05-1 ZXSDR B8200 GU360(V4.00.30) Hardware Description

ZXSDR B8200 GU360Indoor GSM&UMTS Dual Mode Baseband

UnitHardware Description

Version 4.00.30

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]

LEGAL INFORMATION

Copyright 2010 ZTE CORPORATION.

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

Revision History

Revision No. Revision Date Revision Reason

R1.0 200901201 First Edition (V4.00.30.05)

R2.0 20100326 Second Edition (V4.00.30.07)1.Cabinet weight is modified2.Table 28, third line is modified to "main version hasbeen booted successfully.

R2.1 20100407 Third Edition (V4.00.30.07)1.Electrical specification, protocol and capacity ofinterfaces are added

Serial Number: sjzl20098473

Contents

Preface.............................................................. I

Cabinet..............................................................1Appearance and Structure ............................................... 1

Internal Composition....................................................... 1

Ventilation Principle ........................................................ 2

Cabinet Specifications ..................................................... 2

Board and Module .............................................3Power Module ................................................................ 3

Control and Clock Module ................................................ 5

Universal Baseband Processing Board for GSM...................10

Baseband Processing Board Type C ..................................13

Fabric Switch Module .....................................................15

Site Alarm Module .........................................................17

Site Alarm Extender.......................................................23

Cable ...............................................................29A Brief Introduction to ZXSDR B8200 GU360 Cables...........29

DC Power Cable.............................................................30

Input/Output Dry Contact Cable ......................................30

RS232/RS485 Interface Cable .........................................33

LMT Cable ....................................................................35

GPS Antenna Connection Cable .......................................36

RRU Interface Cable.......................................................36

SA Panel Cable..............................................................36

SE Panel Cable ..............................................................40

Protection Grounding Cable.............................................44

75 E1 Cable For Abis/Iub.............................................44

120 E1/100 T1 Cable For Abis/Iub .............................49

Ethernet Fiber Cable for Abis/Iub.....................................51

Ethernet Electrical-Interface Cable for Abis/Iub..................51

Attached Equipment ........................................53Lightning Protection Box.................................................53

Confidential and Proprietary Information of ZTE CORPORATION I

ZXSDR B8200 GU360 Hardware Description

PSU Subrack.................................................................55

PSU Subrack.............................................................55

PSU AC Input Cable ...................................................56

PSU Power Monitor Cable............................................57

PSU DC Output Cable .................................................58

Figures ............................................................59

Tables .............................................................61

Glossary ..........................................................63

II Confidential and Proprietary Information of ZTE CORPORATION

Preface

Purpose This manual introduces the third generation mobile communica-tion base station product ZXSDR B8200 GU360 Indoor GSM&UMTSDual Mode Baseband Unit with focus on its function, equipment in-dices, observed standards and hardware structure, etc.

What is in ThisManual

This manual contains the following chapters.

Chapter Summary

Chapter 1 Cabinet This chapter describes cabinetappearance and structure, cabinetinternal compositions, cabinetventilation principles and cabinetspecifications.

Chapter 2 Board and Module This chapter describes the boardsand modules of ZXSDR B8200GU360.

Chapter 3 Cable This chapter describes the cablesof ZXSDR B8200 GU360.

Chapter 4 Attached Equipment This chapter describes theattached equipment of ZXSDRB8200 GU360.

Intended Reader Base station system engineer

Base station maintenance engineer

Confidential and Proprietary Information of ZTE CORPORATION I


This page is intentionally blank.

II Confidential and Proprietary Information of ZTE CORPORATION

C h a p t e r 1

Cabinet

Table of ContentsAppearance and Structure ................................................... 1Internal Composition........................................................... 1Ventilation Principle ............................................................ 2Cabinet Specifications ......................................................... 2

Appearance and StructureZXSDR B8200 GU360cabinet comprises chassis, backplane, andbackplane cover. Cabinet Outer structure is shown in Figure 1.

FIGURE 1 ZXSDR B8200 GU360CABINET OUTER STRUCTURE

1. Backplane Cover2. Backplane

3. Chassis

Internal CompositionZXSDR B8200 GU360cabinet interior comprises rack, power sup-ply, board, fan, and blank panel. Cabinet inner structure is shownin Figure 2.

Confidential and Proprietary Information of ZTE CORPORATION 1


FIGURE 2 ZXSDR B8200 GU360CABINET INNER STRUCTURE

1. Power Supply2. Rack3. Backboard4. Back Cover Plate

5. Blank Panel6. Fan7. Board

Ventilation PrincipleFan module is responsible for ventilation and heat dissipationofZXSDR B8200 GU360. Cold air flows in from the right side ofthe cabinet. Hot air flows out from the left side of the cabinet.Working principle of the fan is shown in Figure 3.

FIGURE 3 VENTILATION AND HEAT DISSIPATION

Dust filter is fixed on the air-intake side to protect the cabinetfrom dust. (Dust filter should be cleaned regularly to ensure goodventilation effect.)

Cabinet SpecificationsCabinet Size Cabinet dimension ofZXSDR B8200 GU360 is: 88.4 mm (H)482.6

mm (W)197 mm (D), or 3.48 in (H)19 in (W)7.76 in (D).

Cabinet Weight ZXSDR B8200 GU360cabinet weight is not more than 8.75 kg.

2 Confidential and Proprietary Information of ZTE CORPORATION

C h a p t e r 2

Board and Module

Table of ContentsPower Module .................................................................... 3Control and Clock Module .................................................... 5Universal Baseband Processing Board for GSM.......................10Baseband Processing Board Type C ......................................13Fabric Switch Module .........................................................15Site Alarm Module .............................................................17Site Alarm Extender...........................................................23

Power ModuleFunction PM provides the following functions:

16 internal interfaces for +12 V load power;

16 internal interfaces for +3.3 V management power;

EMMC management;

Measurement and protection of input over-voltage/under-volt-age;

Output over-current protection and load power management.

Panel PM has two kinds of panel: PM1 and PM3. Panels are illustrated inFigure 4 and Figure 5.



FIGURE 4 PM1 PANEL

FIGURE 5 PM3 PANEL

Indicator Description of PM panel indicators is shown in Table 1.


Chapter 2 Board and Module

TABLE 1 PM PANEL INDICATOR DESCRIPTION

IndicatorName

Color Meaning Description

RUN Green Runningindicator

RUN indicator and ALM indicatorflashing alternately: board MMC isin module initializing.Flashing (0.3 s on, 0.3 s off): theboard is in normal running state.Off: board self-test fails.

ALM Red Alarmindicator

Quick flash (0.15 s on, 0.15 s off):critical or major alarm occurs.Slow flash (1 s on, 1 s off): minoror warning alarm occurs.Off: no board alarm occurs.

PWR Blue Power onindicatorwhich isonly onPM3 panel

Always on: board is power on.Off: board is power off.

Panel Interface PM panel interface is described in Table 2.

TABLE 2 PM PANEL INTERFACE

InterfaceName

Descrip-tion

ElectricalSpecifica-tion

InterfaceProtocol

InterfaceCapacity

MON Debugginginterface,RS232serial port

RS232 RS232 115200 bps

-48V/-48VRTN

-48 V inputinterface

-40V~-57VDC powerinput

- -48V/7A

Button PM3 panel button is described in Table 3.

