BTS3012 Hardware Description(for 18TRX II)-(V300R008_03)
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Transcript of BTS3012 Hardware Description(for 18TRX II)-(V300R008_03)
BTS3012
V300R008
Hardware Description(for 18TRX II)
Issue 03
Date 2008-12-30
Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
Huawei Technologies Co., Ltd. provides customers with comprehensive technical support and service. For anyassistance, please contact our local office or company headquarters.
Huawei Technologies Co., Ltd.Address: Huawei Industrial Base
Bantian, LonggangShenzhen 518129People's Republic of China
Website: http://www.huawei.com
Email: [email protected]
Copyright © Huawei Technologies Co., Ltd. 2008. All rights reserved.No part of this document may be reproduced or transmitted in any form or by any means without prior writtenconsent of Huawei Technologies Co., Ltd. Trademarks and Permissions
and other Huawei trademarks are the property of Huawei Technologies Co., Ltd.All other trademarks and trade names mentioned in this document are the property of their respective holders. NoticeThe information in this document is subject to change without notice. Every effort has been made in thepreparation of this document to ensure accuracy of the contents, but the statements, information, andrecommendations in this document do not constitute a warranty of any kind, express or implied.
Huawei Proprietary and ConfidentialCopyright © Huawei Technologies Co., Ltd.
Contents
About This Document.....................................................................................................................1
1 Components of the BTS3012 System......................................................................................1-1
2 BTS3012 Cabinet.........................................................................................................................2-12.1 Appearance of the BTS3012 Cabinet..............................................................................................................2-22.2 Physical Structure of the BTS3012.................................................................................................................2-32.3 Cable Distribution of the BTS3012.................................................................................................................2-52.4 Engineering Specifications of the BTS3012...................................................................................................2-8
3 BTS3012 Auxiliary Equipment................................................................................................3-13.1 Sidepower........................................................................................................................................................3-23.2 EMU................................................................................................................................................................3-53.3 BTS3012 Sensors............................................................................................................................................3-5
4 BTS3012 Boards and Modules.................................................................................................4-14.1 List of the BTS3012 Boards and Modules......................................................................................................4-34.2 DATU..............................................................................................................................................................4-4
4.2.1 Functions of the DATU..........................................................................................................................4-54.2.2 Working Environment of the DATU.....................................................................................................4-54.2.3 LEDs and Ports on the DATU................................................................................................................4-54.2.4 DIP Switches on the DATU...................................................................................................................4-74.2.5 Specifications of the DATU...................................................................................................................4-9
4.3 DCCU............................................................................................................................................................4-104.3.1 Functions of the DCCU........................................................................................................................4-104.3.2 Working Principles of the DCCU........................................................................................................4-104.3.3 Ports on the DCCU...............................................................................................................................4-114.3.4 Specifications of the DCCU.................................................................................................................4-12
4.4 ECMB............................................................................................................................................................4-124.4.1 Functions of the ECMB........................................................................................................................4-134.4.2 Specifications of the ECMB.................................................................................................................4-13
4.5 DCOM...........................................................................................................................................................4-134.5.1 Functions of the DCOM.......................................................................................................................4-144.5.2 Working Environment of the DCOM...................................................................................................4-144.5.3 Working Principles of the DCOM.......................................................................................................4-144.5.4 Ports on the DCOM .............................................................................................................................4-15
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4.5.5 Specifications of the DCOM................................................................................................................4-164.6 DCSU............................................................................................................................................................4-17
4.6.1 Functions of the DCSU........................................................................................................................4-174.6.2 Ports on the DCSU...............................................................................................................................4-174.6.3 DIP Switches on the DCSU.................................................................................................................4-194.6.4 Specifications of the DCSU.................................................................................................................4-21
4.7 DDPU............................................................................................................................................................4-224.7.1 Functions of the DDPU........................................................................................................................4-224.7.2 Working Environment of the DDPU....................................................................................................4-224.7.3 Working Principles of the DDPU.........................................................................................................4-234.7.4 LEDs and Ports on the DDPU..............................................................................................................4-244.7.5 Specifications of the DDPU.................................................................................................................4-27
4.8 DEMU...........................................................................................................................................................4-274.8.1 Functions of the DEMU.......................................................................................................................4-284.8.2 Working Environment of the DEMU...................................................................................................4-284.8.3 Working Principles of the DEMU........................................................................................................4-294.8.4 LEDs and Port on the DEMU..............................................................................................................4-294.8.5 Specifications of the DEMU................................................................................................................4-31
