1692mse r3[1].2a Installation Handbook

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ALCATEL 1692MSE Rel. 3.2A

INSTALLATION GUIDE


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Contents

1 Handbook guide ............................................................................................................. 7

1.1 General information ................................................................................................. 7

1.2 Scope......................................................................................................................... 7

1.3 Related document ..................................................................................................... 7

1.4 Changes .................................................................................................................... 7 1.5 Safety, labels and norms........................................................................................... 8

1.5.1 Safety Rules ..................................................................................................................81.5.2 General Rules...............................................................................................................8

1.6 List of abbreviation ................................................................................................... 9

2 Unpacking and warehousing ........................................................................................ 10

2.1 General ................................................................................................................... 10

2.2 Unpacking............................................................................................................... 10 2.2.1 Preliminary checks ......................................................................................................102.2.2 Unpacking .................................................................................................................10

2.3 Warehousing ........................................................................................................... 11

3 Mechanical installation ................................................................................................. 12

3.1 Rack design............................................................................................................. 12

3.2 Empty shelf.............................................................................................................. 13 3.2.1 CO shelf ....................................................................................................................13

3.2.1.1 Shelf organization ...................................................................................................133.2.1.2 Shelf dimensions .....................................................................................................13

3.2.2 Compact shelf ............................................................................................................143.2.2.1 Shelf organization ...................................................................................................143.2.2.2 Shelf dimensions .....................................................................................................14

3.3 Slot allocations........................................................................................................ 16 3.3.1 Slot allocations for compact shelf .................................................................................163.3.2 Slot allocations for CO shelf ........................................................................................17

3.4 Board front view ..................................................................................................... 18

3.5 Equipment connections ........................................................................................... 20 3.5.1 Optical connections ....................................................................................................203.5.2 Management connections............................................................................................22

3.5.2.1 Housekeeping .........................................................................................................223.5.2.2 Rack Alarm Interfaces ..............................................................................................223.5.2.3 LAN accesses ..........................................................................................................233.5.2.4 “F” Interface............................................................................................................233.5.2.5 “DBG” Interface Connector ......................................................................................243.5.2.6 RS485 connector .....................................................................................................24

3.5.3 Power supply connections ............................................................................................25

3.6 Caution to avoid equipment damage ..................................................................... 26 3.6.1 Right operations for unit (big one) insertion...................................................................263.6.2 Forbidden operations for unit (big one) insertion ...........................................................263.6.3 Right operations for unit (big one) extraction.................................................................273.6.4 Right operations for unit (small one, example with the OMSP) extraction.........................273.6.5 Right operations for SFP tool ........................................................................................28

3.7 1692MSE Mechanical Installation ........................................................................... 29 3.7.1 CO shelf insertion into the rack....................................................................................29


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3.7.2 Compact shelf mechanical installation .........................................................................303.7.2.1 Mounting on the Optinex 21” rack............................................................................303.7.2.2 Mounting on the 19” rack ........................................................................................323.7.2.3 Mounting the desk top .............................................................................................32

4 Electrical and optical installation .................................................................................. 33

4.1 Electrical installation for the compact shelf ............................................................ 34 4.1.1 Electrical connection points for the compact shelf ..........................................................34

4.1.1.1 Power Supply Connections for the 1692MSE..............................................................354.1.1.2 10 base T (RJ45) Interface Connections.....................................................................364.1.1.3 Rack Alarm Interface Connections (Rack lamps).........................................................364.1.1.4 Housekeeping connections.......................................................................................374.1.1.5 I-LINK Connections..................................................................................................39

4.1.2 Electrical and fiber cable route.....................................................................................394.1.2.1 Electrical cable route for the desk-mounted 1692MSE ................................................394.1.2.2 Electrical and fiber cable routes for the 1692MSE mounted on the 19” rack ................404.1.2.3 Electrical and fiber cable route for 1692MSE mounted on the Optinex 21”rack ...........41

4.2 Electrical installation for the CO shelf..................................................................... 42 4.2.1 Cable and fiber installation area for the CO shelf .........................................................42

4.2.2 Electrical connection points for the CO shelf .................................................................424.3 Optical configuration .............................................................................................. 44

4.3.1 Physical configuration .................................................................................................444.3.2 Simple description for front panels ...............................................................................47

4.3.2.1 General rules for optical port identification................................................................474.3.2.2 Front panel view for the optical connection boards ....................................................48

4.3.3 Optical Connection in System Configuration.................................................................674.3.3.1 Unidirectional terminal ............................................................................................674.3.3.2 Bi-directional terminal (single fiber, example with WLA3C access)...............................714.3.3.3 Unidirectional OADM ..............................................................................................714.3.3.4 1 channel Bidirectional OADM (single fiber) ..............................................................74

4.3.3.5 Regenerator (example with WLA3C access) ...............................................................754.3.3.6 CPE Configuration...................................................................................................77

5 Labelling........................................................................................................................ 79

5.1 -48/-60V power supply for TRU .............................................................................. 79

ANNEX A Suggested cables................................................................................................. 80

ANNEX B Rack mounting kit 1692MSE .................................................................................. 81

ANNEX C Desk mounting kit 1692MSE .................................................................................. 81

ANNEX D Jumpers used in the 1692MSE ............................................................................... 82


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Figures

Figure 1 Rack description ..................................................................................................................... 12 Figure 2 CO Shelf organization............................................................................................................13 Figure 3 Shelf dimensions .................................................................................................................... 13 Figure 4 1692MSE single compact shelf................................................................................................14 Figure 5 The 1692MSEcompact shelf Mechanical structure ....................................................................14 Figure 6 Compact shelf dimension and shelf partitioning.......................................................................15 Figure 7 ESC-LC front view...................................................................................................................18 Figure 8 LAN-Q board front view .........................................................................................................18 Figure 9 PSC2 board front view............................................................................................................18 Figure 10 FAN board front view .............................................................................................................18 Figure 11 FAN-CO board example ........................................................................................................18 Figure 12 OSC board front view.............................................................................................................19 Figure 13 OMSP board front view...........................................................................................................19 Figure 14 WLA3C board front view.........................................................................................................19 Figure 15 WLA3COP board front view....................................................................................................19 Figure 16 2XGE-FC board front view ......................................................................................................19 Figure 17 OCC10-NA board front view..................................................................................................19 Figure 18 OCC10-EC board front view ..................................................................................................19

Figure 19 C-OAD-E-U-1-6161-S board front view ..................................................................................19 Figure 20 C-OAD2-E-U-4-55575961-S board front view ........................................................................19 Figure 21 C-MDX-E-U-S board front view ...............................................................................................19 Figure 22 C-4xANY board front view......................................................................................................20 Figure 23 HK board front view ...............................................................................................................20 Figure 24 RAI board front view ...............................................................................................................20 Figure 25 I-LINK-S board front view........................................................................................................20 Figure 26 LC optical connectors .............................................................................................................21 Figure 27 LC optical connectors .............................................................................................................21 Figure 28 MU optical connectors ............................................................................................................21 Figure 29 MU optical connectors ............................................................................................................21 Figure 30 MU optical connectors ............................................................................................................21 Figure 31 CO insertion into the rack.......................................................................................................29 Figure 32 Fans connection ..................................................................................................................... 30 Figure 33 Kit for Optinex rack 21” installation.........................................................................................31 Figure 34 The 1692MSE subrack installation into the Optinex rack...........................................................31 Figure 35 Kit for rack 19” installation .....................................................................................................32 Figure 36 Kit for table installation ...........................................................................................................32 Figure 37 Connection points for the compact 1692MSE shelf...................................................................34 Figure 38 Power supply connections .......................................................................................................35 Figure 39 10 base 2 and 10 base T........................................................................................................36 Figure 40 RM Interface connections ........................................................................................................37 Figure 41 Housekeeping connections......................................................................................................38 Figure 42 1692MSE frontal view with power supply cables and LAN cables ..............................................39 Figure 43 1692MSE compact shelf side view with cables housing.............................................................40