TABLE 3 PM3 PANEL BUTTON

Name Description

OFF ON PM3 module switchOff: PM3 is power off ; ON: PM3is power on

Control and Clock ModuleFunction CC module provides the following functions:

GPS system clock and RF Reference clock;

Abis/Iub interface function;



Ethernet switch function, providing switch plane for signalingstream and media stream;

Rack management.

Panel There are two types of Control and Clock Module.

CC0

With GPS card and supporting 16 lines of E1.

CC2

Without GPS card and supporting 8 lines of E1.

CC panel is illustrated in Figure 6.

Note:

For CC2 board, a label marked with CC2 exists on the panel. ForCC0 board, no such label exists on the panel.



FIGURE 6 CC PANEL

Indicator Description of CC panel indicators is shown in Table 4.

TABLE 4 CC PANEL INDICATOR DESCRIPTION

IndicatorName


RUN Green RunningIndicator

RUN indicator andALM indicator flashingalternately: board MMC isin module initializing.Flashing (0.3 s on, 0.3 soff): the board is in normal



IndicatorName


running state.Off: board self-test fails.

ALM Red AlarmIndicator

Quick flash (0.15 s on, 0.15s off): critical or majoralarm occurs.Slow flash (1 s on, 1 s off):minor or warning alarmoccurs.Off: no board alarm occurs.

E0S Green E1/T1 StatusIndicator(Link 0-3)

Alternate flash for differentlinks; the max 4 flashesper second; 0.125 s on,0.125 s off.The first second: one flashmeans Link 0 is normal andOff means Link 0 is not inuse.The third second: twoflashes means Link 1 isnormal and Off means Link1 is not in use.The fifth second: threeflashes means Link 2 isnormal and Off means Link2 is not in use.The seventh second: fourflashes means Link 3 isnormal and Off means Link3 is not in use.Recycle. Each cycle lastsfor eight seconds.


Ditto


Ditto


Ditto

MS Green Master/SlaveIndicator

On: the board is in masterstate.Off: the board is in slavestate.



IndicatorName


REF Green GPS AntennaState or 2MHz State,Connectionstate of SMAInterface oncorrespond-ing panel

Always On: antenna feederis normal.Always Off: antenna feederand satellite are normal, ininitialization state.Slow Flash (1.5 s on, 1.5s off): antenna feeder isbroken.Quick Flash (3 s on, 3 soff): antenna feeder isnormal but cannot receivesatellite signal.Slowest Flash (2.5 s on,2.5 s off): antenna shortcircuitQuickest Flash (70 ms on,70 ms off): no message isreceived at the initializationstage.

ETH0 Green ABIS/IubInterface LinkState

On: physical link ofABIS/Iub network interface(optical or electrical) isnormal.Off: physical link ofABIS/Iub network interfaceis broken.Flashing: there is receivedor sended data at ABIS/Iubnetwork interface.

ETH1 Green Link State ofETH1 NetworkInterface

On: physical link ofDBG/CAS/OMC networkinterface is normal.Off: physical link ofDBG/CAS/OMC networkinterface is broken.Flashing: there is receivedor sended data atDBG/CAS/OMC networkinterface.

Button Description of buttons on CC panel is shown in Table 5.

TABLE 5 CC PANEL BUTTON DESCRIPTION

Button Name Description

M/S Master/Slave Changeover Button

RST Reset Button

Panel Interface Description of CC panel interfaces is shown in Table 6.



TABLE 6 CC PANEL INTERFACE DESCRIPTION

InterfaceName

Description ElectricalSpecifica-tion

InterfaceProtocol

InterfaceCapacity

ETH0 Used forEthernetinterfaceconnectionbetweenBBU andBSC/RNC.This inter-face is ei-ther Ether-net opticalinterface orelectricalinterface.(10M/100M/1000Mself-adap-tive )

IEEE802.3ab

IEEE802.3zandIEEE802.3ab

1000 Mb/S

ETH1 Used for BBUcascade, de-bugging orlocal main-tenance.Ethernetelectricalinterface(10M/100M/1000Mself-adap-tive )

IEEE802.3ab

IEEE802.3ab 1000 Mb/S

EXT Externalcommuni-cation port,connectedto exter-nal receiver,(mainlyRS485 in-terface)

RS485 RS485 andPP1S ofexternal GPSreceiver

-

REF Connectedto GPSsignalinterface,or 2 MHzBITS signalinterface.

GPS antennafeeder or 2MHz BITS

GPS antennafeeder or 2MHz BITS

-

Universal BasebandProcessing Board for GSM

Function UBPG provides the following functions:



Baseband modulation, maximum processing capacity fordownlink is 12 carriers;

Baseband demodulation, maximum processing capacity for up-link is 12 carriers;

Supporting Baseband frequency-hopping;

Supporting static and dynamic power control.

Panel UBPG panel is illustrated in Figure 7.

FIGURE 7 UBPG PANEL

Indicator UBPG panel is illustrated in Table 7.



TABLE 7 UBPG PANEL INDICATOR DESCRIPTION

Indi-catorName



Flashing (0.3 s on 0.3 s off):the board is in normal runningstate.Off: board self-test fails.


Quick flash (0.15 s on0.15 soff): critical or major alarmoccurs.Slow flash (1 s on1 s off):minor or warning alarm occurs.Off: no board alarm occurs.

CST Green CPU RunningIndicator

Flashing at frequency of 1 Hz:main version has been bootedsuccessfully.

SCS Green System ClockIndicator

Always onsystem clock is innormal state.Offsystem clock is in abnormalstate.

LS Green If there areoptical inter-facesthe linkstate of op-tical commu-nicating withRRUIf there is nooptical inter-facethe linkstate of back-board

Flashing at frequency of 8Hzand flashing ordinally atdifferent time, the max 3flashes per secondThe first second: oneflash means Link 0optical/backboard link isnormal and Off means Link 0is faulty.The fourth second: twoflashes means Link 1optical/backboard link isnormal and Off means Link 1is faulty.The seventh second: threeflashes means Link 2optical/backboard link isnormal and Off means Link 2is faulty.Recycle. Each cycle lasts fornine seconds.

SS Green If there areoptical in-terfacesex-istence of op-tical signal atoptical inter-faceIf there is nooptical inter-facephysicallink state ofGTP in back-board

Flashing at frequency of 8Hzand flashing ordinally atdifferent time, the max 3flashes per secondThe first second: one flashmeans there is signal at Link0 optical/backboard link andOff means there is no signal atLink 0.The fourth second: two flashesmeans there is signal at Link1 optical/backboard link andOff means there is no signal atLink 1.The seventh second: threeflashes means there is signal



Indi-catorName


at Link 2 optical/backboardlink and Off means there is nosignal at Link 2.Recycle. Each cycle lasts fornine seconds.

Button Description of buttons on UBPG panel is shown in Table 8.

TABLE 8 UBPG PANEL BUTTON DESCRIPTION


RST Reset Button

Panel Interface Description of UBPG panel interfaces is shown in Table 9.

TABLE 9 UBPG PANEL INTERFACE DESCRIPTION

Interface Name Description

TX0 RX0 ~ TX2 RX2 Reserved for future use

Baseband Processing BoardType C

Function BPC provides the following functions:

Coding/multiplexing, rate matching, channel mapping, spec-trum spreading and scrambling, power weight and channelsynthesis for downlink data;

Rake receiving and channel decoding for uplink data, transmis-sion of uplink data to Iub interface;

Supporting radio link synchronization and transmission-frameprocessing;

Power control;

Soft switch;

Measurement.

Panel BPC panel is illustrated in Figure 8.