4.9 DFCB............................................................................................................................................................4-314.9.1 Functions of the DFCB........................................................................................................................4-324.9.2 Working Environment of the DFCB....................................................................................................4-324.9.3 Working Principles of the DFCB.........................................................................................................4-334.9.4 LEDs and Ports on the DFCB..............................................................................................................4-354.9.5 Specifications of the DFCB..................................................................................................................4-41
4.10 DFCU..........................................................................................................................................................4-424.10.1 Functions of the DFCU......................................................................................................................4-424.10.2 Working Environment of the DFCU..................................................................................................4-424.10.3 Working Principles of the DFCU.......................................................................................................4-434.10.4 LEDs and Ports on the DFCU............................................................................................................4-454.10.5 Specifications of the DFCU...............................................................................................................4-51
4.11 DTMU.........................................................................................................................................................4-524.11.1 Functions of the DTMU.....................................................................................................................4-524.11.2 Working Environment of the DTMU.................................................................................................4-534.11.3 Working Principles of the DTMU......................................................................................................4-544.11.4 LEDs and Ports on the DTMU...........................................................................................................4-554.11.5 DIP Switches on the DTMU..............................................................................................................4-574.11.6 Specifications of the DTMU..............................................................................................................4-59
4.12 DTRB..........................................................................................................................................................4-594.12.1 Functions of the DTRB......................................................................................................................4-604.12.2 Working Principles of the DTRB.......................................................................................................4-604.12.3 Specifications of the DTRB...............................................................................................................4-60
4.13 DTRU..........................................................................................................................................................4-61
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4.13.1 Functions of the DTRU......................................................................................................................4-614.13.2 Working Environment of the DTRU..................................................................................................4-624.13.3 Working Principles of the DTRU.......................................................................................................4-634.13.4 LEDs and Ports on the DTRU............................................................................................................4-694.13.5 Specifications of the DTRU...............................................................................................................4-73
4.14 Fan Box.......................................................................................................................................................4-734.14.1 Functions of the Fan Box...................................................................................................................4-744.14.2 Working Principles of the Fan Box....................................................................................................4-744.14.3 LEDs and Ports on the Fan Box.........................................................................................................4-744.14.4 Specifications of the Fan Box............................................................................................................4-75
5 BTS3012 Cables...........................................................................................................................5-15.1 List of the BTS3012 Cables............................................................................................................................5-35.2 BTS3012 Power Cables..................................................................................................................................5-7
5.2.1 Power Cables for the BTS3012 Cabinet................................................................................................5-85.2.2 Power Cable from the BTS3012 Busbar to the DAFU Subrack..........................................................5-105.2.3 Power Cable from the BTS3012 Busbar to the DTRU Subrack..........................................................5-125.2.4 Power Cable from the BTS3012 Busbar to the Fan Subrack...............................................................5-145.2.5 Power Cable from the BTS3012 Busbar to the Common Subrack......................................................5-15
5.3 BTS3012 PGND Cables................................................................................................................................5-165.4 BTS3012 Transmission Cables.....................................................................................................................5-18
5.4.1 BTS3012 E1 线....................................................................................................................................5-185.4.2 Optical Cable of the BTS3012/BTS3012AE.......................................................................................5-195.4.3 Ethernet Cables of the BTS3012/BTS3012AE ...................................................................................5-20
5.5 BTS3012 Signal Cables................................................................................................................................5-225.5.1 Lightning Protection Failure Alarm Cable of the BTS3012................................................................5-235.5.2 Power Detection Cables of the BTS3012/BTS3012AE.......................................................................5-245.5.3 Signal Cable for BTS3012 Cabinet Groups.........................................................................................5-265.5.4 BTS3012 Environment Monitoring Signal Cable................................................................................5-275.5.5 RET Control Signal Cable of the BTS3012/BTS3012AE...................................................................5-305.5.6 Signal Cable Between the DCSU and the DAFU Subrack of the BTS3012........................................5-315.5.7 Signal Cable Between the DCSU and the DTRB of the BTS3012/BTS3012AE................................5-345.5.8 Signal Transfer Cable for the Fan Subrack of the BTS3012................................................................5-385.5.9 Diversity Receive Short-Circuiting Signal Cable of the BTS3012/BTS3012AE................................5-395.5.10 Four-In-One Short-Circuiting Signal Cable of the BTS3012/BTS3012AE.......................................5-405.5.11 Signal Cable Between the DFCB and the DFCU of the BTS3012/BTS3012AE..............................5-41
