HBA00046AAF Switch 1K Primary Unit 397x29x255mm 800g
02HBA00047AAH Switch 1K Secondary Unit 397x29x255mm 750g76W
02HAT00097AAD Primary Switch Card 720G 397x40x255mm 3840g
02HAT00098AAF Secondary Switch Card 720G 397x40x255mm 3435g
02HAT00099AAH Front Panel Unit (720G) 248x78x50mm 694g
450W
02HAT00101AAK Battery Interface Unit 275x46x262mm 1570g -
02HAT00100AAH Fan Tray Unit 45x99x260mm 490g 15W
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Subrack Installation Guide
1.3.4.2 OMS 3240/OMS 3210 Common Parts Units
Table 5 OMS 3240/OMS 3210 Common Parts Units
Part Number Description Dimension (H x D x W) Weight Power
151-2483/xx Controller ADM256 397x255x26.5mm 1620g 53W
151-2957/22 OMS 2400/3200 EnhancedController 397x26.5x255mm 1620g 53W
151-2570/01 Alarm Unit 397x255x21.5mm 1460g 20W
151-3105/01 Auxiliary Unit 397x255x26.5mm 1530g 20W
151-2477/01 Switch 1K Primary Unit 397x255x29mm 1860g 73W
151-3045/01 Switch 1K Primary Unit 64CE 397x255x29mm 2470g 39W
151-2675/01 Battery Interface Unit 272x160x58mm 1470g -
151-2568/01 Fan Tray Unit 45x260x99mm 490g 15W
1.3.4.3 OMS 3250 Common Parts Units
Table 6 OMS 3250 Common Parts Units
Part Number Description Dimension (H x W x D) Weight Power
151-2483/xx Controller ADM256 397x26.5x255mm 1620g 70W
151-2957/22 OMS 2400/3200 EnhancedController 397x26.5x255mm 1620g 53W
151-2570/01 Alarm Unit 397x21.5x255mm 1460g 20W
151-3105/01 Auxiliary Unit 397x26.5 x255mm 1530g 20W
151-2477/01 Switch 1K Primary Unit 397x29x255mm 1860g
151-2478/01 Switch 1K Secondary Unit 397x29x255mm 1490g140W
151-3042/01 Switch Primary Unit 397x29x255mm 2570g
151-3043/01 Switch Secondary Unit 397x29x255mm 2425g185W
1HAM61079AAS Battery Interface Unit 275x46x262mm 1570g -
151-2568/01 Fan Tray Unit 45x99x260mm 490g 15W
151-2568/01 FPU 397x116 x30mm 994g -
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Technical Specifications
1.3.4.4 LTUs
Table 7 LTUs
Part Number Description Dimension (H x W x D) Weight Power
151-2567/01 AUX-PSU LTU 272x29x160mm 760g 15W
151-2569/01 Management LTU 272x29x160mm 430g 8W
151-2551/01 ALARM-SYNC LTU 272x29x160mm 400g 8W
1.3.4.5 Low Order Switch 5Gb/s Capacity Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250(ODU), OMS 3240, OMS 3240 (ODU)
Table 8 Low Order Switch 5Gb/s Capacity Unit
Part Number Description Dimension (H x W x D) Weight Power
151-3138/01 Low Order Switch 5Gb/sCapacity Unit 397x29x255mm 690g 31W
1.3.4.6 Low Order Switch 10Gb/s Capacity Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250(ODU), OMS 3240, OMS 3240 (ODU)
Table 9 Low Order Switch 10Gb/s Capacity Unit
Part Number Description Dimension (H x W x D) Weight Power
151-3139/01 Low Order Switch 10Gb/sCapacity Unit 397x29x255mm 770g 40W
151-3140/01 Low Order Switch 10Gb/sCapacity Optical SFP I/F Unit 397x29x255mm 1795g 41W
(1) Low Order Switch 10Gb/sOptical Pluggable SFPModules
12x13.4x56.5mm 20g 1W
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Subrack Installation Guide
1.3.4.7 Low Order Switch 40Gb/s Capacity Unit
Applicable to: OMS 3255 (720G)
Table 10 Low Order Switch 40Gb/s Capacity Unit
Part Number Description Dimension (H x W x D) Weight Power
02HAT00159AAD 40Gb/s CapacityVC12-2-3-4 Switch 397x29x255mm 2370g 120W
02HAT00158AAB 40Gb/s LO Switch FrontPanel 259x27,5x50mm 278g -
02HAT00138AAV 80Gb/s LO Switch FrontPanel 247,5x79x49,5mm 390g -
1.3.4.8 Traffic Units
Table 11 Traffic Units
Part Number Description Dimension (H x W x D) Weight Power(1)
STM-64 Optical Unit (SC) 397x29x255mm 2510g 32W
(1) STM-64 DWDM G.709 OpticalUnit (SC) 397x29x255mm 2510g 39W
151-2554/3x (1) STM-64 XFP 397x29x255mm 2510g 26W
151-2740/01 Optical Amplifier Motherboard 397x29x255mm 1000g 8W
151-2741/01 Booster Module(+5dBm->+13dBm) 177x22x107mm 350g 6W
151-2741/02 Booster Module(+12dBm->+18dBm) 177x22x107mm 350g 9W
151-2741/04 Preamplifier Module (SC) 177x22x107mm 350g 4W
(1) For unit and modules codes see the chapter “Equipment Composition”
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Technical Specifications
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250(ODU), OMS 3240, OMS 3240 (ODU)
Table 12 Traffic Units
Part Number Description Dimension (H x W x D) Weight Power
1HAT60921AAJ 397x29x255mm 900g
1HAM61087AAD
16xSTM-1el. Tributary card +16xSTM-1el. Worker LTU 397x29x160mm 490g
43W
1HAT60921AAJ 397x29x255mm 900g
1HAM61073AAE
16xSTM-1el. Tributary card +16xSTM-1el. Protection LTU 397x29x160mm 280g
25W
151-3134/01 16xSTM-1 Optical Pluggable Unit 397x29x255mm 980g 32W
151-3134/01 +02MBB00007AAC 16xSTM-1/4/16 Optical Multirate Unit 397x29x255mm 980g 32W
(1) 16xSTM-1 Optical Pluggable SFPModules 12x13.4x56.5mm 20g 1W
151-3134/11 8xSTM-4 Optical Pluggable Unit 397x29x255mm 980g 24W
151-3134/11 +02MBB00007AAC 8xSTM-1/4/16 Optical Multirate Unit 397x29x255mm 980g 24W
151-3103/01 STM-16 c/v Optical Unit 397x29x255mm 980g 33W(1)
STM-16 c/v SFP Modules 12x13.4x56.5mm 20g 1W
151-3134/21 4xSTM-16 Optical Pluggable Unit 397x29x255mm 980g 24W
151-3134/21 +02MBB00007AAC 4xSTM-4/16 Optical Multirate Unit 397x29x255mm 980g 24W
(1) Optical Pluggable/Multirate SFPModules 12x13.4x56.5mm 20g 1W
151-3111/21 Multiprotocol Unit (EPE) 397x29x255mm 2250g 69W(1)
Multiprotocol SFP Modules 12x13.4x56.5mm 20g 1W(1)
Multiprotocol XFP Modules 20x13.4x70mm 50g 4W
151-3112/02 L2 Aggregation Card 397x29x255mm 2250g 108W
151-3175/01 L2 Aggregation LTU 397x29x160mm 500g 17W
(1) L2 Aggregation Card Optical SFPModules 12x13.4x56.5mm 50g 1W
(1) L2 Aggregation Card Electrical SFPModules 12x13.4x56.5mm 50g 1W
02HAT00164AAH 1x10GE Layer 2 Card 397x29x255mm 2150g 100W
02HAT00163AAF 10x1GE Layer 2 Card 397x29x255mm 2200g 110W
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240(ODU)
Table 13 Traffic Units
Part Number Description Dimension (H x W x D) Weight Power(1)
16xSTM-1 Optical Unit (LC) 397x29x255mm 900g 26W(1)
2xSTM-16 Optical Unit (SC) 397x29x255mm 980g 23W
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Subrack Installation Guide
Table 13 Traffic Units(1)
4xSTM-16 Optical Unit (SC) 397x29x255mm 980g 35W
151-3134/11 8xSTM-4 Optical Pluggable Unit 397x29x255mm 980g 24W
151-2798/01 Quad Gbit E Motherboard 397x29x255mm 1000g 48W(1)
Gbit E Modules 12x13.4x56.5mm 20g 1W
151-3111/01 Multiprotocol Unit 397x29x255mm 2250g 69W
Applicable to: OMS 3255 (720G)
Table 14 Traffic Units
Part Number Description Dimension (H x W xD) Weight Power
151-3196/01 4XSTM-64 XFP Core Card (LC) 397x255x29mm 2310g 100W
151-3195/01 16XSTM-16 SFP Core Card 397x255x29mm 1935g 80W
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Technical Specifications
1.3.5 Dispersion Compensator Modules (DCM)
Table 15 Dispersion Compensator Modules (DCM)
Part Number Description Dimensions (H x W x D) Weight
03HAQ00002AAV DCM SMF C-5Km (85ps/nm) 49x478x277mm -
03HAQ00002ABN DCM SMF C-10Km (170ps/nm) 49x478x277mm -
03HAQ00002ACF DCM SMF C-20Km (340ps/nm) 49x478x277mm -
03HAQ00002ADX DCM SMF C-30Km (510ps/nm) 49x478x277mm -
03HAQ00002AEQ DCM SMF C-40Km (680ps/nm) 49x478x277mm -
03HAQ00002AFH DCM SMF C-50Km (850ps/nm) 49x478x277mm -
03HAQ00002AGA DCM SMF C-60Km (1020ps/nm) 49x478x277mm -
03HAQ00002AHS DCM SMF C-70Km (1190ps/nm) 49x478x277mm -
03HAQ00002AJK DCM SMF C-80Km (1360ps/nm) 49x478x277mm -
03HAQ00002AKC DCM SMF C-90Km (1530ps/nm) 49x478x277mm -
03HAQ00002ALU DCM SMF C-100Km (1700ps/nm) 49x478x277mm -
03HAQ00002AMM DCM SMF C-110Km (1870ps/nm) 49x478x277mm -
03HAQ00002ANE DCM SMF C-120Km (2040ps/nm) 49x478x277mm -
03HAQ00002APV DCM SMF C-130Km (2210ps/nm) 49x478x277mm -
03HAQ00002AQP DCM SMF C-140Km (2380ps/nm) 49x478x277mm -
03HAQ00002ARJ DCM SMF C-150Km (2550ps/nm) 49x478x277mm -
03HAQ00002ASY DCM SMF C-160Km (2720ps/nm) 49x478x277mm -
1.3.6 Engineering Order Wire (EOW)
Table 16 Engineering Order Wire (EOW)
Part Number Description Dimension(H x W x D) Weight Power
1HAL60518ABR EOW/PSTN Rack Unit 44x396x75mm 1000g (includingbrackets) 4W
1.3.7 CWDM/DWDM Filters
Table 17 CWDM/DWDM Filters
Part Number Description Dimension (H x W x D) Weight Power
1MBD60714AAW 4 Drawer CWDM Mux + Demux ExternalSubrack 116x437x263mm 6000g -
1400841-0038 MUX + DEMUX CWDM 8-CH (1471 -1611THz) 25x480x280mm 1230g -
1400841-0046 MUX + DEMUX CWDM 8-CH (1471 -1611THz) + EXP 25x480x280mm 1230g -
1400841-0020 MUX + DEMUX CWDM 8-CH (1311 -1451THz) 25x480x280mm 1230g -
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Subrack Installation Guide
Table 17 CWDM/DWDM Filters
1400841-0012 MUX + DEMUX CWDM 4-CH (1531 -1591THz) 25x480x280mm 1230g -
1400805-0024 2skip0 DWDM filter(192.3 – 192.4THz) 25x480x280mm 1230g -
1400805-0032 2skip0 DWDM filter(192.5 – 192.6THz) 25x480x280mm 1230g -
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Technical Specifications
1.4 Optical Performances
The Optical Characteristics of the supported interfaces are given in the followingtables. The acronyms used are: NA = Not Applicable, MLM = Multi LongitudinalMode, SLM = Single Longitudinal Mode, PIN = Positive Intrinsic Negative, ffs= for further study, FWHM = Full Width Half Maximum, MMF = Multi ModeFiber and SMF = Single Mode Fiber.