FIGURE 8 BPC PANEL

Indicator Description of BPC panel indicators is shown in Table 10.

TABLE 10 BPC PANEL INDICATOR DESCRIPTION

Indi-catorName



RUN indicator and ALMindicator flashing alternately:board MMC is in moduleinitializing.Flashing (0.3 s on, 0.3 s off):the board is in normal runningstate.Off: board self-test fails.



Indi-catorName



Quick flash (0.15 s on, 0.15 soff): critical or major alarmoccurs.Slow flash (1 s on, 1 s off):minor or warning alarmoccurs.Off: no board alarm occurs.

Button Description of buttons on BPC panel is shown in Table 11.

TABLE 11 BPC PANEL BUTTON DESCRIPTION


RST Reset Button

Fabric Switch ModuleFunction FS provides the following functions:

Baseband IQ data exchange;

Providing interface between BBU and RRU.

Panel FS panel is illustrated in Figure 9.



FIGURE 9 FS PANEL

Indicator Description of FS panel indicators is shown in Table 12.

TABLE 12 FS PANEL INDICATOR DESCRIPTION

IndicatorName



RUN indicator and ALM indicatorflashing alternately: board MMCis in module initializing.Flashing (0.3 s on, 0.3 s off):the board is in normal runningstate.Off: board self-test fails.



IndicatorName



Quick flash (0.15 s on, 0.15s off): critical or major alarmoccurs.Slow flash (1 s on, 1 s off):minor or warning alarm occurs.Off: no board alarm occurs.

SCS ClockIndicator

For possible future use

FLS ForwardLinkIndicator


RLS ReverseLinkIndicator


Interface Description of buttons on FS panel is shown in Table 13.

TABLE 13 FS PANEL INTERFACE DESCRIPTION

InterfaceName

Descrip-tion


InterfaceProtocol

InterfaceCapacity

TX0 RX0 ~TX5 RX5

Opticalinterface,connectedto RRU

Optical port ZTE InternalProtocol

1.2288Gbps

Site Alarm ModuleFunction SA provides the following functions:

Alarm monitor and rev control of no more than 9 fans;

Signal monitor and interface lightning protection for the rack;

Providing 6 input dry contact interfaces, 2 input/output drycontact interfaces;

Providing 8 lines of E1/T1 interfaces.

Panel SA panel is illustrated in Figure 10.



FIGURE 10 SA PANEL

Indicator Description of SA panel indicators is shown in Table 14.

TABLE 14 SA PANEL INDICATOR DESCRIPTION

IndicatorName



RUN indicator andALM indicator flashingalternately: board MMC isin module initializing.Flashing (0.3 s on, 0.3 soff): the board is in normalrunning state.Off: board self-test fails.



Interface Description of interfaces on SA panel is shown in Table 15.



TABLE 15 SA PANEL INTERFACE DESCRIPTION

InterfaceName

Descrip-tion


InterfaceProtocol

InterfaceCapacity

8 lines ofE1/T1 in-terface,RS485/232interface,6+2 drycontact in-terfaces (6input lines,2 bi-direc-tional lines)

E1/T1,RS485/RS232,dry contact

E1/T1,RS485/RS232

E1/T1RS485/RS232(9600 bps)

Jumper

Tip:

For each jumper position, open circuit stands for 0 or OFF, andshort circuit stands for 1 or ON.

Jumpers (X1~X6) on SA are configurable. Location of X1~X6 is inshown in Figure 11.

FIGURE 11 LOCATION OF X1~X6 ON SA

Configuration and function of Jumpers (X1~X6) are shown in Table16.



TABLE 16 FUNCTION OF JUMPERS (X1~X6)

Jum-per

Func-tion

Description

X1 Usedto setRRINGandTRINGofE1/T1Line0/1

Jumper Position 1 is used to set TRING_0 ofE1/T1 Line 0

ON indicates that cable jacket is connected toprotection grounding, while OFF indicates thatcable jacket is left floating.

Jumper Position 2 is used to set RRING_0 ofE1/T1 Line 0

ON indicates that cable jacket is connected toprotection grounding via capacitor, while OFFindicates that cable jacket is left floating.
















Jum-per

Func-tion

Description



















The two MSB positions of X5 (MODE_ABIS)is used to set uplink/downlink long-line/short-linemode.

00xx: uplink short line; downlink short line 01xx: uplink short line; downlink long line 10xx: uplink long line; downlink short line 11xx: uplink long line; downlink long line

X5 Used toset theuplink/downlink Abismode(interfacebetweenBSCandBTS)

The two LSB positions of X5 (MODE_ABIS)is used to set E1/T1 mode.

xx00: E1 75 xx01: E1 120 xx10: T1 100 xx11: reserved



Jum-per

Func-tion

Description

X6 Usedto setBDS_ID

X6 is set as 000 permanently.

Jumpers (X1~X4) are used to set whether the E1 transceiving sig-nals are grounded. If the system is configured in E1 75 unbal-anced mode, insert the jumper cap to the E1 link actually in use.For example, if E1 Line 0 is in use, insert jumper caps to JumperPosition 1 and Jumpered Position 2 at X1. If all eight lines of E1are in use, insert jumper caps to all jumper positions at X1~X4.

Note:

If the system is configured in E1 120 balanced mode or T1 100mode, do not insert jumper caps to the jumper positions at X1~X4.

X5 is used to set uplink/downlink long-line/short-line mode andE1/T1 mode. For ZXSDR B8200 GU360, merely short-line modecan be configured. Therefore, do not insert jumper caps to the twoMSB positions at X5 (MODE_ABIS). The two LSB positionsof X5 (MODE_ABIS) is used to set E1/T1 mode. For details,please refer to Table 16.


The default configuration of X1~X6 is shown in Table 17.

TABLE 17 DEFAULT CONFIGURATION OF JUMPERS (X1~X6)

Jumper Configuration

E1 75 E1 120 T1 100

X1, X2, X3, X4 Plug injumpercable

Plug outjumper cable(default)

Plug outjumpercable(default)

MODE_ABIS




MODE_ABIS



Plug injumpercable

X5

MODE_ABIS


Plug injumper cable


X6 Plug outjumpercable(default)





Site Alarm ExtenderFunction SE provides the following functions:

Providing extended full duplex RS232&RS485 communicationchannel for external monitoring device;

Providing 6 input dry contact interfaces, 2 input/output drycontact interfaces;

Providing 8 lines of E1/T1 interfaces.

Panel SE panel is illustrated in Figure 12.

FIGURE 12 SE PANEL

Indicator Description of SE panel indicators is shown in Table 18.



TABLE 18 SE PANEL INDICATOR DESCRIPTION

IndicatorName



RUN indicator andALM indicator flashingalternately: board MMC isin module initializing.Flashing (0.3 s on, 0.3 soff): the board is in normalrunning state.Off: board self-test fails.



Interface Description of interfaces on SE panel is shown in Table 19.

TABLE 19 SE PANEL INTERFACE DESCRIPTION

InterfaceName

Descrip-tion


InterfaceProtocol

InterfaceCapacity

8 lines ofE1/T1 in-terface,RS485/232interface,6+2 drycontact in-terfaces (6input lines,2 bi-direc-tional lines)

E1/T1,RS485/RS232,dry contact

E1/T1,RS485/RS232

E1/T1RS485/RS232(9600 bps)

Jumper

Tip:

For each jumper position, open circuit stands for 0 or OFF, andshort circuit stands for 1 or ON.

