SJ-20110324160106-002-ZXMSG 5200 (V3.2) Multiplex Service Gateway Hardware Description

ZXMSG 5200Multiplex Service GatewayHardware Description

Version: 3.2

ZTE CORPORATIONNO. 55, Hi-tech Road South, ShenZhen, P.R.ChinaPostcode: 518057Tel: +86-755-26771900Fax: +86-755-26770801URL: http://ensupport.zte.com.cnE-mail: [email protected]

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The contents of this document are protected by copyright laws and international treaties. Any reproduction or

distribution of this document or any portion of this document, in any form by any means, without the prior written

consent of ZTE CORPORATION is prohibited. Additionally, the contents of this document are protected by

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All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE

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This document is provided “as is”, and all express, implied, or statutory warranties, representations or conditions

are disclaimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose,

title or non-infringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the

use of or reliance on the information contained herein.

ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications

covering the subject matter of this document. Except as expressly provided in any written license between ZTE

CORPORATION and its licensee, the user of this document shall not acquire any license to the subject matter

herein.

ZTE CORPORATION reserves the right to upgrade or make technical change to this product without further notice.

Users may visit ZTE technical support website http://ensupport.zte.com.cn to inquire related information.

The ultimate right to interpret this product resides in ZTE CORPORATION.

Revision History

Revision No. Revision Date Revision Reason

R1.0 2011-03-20 First Edition

Serial Number: SJ-20110324160106-002

Publishing Date: 2011-03-20(R1.0)

ContentsAbout This Manual ......................................................................................... I

Declaration of RoHS Compliance ................................................................. I

Chapter 1 Cabinets..................................................................................... 1-11.1 Overview ........................................................................................................... 1-1

1.2 19D06H20 Cabinet............................................................................................. 1-1

1.2.1 Outline..................................................................................................... 1-1

1.2.2 Cabinet Configuration............................................................................... 1-2

1.2.3 Ventilation.............................................................................................. 1-10

1.2.4 Technical Specifications...........................................................................1-11

1.3 OUT50H Cabinet.............................................................................................. 1-12

1.3.1 Outline................................................................................................... 1-12

1.3.2 Cabinet Configuration............................................................................. 1-12

1.3.3 Ventilation.............................................................................................. 1-14

1.3.4 Technical Specifications.......................................................................... 1-15

1.4 OUT50M Cabinet ............................................................................................. 1-16

1.4.1 Outline................................................................................................... 1-16

1.4.2 Cabinet Configuration............................................................................. 1-17

1.4.3 Ventilation.............................................................................................. 1-18

1.4.4 Technical Specifications.......................................................................... 1-18

Chapter 2 Shelves ...................................................................................... 2-12.1 Single-Power Standard Shelf .............................................................................. 2-1

2.2 Dual-Power Standard Shelf................................................................................. 2-4

2.3 OUT50FA Shelf.................................................................................................. 2-9

2.4 OUT50M Shelf ................................................................................................. 2-10

Chapter 3 Cards.......................................................................................... 3-13.1 List of Cards ...................................................................................................... 3-1

3.2 Control and Switching Cards............................................................................... 3-4

3.2.1 GISR Card............................................................................................... 3-4

3.2.2 GISB Card ............................................................................................... 3-6

3.2.3 GISF Card ............................................................................................... 3-8

3.2.4 GISE Card ............................................................................................. 3-10

3.2.5 MAPP Card............................................................................................ 3-12

3.3 VoIP Processing Card....................................................................................... 3-12

I

3.3.1 MPRB Card ........................................................................................... 3-12

3.3.2 VOPS Daughter Cards ........................................................................... 3-14

3.4 Subscriber Cards ............................................................................................. 3-14

3.4.1 ALC Card .............................................................................................. 3-15

3.4.2 RALC Card ............................................................................................ 3-17

3.4.3 FLC Card............................................................................................... 3-19

3.4.4 HLC Card .............................................................................................. 3-21

3.4.5 ELC Card .............................................................................................. 3-22

3.4.6 GELCA Card.......................................................................................... 3-23

3.4.7 DLCE Card ............................................................................................ 3-24

3.4.8 TRKC Card............................................................................................ 3-26

3.4.9 GILCA Card ........................................................................................... 3-27

3.4.10 GADLC Card........................................................................................ 3-29

3.4.11 GAGLC Card........................................................................................ 3-30

3.4.12 GVDL Card .......................................................................................... 3-32

3.4.13 GSDL Card .......................................................................................... 3-33

3.4.14 GSDLB Card........................................................................................ 3-35

3.4.15 CEE Card ............................................................................................ 3-36

3.4.16 EPOI Card ........................................................................................... 3-38

3.4.17 GPOI Card........................................................................................... 3-39

3.4.18 HDB Card ............................................................................................ 3-42

3.5 Interface Cards ................................................................................................ 3-44

3.5.1 GETC Card............................................................................................ 3-45

3.5.2 GETI Card ............................................................................................. 3-46

3.5.3 GECA Card............................................................................................ 3-49

3.5.4 ODTI Card ............................................................................................. 3-51

3.5.5 GATI Card ............................................................................................. 3-52

3.5.6 GHDB Card ........................................................................................... 3-54

3.5.7 CHDB Card............................................................................................ 3-55

3.5.8 EHDB Card............................................................................................ 3-57

3.5.9 EPNI Card ............................................................................................. 3-58

3.5.10 GPNI Card ........................................................................................... 3-61

3.6 Extension Cards............................................................................................... 3-64

3.6.1 IEBA Card ............................................................................................. 3-64

3.6.2 IEBB Card ............................................................................................. 3-65

3.6.3 IEBC Card ............................................................................................. 3-67

3.6.4 IEBD Card ............................................................................................. 3-68

II

3.6.5 IEBE Card ............................................................................................. 3-69

3.6.6 IEBG Card ............................................................................................. 3-70

3.6.7 IEBH Card ............................................................................................. 3-71

3.6.8 SEB Card .............................................................................................. 3-72

3.6.9 SEC Card .............................................................................................. 3-73

3.6.10 PEB Card ............................................................................................ 3-74

3.6.11 EPEB Card .......................................................................................... 3-75

3.7 TSLC Card ...................................................................................................... 3-76

3.8 EPC Card ........................................................................................................ 3-78

3.9 ETM ................................................................................................................ 3-80

3.10 Power Cards .................................................................................................. 3-82

3.10.1 POWER H Card ................................................................................... 3-82

3.10.2 POWER K Card ................................................................................... 3-84

3.10.3 POWER L Card.................................................................................... 3-85

3.11 Backplanes .................................................................................................... 3-86

3.11.1 MICS Backplane................................................................................... 3-87

3.11.2 MESL Backplane .................................................................................. 3-89

3.11.3 MUSL Backplane.................................................................................. 3-91

3.11.4 MBSL Backplane .................................................................................. 3-91

3.11.5 MQSL Backplane.................................................................................. 3-93

3.11.6 MPSL Backplane .................................................................................. 3-94

3.11.7 MOCSM Backplane .............................................................................. 3-94

3.11.8 MOCSFA Backplane ............................................................................. 3-95

3.12 Backplane Daughter Cards ............................................................................. 3-97

3.12.1 GEI Card ............................................................................................. 3-98

3.12.2 EPSA Card .......................................................................................... 3-99

3.12.3 SUPI Card ..........................................................................................3-101

Figures............................................................................................................. I

Tables .............................................................................................................V

Index ..............................................................................................................IX

Glossary ........................................................................................................XI

III

About This ManualPurposeAt first, thank you for choosing the ZXMSG 5200 Multiplex Service Gateway of ZTECorporation!

The ZXMSG 5200 Multiplex Service Gateway is an access device in the NGN system. Itcommunicates with the SS through the H.248, SIP, or MGCP protocol. The ZXMSG 5200equipment consists of the control switching card, media resource card, test card, powercard, and subscriber cards, integrating the narrowband and broadband access. The SSprovides the call service and the Internet provides the broadband service.

This manual provides the hardware description of the ZXMSG 5200 Multiplex ServiceGateway.

Intended AudienceThis document is intended for:

l Network planning engineerl Installation and debugging engineerl On-site maintenance engineerl Network monitoring engineerl System maintenance engineerl Data configuration engineer

Prerequisite Skill and KnowledgeTo use this document effectively, users should have a general understanding of networktechnology. Familiarity with the following is helpful:

l The ZXMSG 5200 system and its various componentsl Maintenance proceduresl Local operating procedures

What Is in This ManualThis manual contains the following chapters:

Chapter Summary

Chapter 1, Cabinets Describes the cabinets related to the ZXMSG 5200 (V3.2).

Chapter 2, Shelves Describes the shelves related to the ZXMSG 5200 (V3.2).

Chapter 3, Cards Describes the cards related to the ZXMSG 5200 (V3.2).

ConventionsZTE documents employ the following typographical conventions.

I

Typeface Meaning

Italics References to other Manuals and documents.

“Quotes” Links on screens.

Bold Menus, menu options, function names, input fields, radio button names, check

boxes, drop-down lists, dialog box names, window names.

CAPS Keys on the keyboard and buttons on screens and company name.

Note: Provides additional information about a certain topic.

Checkpoint: Indicates that a particular step needs to be checked before

proceeding further.

Tip: Indicates a suggestion or hint to make things easier or more productive

for the reader.

Mouse operation conventions are listed as follows:

Typeface Meaning

Click Refers to clicking the primary mouse button (usually the left mouse button) once.

Double-click Refers to quickly clicking the primary mouse button (usually the left mouse

button) twice.

Right-click Refers to clicking the secondary mouse button (usually the right mouse button)

once.

II

Declaration of RoHSComplianceTo minimize the environmental impact and take more responsibility to the earth we live,this document shall serve as formal declaration that the ZXMSG 5200 manufactured byZTE CORPORATION is in compliance with the Directive 2002/95/EC of the EuropeanParliament - RoHS (Restriction of Hazardous Substances) with respect to the followingsubstances:

l Lead (Pb)l Mercury (Hg)l Cadmium (Cd)l Hexavalent Chromium (Cr (VI))l PolyBrominated Biphenyls (PBB’s)l PolyBrominated Diphenyl Ethers (PBDE’s)

…

The ZXMSG 5200 manufactured by ZTE CORPORATION meets the requirements of EU 2002/95/EC;

however, some assemblies are customized to client specifications. Addition of specialized,

customer-specified materials or processes which do not meet the requirements of EU 2002/95/EC

may negate RoHS compliance of the assembly. To guarantee compliance of the assembly, the

need for compliant product must be communicated to ZTE CORPORATION in written form. This

declaration is issued based on our current level of knowledge. Since conditions of use are outside

our control, ZTE CORPORATION makes no warranties, express or implied, and assumes no liability

in connection with the use of this information.

I

Chapter 1CabinetsTable of Contents

Overview....................................................................................................................1-119D06H20 Cabinet.....................................................................................................1-1OUT50H Cabinet......................................................................................................1-12OUT50M Cabinet .....................................................................................................1-16

1.1 OverviewThe ZXMSG 5200 cabinets are classified into the indoor cabinets and outdoor cabinets.This manual describes the cabinets which are often used to hold the ZXMSG 5200.

l The indoor cabinet

19D06H20 cabinet: The 19D06H20 cabinet can hold both the single-power standardshelf and the dual-power standard shelf.

l The outdoor cabinets

à OUT50H cabinet: The OUT50H cabinet holds the OUT50FA shelf

à OUT50M cabinet: The OUT50M cabinet holds the OUT50M shelf.

1.2 19D06H20 CabinetThe 19D06H20 cabinet is an indoor cabinet with large capacity. It is used in the areaswhere there are a large number of users and the equipment room is available.

1.2.1 OutlineFigure 1-1 shows the outline of a 19D06H20 cabinet.

1-1

SJ-20110324160106-002|2011-03-20(R1.0) ZTE Proprietary and Confidential

ZXMSG 5200 Hardware Description

Figure 1-1 19D06H20 Cabinet Outline

1.2.2 Cabinet ConfigurationThe 19D06H20 cabinet uses either 220 V AC or –48 V DC power supply.

AC Power Supply

Figure 1-2 shows the cabinet configuration with 220 V AC power supply.

1-2


Chapter 1 Cabinets

Figure 1-2 19D06H20 Cabinet Configuration (AC Power Supply)

Table 1-1 describes 19D06H20 cabinet configuration with 220 V AC power supply.

Table 1-1 19D06H20 Cabinet Configuration (AC Power Supply)

Unit Quantity

ZXMSG 5200 master shelf 1

1-3



Unit Quantity

ZXMSG 5200 subordinate shelf 4

Air diversion box 1

Fan tray 1

EPM plug-in box 1

45A rectifier 1

DC Power Supply (Single-Power Back-Outlet Shelf)

Figure 1-3 shows the cabinet configuration with single-power back-outlet shelves and –48V DC power supply.

1-4


Chapter 1 Cabinets

Figure 1-3 Cabinet Configuration (DC Power Supply, Single-Power Back-Outlet Shelf)

Table 1-2 describes the cabinet configuration with the single-power and back-outlet shelvesand –48 V DC power supply.

1-5



Table 1-2 19D06H20 Cabinet Configuration (DC Power Supply, Single-PowerBack-Outlet Shelf)

Unit Quantity



Air diversion box 1

Fan tray 1

EPM plug-in box 1

Power distributor 1

DC Power Supply (Dual-Power Back-Outlet Shelf)

Figure 1-4 shows the cabinet configuration with dual-power back-outlet shelves and –48V DC power supply.

1-6


Chapter 1 Cabinets

Figure 1-4 19D06H20 Cabinet Configuration (DC Power Supply, Dual-Power Back-OutletShelf)

Table 1-3 describes the cabinet configuration with the dual-power and back-outlet shelvesand –48 V DC power supply.

1-7



Table 1-3 19D06H20 Cabinet Configuration (DC Power Supply, Dual-Power Back-OutletShelf)

Unit Quantity


ZXMSG 5200 Subordinate shelf 4

Air diversion box 2

Fan tray 2

EPM plug-in box 1

Power distributor 1

DC Power Supply (Dual-Power Front-Outlet Shelf)

Figure 1-5 shows the cabinet configuration with dual-power front-outlet shelves and –48 VDC power supply.