1.4.1 STM-1 Optical Interfaces Characteristics
Note: The following table provides the STM-1 Optical characteristics for theSTM-1 standard, the STM-1 Optical Pluggable and the Low OrderSwitch 10Gb/s Line units.
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Subrack Installation Guide
Table 18 STM-1 Optical Interfaces Characteristics
DIGITAL SIGNAL (Nominal bit rate) kbit/s STM-1 (According to G.707 and G.958): 155520
Application code (Table 1 / G.957) S-1.1 L-1.1 L-1.2 L-1.3(1)
BER 1x10-10 1x10-10 1x10-10 1x10-10
Operating wavelength range nm 1261/1360 1263/1360 1480/1580 1480/1580
TRANSMITTER AT REFERENCE POINTMPI-S MLM MLM/SLM SLM
Source type
Spectral characteristics
- Maximum RMS width (σ) nm 7.7 3 / - - -
- Maximum –20dB width nm - - / 1 1 1
- Minimum side mode suppression ratio dB - - / 30 30 30
Mean launched power
- Maximum dBm -8 0 0 0
- Minimum dBm -15 -5 -5 -5
Minimum extinction ratio dB 8.2 10 10 10
OPTICAL PATH BETWEEN MPI-S AND MPI-R
Attenuation range dB 0 - 12 10 - 28 10 - 28 10 – 28
Maximum dispersion ps/nm 96 NA 1280 NA
Minimum optical return loss of cable plant atMPI-S dB NA NA 20 NA
Maximum discrete reflectance between MPI-Sand MPI-R dB NA NA -25 NA
RECEIVER AT REFERENCE POINT MPI-R
Receiver type PIN PIN PIN
Minimum sensitivity dBm -28 -34 -34 -34
Minimum overload dBm -8 -10 -10 -10
Maximum optical path penalty dB 1 1 1 1
Maximum reflectance of receiver, measured atMPI-R dB NA NA -25 NA
(1) Optical performances of L-1.3 interface are made available using L-1.2 interface (therefore they are the same)
1.4.2 STM-4 Optical Interfaces Characteristics
Note: The following table provides the STM-4 Optical characteristics for theSTM-4 standard, the STM-4 Optical Pluggable and the Low OrderSwitch 10Gb/s Line units.
Table 19 STM-4 Optical Interfaces Characteristics
DIGITAL SIGNAL (Nominal bit rate) kbit/s STM-4 (According to G.707 and G.958): 622080
Application code (Table 1 / G.957) S-4.1 L-4.1 L-4.2 L-4.3 (1)
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Technical Specifications
Table 19 STM-4 Optical Interfaces Characteristics
BER 1x10-10 1x10-10 1x10-10 1x10-10
Operating wavelength range nm 1274/1356 1296/1335 1480/1580 1480/1580
TRANSMITTER AT REFERENCE POINTMPI-S
Source type MLM MLM/SLM SLM
Spectral characteristics
- Maximum RMS width (σ) nm 2.5 1.7 / - -
- Maximum –20dB width nm - - / 1 <1 1
- Minimum side mode suppression ratio dB - - / 30 30 30
Mean launched power
- Maximum dBm -8 2 2 2
- Minimum dBm -15 -3 -3 -3
Minimum extinction ratio dB 8.2 10 10 10
OPTICAL PATH BETWEEN MPI-S AND MPI-R
Attenuation range dB 0 - 12 10 - 24 10 - 24 10 - 24
Maximum dispersion ps/nm 74 NA 1600 NA
Minimum optical return loss of cable plant atMPI-S dB NA 20 24 20
Maximum discrete reflectance between MPI-Sand MPI-R dB NA -25 -27 -25
RECEIVER AT REFERENCE POINT MPI-R
Receiver type PIN PIN PIN
Minimum sensitivity dBm -28 -28 -28 -28
Minimum overload dBm -8 -8 -8 -8
Maximum optical path penalty dB 1 1 1 1
Maximum reflectance of receiver, measured atMPI-R dB NA -14 -27 -14
(1) Optical performances of L-4.3 interface are made available using L-4.2 interface (therefore they are the same)
1.4.3 STM-16 Optical Interfaces Characteristics
Note: The following table provides the STM-16 Optical characteristics for theSTM-16 standard, the STM-16 Optical Pluggable and the Low OrderSwitch 10Gb/s Line units.
Table 20 STM-16 Optical Interfaces Characteristics
DIGITAL SIGNAL (Nominal bit rate) kbit/s STM-16 (According to G.707 and G.958): 2488320
Application code (Table 1 / G.957) S-16.1 L-16.1 L-16.2 L-16.3 (1)
BER 1x10-10 1x10-10 1x10-10 1x10-10
Operating wavelength range nm 1260/1360 1280/1335 1500/1580 1500/1580
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Subrack Installation Guide
Table 20 STM-16 Optical Interfaces Characteristics
TRANSMITTER AT REFERENCE POINTMPI-S
Source type SLM SLM SLM
Spectral characteristics
- Maximum RMS width (σ) nm - - - -
- Maximum –20dB width nm 1 1 <1 1
- Minimum side mode suppression ratio dB 30 30 30 30
Mean launched power
- Maximum dBm 0 3 3 3
- Minimum dBm -5 -2 -2 -2
Minimum extinction ratio dB 8.2 8.2 8.2 8.2
OPTICAL PATH BETWEEN MPI-S AND MPI-R
Attenuation range dB 0 - 12 10 - 24 10 - 24 10 - 24
Maximum dispersion ps/nm NA NA 1600
Maximum DGD (2) ps NA NA NA NA
Minimum optical return loss of cable plant atMPI-S dB 24 24 24 24
Maximum discrete reflectance between MPI-Sand MPI-R dB -27 -27 -27 -27
RECEIVER AT REFERENCE POINT MPI-R
Receiver type PIN APD APD
Minimum sensitivity dBm -18 -27 -28 -27
Minimum overload dBm 0 -9 -9 -9
Maximum optical path penalty dB 1 1 2 1
Maximum reflectance of receiver, measured atMPI-R dB -27 -27 -27 -27
(1) Optical performances of L-16.3 interface are made available using L-16.2 interface (therefore they are the same).(2) Maximum DGD is not defined for optical interfaces stated in ITU-T G.957
1.4.4 STM-16 c/v Optical Interfaces Characteristics
Table 21 STM-16 c/v Optical Interfaces Characteristics
DIGITAL SIGNAL (Nominal bit rate) kbit/s STM-16 (According to G.707 and G.958): 2488320
Application code (Table 1 / G.957) I-16.1 S-16.1 L-16.1 L-16.2
BER 1x10-10 1x10-10 1x10-10 1x10-10
Operating wavelength range nm 1260/1360 1260/1360 1280/1335 1500/1580
TRANSMITTER AT REFERENCE POINTMPI-S
Source type MLM SLM SLM SLM
Spectral characteristics
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Technical Specifications
Table 21 STM-16 c/v Optical Interfaces Characteristics
- Maximum RMS width (σ) nm 4 - - -
- Maximum –20dB width nm NA 1 1 <1
- Minimum side mode suppression ratio dB NA 30 30 30
Mean launched power
- Maximum dBm -3 0 3 3
- Minimum dBm -10 -5 -2 -2
Minimum extinction ratio dB 8.2 8.2 8.2 8.2
OPTICAL PATH BETWEEN MPI-S AND MPI-R
Attenuation range dB 0 - 7 0 - 12 10 - 24 10 - 24
Maximum dispersion ps/nm 12 NA NA 1600
Maximum DGD (2) ps NA NA NA NA
Minimum optical return loss of cable plant atMPI-S dB 24 24 24 24
Maximum discrete reflectance between MPI-Sand MPI-R dB -27 -27 -27 -27
RECEIVER AT REFERENCE POINT MPI-R
Receiver type PIN PIN APD APD
Minimum sensitivity dBm -18 -18 -27 -28
Minimum overload dBm -3 0 -9 -9
Maximum optical path penalty dB 1 1 1 2
Maximum reflectance of receiver, measured atMPI-R dB -27 -27 -27 -27
1.4.5 STM-64 Optical Interfaces Characteristics
Table 22 STM-64 Optical Interfaces Characteristics
DIGITAL SIGNAL (Nominal bit rate) kbit/s STM-64 (According to G.707 and G.958): 9953280
Application code (Table 1 / G.957) I-64.1r S-64.1 I-64.2r S-64.2b
BER 1x10-12 1x10-12 1x10-12 1x10-12
Operating wavelength range nm 1260-1360 1290-1330 1530-1565 1530-1565
TRANSMITTER AT REFERENCE POINTMPI-S
Source type MLM/SLM SLM SLM SLM
Spectral characteristics
- Maximum RMS width (σ) nm ffs ffs ffs ffs
- Maximum –20dB width nm ffs ffs ffs ffs
- Minimum side mode suppression ratio dB NA/30 30 30 30
Mean launched power
- Maximum dBm -1 +5 -1 +2
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Table 22 STM-64 Optical Interfaces Characteristics
- Minimum dBm -6 +1 -5 -1
Minimum extinction ratio dB 6 6 8.2 8.2
OPTICAL PATH BETWEEN MPI-S AND MPI-R
Attenuation range dB 0 - 4 6 - 11 0 - 7 3 - 11
Maximum dispersion ps/nm 3.8 70 40 800
Passive Dispersion Compensation ps/nm NA NA NA NA
Maximum DGD ps 30 30 30 30
Minimum optical return loss of cable plant atMPI-S dB 14 14 24 24
Maximum discrete reflectance between MPI-Sand MPI-R dB -27 -27 -27 -27
RECEIVER AT REFERENCE POINT MPI-R
Receiver type PIN PIN PIN PIN
Minimum sensitivity dBm -11 -11 -14 -14
Minimum overload dBm -1 -1 -1 -1
Maximum optical path penalty dB 1 1 2 2
Maximum reflectance of receiver, measured atMPI-R dB -14 -14 -27 -27
Table 23 STM-64 Optical Interfaces Characteristics
DIGITAL SIGNAL (Nominal bit rate) kbit/s STM-64 (According to G.707 and G.958): 9953280
Application code (Table 1 / G.957) L-64.2b L-64.2p(2) V-64.2a(1)
BER 1x10-12 1x10-12 1x10-12
Operating wavelength range nm 1530-1560 1530-1565 1557.36 +/- �
TRANSMITTER AT REFERENCE POINTMPI-S
Source type SLM + BA SLM SLM + BA
Spectral characteristics