Jumpers (X1~X6) on SA are configurable. Location of X1~X6 is inshown in Figure 13.



FIGURE 13 LOCATION OF X1~X6 ON SE

Configuration and function of Jumpers (X1~X6) are shown in Table20.

TABLE 20 FUNCTION OF JUMPERS (X1~X6)

Jum-per

Func-tion

Description


















Jum-per

Func-tion

Description
























Jum-per

Func-tion

Description

The two MSB positions of X5 (MODE_ABIS)is used to set uplink/downlink long-line/short-linemode.

00xx: uplink short line; downlink short line 01xx: uplink short line; downlink long line 10xx: uplink long line; downlink short line 11xx: uplink long line; downlink long line

X5 Used toset theuplink/downlink Abismode(interfacebetweenBSCandBTS)

The two LSB positions of X5 (MODE_ABIS)is used to set E1/T1 mode.

xx00: E1 75 xx01: E1 120 xx10: T1 100 xx11: reserved

X6 Usedto setBDS_ID

X6 isset as 000 permanently.

Jumpers (X1~X4) are used to set whether the E1 transceiving sig-nals are grounded. If the system is configured in E1 75 unbal-anced mode, insert the jumper cap to the E1 link actually in use.For example, if E1 Line 0 is in use, insert jumper caps to JumperPosition 1 and Jumpered Position 2 at X1. If all eight lines of E1are in use, insert jumper caps to all jumper positions at X1~X4.

Note:

If the system is configured in E1 120 balanced mode or T1 100mode, do not insert jumper caps to the jumper positions at X1~X4.

X5 is used to set uplink/downlink long-line/short-line mode andE1/T1 mode. For ZXSDR B8200 GU360, merely short-line modecan be configured. Therefore, do not insert jumper caps to the twoMSB positions at X5 (MODE_ABIS). The two LSB positionsof X5 (MODE_ABIS) is used to set E1/T1 mode. For details,please refer to Table 20.


The default configuration of X1~X6 is shown in Table 21.

TABLE 21 DEFAULT CONFIGURATION OF JUMPERS (X1~X6)


E1 75 E1 120 T1 100

X1, X2, X3, X4 Plug injumpercable






MODE_ABIS




MODE_ABIS



Plug injumpercable

X5

MODE_ABIS


Plug injumper cable


X6 Plug outjumpercable(default)




C h a p t e r 3

Cable

Table of ContentsA Brief Introduction to ZXSDR B8200 GU360 Cables...............29DC Power Cable.................................................................30Input/Output Dry Contact Cable ..........................................30RS232/RS485 Interface Cable .............................................33LMT Cable ........................................................................35GPS Antenna Connection Cable ...........................................36RRU Interface Cable...........................................................36SA Panel Cable..................................................................36SE Panel Cable ..................................................................40Protection Grounding Cable.................................................4475 E1 Cable For Abis/Iub.................................................44120 E1/100 T1 Cable For Abis/Iub .................................49Ethernet Fiber Cable for Abis/Iub.........................................51Ethernet Electrical-Interface Cable for Abis/Iub......................51

A Brief Introduction toZXSDR B8200 GU360CablesZXSDR B8200 GU360external cables are listed below.

DC Power Cable

Input Dry-contact Interface Cable

Input/Output Dry-contact Interface Cable

RS232/RS485 Interface Cable

LMT Cable

GPS Antenna Connection Cable

RRU Interface Cable

SA Panel Cable

SE Panel Cable

Protection Grounding Cable

75 E1 Cable For Abis/Iub

120 E1/100 T1 Cable For Abis/Iub



Ethernet Fiber Cable For Abis/Iub

Ethernet Electrical-interface Cable For Abis/Iub

DC Power CableFunction The cable is used to connect external -48 V DC power supply with

ZXSDR B8200 GU360.

Appearance Cable appearance is shown in Figure 14.

FIGURE 14 DC POWER CABLE

Signal Description Cable signal description is shown in Table 22.

TABLE 22 SIGNAL DESCRIPTION OF DC POWER CABLE

Name Description A-end Pin B-end Pin

-48 V GND 0 V DC voltage A1 Black conductingwire

-48 V -48 V DC voltage A2 Blue conductingwire

Cable Connection Cable connection between external power supply and ZXSDRB8200 GU360 power module (PM).

Input/Output Dry ContactCable

Purpose The input/output dry contact cable is used to input and output thedry contact point signals to or out of the device.


Chapter 3 Cable

PhysicalAppearance

The physical appearance of the input/output dry contact cable isshown in Figure 15. End A of the cable is DB25 straight-throughconnector.

FIGURE 15 INPUT/OUTPUT DRY-CONTACT INTERFACE CABLE

Signal Description The input/output dry contact cable signal is described in Table 23.


ZX

S

D

R

B

8

2

0

0

G

U

3

6

0

H

a

r

d

w

a

r

e

D

e

s

c

r

i

p

t

i

o

n

TABLE 23 INPUT/OUTPUT DRY CONTACT CABLE SIGNAL DESCRIPTION

SignalDefinition

I_SWI0 GND I_SWI1 - I_SWI2 I_SWI3 I_SWI4

End A Pin 1 14 2 15 3 16 4 17 5 18

CableColor

(White Blue) (White Orange) (White Green) (White Brown) (Red Blue)

SignalDefinition

I_SWI5 IO_SWI1 GND IO_SWI2 GND

End A Pin 6 19 7 20 8 21 9 22 10 23

CableColor

(Red Orange) (Red Green) (Red Brown) (Black Blue) (Black Orange)

() stands for a pair of twisted pair. I_SWI0 ~ I_SWI5 stands for the dry contact input 1-6. IO_SWI1~IO_SWI2 stands for the dry contact input/output. GNS is the common grounding of all input signals from the dry contact .

3

2

C

o

n

fi

d

e

n

t

i

a

l

a

n

d

P

r

o

p

r

i

e

t

a

r

y

I

n

f

o

r

m

a

t

i

o

n

o

f

Z

T

E

C

O

R

P

O

R

A

T

I

O

N

Chapter 3 Cable

Wiring Connection Connect the dry contact output device to ZXSDR B8200 GU360SA/SE panel cable B3 port, or connect the SA/SE panel cable B3to the dry contact signal receiver.

RS232/RS485 InterfaceCable

Usage The cable is serial port communication cable used for communica-tion between external equipments and ZXSDR B8200 GU360. IfZXSDR B8200 GU360 is installed in Hub cabinet, RS232/ RS485can also be used as monitor serial port cable that connects ZXSDRB8200 GU360 with external equipments.

Appearance Cable appearance is shown in Figure 16. A-end connector is DB9(M).

FIGURE 16 RS232/RS485 INTERFACE CABLE



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TABLE 24 SIGNAL DESCRIPTION OF RS232/ RS485 INTERFACE CABLE

Signal Spec-ification

GNDD RS485_RX+ RS485_RX- GNDD RS485_TX+ RS485_TX- RS232_RXD RS232_TXD GNDD

A-end Pin 1 6 7 4 8 9 2 3 5

Cable 1 white (white blue) green (white orange)

B1end Pin / /

Cable 2 blue orange white/white

B2end Pin /

( ) refers to a twisted pair. 14 refers to the (white green) twisted pair. refers to the blue core of (white blue) twisted pair. PIN 3 refers to the orange core of (white orange) twisted pair. PIN 5 refers to the white core that connects

(white orange) twisted pair with (white blue) twisted pair.

