Instalation Handbook (3AL97279ABAA)

8/9/2019 Instalation Handbook (3AL97279ABAA)

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3AL 97279 ABAA Ed.01 TQCVA

1642 Edge Multiplexer Rel. .

STM-4/1 Multi-Service Edge Multiplexerfor Customer Premises

.

INSTALLATION HANDBOOK


VOL. 1/1

1642 Edge Multiplexer Rel.0 .


INSTALLATION HANDBOOK


VOL. 1/1

1642 Edge Multiplexer Rel. STM-4/1 Multi-Service Edge Multiplexer for Customer Premises

. 3AL 97279 ABAA Ed.01 TQCVA - INSTALLATION HANDBOOK VOL. 1/1

1642 Edge Multiplexer Rel. STM-4/1 Multi-Service Edge Multiplexer

for Customer Premises 3AL 97279 ABAA Ed.01 TQCVA - INSTALLATION HANDBOOK VOL. 1/1

1642 Edge Multiplexer Rel. .


.

3AL 97279 ABAA Ed.01 TQCVA - INSTALLATION HANDBOOK VOL. 1/1

END OF INTERNAL DOCUMENT 1


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RELATED TECHNICAL HANDBOOK:

HANDBOOK ANV Part No.1642 Edge Multiplexer Rel. 3.0 Technical Handbook 3AL 97279 ABAA Ed.01 TQCVA

SAFETY RULES

Before carrying out any installation, turn-on, tests & operation and maintenance operations, readcarefully the Safety Rules described in Technical Handbook’s section HANDBOOK GUIDE.

HANDBOOK COMPOSITION (present edition)

part No pages Numbered

From to1 HANDBOOK 48 1/48 48/48


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01 2006-04-05 First Edition Wu Jie, Chang HaiYanLennart Priester Tian Zhaoyong, Liang Min

ED DATE CHANGE NOTE APPRAISAL AUTHORITY ORIGINATOR

Rel 3.0 1642EDGE MULTIPLEXER INSTALLATION GUIDE

ED 01

3AL 97279 ABAA TQCVA 1/48

ALCATEL 1642 EDGE MULTIPLEXERINSTALLATION GUIDE


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TABLE OF CONTENTS

1 UNPACKING AND WAREHOUSING.......................................................................................................5 1.1 General..................................................................................................................................................5 1.2 Unpacking..............................................................................................................................................6

1.2.1 Preliminary checks........................................................................................................................6 1.2.2 Unpacking.....................................................................................................................................6

1.3 Warehousing .........................................................................................................................................7

2 MECHANICAL INSTALLATION...............................................................................................................7 2.1 Installation kits for 1642 Edge Multiplexer.............................................................................................7 2.2 Installation on a 19 inches-width rack (600mm deep)...........................................................................7 2.3 Installation on a 21 inches-width rack (600mm deep)...........................................................................9 2.4 Installation on a 21 inches-width rack (300mm deep horizontal) ........................................................10 2.5 Installation on a 21 inches-width rack (300mm deep angle)...............................................................11 2.6 Installation on a wall............................................................................................................................13 2.7 Installation of kit cable support............................................................................................................15

2.8 Installation and rinsing of filter.............................................................................................................16 3 ELECTRICAL AND OPTICAL INSTALLATION.....................................................................................17

3.1 Power supply connection ....................................................................................................................20 3.1.1 Feeding main –24V/-48V DC power from DC48B......................................................................20 3.1.2 Feeding backup –24V/-48V DC power from Fan Board (-24V/-48V).........................................20 3.1.3 Feeding 220V~240V AC power from AC220B ...........................................................................22 3.1.4 Take away the 220V~240V AC power from AC220B.................................................................23 3.1.5 Power supply typical configuration .............................................................................................24

3.2 F interface connection for local/remote Craft Terminal .......................................................................25 3.3 STM-1 Optical fiber connection...........................................................................................................26 3.4 STM-1 Electrical interface connection.................................................................................................27 3.5 2Mbit/s tributary connections...............................................................................................................28

3.5.1 2MBit/s interface connection of E1RCB8 board.........................................................................29 3.5.2 2MBit/s interface connection of E1B28 and SE1B28 boards .....................................................31 3.5.3 2MBit/s interface connection of E1B8 and SE1B8 boards.........................................................32 3.5.4 2MBit/s interface connection of DE1B28 and SDE1B28 boards................................................33 3.5.5 2MBit/s interface connection of DE1B8 and SDE1B8 panels ....................................................34 3.5.6 2MBit/s interface connection of DE1JB8 and panels .................................................................35 3.5.7 2MBit/s interface connection of DE1B32 boards........................................................................36

3.6 34MBit/s and 45MBit/s tributary connections ......................................................................................37 3.7 Ethernet interface connection..............................................................................................................38

3.7.1 Ethernet electrical interface ........................................................................................................38 3.7.2 Ethernet optical interface............................................................................................................39

3.8 2048Kbit/s, 75 Ohm clock connection.................................................................................................40 3.9 Auxiliary data and houseKeeping connections on Main Board...........................................................41 3.10 Debug interface connection.................................................................................................................42 3.11 Q interface connection ........................................................................................................................43 3.12 OW Interface .......................................................................................................................................44

3.12.1 Assembly and disassembly the EOW board ..............................................................................44 3.12.2 OW Interface connection ............................................................................................................45

4 ANNEXES ...............................................................................................................................................46 4.1 Annex 1 - Parts making up the Installation set....................................................................................46 4.2 Annex 2 - Installation Cables...............................................................................................................47 4.3 Annex 3 - Suggested cabling ..............................................................................................................48


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LIST OF TABLES AND FIGURES

Tables

Table 1 - Front View LEDs............................................................................................................................... 18 Table 2 - Slot numbers and use....................................................................................................................... 18 Table 3 - Power supply typical configuration ................................................................................................... 24

Figures

Figure 1 - Installation on a 19 inches-width rack (600mm deep)....................................................................... 8 Figure 2 - Path for electrical and optical cabling (600mm deep) ....................................................................... 8 Figure 3 - Installation on a 21 inches-width rack (600mm deep)....................................................................... 9 Figure 4 - Installation on a 21 inches-width rack (300mm deep horizontal) .................................................... 10