- Maximum RMS width (σ) nm ffs ffs ffs
- Maximum –20dB width nm ffs ffs ffs
- Minimum side mode suppression ratio dB 30 30 30
Mean launched power
- Maximum dBm +12 +3 +12
- Minimum dBm +10 -1 +10
Minimum extinction ratio dB 10 10 10
OPTICAL PATH BETWEEN MPI-S AND MPI-R
Attenuation range dB 13 – 22 10 – 20 21 – 36
Maximum dispersion ps/nm 1600 1600 2400
Passive Dispersion Compensation ps/nm NA NA(2)
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Technical Specifications
Table 23 STM-64 Optical Interfaces Characteristics
Maximum DGD ps 30 30 30
Minimum optical return loss of cable plant atMPI-S dB 24 24 24
Maximum discrete reflectance between MPI-Sand MPI-R dB -27 -27 -27
RECEIVER AT REFERENCE POINT MPI-R
Receiver type PIN APD PA + PIN
Minimum sensitivity dBm -14 -23 -28
Minimum overload dBm -1 -7 -9
Maximum optical path penalty dB 2 2 2
Maximum reflectance of receiver, measured atMPI-R dB -27 -27 -27
(1) This application is made available by using a low power booster amplifier whose output power can be set byJCT in the range +4dBm to +13dBm. Lower attenuation ranges can be obtained with the same booster by settingthe appropriate launched power(2) For this application Passive Dispersion Compensation is always needed
Table 24 STM-64 Optical Interfaces Characteristics
DIGITAL SIGNAL (Nominal bit rate) kbit/s STM-64 (According to G.707 and G.958): 9953280
Application code (Table 1 / G.957) L-64.3(1) V-64.3 U-64.3b12(2) U-64.3b17(2)
BER 1x10-12 1x10-12 1x10-12 1x10-12
Operating wavelength range nm 1530-1560 1557.36 +/- � 1557.36 +/- � 1557.36 +/- �
TRANSMITTER AT REFERENCE POINTMPI-S
Source type SLM + BA SLM + BA SLM + BA SLM + BA
Spectral characteristics
- Maximum –20dB width nm ffs ffs ffs ffs
- chirp parameter, α rad ffs ffs ffs ffs
- Minimum side mode suppression ratio dB 30 30 30 30
Mean launched power
- Maximum dBm +12 +12 +14 +19
- Minimum dBm +10 +10 +12 +17
Minimum extinction ratio dB 10 10 10 10
OPTICAL PATH BETWEEN MPI-S ANDMPI-R
Attenuation range dB 13 - 23 21 - 37 23 - 39 28 - 44
Maximum dispersion ps/nm 1600 1600 1600 1600
Passive Dispersion Compensation ps/nm NA NA NA NA
Maximum DGD ps 30 30 30 30
Minimum optical return loss of cable plant atMPI-S dB 24 14 24 24
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Subrack Installation Guide
Table 24 STM-64 Optical Interfaces Characteristics
Maximum discrete reflectance betweenMPI-S and MPI-R dB -27 -27 -27 -27
RECEIVER AT REFERENCE POINT MPI-R
Receiver type PIN PA + PIN PA + PIN PA + PIN
Minimum sensitivity dBm -14 -28 -28 -28
Minimum overload dBm -1 -9 -9 -9
Maximum optical path penalty dB 1 1 1 1
Maximum reflectance of receiver, measuredat MPI-R dB -27 -27 -27 -27
(1) This application is made available by using a low power booster amplifier whose output power can be set by JCT inthe range +4dBm to +13dBm. Lower attenuation ranges can be obtained with the same booster by setting theappropriate launched power. Optical performances of L-64.3 interface are made available using L-64.2b interface(2) This application is made available by using a high power booster amplifier whose output power can be set by JCTin the range +12dBm to +18dBm. Attenuation range can be optimised by setting the appropriate output power
1.4.6 STM-64 XFP-Based Optical Interfaces Characteristics
Table 25 STM-64 XFP-Based Optical Interfaces Characteristics
DIGITAL SIGNAL (Nominal bit rate) kbit/s Optical performances for STM-64 XFP-Based
Application code (Table 1/G.691) I-64.1 S-64.2b P1L1-2D2
Reference ITU-T G.691 ITU-T G.959.1
Nominal bitrate Mb/s 9953.28
Operating Wavelength Range nm 1290 to 1330 1530 to 1565
Supported Fibre Type/s SMF
Transmitter Source Type SLM
Maximum Spectral Width (RMS) nm N/A
Maximum Spectral Width @ -20 dB nm 1
Minimum Side Mode Suppression Ratio(SMSR) dB 30
Maximum Average Launch Power dBm -1 +2 +4
Minimum Average Launch Power dBm -6 -1 0
Minimum Extinction Ratio dB 6 8.2 9
Attenuation Range dB 0 to 4 3 to 11 11 to 22
Maximum Chromatic Dispersion ps/nm 6.6 800 1600
Receiver Type PIN APD
Minimum Receiver Sensitivity (BER ≤ 10-12) dBm -11 -14 -24
Minimum Receiver Overload dBm 0 -1 -7
Maximum Optical Path Penalty dB 1 2
Maximum Reflectance of Receiver dB -14 -27
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Technical Specifications
1.4.7 STM-64 DWDM G.709 Optical Interfaces Characteristics
Table 26 Optical performances for STM-64 DWDM fixed on C-Band
Optical performances for STM-64 DWDM fixed on C-BandDIGITAL SIGNAL (Nominal bit rate) kbit/s
Master Red 1 Blue 1 Blue 2 Red 2 80 Ch.
Supported Rate OTM1r.2
Reference Framing is compliant to ITU-T G.709. Optical performances are Marconi’sproprietary
Nominal bitrate Mb/s 10709.225316 ± 20 ppm
Minimum available Frequency THz 193.65 192.85 194.45 195.25 192.05 192.05
Maximum Available Frequency THz 194.40 193.60 195.20 196.00 192.80 196.00
Minimum Frequency Spacing GHz 50
Maximum Wavelength Deviation pm ± 30
Overall Tuneability Range Channels 16 80
Supported Fibre Type(s) SMF
Transmitter Source Type SLM (CW laser + MZ modulator) (1)
Minimum SMSR (Side ModeSuppression Ratio) dB 35
Chirp Parameter (a parameter) rad 0 ± 0.1
Minimum Extinction Ratio (2) dB 12
Optical Eye Crossing % 50 ± 5
Minimum Launch OSNR (3) dB 40
Maximum Laser RIN (RelativeIntensity Noise) dB/Hz -140
Maximum Output Power (1) dBm +2 +7.5
Minimum Output Power (1) dBm -15 +5.5
Output Power Resolution over SettingRange dBm 0.1 N/A
Output Power Stability over ageingand temperature dBm ± 0.4 (4) N/A
Output Power Accuracy (maximumcalibration error) dBm ± 0.5 N/A
Maximum Output Power during laserwarm-up (5) dBm -40 -30 (6)
Maximum Residual ChromaticDispersion ps/nm 800
Maximum DGD (Differential GroupDelay) (7) dB 30
Minimum ORL (Optical Return Loss)at receiver dB 24
Maximum Discrete Reflectance atreceiver dB -27
Receiver Type APD with integrated VOA
Clean Sensitivity (8) dBm -21.5 NA
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Table 26 Optical performances for STM-64 DWDM fixed on C-Band
Optical Input Power Range dBm -20 to +5
Maximum Input Power in faultconditions dBm +20
Maximum BER @ OSNR=18 dB andno fibre (9) 5 x 10-8
Maximum BER @ OSNR=21 dB andno fibre (9) 10-10
Maximum BER @ OSNR=18 dB withfibre (10) 10-6
Maximum BER @ OSNR=21 dB withfibre (10) 5 x 10-8
(1) These cards are provided with suitable VOA along the transmit site, which allows to set the desired value ofoutput power via JCT (except 80 Ch. Unit)(2) Minimum Extinction Ratio(3) At 25 GHz from carrier with 0.1 nm resolution bandwidth(4) In the output power range between –12 and –15 dBm this value may increase to ± 0.6 dBm(5) maximum allowed output power until the laser is not correctly stabilized on the selected operating wavelength(6) this unit may be only used in conjunction with MHL3000 Optical Policing Unit, where additional attenuation isprovided during laser warm-up phase(7) a maximum of 1 dB of OSNR penalty and no fibre is assumed(8) assuming very high level or infinite OSNR and back-to-back connection(9) back-to-back connection with minimum extinction ratio and no error correction (standard G.709 FEC disabled)(10) connection via fibre optic link with residual chromatic dispersion of ± 800 ps/nm, minimum extinction ratio and noerror correction (standard G.709 FEC disabled) over the specified input power range
Table 27 Optical performances for STM-64 DWDM fixed on L-Band
Optical performances for STM-64 DWDM fixed on L-Band
DIGITAL SIGNAL (Nominal bit rate) kbit/s Master/Red 1
Blue 1/Master Red 2 Blue 2
/Blue 1Red 1 /Red
2 Blue 2
Supported Rate OTM1r.2
Reference Framing is compliant to ITU-T G.709. Optical performancesare Marconi’s proprietary
Nominal bitrate Mb/s 10709.225316 ± 20 ppm
Minimum available Frequency THz 188.10 188.90 186.50 189.70 187.30 190.50
Maximum Available Frequency THz 188.85 189.65 187.25 190.45 188.05 191.25
Minimum Frequency Spacing GHz 50
Maximum Wavelength Deviation pm ± 30
Overall Tuneability Range Channels 16 16 7 (1) 16 16 9 (1)
Supported Fibre Type(s) SMF