Figure 44 Basic wiring areas ..................................................................................................................42 Figure 45 Electrical connection points for the CO shelf ............................................................................42 Figure 46 Posts to be glued on the front panel ........................................................................................44 Figure 47 4xANY unit front plate detail ...................................................................................................45 Figure 48 Fiber duct in/out position ........................................................................................................45 Figure 49 Metal duct and fans position ...................................................................................................46 Figure 50 Detail of the lower metal duct with additional duct ...................................................................46 Figure 51 The board with optical direction mark......................................................................................47 Figure 52 The board is placed horizontally (used in a compact shelf)........................................................47 Figure 53 The board is placed vertically (used in a CO shelf) ...................................................................47 Figure 54 Front panel of the WLA3C board ............................................................................................48 Figure 55 Front panel of the WLA3COP board........................................................................................49 Figure 56 Front panel of the OCC10 boards ..........................................................................................50 Figure 57 Front panel of the 2XGE-FC board..........................................................................................51


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Figure 58 Front panel of the C-MDX-E-U-S/C-MDX2-E-U-S board ...........................................................52 Figure 59 Front panel of the C-MDX-U/C-MDX2-U board .......................................................................53 Figure 60 Front panel of the C-MDX-B-S board.......................................................................................54 Figure 61 Front panel of the C-MDX-B board..........................................................................................55 Figure 62 Front panel of the C-MDX2-E-1-S board..................................................................................56 Figure 63 Front panel of the C-MDX2-E-2-XX-S board.............................................................................57 Figure 64 Front panel of the C-OAD-E-U-1-XX-S/C-OAD2-E-U-1-XX-S board ..........................................58 Figure 65 Front panel of the C-OAD-U-1-XX/C-OAD2-U-1-XX board ......................................................59

Figure 66 Front panel of the C-OAD-E-U-2-XXXX-S/C-OAD2-E-U-2-XXXX-S board ...................................60 Figure 67 Front panel of the C-OAD-U-2-XXXX/C-OAD2-U-2-XXXX board...............................................61 Figure 68 Front panel of the C-OAD-B-1-XX-S board ..............................................................................62 Figure 69 Front panel of the C-OAD-B-1-XX board .................................................................................63 Figure 70 Front panel of the C-OAD2-E-U-4-XXXXXXXX-S board..............................................................64 Figure 71 Front panel of the C-OAD2-U-4-XXXXXXXX board....................................................................65 Figure 72 Front panel of the C-4xANY board..........................................................................................66 Figure 73 Front panel of the OSC board.................................................................................................67 Figure 74 Front panel of the OMSP board ..............................................................................................67 Figure 75 Only WLA3C configuration (example)......................................................................................67 Figure 76 Only C-4xANY Configuration (example) ..................................................................................68 Figure 77 Mixed WLA3C and C-4xANY Configuration (example) .............................................................70

Figure 78 Bi-directional configuration (example) .....................................................................................71 Figure 79 1 channel OADM configuration (Unidirectional, example) ........................................................71 Figure 80 2 channels OADM Configuration (Unidirectional, example)......................................................72 Figure 81 4 channels OADM Configuration (Unidirectional, example)......................................................73 Figure 82 Bi-directional OADM Configuration (example) .........................................................................74 Figure 83 Regenerator Configuration (MUX/DMUX) ................................................................................75 Figure 84 Regenerator Configuration (OADM) ........................................................................................76 Figure 85 1 channel CPE .......................................................................................................................77 Figure 86 2 channels CPE ...................................................................................................................... 78


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Tables

Table 1 The slot allocation for compact shelves in the 1692MSE release 3.2A........................................16 Table 2 The slot allocation for the CO shelf in the 1692MSE release 3.2A .............................................17 Table 3 Optical connections in the 1692MSE .......................................................................................20 Table 4 Connector access ...................................................................................................................22 Table 5 Pins SUB-D connector access ..................................................................................................23 Table 6 Pins RJ11 connector access .....................................................................................................23 Table 7 RJ 45 Connector access ..........................................................................................................23 Table 8 Connector access ...................................................................................................................24 Table 9 Connector access ...................................................................................................................24 Table 10 Connector access ...................................................................................................................24 Table 11 Power Supply 1 and 2: Connector access ................................................................................25 Table 12 Numbering, functions and paragraphs referred to the Connection Points for compact shelves ....34 Table 13 Slave shelf configuration according to different cable connection ..............................................39 Table 14 Numbering, functions and paragraphs referred to the Connection Points for the CO shelf .........43 Table 15 Optical connection (only WLA3C)............................................................................................68 Table 16 Optical connection (only C-4xANY) .........................................................................................69 Table 17 Optical connection (Mixed WLA3C and C-4xANY) ...................................................................70 Table 18 Optical connection in bi-directional configuration ....................................................................71

Table 19 Optical connection in 1 channel OADM configuration..............................................................72 Table 20 Optical connection in 2 channels OADM configuration ............................................................72 Table 21 Optical connection in 4 channels OADM configuration ............................................................73 Table 22 Optical connection in bi-directional OADM configuration.........................................................74 Table 23 Optical connection in 8 channels regenerator configuration .....................................................75 Table 24 Optical connection in 4 channels regenerator configuration (Using OADM) ..............................77 Table 25 Optical connection in 1 channel CPE configuration ..................................................................78 Table 26 Optical connection in 2 channels CPE configuration.................................................................78 Table 27 -48/-60V power supply cables labelling ..................................................................................79 Table 28 Suggested cables....................................................................................................................80 Table 29 Kit installation ETSI 1692MSE (code 3AN51124AAAA) .............................................................81 Table 30 Kit installation ETSI 1692MSE (code 8DG17422AAAA) .............................................................81 Table 31 Kit installation ETSI 1692MSE (code 3AN51123AAAA) .............................................................81 Table 32 Kit installation ETSI 1692MSE (code 8DG17423AAAA) .............................................................81 Table 33 Jumpers used in the1692MSE .................................................................................................82 Table 34 Optical fiber connection in single shelf ....................................................................................82


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1 HANDBOOK GUIDE

1.1 General information

The current procedure defines the installation modality for the 1692MSE release 3.2A equipment.

Each component utilized on the links is tested at the Factory’s Final Acceptance dept. during the system testphase.

1.2 Scope

The scope of the following operating procedure concerns the standard configured equipment installation.

1.3 Related document

Document Type Part Number1692MSE R3.2A Technical Handbook 3AL 97869 AAAA

1692MSE R3.2A Operator’s Handbook 3AL 97869 ADAA

1.4 Changes

Issue Date Change Note

1692MSE R3.2A Ed.01 060619 First validated and officially released edition


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1.5 Safety, labels and norms

When carrying out the given operations observe the norms stated in the handbook guide section of the technicalhandbook.

1.5.1 Safety Rules

The Safety Rules describe the operations and/or precautions to observe to safeguard operating personnelduring the working phases and to guarantee equipment safety. Please read them properly before starting eachaction on the equipment.

While equipment is operating no one is allowed to have access to the equipment parts that are protected byCover Plate Shields that are removable with tools.

In the case of absolute need to have access to the equipment parts while it is operating. Only service personnelare allowed such access. By service personnel or technical assistant it means:

”Personnel which have adequate technical knowledge and experience necessary to be aware of the danger thatthey might face in carrying out an operation and of the necessary measure to reduce or minimize the danger tothemselves and to others”.The Service Personnel can only replace the faulty units with spare parts. The Service Personnel are not allowed torepair: hence the access to the parts not specified is not prohibited.

The keys and/or the tools used to open doors or hinged covers to remove parts which give access tocompartments in which there are highly dangerous voltages present must belong exclusively to the servicepersonnel.

For the eventual cleaning of the external parts of the equipment, absolutely do not use any inflammablesubstance, which in some way may alter the markings, inscriptions etc. It is recommended to use a slightly dampcleaning cloth.