Figure 5 - Path for electrical and optical cabling (300mm deep horizontal) .................................................... 11 Figure 6 - Installation on a 21 inches-width rack (300mm deep angle)........................................................... 12 Figure 7 - Path for electrical and optical cabling (300mm deep angle) ........................................................... 12 Figure 8 - Holes’ position on a wall.................................................................................................................. 13 Figure 9 - Installation on a wall ........................................................................................................................ 14 Figure 10 - Installation of kit cable support ...................................................................................................... 15 Figure 11 - Installation of filter..........................................................................................................................16 Figure 12 - Rinse the filter................................................................................................................................ 16 Figure 13 - Front View of 1642 Edge Multiplexer ............................................................................................ 18 Figure 14 - 1642 Edge Multiplexer slot numbers (Rear).................................................................................. 18 Figure 15 - Connection Points on the rear of 1642 Edge Multiplexer..............................................................19 Figure 16 - DC -24V/-48V Power supply connection through DC48B............................................................. 20 Figure 17 - DC -24V/-48V Power supply connection through FB .................................................................... 21 Figure 18 - 220V~240V AC Power supply connection through AC220B......................................................... 22 Figure 19 - Install the magnetic ring on the power supply cable .....................................................................22 Figure 20 - AC220B Plug out........................................................................................................................... 23 Figure 21 - F management interface connection ............................................................................................. 25 Figure 22 - STM-1 optical fiber connection...................................................................................................... 26 Figure 23 - EMC COVER (STM1 ELECTRICAL INTERFACE)....................................................................... 27 Figure 24 - E1 signal connection of E1RCB8 board........................................................................................ 29 Figure 25 - 2Mbit/s extended signal connection .............................................................................................. 30 Figure 26 - 2Mbit/s interface definition of E1B28 and SE1B28 boards ........................................................... 31 Figure 27 - 2Mbit/s interface definition of E1B8 and SE1B8 boards ............................................................... 32 Figure 28 - 2Mbit/s interface definition of DE1B28 and SDE1B28 boards ...................................................... 33 Figure 29 - 2Mbit/s interface definition of DE1B8 and SDE1B8 boards .......................................................... 34 Figure 30 - 2Mbit/s interface definition of DE1JB8 boards ..............................................................................35 Figure 31 - 2Mbit/s interface definition of DE1B32 board................................................................................ 36 Figure 32 - 34Mbit/s and 45Mbit/s interfaces connection................................................................................ 37 Figure 33 - Ethernet electrical interface connection ........................................................................................38 Figure 34 - Ethernet optical interface connection ............................................................................................ 39 Figure 35 - 2Mbit/s, 75 Ohm clock interface connection .................................................................................40 Figure 36 - Auxiliary Data and HouseKeeping connections on MB................................................................. 41 Figure 37 - Connection of DBGL interface....................................................................................................... 42 Figure 38 - Connection of Q interface.............................................................................................................. 43 Figure 39 - Assembly and disassembly the EOW board................................................................................. 44 Figure 40 - Connection of OW interface .......................................................................................................... 45


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1 UNPACKING AND WAREHOUSING

1.1 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 mechanicaland climatic 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

The 1642EMUX equipment meet with the following CE specification:

ETSI EN 300386 for EMC/EMI Class B** ETSI EN 300019 for EnvironmentIEC 60950/60825 for Safety

N.B. **STM-1 electrical interface meet to EMC/EMI Class A qualification only.


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1.2 Unpacking

1.2.1 Preliminary checks

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

side up :

keep dry

fragile

layers

• 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 among others the packing list

Upon receipt check:

• that the final destination of the crates is that indicated on the label;• that no damage was made to the cases

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

1.2.2 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 prepacking, 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 list enclosed in the envelope. Conversely, contact the agency’s representative.

N.B. When unpacking it is advisable to handle the packing material with care; it might be reusedfor packing again if it must be reshipped.


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1.3 Warehousing

If having to store the packed material, 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 direct sunlight.

2 Mechanical installation

FIXING THE UNITS (AND MODULES) INTO THE SUBRACK(caution to avoid equipment damage)

The screw tightening torque for fixing the units (and modules, if any and if fixed by screws) into thesubrack must be:

2.8 kg x cm (0.28 Newton x m) ± 10 %Exceeding this value may result in screw breaking.

2.1 Installation kits for 1642 Edge Multiplexer

Annex 1. - Parts making up the Installation set on page 46 shows all the installation kits and theircomposition related to the expected installation types.

The number in column “ref.” Are the reference number used in the following paragraphs.

2.2 Installation on a 19 inches-width rack (600mm deep)

(See Figure 1 and Figure 2 on page 8).

The items to be used for this installation are included in the “Adapter for 19” Rack”: 3AL 97102 ABAA (Annex1. - Parts making up the Installation set on page 46).

This installation allows to place the 1642 Edge Multiplexer on a 19 “ rack (600mm deep). The 1642 EdgeMultiplexer is housed in this rack with rear access of electrical and optical cabling, which is illustrated inFigure 2.

• Fix the two 19” adapters (2) to the 1642 Edge Multiplexer (1) by four stainless screws (3).• Fix the equipment to the 19” rack through four screws, plastic washers (4) and four nuts (5).


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Figure 1 - Installation on a 19 inches-width rack (600mm deep)

Figure 2 - Path for electrical and optical cabling (600mm deep)


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2.3 Installation on a 21 inches-width rack (600mm deep)

(See Figure 3 on page 9)

The items to be used for this installation are included in the “Adapter for 21” Rack”: 3AL 97102 AAAA (Annex

1. - Parts making up the Installation set on page 46).

This installation allows to place the 1642 Edge Multiplexer on a 21“ rack (600mm deep). The 1642 EdgeMultiplexer is housed in this rack with rear access of electrical and optical cabling, which is illustrated inFigure 2.