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Chapter 3 Cable

Cable Connection Cable connection between external equipment and B2 portofZXSDR B8200 GU360 SA panel cable

LMT CableUsage The cable is Ethernet cable which connects ZXSDR B8200 GU360

with local maintenance terminal (LMT).

Appearance Cable appearance is shown in Figure 17. Cable ends are RJ45interfaces.

FIGURE 17 LMT CABLE


TABLE 25 SIGNAL DESCRIPTION OF LMT CABLE

A-end Pin SignalSpecification

Cable Color B-end Pin

1 LMT_ETH-TR1+ white-green 1

2 LMT_ETH-TR1- orange 2

3 LMT_ETH-TR2+

green-white 3

4 LMT_ETH-TR3+

green 4

5 LMT_ETH -TR3- white-blue 5

6 LMT_ETH -TR2- blue 6

7 LMT_ETH-TR4+

white-green 7

8 LMT_ETH -TR4- brown 8

Cable Connection Cable connection between LMT and ETH1 interface of CC panel



GPS Antenna ConnectionCable

Usage GPS antenna connection cable is used for input of GPS satellitesignals into ZXSDR B8200 GU360.

Appearance GPS antenna connection cables are divided into two kinds: SMA(M)-N (M) and SMA (M)-SMA (M). SMA (M)-N (M) is used to con-nect arrester, and SMA (M)-SMA (M) is used to connect powerdivider. Cable appearance is shown in Figure 18.

FIGURE 18 GPS ANTENNA CONNECTION CABLE

Cable Connection Cable connection between GPS interface on CC panel and arrester/power divider

RRU Interface CableUsage Remote RF Unit (RRU) interface cable is used for data transmission

betweenZXSDR B8200 GU360 and RRU.

Appearance Cable appearance is shown in Figure 19. A end is waterproof opti-cal interface (connected to BBU). B end is LC-type optical interface.

FIGURE 19 RRU INTERFACE CABLE

Cable Connection Cable connection between optical interface on FS panel and RRU

SA Panel CableUsage SA panel can be used for input of E1/T1 signals, dry contact in-

put/output signals, and serial port (RS232/RS485) signals of ex-


Chapter 3 Cable

ternal equipments. These signals are joined together by SA panelcable at one interface and inputted into SA.

Appearance Cable appearance is shown in Figure 20. A end is SCSI50 plug. B1end is DB44 plug. B2 end is D89 plug. B3 end is DB25 plug.

FIGURE 20 SA PANEL CABLE



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TABLE 26 SIGNAL DESCRIPTION OF SA PANEL CABLE

SignalSpecifi-cation

RX0 RX0+ TX0 TX0+ RX1 RX1+ TX1 TX1+ RX2 RX2+ TX2 TX2+ RX3 RX3+ TX3+ TX3

A End 8 6 4 2 16 14 12 10 24 22 20 18 7 5 3 1

Ca-ble#1

BlueRed1

BlueBlack1

PinkRed1

Pink-Bla-ck1

GreenRed1

GreenBlack1

YellowREd1

YellowBlack1

GrayRed1

GrayBlack1

BlueRed2

BlueBlack2

PinkRed2

PinkBlack2

GreenRed2

GreenBlack2

B1End 22 23 24 25 1 2 3 4 5 6 7 8 9 10 11 12


232RX

232TX

GND I_485TX+

I_485TX-

O_485RX+

O_485RX-

GND I_SWI0 I_SWI1 I_SWI2

AEnd 38 36 40 42 44 46 48 50 43 45 47

Ca-ble#2

Blue Orange(Mark11)

White/White(Mark12)

(Wh-ite

Gre-en)

(Wh-ite

Bro-wn)

Red(Mark13)

B2End 2 3 5 8 9 6 7 1

Ca-ble#3

Blue(Mark1) Orange(Mark2)

Green(Mark 3)

B3End 1 2 3


RX4 RX4+ TX4 TX4+ RX5 RX5+ TX5 TX5+ RX6 RX6+ TX6 TX6+ RX7 RX7+ TX7 TX7+

A End 15 13 11 9 23 21 19 17 33 31 29 27 41 39 37 35

Ca-ble#1

YellowRed2

YellowBlack2

GrayREd2

GrayBlack2

BlueRed3

BlueBlack3

PinkRed3

PinkBlack3

GreenRed3

GreenBlack3

YellowRed3

YellowBlack3

GrayRed3

GrayBlack3

BlueRed4

BlueBlack4

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B1End 13 14 43 44 39 40 41 42 35 36 37 38 31 32 33 34


I_SWI3 I_SWI4 I_SWI5 GND B_SWIO1 B_SWIO2 GND

AEnd 49 26 28 34 30 32 34

Ca-ble#2

B2End

Ca-ble#3

Brown(Mark4)

Blue(Mark5) Orange(Mark6)

White(Mark7) Green(Mark8) Brown(Mark9) Red(Mark10)

B3End 4 5 6 14 7 8 20

( ) refers to a twisted pair. In Cable #1 row of Table 3-6, 'Blue Red 1' refers to the blue cable with a little red mark on it. Others in this row are inferable by analogy. 'Mark 11' refers to the blue and orange cores of (white blue) & (white orange) twisted pairs. 'Mark 12' refers to the white core of (white blue) & (white

orange) twisted pairs. 13 refers to the red core of (red blue) twisted pair. 'Mark 1' refers to the blue core of (white blue) twisted pair. 'Mark 2' refers to the orange core of (white orange) twisted pair. 'Mark 3' refers to the green core of

(white green) twisted pair. 'Mark 4 'refers to the brown core of (white brown) twisted pair. 'Mark 5' refers to the blue core of (red blue) twisted pair. 'Mark 6'refers to the orange core of (red orange) twisted pair. 'Mark 7' refers to the white core of (white blue) twisted pair. 'Mark 8' refers to the green core of (redgreen) twisted pair. 'Mark 9' refers to the brown core of (red brown) twisted pair. 'Mark 10' refers to the red core of (red green) twisted pair.

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Cable Connection A end is connected to SCSI50 socket on SA panel. B1 end is con-nected to E1/T1 cable. B2 end is connected to RS232/RS485 serialport cable. B3 end is connected to dry-contact signal cable. B4end is grounded.

SE Panel CablePurpose SE board accepts E1/T1 signal, input/output signal of dry contact

and serial signal (RS232/RS485) from external devices. SE panelcable converges singals from those sources into one interface tothe SA.

Physical Feature The physical appearance of SE panel cable is shown in . The A endiis SCSI50 connector,the end B1 is DB44 connector, the end B2 isDB9 connector, the end B3 is DB25 connector.

FIGURE 21 SE PANEL CABLE PHYSICAL APPEARANCE

Signal Descriptin The signals of SE panel cable interfaces are introduced in Table 27.