Transmitter Source Type SLM (CW laser + MZ modulator) (1)
Minimum SMSR (Side ModeSuppression Ratio) dB 35
Chirp Parameter (a parameter) rad 0 ± 0.1
Minimum Extinction Ratio dB 12
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Technical Specifications
Table 27 Optical performances for STM-64 DWDM fixed on L-Band
Optical Eye Crossing % 50 ± 5
Minimum Launch OSNR dB 40
Maximum Laser RIN (RelativeIntensity Noise) dB/Hz -140
Maximum Output Power (1) dBm +2
Minimum Output Power (1) dBm -15
Output Power Resolution over SettingRange dBm 0.1
Output Power Stability over ageingand temperature dBm ± 0.4
Output Power Accuracy (maximumcalibration error) dBm ± 0.5
Maximum Output Power during laserwarm-up dBm -40
Maximum Residual ChromaticDispersion ps/nm 800
Maximum DGD (Differential GroupDelay) (7) dB 30
Minimum ORL (Optical Return Loss)at receiver dB 24
Maximum Discrete Reflectance atreceiver dB -27
Receiver Type APD with integrated VOA
Clean Sensitivity (8) dBm -21.5
Optical Input Power Range dBm -20 to +5
Maximum Input Power in faultconditions dBm +20
Maximum BER @ OSNR=18 dB andno fibre (9) 5 x 10-8
Maximum BER @ OSNR=21 dB andno fibre(9) 10-10
Maximum BER @ OSNR=18 dB withfibre (10) 10-6
Maximum BER @ OSNR=21 dB withfibre (10) 5 x 10-8
(1) 16 channels nominal tuneable range may be limited to a lower number of available wavelenghts due tocorrespondence with Marconi’s L-Band grid
1.4.8 Quad Gigabit Ethernet Optical Interface Characteristic
Table 28 Quad Gigabit Ethernet Optical Interface Characteristic
1000 BASE-SX Accordingto IEEE 802.3
1000 BASE-LX/LH according to IEEE802.3
1000 BASE-ZX
Fibre Type MMF 62.5mm MMF 50mm MMF 62.5mm
(1)MMF 50mm(1) SMF SMF
BER 1x10-12 1x10-12 1x10-12
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Subrack Installation Guide
Table 28 Quad Gigabit Ethernet Optical Interface Characteristic
Operating wavelength range nm 820/860 1270/1335 1540/1570
TRANSMITTER ATREFERENCE POINT TP2
Source type Shortwave laser Longwave laser DFB-LD
Spectral characteristics
- maximum -20dB width nm - - 1
- maximum RMS width (σ) nm 0.85 4 -
Mean launched power
- maximum dBm -4 -3 3
- minimum dBm -9.5 -9.5 -2
Minimum extinction ratio dB 9 9 8.2
OPTICAL PATH BETWEENTP2 AND TP3
Link power budget (2) dB 0÷7.5 0÷9.5 6÷22
Maximum chromaticdispersion
ps/nm
- - - - 60 1280
Operating range m 2 to 275 2 to 550 2 to 550 2 to 550 2 to 10000
-
RECEIVER AT REFERENCEPOINT TP3
Receiver type
Minimum sensitivity dBm -17 -19 -24
Minimum overload dBm 0 -3 -3
Minimum return loss dB 12 12 12
(1) This interface used with MMF requires an offset-launch patch cord(2) No path penalty is considered in link power budget (as per IEEE Std 802.3)
1.4.9 Multiprotocol and L2C Optical Interfaces (Fast Ethernet Modules)Characteristic
Table 29 Multiprotocol and L2C Optical Interfaces (Fast Ethernet Modules) Characteristic
100Base-FX 100Base-LX/FastE0-11dB FastE proprietary
Fibre Type MMF 62.5µm SMF SMF
BER 1x10-12 1x10-12 1x10-12
Operating wavelength range nm 1270/1380 1270/1360 1270/1360
TRANSMITTER AT REFERENCEPOINT TP2
Source type LED Longwave laser Longwave laser
Spectral characteristics
FWHM nm 250 - 3/-
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Technical Specifications
Table 29 Multiprotocol and L2C Optical Interfaces (Fast Ethernet Modules) Characteristic
- maximum -20dB width nm - - -/1
- maximum RMS width (σ) nm - 7.7 -/30
Mean launched power
- maximum dBm -14 -8 0
- minimum dBm -22 -15 -5
Minimum extinction ratio dB 10 8.2 10
OPTICAL PATH BETWEEN TP2AND TP3
Link power budget (2) dB 0÷7 0÷12 10÷28
Maximum chromatic dispersion ps/nm - 96 246
Operating range m 2 to 2000 2 to 10000 -
RECEIVER AT REFERENCEPOINT TP3
Receiver type
Minimum sensitivity dBm -29 -27 -33
Minimum overload dBm -14 -8 -10
Minimum return loss dB - 12 12
1.4.10 Multiprotocol and L2C Optical Interfaces (Gbit Ethernet Modules)Characteristic
Table 30 Multiprotocol and L2C Optical Interfaces (Gbit Ethernet Modules) Characteristic
1000 BASE-SX 1000 BASE-LX/10 1000 BASE-ZX
Fibre Type MMF 62.5µm MMF 50µm MMF 62.5µm MMF 50µm SMF SMF
BER 1x10-12 1x10-12 1x10-12
Operating wavelength range nm 770/860 1270/1355 1540/1570
TRANSMITTER ATREFERENCE POINT TP2
Source type Shortwave laser Longwave laser Longwavelaser
Spectral characteristics
- maximum -20dB width nm - - 1
- maximum RMS width (σ) nm 0.85 3 -
Mean launched power
- maximum dBm -3.5 -3 5
- minimum dBm -9.5 -9.5 0
Minimum extinction ratio dB 9 9 9
OPTICAL PATH BETWEENTP2 AND TP3
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Subrack Installation Guide
Table 30 Multiprotocol and L2C Optical Interfaces (Gbit Ethernet Modules) Characteristic
Link power budget (2) dB 0÷7.5 0÷10.5 5÷22 / 8÷20(1)
Maximum chromaticdispersion
ps/nm
- - - - - 1600
Operating range m 2 to 275 2 to 550 2 to 550 2 to 550 2 to 10000 80000
RECEIVER AT REFERENCEPOINT TP3
Receiver type
Minimum sensitivity dBm -17 -20 -22
Minimum overload dBm 0 -3 0
Minimum return loss dB 12 12 12
(1) If used connected to the 1000 Base-ZX Quad Gbit Ethernet Optical interface
1.4.11 Multiprotocol (10Gbit Ethernet Modules) Characteristic
Table 31 Multiprotocol (10Gbit Ethernet Modules) Characteristic
1000 BASE-SX 10Gbit BASE-LR
Fibre Type MMF 62.5µm MMF 50µm SMF
BER 1x10-12 1x10-12
Operating wavelength range nm 840/860 1260/1355
TRANSMITTER AT REFERENCEPOINT TP2
Source type Shortwave laser Longwave laser
Spectral characteristics
- maximum -20dB width nm - -
- maximum RMS width (σ) nm 0.45 ffs
Mean launched power
- maximum dBm -1 -0.5
- minimum dBm -7.3 -8.2
Minimum extinction ratio dB 3 3.5
OPTICAL PATH BETWEEN TP2 ANDTP3
Link power budget (2) dB 0÷7.3 0÷9.5
Maximum chromatic dispersion ps/nm - ffs
Operating range m 2 to 10000
RECEIVER AT REFERENCE POINTTP3 33 300
Receiver type
Minimum sensitivity dBm -13.1 -14.4
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Technical Specifications
Table 31 Multiprotocol (10Gbit Ethernet Modules) Characteristic
Minimum overload dBm -1 0.5
Minimum return loss dB 12 12
1.4.12 Multiprotocol Optical Interfaces (ESCON/SBCON Modules)Characteristic
Table 32 Multiprotocol Optical Interfaces (ESCON/SBCON Modules) Characteristic
ESCON link
Fibre Type MMF 62.5µm MMF 50µm
BER 1x10-15 1x10-15
Operating wavelength range nm 1260/1355
TRANSMITTER AT REFERENCE POINTTP2
Source type LED
Spectral characteristics
FWHM nm 140
Mean launched power
- maximum dBm -14.5
- minimum dBm -21 (1)
Minimum extinction ratio dB 8
OPTICAL PATH BETWEEN TP2 ANDTP3
Link power budget (2) dB 0÷8 0÷4
Maximum chromatic dispersion ps/nm -
Operating range m 3000
RECEIVER AT REFERENCE POINT TP3
Receiver type
Minimum sensitivity dBm -29
Minimum overload dBm -14.5
Minimum return loss dB ffs
(1) The minimum output power for MMF 50µm fibre type must be reduced by 4dB
1.4.13 Multiprotocol Optical Interfaces (Fibre Channel Modules)Characteristic
Table 33 Multiprotocol Optical Interfaces (Fibre Channel Modules) Characteristic
FC 100 M-6-SN-I FC 100 M-5-SN-I FC 100-SM-LC/LL
Fibre Type MMF 62.5µm MMF 50µm SMF
BER 1x10-12 1x10-12
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Table 33 Multiprotocol Optical Interfaces (Fibre Channel Modules) Characteristic
Operating wavelength range nm 770/860 1270/1355
TRANSMITTER AT REFERENCEPOINT TP2
Source type Shortwave laser Longwave laser
Spectral characteristics
- maximum -20dB width nm - -
- maximum RMS width (σ) nm 0.85 3
Mean launched power
- maximum dBm -3.5 -3
- minimum dBm -9.5 -9.5
Minimum extinction ratio dB 9 9
OPTICAL PATH BETWEEN TP2 ANDTP3
Link power budget (2) dB 0÷7.5 0÷10.5
Maximum chromatic dispersion ps/nm - -
Operating range m 2 to 275 2 to 550 2 to 10000
RECEIVER AT REFERENCE POINTTP3
Receiver type
Minimum sensitivity dBm -17 -20
Minimum overload dBm 0 -3
Minimum return loss dB 12 12
1.4.14 CWDM Optical Interfaces (SFP Modules) Characteristic
Table 34 CWDM Optical Interfaces (SFP Modules) Characteristic
Application Code C4S1 1D2 C4L1 1D2 C8S1 1D2 C8L1 1D2
Units
General information
Maximum number of channels - 4 4 8 8