• • Fix the two 21” adapters (2) to the 1642 Edge Multiplexer (1) by four stainless screws (3).

• • Fix the equipment to the 21” rack through four screws, plastic washers (4) and four nuts (5).

Figure 3 - Installation on a 21 inches-width rack (600mm deep)


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2.4 Installation on a 21 inches-width rack (300mm deep horizontal)

(See Figure 4 on page 10 and Figure 5 on page 11)

The items to be used for this installation are included in the “Adapter for 21” Rack”: 3AL 97102 AAAA (Annex

1. - Parts making up the Installation set on page 46).

This installation allows to place the 1642 Edge Multiplexer on a 21“ rack (300mm deep horizontal). The 1642Edge Multiplexer is housed in this rack with front access of electrical and optical cabling, which is illustratedin Figure 7.

• Fix the two 21” adapters (2) to the 1642 Edge Multiplexer (1) by four stainless screws (3).• Fix the equipment to the 21” rack through four screws, plastic washers (4) and four nuts (5).

Figure 4 - Installation on a 21 inches-width rack (300mm deep horizontal)


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Figure 5 - Path for electrical and optical cabling (300mm deep horizontal)

2.5 Installation on a 21 inches-width rack (300mm deep angle)

(See Figure 6 and Figure 7 on page 12)If to install the rack refer to Figue6-7, a vertical height of 300mm will be needed.

The items to be used for this installation (45 ° )are included in the “Angle adapter for 21” Rack (30mm width)”,3AL 97142 AAAA (Annex 1. - Parts making up the Installation set on page 46).

This installation allows to place the 1642 Edge Multiplexer on a 21“ rack (300mm deep angle). The 1642Edge Multiplexer is housed in this rack with front access of electrical and optical cabling, which is illustratedin Figure 7.

• Fix the “Angle adapter for 21” Rack (300mm width)” (2) to the 1642 Edge Multiplexer (1) by fourstainless screws (3).

• Fix the equipment to the 21” rack through four screws, plastic washers (4) and four nuts (5).


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Figure 6 - Installation on a 21 inches-width rack (300mm deep angle)

Figure 7 - Path for electrical and optical cabling (300mm deep angle)


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2.6 Installation on a wall

(See Figure 8 on page 13 and Figure 9 on page 14)

The items to be used for this installation are included in the “Adapter for Wall Mount”: 3AL 97102 ACAA

(Annex 1. - Parts making up the Installation set on page 46).

This installation allows to place the 1642 Edge Multiplexer on a wall.

• Fix the two wall kit adapters (2) to the 1642 Edge Multiplexer (1) by four stainless screws (3).• Fix four M6 expansion bolts (4) on the wall. Refer to Figure 8 for the positions for hole drilling.• Fix the equipment to the wall through four lock washers (6), four plain washers (7) and four M6

nuts (5).

Figure 8 - Holes’ position on a wall


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Figure 9 - Installation on a wall

N.B. Installation on a wall in 90 degree rotated is not the recommended method because of the safetyconsideration.


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2.7 Installation of kit cable support

(See Figure 8 on page 13)The items to be used for this installation are included in the “Kit Installation cable support”: 3AL 97169 AAAA(Annex 1. - Parts making up the Installation set on page 46).

The kit cable support (3AL97169AAAA) is installation parts separateness ,it can be installed into 21 inch rackdirectly. And the installation mode must reference the installation mode of 1642EMUX equipment ,keep theinstall face of the cable support same as the ware export face of 1642EMUX equipment.

The items to be used for this installation are included into kit cable support (3AL97169 AAAA),

Fix four pack nuts (1) (specific rack installation) to rack

Fix the cable support (3) to rack by four stainless steel screws M6 .(2).

N.B. The cable support has been smoothed without burr.

23

1

Figure 10 - Installation of kit cable support


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2.8 Installation and rinsing of filter

Remove the filter from the shelf according to Figure 11

Figure 11 - Installation of filter

Unscrew the screw(1) and take out the net of filter (2), see Figure 12

Rinse and dry the net of filter (2)

Put the net of filter(2) back and fix the screw

Insert the filter back to the shelf according to Figure 11

N.B. It is required to clean the filter every 3 month; this period can be shorter depending on thelocation environmental conditions.

Figure 12 - Rinse the filter


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3 Electrical and optical installation

The whole installation must be executed without powering the equipment.Protection ground connection must be the first operationPower Supply connection must be the last to be executed.

FIXING THE UNITS (AND MODULES) INTO THE SUBRACK

(caution to avoid equipment damage)

The screw tightening torque for fixing the units (and modules, if any and if fixed by screws) into the

subrack must be:

2.8 kg x cm (0.28 Newton x m) ± 10 %

Exceeding this value may result in screw breaking.

The electrical and optical connections are directly wired on the rear side of 1642 Edge Multiplexer throughconnectors on the Main Control Board and the tributary boards.

Figure 13 on page 18 illustrates the LEDs on the front panel of 1642 Edge Multiplexer.Table 1 on page 18 explains each LED on the front panel.

Figure 14 on page 18 and Figure 15 on page 19 illustrate the connection points and slot numbering of 1642Edge Multiplexer.

Table 2 on page 18 reports the number of each slot and which boards the slot can contain.

Each paragraph also indicates:• pin assignment table• information on the adaptors/connectors supplied with the equipment to be mounted on the relevant

terminal tagblocks.

Annex 1. - Parts making up the Installation set on page 46 shows the parts making up the installation sets.

Annex 2 - Installation cables on page 47 shows the standard cables provided by the factory. Annex 3 - Suggested cabling on page 48 shows the cables suggested to set-up the connections.The tables associated to each terminal tagblock also refer to these cables.

ATTENTION:The equipment is supplied with several connectors. The installer must respect the ESDprecautions presented in the Technical Handbook.The final equipment configuration can result with empty slots. In this case it is recommended tocover the empty slots with the DUMMY PLATE 3AL 97082 AAAA. This is necessary for correctEMI-EMC performances .

SAFETY RULES


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N.B. Please ensured all boards plug in the subrack has been fixed by two fix-screws use screwdriver.