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TABLE 27 SE PANEL CABLE SIGNAL DESCRIPTION

S-i-g-n-alD-e-fi-n-i-ti-o-n

RX0

RX0+

TX0

TX0+

RX1

RX1+

TX1

TX1+

RX2

RX2+

TX2

TX2+

RX3

RX3+

TX3+

TX3

RX4

RX4+

TX4

TX4+

RX5

RX5+

TX5

TX5+

RX6

RX6+

TX6

TX6+

RX7

RX7+

TX7

TX7+

E-n-dA

8 6 4 2 16

14

12

10

24

22

20

18

7 5 3 1 15

13

11

9 23

21

19

17

33

31

29

27

41

39

37

35

C-a-b-le#1

B-l-u-e-r-e-d1

B-l-u-e-b-l-a-ck1

P-i-n-kr-e-d1

P-i-n-kb-l-a-ck1

G-r-e-e-n-r-e-d1

G-r-e-e-n-b-l-a-c-k1

Y-e-ll-o-wr-e-d1

Y-e-ll-o-wb-l-a-ck1

G-r-a-yr-e-d1

G-r-a-yb-l-a-c-k1

B-l-u-e-r-e-d2

B-l-u-e-b-l-a-c-k2

P-i-n-kr-e-d2

P-i-n-kb-l-a-c-k2

G-r-e-e-n-r-e-d2

G-r-e-e-n-b-l-a-ck2

Y-e-ll-o-wr-e-d2

Y-e-ll-o-wb-l-a-c-k2

G-r-a-yr-e-d2

G-r-a-yb-l-a-ck2

B-l-u-e-r-e-d3

B-l-u-e-b-l-a-c-k3

P-i-n-kr-e-d3

P-i-n-kb-l-a-ck3

G-r-e-e-n-r-e-d3

G-r-e-e-n-b-l-a-c-k3

Y-e-ll-o-wr-e-d3

Y-e-ll-o-wb-l-a-c-k3

G-r-a-yr-e-d3

G-r-a-yb-l-a-c-k3

B-l-u-e-r-e-d4

B-l-u-e-b-l-a-c-k4

S-i-d-eB-1

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23

24

25

1 2 3 4 5 6 7 8 9 10

11

12

13

14

43

44

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40

41

42

35

36

37

38

31

32

33

34

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S-i-g-n-alD-e-fi-n-i-ti-o-n

232RX

232TX

GND I_485TX+

I_485TX-

O_485RX+

O_485RX-

GND I_SWI0

I_SWI1

I_SWI2

I_SWI3

I_SWI4

I_SWI5

GND B_SWIO1

B_SWIO2

GND

E-n-dA

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40 42

44

46

48

50 43 45 47 49 26 28 34 30 32 34

C-a-b-le#2

B-l-u-e

O-r-a-n-g-e(N-o-te11)

White-/White(Note12)

(W-h-it-e

G-r-e-e-n)

(W-h-i-te

B-r-o-w-n)

Red(Note13)

S-i-d-eB-2

2 3 5 8 9 6 7 1

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C-a-b-le#3

Blute(Note1)

Or-ange(Note2)

Green(Note3)

Brown(Note4)

Blute(Note5)

Or-ange(Note6)

White(Note7)

Green(Note8)

Brown(Note9)

Red(Note10)

S-i-d-eB-3

1 2 3 4 5 6 14 7 8 20

() stands for a pair of twisted pair. Blue red 1 stands for a blue wire with red marking, and so on. Note 11 stands for ( white blue), ( white orange) twisted pair goes to blue colored and orange colored lead ; Note 12 stands for ( white blue), ( white

orange) twisted pair goes to white colored lead ; Note 13 stands for ( red blue) twisted pair goes to red colored lead . Note 1 stands for ( white blue) twisted pair goes to blue colored lead ; Note 2 stands for ( white orange) twisted pair goes to orange colored lead ; Note 3

stands for ( white green twisted pair goes to green colored lead ; Note 4 stands for ( white brown twisted pair goes to brown colored lead ; Note 5 standsfor ( red blue) twisted pair goes to blue colored lead ; Note 6 stands for ( red orange) twisted pair goes to orange colored lead ; Note 7 stands for ( whiteblue) twisted pair goes to white colored lead ; Note 8 stands for ( red green twisted pair goes to green colored lead ; Note 9 stands for ( red brown twistedpair goes to brown colored lead ; Note 10 stands for ( red green twisted pair goes to red colored lead .

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Wiring Relation The A end is connected to the SCSI50 socket on the SE panel. TheB1 end is connected to the E1/T1 cable. The B2 end is connectedto the RS232/RS485 serial cable. The B3 end is connected to thedry contact signal cable. B4 end is connected to grounding.

Protection Grounding CableUsage The cable connects ZXSDR B8200 GU360 with grounded counter-

poise, which ensures safety of person and equipment.

Appearance Cable appearance is shown in Figure 22. The cable is a yellow-green wire (16mm2) with crimped TNR terminals at both ends.

FIGURE 22 PROTECTION GROUNDING CABLE

Cable Connection Cable connection between protection grounding point on ZXSDRB8200 GU360 and grounding bar

75 E1 Cable For Abis/IubUsage The cable is used as transmission cable to transmit interface infor-

mation betweenZXSDR B8200 GU360 and RNC/BSC.

Appearance Appearance of two types of 75 E1 cables is shown in Figure 23.Cable in the upper picture supports connection with 8 lines of E1.Cable in the lower picture supports connection with 4 lines of E1.A end of the cable is DB44 straight plug.

FIGURE 23 75 E1 CABLE FOR ABIS/IUB


Chapter 3 Cable

Signal Description Signal description of 75 E1 cables (8 lines) is shown in Table 28.


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TABLE 28 SIGNAL DESCRIPTION OF 75 E1 CABLE (8 LINES)

SignalSpec-ifica-tion


A-endPin

22 23 24 25 1 2 3 4 5 6 7 8 9 10 11 12

CableColorCode

11out

11in

12out

12in

13out

13in

14out

14in

15out

15in

16out

16in

17out

17in

18out

18in



A-endPin

13 14 43 44 39 40 41 42 35 36 37 38 31 32 33 34

CableColorCode

21out

21in

22out

22in

23out

23in

24out

24in

25out

25in

26out

262in

17out

27in

28out

28in

'1-1-in' and '1-1-out' respectively refers to the internal and external conductor of the coaxial cable (marked as 1) among 1#8 core micro-coaxial cables.

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Chapter 3 Cable

Signal description of 75 E1 cables (4 lines) is shown in Table 29.


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TABLE 29 SIGNAL DESCRIPTION OF 75 E1 CABLE (4 LINES)



A-endPin

22 23 24 25 1 2 3 4 5 6 7 8 9 10 11 12

CableColorCode

1out 1in 2out 2in 3out 3in 4out 4in 5out 5in 6out 6in 7out 7in 8out 8in

'1-in' and '1-out' respectively refers to the internal and external conductor of the coaxial cable (marked as 1) among 8 core micro-coaxial cables.

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Chapter 3 Cable

Cable Connection Cable connection between B1 end on SA panel and DDF.

120 E1/100 T1 CableFor Abis/Iub

Usage The cable is used as transmission cable to transmit interface infor-mation betweenZXSDR B8200 GU360 and RNC/BSC.

Appearance Cable appearance is shown in Figure 24. A end of the cable isDB44 straight plug.

FIGURE 24 120 E1/100 T1 CABLE FOR ABIS/IUB

Signal Description 120 E1/100 T1 cables are divided into two types: cables sup-porting connection with 8 lines of E1/T1 and cables supportingconnection with 4 lines of E1/T1. Appearance of the two types ofcables is the same, while their core quantity varies. Cable signaldescription is shown in Table 30.