Bit rate - NRZ 2.5G NRZ 2.5G NRZ 2.5G NRZ 2.5G
Maximum bit error ratio - 10-12 10-12 10-12 10-12
Fibre type - G.652 G.652 G.652 G.652
Interface at point MPI-SM
Maximum mean channel outputpower dBm +4.5 +4.5 +4.5 +4.5
Minimum mean channel output power dBm -2 -2 -2.4 -2.4
Maximum mean total output power dBm +10.5 +10.5 +13.5 +13.5
Central wavelength nm 1531 + 20m m=0to 3
1531 + 20m m=0to 3
1471 + 20mm=0 to 7
1471 + 20mm=0 to 7
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Technical Specifications
Table 34 CWDM Optical Interfaces (SFP Modules) Characteristic
Channel spacing nm 20 20 20 20
Maximum central wavelengthdeviation
nm ±7 ±7 ±7 ±7
Minimum channel extinction ratio dB 8.2 8.2 8.2 8.2
Optical path (single span) from pointMPI SM to MPI-RM,
Maximum attenuation dB 12.5 21.5 11.7 20.7
Minimum attenuation dB 4 13 4 13
Maximum chromatic dispersion ps/nm 1000 1600 1000 1600
Minimum ORL at MPI-SM dB 24 24 24 24
Max discrete reflectance betweenMPI-SM and MPI-RM dB -27 -27 -27 -27
Interface at point MPI-RM
Maximum mean channel outputpower dBm +0.5 -8.5 +0.5 -8.5
Minimum mean channel output power dBm -14.5 -23.5 -14.1 -23.1
Maximum mean total output power dBm +6.5 -2.5 +9.5 +0.5
Maximum optical path penalty dB 1.5 2.5 1.5 2.5
Minimum equivalent sensitivity dBm -16 -26 -15.6 -25.6
Max reflectance of optical element dB -27 -27 -27 -27
1.4.15 Booster Amplifier Unit Characteristic
Table 35 Booster Amplifier Unit Characteristic
Operating wavelength nm 1530 to 1565 (1)
Input power range dBm -6 to 3
Output power range (low power module) dBm 4 to 13
Output power range (high power module) dBm 12 to 18
Output power resolution dB < 0.5
Output power stability dB < 0.3
Noise figure dB < 8
Polarisation Mode Dispersion (PMD) ps < 0.4
Polarisation Dependent Loss (PDL) dB < 0.2
Input/Output return loss dB > 45
Max reflectance tolerable at input dB -27
Reverse Amplified Spontaneous Emission (ASE)power level dB < -20
(1) This operating wavelength range is that specified in ITU-T Recommendation G.663. A reduced operatingwavelength range (i.e. 1530 to 1560), as for the old family of Booster amplifiers, can be accepted being suitable forthe applications specified in Recommendation G.691
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Subrack Installation Guide
1.4.16 Pre-Amplifier for STM-64 Unit Characteristic
Table 36 Pre-Amplifier for STM-64 Unit Characteristic
Operating wavelength nm 1530 to 1565 (1)
Input power range dBm -6 to 3
Output power range dBm 4 to 13
Input power resolution dB < 0.3
Output power resolution dB < 0.3
Output power stability dB < 0.2
Noise figure dB < 4.5
Polarisation Mode Dispersion (PMD) ps < 0.4
Polarisation Dependent Loss (PDL) dB < 0.2
Input/Output return loss dB > 45
Max reflectance tolerable at output dB -27
Amplified Spontaneous Emission (ASE) filter centralwavelength
ps 1557.36
Amplified Spontaneous Emission (ASE) filterbandwidth EOL @ -0.5 dB + 600 (2)
(1) Operating wavelength is actually limited by the ASE filter(2) Due to practical implementation issues, the ASE filter bandwidth EOL @ -0.5 dB is expected to be ± 550 pm. Thisslight reduction is envisaged not to cause any problem also in case of 40 Gbit/s operation
1.4.17 CWDM Filter Characteristic
Table 37 CWDM Filter Characteristic
4-Channel filter 8-Channel filter 8-Channel filter +exp.
8-Channel filter(short w.)
Channel CentralWavelengths
nm 1531-1591 1471-1611 1471-1611 1311-1451
Channel Spacing nm 20 20 20 20
Channel WavelengthDeviation
nm ±7 ±7 ±7 ±7
Max Filter Loss (Mux +Demux) (1) dB 3.2 4.0 4.6 4.0
Min Filter Loss (Mux +Demux)(1) dB 1 1 1.8 1
Expansion Port additionalloss (2) dB N.A. N.A. 1.4 N.A.
Directivity dB >50 >50 >50 >50
Connector Type -- LC-UPC LC-UPC LC-UPC LC-UPC
(1) 2 connections included(2) 2 connections included, considering both Mux and Demux
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Technical Specifications
1.4.18 DWDM Filter Characteristic
Table 38 DWDM Filter Characteristic
2skip0 filter
Channel Spacing GHz 100
Bandwidth @ 0.5dB nm +/- 0.1
Return Loss dB > 45
PDL dB < 0.2
PMD ps < 0.2
Max Optical Input Power Range dBm 24
Express path
Express Insertion Loss dB 0.1 - 0.5
Add/Drop path
Drop IL Ch. xx dB 0.8 - 2.1
Drop IL Ch. xx + 1 dB 0.8 - 2.4
Add IL Ch. xx dB 0.8 - 2.1
Add IL Ch. xx + 1 dB 0.8 - 2.4
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Front Panel Devices
2 Front Panel Devices
In this chapter, a schematic representation of the front panel devices for eachunit will be shown.
2.1 Switch 1K Unit
Applicable to: OMS 3240, OMS 3250
Code: 151-2477/01
Figure 7 Switch 1K Unit
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Subrack Installation Guide
2.2 Switch Unit 64CE
Applicable to: OMS 3240 (ODU)
Code: 151-3045/01
Figure 8 Switch Unit 64CE
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Front Panel Devices
2.3 Switch 1K Secondary Unit
Applicable to: OMS 3250
Code: 151-2478/01
Figure 9 Switch 1K Secondary Unit
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Subrack Installation Guide
2.4 ODU Switch Primary Unit
Applicable to: OMS 3250 (ODU)
Code: 151-3042/01
Figure 10 ODU Switch Primary Unit
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Front Panel Devices
2.5 ODU Switch Secondary Unit
Applicable to: OMS 3250 (ODU)
Code: 151-3043/01
Figure 11 ODU Switch Secondary Unit
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Subrack Installation Guide
2.6 OMS 3255 Switch 1K Primary Unit
Applicable to: OMS 3255
Code: 02HBA00046AAF
Figure 12 OMS 3255 Switch 1K Primary Unit
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Front Panel Devices
2.7 OMS 3255 Switch 1K Secondary Unit
Applicable to: OMS 3255
Code: 02HBA00047AAH
Figure 13 OMS 3255 Switch 1K Secondary Unit
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Subrack Installation Guide
2.8 OMS 3255 Primary Switch (720G) Unit
Applicable to: OMS 3255 (720G)
Code: 02HAT00097AAD
Figure 14 OMS 3255 Primary Switch (720G) Unit
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Front Panel Devices
2.9 OMS 3255 Secondary Switch (720G) Unit
Applicable to: OMS 3255 (720G)
Code: 02HAT00098AAF
Figure 15 OMS 3255 Secondary Switch (720G) Unit
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Subrack Installation Guide
2.10 OMS 3255 Front Panel Unit (720G)
Applicable to: OMS 3255 (720G)
Code: 02HAT00099AAH
Figure 16 OMS 3255 Front Panel Unit (720G)
Do!
The OMS 3255 Front Panel Unit (720G) is part of the switching subsystem.Extraction of such part will result in affecting all the traffic managed by therelevant switch. DO NOT EXTRACT THE OMS 3255 FRONT PANEL UNIT(720G) ON THE ACTIVE SWITCH. RISK OF TRAFFIC HIT.
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Front Panel Devices
2.11 Low Order Switch 5Gb/s Capacity Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-3138/01
Figure 17 Low Order Switch 5Gb/s Capacity Unit
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Subrack Installation Guide
2.12 Low Order Switch 10Gb/s Capacity Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-2478/01
Figure 18 Low Order Switch 10Gb/s Capacity Unit
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Front Panel Devices
2.13 Low Order Switch 10Gbit/s Optical SFP Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-3140/01
Figure 19 Low Order Switch 10Gbit/s Optical SFP Unit
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Subrack Installation Guide
2.14 40Gbit/s Low Order Blade
Applicable to: OMS 3255 (720G)
Code: 02HAT00159AAD
Figure 20 40Gbit/s Low Order Bla
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Front Panel Devices
2.15 Alarms Module
Code: 151-2570/01
Figure 21 Alarms Module
Note: During the "LED Test", "Power Supply A", "Power Supply B" and “AlarmCard Backup Voltage” LEDs are not tested (not switched on).
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Subrack Installation Guide
2.16 Controller ADM256, OMS 2400/3200 EnhancedController
Code: 151-2483/02, 151-2957/22
Figure 22 Controller ADM256, OMS 2400/3200 Enhanced Controller
Do!