1-8


Chapter 1 Cabinets

Figure 1-5 19D06H20 Cabinet Configuration (DC Power Supply, Dual-Power Front-OutletShelf)

Table 1-4 describes the cabinet configuration with the dual-power and front-outlet shelvesand –48 V DC power supply.

1-9



Table 1-4 19D06H20 Cabinet Configuration (DC Power Supply, Dual-Power Front-OutletShelf)

Unit Quantity



Air diversion box 1

Fan tray 2

Cabling layer 3

Power distributor 1

1.2.3 VentilationFigure 1-6 shows the ventilation of the 19D06H20 cabinet. Cold air goes into the cabinetthrough the vents at the bottom of the cabinet. Fans expel hot air from the cabinet throughthe vents on the top.

Figure 1-6 19D06H20 Cabinet Ventilation

1-10


Chapter 1 Cabinets

1.2.4 Technical Specifications

Dimensions

Dimensions of the 19D06H20 cabinet are 2000 mm × 600 mm × 600 mm (Height × Width× Depth).

Weight

A 19D06H20 cabinet without batteries is 200 kg.

Operation Environment

Table 1-5 lists requirements for the operation environment.

Table 1-5 Operation Environment

Item Description

Temperature -10℃ to 45℃

Relative humidity 5% to 90%

Floor Antistatic floor

Cleanness l Dust concentration with a diameter greater than 5 µm is no more

than 3 × 104 grains/m3.

l There is no not electrically or magnetically conducive and

erosive dust.

l Do not expose the equipment to corrosive gases such as SO2,

NH3.

l Keep the equipment room clean.

l Keep doors and windows sealed.

Electromagnetic interference l Field strength ≤ 140 dBµV/m

l Frequency scope: 0.01 MHz – 110000 MHz

Fire protection Use fireproof materials in the equipment room. Fill in the cable holes

with flame retardant materials. Equip fire extinguishers at necessary

places.

Power Supply

l AC power supply requirements

à Single-phase power: 220 V

à Voltage fluctuation range: 220V ± 20%

à Waveform distortion: 5%

à Waveform distortion of backup generator: 5% – 10%

l DC power supply requirements

1-11



If the equipment room provides -48 V DC power, the 19D06H20 cabinet uses DCpower supply. The tolerant DC power supply is from –57 V to –40 V.

Power ConsumptionThe power consumption in full configuration: 1500 W

1.3 OUT50H CabinetThe OUT50H cabinet is a compact outdoor cabinet. It integrates the storage batteries,access device and line distribution frame into one cabinet. The cabinet uses the fan insidefor heat dissipation.

TheOUT50H cabinet is applicable to areas in temperate zones. It is inapplicable to seasideareas where the temperature, humidity, and salinity is too high.

The OUT50H cabinet holds the OUT50FA shelf. One cabinet only holds one shelf.

1.3.1 OutlineFigure 1-7 shows the outline of an OT50H cabinet.

Figure 1-7 OT50H Cabinet Outline

1.3.2 Cabinet ConfigurationThe OUT50H cabinet contains the following parts:

l One OUT50FA shelf

1-12


Chapter 1 Cabinets

l 38AH storage batteriesl One fan boxl One power distribution boxl (Optional) One fiber splicing trayl (Optional) One heat modulel Distribution frame module

Figure 1-8 shows the OUT50H cabinet configuration (front view).

Figure 1-8 OUT50H Cabinet Configuration (Front View)

Figure 1-9 shows the OUT50H cabinet configuration (side view).

1-13



Figure 1-9 OUT50H Cabinet Configuration (Side View)

1. Internal wiring module 2. External wiring module 3. Power distribution box

1.3.3 VentilationFigure 1-10 shows the ventilation of an OUT50H cabinet. Cold air goes into the cabinetthrough the vents at the side of the cabinet. Fans expel hot air out of the cabinet throughthe vents on the front door.

1-14


Chapter 1 Cabinets

Figure 1-10 OUT50H Cabinet Ventilation


Dimensions

Dimensions of the OUT50H cabinet are 1100 mm × 730 mm × 430 mm (Height × Width ×Depth).

Weight

l In full configuration, an OUT50H cabinet without storage battery is 80 kg.l In full configuration, an OUT50H cabinet with 38 AH battery is 180 kg.




Item Description



Air pressure 70 kPa to 106 kPa

Sun radiation ≤ 1120 W/m2

Wind speed ≤ 60 m/s

1-15



Item Description

Anti-seismic Against the earthquake of magnitude 7 on the Richter scale

Air cleanness Do not expose the equipment to corrosive gases (e.g., SO2, oxides

of SO2 and ammonia), smog or oil solvents.



Water-proof and dust-proof Comply with (IEC) IP5.5 standard.

Power Supply

l Working voltage: 220 V AC ± 20%, 110 V AC ± 20%l Frequency fluctuation range: 5%l Waveform distortion: 5%

Power Consumption

Power consumption: 500 W (the main equipment 300 W, the heat module 200 W)

1.4 OUT50M CabinetThe OUT50M cabinet integrates the storage batteries, access device and line distributionframe into one cabinet. It is small in size and can be mounted on a pole, rack or a platform.

The OUT50M cabinet holds the OUT50M shelf. One cabinet only holds one shelf.

1.4.1 OutlineFigure 1-11 shows the outline of an OUT50M cabinet.

1-16


Chapter 1 Cabinets

Figure 1-11 OUT50M Cabinet Outline

1.4.2 Cabinet ConfigurationFigure 1-12 shows the OUT50M cabinet configuration.

Figure 1-12 OUT50M Cabinet Configuration

The OUT50M cabinet contains the following parts:

l OUT50M shelfl CSV monitoring box

1-17



l 24 AH/38 AH storage batteriesl DC power distribution boxl AC power distribution boxl (Optional) Fiber splicing trayl Distribution frame module

1.4.3 VentilationFigure 1-13 shows the ventilation of an OUT50M cabinet. Cold air goes into the cabinetthrough the vents on the bottom of the shelf. Fans expel hot air out of the cabinet throughthe vents on the top.

Figure 1-13 OUT50M Cabinet Ventilation


Dimensions

Dimensions of the OUT50M cabinet are 1000 mm × 750 mm × 450 mm (Height × Width ×Depth).

Weight

l In full configuration, an OUT50M cabinet without battery is 96 kg.l In full configuration, an OUT50M cabinet with 24 AH battery is 128 kg.l In full configuration, an OUT50M cabinet with 38 AH battery is 140 kg.

1-18


Chapter 1 Cabinets




Item Description



Air pressure 70 kPa to 106 kPa

Sun radiation ≤ 1120 W/m2

Wind speed ≤ 60 m/s

Anti-seismic Against the earthquake of magnitude 7 on the Richter scale

Air cleanness Do not expose the equipment to corrosive gases (e.g., SO2, oxides

of SO2 and ammonia), smog or oil solvents.



Water-proof and dust-proof Comply with (IEC) IP5.5 standard.

Power Supply

l Input working voltage: 220 V AC ± 20%, 110 V AC ± 20%l Frequency fluctuation range: 5%l Waveform distortion: 5%

Power Consumption

Power consumption: 200 W

1-19



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1-20


Chapter 2ShelvesTable of Contents

Single-Power Standard Shelf......................................................................................2-1Dual-Power Standard Shelf ........................................................................................2-4OUT50FA Shelf ..........................................................................................................2-9OUT50M Shelf .........................................................................................................2-10

2.1 Single-Power Standard ShelfThe single-power standard shelf can reside in both the indoor cabinets and the outdoorcabinets, such as 19D06H20, OUT40E, and OUT20EA. The single-power shelf holdsonly one power card. According to the backplane and the power card, the single-powerstandard shelf is classified into two types: The single-power shelf with MICS backplaneand the single-power shelf with MESL backplane.

Figure 2-1 shows the outline of a single-power standard shelf.

Figure 2-1 Single-Power Standard Shelf Outline

Single-Power Shelf with MICS Backplane

The power card for the single-power shelf with MICS backplane is POWER H card. Slot17 only holds the TSLC (TSLCC) test card.

2-1



l Shelf dimensions

The dimensions of the single-power shelf with MICS backplane are 266.5 mm × 482.6mm × 318.5 mm (Height × Width × Depth).

l Shelf configuration

Figure 2-2 shows the single-power master shelf (MICS backplane) configuration.

Figure 2-2 Single-Power Master Shelf Configuration (MICS Backplane)

In full configuration, the single-power standard shelf (MICS backplane) is configuredwith two control and switching cards (active and standby), two MPRB cards (only inthe master shelf), ten subscriber line cards, one TSLCC test card, and one POWERH card.

If the test function is required, configure one TSLCC test card in slot 17. One shelfonly holds one test card.

If the TSLCC card is not configured, leave slot 17 empty. Slot 17 does not hold anysubscriber line card.

If the ODTI card is required, put it in slot 8.

Note:

If GISB card is used, it is unnecessary to configure MPRB card in the master shelf.The slots for the MPRB cards can hold other subscriber line cards.

Figure 2-3 shows the single-power subordinate shelf (MICS backplane) in fullconfiguration.

2-2


Chapter 2 Shelves

Figure 2-3 Single-Power Subordinate Shelf Configuration (MICS Backplane)

Single-Power Shelf with MESL Backplane

The power card for the single-power shelf with MESL backplane is POWER K card. Slot17 can hold the TSLC card (TSLCD/TSLCE) and any line card.

l Shelf dimensions

The dimensions of the single-power shelf with MESL backplane are 266.5 mm × 482.6mm × 318.5 mm (Height × Width × Depth).


The slot for the Power K card is 42.5 mm. Other slots are 25 mm.

Figure 2-4 shows the single-power master shelf (MESL backplane) configuration.

Figure 2-4 Single-Power Master Shelf Configuration (MESL Backplane)

In full configuration, the single-power standard shelf (MESL backplane) is configuredwith two control and switching cards (active and standby), two MPRB cards (only inslots 11 and 12 of the master shelf), eleven subscriber line cards, and one POWERK card.

If the test function is required, configure one TSLC test card in any slot for thesubscriber line card. One shelf only holds one test card.

If the ODTI card is required, configure it in slot 8.

2-3



Note:


Figure 2-5 shows the single-power subordinate shelf (MESL backplane) in fullconfiguration.

Figure 2-5 Single-Power Subordinate Shelf Configuration (MESL Backplane)

2.2 Dual-Power Standard ShelfIntroduction

The dual-power standard shelf can reside in both the indoor cabinets and the outdoorcabinets, such as 19D06H20, OUT40E, and OUT20EA. The dual-power shelf holdstwo power cards. One is active and the other is standby. According to the shelf height,the backplane, and the cable outlet, the dual-power standard shelf is classified into 6Udual-power shelf with MBSL backplane, 6U dual-power shelf with MUSL backplane, and9U shelf dual-power shelf.

6U Dual-Power Shelf with MBSL Backplane

l Dimensions

The dimensions of the 6U dual-power shelf with MBSL backplane are 266.5 mm ×482.6 mm × 318.5 mm (Height × Width × Depth).


The 6U dual-power shelf with MBSL backplane supports the MBSL backplane. Thepower card is POWER K card. The slot for the Power K card is 42.5 mm. Other slotsare 25 mm.

Figure 2-6 shows the 6U dual-power master shelf (MBSL backplane) configuration.

2-4


Chapter 2 Shelves

Figure 2-6 6U Dual-Power Master Shelf Configuration (MBSL Backplane)

The 6U dual-power master shelf (MBSL backplane) provides 17 slots totally, which holdtwo control and switching cards (active/standby), two MPRB cards (in slots 11 and 12 ofthe master shelf), 10 subscriber cards, two POWER K cards.

If the test function is required, configure one TSLC (TSLCD/TSLCE) test card in any slotfor the subscriber line card. One shelf only holds one test card.

If the ODTI card is needed, configure it in slot 8.

Note:

If GISB card is used, it is unnecessary to configure MPRB card in the master shelf. Theslots for the MPRB cards can hold other subscriber line cards.

Figure 2-7 shows the 6U dual-power subordinate shelf (MBSL backplane) configuration.

Figure 2-7 6U Dual-Power Subordinate Shelf Configuration (MBSL Backplane)

6U Dual-Power Shelf with MUSL Backplane

l Dimensions

The dimensions of the 6U dual-power shelf with MUSL backplane are 266.5 mm ×482.6 mm × 318.5 mm (Height × Width × Depth).


The 6U dual-power shelf with MUSL backplane supports the MUSL backplane. Thepower card is POWER L card. The slot for the Power L card is 30 mm. Other slotsare 25 mm.

2-5



Figure 2-8 shows the 6U dual-power master shelf (MUSL backplane) configuration.

Figure 2-8 6U Dual-Power Master Shelf Configuration (MUSL Backplane)

The 6U dual-power master shelf (MUSL backplane) provides 17 slots totally, which holdtwo control and switching cards (active/standby), two MPRB cards (in slots 11 and 12 ofthe master shelf), 10 subscriber cards, two POWER L cards.

If the test function is required, configure one TSLC (TSLCC/TSLCD) test card in any slotfor the subscriber line card. One shelf only holds one test card.

If the ODTI card is needed, configure it in slot 8.

Note:

If GISB card is used, it is unnecessary to configure MPRB card in the master shelf. Theslots for the MPRB cards can hold other subscriber line cards.

Figure 2-9 shows the 6U dual-power subordinate shelf (MUSL backplane) configuration.

Figure 2-9 6U Dual-Power Subordinate Shelf Configuration (MUSL Backplane)

9U Dual-Power Standard ShelfAll cards which reside in the 9U dual-power standard shelf are front-outlet cards. Namely,the cables are led out from the front panels of these cards.

l Shelf dimensions

The dimensions of a 9U dual-power standard shelf are 392.5 mm × 482.6 mm × 318.5mm (Height × Width × Depth).