Figure 13 - Front View of 1642 Edge Multiplexer

LED Color Meaning1 Green Power on2 Yellow Normal Alarm

3 Red Severe AlarmTable 1 - Front View LEDs

Figure 14 - 1642 Edge Multiplexer slot numbers (Rear)

Slot number Unit1 Main Board2-5 Tributary board * 6 -24V/-48V DC Power Interface Board, 220V~240V AC Power Interface Board7 Fan Board (-24V/-48V access), Standard Fan Board8 Air filter

Table 2 - Slot numbers and use


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Figure 15 - Connection Points on the rear of 1642 Edge Multiplexer

E3B1 or DS3B1Slots 2,3,4,5

E1B28 or DE1B28

Slots 2,3,4,5

E1B8 or DE1B8

Slots 2,3,4,5

E1RCB8

Slots 2,3,4,5

OT1B1/ET1B1

Slots 2,3,4,5

As alternative

ISA-ES1 3FE/8FE

Slots 2,3,4,5

DE1B32

Slots 2,3,4,5


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3.1 Power supply connection

The 1642 Edge Multiplexer equipment can host two different types of power interface boards that areinserted in slot 6 to meet different power requirements. One is DC48B board for the main DC –24V/-48Vpower supply. The other is AC220B board for AC 220B power supply.

Additionally, a special FAN board (FB) can provide a backup –24V/-48V DC power supply interface.

N.B. Please ensured the power switch has been turned off and power supply cable has been moved ifyou want to plug in and plug out the AC220B, DC48B and FB board.N.B. Please ensured all boards plug in the subrack has been fixed by two fix-screws use screwdriver.N.B. Only the -24V box 3AL97081ADAA can support –24V power supply.N.B. The -24V box 3AL97081ADAA can not support AC220B power supply.

3.1.1 Feeding main –24V/-48V DC power from DC48B

(See Figure 16)

• Insert DC48B (4) into slot 6• Fix DC48B through the two screws (5).• Connect the power supply cable 3AL97109A* (ref 18-21, Annex2 installation cable) to the power

module and fix it. • Insert the connectors into the terminal tagblocks. Make sure that the cable is fixed correctly to the

DC48B.

a.

Figure 16 - DC -24V/-48V Power supply connection through DC48B

3.1.2 Feeding backup –24V/-48V DC power from Fan Board (-24V/-48V)

There is an additional choice to feed from -24V/-48V DC station battery through the Fan Board -24V/-48V(FB) see Figure 17 .

• Insert Fan Board (4) into slot 7• Fix Fan Board to the shelf through the two screws (5)• Connect the power supply cable 3AL97109A* (ref 18-21, Annex2 installation cable) to the power

module and fix it. • Insert the connectors into the terminal tagblocks. Make sure that the cable is fixed correctly to the

Fan Board (-24V/-48V).


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Figure 17 - DC -24V/-48V Power supply connection through FB


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3.1.3 Feeding 220V~240V AC power from AC220B

(See Figure 18)• Insert AC220B (1) into slot 6• Fix AC220B through the two screws (2) with a crossed screwdriver• Install the magnetic ring (with AC board 3AL97077ABAA and 3AL97077ACAA) on the power

supply cable as Figure 19• Insert the power supply cable 3AL97087AAAA (ref 1, Annex2 installation cable) to the supply

socket.• Connect the other side of power supply cable to the power module and fix it well.• Turn on the switch.

Figure 18 - 220V~240V AC Power supply connection through AC220B

Figure 19 - Install the magnetic ring on the power supply cable


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In general:

Due to possible very high currents in case of short-circuit at the power input, it isessential that the power distribution line shall be provided with a short circuit back-up protection with adequate breaking capacity.

Make sure that the screws on the power modules (DC48B, FB (-48V) and AC220B)are not loose when you insert or remove the cable from the power modules.

3.1.4 Take away the 220V~240V AC power from AC220B

(See Figure 20)• Turn off the switch.• Put away the power supply cable 3AL97087AAAA (ref 1, Annex2 installation cable) from the

supply socket.• Screw off two screws with a crossed screwdriver• Plug in an extractor (with AC board 3AL97077ABAA and 3AL97077ACAA) into the hole beside the

socket, rotate 90 degree, and then pull out the AC220B.

Figure 20 - AC220B Plug out

SAFETY RULES


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3.1.5 Power supply typical configuration

Power supply Board Slot DescriptionDC48B 6 -48V or -24V DC power supplyOnly -48V or -24V DC

feeding SFB 7 Fan board AC220B 6 220V~240V AC power supplyOnly 220V~240V AC

feeding SFB 7 Fan boardDC48B 6 -48V or -24V DC power supply (main)Two -48V or -24V DC

feeding FB 7 Fan board with -48V or -24V DC power supply(backup)

AC220B 6 220V~240V AC power supply (main)220V~240V AC and -48VDC feeding FB 7 Fan board with -48V DC power supply (backup)

N.B. Only the -24V box 3AL97081ADAA can support –24V power supply.N.B. The -24V box 3AL97081ADAA can not support AC220B power supply.

Table 3 - Power supply typical configuration


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3.2 F interface connection for local/remote Craft Terminal

The F management interface is located on the front panel of the main control board (inserted in slot 1). It’s aDB9 female connector, marked “F”.

The F management interface and the PC serial interface are connected via a serial cable 3AL97090A*(Annex2 installation cable). The cable has a connector DB9 male (connected to the F interface) and a

connector DB9 female (connected with PC serial interface), as shown in Figure 21 (including pin-layout).

Figure 21 - F management interface connection

F

F interfacesignals(refer to NE)

DB9 connectedto main board(male)

DB9 connectedto PC (female)

CD 1 1RXD 2 2TXD 3 3

DTR 4 4GND 5 5

1

9


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3.3 STM-1 Optical fiber connection

The SC/PC optical fiber connector is used for the connection of the STM-1 optical fiber interface, as shown inFigure 22:

(1) (5)(4)(3)(2)

On the OT1B1 board:

(1) Panel LED

(2) RJ11 connector for accessing the transparent channel using the F1 byte

(3) RJ11 connector for accessing the transparent channel using the E2 byteThe overhead bytes can be accessed via the data cable 3AL97089A* (annex 2 installation cables).One end of the cable has a RJ11 connector. The other end is a DB9 female connector.