1.5.2 General Rules

Check that the equipment is operating with all the shields properly positioned (dummy covers, ESD connectorprotections, etc.).Carefully observe the front-panel warning labels prior to working on optical connections while the equipment isin-service.To reduce the risk of damaging the electrostatic sensitive devices, it is mandatory to use the elasticized band(worn around the wrist) and the coiled cord connected to the rack ground when having to touch the equipment.

ATTACHING THE UNITS (AND MODULES) INTO THE SUBRACK

(Caution to avoid equipment damage)

The screw tightening torque for attaching the units (and modules, if any and if screw-fastened) into the subrackmust be:

2.8 kg x cm (0.28 Newton x m) ± 10 %

Exceeding this value may result in the broken screws.

ATTENTION EMC NORMS

Safety Rules

Carefully observe the front-panel warning labels prior to working onthe optical connections while the equipment is in-service.


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1.6 List of abbreviation

BER Bit Error Rate

B/W Black and White

CO Centre Office

CPE Customer Premise Equipment

CWDM Coarse Wavelength Division Multiplex

EC Equipment Controller

ESC-LC Lost Cost Equipment Shelf Controller

E-SNCP Electrical SubNetwork Connection Protection

EXP Expansion

Gbit/s Giga bit per second

HK House Keeping

OADM Optical Add Drop Multiplexer

OCC10 10Gbps Optical Channel Card

ODF Optical Distribution Frame

OMDX Optical Mux/Demux

OMSP Optical Multiplex Section Protection

OSC Optical Supervisory Channel

O-SNCP Optical SubNetwork Connection Protection

PMU Power Management Unit

PSC Power Supply Card

RAI Rack Alarm Interface Card

TRU Top Rack Unit

USM User Service Manager

WLA Wavelength Adapter


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2 UNPACKING AND WAREHOUSING

2.1 General

The following procedures have been issued and must be observed when unpacking the equipment.

The reciprocal operation must be done for repacking. In such case it is recommended to use the originalpacking material.

The following sturdy outer packing material is utilized in order to protect the equipment against mechanical andclimatic stresses to which they are subjected:

Wooden crates: For transport by ship, air, on road for periods longer than 60 days.Ply-wood crates: For transport by ship, air, on road for periods of 30 to 60 days.Cardboard boxes: For transport by air or on road for periods of less than 30 days.

2.2 Unpacking

2.2.1 Preliminary checks

The following information should be printed on the outer crate:International symbols

side up :

keep dry

fragile

Trade mark/address of the manufacturing company.Labels (or templated marks) indicating information on the contract and destination site of the product.

An envelope holding the packing list along with other documents.

Upon receipt check:

That the final destination of the crates is that indicated on the label.That no damage occurred to the cases.

Report any shipping damages to the Company’s representative or the Shipping Agent.

2.2.2 Unpacking

When having to unpack proceed as follows:

Make sure that the packing has been properly positioned. Refer to the symbol.Open the case.Remove the shockproof material.Remove the goods from the case.Remove the pre-packing, the polyethylene bag and any other protection.Remove the plastic bags cellotaped to the rack and containing accessories.Remove the dehydrating bags.

Ascertain that the goods are not damaged and that they correspond to those indicated on the packing listenclosed in the envelope. If there is damage or the items do not match the packing list, contact theagency’s representative.

N.B. When unpacking it is advisable to handle the packing material with care; it might be reused for


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repacking if the items must be reshipped.

2.3 Warehousing

If storing the packed materials, the following requirements must be met:

The cardboard boxes must be placed indoors in airy rooms.The wooden or plywood cases can be placed outdoors provided they are protected against rain and directsunlight.


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3 MECHANICAL INSTALLATION

3.1 Rack design

The 1692MSE mechanical design allows to put up to 4 CO shelves or up to 12 compact shelves in a single rack.It is compatible with the following mechanical standards:

A 2000 mm high ETSI rack. A 2150 mm high ANSI rack. A 1950 mm high NEBS 2000 rack.

N.B. The compact shelves can also be placed outside the rack, such as on the desk.

Figure 1 Rack descriptionIn 1692MSE release 3.2A, up to four compact shelves or one CO shelf can be managed in a NE.


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3.2 Empty shelf

3.2.1 CO shelf

3.2.1.1 Shelf organization

The CO shelf is divided into 49 board or unit slots, grouped in three parts:

a) The main part, which is the upper part and which comprises the slots from 1 to 24.b) The first extension part, which is the middle part and which comprises the slots from 25 to 48.c) The second extension part, which is the bottom part and which comprises the slot 49.

Suitable for mounting on concrete or other non-combustible surface only.Figure 2 CO Shelf organization

3.2.1.2 Shelf dimensions

Figure 3 Shelf dimensions


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3.2.2 Compact shelf

The 1692MSE compact shelf is “Compact WDM” architecture. The following is the mechanical photo for singleshelf (main or slave).

Figure 4 1692MSE single compact shelf

Main features provided by the 1692MSE compact shelf:

It is very easy to use due its small size.Up to 12 shelves can be set in a 2000 mm high ETSI rack, or a 2150 mm high ANSI rack, or 1950 mmhigh NEBS 2000 rack.It can be placed on the outside of the rack, such as on the desk.

3.2.2.1 Shelf organization

The 1692MSE single compact shelf is divided into 13 board or unit slots, grouped in three parts:

The main part comprises the slots from 1 to 6 used for the main boards.The right side part comprises the slots from 7 to 12 used for the small boards.The left side part comprises the slot 13 available for the FAN board.

Main part (slot 1 to 6)

Second extension part (slot 13) First extension part (slot 7 to 12)

Figure 5 The 1692MSEcompact shelf Mechanical structure

3.2.2.2 Shelf dimensions

Shelf size:

The size of the 1692MSE shelf is 446.2mm (width) x 274mm (depth with cover) x 132.4 mm (height).The depth is compliant with the 300 mm deep ETSI rack (no limitation in ANSI rack).

The operator must wear a wrist-strap bracelet connected to the mechanical ground ( available onthe rear of the shelf ) for each handling of a board, optical connectors or a part of the shelf.


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On the Release 3.2A, up to four compact shelves can be is managed in one NE. The dimension for the fourshelves is the same. See the following figure.

Slot 1

Slot 5

Slot 4

Slot 3

Slot 2

7

12

11

10

9

813

Slot 6

ESC-LC PSC2

PSC2

LAN-Q

446.2mm

1 3 2

. 4

m m

FAN

Figure 6 Compact shelf dimension and shelf partitioning


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3.3 Slot allocations

3.3.1 Slot allocations for compact shelf

The board composition and placement in a shelf has some constraints at the hardware, software and functionallevels.

For Hardware and/or Software organization, some boards are located in dedicated slots. In the 1692MSErelease 3.2A, up to four compact shelves are supported in a NE.

Mandatory boards are: ESC-LC, LAN-Q, PSC, PSC2 and FAN.

N.B. WLA includes WLA3C and WLA3COP. OCC10 includes OCC10-NA and OCC10-EC.N.B. OAD includes C-OAD and C-OAD2. MDX includes C-MDX and C-MDX2. C-OAD, C-OAD2, C-MDXand C-MDX2 respectively include many kinds of boards according to different wavelengths and other features.N.B. OSC cards can be placed in slots 9 or 11 of the master shelf. When the OSC board is plugged in slot9, the MDX/OAD board must be placed in slot 2. If only one OSC is used, slot 11 is preferred.N.B. Only one HK board can be configured in a NE.

Table 1 The slot allocation for compact shelves in the 1692MSE release 3.2A Allowed unit types in master shelfUnits

1 2 3 4 5 6 7 8 9 10 11 12 13ESC-LC xMDX x x x x xOAD* x x x x xC-OAD2-4 x

WLA x x x x xOCC10 x x x x x2XGE-FC x x x x xC-4xANY x xOMSP x x

LAN-Q xPSC x xPSC2 x xOSC x xFAN xHK xRAI x x

Allowed unit types in slave shelves Units1 2 3 4 5 6 7 8 9 10 11 12 13

MDX x x x x xOAD* x x x x xC-OAD2-4 x

WLA x x x x xOCC10 x x x x x2XGE-FC x x x x xC-4xANY x xI-LINK-S xOMSP x** x xPSC2 x xFAN xHK x

* Except C-OAD2-U-4-XXXX and C-OAD2-E-U-4-XXXX-S.** Due to the hard ware limitation, the slot 9 in third expansion shelf can’t be utilized when the PSC is used inthe master shelf. If a PSC2 is used, there’s no such constrain.