2-6


Chapter 2 Shelves

The 9U dual-power standard shelf is divided into two parts. The upper part holds thecommon cards (in common use with cards of the back-outlet cards). The lower partholds the extension cards. The user cables, cascading cables, monitoring cables, andmaintenance cables are all led out from the front panel of the extension card.

The 9U dual-power standard shelf supports the MPSL backplane or the MQSLbackplane.

Figure 2-10 shows the 9U dual-power master shelf configuration. The backplane isMPSL.

Figure 2-10 9U Dual-Power Master Shelf Configuration

Note:


Figure 2-11 shows the 9U dual-power subordinate shelf configuration. The backplaneis MPSL.

2-7



Figure 2-11 9U Dual-Power Subordinate Shelf Configuration

l Relationship between the cards and the relevant extension cards

When the 9U dual-power shelf uses different backplanes, the extension cards aredifferent.

à Table 2-1 describes the relationship between the cards and the relevant extensioncards when the 9U dual-power shelf uses the MPSL backplane.

Table 2-1 Relationship between Cards and Relevant Extension Cards (MPSLBackplane)

Card Extension Card

Subscriber line card SEB or SEC

Control and switching card (Slot 9) IEBA

Control and switching card (Slot 10) IEBC

EPC EPEB

POWER K PEB

à Table 2-2 describes the relationship between the cards and the relevant extensioncards when the 9U dual-power shelf uses the MQSL backplane.

Table 2-2 Relationship between Cards and Relevant Extension Cards (MQSLBackplane)

Card Extension Card


Control and switching card (Slot 9) IEBD

Control and switching card (Slot 10) IEBE

EPC EPEB

POWER K PEB

2-8


Chapter 2 Shelves

2.3 OUT50FA ShelfThe OUT50FA shelf is used in the OUT50H cabinet.

Shelf Structure

l Outline

Figure 2-12 shows the outline of an OUT50FA shelf.

Figure 2-12 OUT50FA Shelf

l Dimensions

The dimensions of OUT50FA shelf are 703 mm × 336 mm × 354 mm (Height × Width× Depth).

Shelf Configuration

In the full configuration, the OUT50FA shelf is configured with two control and switchingcards (active and standby), two MPRB cards, ten subscriber line cards, two POWER Kcards (for power mutual assistance), two PPC cards and one EMB card. The backplaneis MOCSFA.

If the test function is required, insert one TSLC (TSLCD/TSLCE) card in slot 11.

If an ODTI card is required, insert it in slot 6.

2-9



Figure 2-13 shows the OUT50FA shelf configuration.

Figure 2-13 OUT50FA Shelf Configuration

Note:l If the GISB card is used, it is unnecessary to configure the MPRB card. The slots for

MPRB cards can hold any subscriber cards.l If the TSLC card is not configured, leave slot 11 empty. Slot 11 can not hold any

subscriber card.l Slot 12 is only for the EMB card. It cannot be configured or deleted. The EMB card,

instead of the control and switching card, monitors the power card.

2.4 OUT50M ShelfThe OUT50M shelf is used in the OUT50M cabinet. The OUT50M shelf is divided into twoparts. The upper part is 6U high, holding the control and switching cards, the subscriberline cards, and the power card. The lower part is 3U high, holding the extension cards of therelevant cards. Subscriber cables, cascade cables, monitoring cables, and maintenancecables are all led out from the front panels of the extension cards.

Shelf Structure

l Outline

Figure 2-14 shows the outline of OUT50M shelf.

2-10


Chapter 2 Shelves

Figure 2-14 OUT50M Shelf

l Dimensions

The dimensions of an OUT50M shelf are 445.5 mm × 352.8 mm × 318.5 mm (Height× Width × Depth).

Shelf Configuration

In the full configuration, the OUT50M shelf is configured with two control and switchingcards (active and standby), six subscriber line cards, and two POWER K cards (for powermutual assistance). The backplane is MOCSM.

If the test function is required, insert one TSLC (TSLCD/TSLCE) card in any slot for thesubscriber line card.

If the environment power monitoring function is required, insert one EPC card in slot 14.

If ODTI card is required, insert it in slot 8.

Figure 2-15 shows OUT50M shelf configuration.

2-11



Figure 2-15 OUT50M Shelf Configuration

Note:

If GISB card is used, it is unnecessary to configure MPRB card . The slots for MPRB cardscan hold other subscriber line cards.

Relationship between Cards and Extension Cards

Table 2-3 describes the relationship between the cards and their relevant extension cards.

Table 2-3 Relationship between Cards and Extension Cards

Card Extension Card


Control and switching card (Slot 9) IEBD

Control and switching card (Slot 10) IEBE

EPC EPEB

POWER K PEB

2-12


Chapter 3CardsTable of Contents

List of Cards...............................................................................................................3-1Control and Switching Cards ......................................................................................3-4VoIP Processing Card ..............................................................................................3-12Subscriber Cards .....................................................................................................3-14Interface Cards.........................................................................................................3-44Extension Cards.......................................................................................................3-64TSLC Card ...............................................................................................................3-76EPC Card.................................................................................................................3-78ETM .........................................................................................................................3-80Power Cards ............................................................................................................3-82Backplanes ..............................................................................................................3-86Backplane Daughter Cards ......................................................................................3-97

3.1 List of CardsTable 3-1 lists the cards used in the ZXMSG 5200.

Table 3-1 ZXMSG 5200 Cards

Type Card Description

GISR 1000 M control and switching card R

GISB 1000 M control and switching card B

GISF 1000 M control and switching card F

Control and switching card

GISE 1000 M control and switching card E

VoIP processing card MPRB 240-port voice processing card

ALC Analog line card

RALC Reverse analog line card

FLC Far-end analog line card

HLC 64-port POTS line card

Analog subscriber card

ELC Enhanced 32-port POTS line card

GILCA 16-port integrated voice data subscriber cardIntegrated line subscriber card

GELCA 32-port integrated voice data subscriber card

3-1




DLCC Digital subscriber card

DLCE Digital subscriber card

Digital subscriber card

HDB High-speed digital subscriber card

GADLC 16-port ADSL subscriber line card C

GAGLC 32 port interface ADSL subscriber line card C

GVDLD 16-port VDSL2 subscriber line card

GSDL 16-port SHDSL subscriber line card

Broadband subscriber card

GSDLB 16-port SHDSL.bis subscriber line card

Circuit emulation card CEE 16-port E1/T1 interface circuit emulation card

EPON subscriber card EPOI 1-port EPON office-end interface card

GPON subscriber card GPOI 2-port GPON office-end subscriber line card

EPON uplink card EPNI EPON uplink card

GPON uplink card GPNI 1-port/2-port GPON uplink card

GETC 1000 M Ethernet interface card

GETI 1000 M Ethernet interface card

Ethernet interface card

GECA 1000 M Ethernet transition card A

Analog trunk card TRKC 16-port analog trunk card C

Trunk interface card ODTI Octal digital interface card

ATM interface card GATI ATM interface card

GHDB 1000 M high-speed digital subscriber

interface card

CHDB Circuit emulation high-speed digital

subscriber interface card

Subscriber interface card

EHDB E1 high-speed digital subscriber interface

card

IEBA Extension card of the control and switching

card

IEBB Extension card of the control and switching

card

IEBC Extension card of the control and switching

card

IEBD Extension card of the control and switching

card

Extension card

3-2


Chapter 3 Cards


IEBE Extension card of the control and switching

card

IEBG Extension card of the control and switching

card

IEBH Extension card of the control and switching

card

SEB Extension card of the subscriber card

SEC Extension card of the subscriber card

PEB Extension card of the power card

EPEB Extension card of the environment power

monitoring card (EPC)

TSLCC Subscriber test card C

TSLCD Subscriber test card D

Test card

TSLCE Subscriber test card E

EMB Environment power monitoring card, which is

used in the OUT50FA shelf

EPC Environment power monitoring card

Environment power control card

ETM 112 Test and environment power monitoring

card

POWER H Power card H (used in the single-power

standard shelf and the OUT50D shelf)

POWER K Power card K (used in the dual-power

standard shelf)

Power card

POWER L Secondary power card L

MICS Backplane of the single-power back-outlet

shelf

MESL Backplane of the extension subscriber layer

MUSL Backplane U of the subscriber layer

MBSL Backplane of the dual-power back-outlet shelf

MQSL Backplane Q of the front-outlet subscriber

layer

MPSL Backplane of the front-outlet shelf

MOCSM Backplane M of the integrated subscriber

layer

Backplane

3-3




MOCSFA Backplane FA of the integrated subscriber

layer

SUPI Uplink interface card of the subordinate shelf

GEI 1000 M Ethernet cascade interface card

Daughter card of the backplane

EPSA EPNI uplink card A

3.2 Control and Switching CardsThe ZXMSG 5200 supports four types of the control and switching card, which are GISR,GISB, GISF, and GISE. The control and switching cards are used in both the master andthe subordinate shelves.

3.2.1 GISR Card

IntroductionThe GISR card is a gigabit control and switching card. It completely uses the gigabitswitching chip. The communication channels are completely 1000 Mbps channels. TheGISR card supports the active/standby working mode.

The features of the GISR card are as follows:

l Implements circuit status scanning and management on the subscriber interface card.l Supports 2 K × 2 K switching capability.l Supports 4 × E1s, 12 slots for the subscriber line cards, and 8 MHW subordinate shelf

switching capability.l Supports the convergency and switching capability of the Ethernet bus.l Supports Ethernet layer-2 protocol processing.l Supports IP layer-3 protocol processing.

PanelFigure 3-1 shows the GISR card panel.

3-4


Chapter 3 Cards

Figure 3-1 GISR Card Panel

LEDs

There are eight LEDs on the GISR card panel. Table 3-2 lists these LEDs.

Table 3-2 GISR Card LEDs

LED Color Status Description

RUN Green Flashing every one

second

The card is running normally.

ALM Red ON The card is faulty.

ON The card is active.M/S Green

OFF The card is standby.

NACT Green Flashing every half

second

The narrowband service is normal.

3-5




BACT Green Flashing every half

second

The broadband service is normal.

DT Green Flashing every one

second

The trunk is running normally.

GE1 Green Flashing every half

second

Uplink port 1 is running normally.


second


Interface

There is an RJ-45 interface on the GISR card panel. This RJ-45 interface is used forout-of-band network management.

Button

There is an RST button on the GISR card panel. This RST button is used for resetting thecard.

3.2.2 GISB Card

Introduction

On the basis of the GIS card, the GISB card enhances the performance. In addition, theGISB card integrates the VoIP function. The features of the GISB card are as follows:

l Enhances CPU processing performance.l Compatible with MPRB functions.l Supports VOPS voice processing daughter cards.l Supports 512-port service access.l Supports 4 K × 4 K TDM switching capability.l Internal clock accuracy meets 4.6 ppm requirements.l Supports BITS/Hz clock input. Software can be configured.l Supports 8 MHW/16 MHW subordinate shelf cascade resources.l NAT daughter card interface and switching chip service interface are GE interfaces.l NAT daughter card only supports the MAPP card, instead of the CNIC card.

GISB supports the following VOPS voice processing daughter cards:

l VOPSA: 64 portsl VOPSB: 128 portsl VOPSE: 256 portsl VOPSF: 512 ports

3-6


Chapter 3 Cards

Note:

One GISB card can only hold one voice processing daughter card.

PanelFigure 3-2 shows the GISB card panel.

Figure 3-2 GISB Card Panel

LEDsThere are eight LEDs on the GISR card panel. Table 3-3 lists these LEDs.

Table 3-3 GISB Card LEDs



second


3-7







NACT Green Flashing every half

second

The narrowband service is normal.

BACT Green Flashing every half

second

The broadband service is normal.

DT Green Flashing every one

second

The trunk is running normally.


second



second


Interface

There is an RJ-45 interface on the GISB card panel. This RJ-45 interface is used forout-of-band network management.

Button

There is an RST button on the GISB card panel. This RST button is used for resetting thecard.

3.2.3 GISF Card

Introduction

The GISF cards supports narrowband service processing. The features of the GISF cardare as follows:

l Works in both E1 mode and HW mode.l Supports narrowband services such as V5 service, Z interface PSTN service, ISDN

service, and DDN service.l Supports the scanning and management on the circuit status of the subscriber cards.l Supports 8 K × 8 K time slots switching network.l Supports 8 MHW or 16 MHW master/subordinate shelf switching capability.l Provides 4 E1 resources at the upstream directionl Supports active/standby working mode.l Provides three RS-232 interfaces. The front panel provides one for local debugging

and management. The backplane provides one for environment power monitoringand the other one for the fan.

l Provides one 10 M/100 M Ethernet interface for local debugging and version upgrade.

3-8


Chapter 3 Cards

l Provides one 100 M Ethernet for uplink and one GE interface for the communicationsbetween the active and standby GISF cards.

Panel

Figure 3-3 shows the GISF card panel.

Figure 3-3 GISF Card Panel

LEDs

There are eight LEDs on the GISF card panel. Table 3-4 lists these LEDs.

Table 3-4 GISF Card LEDs


RUN Green Flashing slowly The card is running

normally.




NACT Green ON The narrowband

service is normal.

DT1 – DT4 Green Flashing When E1 signals are

transmitted/received,

the relevant DT LED is

flashing.

3-9



Interface

There is one Ethernet interface (ETH) and one serial port (COM) on the GISF card panel.

Button

There is an RST button on the GISF card panel. This RST button is used for resetting thecard.

3.2.4 GISE Card

Introduction

The GISE card is one type of the control and switching cards of the ZXMSG 5200. TheGISE card supports the pure narrowband service access. It is used in the subordinateshelf.

The features of the GISE card are as follows:

l Supports two working modes.

à E1 working mode: The ZXMSG 5200 is connected to the switch through V5,which is provided by the E1 daughter card. One ZXMSG 5200 master shelfsupports four GISE subordinate shelves.