N.B. RJ11 here are dedicate ports for E2/F1 function, DO NOT CONNECT THEM TO PSTN NETWORK.

(4) SC/PC optical fiber connectors, RX = receiving side

(5) SC/PC optical fiber connectors, TX = transmitting side

Figure 22 - STM-1 optical fiber connection

Signalname

RJ11connector

DB9connector

RXD 2 3 TXD 3 2 GND 5 5

16


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3.4 STM-1 Electrical interface connection

The 1.0/2.3 coaxial cable is used for the connection of the STM-1 electrical interface, as shown in Figure 23:

(1) (2) (3) (4) (5)

On the ET1B1 board:

(1) Panel LED

(2) RJ11 connector for accessing the transparent channel using the F1 byte

(3) RJ11 connector for accessing the transparent channel using the E2 byteThe overhead bytes can be accessed via the auxiliary data cable 3AL97089A* (annex 2installation cables). One end of the cable has a RJ11 connector. The other end is a DB9 femaleconnector.

N.B. RJ11 here are dedicate ports for E2/F1 function, DO NOT CONNECT THEM TO PSTN NETWORK.

(4) 1.0/2.3 coaxial connector, RX = receiving side

(5) 1.0/2.3 coaxial connector, TX = transmitting side

In order to get better EMC performance, additional shield cover (3AL97220ABAA) for coaxialcable is required.

Figure 23 - EMC COVER (STM1 ELECTRICAL INTERFACE)

16

Signalname

RJ11connector

DB9connector

RXD 2 3 TXD 3 2 GND 5 5


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3.5 2Mbit/s tributary connections

1642 Edge Multiplexer equipment provides 9 types of E1 service interface boards to meet different userrequirements. The board types are the following:

• E1RCB88-channel E1 (2MBit/s) coaxial interface (75 Ohm), with 2M clock retiming function

• E1B88-channel E1 (2MBit/s) 2mm pin interface (75 Ohm) with K20 (protection against lightning)

• SE1B88-channel E1 (2MBit/s) 2mm pin interface (75 Ohm)

• E1B2828-channel E1 (2MBit/s) 2mm pin interface (75 Ohm) with K20 (protection against lightning)

• SE1B2828-channel E1 (2MBit/s) 2mm pin interface (75 Ohm)

• DE1B88-channel E1 (2MBit/s) 2mm pin interface (120 Ohm) with K20 (protection against lightning)

• SDE1B8

8-channel E1 (2MBit/s) 2mm pin interface (120 Ohm)• DE1JB88-channel E1 (2MBit/s) RJ45 interface (120 Ohm)

• DE1B2828-channel E1 (2MBit/s) 2mm pin interface (120 Ohm) with K20 (protection against lightning)

• SDE1B2828-channel E1 (2MBit/s) 2mm pin interface (120 Ohm)

• SDE1B3232-channel E1 (2MBit/s) 2mm pin interface (120 Ohm)

The E1 signals can be accessed via the E1 cables specified in Annex 2 installation cable.


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3.5.1 2MBit/s interface connection of E1RCB8 board

The panel structure and connection mode of E1RCB8 are shown in Figure 24.Suggested the cable of COAX. 75ohm (ref 1, Annex 3 suggested cabling)

Figure 24 - E1 signal connection of E1RCB8 board

(1) 8 x 2MBit/s service signal interfaces:The upper row labeled TX contains the output of every 2Mbit/s channel. Each output channel canbe configured through the network management to provide a retimed 2Mbit/s service signal. Thelower row labeled RX contains the input of every 2Mbit/s channel that can be connected with the2Mbit/s service signals of the exchange or access equipments .

(2) 2MBit/s extended signal interface:The connector labeled with TX is the output side, the one labeled with RX is the input side. Theinterface provides a channel for transmitting QECC (network management) through 2Mbit/ssignals. There are two connection modes for this channel: I) connecting to the 2Mbit/s extendedsignal interface of another 1642 Edge Multiplexer’s E1RCB8 board through coaxial cable. II)connecting directly to 2Mbit/s service port through coaxial cable, i.e. to map the 2Mbit/s extendedsignal into the service signal and then connect through optical fiber with another transmissionequipment. The signal should be terminated on another remote 1642 Edge Multiplexer equipmentconfigured with the E1RCB8 board, as shown in Figure 255 on page 309.

(3) 2MBit/s clock input:The input of the first 2Mbit/s port can be used to receive a 2MBit/s timing signal with data. Theinput of the extended signal port can be used to receive a 2MHz timing signal without data.

(1) (2)(3)


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Figure 25 - 2Mbit/s extended signal connection

Optical fiber

Mode II

Mode I

Mode IIMode I

Optical fiber

Mode I


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3.5.3 2MBit/s interface connection of E1B8 and SE1B8 boards

The E1B8 and SE1B8 boards have the following panel structure and interface layout (see Figure 27 ). Suggested the cable of 75ohm (ref 4-8, Annex2 installation cable)

A

B

C

D

1 2 3 4 5 6 7 8 9 10 11 12

Pin definitions of E1B8 and SE1B8 (75 Ω )

Pin A B C D1 Not used Not used Not used Not used2 Not used Not used Not used Not used3 I1 GND-I1 O1 GND-O14 I2 GND-I2 O2 GND-O25 I3 GND-I3 O3 GND-O36 I4 GND-I4 O4 GND-O47 I5 GND-I5 O5 GND-O58 I6 GND-I6 O6 GND-O69 I7 GND-I7 O7 GND-O710 I8 GND-I8 O8 GND-O811 Not used Not used Not used Not used12 Not used Not used Not used Not used

Note: In the above tables and figures, I indicates input, O indicates output, P indicates the positive poleof the signal and N indicates the negative pole of the signal. Gnd indicates shielded ground. Forexample, I1 indicates the input signal of the first channel; GND-I1 indicates the input signal shieldedground of the first channel; P-I1 indicates the positive pole of the input signal of the first channel and N-I1 indicates the negative pole of the input signal of the first channel.