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3.3.2 Slot allocations for CO shelf

In 1692MSE release 3.2A, only one CO shelf is supported in a NE.

Mandatory boards are: ESC-LC, LAN-Q, PSC/PSC3 and FAN-CO.

N.B. The WLA includes WLA3C and WLA3COP. The OCC10 includes OCC10-NA and OCC10-EC.N.B. The OAD includes C-OAD and C-OAD2. The MDX includes C-MDX and C-MDX2. The C-OAD,C-OAD2, C-MDX and C-MDX2 respectively include many kinds of board according to different wavelengthsand other features.N.B. The OSC must host in slots 35 and 43. If the OSC is put in slot 35, slot 10 must be plugged withMDX/OAD. If the OSC is put in slot 43, slot 18 must be plugged with MDX/OAD.

Table 2 The slot allocation for the CO shelf in the 1692MSE release 3.2AUnits 1 2 3 4 5 6 7 8 9 10 11 12 13

ESC-LC xMDX x x x x x x x x x x x xOAD* x x x x x x x x x x x xC-OAD2-4 x

WLA x x x x x x x xOCC10 x x x x x x x x2XGE-FC x x x x x x x xC-4xANY x x x x x x

14 15 16 17 18 19 20 21 22 23 24MDX x x x x x x x x x xOAD* x x x x x x x x x xC-OAD2-4 x

WLA x x x x x x x xOCC10 x x x x x x x x2XGE-FC x x x x x x x xC-4xANY x x x x x

25 26 27 28 29 30 31 32 33 34 35 36 37PSC/PSC3 xLAN-Q xOSC xOMSP x x x x x x x xHK xRAI x

38 39 40 41 42 43 44 45 46 47 48 49PSC/PSC3 xLAN-QOSC xOMSP x x x x x x x xHKRAIFAN-CO x

* Except the C-OAD2-U-4-XXXX and C-OAD2-E-U-4-XXXX-S.


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3.4 Board front view

In the following chapters, the front panel photos of boards used in the 1692MSE release 3.2A are shown.

Figure 7 ESC-LC front view

Figure 8 LAN-Q board front view

Figure 9 PSC2 board front view

Figure 10 FAN board front view

Figure 11 FAN-CO board example


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Figure 12 OSC board front view

Figure 13 OMSP board front view

Figure 14 WLA3C board front view

Figure 15 WLA3COP board front view

Figure 16 2XGE-FC board front view

Figure 17 OCC10-NA board front view

Figure 18 OCC10-EC board front view

Figure 19 C-OAD-E-U-1-6161-S board front view

Figure 20 C-OAD2-E-U-4-55575961-S board front view

Figure 21 C-MDX-E-U-S board front view


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Figure 22 C-4xANY board front view

Figure 23 HK board front view

Figure 24 RAI board front view

Figure 25 I-LINK-S board front view

3.5 Equipment connections

The external connections of the 1692MSE may be divided into the following categories:

Optical

ManagementPower supply

N.B. In the compact shelf, the board or unit is placed horizontally; while in the CO shelf, the board or unit isplaced vertically.

3.5.1 Optical connections

In the 1692MSE, two kinds of optical connectors are used: LC and MU.

Table 3 Optical connections in the 1692MSELC MU Direction

WLA/2XGE-FC √ InclinedOSC √ StraightMDX/OAD √ InclinedOMSP √ StraightOCC10-NA √ InclinedOCC10-EC √ √ Inclined

a) WLA/2XGE-FC boards


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Figure 26 LC optical connectors

b) OSC board

Figure 27 LC optical connectors

c) OMSP board

Figure 28 MU optical connectors

d) OAD and MDX boards


e) OCC10-NA board



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3.5.2 Management connections

3.5.2.1 Housekeeping

The housekeeping alarm signals are available on the front panel connector of the HK board. It is a 25 pinSUB-D Female connector.

Table 4 Connector access Number Name Description Connector

1 Common out Common output2 OUT1 Output3 OUT2 Output4 OUT3 Output5 OUT4 Output6 OUT9_1 Output7 OUT9_2 Output8 OUT9_3 Output9 IN1 Input

10 IN2 Input11 IN3 Input12 IN4 Input13 GNDP Input signal Ground14 Common out Common output15 OUT8 Output16 OUT7 Output17 OUT6 Output18 OUT5 Output19 IN9_1 Input20 IN9_2 Input21 IN8 Input22 IN7 Input23 IN6 Input24 IN5 Input25 GNDP Input signal Ground26 GNDM Mechanical Ground27 GNDM Mechanical Ground

N.B. The 25 pin SUB-D connector is connected to the GNDM by the 2 screw holes called pin 26 and pin27.

3.5.2.2 Rack Alarm Interfaces

The rack alarm interface signals are available on the two front panel connectors of the RAI board. These twointerfaces are:

A 9 pins SUB-D female connector: It provides the interface between the master shelf and the TRU (or PDU). A 6 pins RJ11 connector: It provides the interface between two shelves.


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Master shelf - TRU interfaceTable 5 Pins SUB-D connector access

Number Name Description Connector1 CRI_AL_UP Critical (or Urgent) alarm output

2 GNDP Common of the inputs

3 MAJ_AL_UP Major (or Non-Urgent) alarm output

4 RACK_AL_UP Rack (or Up) alarm output

5 MIN_AL_UP Minor (or Non-Urgent) alarm output

6 AL_IN_COM Common of the outputs

7 PRM_AL_UP Primary alarm input

8 SEC_AL_UP Secondary alarm input

9 FAN_AL_UP Fan alarm inputMaster shelf -shelf interface

Table 6 Pins RJ11 connector accessNumber Name Description Connector

1 CRI_AL_DOWN Critical (or Urgent) alarm input

2 MAJ_AL_DOWN Major (or Non-Urgent) alarm input

3 RACK_AL_DOWN Rack (or Up) alarm input

4 MIN_AL_DOWN Minor (or Non-Urgent) alarm input

5 AL_IN_COM Common of the inputs

6 AL_IN_COM Common of the inputs

3.5.2.3 LAN accesses

The LAN board can be accessed by the RJ–45 connector .on its front panel.

Table 7 RJ 45 Connector accessNumber Name Description Connector

1 RX–P Reception–Positive

2 RX–N Reception–Negative

3 TX–P Transmission–Positive

4 Not used –

5 Not used – 6 TX–N Transmission–Negative

7 Not used –

8 Not used –

3.5.2.4 “F” Interface

At the ESC-LC front panel, a 9–pin SUB–D female connector provides an access to an ”F” interface. It allowsconnection to a Craft Terminal.


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Table 8 Connector accessNumber Name Description Connector

1 F_DCD F_DATA Carrier Detect2 F_RXD F_Received Data3 F_TXD F_Transmitted Data4 F-DTR F_Data Terminal Ready

5 GND Signal Ground6 F_DSR F_Data Set Ready7 F_RTS F_Request To Send8 F_CTS F_Clear To Send9 Not used –

3.5.2.5 “DBG” Interface Connector

The 8–pin RJ45 connector on the front panel of the ESC-LC board, provides an access for the “DBG” interface.

Table 9 Connector access

Number Name Description Connector1 Not used –

2 Not used –

3 D_TXD DBG_Transmit Data

4 Not used –

5 D_RXD DBG_Receive Data

6 Not used –

7 D_DTR DBG_Data Terminal Ready

8 GND Ground

3.5.2.6 RS485 connector

There are three RS485 connectors on the front panel of the ESC-LC board and one connector on the front panelof the I-LINK-S board.