à HW working mode: The subordinate shelf is connected to the master shelfthrough 8 MHW. One ZXMSG 5200 master shelf supports four GISE subordinateshelves.

l Supports V5 service, Z interface PSTN access service, ISDN service, and DDNservice.

l Implements circuit status scanning and management on the subscriber interface card.l Supports 2 K × 2 K switching capability.l Supports 4 × E1s, 12 slots for the subscriber line cards, and 8 MHW subordinate shelf

switching capability.l Supports active/standby working mode.l Provides two RS-232 interfaces. One is used for the local management. The other is

used for the environment power monitoring.l Provides a 10 M Ethernet interface for version uploading.

Panel

Figure 3-4 shows the GISE card panel.

3-10


Chapter 3 Cards

Figure 3-4 GISE Card Panel

LEDsThere are eight LEDs on the GISE card panel. Table 3-5 lists these LEDs.

Table 3-5 GISE Card LEDs



second


ALM Red ON The card or the software is faulty.



3-11




NACT Green ON The narrowband service is normal.

DT1 Green ON The trunk is running normally.




InterfaceThere is a 10 M Ethernet interface on the GISE card panel. This 10 M Ethernet interfaceis used for version uploading.

ButtonThere is an RST button on the GISE card panel. This RST button is used for resetting thecard.

3.2.5 MAPP CardMAPP card is a daughter card, which plugs into the GISR card and GISB card.

The MAPP card provides the following functions:

l Translates the network address of the VoIP service and control flow.l Processes the ARP packets and Ping packets.l Encrypts the card numbers of the specific voice channel.

3.3 VoIP Processing CardThe ZXMSG 5200 supports the following VoIP processing cards:

l MPRB cardl VOPS daughter cards

3.3.1 MPRB Card

IntroductionThe MPRB card implements the VoIP and fax forwarding functions. The MPRB cardsupports the following functions:

l DTMF detecting/generatingl Tone and voice generatingl CID receiving/transmittingl Conference call

In full configuration, the ZXMSG 5200 supports two MPRB cards. Two MPRB cards workin load-sharing mode. One MPRB card supports up to 240-channel VoIP resources.

3-12


Chapter 3 Cards

Panel

Figure 3-5 shows the MPRB card panel.

Figure 3-5 MPRB Card Panel

LEDs

There are four LEDs on the MPRB card panel. Table 3-6 lists these LEDs.

3-13



Table 3-6 MPRB Card LEDs



second



Flashing slowly DSP1 is started up normally.DSP1 Green

ON DSP1 is not started up.

Flashing slowly DSP2 is started up normally.DSP2 Green

ON DSP2 is not started up.

ButtonThere is an RST button on the MPRB card panel. This RST button is used for resettingthe card.

3.3.2 VOPS Daughter Cards

VOPS Series and VOPS/2 Series Daughter CardsThe VOPS series and VOPS/2 series daughter cards are inserted into the MPRB card.One MPRB card supports only one VOPS daughter card of the following types:

l VOPS1: 80 channelsl VOPS2: 160 channelsl VOPS3: 240 channelsl VOPS/21: 80 channelsl VOPS/22: 160 channelsl VOPS/23: 240 channels

VOPSA/B/E Series Daughter CardsThe VOPA/B/E series sub-cards are inserted into the MPRB card. The MPRB cardsupports up to three VOPS daughter cards of the following types:

l VOPSA/1: 64 channelsl VOPSB/1: 128 channelsl VOPSE/1: 240 channelsl VOPSE/2: 80 channels

3.4 Subscriber CardsThe subscriber cards are classified into the following types:

l Analog subscriber cards

à ALC

3-14


Chapter 3 Cards

à RALC

à FLC

à HLC

à ELC

l Integrated line subscriber cards

à GILCA

à GELCA

l Digital subscriber cards

à DLCC

à DLCE

à HDB

l Analog trunk card: TRKCl Broadband subscriber cards

à GADLC

à GAGLC

à GVDL

à GSDL

à GSDLB

l Circuit emulation card: CEEl EPON subscriber card: EPOIl GPON subscriber card: GPOI

3.4.1 ALC Card

Introduction

The ALC card provides 32 ports for the analog subscriber service access. It also providesPOTS functions.

The ALC card supports the following functions:

l Feed functionl Over voltage protectionl Ringingl Supervisionl Coding and decodingl Hybrid 2-wire/4-wire conversionl Test function

3-15



Panel

Figure 3-6 shows the ALC card panel.

Figure 3-6 ALC Card Panel

LEDs

There are three LEDs on the ALC card panel. Table 3-7 lists these LEDs.

Table 3-7 ALC Card LEDs


RUN Green Flashing The card is running normally.


HOOK Green ON One or more subscribers hook(s) off.

3-16


Chapter 3 Cards

Button

There is an RST button on the ALC card panel. This RST button is used for resetting thecard.

3.4.2 RALC Card

Introduction

The RALC card provides 32 ports for the analog subscriber service access. It also providesPOTS function.

The RALC card supports the following functions:

l Feed functionl Over voltage protectionl Ringingl Supervisionl Coding and decodingl Hybrid 2-wire/4-wire conversionl Test functionl Polarity reversal function

Panel

Figure 3-7 shows the RALC card panel.

3-17



Figure 3-7 RALC Card Panel

LEDs

There are three LEDs on the RALC card panel. Table 3-8 lists these LEDs.

Table 3-8 RALC Card LEDs





Button

There is an RST button on the RALC card panel. This RST button is used for resetting thecard.

3-18


Chapter 3 Cards

3.4.3 FLC Card

Introduction

The FLC card provides 16 ports for the analog subscriber service access. It also providesPOTS function. The FLC card supports -48 V DC or -80 V DC feeding over long distance.

The FLC card supports the following functions:

l Feed functionl Over voltage protectionl Ringingl Supervisionl Coding and decodingl Hybrid 2-wire/4-wire conversionl Test function

Panel

Figure 3-8 shows the FLC card panel.

3-19



Figure 3-8 FLC Card Panel

LEDs

There are three LEDs on the FLC card panel. Table 3-9 lists these LEDs.

Table 3-9 FLC Card LEDs





Button

There is an RST button on the FLC card panel. This RST button is used for resetting thecard.

3-20


Chapter 3 Cards

3.4.4 HLC Card

IntroductionThe HLC card supports the narrowband service access.

The HLC card supports the following functions:

l Feed functionl Over voltage protectionl Ringingl Supervisionl Coding and decodingl Hybrid 2-/4- wire conversionl Test function

PanelFigure 3-9 shows the HLC card panel.

Figure 3-9 HLC Card Panel

LEDsThere are three LEDs on the HLC card panel. Table 3-10 lists these LEDs.

Table 3-10 HLC Card LEDs



ALM Red ON The card is faulty or software is faulty.


3-21



Button

There is an RST button on the HLC card panel. This RST button is used for resetting thecard.

3.4.5 ELC Card

Introduction

The ELC card is an enhanced POTS line card. It provides 32 ports for the analogsubscriber service access.

The ELC card supports the following functions:

l Feed functionl Over voltage protectionl Ringingl Supervisionl Coding and decodingl Hybrid 2-/4- wire conversionl Test function

In addition, the ELC card supports balanced ringing current, AC parameters setting withsoftware, and 16KC/12KC.

Panel

Figure 3-10 shows the ELC card panel.

Figure 3-10 ELC Card Panel

LEDs

There are three LEDs on the ELC card panel. Table 3-11 lists these LEDs.

Table 3-11 ELC Card LEDs





Button

There is an RST button on the ELC card panel. This RST button is used for resetting thecard.

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Chapter 3 Cards

3.4.6 GELCA Card

Introduction

The GELCA card is a high-density integrated subscriber card. The GELCA card provides32 interfaces for the ADSL2 broadband service access and 32 interfaces for the analogsubscriber service access.

Panel

Figure 3-11 shows the GELCA card panel.

Figure 3-11 GELCA Panel

LEDs

There are three LEDs on the GELCA card panel.Table 3-12 lists these LEDs.

3-23



Table 3-12 GELCA Card LEDs




ACT Green ON The link is UP.

Button

There is an RST button on the GELCA card panel. This RST button is used for resettingthe card.

3.4.7 DLCE Card

Introduction

The DLCE card implements U interface functions of ISDN basic rate (2B1D).

Panel

Figure 3-12 shows the DLCE card panel.

3-24


Chapter 3 Cards

Figure 3-12 DLCE Panel

LEDs

There are ten LEDs on the DLCE card panel.Table 3-13 lists these LEDs.

Table 3-13 DLCE Card LEDs

Indicator Color Description

RUN Green When the card is working properly, the LED flashes slowly.

ALM Red When the card works improperly, the LED is on.

U1 – U8 Green One LED corresponds to one U interface. When one U

interface is activated, its relevant LED is ON.

Button

There is an RST button on the DLCE card panel. This RST button is used for resetting thecard.

3-25



3.4.8 TRKC Card

Introduction

The TRKC card provides the analog trunk unit interface. The analogue trunk unit isbetween the digital switching network and the analog trunk cable.

Panel

Figure 3-13 shows the TRKC card panel.

Figure 3-13 TRKC Card Panel

LEDs

There are three LEDs on the TRKC card panel. Table 3-14 lists these LEDs.

3-26


Chapter 3 Cards

Table 3-14 TRKC Card LEDs





Button

There is an RST button on the TRKC card panel. This RST button is used for resetting thecard.

3.4.9 GILCA Card

Introduction

The GILCA card provides 16 ports for the ADSL and POTS service access. In hardware,the GILCA card integrates the narrowband parts of the GADLC card and the ILC card. Thesoftware version of the GILCA card is the same as that of the GADLC card.

Panel

Figure 3-14 shows the GILCA card panel.

3-27



Figure 3-14 GILCA Card Panel

LEDsThere are four LEDs on the GILCA card panel.Table 3-15 lists these LEDs.

Table 3-15 GILCA Card LEDs






ButtonThere is an RST button on the GILCA card panel. This RST button is used for resettingthe card.

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Chapter 3 Cards

3.4.10 GADLC Card

Introduction

The GADLC card is an enhanced ADSL subscriber card. It provides 16 ports for thehigh-speed ADSL/ADSL2/ADSL2+ service access. The GADLC is an improvement uponthe ADLG card.

The GADLC card supports the following functions:

l The GADLC card supports 2+2 line protection function.l The GADLC card supports broadband 112 Test.

Panel

Figure 3-15 shows the GADLC card panel.

Figure 3-15 GADLC Card Panel

3-29



LEDs

There are three LEDs on the GADLC card panel. Table 3-16 lists these LEDs.

Table 3-16 GADLC Card LEDs





Button

There is an RST button on the GADLC card panel. This RST button is used for resettingthe card.

3.4.11 GAGLC Card

Introduction

The GAGLC card expands the capacity on the basis of the GADLC card. It provides 32ports for the ADSL service access. The GAGLC card must work with the MDF shelf whichhas a splitter because the GAGLC card does not have a POTS splitter and test relay.

Panel

Figure 3-16 shows the GAGLC card panel.

3-30


Chapter 3 Cards

Figure 3-16 GAGLC Card Panel

LEDs

There are three LEDs on the GAGLC card panel. Table 3-17 lists these LEDs.

Table 3-17 GAGLC Card LEDs




ACT Green ON The link is up.

Button

There is an RST button on the GAGLC card panel. This RST button is used for resettingthe card.

3-31



3.4.12 GVDL Card

Introduction

The GVDL card provides 16 ports for the VDSL service access. It can reside in any slot forthe subscriber card. The GVDL card provides a solution to VDSL MODEM requirementsof multiple users.

Panel

Figure 3-17 shows the GVDL card panel.

Figure 3-17 GVDL Panel

LEDs

There are three LEDs on the GVDL card panel. Table 3-18 lists these LEDs.

3-32


Chapter 3 Cards

Table 3-18 GVDL Card LEDs





Button

There is an RST button on the GVDL card panel. This RST button is used for resetting thecard.

3.4.13 GSDL Card

Introductioin

The GSDL card provides 16 ports for the SHDSL service access.

Panel

Figure 3-18 shows the GSDL card panel.

3-33



Figure 3-18 GSDL Card Panel

LEDs

There are three LEDs on the GSDL card panel. Table 3-19 lists the LEDs.

Table 3-19 GSDL Card LEDs





Button

There is an RST button on the GSDL card panel. This RST button is used for resetting thecard.

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Chapter 3 Cards

3.4.14 GSDLB Card

Introduction

The GSDLB card is a high-speed SHDSL subscriber card. It provides 16 ports for theSHDSL service access. The features of the GSDLB card are high speed, high integration,and low power consumption.

Panel

Figure 3-19 shows the GSDLB card panel.

Figure 3-19 GSDLB Panel

LEDs

There are three LEDs on the GSDLB card panel. Table 3-20 lists the LEDs.

3-35



Table 3-20 GSDLB Card LEDs





Button

There is an RST button on the GSDLB card panel. This RST button is used for resettingthe card.

3.4.15 CEE Card

Introduction

The CEE card implements the TDMoIP functions in the circuit emulation mode. The CEEcard provides 16 E1/T1 electrical interfaces and one 1000 Mbps uplink interface. The CEEresides in any slot for the subscriber card when it works in the unstructured mode. TheCEE card resides only in the slots LC6, LC7 and LC8 when it works in the structured mode.

Panel

Figure 3-20 shows the CEE card panel.

3-36


Chapter 3 Cards

Figure 3-20 CEE Card Panel

LEDs

There are two LEDs on the CEE card panel. Table 3-21 lists these LEDs.

Table 3-21 CEE Card LEDs


RUN Green Flashing CPU is running normally.

ALM Red ON CPU is faulty.

Button

There is an RST button on the CEE card panel. This RST button is used for resetting thecard.

3-37



3.4.16 EPOI Card

Introduction

The EPOI card implements the OLT side functions in EPON system. The EPOI cardprovides one EPONOLT port. The EPOI card supports 32 ONUs at maximum. The serviceinterface between the EPOU card and the backplane is a 100M/1000M Ethernet interface.

Panel

Figure 3-21 shows the EPOI card panel.