During write or read operations (the amber LED blinks) DO NOT EXTRACT theCompact Flash Memory Cards
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Front Panel Devices
2.17 Auxiliary Unit
Code: 151-3105/01
Figure 23 Auxiliary Unit
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Subrack Installation Guide
2.18 ALARM-SYNC LTU
Code: 151-2551/01
Figure 24 ALARM-SYNC LTU
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Front Panel Devices
2.19 Fan Tray Unit
Applicable to: OMS 3255, OMS 3255 (720G)
Code: 02HAT00100AAH
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU),OMS 3210
Code: 151-2568/01
Figure 25 Fan Tray Unit
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Subrack Installation Guide
2.20 Management LTU
Code: 151-2569/01
Figure 26 Management LTU
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Front Panel Devices
2.21 OMS 3250 Battery Interface Unit
Applicable to: OMS 3250, OMS 3250 (ODU)
Code: 1HAM61079AAS
Figure 27 OMS 3250 Battery Interface Unit
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Subrack Installation Guide
2.22 OMS 3255 Battery Interface Unit
Applicable to: OMS 3255, OMS 3255 (720G)
Code: 02HAT00101AAK
Figure 28 OMS 3255 Battery Interface Unit
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Front Panel Devices
2.23 AUX-PSU LTU
Code: 151-2567/01
Figure 29 AUX-PSU LTU
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Subrack Installation Guide
2.24 16xSTM-1el. Tributary Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 1HAT60921AAJ
Figure 30 16xSTM-1el. Tributary Unit
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Front Panel Devices
2.25 16xSTM-1 Optical Unit (LC)
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Code: 1HAT61036ABP, 1HAT61036ACG, 1HAT61036ADY
Figure 31 16xSTM-1 Optical Unit (LC)
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Subrack Installation Guide
2.26 16xSTM-1 Optical Pluggable Unit and 16xSTM-1/4/16Optical Multirate Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-3134/01
Figure 32 16xSTM-1 Optical Pluggable Unit and 16xSTM-1/4/16 OpticalMultirate Unit
Note: The differentiation between 16xSTM-1 Optical Pluggable Unit and16xSTM-1/4/16 Optical Multirate Unit is achieved by means of a suitablehardware key (HW key) to be plugged onto the motherboard. If suchkey is plugged each card will be enabled to support 16xSTM-1/4/16Optical Multirate Unit functionalities; the 16xSTM-1 Optical PluggableUnit functionalities will only be enabled, if such key is not present.
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Front Panel Devices
2.27 8xSTM-4 Optical Unit (SC)
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Code: 1HAT61033AEK, 1HAT61033AGU, 1HAT61033AJE
Figure 33 8xSTM-4 Optical Unit (SC)
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Subrack Installation Guide
2.28 8xSTM-4 Optical Pluggable Unit and 8xSTM-1/4/16Optical Multirate Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-3134/11
Figure 34 8xSTM-4 Optical Pluggable Unit and 8xSTM-1/4/16 OpticalMultirate Unit
Note: the differentiation between 8xSTM-4 Optical Pluggable Unit and8xSTM-1/4/16 Optical Multirate Unit is achieved by means of a suitablehardware key (HW key) to be plugged onto the motherboard. If suchkey is plugged each card will be enabled to support 8xSTM-1/4/16Optical Multirate Unit functionalities; the 8xSTM-4 Optical PluggableUnit functionalities will only be enabled, if such key is not present.
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Front Panel Devices
2.29 STM-16 c/v Optical Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-3103/01
Figure 35 STM-16 c/v Optical Unit
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Subrack Installation Guide
2.30 2xSTM-16 Optical Unit (SC)
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Code: 1HAT60953ACT, 1HAT60953AED, 1HAT60953AJE
Figure 36 2xSTM-16 Optical Unit (SC)
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Front Panel Devices
2.31 4xSTM-16 Optical Unit (SC)
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Code: 1HAT60937ACW, 1HAT60937AEG, 1HAT60937AGR
Figure 37 4xSTM-16 Optical Unit (SC)
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Subrack Installation Guide
2.32 2.32 4xSTM-16 Optical Pluggable Unit and4xSTM-4/16 Optical Multirate Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-3134/21
Figure 38 4xSTM-16 Optical Pluggable Unit and 4xSTM-4/16 OpticalMultirate Unit
Note: the differentiation between 4xSTM-16 Optical Pluggable Unit and4xSTM-4/16 Optical Multirate Unit is achieved by means of a suitablehardware key (HW key) to be plugged onto the motherboard. If suchkey is plugged each card will be enabled to support 4xSTM-4/16Optical Multirate Unit functionalities; the 4xSTM-16 Optical PluggableUnit functionalities will only be enabled, if such key is not present.
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Front Panel Devices
2.33 16xSTM-16 SFP Core Card
Applicable to: OMS 3255 (720G)
Code: 151-3195/01
Figure 39 16xSTM-16 SFP Core Card
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Subrack Installation Guide
2.34 STM-64 DWDM G.709 Optical Unit (SC)
Code: 151-2938/xx, 151-2980/xx
Figure 40 STM-64 DWDM G.709 Optical Unit (SC)
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Front Panel Devices
2.35 STM-64 Optical Unit (SC)
Code: 151-2553/xx, 151-2554/xx
Figure 41 STM-64 Optical Unit (SC)
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Subrack Installation Guide
2.36 STM-64 XFP Unit
Code: 151-2554/3x
Figure 42 STM-64 XFP Unit
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Front Panel Devices
2.37 4xSTM-64 XFP Core Card (LC)
Applicable to: OMS 3255 (720G)
Code: 151-3196/01
Figure 43 4xSTM-64 XFP Core Card (LC)
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Subrack Installation Guide
2.38 Optical Amplifier Motherboard
Code: 151-2740/01
Figure 44 Optical Amplifier Motherboard
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Front Panel Devices
2.39 Quad Gbit Ethernet Motherboard
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Code: 151-2798/01
Figure 45 Quad Gbit Ethernet Motherboard
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Subrack Installation Guide
2.40 Multiprotocol Data Core Units
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Code: 151-3111/01
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-3111/21
Figure 46 Multiprotocol Data Core Units
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Front Panel Devices
2.41 L2 Aggregation Card
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-3112/02
Figure 47 L2 Aggregation Card
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Subrack Installation Guide
2.42 L2 Aggregation LTU
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 151-3175/01
Figure 48 L2 Aggregation LTU
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Front Panel Devices
2.43 1x10GE Layer 2 Card
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 02HAT00164AAH
Figure 49 1x10GE Layer 2 Card
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Subrack Installation Guide
2.44 10x1GE Layer 2 Card
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 02HAT00163AAF
Figure 50 10x1GE Layer 2 Card
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Hardware Settings
3 Hardware Settings
This Chapter shows the functions and the locations of the setting devicespresent on each unit. There are two main different symbol kinds used:
• Internal use only (factory test): during the commissioning phase you haveto be sure that the device positions on the unit are the same than thoseshown in the correspondent figure
• Customer use: you have to set the devices on the correct position bylooking at the relevant figure and table showing you the different availablefunctions.
The symbols used for the setting devices are described in the following pages.
3.1 Types Of Settings
Figure 51 Types Of Settings 1
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Subrack Installation Guide
Figure 52 Types Of Settings 2
Figure 53 Types Of Settings 3
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Hardware Settings
3.2 Management LTU
Code: 151-2569/01 Soldering side
Figure 54 Management LTU
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Subrack Installation Guide
3.3 ALARM-SYNC LTU
Code: 151-2551/01 Component side
Figure 55 ALARM-SYNC LTU
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Hardware Settings
3.4 L2C Aggregation LTU
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Table 39 L2C Aggregation LTU
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to enable micro initiated laser restart Not fitted
5-6 Fit to disable automatic laser restart Not fittedJ03
7-8 Not Used Not fitted
1-2 Not Used Not fitted
3-4 Not Used Not fitted
5-6 Not Used Not fittedJ02
7-8 Not Used Not fitted
1-2 Not Used Not fitted
3-4 Not Used Not fitted
5-6 Not Used Not fittedJ01
7-8 Not Used Not fitted
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Hardware Settings
3.5 Controller ADM256, OMS 2400/3200 EnhancedController
Code: 151-2483/02, 151-2957/22 Component side
Figure 57 Controller ADM256, OMS 2400/3200 Enhanced Controller
Code: 151-2483/01 Soldering side
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Subrack Installation Guide
Figure 58 Controller ADM256, OMS 2400/3200 Enhanced Controller
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Hardware Settings
3.6 Alarm Module
3.6.1 Dip-switch Settings
Note: By means of a software setting, the Chain Id (CN) number displayis forced off and the Expansion (ESN) number display is set to 01automatically.
The dip-switch shown in the following picture is used to configure the chainnumber (upper display) in the front panel of the unit. The setting number onerepresents the Less Significant Bit, while the setting number eight the MostSignificant Bit. Moreover this switch works using negative logic. In the tablebelow are shown some examples:
Table 40 Dip-switch Settings
Setting Number 1 2 3 4 5 6 7 8 DecimalValue
OFF ON ON ON ON ON ON ON 01
ON OFF ON ON ON ON ON ON 02Setting Value
ON ON ON OFF ON ON OFF ON 72
Do!
In normal working condition the dip-switch has to be set to 01
3.6.2 Setting Alarm Schemes
The Equipment is able to manage different alarm schemes depending on themarket requirements.
In order to define the proper option, a colored multi U-Link has to be fitted onthe J05 connector (see Alarm Module component side).
Table 41 shows the selectable alarm schemes and the correspondent multiU-Link colors:
Table 41 Setting Alarm Schemes
Alarm scheme label Multi U-Link color
MSH 1-W BLACK
MSH 2-W ORANGE
Bw7R BLUE
TEP1E RED
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Subrack Installation Guide
Note: The four colored multi U-Link connectors are provided with the unit
Code: 151-2570/01 Component side
Figure 59 Alarm Module
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Hardware Settings
3.7 16xSTM-1el. Tributary Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Code: 1HAT60921AAJ Component side
Figure 60 16xSTM-1el. Tributary Unit
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Subrack Installation Guide
3.8 16xSTM-1 Optical Unit (LC)
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Table 42 16xSTM-1 Optical Unit (LC)
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to disable automatic laser restart Not fitted
5-6 Fit to enable micro initiated laser restart Not fittedLK1
7-8 Fit to enable FPGA configuration from prom Not fitted
1-2 Not Used Not fitted
3-4 Not Used Not fitted
5-6 Not Used Not fittedLK2
7-8 Not Used Not fitted
1-2 Not Used Not fitted
3-4 Not Used Not fitted
5-6 Not Used Not fittedLK3
7-8 Not Used Not fitted
1-2 Not Used Not fitted
3-4 Not Used Not fitted
5-6 Not Used Not fittedLK4
7-8 Not Used Not fitted
1-2 Not Used Not fitted
3-4 Not Used Not fitted
5-6 Not Used Not fittedLK5
7-8 Not Used Not fitted
Danger!
The pins 1-2 of the LK1 connector, when closed, disable the ALS functionalityon all the ports of the unit.