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TABLE 30 SIGNAL DESCRIPTION OF 120 E1/100 T1 CABLE

SignalSprci-fica-tion


A-endPin

22 23 24 25 1 2 3 4 5 6 7 8 9 10 11 12

CableColorCode

Blue/1Red

Blue/1Black

Pink/1Red

Pink/1Black

Green/1Red

Green/1Black

Yellow/1Red

Yellow/1Black

Gray/1Red

Gray/1Black

Blue/2Red

Blue/2Black

Pink/2Red

Pink/2Black

Green/2Red

Green/2Black



A-endPin

13 14 43 44 39 40 41 42 35 36 37 38 31 32 33 34

CableColorCode

Yellow/2Red

Yellow/2Black

Gray/2Red

Gray/2Black

Blue/3Red

Blue/3Black

Pink/3Red

Pink/3Black

Green/3Red

Green/3Black

Yellow/3Red

Yellow/3Black

Gray/3Red

Gray/3Black

Blue/4Red

Blue/4Black

'Blue/1 red' refers to the blue cable with a little red mark on it.' Pink/1 red' refers to the pink cable with a little red mark. Others are inferable by analogy.

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Chapter 3 Cable

Cable Connection Cable connection between B1 end on SA panel and DDF.

Ethernet Fiber Cable forAbis/Iub

Usage The cable is used for signal transmission over Abis/Iub interface.(RNC/BSCNode B/BTS).

Appearance Cable appearance is shown in Figure 25. Both ends of the cableare LC-type optical connectors. The yellow cable is single modefiber. The orange cable is multi-mode fiber.

FIGURE 25 ETHERNET FIBER CABLE FOR ABIS/IUB

Cable Connection Cable connection between ETH0 optical interface on CC panel andtransmission equipment

Ethernet Electrical-InterfaceCable for Abis/Iub

Usage The cable (Ethernet cable) is transmission cable which trans-mits interface information between ZXSDR B8200 GU360 andRNC/BSC.

Appearance Cable appearance is shown in Figure 26. Both ends of the cableare RI45 interfaces.



FIGURE 26 ETHERNET ELECTRICAL-INTERFACE CABLE FOR ABIS/IUB


TABLE 31 SIGNAL DESCRIPTION OF ETHERNET ELECTRICAL-INTERFACECABLE FOR ABIS/IUB

A-end Pin SignalSpecification

Cable Color B-end Pin

1 GE-TR1+ white-orange 1

2 GE-TR1- orange 2

3 GE-TR2+ white-green 3

4 GE-TR3+ Green 4

5 GE-TR3- white-blue 5

6 GE-TR2- blue 6

7 GE-TR4+ white-green 7

8 GE-TR4- Brown 8

Cable Connection Cable connection between Abis electrical interface on CC panel andEthernet switch/other transmission equipment


C h a p t e r 4

Attached Equipment

Table of ContentsLightning Protection Box.....................................................53PSU Subrack.....................................................................55

Lightning Protection BoxAppearance Lightning protection box protects signals of RS485, RS232, dry

contact, E1 and FE/GE electrical interface from lightning stroke.The box is used to prevent the incoming of induction lightningstroke and static electricity into ZXSDR B8200 GU360 via exter-nal cables, thus protecting the board interface circuit from beingdamaged.

The box provides lightning protection for:

8 lines of dry contact;

1 line of RS485 and 1 line of RS232;

8 lines of E1;

2 lines of FE/GE electrical interface.

Appearance of lightning protection box is shown in Figure 27.

FIGURE 27 LIGHTNING PROTECTION BOX

Interface The external interfaces of lightning protection box are shown inFigure 28.

FIGURE 28 EXTERNAL INTERFACES OF LIGHTNING PROTECTION BOX



Note:

Unmarked interfaces in Figure 28 are spare extension interfaces.

Cable Connection External cables of lightning protection box are listed below.

RS232/RS485 monitor cable

Dry contact monitor cable

E1/T1 cable

Ethernet cable

Wiring of lightning-protection-box external cables is described inTable 32.

TABLE 32 WIRING OF LIGHTNING-PROTECTION-BOX EXTERNAL CABLES

Cable Name Interface Name Opposite-endEquipment Type

RS232/RS485monitor cable

RS232/RS485_EM Monitor equipment

Dry contact monitorcable

MON IN/OUT_GO Monitor equipment

E1/T1 cable BSC_GO Transmissionequipment

ABIS_1/ABIS_0 Transmissionequipment

Ethernet cable

BBU_A1/BBU_A0 BBU

Data cable BBU BBU

Data cables connect lightning protection box and ZXSDR B8200GU360. Appearance of data cables is shown in Figure 29.

FIGURE 29 DATA CABLE

Wiring of data cables is described below.


Chapter 4 Attached Equipment

A end is connected to SA module of ZXSDR B8200 GU360.

B1 end is connected to data-cable interface of the lightningprotection box.

B1 end is connected to grounding end of the lightning protec-tion box.

PSU Subrack

PSU Subrack

Function PSU module is for AC/DC conversion, which provides the 54 V DCpower supply for ZXSDR B8200 GU360.

Note:

The input voltage for the PSU subrack to run normally is from 90V to 290 V AC and the temperature is from -40 to +65.

Panel

Note:

By standard, the PSU subrack is configured with one PSU module(single power supply). Two PSU modules (dual power supply) areoptional. In the manual, figures are taking dual power supply asexamples.

The panel of the PSU subrack is as shown in Figure 30.

FIGURE 30 PANEL OF PSU SUBRACK

1. -48VRTN/-48V2. 100V-240V~ INPUT

3. MON

Indicator The indicators on the PSU panel are as shown in Table 33.



TABLE 33 INDICATORS ON PSU PANEL

Indicator Color Meaning Description

RUN Green Runningindicator

Constantly ON: Thepower supply isrunning normally.

ALM Red Alarm indicator Constantly On: Thepower supply isabnormal (inputover-voltage/inputunder-voltage/out-put over-volt-age/power supplyover-temperatureprotection/outputunder-voltage/ orpower supply fail-ure, etc.)

Button The buttons on the PSU panel are as shown in Table 34.

TABLE 34 BUTTONS ON PSU PANEL

Button Description

I/O switch Power supply ON/OFF

Interface The interfaces on the PSU panel are as shown in Table 35.

TABLE 35 INTERFACES ON PSU PANEL

Interface Description

-48VRTN/-48V -54V output interface

Note:The silkscreen (-48V) indicates the powersupply state for common telecommunications.For ZXSDR B8200 GU360, in normal cases, thePSU module outputs -54 V DC.

100V-240V ~ INPUT 220 V AC input interface

MON Monitor interface of the PSU module

PSU AC Input Cable

Purpose The PSU AC input cable is used to lead the 220 V AC to the PSUmodule.

Appearance The appearance of the PSU AC input cable is as shown in Figure31.


Chapter 4 Attached Equipment

FIGURE 31 APPEARANCE OF PSU AC INPUT CABLE

Signal Description The order to solder the cable at End A/B: L - Brown, N - Blue, G -Black or yellow-green.

ConnectionRelationship

End A of the PSU AC input cable is connected to the 100V-240V~INPUT interface on the PSU module and End B is connected to the220 V AC power supply system (L is connected to the phase wire,N is connected to the zero line and G is connected to the groundingcable).

PSU Power Monitor Cable

Purpose The PSU power monitor cable is used to report the running state ofthe PSU module to ZXSDR B8200 GU360 and then ZXSDR B8200GU360 reports to the NM.

Appearance The appearance of the PSU power monitor cable is as shown inFigure 32.

FIGURE 32 APPEARANCE OF PSU POWER MONITOR CABLE

Signal Description The signal description of the PSU power monitor cable is as shownin Table 36.