Figure 3-21 EPOI Card Panel

LEDs

There are three LEDs on the EPOI card panel. Table 3-22 lists these LEDs.

3-38


Chapter 3 Cards

Table 3-22 EPOI Card LEDs


RUN Green Flashing slowly The card is working normally.

ALM Red ON The card or the oftware is faulty.

Red ON The optical interface is not connected or the link

is not established.

Green Flashing The optical interface is receiving/transmitting data

or the link is UP.

ACT

Yellow ON The card receives wrong packets from ONU.

ButtonThere is an RST button on the EPOI card panel. This RST button is used for resetting thecard.

3.4.17 GPOI Card

IntroductionThe GPOI card provides four GPON interfaces. The GPOI card implements the OLTside functions in GPON system. It supports the rate of 2.48832 Gbps at the downstreamdirection and the rate of 24416 Gbps at the upstream direction. The GPOI card is insertedonly in slots 5/6/13/14. Each GPOI card provides four PON interfaces.

PanelFigure 3-22 shows the GPOI card panel.

3-39



Figure 3-22 GPOI Card Panel

LEDs

There are six LEDs and four optical module interfaces on the GPOI card panel. Table 3-23lists these LEDs.

Table 3-23 GPOI Card LEDs


– OFF l The card is not powered ON.

l The card is not inserted.

l The card does not match.

l CPU is not started.

ON The card has passed self-test but not yet

read data from the control and switching

card or NM.

Green

RUN

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Chapter 3 Cards


Flashing irregularly. The card is downloading data from the

control and switching card or NM.

Flashing slowly every

one second

The card runs properly.

ON The card is severely faulty.

l The card does not pass self-test.

l The software is running on a hardware

version which does not support the

software version.

l NM executes the reboot command

when the card is running normally.

Red


one second

This card cannot be inserted in this slot

(the card does not match the card type

configured on NM).

ON l The card is running a leading program.

l The card is downloading the software

version from the control and switching

card.

l The card cannot work because it does

not have a valid version.

Yellow


one second

l The card version does not match the

software version of the control and

switching card.

l The card is not set to auto-update

while the service is normal.


– OFF GPON optical interface 1 is not connected

or the ink is not established.

ON The link of GPON optical interface 1 is

established.

ACT1

Green

Flashing GPON interface 1 is transmitting/receiving

data.




established.

ACT2

Green


data.

3-41







established.

ACT3

Green


data.




established.

ACT4

Green


data.

Button

There is an RST button on the GPOI card panel. This RST button is used for resetting thecard.

3.4.18 HDB Card

Introduction

The HDB card integrates the transmission functions and the user functions. It providesfour SHDSL interfaces. The HDB card resides in the subscriber slot.

When the HDB card implements the transmission functions, it provides four channels ofE1/2M G.703 signals, and it provides four ports of 2-line/4-line SHDSL interfaces at most(the 4-line interface needs the support of the remote MODEM).

When the HDB card implements the user functions, it switches with the TPU card throughone 2 MHW, and it provides four N × 64 K 2-line SHDSL interfaces.

Panel

Figure 3-23 shows the HDB card panel.

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Chapter 3 Cards

Figure 3-23 HDB Card Panel

LEDs

There are eight LEDs on the HDB card panel. Table 3-24 lists these LEDs.

Table 3-24 HDB Card LEDs

LED Status Description

RUN Flashing with the frequency of 1

Hz.


ALM ON The card is faulty.

CRD1 ON STD card 1 is in position.

CRD2 ON STD card 2 is in position.

3-43



LED Status Description

OFF The first SHDSL is ready.

Flashing The first SHDSL is in handshake status.

DSL1

ON The first SHDSL line is active.

OFF The second SHDSL is ready.

Flashing The second SHDSL is in handshake status.

DSL2

ON The second SHDSL is active.

OFF The third SHDSL is ready.

Flashing The third SHDSL is in handshake status.

DSL3

ON The third SHDSL is active.

OFF The fourth SHDSL is ready.

Flashing The fourth SHDSL is in handshake status.

DSL4

ON The fourth SHDSL is active.

Button

There is an RST button on the HDB card panel. This RST button is used for resetting thecard.

3.5 Interface CardsThe interface cards are classified into the following types:

l Ethernet interface cards

à GETC

à GETI

à GECA

l Trunk interface card: ODTIl ATM interface card: GATIl Subscriber interface card

à GHDB

à CHDB

à EHDB

l EPON uplink card: EPNIl GPON uplink card: GPNI

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Chapter 3 Cards

3.5.1 GETC Card

Introduction

The GETC card resides in the subscriber card slot of the master shelf or the subordinateshelf. It leads the 1000 M Ethernet interface from the backplane to the panel. One GETCcard provides one or two 1000 M Ethernet optical interfaces.

Panel

Figure 3-24 shows the GTEC card panel.

Figure 3-24 GTEC Card Panel

Interface

There are two 1000 M Ethernet interfaces on GETC card panel. If the GETC card residesin the slots LC5 and LC6, two 1000 M optical interfaces are used. If the GETC card residesin other slots (LC1 to LC4, LC7 to LC12), only one 1000 M optical interface is used.

3-45



LEDs

There are two LEDs on the GETC card panel. Table 3-25 lists these LEDs.

Table 3-25 GETC Card LEDs




Button

There is an RST button on the GETC card panel. This RST button is used for resettingthe card.

3.5.2 GETI Card

Introduction

The GETI card works to achieve the Ethernet Layer-2 switching function. It provides FEelectrical interface or optical interface for user access or uplink.

The GETI card provides four 100 M Ethernet electrical interfaces or four 100 M Ethernetoptical interfaces.

The backplane of the GETI card provides 1 × GE interface for the unicast service and 1 ×GE interface for the multicast service.

Panels

l When the GETI card provides four 100 M electrical interfaces, the GETI card panel isas shown in Figure 3-25.

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Chapter 3 Cards

Figure 3-25 GETI Card Panel (Four 100 M Electrical Interfaces)

l When the GETI card provides four 100 M optical interfaces, the GETI card panel isas shown in Figure 3-26.

3-47



Figure 3-26 GETI Card Panel (Four 100 Mbps Optical Interfaces)

LEDs

There are six LEDs on the GETI card panel. Table 3-26 lists these LEDs.

Table 3-26 GETI Card LEDs


RUN Green Flashing The card is working normally.


ON Link 1 is established, but no data is received

or transmitted.

OFF Link 1 is down.

FE1 Green

Flashing Link 1 is established and the interface is

receiving/transmitting data.

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Chapter 3 Cards



or transmitted.

OFF Link 2 is down.

FE2 Green




or transmitted.

OFF Link 3 is down.

FE3 Green




or transmitted.

OFF Link 4 is down.

FE4 Green



ButtonThere is an RST button on the GETI card panel. This RST button is used for resetting thecard.

3.5.3 GECA Card

IntroductionThe GECA card has two independent 1000 M selection unit and service processing unit.The GECA card provides two GE/FE optical interfaces or two GE electrical interfaces(10/100/100 M self-adaptation).

PanelFigure 3-27 shows the GECA card panel.

3-49



Figure 3-27 GECA Card Panel

LEDs

There are four LEDs on the GECA card panel. Table 3-27 lists these LEDs.

Table 3-27 GECA Card LEDs



second

The card is working normally.


ON The link is established.P_LED2 Green

Flashing The interface is transmitting/receiving data.

ON The link is established.P_LED1 Green

Flashing The interface is transmitting/receiving data.

Button

There is an RST button on the GECA card panel. This RST button is used for resettingthe card.

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Chapter 3 Cards

3.5.4 ODTI Card

Introduction

The ODTI card is an octal digital trunk interface card. It resides in slot 8. The ODTI cardimplements the extension functions of 8 × E1 by converting two 8 MHW on the control andswitching card to eight E1 signals.

Panel

Figure 3-28 shows the ODTI card panel.

Figure 3-28 ODTI Card Panel

LEDs

There are 10 LEDs on the ODTI card panel. Table 3-28 lists these LEDs.

3-51



Table 3-28 ODTI Card LEDs




ON The link is established, but no data is received

or transmitted.

OFF The link is not established.

DT1 – DT8 Green

Flashing The link is established and the interface is


ButtonThere is an RST button on the ODTI card panel. This RST button is used for resetting thecard.

3.5.5 GATI Card

IntroductionThe GATI card is used in DSLAM or ATM networking. The GATI card converts the ATMcell of the uplink port to the Ethernet frames inside the system. In addition, the GATI cardmakes the traffic control on different PVCs and processes OAM cells.

Because the GATI card is used as the uplink card, the GE multicast bus from the controland switching card to the line card is not needed. The broadband interface between theGATI card and the backplane is a 100 M/ /1000 M Ethernet unicast interface.

The GATI card provides an ATM 155M optical uplink interface for uplink and three 155MATM optical interfaces for downlink. The GATI card can reside in any subscriber slot.

PanelFigure 3-29 shows the GATI card panel.

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Chapter 3 Cards

Figure 3-29 GATI Card Panel

LEDs

There are three LEDs on the GATI card panel. Table 3-29 lists these LEDs.

Table 3-29 GATI Card LEDs



second



Red ON The signal is lost.ACT

Green ON The optical interface is in proper connection.

3-53



ButtonThere is an RST button on the GATI card panel. This RST button is used for resetting thecard.

3.5.6 GHDB Card

IntroductionThe GHDB card is a 1000 M high-speed digital subscriber interface card. The ZXMSG5200 can be configured with 11 GHDB cards. The GHDB card supports E1 and SHDSLservices.

PanelFigure 3-30 shows the GHDB card panel.

Figure 3-30 GHDB Card Panel

LEDsThere are ten LEDs on the GHDB card panel. Table 3-30 lists these LEDs.

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Chapter 3 Cards

Table 3-30 GHDB Card LEDs



second



ON The line is in Data status.

OFF The line is in Handshake status.

L1 - L8 Green

Flashing The line is in Training status.

ButtonThere is an RST button on the GHDB card panel. This RST button is used for resettingthe card.

3.5.7 CHDB Card

IntroductionThe CHDB card is a circuit emulation high-speed digital subscriber interface card. TheZXMSG 5200 can be configured with 11 CHDB cards. The CHDB card supports E1, CES,and SHDSL services.

PanelFigure 3-31 shows the CHDB card panel.

3-55



Figure 3-31 CHDB Card Panel

LEDs

There are 10 LEDs on the CHDB card panel. Table 3-31 lists these LEDs.

Table 3-31 CHDB Card LEDs



second



ON The line is in Data status.

OFF The line is in Handshake status.

L1 - L8 Green

Flashing The line is in Training status.

Button

There is an RST button on the CHDB card panel. This RST button is used for resettingthe card.

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Chapter 3 Cards

3.5.8 EHDB Card

IntroductionThe EHDB card is an E1 high-speed digital subscriber interface card. The ZXMSG 5200can be configured with 11 EHDB cards. The EHDB card supports E1, CES, and SHDSLservices.

PanelFigure 3-32 shows the EHDB card panel.

Figure 3-32 EHDB Card Panel

LEDsThere are ten LEDs on the EHDB card panel. Table 3-32 lists these LEDs.

Table 3-32 EHDB Card LEDs



second


3-57





ON There are E1 signals.L1 - L8 Green

OFF There are no E1 signals.

ButtonThere is an RST button on the EHDB card panel. This RST button is used for resettingthe card.

3.5.9 EPNI Card

IntroductionThe EPNI card implements EPON uplink on the ZXMSG 5200. As an MDU in an EPONsystem, the ZXMSG 5200 is connected to an OLT through the EPNI card. The EPNI cardsupports 1.25 G bandwidth at both the downstream and upstream directions.

There are two types of EPNI cards. One provides a single optical interface. The otherprovides two optical interfaces.

PanelFigure 3-33 shows the EPNI card panel, which provides one optical interface.

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Chapter 3 Cards

Figure 3-33 EPNI Card Panel (One Optical Interface)

Figure 3-34 shows the EPNI card panel, which provides two optical interfaces.

3-59



Figure 3-34 EPNI Card Panel (Two Optical Interfaces)

Indicators

There are four LEDs on the EPNI card panel. Table 3-33 lists these LEDs.

Table 3-33 EPNI Card Indicators

Name Color Status Description



ON EPON interface is connected.ACT1,

ACT2

Green

Flashing EPON interface is receiving/transmitting data.

Interface

The EPNI card provides one or two EPON optical interfaces. The EPNI card with twooptical interfaces can implement TYPE C full-duplex protection function.

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Chapter 3 Cards

Button

There is an RST button on the EPNI card panel. This RST button is used for resetting thecard.

3.5.10 GPNI Card

Introduction

The GPNI card implements GPON uplink on the ZXMSG 5200. As an MDU of a GPONsystem, the ZXMSG 5200 is connected to an OLT through the GPNI card. The GPNIcard supports 2.5 G bandwidth at the downstream direction and 1.25 G bandwidth at theupstream direction.

The GPNI card is connected to the backplane via GE port, implementing the mapping fromEthernet frames to GEM frames.

There are two types of GPNI cards. One provides a single optical interface. The otherprovides two optical interfaces.

Note:

The GPNI card only works with GISB card.

Panel

Figure 3-35 shows the GPNI card panel, which provides one optical interface.

3-61



Figure 3-35 GPNI Card Panel (One Optical Interface)

Figure 3-36 shows the GPNI card panel, which provides two optical interfaces.

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Chapter 3 Cards

Figure 3-36 GPNI Card Panel (Two Optical Interfaces)

Indicators

There are four LEDs on the GPNI card panel. Table 3-34 lists these LEDs.

Table 3-34 GPNI Card Indicators

Name Color Status Description



ON GPON interface is connected.ACT Green

Flashing GPON interface is receiving/transmitting data.

Interface

The GPNI card provides one or two GPON optical interfaces. The GPNI card with twooptical interfaces can implement TYPE C full-duplex protection function.

3-63



Button

There is an RST button on the GPNI card panel. This RST button is used for resetting thecard.