Table 10 Connector accessNumber Name Description Connector

1 SPI_MODE_SLAVE_DP SPI_MODE positive2 SPI_CLK_SLAVE_DP SPI_CLK positive3 SPI_TXD_SLAVE_DP SPI_TXD positive

4 SPI_RXD_SLAVE_DP SPI_RXD positive5 CARD_PRES_SLAVE_DP CARD_PRES positive6 Not used -7 Not used -8 Not used -9 SPI_MODE_SLAVE_DN SPI_MODE negative

10 SPI_CLK_SLAVE_DN SPI_CLK negative11 SPI_TXD_SLAVE_DN SPI_TXD negative12 SPI_RXD_SLAVE_DN SPI_RXD negative13 CARD_PRES_SLAVE_DN CARD_PRES negative14 ID4 SLOT ID415 ID5 SLOT ID5


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3.5.3 Power supply connections

The power supply voltage is distributed to the shelves by a 3 pin SUB–D connector, on the front panel of eachPower Supply Card.

Table 11 Power Supply 1 and 2: Connector accessNumber Name Connector

1 (male) + PVBATT

2 (female) GND

3 (male) – NVBATT


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3.6 Caution to avoid equipment damage

3.6.1 Right operations for unit (big one) insertion

A B C Da) Open the levers before plugging the unit.b) To mate the plastic body of the connectors. Pushing on the front panel, balancing the strain without

pushing on the levers.c) Push on the levers in order to finish the connector mating.d) Attach the unit to the subrack by means of screws, before inserting its above or nether board unit.

N.B. For small unit insertion, just place the unit in the right slot and push the front panel of this unit with asimilar action to the one demonstrated one in B of the above figure.

3.6.2 Forbidden operations for unit (big one) insertion

A B C

a) Don’t push just on just one lever.b) Don’t force the units.c) Avoid impact while handling the units.


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3.6.3 Right operations for unit (big one) extraction

A B C

a) Unscrew the top and bottom screws before extracting the unit.b) Open the levers opening gently as shown in the picture.c) Grasp and pull the unit as shown in the picture.

3.6.4 Right operations for unit (small one, example with the OMSP) extraction

1

2

3

4

A B

a) Unscrew the top and bottom screws before extracting the unit (see 1and 2of picture A).b) Insert the pull tool 4 into the hole 3 on the front panel and circumvolve the tool 90 degrees in order to getthe right direction.c) To pull out the unit, use the pull tool 4 as shown in the picture B.

S c r e w s


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3.6.5 Right operations for SFP tool

See the following figures for SFP tool:

A B

The right operations for SFP tools are here:

A B

C D

a) Insert the tool into the interface.b) Push the bottom handspike into the gap between modules and EMI cover to push the clip down.c) Draw out the tools with the SFP module.d) Push the front blue button to pull the tool out without the SFP module.


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Insert the Fans unit with a P/N 3AL 86625 AAAA into the rack lower side.

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48

Figure 32 Fans connection

3.7.2 Compact shelf mechanical installation

The mounting possibilities of the 1692MSE subrack are:

Onto the Optinex 21” rack.Onto a 19” rack.On a desk.

3.7.2.1 Mounting on the Optinex 21” rack

To mount the 1692MSE subrack onto the Optinex rack carry out the following operations:

Mount the 21” brackets ① onto the subrack using the appropriate screws ⑥ .Locate the holes ② situated on the adapters and insert the 4 screws ③ and the 4 washers ④ , that will beused for fastening the subrack to the rack.Place the subrack onto the rack and tighten the 4 screws.Replace the cover ⑤ .

All the material is supplied in installation kit listed in Annex B.

To install the Fans unit, do not use any tools but install it ONLY by hands, just as shownin the following figure.


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4

36

12

5

Squares nessecaires with theassembly in the rack of 21" Figure 33 Kit for Optinex rack 21” installation

Figure 34 The 1692MSE subrack installation into the Optinex rack


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4.1 Electrical installation for the compact shelf

4.1.1 Electrical connection points for the compact shelf

The following figure shows the basic shelf configuration as well as the main connection points utilized during thetest phase.

Slot 6 Slot 12 PSC2 ① Slot 5 Slot 11Slot 4 Slot 10Slot 3 Slot 9 RAI ⑥ ⑦ Slot 2 Slot 8 LAN-Q ② ③

FAN

Slot 13

Slot 1 ESC-LC ④ ⑧ Slot 7 PSC2 ①

Slot 6 Slot 12 PSC2 ① Slot 5 Slot 11Slot 4 Slot 10Slot 3 Slot 9

Slot 2 Slot 8

FAN

Slot 13Slot 1 I-LINK-S⑧ Slot 7 PSC2 ①

Slot 6 Slot 12 PSC2 ① Slot 5 Slot 11Slot 4 Slot 10Slot 3 Slot 9Slot 2 Slot 8

FAN


Slot 6 Slot 12 PSC2 ① Slot 5 Slot 11 HK ⑤ Slot 4 Slot 10Slot 3 Slot 9Slot 2 Slot 8

FAN


N.B. There are three connectors on the front panel of the ESC-LC board, which are used to connect withslave shelves.

Figure 37 Connection points for the compact 1692MSE shelf

Table 12 Numbering, functions and paragraphs referred to the Connection Points for compact shelves Access Point Slot Function From/To Para.

① 12,7 Power supply connections -48/-60V Power Supply/TRU -② 8 I/O BNC for 10 base 2 10base2 -③ 8 RJ45 for 10 base T 10baseT -④ 1 RS232 for CT PC -⑤ 11 House Keeping DDF -⑥ 9,10 Rack lamps TRU -⑦ 9,10 Rack lamp for chain Another shelf -

⑧ 1 (Master shelf)1 (Slave shelf) RS485 connections1 (Master shelf)1 (Slave shelf) -

MasterShelf

SlaveShelves


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4.1.1.1 Power Supply Connections for the 1692MSE

These connections are made directly on the connector of the two power supply cards installed in slots 7 and 12.

The cable has already been provided with a connector supplied with the installation set kit.

If the 1692MSE is mounted on a rack, the other end of the cable is connected into the OPTINEX rack (T.R.U.) forstation power-supply connections.

If the equipment is not mounted on a rack, hence with no TRU, wire-connect the power to the station batteries.

16A Circuit Breaker.This device constitutes the protection breaking point for the station power supply. Two circuit breakers aresupplied with the subrack and are mounted onto the TRU (one on the Battery A and one on the Battery B).On the front plate of the TRU, put an identification label of the feed shelf in corresponding with the circuitbreakers used.

In general:

Due to possible very high currents in case of short-circuit at the battery power input. It is essential that thebattery power distribution line shall be provided with a short circuit back-up protection with adequatebreaking capacity in case a short-circuit occurs at the battery power input.Before pulling the power supply cards out from the shelf make sure that the power line is not connectedwith the power supply card. If the power supply card is pulled out with the current connected, it is possibleto cause a short-circuit.

Figure 38 Power supply connectionsThe compact shelf must be grounded to the station through the screw used to fix the subrack into the Optinexrack. Under the condition of desk mounting, the shelf is grounded through the power supply cable.

SAFETY RULES

SAFETY RULES


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4.1.1.2 10 base T (RJ45) Interface Connections

These connections are directly made on the connector of the “LAN unit” installed in slot 8 (10 base T) of themaster shelf.

The cable connecting the unit through connector R, is set up in-field using the cable reported on the followingfigure and the RJ45 connector supplied with the equipment.

Connect the cable to connector R.

Figure 39 10 base 2 and 10 base T

4.1.1.3 Rack Alarm Interface Connections (Rack lamps)

The connections are established between the connector C1 of the “RAI unit” inserted in slots 9-10 of the mastershelf and the connector of the Extension Alarm unit of the OPTINEX rack.

They are recognized via a “Card plug Alarms” terminated with a SUB.D-9P Male connector (unit side) and witha SUB.D-9P fixed male connector Extension Alarm unit.

The connector C2 is used to link a chain of shelves when an Extension Alarm is not foreseen (the Extension Alarm unit of the Optinex rack allows the connection of 7 different shelves separately).