Figure 27 - 2Mbit/s interface definition of E1B8 and SE1B8 boards


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3.5.4 2MBit/s interface connection of DE1B28 and SDE1B28 boards

The DE1B28 and SDE1B28 boards have the following panel structure and interface layout (see Figure28 ). Suggested the cable of 120ohm (ref 9-13, Annex2 installation cable)

A

B

C

D

1 2 3 4 5 6 7 8 9 10 11 12

Pin definitions of DE1B28 and SDE1B28 (120 Ω )

Pin A B C D1 Not used Not used Not used Not used2 Not used Not used Not used Not used3 P-I1 N-I1 P-O1 N-O14 P-I2 N-I2 P-O2 N-O25 P-I3 N-I3 P-O3 N-O36 P-I4 N-I4 P-O4 N-O47 P-I5 N-I5 P-O5 N-O58 P-I6 N-I6 P-O6 N-O69 P-I7 N-I7 P-O7 N-O710 Not used Not used Not used Not used11 Not used Not used Not used Not used12 Not used Not used Not used Not used

Note: In the above tables and figures, I indicates input, O indicates output, P indicates the positive poleof the signal and N indicates the negative pole of the signal. Gnd indicates shielded ground. Forexample, I1 indicates the input signal of the first channel; GND-I1 indicates the input signal shieldedground of the first channel; P-I1 indicates the positive pole of the input signal of the first channel and N-

I1 indicates the negative pole of the input signal of the first channel.

Figure 28 - 2Mbit/s interface definition of DE1B28 and SDE1B28 boards


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3.5.5 2MBit/s interface connection of DE1B8 and SDE1B8 panels

The DE1B8 and SDE1B8 boards have the following panel structure and interface layout (see Figure 29 ). Suggested the cable of 120ohm (ref 9-13, Annex2 installation cable)

A

B

C

D

1 2 3 4 5 6 7 8 9 10 11 12

Pin definitions of DE1B8 and SDE1B8 (120 Ω )

Pin A B C D1 Not used Not used Not used Not used2 Not used Not used Not used Not used3 P-I1 N-I1 P-O1 N-O14 P-I2 N-I2 P-O2 N-O25 P-I3 N-I3 P-O3 N-O36 P-I4 N-I4 P-O4 N-O47 P-I5 N-I5 P-O5 N-O58 P-I6 N-I6 P-O6 N-O69 P-I7 N-I7 P-O7 N-O710 P-I8 N-I8 P-O8 N-O811 Not used Not used Not used Not used12 Not used Not used Not used Not used

Note: In the above tables and figures, I indicates input, O indicates output, P indicates the positive poleof the signal and N indicates the negative pole of the signal. Gnd indicates shielded ground. Forexample, I1 indicates the input signal of the first channel; GND-I1 indicates the input signal shieldedground of the first channel; P-I1 indicates the positive pole of the input signal of the first channel and N-I1 indicates the negative pole of the input signal of the first channel.

Figure 29 - 2Mbit/s interface definition of DE1B8 and SDE1B8 boards


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3.5.6 2MBit/s interface connection of DE1JB8 and panels

The DE1JB8 boards have the following panel structure and interface layout . The physical interfaces are standard RJ45 as shown in Figure 30. Customer could specify the installationcable.

Pin definitions of DE1JB8 and (120 Ω )

Figure 30 - 2Mbit/s interface definition of DE1JB8 boards


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3.5.7 2MBit/s interface connection of DE1B32 boards

The DE1B32 board have the following panel structure and interface layout (see Figure 31 ). Suggested the cable of 120ohm (ref 9-13, Annex2 installation cable)

A

B

C

D

1 2 3 4 5 6 7 8 9 10 11 12

Pin definitions of DE1B32 (120 Ω )

Pin A B C D1 Not used Not used Not used Not used2 Not used Not used Not used Not used3 P-I1 N-I1 P-O1 N-O14 P-I2 N-I2 P-O2 N-O2

5 P-I3 N-I3 P-O3 N-O36 P-I4 N-I4 P-O4 N-O47 P-I5 N-I5 P-O5 N-O58 P-I6 N-I6 P-O6 N-O69 P-I7 N-I7 P-O7 N-O710 P-I8 N-I8 P-O8 N-O811 Not used Not used Not used Not used12 Not used Not used Not used Not used

Note: In the above tables and figures, I indicates input, O indicates output, P indicates the positive poleof the signal and N indicates the negative pole of the signal. Gnd indicates shielded ground. Forexample, I1 indicates the input signal of the first channel; GND-I1 indicates the input signal shielded

ground of the first channel; P-I1 indicates the positive pole of the input signal of the first channel and N-I1 indicates the negative pole of the input signal of the first channel.

Figure 31 - 2Mbit/s interface definition of DE1B32 board


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3.6 34MBit/s and 45MBit/s tributary connections

The E3 and DS3 tributary boards provide 34MBit/s and 45MBit/s interfaces respectively. Both use 75 Ω coaxial connectors (1.0/2.3) and have the same panel structure and connection mode, as shown in Figure32. The E3 and DS3 signals use the suggested cable of COAX. 75ohm (ref 2, Annex 3 suggested cabling)

(1) (3)(2)

(1) (3)(2)

(1) Panel LED

(4) 75Ohm (1.0/2.3) coaxial interface output

(5) 75Ohm (1.0/2.3) coaxial interface input

Figure 32 - 34Mbit/s and 45Mbit/s interfaces connection


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3.7 Ethernet interface connection

3.7.1 Ethernet electrical interface

All Ethernet/Fast Ethernet tributary board provides 10/100 Base-T interface. The physical interfaces areRJ45 and standard UTP-5 wire, as shown in Figure 33. The Ethernet signals can be accessed via crossEthernet cables (ref 23-24, Annex2 installation cable)

RJ45 Pin definitions

Pin Signalname Signaldescription Description

1 RXP

2 RXN

Receiving datadifferential pair(from cable) N-I2

3 TXP

6 TXN

Transmittingdata differential

pair (to cable)

Cat 5 UTP/STP

4, 5, 7, 8 NC Not used

Figure 33 - Ethernet electrical interface connection

8 7 6 5 4 3 2 1


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3.7.2 Ethernet optical interface

For ISA-ES1 3FE board,it use Small Form Pluggable (SFP) module for Ethernet optical interface,its’ type isLC. The user can purchase and install it according your application. Connect as shown in Figure 34. It issuggested to use SC/PC--LC tail fiber.