3.6 Extension CardsThe extension cards are classified into the following types:

l Extension cards of control and switching cards

à IEBA

à IEBB

à IEBC

à IEBD

à IEBE

à IEBG

à IEBH

l Extension cards of subscriber cards

à SEB

à SEC

l Extension card of the environment power monitoring card (EPC): EPEBl Extension card of power card: PEB

3.6.1 IEBA Card

Introduction

The IEBA card is the extension card of the control and switching card.

The IEBA card resides in the slot under the control and switching card in slot 9. The E1cables, maintenance cables and monitoring cables are led out from the panel.

Panel

Figure 3-37 shows the IEBA card panel.

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Chapter 3 Cards

Figure 3-37 IEBA Card Panel

Interfaces

Table 3-35 lists the interfaces on the IEBA card panel.

Table 3-35 IEBA Card Interfaces

Interface Description

1 68-core socket, which is used to lead out E1 line

2 RJ45 interface, which is used to lead out the debugging cable

3 RJ45 interface, which is used to lead out the monitoring cables to the EPM

or EPC card

3.6.2 IEBB Card

Introduction

The IEBB card is the extension card of the control and switching card.

The IEBB card resides in the slot under the control and switching card in slot 10. Theuplink cables and cascade cables are led out from the panel.

There are two types of IEBB card. One provides two FE electrical interfaces. The otherprovides one FE electrical interface and one GE optical interface.

Panel

l Figure 3-38 shows the IEBB card panel, which provides two FE electrical interfaces.

3-65



Figure 3-38 IEBB Card Panel (Two FE Electrical Interfaces)

l Figure 3-39 shows the IEBB card panel, which provides one FE electrical interfaceand one GE optical interface.

Figure 3-39 IEEB Card Panel (One FE Electrical and One GE Optical Interface)

InterfacesTable 3-36 lists the interfaces on the IEBB card panel.

Table 3-36 IEBB Card Interfaces


1 Uplink interface (GE optical interface or FE electrical interface)

2 Uplink interface (FE electrical interface)

3 DB50 cascade socket, supporting three subordinate shelves at maximum

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Chapter 3 Cards

Jumpers

In FE + FE uplink mode, the short-circuit unit is installed between pins 1 and 2 of jumperX7, and between pins 2 and 3 of jumpers X8 and X9.

In FE + GE uplink mode, the short-circuit unit is installed between pins 1 and 2 of jumpersX7 and X9, and between pins 2 and 3 of jumper X8. Figure 3-40 shows the jumper position.

Figure 3-40 Jumper Position

3.6.3 IEBC Card

Introduction

The IEBC card is the extension card of the control and switching card.

The IEBC card resides in the slot under the control and switching card in slot 10. TheIEBC card provides two GE optical uplink interfaces. It supports three subordinate shelves.Each subordinate shelf includes one cascade GE and one pair of 8 MHW LVDS.

Panel

Figure 3-41 shows the IEBC card panel.

3-67



Figure 3-41 IEBC Card Panel

Interfaces

Table 3-37 lists the interfaces on the IEBC card panel.

Table 3-37 IEBC Card Interfaces


1 Gigabit optical Ethernet uplink port

2 Gigabit optical Ethernet uplink port

3 50-core socket, supporting the extension subordinate shelves

3.6.4 IEBD Card

Introduction

The IEBD card is the extension card of the control and switching card.

The IEBD card resides in the slot under the control and switching card in slot 9 (dual-power9U shelf, MQSL backplane). The uplink cables and cascade cables are led out from thepanel.

Panel

Figure 3-42 shows the IEBD card panel.

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Chapter 3 Cards

Figure 3-42 IEBD Card Panel

Interfaces

Table 3-38 lists the interfaces on the IEBD card panel.

Table 3-38 IEBD Card Interfaces


1 RJ-11 interface, which is used to connect the environment monitoring device

EPM

2 RJ-45 interface, which is used to lead out the debugging cable

3 DB50 socket, whish is used to lead out the cascade cable

l Supporting three subordinate shelves at maximum

l One cascade GE and one pair of 8 MHW LVDS in each subordinate shelf

3.6.5 IEBE Card

Introduction

The IEBE card is the extension card of the control and switching card.

The IEBE card resides in the slot under the control and switching card in slot 10 (dual-power9U shelf, MQSL backplane). The uplink cables are led out from the panel.

Panel

Figure 3-43 shows the IEBE card panel.

3-69



Figure 3-43 IEBE Card Panel

Interfaces

Table 3-39 lists the interfaces on the IEBE card panel.

Table 3-39 IEBE Card Interfaces




3 Uplink interface (GE optical interface)

4 Uplink interface (GE optical interface)

3.6.6 IEBG Card

Introduction

The IEBG card is the front-outlet transition daughter card. It is inserted in the MPSLbackplane. The IEBG card is used for subordinate shelf expansion and GPON uplink.The IEBG card provides the following interfaces:

l One GPON ONU uplink interface for GPON uplink

The IEBG card also can provide two GPON optical modules for line protection.

l One DB50 cascade socket for subordinate shelf expansion

Panel

Figure 3-44 shows the IEBG card panel.

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Chapter 3 Cards

Figure 3-44 IEBG Card Panel

Interfaces

Table 3-40 lists the interfaces on the IEBG card panel.

Table 3-40 IEBG Card Interfaces


1 Uplink interface (GPON ONU optical interface)

2 DB50 cascade socket, supporting three subordinate shelves at

maximum

3.6.7 IEBH Card

Introduction

The IEBH card is the front-outlet transition daughter card. It is inserted in the MQSLbackplane. The IEBH card is used for subordinate shelf expansion and GPON uplink.The IEBH card provides the following interfaces:

l One GPON ONU uplink interface for GPON uplink

You can select optical interface protection as required. If you want optical interfaceprotection, the IEBH panel provides two optical interfaces. If you do not want opticalinterface protection, the IEBH panel provides one optical interface.

l Two 100 M Ethernet electrical interfaces for subordinate shelf expansion

3-71



Panel

Figure 3-45 shows the IEBH card panel.

Figure 3-45 IEBH Card Panel

Interfaces

Table 3-41 lists the interfaces on the IEBH card panel.

Table 3-41 IEBH Card Interfaces


1 Cascade interface (FE electrical interface)

2 Cascade interface (FE electrical interface)

3 Uplink interface (GPON optical interface)

4 Uplink interface (GPON optical interface)

3.6.8 SEB Card

Introduction

The SEB card is the extension card of the subscriber card. The SEB card resides in theslot under the subscriber card. The subscriber cable is led out from the panel.

Panel

Figure 3-46 shows the SEB card panel.

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Chapter 3 Cards

Figure 3-46 SEB Card Panel

Socket

There is only one socket on the SEB card panel, which is used to lead out the subscribercable.

3.6.9 SEC Card

Introduction

The SEC card is the extension card of the subscriber card. The SEC card resides in theslot under the subscriber card. The subscriber cable is led out from the panel.

Note:

l The SEB card and the SEC card implement the same functions. Both of them areused to lead out the subscriber cables. Their sockets are different. The SEB cardprovides 68–core socket. The SEC card provides 64–core socket.

l The ODTI and HDTI cards are used only with the SEB card. Other subscriber cardscan be used with both SEB and SEC cards.

3-73



Panel

Figure 3-47 shows the SEC card panel.

Figure 3-47 SEC Card Panel

Socket

There is only one socket on the SEC card panel, which is used to lead out the subscribercable.

3.6.10 PEB Card

Introduction

The PEB card is the extension card of the power card. It resides in the slot under thePOWER K card. The power cables are led out from the panel.

Panel

Figure 3-48 shows the PEB card panel.

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Chapter 3 Cards

Figure 3-48 PEB Card Panel

Interfaces

Table 3-42 lists the interfaces on the PEB panel.

Table 3-42 PEB Card Interfaces


1 3-core power socket

2 Used to lead out the POWER K control cable

Connect to EPC card or CSV

3 Used to lead out the POWER K monitoring cable

Connect to EPC card or CSV

4 Used to lead out the test interconnection cable

5 Used to lead out the test interconnection cable

3.6.11 EPEB Card

Introduction

The EPEB card is the extension card of the EPC card. It resides in the slot under the EPCcard. The monitoring cable is led out from the panel.

Panel

Figure 3-49 shows the EPEB card panel.

3-75



Figure 3-49 EPEB Card Panel

Socket

There is only one socket on the EPEB panel, which is used to lead out the monitoringcable.

3.7 TSLC CardIntroduction

The TSLC card is used to test the subscriber external and internal lines. It is also used totest the subscriber telephone line and interception functions.

There are three types of TSLC card:

l TSLCC: It must reside in the slot for the test card.l TSLCD: It can reside in the slot for the test card or any slot for the subscriber line card.l TSLCE: It can reside in the slot for the test card or any slot for the subscriber line card.

Panel

The silk screens for the TSLCC, TSLCD, and TSLCE cards are the same, which are TSLC.Figure 3-50 shows the TSLC card panel.

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Chapter 3 Cards

Figure 3-50 TSLC Card Panel

LEDs

There are three LEDs on the TSLC card panel.Table 3-43 lists these LEDs.

Table 3-43 TSLC Card LEDs




Test Green Flashing The test is ON.

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3.8 EPC CardIntroduction

The EPC card is the environment power control card. It is used in the standard shelf.

Functions

The EPC card provides the following functions:

l Monitors the environment parameters (such as temperature, humidity, smoke, liquid,and entrance control).

l Monitors the 28-port digital input.l Controls the 16-port digital output.l Monitors the 5-port analog input.l Monitors the 3-port serial port communications.

Panel

Figure 3-51 shows the EPC card panel.

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Chapter 3 Cards

Figure 3-51 EPC Card Panel

LEDsThere are eight LEDs on the EPC card panel. Table 3-44 lists the LEDs.

Table 3-44 EPC Card LEDs



OTH Red ON The card is faulty.

SMK Red ON Smoke is detected.

HUM Red ON The humidity exceeds the threshold limits.

FLOW Red ON The water level is above the limit.

DOOR Red ON The door is open.

TEMP Red ON The temperature exceeds the threshold limit.

POWR Red ON The power supply is abnormal.

3-79



Button

There is an RST button on the EPC card panel. This RST button is used for resetting thecard.

3.9 ETMIntroduction

The ETM system supports 112 Test function and environment power monitoring function.A 112 Test daughter card which inserts in the ETM system performs the112 Test function.Without the 112 Test daughter card, the ETM system provides the environment powermonitoring function.

The ETM system provides various environment monitoring interfaces and a 112 Testinterface. -48V power supply is used. The ETM system is in a structure of a box which is19-inch wide, 1U high and 230 mm deep. The ETM system can work separately and itcan also be installed in MSG, PON and DSL shelves.

Functions

The ETM system performs the following functions:

l 112 Test

The ETM system supports 112 Test through a daughter card which is inserted in thesystem.

l Environmental parameters test

The ETM system monitors various environmental parameters such as temperature,liquid, smoke, entrance control, vibration, noxious gases, MDF and dry node.

l Secondary power monitoring/control

The ETM system monitors and controls the secondary power.

l Primary power unit monitoring

The ETM system communicates with the power unit through the RS-232 serial portand monitors the power unit.

l AC voltage monitoring and -48V power monitoring

Outlines

Figure 3-52 shows the outlines of the ETM.

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Chapter 3 Cards

Figure 3-52 ETM Outlines

Front PanelFigure 3-53 shows the front panel of the ETM.

Figure 3-53 ETM Front Panel

The front panel of the ETM provides a -48V power input, fuse hole, power switch,three indicators, four RJ-45 sockets (32 interfaces totally), and two independent RJ-45interfaces.

Figure 3-54 shows the interfaces on the ETM front panel.

Figure 3-54 ETM Front Panel Interfaces

Back PanelFigure 3-55 shows the back panel of the ETM. If the ETM system is installed in theback-outlet cabinet, this panel is at the front of the cabinet.

Figure 3-55 ETM Back Panel

There are three LEDs on the back panel of the ETM. Table 3-45 lists these LEDs.

Table 3-45 LEDs on ETM Back Panel


Run Green Flashing The ETM is running normally.

Alm Red ON The ETM is faulty or software is faulty.

Test Green ON The system is taking 112 Test.

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3.10 Power CardsThe power cards are classified into the following types:

l POWER Hl POWER Kl POWER L

3.10.1 POWER H Card

Introduction

The POWER H card supplies the secondary power and ringing current for all subscribershelves.

The POWER H card is used in the single-power standard shelf.

Functions

The functions of POWER H card are:

l Provides mutual assistance for other power cards on other shelves.l Supplies four types of voltage: +5 V, -5 V, -48 V, and 75 V AC ringing current.

Panel

Figure 3-56 shows the POWER H card panel.

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Chapter 3 Cards

Figure 3-56 POWER H Card Panel

LEDs

There are six LEDs on the POWER H card panel. Table 3-46 lists these LEDs.

Table 3-46 POWER H Card LEDs



-48V Green ON The -48 V supply is normal.

Ring Green Flashing The card is running normally.

+5V Green ON The +5 V supply is normal.

+5VJ Green ON The +5 VJ supply is normal.


3-83



3.10.2 POWER K Card

Introduction

The POWER K card supplies the secondary power and ringing current for all subscribershelves.

The POWER K card is used in the standard dual-power shelf.

Functions

The functions of POWER K card are:


Panel

Figure 3-57 shows the POWER K card panel.

Figure 3-57 POWER K Card Panel

LEDs

There are six LEDs on the POWER K card panel. Table 3-47 lists these LEDs.

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Chapter 3 Cards

Table 3-47 POWER K Card LEDs






+5VJ Green ON The +5VJ supply is normal.


3.10.3 POWER L Card

Introduction

The POWER L card supplies the secondary power and ringing current for all subscribershelves.

The POWER L card is used in the standard dual-power shelf.

Functions

The functions of POWER L card are:


Panel

Figure 3-58 shows the POWER L card panel.

3-85



Figure 3-58 POWER L Card Panel

LEDs

There are four LEDs on the POWER L card panel. Table 3-48 lists the LEDs.