The “Chain” connection must be done using a plug card with a SUB.D-9P Male connector in one side and a RJconnector in the other side.


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Figure 40 RM Interface connections

4.1.1.4 Housekeeping connections

These connections are directly made on the connector of the “HK unit” installed in slot 11.The cable is supplied already prepared for connection at one end (equipment side). The other end is preparedfor connection in-field in accordance with the type of connector present on the Customer’s DDF.

The SUB.D 25 P connector and shell are inside the installation kit.

(*) – The pins 2 and 9 on RAI side must be linked between them.


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Figure 41 Housekeeping connections


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4.1.1.5 I-LINK Connections

As mentioned before, the 1692MSE can support up to four shelves in a NE. When a slave shelf is needed, youshould connect the ESC-LC board on the master shelf and the I-LINK-S board on the used slave shelf via theI-LINK cable (code: 3AL97503AAAA).

There are three RS485 connectors (marked CONN S1, S2 and S3) on the front panel of the ESC-LC board andone RS485 connector on the front panel of the I-LINK-S board.

Table 13 Slave shelf configuration according to different cable connectionShelf to be configured in the USM Physical cable connection with master shelf

Slave shelf 1 marked “r01s2” on the USM Connect CONN S1 with the connector on the slave 1 shelfSlave shelf 2 marked “r01s3” on the USM Connect CONN S2 with the connector on the slave 2 shelfSlave shelf 3 marked “r01s4” on the USM Connect CONN S3 with the connector on the slave 3 shelf

4.1.2 Electrical and fiber cable route

4.1.2.1 Electrical cable route for the desk-mounted 1692MSE

All the electrical cables (Power supply and RJ45) must be lead out from the subrack through the specific slits,

bundled and placed into the ducts mounted on the sidewall of the subrack.

The cables will then exit from the back wall of the subrack and continue towards the line.

Figure 42 1692MSE frontal view with power supply cables and LAN cables

LANCable

PowerSupplyCable


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Figure 43 1692MSE compact shelf side view with cables housing

When the PMU is used, the power supply cables also should be lead through the ducts mounted on the sidewall

of the subrack.The overlength of all the cables must be taken and tied behind the subracks.

4.1.2.2 Electrical and fiber cable routes for the 1692MSE mounted on the 19” rack

When the 1692MSE is mounted on a 19” rack the electrical cables will be routed as follows:

The cables must lead out from the specific slits situated on the sidewalls of the subrack.Bundle together the cables.Route the cables towards the bottom and make them pass under the subrack and then fasten them tothe sidewall of the rack.

The fiber cables instead will, after having left the subrack through the specific slit, be routed towardsthe top.In compliance with the bending radius (r = 2,5 cm) the fibers will reach the duct by passing over thesubrack proper.The bending radius of the fiber must be more than 25mm according to Telcordia GR-20 R5-34. Tocomply with this rule, the single fiber cable has to circle around more than three specific slits. Afterfinishing all the connections of the fiber cables, you had better attach the small white cover to restrictthe cables.


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4.1.2.3 Electrical and fiber cable route for 1692MSE mounted on the Optinex 21”rack

When the subrack of the 1692MSE is mounted on an Optinex 21” rack, the cables and the fibers will follow thesame route as that followed on the 19” rack, except that the cables and the fibers will neither pass above norunder the subrack but alongside it as shown in the picture below.


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4.3 Optical configuration

This chapter describes the local connections for the optical configurations that are possible on the 1692MSEsubrack, specifically:

Unidirectional terminal (two fibers)Only WLA accessOnly C-4xANY accessMixed WLA and C-4xANY access

Bidirectional Terminal (single fiber, example with a WLA3C access)Unidirectional OADM (two fibers, example with a WLA3C access)

1 channel OADM2 channels OADM4 channels OADM

1 channel Bidirectional OADM (single fiber)Regenerator (example with a WLA3C access)CPE

4.3.1 Physical configuration

The optical connections of each configuration are made with suitably long jumpers and are normally carried outin the factory. In order to make the installation work easier and cable routing neat, proper posts and rings gluedto the units’ front panel are used in order to keep the fibers correctly into place.

The posts are glued on the front panel of the units as shown in Figure 46 for WLA units and in Figure 47 for4xANY units.

Figure 46 Posts to be glued on the front panel

Unit Extractors

Optical Fiber supportmounting position

Glued zone


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Figure 47 4xANY unit front plate detail

All the fibers connected to 4xANY unit are collected in the “special fiber collector” glued on the front plate asshown in Figure 47.

Any extra length of fiber (a few centimeters) is arranged within the center duct (immediately under the WLA unit).

The fibers connecting the external ODFs (I/O B/W and Line) pass through the metal duct situated in the lowersection of the shelf.

They are laid in the proper sector of the duct like shown in Figure 50.

The fibers running towards the ODFs and connecting the units situated in slots 3 to 11 output on the lefthand-side of the subrack, while those connecting the units situated in slots 14 to 22 output on the righthand-side of the cited subrack.

The fibers exiting the horizontal metal duct of the subrack, access the vertical duct of the rack (see Figure 48).

Since the horizontal duct of the subrack is mobile (rotates towards the top as shown in Figure 49), to extract thefans unit, for maintenance purposes, the hole through which the fibers access the external rack duct (cutting thebreakable finger of the duct) must be wide enough to prevent the fibers from being stressed when rotating thehorizontal duct of the subrack (see Figure 48).

When the fibers inside the rack duct run towards the bottom, an extra fiber length must be accounted for toenable movement when the subrack duct is rotated to the maximum allowed.

Figure 48 Fiber duct in/out position

4xANY unit front plate

Glued zoneSpecial fibers

collector

Duct breakablefinger


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Figure 49 Metal duct and fans position

Sector for electrical cables

Sector for optical cables

Figure 50 Detail of the lower metal duct with additional duct

Position of thefans unit

Metal duct rotatetowards the top (90°)

Fibersector

Cablesector


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4.3.2.2 Front panel view for the optical connection boards

The following figures are the front panel view for optical connection boards in the 1692MSE R3.2A:

N.B. Concerning the optical port definition in the following front panel description for optical connectionboards in the 1692MSE R3.2A, please refer to document: 3AL_97869_AAAA.

PWR

CH1

CH2

OOS

W1

W1

U1

U1

W2

W2

U2

U2

ExtractionHandle

ExtractionHandle

CWDM Tx2CWDM Rx2

CWDM Tx1CWDM Rx1

BW Tx2BW Rx2

BW Tx1BW Rx1

Optical Safety Label

Electrostatic DischargeLabel

Power Failure LEDOut of Service LEDChannel1 Abnormal LEDChannel2 Abnormal LEDHardware Failure LED

Figure 54 Front panel of the WLA3C board


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Hardware Failure LED

PWR

MF

RXA

TXA

OOS

Power Failure LEDOut of Service LED Abnormal Rx LED Abnormal Tx LED

APSD Restart button

U

W

User RxUser Tx

WDM Rx WDM Tx

P

N

P

N

10Gbps Rx

10Gbps Tx


Extraction Handle

Extraction Handle

Not used

Not used

OCC10-NA


PWR

MF

RXA

TXA

OOS

Power Failure LEDOut of Service LED Abnormal Rx LED Abnormal Tx LED

APSD Restart button

U

W

User TxUser Rx

WDM Rx WDM Tx

P

N

P

N

10Gbps Rx

10Gbps Tx


Extraction Handle

Extraction Handle

Not used

Not used

OCC10-EC

Figure 56 Front panel of the OCC10 boards


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U 3

U1

U4

U

2

ExtractionHandle

ExtractionHandle

W

W-P

CWDM Tx1CWDM Rx1

BW Tx1BW Rx1

BW Tx2BW Rx2

CWDM Tx2CWDM Rx2



DBG Interface RJ45

RST RESET Push Button

BW Tx3

BW Tx4BW Rx4

BW Rx3

(Not used in R3.2A)

(Not used in R3.2A)