Note: The SFP module removing needs dedicate removing tools(ref 13, annex1).

LC optical fiber connectors, RX = receiving side

LC optical fiber connectors, TX = transmitting side

Figure 34 - Ethernet optical interface connection

Alarm SFP 2*RJ45

TX RX


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3.9 Auxiliary data and houseKeeping connections on Main Board

1642 Edge Multiplexer provides 4 user channels for auxiliary data on the Main Board. They can be accessedthrough the DB25 interface on the Main Board’s front panel. It also provide housekeeping interface.They canbe used for providing external environment monitor, alarm and access control, etc.The connection of the

auxiliary is shown in Figure 36.The overhead bytes “E2”, “F1”, “SI” and “SO” connection can be made use cable (ref 8, Annex3 suggestedcabling). One end of the cable is a DB25 male connector. The other end can be a DB9 female connector oras user like.

Figure 36 - Auxiliary Data and HouseKeeping connections on MB

Definition of E2, F1 auxiliary data cables

Port 1F1SignalName

DB-25Connector

Pin

DB9(Female)

F1TXD 21 3

F1RXD 20 2GND 22 5E2SignalName

DB-25Connector

Pin

DB9(Female)

E2TXD 24 3E2RXD 23 2GND 25 5

Port 2F1SignalName

DB-25Connector

Pin

DB9(Female)

F1TXD 15 3F1RXD 14 2GND 16 5E2SignalName

DB-25Connector

Pin

DB9(Female)

E2TXD 18 3E2RXD 17 2GND 19 5

Definition of SI cablesinput

HousekeepingSignalname

DB-25Connector

pin

Input[1]+ 12Input[1]- 11Input[2]+ 10Input[2]- 9Input[3]+ 8Input[3]- 7

Definition of SO cablesoutputHouse

keepingSignalname

DB-25Connector

pin

Output[1]+ 6Output[1]- 5Output[2]+ 4Output[2]- 3Output[3]+ 2Output[3]- 1


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3.10 Debug interface connection

Debug interface is the six one of the eight adjacent RJ11 interfaces on the main board panel, marked as“DBGL” and its connection is shown in Figure 37. The suggested cable is 3AL97089A* (annex 2 installationcables).

N.B. This interface is only supplied for field engineer of commissioning or test engineer in manufactory.

Figure 37 - Connection of DBGL interface

DBG_LSignal name

RJ11pin

DB9pin

RXD 3 2TXD 2 3DTR 4 4GND 5 5

RJ11 male connector(Pins are at the top)

1


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3.11 Q interface connection

Q interface is the RJ45 interfaces on the main board panel, marked as “Q” and its connection is shown inFigure 38. Suggested the cable of management connected with PC (ref 23-24, Annex2 installation cable)

N.B. This interface is only supplied for field engineer of commissioning or test engineer in manufactory.

Figure 38 - Connection of Q interface

RJ45 Pin definitions

Pin Signalname Signaldescription

cable

1 TXP

2 TXN

Transmittingdata differentialpair (to cable)

3 RXP

6 RXN

Receiving datadifferential pair(from cable) N-I2

4, 5, 7, 8 NC Not used

Cat 5UTP

1

8


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3.12 OW Interface

3.12.1 Assembly and disassembly the EOW board

EOW module is an optional configuration, It could been fixed on the main board separately, show as Figure39.

Assembly:

● Install EOW module(2) with two spacer supports(1) on the main board. Ensure the nether clips ofspacer supports pass through the two holes on the main board, the corresponding connectors on main boardand EOW module are connected tightly. make sure EOW module and main board contacted well,

Disassembly:

● Disconnect EOW module from the lower clips of spacer supports carefully.

● Lift EOW module.

Figure 39 - Assembly and disassembly the EOW board


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3.12.2 OW Interface connection

OW interface is a phone jack on the main board panel, marked as “OW”, connect with Order Wire phone set.Labled as “OW”, show as Figure 40 . The cables to be used are specified in Annex1 Parts making up theInstallation set, ref 12.

Figure 40 - Connection of OW interface


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4 ANNEXES

4.1 Annex 1. - Parts making up the Installation set

Ref NAME PART No. MAX.QTY

1642EMUX INSTALLATION KIT PACKAGE MADE UP OF 3AL97127AAAA1 Kit Installation 21”(for horizontal) 3AL 97102 AAAA 1

1.1 21” Adapter N/A 21.2 Stainless Screw M4*6 GB819-86 41.3 Stainless Screw M6*16 GB818-86 41.4 Plastic Washer φ 6 GB/T 848 41.5 Square Nut M6 N/A 42 Kit Installation 19” 3AL 97102 ABAA 1

2.1 19” Adapter N/A 22.2 Stainless Screw M4*6 GB819-86 42.3 Stainless Screw M6*16 GB818-86 42.4 Plastic Washer φ 6 GB/T 848 42.5 Square Nut M6 N/A 43 Kit Installation Wall 3AL 97102 ACAA 1

3.1 Adapter Wall N/A 23.2 Stainless Screw M3*8 GB6074 43.3 Expansion Bolt M6 N/A 43.4 Washer Locker φ 6 GB93-87 43.5 Plastic Washer φ 6 GB/T 848 43.6 Hex Nut M6 GB6170-86 44 Kit Installation 21”(for 300mm deep angle) 3AL 97142 AAAA 1