Code: 1HAT61036ABP, 1HAT61036ACG, 1HAT61036ADY Component side
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Subrack Installation Guide
3.9 8xSTM-4 Optical Unit (SC)
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Table 43 8xSTM-4 Optical Unit (SC)
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to disable automatic laser restart Not fitted
5-6 Fit to enable micro initiated laser restart Not fittedLK1
7-8 Fit to enable FPGA configuration from prom Not fitted
1-2 Fit to enable ALS Bi-directional working for laser channel 1 Not fitted
3-4 Fit to enable ALS Bi-directional working for laser channel 2 Not fitted
5-6 Fit to enable ALS Bi-directional working for laser channel 3 Not fittedLK2
7-8 Fit to enable ALS Bi-directional working for laser channel 4 Not fitted
1-2 Fit to enable ALS Bi-directional working for laser channel 5 Not fitted
3-4 Fit to enable ALS Bi-directional working for laser channel 6 Not fitted
5-6 Fit to enable ALS Bi-directional working for laser channel 7 Not fittedLK3
7-8 Fit to enable ALS Bi-directional working for laser channel 8 Not fitted
Danger!
The pins 1-2 of the LK1 connector, when closed, disable the ALS functionalityon all the ports of the unit. Then it is possible to enable the ALS functionality onport basis by fitting the jumper on the pins relevant to the desired port.
Code: 1HAT61033AEK, 1HAT61033AGU, 1HAT61033AJE Component side
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Subrack Installation Guide
3.10 STM-16 c/v Optical Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Table 44 STM-16 c/v Optical Unit
Link Function Normal State
1 Not used Not fitted
2 Fit to enlarge restart pulse up to 9 sec. Not fitted
3 Fit to disable automatic laser restart Not fitted
4 Fit to enable bidirectional ALS Not fitted
5 Not used Not fitted
6 Not used Not fitted
7 Not used Not fitted
TB02
8 Not used Not fitted
1 Fit to enable ALS software restart Not fittedTB03
2 Fit to force lasers on Not fitted
Code: 151-3103/01 Component side
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Subrack Installation Guide
3.11 2xSTM-16 Optical Unit (SC)
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Table 45 2xSTM-16 Optical Unit (SC)
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to disable automatic laser restart Not fitted
5-6 Fit to enable micro initiated laser restart Not fittedLK45
7-8 Fit to enable FPGA configuration from prom Not fitted
1-2 Fit to enable ALS Bi-directional working for laser channel 1 Not fitted
3-4 Fit to enable ALS Bi-directional working for laser channel 2 Not fitted
5-6 NOT USED Not fittedLK46
7-8 NOT USED Not fitted
1-2 Fit to enable E2POT configuration (during card manufacturing set-up) Not fitted
3-4 Unused (APP0) Not fitted
5-6 Fit to set ALS restart pulse to 9 sec. Do not fit for 2 sec. (APP1) Not fittedLK47
7-8 Fit to enable RSdCCTTI. Do not fit to disable (APP2) Not fitted
Danger!
The pins 1-2 of the LK1 connector, when closed, disable the ALS functionalityon all the ports of the unit. Then it is possible to enable the ALS functionality onport basis by fitting the jumper on the pins relevant to the desired port.
Code: 1HAT60953ACT, 1HAT60953AED, 1HAT60953AGN Component side
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Subrack Installation Guide
3.12 4xSTM-16 Optical Unit (SC)
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Table 46 4xSTM-16 Optical Unit (SC)
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to disable automatic laser restart Not fitted
5-6 Fit to enable micro initiated laser restart Not fittedLK45
7-8 Fit to enable FPGA configuration from prom Not fitted
1-2 Fit to enable ALS Bi-directional working for laser channel 1 Not fitted
3-4 Fit to enable ALS Bi-directional working for laser channel 2 Not fitted
5-6 Fit to enable ALS Bi-directional working for laser channel 3 Not fittedLK46
7-8 Fit to enable ALS Bi-directional working for laser channel 4 Not fitted
1-2 Fit to enable E2POT configuration (during card manufacturing set-up) Not fitted
3-4 Unused (APP0) Not fitted
5-6 Fit to set ALS restart pulse to 9 sec. Do not fit for 2 sec. (APP1) Not fittedLK47
7-8 Fit to enable RSdCCTTI. Do not fit to disable (APP2) Not fitted
Danger!
The pins 1-2 of the LK1 connector, when closed, disable the ALS functionalityon all the ports of the unit. Then it is possible to enable the ALS functionality onport basis by fitting the jumper on the pins relevant to the desired port.
Code: 1HAT60937ACW, 1HAT60937AEG, 1HAT60937AGR Component side
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Subrack Installation Guide
3.13 STM-64 DWDM G.709 Optical Unit (SC)
Table 47 STM-64 DWDM G.709 Optical Unit (SC)
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to enable restarts disabled (every 100 sec.) Not fittedJ07
5 Not Used
1-2 Fit to enable micro restart (1) Not fitted
2-3 Fit to enable 9 seconds restart pulse (2) FittedJ08
4-5 Reserved Fitted
(1) In order to adopt the 9 seconds manual restart via JCT or via front panel push button it is necessary a 3 pinU-Link: J08 pin 1-2-3 connected together(2) Not to be fitted for 2 seconds restart pulse
Code: 151-2938/xx, 151-2980/xx Soldering side
Figure 66 STM-64 DWDM G.709 Optical Unit (SC)
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Hardware Settings
3.14 STM-64 Optical Unit (SC)
Table 48 STM-64 Optical Unit (SC)
Link Function Normal State
1-2 Fit to enable micro initiated laser restarts (together fit 8-9) Not fitted
2-3 Fit to set the ALS restart pulse to 9sec. (not fitted = 2sec. restart pulse) Not fitted
4-5 Fit to enable loading of CPLDs with JTAG chain not complete Fitted
6-7 Fit to disable the ALS (Laser forced ON) Not fitted
8-9 Fit to disable automatic laser restart Not fitted
J08
10 Not Used
1-2 Fit to enable ALS Bi-directional working for laser Not fitted
3-4 Fit to enable the dCCTTIEN defect in the dBDF defect Not fittedJ09
5 Not Used
Code: 151-2553/xx, 151-2554/xx Soldering side
Figure 67 STM-64 Optical Unit (SC)
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3.15 STM-64 XFP Optical Unit
Table 49 STM-64 XFP Optical Unit
Link Function Normal State
1-2 Fit to enable micro initiated laser restarts (together fit 8-9) Not fitted
2-3 Fit to set the ALS restart pulse to 9sec. (not fitted = 2sec. restart pulse) Not fitted
4-5 Fit to enable loading of CPLDs with JTAG chain not complete Fitted
6-7 Fit to disable the ALS (Laser forced ON) Not fitted
8-9 Fit to disable automatic laser restart Not fitted
J08
10 Not Used
1-2 Fit to enable ALS Bi-directional working for laser Not fitted
3-4 Fit to enable the dCCTTIEN defect in the dBDF defect Not fittedJ09
5 Not Used
Code: 151-2554/3x Soldering side
Figure 68 STM-64 XFP Optical Unit
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Hardware Settings
3.16 4xSTM-64 Optical Pluggable Unit
Applicable to: OMS 3255 (720G)
Table 50 4xSTM-64 Optical Pluggable Unit
Link Function Normal State
1-2 Fit to enable the laser software management. In case of enabling, the lasercan be turned ON and OFF via the JCT application. Not fitted
3-4 Fit to enable laser restart from µP In case of enabling, the laser can berestarted via the JCT application. Not fitted
5-6 Fit to disable the automatic laser restart (every 100 sec.) Not fitted
7-8 Selection of laser restart pulses length: 9 sec (if fitted) or 2 sec (if not fitted). Not fitted
9-10 Reserved Not fitted
11-12 Reserved Not fitted
13-14 Reserved Not fitted
J21
15-16 Fit to disable the ALS control. In case of disabling, the laser remains turnedON in despite of any received alarm Not fitted
Note: J37 connector is used for the access to JTAG chain that involves theFPGAs, the ASSPs and the BPAD ASICs. J37 connector is not usedfor hardware settings purposes.
Note: J02 connector is used for laser test/restart button and front LEDsmanagement. J02 connector is not used for hardware settingspurposes
Note: All the jumper settings not specified into the previous table have tobe considered as reserved and they have to be left always opened(jumper not fitted).
Code: 151-3196/01 Component side
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Subrack Installation Guide
Figure 69 4xSTM-64 Optical Pluggable Unit
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Hardware Settings
3.17 16xSTM-16 Optical Pluggable Unit
Applicable to: OMS 3255 (720G)
Table 51 16xSTM-16 Optical Pluggable Unit
Link Function Normal State
1-2 Fit to enable the laser software management. In case of enabling, the lasercan be turned ON and OFF via the JCT application. Not fitted
3-4 Fit to enable laser restart from µP In case of enabling, the laser can berestarted via the JCT application. Not fitted
5-6 Fit to disable the automatic laser restart (every 100 sec.) Not fitted
7-8 Selection of laser restart pulses length: 9 sec (if fitted) or 2 sec (if not fitted). Not fitted
9-10 Fit to disable the ALS control. In case of disabling, the laser remains turnedon in despite of any received alarm. Not fitted
11-12 Fit to disable TIM and J0 as ALS criterion (Single fiber working) Not fitted
13-14 Fit to disable LOS alarms from XFP and SerDes Not fitted
J01
15-16 Fit to enable LOF as ALS criterion. (Single fiber working) Not fitted
Note: J36 connector is used for the access to JTAG chain that involves theFPGAs, the ASSPs and the BPAD ASICs. J37 connector is not usedfor hardware settings purposes.
Note: J02 connector is used for laser test/restart button and front LEDsmanagement. J02 connector is not used for hardware settingspurposes.
Note: All the jumper settings not specified into the previous table have tobe considered as reserved and they have to be left always opened(jumper not fitted).
Code: 151-3196/01 Component side
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Subrack Installation Guide
Figure 70 16xSTM-16 Optical Pluggable Unit
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Hardware Settings
3.18 16xSTM-1 Optical Pluggable Unit and 16xSTM-1/4/16Optical Multirate Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Table 52 16xSTM-1 Optical Pluggable Unit and 16xSTM-1/4/16 Optical Multirate Unit
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to enable laser restart by JCT Not fitted
5-6 Fit to enable laser restart disable (every 100 sec.) Not fitted
7-8 Not Used Not fitted
9-10 Fit to set the ALS restart pulse to 9sec. (not fitted = 2sec. restart pulse) Not fitted
11-12 Fit to enable laser forced ON by JCT command (1) Not fitted
13-14 Not Used Not fitted
J07
15-16 Not Used Not fitted
1-2 Not Used Not fitted
3-4 Not Used Not fitted
5-6 Not Used Not fitted
7-8 Not Used Not fitted
9-10 Not Used Not fitted
11-12 Not Used Not fitted
13-14 Not Used Not fitted
J08
15-16 Not Used Not fitted
(1) In case of ALS activation, proper command from JCT will prevent laser from shutdown
Danger!