Figure 57 Front panel of the 2XGE-FC board


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ExtractionHandle

ExtractionHandle

s

4 7

4 9

5 1

5 3

5 5

5 7

5 9

6 1

OSC Tx inOSC Rx out

Line Rx inLine Tx out

1470nm signal in1470nm signal out











Figure 58 Front panel of the C-MDX-E-U-S/C-MDX2-E-U-S board


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ExtractionHandle

ExtractionHandle

s

4 7

4 9

5 1

5 3

5 5

5 7

5 9

6 1

Line Rx inLine Tx out












Figure 59 Front panel of the C-MDX-U/C-MDX2-U board


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ExtractionHandle

ExtractionHandle

s

4 7 4 9

5 1 5 3

OSC Tx inOSC Rx out

LINENot used

1470 nm signal in or out1490 nm signal in or out




5 5 5 7

5 9 6 1




Figure 60 Front panel of the C-MDX-B-S board


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ExtractionHandle

ExtractionHandle

s

4 7 4 9

5 1 5 3

LINENot used





5 5 5 7 5 9 6 1




Figure 61 Front panel of the C-MDX-B board


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ExtractionHandle

ExtractionHandle

s



C H

1310nm signal input1310nm signal output

DMX signal inputMUX signal output

CH1 signal inputCH1 signal output


Figure 62 Front panel of the C-MDX2-E-1-S board


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ExtractionHandle

ExtractionHandle

s



C H

1310nm signal input1310nm signal output

DMX signal inputMUX signal output

CH1 signal inputCH1 signal output

C H CH2 signal input

CH2 signal output


Figure 63 Front panel of the C-MDX2-E-2-XX-S board


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Hardware failure LED

ExtractionHandle

ExtractionHandle

East OSC Tx inEast OSC Rx out

West OSC Tx in West OSC Rx out

East line Rx inEast line Tx out

East YY nm signal addEast YY nm signal drop

East express signal addEast express signal drop

West line Rx in West line Tx out

West YY nm signal add West YY nm signal drop

West express signal add West express signal drop

YY-E

YY-W

S-E

S-W

E

E

W

W



Figure 64 Front panel of the C-OAD-E-U-1-XX-S/C-OAD2-E-U-1-XX-S board


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ExtractionHandle

ExtractionHandle







YY-E

YY-W

S-E

S-W

E

E

W

W



Figure 65 Front panel of the C-OAD-U-1-XX/C-OAD2-U-1-XX board


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ExtractionHandle

ExtractionHandle









YY-E

YY-W

S-E

S-W

E

E

W

W

East ZZ nm signal addEast ZZ nm signal drop ZZ-E

West ZZ nm signal add West ZZ nm signal drop

ZZ-W




Figure 66 Front panel of the C-OAD-E-U-2-XXXX-S/C-OAD2-E-U-2-XXXX-S board


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ExtractionHandle

ExtractionHandle







YY-E

YY-W

S-E

S-W

E

E

W

W

East ZZ nm signal addEast ZZ nm signal drop ZZ-E

West ZZ nm signal add West ZZ nm signal drop

ZZ-W

Hardware failureLED



Figure 67 Front panel of the C-OAD-U-2-XXXX/C-OAD2-U-2-XXXX board


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ExtractionHandle

ExtractionHandle



Line I/O 2Line I/O 1


East ZZ signal addEast ZZ signal drop

YY

S-E

S-W

ZZ



Express signal I/O 2Express signal I/O 1


Figure 68 Front panel of the C-OAD-B-1-XX-S board


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ExtractionHandle

ExtractionHandle

Line I/O 2Line I/O 1


East ZZ signal addEast ZZ signal drop

YY

S-E

S-W

ZZ



Express signal I/O 2Express signal I/O 1


Figure 69 Front panel of the C-OAD-B-1-XX board


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ExtractionHandle

ExtractionHandle

East OSC addEast OSC drop

West OSC add West OSC drop

Line East inLine East out

East A nm signal addEast A nm signal drop

East express signal add

A-E

S-E

S-W

B-E


ElectrostaticDischarge

Label

C-E

D-E

E

A-W

B-W

C-W

D-W

W

E W

East B nm signal addEast B nm signal drop

East C nm signal addEast C nm signal drop

East D nm signal addEast D nm signal drop

East express signal drop

Line West inLine West out

West A nm signal add West A nm signal drop

West express signal add

West B nm signal add West B nm signal drop

West C nm signal add West C nm signal drop

West D nm signal add West D nm signal drop

West express signal drop

Hardware FailureLED

Figure 70 Front panel of the C-OAD2-E-U-4-XXXXXXXX-S board


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Hardware failureLED

ExtractionHandle

ExtractionHandle

Line East inLine East out

East A nm signal addEast A nm signal drop

East express signal add

A-E

B-E


ElectrostaticDischarge

Label

C-E

D-E

E

A-W

B-W

C-W

D-W

W

E W

East B nm signal addEast B nm signal drop

East C nm signal addEast C nm signal drop

East D nm signal addEast D nm signal drop

East express signal drop

Line West inLine West out

West A nm signal add West A nm signal drop

West express signal add

West B nm signal add West B nm signal drop

West C nm signal add West C nm signal drop

West D nm signal add West D nm signal drop

West express signal drop

Figure 71 Front panel of the C-OAD2-U-4-XXXXXXXX board


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CWDM signal

Figure 72 Front panel of the C-4xANY board


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2 1

OSC2Tx

OSC2Rx

OSC1Tx

OSC1Rx



Extraction hole


Figure 73 Front panel of the OSC board

Rx inTx outTx outline 1

Tx outline 2

Rx inline 1

Rx inline 2 Extraction hole




Figure 74 Front panel of the OMSP board

4.3.3 Optical Connection in System Configuration

4.3.3.1 Unidirectional terminal

a) Only WLA

FAN

Slot 1

Slot 5

Slot 4

Slot 3

Slot 2

7

12

11

10

9

813

PSC

PSC

LAN-Q

ESC-LC

Slot 6

C-MDX-E-U-S

OSC

WLA3C

WLA3C

WLA3C

WLA3C

OMSP

Figure 75 Only WLA3C configuration (example)

The following table reports the optical jumpers to be used for the local connections.


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Table 15 Optical connection (only WLA3C)From To With Jumper

Slot(unit)

LambdaConnector

Slot(unit) Connector

Length(cm) Note

Code*

3 W1 OUT 2 47* IN 39 Conn. LC MU 1AB1857700213 W2 OUT 2 49* IN 39 Conn. LC MU 1AB1857700214 W1 OUT 2 51* IN 39 Conn. LC MU 1AB1857700214 W2 OUT 2 53* IN 39 Conn. LC MU 1AB1857700215 W1 OUT 2 55* IN 39 Conn. LC MU 1AB1857700215 W2 OUT 2 57* IN 39 Conn. LC MU 1AB1857700216 W1 OUT 2 59* IN 39 Conn. LC MU 1AB1857700216 W2 OUT 2 61* IN 39 Conn. LC MU 1AB185770021

3 W1 IN 2 47* OUT 39 Conn. LC MU 1AB1857700213 W2 IN 2 49* OUT 39 Conn. LC MU 1AB1857700214 W1 IN 2 51* OUT 39 Conn. LC MU 1AB1857700214 W2 IN 2 53* OUT 39 Conn. LC MU 1AB1857700215 W1 IN 2 55* OUT 39 Conn. LC MU 1AB1857700215 W2 IN 2 57* OUT 39 Conn. LC MU 1AB1857700216 W1 IN 2 59* OUT 39 Conn. LC MU 1AB1857700216 W2 IN 2 61* OUT 39 Conn. LC MU 1AB185770021