4.1 Left Angle adapter N/A 14.2 Right Angle adapter N/A 14.3 Stainless Screw M4*6 GB819-86 44.4 Stainless Screw M6*16 GB818-86 44.5 Plastic Washer φ 6 GB/T 848 44.6 Square Nut M6 N/A 45 Kit Installation cable support 3AL97169 AAAA 1

5.1 Square Nut M6 N/A 45.2 Stainless Screw M6*16 GB818-86 45.3 Cable support N/A 1

6 EOW module package 3AL97161 AAAA 16.1 Spacer supports 1AD048740001 26.2 EOW module 3AL97161AAAA 1

1642EMUX ELECTRICAL SIGNALS CONNECTORS7 1.0-2.3 75ohm COAX CONN.(3MM) 1AB061220003 748 1.0-2.3 75ohm COAX CONN.(4.4MM) 1AB061220008 89 RJ45 8P CONNECTOR 1AB074610008 25

10 HM 2MM 4*8 CONNECTOR ASSEMBLY 85348-5005 161642EMUX MISCELLANEOUS

11 DUMMY PLATE 3AL97082AAAA 412 Alcatel OW phone (with attachment) 1AF00398AAZE 113 Dedicated SFP removing tool 3AL81424AAAA 1


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4.2 Annex 2. - Installation Cables

Ref NAME PART No. NOTES 1 CA-Power supply AC220V 3AL 97087 AAAA 1,62 CA-F interface Cable 3AL 97090 AAAA 2

3CA-Terminal Cable 3AL 97089 AAAA 2

4 CA-HM 2MM 8*2M*75ohm*5M 3AL 97093 AAAA 35 CA-HM 2MM 8*2M*75ohm*10M 3AL 97093 ABAA 36 CA-HM 2MM 8*2M*75ohm*20M 3AL 97093 ACAA 37 CA-HM 2MM 8*2M*75ohm*30M 3AL 97093 ADAA 38 CA-HM 2MM 8*2M*75ohm*40M 3AL 97093 AQAA 39 CA-HM 2MM 8*2M*120ohm*5M 3AL 97093 AEAA 4

10 CA-HM 2MM 8*2M*120ohm*10M 3AL 97093 AFAA 411 CA-HM 2MM 8*2M*120ohm*20M 3AL 97093 AGAA 412 CA-HM 2MM 8*2M*120ohm*30M 3AL 97093 AHAA 413 CA-HM 2MM 8*2M*120ohm*40M 3AL 97093 ARAA 414 CA-Power cable.DC48V.3M 3AL 97109 AAAA 115 CA-Power cable.DC48V.5M 3AL 97109 ABAA 116 CA-Power cable.DC48V.10M 3AL 97109 ACAA 117 CA-Power cable.DC48V.20M 3AL 97109 ADAA 118 CA-Power.EMC.DC48V.3M 3AL 97147 AAAA 519 CA-Power.EMC.DC48V.5M 3AL 97147 ABAA 520 CA-Power.EMC.DC48V.10M 3AL 97147 ACAA 521 CA-Power.EMC.DC48V.20M 3AL 97147 ADAA 522 Management Cable. 30M through RJ45 RJ45 S3520301DAAA 223 Management Cable. 30M cross RJ45 RJ45 S3510323DAAA 224 Management Cable. 5M cross RJ45 RJ45 S3510323AFAA 2

NOTES:1. Ref.1, 14~17 power supply cable all adopt the suggest cable, see Annex3 ref.6 for more details2. Ref.2~3, 22~24 cable all adopt the suggest cable, see Annex3 ref.7 for more details3. Ref.4~9 E1 75ohm cable all adopt the suggest cable, see Annex3 ref.3 for more details4. Ref.10~14 E1 120ohm cable all adopt the suggest cable, see Annex3 ref.5 for more details5. Ref.18~21 is the double shield cable of DC48V/24V power when EMC Class B qualification is

needed.6. Ref.1 power supply cable is triangle dedicate for chinese power socket.


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4.3 Annex 3. - Suggested cabling

REF CABLE TYPE CONNECTION

TYPE

DIA (mm) or SECT.(mm 2)

FACTORY P/N.(NV / PN)

NOTES

INT. EXT.1 COAX. cable

75 ohm (3 mm)SOLDER/CRIMP 0.5 3.1 max 1AC 00110 0013

(049.475.400 Y)a

2 COAX. cable75 ohm (4.4 mm)

SOLDER/CRIMP 0.5 4.8 max 1AC 00110 0023(049.475.403 P)

b

3 8-pairs coax cable75 ohm

Special 0.32 8.2 max SYFE -75-1.5-1*8 c

4 7-pairs coax cable75 ohm

Special 0.40 10.0 max SYFE -75-2-1*7(3AL 98086)

c

5 8-pairs twisted paircable 120 ohm

Special 0.40 7.5 max SEYEP-1204*4*0.32

c

6 power supplycable

SOLDER 1.5 9.2 max RVV 3*1.5mm2 d

7 4-pairs shielded(FTP or STP4*2*24AWG)

Crimp0 0.5 5.1 max FTP or STP4*2*AWG24

e

8 16 pairs shieldedwire-wrap cable

Wire-Wrap 0.4 8.5 max 1AC 01487 0009(049.720.404Z)

f

NOTES :

a - terminate with supplied 75ohm coax connector 3mm(1AB 06122 0003)

b - terminate with supplied 75ohm coax connector 4.4mm(1AB 06122 0008)

c - terminate with supplied HM 2MM 4*8 CONNECTOR. (85348-5005)d - terminate with supplied 3p SUB-D power connector

e - terminate with supplied RJ45 connectors (1AB 07461 0008) for Ethernet interface connection;

terminate with supplied 9p SUB-D (DB9) male and female connectors for F interface connection;

terminate with supplied 6p RJ11 connector and 9p SUB-D (DB9) female connector for debuginterface connection.

f - terminate with supplied 25p SUB-D (DB25) male connector set(3AL97255AAAA) on one end forauxiliary data and houseKeeping connections

END OF DOCUMENT

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Instalation Handbook (3AL97279ABAA)

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