Table 3-48 POWER L Card LEDs




-5V GreenON On The -5 V supply is normal.



3.11 BackplanesThe backplanes are classified into the following types:

l MICSl MESLl MUSLl MBSLl MQSLl MPSLl MOCSM

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Chapter 3 Cards

l MOCSFA

Table 3-49 describes the relationship between the shelves and the backplanes.

Table 3-49 Relationship between Shelves and Backplanes

Shelf Backplane

Single-power standard shelf MICS, MESL

Dual-power standard shelf MBSL, MUSL

Dual-power 9U shelf MQSL, MPSL

OUT50M shelf MOCSM

OUT50FA shelf MOCSFA

3.11.1 MICS Backplane

Introduction

The MICS backplane is used in the standard 19-inch cabinet. The space for the POWERH slot is 60 mm. The space for other slots is 25 mm. The MICS backplane supports hotswap.

The backplane implements electrical connections between the cards and providesnecessary plug-in units. There is a 6-core socket and 9-core socket on the MICSbackplane. The 6-core socket is used for leading in the -48 V power cable and groundingcable. The 9-core socket is used for the power mutual assistance between the shelves.The coaxial interface is the input BITS clock.

There are five RJ-11 interfaces on the backplane. The five interfaces are used for:

l Ring current interconnection between shelvesl Power H switch controllingl TSLCC internal and external test

Backplane Diagram

The MICS dimensions are 440 mm × 258 mm.

Figure 3-59 shows the MICS backplane.

3-87



Figure 3-59 MICS Backplane

Interfaces and SocketsTable 3-50 describes the interfaces and sockets on the MICS backplane.

Table 3-50 MICS Backplane Interfaces and Sockets

No. Description Function

X32 RJ-11 connector Power control

X36 RJ-11 connector Ring current mutual assistance cable

X39 RJ-11 connector Power alarm

X40, X41 RJ-11 connector 112 Test interconnection

X29 6-core power socket Power input

X33 9-core power socket Shelf mutual assistance power cable

X31 RS-232 port Operation, maintenance, and debugging

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Chapter 3 Cards


X35 RS-232 port Connect to CSV or EPM

X56 Coaxial port 2 MHz bits clock, (reserved)

S1 DIP switch Master/subordinate shelf switching

X91 Socket Eight pairs of E1s of two control and switching

cards. The last pair is for NMS channel.

3.11.2 MESL Backplane

Introduction

The MESL backplane is used in the single-power shelf. It is improved on the basis of theMICS backplane. For the MICS backplane, slot 17 of is used only for the TSLC card. Forthe MESL backplane, slot 17 can hold any subscriber card.

Note:

The GISR card only supports 12 slots for the subscriber line cards. When the MESLbackplane uses the GISR card, slot 17 only holds the TSLC card. When the MESLbackplane uses the GISB card, slot 17 can hold either the TSLC card or any subscriberline card.

Backplane Diagram

The dimensions of the MESL backplane are 440 mm × 258 mm. Figure 3-60 shows MESLbackplane.

3-89



Figure 3-60 MESL Backplane

Interfaces

Table 3-51 describes the interfaces and sockets on the MESL backplane.

Table 3-51 MESL Backplane Interfaces and Sockets


X29 6-core socket Power input connection

X33 9-core socket Power input connection or accumulator connection

X30 2-core socket -48 V power output, fan power supply

X56 Coaxial interface 2 MHz Bits clock (reserved)


X92 2-core socket DLC U port clock extraction

X31 RS-232 interface Operation, maintenance and debugging


X91 Socket Eight pairs of E1s of two control and switching cards.

The last pair is for NMS channel.

X90 Socket Eight pairs of E1s of E1 card

X40 RJ-11 socket Test bus interface

X41 RJ-11 socket Test bus interface

X32 RJ-11 socket Power control

X36 RJ-11 socket Ringing current mutual assistance

X39 RJ-11 socket Power alarm

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Chapter 3 Cards

3.11.3 MUSL Backplane

Introduction

The MUSL backplane is improved on the basis of the MICS backplane. One POWER Hslot is divided into two POWER L slots. The system supports 13 slots for the subscriberline cards. The test card can be TSLCC or TSLCD card. The test card resides in the slotfor the subscriber line card.

Backplane Diagram

The dimensions of the MUSL backplane are 440 mm × 258 mm. Figure 3-61 shows MUSLbackplane.

Figure 3-61 MUSL Backplane

3.11.4 MBSL Backplane

Introduction

The MBSL backplane is used in the dual-power standard shelf.

Backplane Diagram

The dimensions of the MBSL backplane are 440 mm × 258 mm.

Figure 3-62 shows the MBSL backplane.

3-91



Figure 3-62 MBSL Backplane

Interfaces and SocketsTable 3-52 describes the interfaces and sockets on the MBSL backplane.

Table 3-52 MBSL Backplane Interfaces and Sockets


X32 RJ-11 connector Power control

X36 RJ-11 connector Ring current mutual assistance cable

X39 RJ-11 connector Power alarm

X40, X41 RJ-11 connector 112 Test interconnection

X29 6-core power socket Power input

X33 9-core power socket Shelf mutual assistance power cable

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Chapter 3 Cards


X31 RS-232 port Operation, maintenance and debugging

X35 RS-232 port Connect to CSV or EPM

X56 Coaxial port 2 MHz bits clock, (reserved)


X91 Socket Eight pairs of E1s of two control and switching

cards. The last pair is for NMS channel.

3.11.5 MQSL Backplane

Introduction

The MQSL backplane is used in the dual-power 9U shelf. It implements electricalconnections between the cards and provides necessary plug-in units.

Backplane Diagram

The dimensions of the MQSL backplane are 440 mm × 392.5 mm.

Figure 3-63 shows the MQSL backplane.

Figure 3-63 MQSL Backplane

Interface

Table 3-53 describes the interface on the MQSL backplane.

3-93



Table 3-53 MQSL Backplane Interface



3.11.6 MPSL Backplane

Introduction

The MPSL backplane is used in the front-outlet shelf. It connects cards of the system.

Backplane Diagram

The dimensions of the MPSL backplane are 440 mm × 392.5 mm. Figure 3-64 shows theMPSL backplane.

Figure 3-64 MPSL Backplane

3.11.7 MOCSM Backplane

Introduction

The MOCSM backplane is a front-outlet backplane. It is used in the OUT50M shelf.

The MOCSM backplane is 9U high. It is divided into two parts. The upper part (6U) holdsthe control and switching card, subscriber cards and power card. The lower part (3U) holdsthe extension cards.

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Chapter 3 Cards

Backplane Diagram

The dimensions of the MOCSM backplane are 441.35 mm × 349.8 mm. Figure 3-65 showsthe MOCSM backplane.

Figure 3-65 MOCSM Backplane

Interfaces and Sockets

Table 3-54 describes the interfaces and sockets on the MOCSM backplane.

Table 3-54 MOCSM Backplane Interfaces and Sockets


X3 10-core power socket Fan socket


S2 DIP switch Fan control jumper

S3 DIP switch Fan monitoring jumper

3.11.8 MOCSFA Backplane

Introduction

The MOCSFA backplane is an extension backplane. It is used in the OUT50FA shelf.

3-95



The MOCSFA backplane is 12U high. It is divided into two parts, and each part has 12slots, which are described as follows:

l Two slots for PPC cardl Two slots for POWER K cardl One slot for EMB cardl One slot for TSLC (TSLCD/TSLCE) cardl 12 slots for subscriber cardsl Two slots for the control and switching cards

Backplane Diagram

The dimensions of the MOCSFA backplane are 564 mm × 309 mm. Figure 3-66 showsthe MOCSFA backplane.

Figure 3-66 MOCSFA Backplane

Interfaces and Sockets

Table 3-55 describes the interfaces and sockets on the MOCSFA backplane.

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Chapter 3 Cards

Table 3-55 MOCSFA Backplane Interfaces and Sockets






X63 10-core socket Fan socket

X37 Coaxial interface 2 MHz bits clock, (reserved)


X92 2-core socket DLC U port clock extraction


X35 RS-232 interface EMB card communication serial port

X91 Socket Eight pairs of E1s of two control and switching cards.

The last pair is for NMS channel.

X90 Socket Eight pairs of E1s of E1 card

3.12 Backplane Daughter CardsThe daughter cards of the backplane provide the uplink interfaces and cascade interfaces.The ZXMSG 5200 supports the following backplane daughter cards:

l SUPIl GEIl EPSA

Table 3-56 describes the daughter cards of the backplane.

Table 3-56 Backplane Daughter Cards

Type BroadbandUplink Interface

NarrowbandCascade

BroadbandCascade

Remarks

SUPI - 1 × 8 MHW 1 × FE/GE It is only used in the subordinate

shelf. It can work with any control

and switching card.

GEI 2 × GE optical

interface + 2 × FE

electrical interface

4 × 8 MHW 2 × GE It is only used in the master shelf.

The control and switching card is

GISB.

EPSA 2 × FE electrical

interface + 2 × GE

electrical interface

4 × 8 MHW - The control and switching card

is GIS.

3-97



3.12.1 GEI Card

Introduction

The GEI card is inserted on the back of the backplane MICS. It is used for the master shelfexpansion.

Functions

The GEI card implements the following functions:

l Provides two RJ-45 100 M Ethernet electrical interfaces for uplink.l Provides two 1000 M Ethernet optical interfaces for uplink.l Terminates LVDS and connects to the control and switching card through four ports

of TTL 8 MHW.l Provides four 8 MHW LVDS for narrowband cascade.l Provides two 1000 M Ethernet interfaces (through a high-density pin) for broadband

cascade.

At most, the GEI card can cascade two broadband/narrowband subordinate shelves (Thecascade resources of each subordinate shelf is 1 × 8 MHW + 1 × GE) and two purenarrowband subordinate shelves (The cascade resources of the subordinate shelf is 1× 8 MHW).

Panel

Figure 3-67 shows the GEI card panel.

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Chapter 3 Cards

Figure 3-67 GEI Card Panel

Interfaces

X5 and X6 provide two 100 M Ethernet electrical interfaces for broadband service uplink.

X7 and X8 provide two 1000 M Ethernet optical interfaces for broadband service uplink.

X4 is used to connect broadband/narrowband cascade cables, which provide 5 × 4 jack.Leave two rows of pins empty, and then plug in the first cascade cable. Plug one cascadecable every three rows. Four cascade cables are supported at most to connect foursubordinate shelves.

X1, X2, and X3 are only used to connect the backplane.

3.12.2 EPSA Card

Introduction

The EPSA card is the EPON uplink and cascade daughter card.

Functions

It implements the following functions:

l Provides one optical interface for EPON uplink.

3-99



l Terminates LVDS. Connects to the control and switching card via two 8 MHWs.Provides two 8 MHW LVDS for narrowband cascade.

l Provides two 1000 M interfaces for broadband cascade.

The EPSA card can cascade two broadband/narrowband subordinate shelves atmaximum. The cascade resources of each subordinate shelf is 1 × 8 MHW + 1 × GE.

Panel

Figure 3-68 shows EPSA panel.

Figure 3-68 EPSA Panel

Interfaces

AL1A4 provides one optical interface for EPON service uplink.

X7 provides one RJ-45 interface for network management debugging.

X4 is used to connect broadband/narrowband cascade cables, which provide 5 × 4 jack.Plug in the first cascade cable in the first row of pins. Leave two rows of pins empty. Then,plug in the second cascade cable. Two cascade cables are supported at maximum toconnect two subordinate shelves.

X1 is connected to the backplane.

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Chapter 3 Cards

Note:

The EPSA card cannot work with the MPSL and MOCSM backplanes.

3.12.3 SUPI Card

Introduction

The SUPI card is an uplink interface card which is only used in a subordinate shelf.

Functions

The SUPI card implements the following functions:

l Provides one 100 Mbps /1000 M Ethernet interface for broadband cascade (througha high-density pin).

l Terminates LVDS and provides one pair of 8 MHW for narrowband cascade.

Panel

Figure 3-69 shows the SUPI card panel.

Figure 3-69 SUPI Card Panel

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Interfaces

X4 is used for cascade. The cascade cables provide 5 × 4 jack.

Leave the first two rows of pins empty. The third, fourth, fifth, and sixth rows are used forFE broadband/narrowband uplink.

The ninth, tenth, eleventh, and twelfth rows are used for GE broadband/narrowband uplink.

X1, X2, and X3 are only used to connect the backplane.