10 TX OUT 2 LINE RX IN 32 Conn. MU MU 1AB18240000210 RX IN 2 LINE TX OUT 32 Conn. MU MU 1AB182400002

11 E* OUT 2 S IN 32 Conn. LC MU 1AB18577002211 E* IN 2 S OUT 32 Conn. LC MU 1AB185770022

* For example

b) Only C-4xANY

ESC-LC C-4xANYC-4xANYC-4xANYC-4xANY

C-MDX-E-U-S

11 C-4xANYC-4xANY13 C-4xANY12 C-4xANY 242322

PSC 3736OSC3433323130292827LANQ 41403938 45444342 PSC4746

FAN-CO

Figure 76 Only C-4xANY Configuration (example)



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Table 16 Optical connection (only C-4xANY)From To With Jumper

Slot(unit)

LambdaConnector


Length(cm) Note

Code*

2,3 STM16 OUT 10 47* IN 100 Conn. LC MU 1AB2092500014,5 STM16 OUT 10 49* IN 100 Conn. LC MU 1AB2092500016,7 STM16 OUT 10 51* IN 100 Conn. LC MU 1AB2092500018,9 STM16 OUT 10 53* IN 100 Conn. LC MU 1AB209250001


2,3 STM16 IN 10 47* OUT 100 Conn. LC MU 1AB2092500014,5 STM16 IN 10 49* OUT 100 Conn. LC MU 1AB2092500016,7 STM16 IN 10 51* OUT 100 Conn. LC MU 1AB2092500018,9 STM16 IN 10 53* OUT 100 Conn. LC MU 1AB209250001



* For example

N.B. When multi-shelves are used, the optical fiber connections between different shelves (such as Alcatelcode & optical fiber length) are subject to the actual application.N.B. In the above table, “M” means “master shelf”, and “S1” means “Slave shelf1”, “S2” means “Slaveshelf2”, etc.N.B. The “STM16 OUT” and the “STM16 IN”, respectively, correspond with the “CWDM signal Tx” and“CWDM signal Rx”.

c) Mixed WLA and C-4xANY


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ES C-L C 2

C -M D X -E-U

-S

1 1 C -4 xA N YC - 4 x A N Y1 3 C -4 xA N Y1 2 C -4 xA N Y 2 42 32 2

PSC 3 73 6O SC3 43 33 23 13 02 92 82 7LA N

Q4 14 03 93 8 4 54 44 34 2 PSC4 74 6

FA N - C O

3 6 7 8 9 W LA 3 C W LA

3 C

Figure 77 Mixed WLA3C and C-4xANY Configuration (example)


Table 17 Optical connection (Mixed WLA3C and C-4xANY)From To With Jumper

Slot(unit)

LambdaConnector Slot (unit) Connector

Length(cm) Note

Code*


4 W2 OUT 10 55* IN 100 Conn. LC MU 1AB2092500014 W1 OUT 10 57* IN 100 Conn. LC MU 1AB2092500015 W2 OUT 10 59* IN 100 Conn. LC MU 1AB2092500015 W1 OUT 10 61* IN 100 Conn. LC MU 1AB209250001


4 W2 IN 10 55* OUT 100 Conn. LC MU 1AB2092500014 W1 IN 10 57* OUT 100 Conn. LC MU 1AB2092500015 W2 IN 10 59* OUT 100 Conn. LC MU 1AB2092500015 W1 IN 10 61* OUT 100 Conn. LC MU 1AB209250001

35 E* OUT 10 S* IN 100 Conn. LC MU 1AB20925000135 E* IN 10 S* OUT 100 Conn. LC MU 1AB209250001

* For example


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4.3.3.2 Bi-directional terminal (single fiber, example with WLA3C access)

FAN

Slot 1

Slot 5

Slot 4

Slot 3

Slot 2

7

12

11

10

9

813

PSC

PSC

LAN-Q

ESC-LC

Slot 6

C-MDX-B-S

OSC

WLA3C

WLA3C

Figure 78 Bi-directional configuration (example)

The following table reports the corresponding optical connection for this configuration.

Table 18 Optical connection in bi-directional configurationFrom To With Jumper

Slot(unit)

LambdaConnector


Length(cm) Note

Code*

5 W1 OUT 2 47* IN 39 Conn. LC MU 1AB1857700215 W2 OUT 2 49* IN 39 Conn. LC MU 1AB1857700216 W1 OUT 2 51* IN 39 Conn. LC MU 1AB1857700216 W2 OUT 2 53* IN 39 Conn. LC MU 1AB185770021

5 W1 IN 2 55* OUT 39 Conn. LC MU 1AB1857700215 W2 IN 2 57* OUT 39 Conn. LC MU 1AB1857700216 W1 IN 2 59* OUT 39 Conn. LC MU 1AB1857700216 W2 IN 2 61* OUT 39 Conn. LC MU 1AB185770021


* For example

4.3.3.3 Unidirectional OADM

a) 1 channel OADM

FAN

Slot 1

Slot 5

Slot 4

Slot 3

Slot 2

7

12

11

10

9

813

PSC

LAN-Q

ESC-LC

Slot 6

C-OAD-E-U-1-XX-S

(OSC)

WLA3C

PSC

Figure 79 1 channel OADM configuration (Unidirectional, example)



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* For exampleN.B. (YY, ZZ) is one of the CWDM wavelengths combinations [(1470, 1490), (1510,1530), (1550,1570),(1590,1610)].

c) 4 channels OADM

FAN

Slot 1

Slot 5

Slot 4

Slot 3

Slot 2

7

1211

10

9

813

PSC2

LAN-Q

ESC-LC

Slot 6

WLA3C OSC

PSC2

WLA3C

FAN

Slot 1

WLA3C

Slot 5

Slot 4

Slot 3

Slot 2

7

12

11

10

9

813

PSC2

I-LINK-S

Slot 6

WLA3C

PSC2

C-OAD2-E-U-4-XXXXXXXX-S

Figure 81 4 channels OADM Configuration (Unidirectional, example)


Table 21 Optical connection in 4 channels OADM configurationFrom To With JumperSlot

(unit)Lambda

ConnectorSlot

(unit) ConnectorLength

(cm) NoteCode*

M-5 W1 OUT M-2, 3 A-E IN 39 Conn. LC MU 1AB185770021M-5 W1 IN M-2, 3 A-E OUT 39 Conn. LC MU 1AB185770021M-5 W2 OUT M-2, 3 A-W IN 39 Conn. LC MU 1AB185770021M-5 W2 IN M-2, 3 A-W OUT 39 Conn. LC MU 1AB185770021M-4 W1 OUT M-2, 3 B-E IN 39 Conn. LC MU 1AB185770021M-4 W1 IN M-2, 3 B-E OUT 39 Conn. LC MU 1AB185770021M-4 W2 OUT M-2, 3 B-W IN 39 Conn. LC MU 1AB185770021M-4 W2 IN M-2, 3 B-W OUT 39 Conn. LC MU 1AB185770021

S-6 W1 OUT M-2, 3 C-E IN 39 Conn. LC MU 1AB185770021S-6 W1 IN M-2, 3 C-E OUT 39 Conn. LC MU 1AB185770021S-6 W2 OUT M-2, 3 C-W IN 39 Conn. LC MU 1AB185770021S-6 W2 IN M-2, 3 C-W OUT 39 Conn. LC MU 1AB185770021S-5 W1 OUT M-2, 3 D-E IN 39 Conn. LC MU 1AB185770021S-5 W1 IN M-2, 3 D-E OUT 39 Conn. LC MU 1AB185770021S-5 W2 OUT M-2, 3 D-W IN 39 Conn. LC MU 1AB185770021S-5 W2 IN M-2, 3 D-W OUT 39 Conn. LC MU 1AB185770021

M-11 E OUT M-2, 3 S-E IN 32 Conn. LC MU 1AB185770022M-11 E IN M-2, 3 S-E OUT 32 Conn. LC MU 1AB185770022M-11 W OUT M-2, 3 S-W IN 32 Conn. LC MU 1AB185770022

M-11 W IN M-2, 3 S-W OUT 32 Conn. LC MU 1AB185770022


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M-2,3 E-EXPRESS OUT M-2, 3 E-EXPRESS IN 35 Conn. MU MU 1AB182400003M-2,3 W-

Documents

1692mse r3[1].2a Installation Handbook