The pins 1-2 of the J07 connector, when closed, disable the ALS functionalityon all the ports of the unit.
Note: J04 is not a jumper, it is used as internal interface. J05, J09 and J10are not jumpers, they are debug test points.
Code: 151-3134/01 Component side
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Figure 71 16xSTM-1 Optical Pluggable Unit and 16xSTM-1/4/16 OpticalMultirate Unit
Note: The differentiation between 16xSTM-1 Optical Pluggable Unit and16xSTM-1/4/16 Optical Multirate Unit is achieved by means of asuitable hardware key (HW key – 02MBB00007AAC) to be pluggedonto the motherboard (component side). If such key is plugged eachcard will be enabled to support 16xSTM-1/4/16 Optical Multirate Unitfunctionalities; the 16xSTM-1 Optical Pluggable Unit functionalities willonly be enabled, if such key is not present.
Note: The label indicated that the Multirate Functionality is present in bothcomponent and soldering side.
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Hardware Settings
3.19 8xSTM-4 Optical Pluggable Unit and 8xSTM-1/4/16Optical Multirate Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Table 53 8xSTM-4 Optical Pluggable Unit and 8xSTM-1/4/16 Optical Multirate Unit
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to enable laser restart by JCT Not fitted
5-6 Fit to enable laser restart disable (every 100 sec.) Not fitted
7-8 Not Used Not fitted
9-10 Fit to set the ALS restart pulse to 9sec. (not fitted = 2sec. restart pulse) Not fitted
11-12 Fit to enable laser forced ON by JCT command (0) Not fitted
13-14 Not Used Not fitted
J07
15-16 Not Used Not fitted
1-2 Not Used Not fitted
3-4 Not Used Not fitted
5-6 Not Used Not fitted
7-8 Not Used Not fitted
9-10 Not Used Not fitted
11-12 Not Used Not fitted
13-14 Not Used Not fitted
J08
15-16 Not Used Not fitted
Danger!
The pins 1-2 of the J07 connector, when closed, disable the ALS functionalityon all the ports of the unit.
In case of ALS activation, proper command from JCT will prevent laser fromshutdown.
Note: J04 is not a jumper, it is used as internal interface. J05, J09 and J10are not jumpers, they are debug test points.
Code: 151-3134/11 Component side
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Figure 72 8xSTM-4 Optical Pluggable Unit and 8xSTM-1/4/16 OpticalMultirate Unit
Note: The differentiation between 8xSTM-4 Optical Pluggable Unit and8xSTM-1/4/16 Optical Multirate Unit is achieved by means of a suitablehardware key (HW key – 02MBB00007AAC) to be plugged onto themotherboard (component side). If such key is plugged each card will beenabled to support 8xSTM-1/4/16 Optical Multirate Unit functionalities;the 8xSTM-4 Optical Pluggable Unit functionalities will only be enabled,if such key is not present.
Note: The label indicated that the Multirate Functionality is present in bothcomponent and soldering side.
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Hardware Settings
3.20 4xSTM-16 Optical Pluggable Unit and 4xSTM-4/16Optical Multirate Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Table 54 4xSTM-16 Optical Pluggable Unit and 4xSTM-4/16 Optical Multirate Unit
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to enable laser restart by JCT Not fitted
5-6 Fit to enable laser restart disable (every 100 sec.) Not fitted
7-8 Not Used Not fitted
9-10 Fit to set the ALS restart pulse to 9sec. (not fitted = 2sec. restart pulse) Not fitted
11-12 Fit to enable laser forced ON by JCT command (0) Not fitted
13-14 Not Used Not fitted
J07
15-16 Not Used Not fitted
1-2 Not Used Not fitted
3-4 Not Used Not fitted
5-6 Not Used Not fitted
7-8 Not Used Not fitted
9-10 Not Used Not fitted
11-12 Not Used Not fitted
13-14 Not Used Not fitted
J08
15-16 Not Used Not fitted
Danger!
The pins 1-2 of the J07 connector, when closed, disable the ALS functionalityon all the ports of the unit.
In case of ALS activation, proper command from JCT will prevent laser fromshutdown.
Note: J04 is not a jumper, it is used as internal interface. J05, J09 and J10are not jumpers, they are debug test points.
Code: 151-3134/21 Component side
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Subrack Installation Guide
Figure 73 4xSTM-16 Optical Pluggable Unit and 4xSTM-4/16 OpticalMultirate Unit
Note: The differentiation between 4xSTM-16 Optical Pluggable Unit and4xSTM-4/16 Optical Multirate Unit is achieved by means of a suitablehardware key (HW key – 02MBB00007AAC) to be plugged onto themotherboard (component side). If such key is plugged each card will beenabled to support 4xSTM-4/16 Optical Multirate Unit functionalities;the 4xSTM-16 Optical Pluggable Unit functionalities will only beenabled, if such key is not present.
Note: The label indicated that the Multirate Functionality is present in bothcomponent and soldering side.
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Hardware Settings
3.21 Switch 1K Primary Unit
Applicable to: OMS 3255
Code: 02HBA00046AAF Component side
Figure 74 Switch 1K Primary Unit
Code: 02HBA00046AAF Soldering side
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Subrack Installation Guide
Figure 75 Switch 1K Primary Unit
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Hardware Settings
3.22 Switch 1K Secondary Unit
Applicable to: OMS 3255
Code: 02HBA00047AAH Soldering side
Figure 76 Switch 1K Secondary Unit
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Subrack Installation Guide
3.23 Switch 1K Unit
Applicable to: OMS 3250, OMS 3240
Code: 151-2477/01 Soldering side
Figure 77 Switch 1K Unit
Code: 151-2477/01 Soldering side
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Subrack Installation Guide
3.24 Switch 1K Secondary Unit
Applicable to: OMS 3250
Code: 151-2478/01 Soldering side
Figure 79 Switch 1K Secondary Unit
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Hardware Settings
3.25 Quad. Gigabit Ethernet Motherboard
Applicable to: OMS 3250, OMS 3250 (ODU), OMS 3240, OMS 3240 (ODU)
Table 55 Quad. Gigabit Ethernet Motherboard
Soldering settings Function Default State
Open ALS enable X30
Closed ALS disable (Laser forced ON)
Code: 151-2798/01 Component side
Figure 80 Quad. Gigabit Ethernet Motherboard
Code: 151-2798/01 Soldering side
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Figure 81 Quad. Gigabit Ethernet Motherboard
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Hardware Settings
3.26 Multiprotocol Data Core Unit
Applicable to: OMS 3255*, OMS 3255 (720G)*, OMS 3250, OMS 3250(ODU), OMS 3240, OMS 3240 (ODU)
Table 56 Multiprotocol Data Core Unit
Soldering settings Function Default State
1 Not used Not used
2 Not used Not used
ALS disable (Laser forced ON) ClosedJ100
3-4ALS enable Open
Note: (*) Only the 151-3111/21 version.
Code: 151-3111/01, 151-3111/21 Soldering side
Figure 82 Multiprotocol Data Core Unit
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Subrack Installation Guide
Note: On each port of the Multiprotocol Card is provided a Label (componentside) that indicates the corresponding MAC Address.
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Hardware Settings
3.27 L2 Aggregation Card
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Table 57 L2 Aggregation Card
Link Function Normal State
1-2 Not Used Not fittedJ01
3-4 Fit to disable ALS function (Laser forced ON) Not fitted
Code: 151-3112/02 Soldering side
Figure 83 L2 Aggregation Card
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Subrack Installation Guide
3.28 1x10GE Layer 2 Card
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Table 58 1x10GE Layer 2 Card
Link Function Normal State
1-2 Not Used Not fittedJ01
3-4 Fit to disable ALS function (Laser forced ON) Not fitted
Code: 02HAT00164AAH Soldering side
Figure 84 1x10GE Layer 2 Card
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Hardware Settings
3.29 10x1GE Layer 2 Card
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Table 59 10x1GE Layer 2 Card
Link Function Normal State
1-2 Not Used Not fittedJ01
3-4 Fit to disable ALS function (Laser forced ON) Not fitted
Code: 02HAT00163AAF Soldering side
Figure 85 10x1GE Layer 2 Card
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Subrack Installation Guide
3.30 Low Order Switch 10Gbit/s Optical SFP Unit
Applicable to: OMS 3255, OMS 3255 (720G), OMS 3250, OMS 3250 (ODU),OMS 3240, OMS 3240 (ODU)
Table 60 Low Order Switch 10Gbit/s Optical SFP Unit
Link Function Normal State
1-2 Fit to disable the ALS (Laser forced ON) Not fitted
3-4 Fit to enable laser restart disable (every 100 sec.) Not fitted
5-6 Fit to enable laser forced ON by JCT command (0) Not fitted
7-8 Fit to enable laser restart by JCT Not fitted
9-10 Fit to set the ALS restart pulse to 9sec. (not fitted = 2sec. restart pulse) Not fitted
11-12 Not Used Not fitted
13-14 Not Used Not fitted
15-16 Not Used Not fitted
17-18 Not Used Not fitted
19-20 Not Used Not fitted
Danger!
The pins 1-2 of the J07 connector, when closed, disable the ALS functionalityon all the ports of the unit.
In case of ALS activation, proper command from JCT will prevent laser fromshutdown.
Code: 151-2477/01 Soldering side
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Hardware Settings
Figure 86 Low Order Switch 10Gbit/s Optical SFP Unit
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Subrack Installation Guide
3.31 Low Order Switch 40Gbit/s Blind Unit
Applicable to: OMS 3255 (720G)
Danger!
The only two accessible hardware setting TB03 and J04 are reserved forinternal use only and must be always left opened (jumpers not fitted).
Figure 87 Low Order Switch 40Gbit/s Blind Unit
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Hardware Settings
3.32 Auxiliary Unit
Code: 151-2477/01 Soldering side
Table 61 Auxiliary Unit 1
Normal State
Setting Number 1 2 3 4 5 6 7 8Function
Setting Value OFF OFF OFF OFF OFF OFF OFF OFF Not Used
Table 62 Auxiliary Unit 2
Link Function Normal State
1-2 Not Used Not fittedJxx
2-3 Not Used Not fitted
Figure 88 Auxiliary Unit
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