3-102


FiguresFigure 1-1 19D06H20 Cabinet Outline ...................................................................... 1-2

Figure 1-2 19D06H20 Cabinet Configuration (AC Power Supply).............................. 1-3

Figure 1-3 Cabinet Configuration (DC Power Supply, Single-Power Back-OutletShelf) ...................................................................................................... 1-5

Figure 1-4 19D06H20 Cabinet Configuration (DC Power Supply, Dual-PowerBack-Outlet Shelf)................................................................................... 1-7

Figure 1-5 19D06H20 Cabinet Configuration (DC Power Supply, Dual-PowerFront-Outlet Shelf) .................................................................................. 1-9

Figure 1-6 19D06H20 Cabinet Ventilation ............................................................... 1-10

Figure 1-7 OT50H Cabinet Outline.......................................................................... 1-12

Figure 1-8 OUT50H Cabinet Configuration (Front View) ......................................... 1-13

Figure 1-9 OUT50H Cabinet Configuration (Side View)........................................... 1-14

Figure 1-10 OUT50H Cabinet Ventilation ................................................................ 1-15

Figure 1-11 OUT50M Cabinet Outline ..................................................................... 1-17

Figure 1-12 OUT50M Cabinet Configuration ........................................................... 1-17

Figure 1-13 OUT50M Cabinet Ventilation................................................................ 1-18

Figure 2-1 Single-Power Standard Shelf Outline ....................................................... 2-1

Figure 2-2 Single-Power Master Shelf Configuration (MICS Backplane) ................... 2-2

Figure 2-3 Single-Power Subordinate Shelf Configuration (MICS Backplane) ........... 2-3

Figure 2-4 Single-Power Master Shelf Configuration (MESL Backplane)................... 2-3

Figure 2-5 Single-Power Subordinate Shelf Configuration (MESL Backplane) ........... 2-4

Figure 2-6 6U Dual-Power Master Shelf Configuration (MBSL Backplane)................ 2-5

Figure 2-7 6U Dual-Power Subordinate Shelf Configuration (MBSLBackplane).............................................................................................. 2-5

Figure 2-8 6U Dual-Power Master Shelf Configuration (MUSL Backplane)................ 2-6

Figure 2-9 6U Dual-Power Subordinate Shelf Configuration (MUSLBackplane).............................................................................................. 2-6

Figure 2-10 9U Dual-Power Master Shelf Configuration ............................................ 2-7

Figure 2-11 9U Dual-Power Subordinate Shelf Configuration .................................... 2-8

Figure 2-12 OUT50FA Shelf...................................................................................... 2-9

Figure 2-13 OUT50FA Shelf Configuration.............................................................. 2-10

Figure 2-14 OUT50M Shelf ..................................................................................... 2-11

Figure 2-15 OUT50M Shelf Configuration ............................................................... 2-12

I


Figure 3-1 GISR Card Panel ..................................................................................... 3-5

Figure 3-2 GISB Card Panel ..................................................................................... 3-7

Figure 3-3 GISF Card Panel ..................................................................................... 3-9

Figure 3-4 GISE Card Panel ................................................................................... 3-11

Figure 3-5 MPRB Card Panel ................................................................................. 3-13

Figure 3-6 ALC Card Panel..................................................................................... 3-16

Figure 3-7 RALC Card Panel .................................................................................. 3-18

Figure 3-8 FLC Card Panel ..................................................................................... 3-20

Figure 3-9 HLC Card Panel..................................................................................... 3-21

Figure 3-10 ELC Card Panel................................................................................... 3-22

Figure 3-11 GELCA Panel....................................................................................... 3-23

Figure 3-12 DLCE Panel......................................................................................... 3-25

Figure 3-13 TRKC Card Panel ................................................................................ 3-26

Figure 3-14 GILCA Card Panel ............................................................................... 3-28

Figure 3-15 GADLC Card Panel.............................................................................. 3-29

Figure 3-16 GAGLC Card Panel ............................................................................. 3-31

Figure 3-17 GVDL Panel......................................................................................... 3-32

Figure 3-18 GSDL Card Panel ................................................................................ 3-34

Figure 3-19 GSDLB Panel ...................................................................................... 3-35

Figure 3-20 CEE Card Panel .................................................................................. 3-37

Figure 3-21 EPOI Card Panel ................................................................................. 3-38

Figure 3-22 GPOI Card Panel ................................................................................. 3-40

Figure 3-23 HDB Card Panel .................................................................................. 3-43

Figure 3-24 GTEC Card Panel ................................................................................ 3-45

Figure 3-25 GETI Card Panel (Four 100 M Electrical Interfaces)............................. 3-47

Figure 3-26 GETI Card Panel (Four 100 Mbps Optical Interfaces) .......................... 3-48

Figure 3-27 GECA Card Panel................................................................................ 3-50

Figure 3-28 ODTI Card Panel ................................................................................. 3-51

Figure 3-29 GATI Card Panel.................................................................................. 3-53

Figure 3-30 GHDB Card Panel................................................................................ 3-54

Figure 3-31 CHDB Card Panel................................................................................ 3-56

Figure 3-32 EHDB Card Panel ................................................................................ 3-57

Figure 3-33 EPNI Card Panel (One Optical Interface) ............................................. 3-59

Figure 3-34 EPNI Card Panel (Two Optical Interfaces)............................................ 3-60

Figure 3-35 GPNI Card Panel (One Optical Interface)............................................. 3-62

II

Figures

Figure 3-36 GPNI Card Panel (Two Optical Interfaces) ........................................... 3-63

Figure 3-37 IEBA Card Panel.................................................................................. 3-65

Figure 3-38 IEBB Card Panel (Two FE Electrical Interfaces) ................................... 3-66

Figure 3-39 IEEB Card Panel (One FE Electrical and One GE OpticalInterface) .............................................................................................. 3-66

Figure 3-40 Jumper Position ................................................................................... 3-67

Figure 3-41 IEBC Card Panel ................................................................................. 3-68

Figure 3-42 IEBD Card Panel ................................................................................. 3-69

Figure 3-43 IEBE Card Panel.................................................................................. 3-70

Figure 3-44 IEBG Card Panel ................................................................................. 3-71

Figure 3-45 IEBH Card Panel ................................................................................. 3-72

Figure 3-46 SEB Card Panel................................................................................... 3-73

Figure 3-47 SEC Card Panel .................................................................................. 3-74

Figure 3-48 PEB Card Panel................................................................................... 3-75

Figure 3-49 EPEB Card Panel ................................................................................ 3-76

Figure 3-50 TSLC Card Panel................................................................................. 3-77

Figure 3-51 EPC Card Panel .................................................................................. 3-79

Figure 3-52 ETM Outlines....................................................................................... 3-81

Figure 3-53 ETM Front Panel.................................................................................. 3-81

Figure 3-54 ETM Front Panel Interfaces ................................................................. 3-81

Figure 3-55 ETM Back Panel .................................................................................. 3-81

Figure 3-56 POWER H Card Panel ......................................................................... 3-83

Figure 3-57 POWER K Card Panel ......................................................................... 3-84

Figure 3-58 POWER L Card Panel ......................................................................... 3-86

Figure 3-59 MICS Backplane .................................................................................. 3-88

Figure 3-60 MESL Backplane ................................................................................. 3-90

Figure 3-61 MUSL Backplane ................................................................................. 3-91

Figure 3-62 MBSL Backplane ................................................................................ 3-92

Figure 3-63 MQSL Backplane................................................................................. 3-93

Figure 3-64 MPSL Backplane ................................................................................. 3-94

Figure 3-65 MOCSM Backplane ............................................................................. 3-95

Figure 3-66 MOCSFA Backplane ............................................................................ 3-96

Figure 3-67 GEI Card Panel.................................................................................... 3-99

Figure 3-68 EPSA Panel....................................................................................... 3-100

Figure 3-69 SUPI Card Panel ............................................................................... 3-101

III

Figures


TablesTable 1-1 19D06H20 Cabinet Configuration (AC Power Supply) ............................... 1-3

Table 1-2 19D06H20 Cabinet Configuration (DC Power Supply, Single-PowerBack-Outlet Shelf) .................................................................................... 1-6

Table 1-3 19D06H20 Cabinet Configuration (DC Power Supply, Dual-PowerBack-Outlet Shelf) .................................................................................... 1-8

Table 1-4 19D06H20 Cabinet Configuration (DC Power Supply, Dual-PowerFront-Outlet Shelf) ................................................................................. 1-10

Table 1-5 Operation Environment............................................................................ 1-11



Table 2-1 Relationship between Cards and Relevant Extension Cards (MPSLBackplane)............................................................................................... 2-8

Table 2-2 Relationship between Cards and Relevant Extension Cards (MQSLBackplane)............................................................................................... 2-8

Table 2-3 Relationship between Cards and Extension Cards ................................. 2-12

Table 3-1 ZXMSG 5200 Cards .................................................................................. 3-1

Table 3-2 GISR Card LEDs ....................................................................................... 3-5

Table 3-3 GISB Card LEDs ....................................................................................... 3-7

Table 3-4 GISF Card LEDs ....................................................................................... 3-9

Table 3-5 GISE Card LEDs ..................................................................................... 3-11

Table 3-6 MPRB Card LEDs ................................................................................... 3-14

Table 3-7 ALC Card LEDs....................................................................................... 3-16

Table 3-8 RALC Card LEDs .................................................................................... 3-18

Table 3-9 FLC Card LEDs....................................................................................... 3-20

Table 3-10 HLC Card LEDs..................................................................................... 3-21

Table 3-11 ELC Card LEDs ..................................................................................... 3-22

Table 3-12 GELCA Card LEDs................................................................................ 3-24

Table 3-13 DLCE Card LEDs .................................................................................. 3-25

Table 3-14 TRKC Card LEDs .................................................................................. 3-27

Table 3-15 GILCA Card LEDs ................................................................................. 3-28

Table 3-16 GADLC Card LEDs................................................................................ 3-30

Table 3-17 GAGLC Card LEDs ............................................................................... 3-31

Table 3-18 GVDL Card LEDs .................................................................................. 3-33

V


Table 3-19 GSDL Card LEDs .................................................................................. 3-34

Table 3-20 GSDLB Card LEDs................................................................................ 3-36

Table 3-21 CEE Card LEDs .................................................................................... 3-37

Table 3-22 EPOI Card LEDs ................................................................................... 3-39

Table 3-23 GPOI Card LEDs................................................................................... 3-40

Table 3-24 HDB Card LEDs .................................................................................... 3-43

Table 3-25 GETC Card LEDs.................................................................................. 3-46

Table 3-26 GETI Card LEDs ................................................................................... 3-48

Table 3-27 GECA Card LEDs.................................................................................. 3-50

Table 3-28 ODTI Card LEDs ................................................................................... 3-52

Table 3-29 GATI Card LEDs.................................................................................... 3-53

Table 3-30 GHDB Card LEDs ................................................................................. 3-55

Table 3-31 CHDB Card LEDs.................................................................................. 3-56

Table 3-32 EHDB Card LEDs.................................................................................. 3-57

Table 3-33 EPNI Card Indicators............................................................................. 3-60

Table 3-34 GPNI Card Indicators ............................................................................ 3-63

Table 3-35 IEBA Card Interfaces............................................................................. 3-65

Table 3-36 IEBB Card Interfaces............................................................................. 3-66

Table 3-37 IEBC Card Interfaces............................................................................. 3-68

Table 3-38 IEBD Card Interfaces............................................................................. 3-69

Table 3-39 IEBE Card Interfaces............................................................................. 3-70

Table 3-40 IEBG Card Interfaces ............................................................................ 3-71

Table 3-41 IEBH Card Interfaces............................................................................. 3-72

Table 3-42 PEB Card Interfaces.............................................................................. 3-75

Table 3-43 TSLC Card LEDs................................................................................... 3-77

Table 3-44 EPC Card LEDs .................................................................................... 3-79

Table 3-45 LEDs on ETM Back Panel ..................................................................... 3-81

Table 3-46 POWER H Card LEDs........................................................................... 3-83

Table 3-47 POWER K Card LEDs ........................................................................... 3-85

Table 3-48 POWER L Card LEDs ........................................................................... 3-86

Table 3-49 Relationship between Shelves and Backplanes..................................... 3-87

Table 3-50 MICS Backplane Interfaces and Sockets ............................................... 3-88

Table 3-51 MESL Backplane Interfaces and Sockets .............................................. 3-90

Table 3-52 MBSL Backplane Interfaces and Sockets .............................................. 3-92

Table 3-53 MQSL Backplane Interface.................................................................... 3-94

VI

Tables

Table 3-54 MOCSM Backplane Interfaces and Sockets .......................................... 3-95

Table 3-55 MOCSFA Backplane Interfaces and Sockets ......................................... 3-97

Table 3-56 Backplane Daughter Cards.................................................................... 3-97

VII

Tables


IndexAALC.................................................... 3-15

CCEE ................................................... 3-36

DDLCE ................................................. 3-24Dual-Power Standard Shelf .................. 2-4

EELC.................................................... 3-22EPC ................................................... 3-78

GGADLC .............................................. 3-29GAGLC .............................................. 3-30GEI .................................................... 3-98GETC................................................. 3-45GILCA ................................................ 3-27GISB .................................................... 3-6GISE .................................................. 3-10GISR.................................................... 3-4GPOI.................................................. 3-39GSDL................................................. 3-33GSDLB............................................... 3-35GVDL................................................. 3-32

HHLC ................................................... 3-21

MMBSL................................................. 3-91MICS.................................................. 3-87MPRB ................................................ 3-12

OODTI .................................................. 3-51OUT50M Shelf ................................... 2-10

PPOWER H.......................................... 3-82POWER K.......................................... 3-84POWER L .......................................... 3-85

SSingle-Power Standard Shelf................ 2-1SUPI ................................................ 3-101

TTRKC................................................. 3-26TSLC.................................................. 3-76

VVOPS Daughter Cards ....................... 3-14

IX

Index


GlossaryAC- Alternating Current

ADSL- Asymmetric Digital Subscriber Line

ARP- Address Resolution Protocol

ATM- Asynchronous Transfer Mode

BITS- Building Integrated Timing Supply

CES- Circuit Emulation Service

CPU- Central Processing Unit

DC- Direct Current

DDN- Digital Data Network

DSLAM- Digital Subscriber Line Access Multiplexer

DTMF- Dual-ToneMulti-Frequency

EPON- Ethernet Passive Optical Network

FE- Fast Ethernet

GE- Gigabit Ethernet

GEM- GPON Encapsulation Method

GPON- Gigabit Passive Optical Network

IEC- International Electrotechnical Commission

XI


IP- Internet Protocol

ISDN- Integrated Services Digital Network

LED- Light Emitting Diode

MDF- Main Distribution Frame

MDU- Multiple Dwelling Unit

MODEM- Modulator-Demodulator

NAT- Network Address Translation

NM- Network Management

OAM- Operation, Administration and Maintenance

OLT- Optical Line Terminal

ONU- Optical Network Unit

PON- Passive Optical Network

POTS- Plain Old Telephone Service

PSTN- Public Switched Telephone Network

PVC- Permanent Virtual Channel

SHDSL- Single-pair High Digital Subscriber Line

TDM- Time Division Multiplexing

VDSL- Very High Speed Digital Subscriber Line

VDSL2- Very High Bit Rate Digital Subscriber Line 2

XII

Glossary

VoIP- Voice over Internet Protocol

XIII

SJ-20110324160106-002-ZXMSG 5200 (V3.2) Multiplex Service Gateway Hardware Description

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