TABLE 36 SIGNAL DESCRIPTION OF PSU POWER MONITOR CABLE

Signal M1_P-WR_ALM

GNDD M2_P-WR_ALM

GNDD FAN_ALM

GNDD

End Apinout

1 2 3 4 6 7

Cablespec-trum

(White Blue) (White Orange) (White Green)

End Bpinout

1 14 2 15 3 16



Cable ConnectionRelationship

End A of the PSU power monitor cable is connected to the MONinterface on the PSU module and the connection of End B falls intothe following two cases:

Without lightening protection subrack:

End B of the PSU power monitor cable is connected to B4 (drycontact) of the SA panel cable (data cable).

With lightening protection sunrack

End B of the PSU power monitor cable is connected to the drycontact monitor interface of the lightening protection subrack.

PSU DC Output Cable

Purpose The PSU DC output cable is used to lead the 54 V DC from thePSU module to ZXSDR B8200 GU360.

Appearance The appearance of the PSU DC output cable is as shown in Figure33.

FIGURE 33 APPEARANCE OF PSU DC OUTPUT CABLE

Signal Description The signal description of the PSU DC output cable is as shown inTable 37.

TABLE 37 SIGNAL DESCRIPTION OF PSU DC OUTPUT CABLE

Signal End A End B CableSpectrum

48V GND A1 A1 Black

48V A3 A2 Black

Cable ConnectionRelationship

End A of the PSU DC output cable is connected to the -48VRTN/-48V interface of the PSU module and End B is connected to the-48V/-48VRTN interface of the ZXSDR B8200 GU360 PM module.


Figures

Figure 1 ZXSDR B8200 GU360Cabinet Outer Structure ............ 1

Figure 2 ZXSDR B8200 GU360Cabinet Inner Structure............. 2

Figure 3 Ventilation and Heat Dissipation ............................... 2

Figure 4 PM1 Panel ............................................................. 4

Figure 5 PM3 Panel ............................................................. 4

Figure 6 CC Panel ............................................................... 7

Figure 7 UBPG Panel ..........................................................11

Figure 8 BPC Panel ............................................................14

Figure 9 FS Panel ..............................................................16

Figure 10 SA Panel ............................................................18

Figure 11 Location of X1~X6 on SA......................................19

Figure 12 SE Panel.............................................................23

Figure 13 Location of X1~X6 on SE ......................................25

Figure 14 DC Power Cable...................................................30

Figure 15 Input/Output Dry-Contact Interface Cable...............31

Figure 16 RS232/RS485 Interface Cable ...............................33

Figure 17 LMT Cable ..........................................................35

Figure 18 GPS Antenna Connection Cable .............................36

Figure 19 RRU Interface Cable.............................................36

Figure 20 SA Panel Cable....................................................37

Figure 21 SE Panel Cable Physical Appearance.......................40

Figure 22 Protection Grounding Cable...................................44

Figure 23 75 E1 Cable for Abis/Iub ...................................44

Figure 24 120 E1/100 T1 Cable For Abis/Iub ...................49

Figure 25 Ethernet Fiber Cable for Abis/Iub...........................51

Figure 26 Ethernet Electrical-Interface Cable for Abis/Iub .......52

Figure 27 Lightning Protection Box.......................................53

Figure 28 External Interfaces of Lightning Protection Box ........53

Figure 29 Data Cable .........................................................54

Figure 30 Panel of PSU Subrack...........................................55

Figure 31 Appearance of PSU AC Input Cable ........................57

Figure 32 Appearance of PSU Power Monitor Cable .................57

Figure 33 Appearance of PSU DC Output Cable ......................58



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Tables

Table 1 PM Panel Indicator Description................................... 5

Table 2 PM Panel Interface ................................................... 5

Table 3 PM3 Panel Button .................................................... 5

Table 4 CC Panel Indicator Description................................... 7

Table 5 CC Panel Button Description ...................................... 9

Table 6 CC Panel Interface Description..................................10

Table 7 UBPG Panel Indicator Description..............................12

Table 8 UBPG Panel Button Description .................................13

Table 9 UBPG Panel Interface Description..............................13

Table 10 BPC Panel Indicator Description ..............................14

Table 11 BPC Panel Button Description..................................15

Table 12 FS Panel Indicator Description ................................16

Table 13 FS Panel Interface Description ................................17

Table 14 SA Panel Indicator Description ................................18

Table 15 SA Panel Interface Description ................................19

Table 16 Function of Jumpers (X1~X6) .................................20

Table 17 Default Configuration of Jumpers (X1~X6) ...............22

Table 18 SE Panel Indicator Description ................................24

Table 19 SE Panel Interface Description ................................24

Table 20 Function of Jumpers (X1~X6) .................................25

Table 21 Default Configuration of Jumpers (X1~X6) ...............27

Table 22 Signal Description of DC Power Cable ......................30

Table 23 Input/Output Dry Contact Cable Signal Description....32

Table 24 Signal Description of RS232/ RS485 Interface Cable...34

Table 25 Signal Description of LMT Cable ..............................35

Table 26 Signal Description of SA Panel Cable........................38

Table 27 SE Panel Cable Signal Description ...........................41

Table 28 Signal Description of 75 E1 Cable (8 lines) ............46

Table 29 Signal Description of 75 E1 Cable (4 lines) ............48

Table 30 Signal Description of 120 E1/100 T1 Cable ........50

Table 31 Signal Description of Ethernet Electrical-Interface

Cable for Abis/Iub..............................................52

Table 32 Wiring of Lightning-protection-box External Cables ....54

Table 33 Indicators on PSU Panel .........................................56



Table 34 Buttons on PSU Panel ............................................56

Table 35 Interfaces on PSU Panel.........................................56

Table 36 Signal Description of PSU Power Monitor Cable..........57

Table 37 Signal Description of PSU DC Output Cable...............58


Glossary

BBU- BaseBand Unit

BPC- Baseband Processing Board Type C

BSC- Base Station Controller

BSP- Board Support Package

BTS- Base Transceiver Station

CC- Control and Clock Module

DDF- Digital Distribution Frame

EMMC- Enhanced MMC

FS- Fabric Switch Module

GPS- Global Positioning System

GTP- GPRS Tunneling Protocol

PM- Power Module

PSU- Power System Unit

RNC- Radio Network Controller

RRU- Remote Radio Unit

SA- Site Alarm Module

TNR- Non Insulated Ring Terminals

UBPG- Universal Baseband Processing Board for GSM


PrefaceCabinetAppearance and StructureInternal CompositionVentilation PrincipleCabinet Specifications

Board and ModulePower ModuleControl and Clock ModuleUniversal Baseband Processing Board for GSMBaseband Processing Board Type CFabric Switch ModuleSite Alarm ModuleSite Alarm Extender

CableA Brief Introduction to ZXSDR B8200 GU360 CablesDC Power CableInput/Output Dry Contact CableRS232/RS485 Interface CableLMT CableGPS Antenna Connection CableRRU Interface CableSA Panel CableSE Panel CableProtection Grounding Cable75 E1 Cable For Abis/Iub120 E1/100 T1 Cable For Abis/IubEthernet Fiber Cable for Abis/IubEthernet Electrical-Interface Cable for Abis/Iub

Attached EquipmentLightning Protection BoxPSU SubrackPSU SubrackPSU AC Input CablePSU Power Monitor CablePSU DC Output Cable

FiguresTablesGlossary

Documents

05-1 ZXSDR B8200 GU360(V4.00.30) Hardware Description