5.6 BTS3012 RF Cables......................................................................................................................................5-425.6.1 RF Signal Cables of the BTS3012/BTS3012AE..................................................................................5-425.6.2 Indoor 1/2-Inch Jumper of the BTS3012.............................................................................................5-43
5.7 Cables Between the BTS3012 and the Auxiliary Equipment.......................................................................5-445.7.1 Signal Cable for the External Environment Alarm Box of the BTS....................................................5-455.7.2 Power Cable Between the Sidepower and the BTS3012.....................................................................5-46
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Figures
Figure 1-1 BTS3012 system.................................................................................................................................1-1Figure 2-1 BTS3012 cabinet................................................................................................................................2-2Figure 2-2 Fully configured BTS3012 cabinet.....................................................................................................2-4Figure 2-3 Cable distribution at the front of the cabinet......................................................................................2-6Figure 2-4 Internal cable distribution on the top of the cabinet...........................................................................2-7Figure 3-1 Sidepower...........................................................................................................................................3-2Figure 3-2 Positive input copper bar of the Sidepower........................................................................................3-3Figure 3-3 Negative input copper bar of the Sidepower......................................................................................3-3Figure 3-4 Output ports on the Sidepower...........................................................................................................3-4Figure 3-5 Wiring terminals of the door status sensor.........................................................................................3-5Figure 3-6 Wiring terminals of the water sensor..................................................................................................3-6Figure 3-7 Wiring terminals of the smoke sensor................................................................................................3-6Figure 3-8 Wiring terminals of the infrared sensor..............................................................................................3-6Figure 3-9 Wiring terminals of the temperature and humidity sensor.................................................................3-7Figure 4-1 Working environment of the DATU..................................................................................................4-5Figure 4-2 DATU panel.......................................................................................................................................4-6Figure 4-3 Layout of the DIP switches on the DATU.........................................................................................4-8Figure 4-4 Functional structure of the DCCU....................................................................................................4-10Figure 4-5 DCCU panel.....................................................................................................................................4-11Figure 4-6 Working environment of the DCOM................................................................................................4-14Figure 4-7 Functional structure of the DCOM...................................................................................................4-15Figure 4-8 DCOM panel.....................................................................................................................................4-16Figure 4-9 DCSU panel......................................................................................................................................4-18Figure 4-10 Layout of the DIP switches on the DCSU......................................................................................4-19Figure 4-11 Working environment of the DDPU...............................................................................................4-23Figure 4-12 Working Principles of the DDPU...................................................................................................4-24Figure 4-13 DDPU panel....................................................................................................................................4-25Figure 4-14 Working environment of the DEMU..............................................................................................4-28Figure 4-15 Functional structure of the DEMU.................................................................................................4-29Figure 4-16 DEMU panel...................................................................................................................................4-30Figure 4-17 Working environment of the DFCB (900 MHz)............................................................................4-33Figure 4-18 Working environment of the DFCB (1800 MHz)..........................................................................4-33Figure 4-19 Functional structure of the DFCB (900 MHz)................................................................................4-34
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Figure 4-20 Functional structure of the DFCB (1800 MHz)..............................................................................4-34Figure 4-21 DFCB (900 MHz) panel.................................................................................................................4-36Figure 4-22 DFCB (1800 MHz) panel...............................................................................................................4-40Figure 4-23 Working environment of the DFCU (900 MHz)............................................................................4-43Figure 4-24 Working environment of the DFCU (1800 MHz)..........................................................................4-43Figure 4-25 Functional structure of the DFCU..................................................................................................4-44Figure 4-26 DFCU (900 MHz) panel.................................................................................................................4-46Figure 4-27 DFCU (1800 MHz) panel...............................................................................................................4-50Figure 4-28 Working environment of the DTMU..............................................................................................4-53Figure 4-29 Functional structure of the DTMU.................................................................................................4-54Figure 4-30 DTMU panel...................................................................................................................................4-55Figure 4-31 Layout of the DIP switches on the DTMU.....................................................................................4-58Figure 4-32 Functional structure of the DTRB..................................................................................................4-60Figure 4-33 Working Environment of the DTRU..............................................................................................4-62Figure 4-34 Functional structure of the DTRU..................................................................................................4-63Figure 4-35 Transmit independency mode.........................................................................................................4-64Figure 4-36 PBT mode.......................................................................................................................................4-65Figure 4-37 Wideband combination mode.........................................................................................................4-65Figure 4-38 Transmit diversity mode.................................................................................................................4-66Figure 4-39 Receive independency mode..........................................................................................................4-67Figure 4-40 Receive diversity mode..................................................................................................................4-68Figure 4-41 4-way receive diversity mode.........................................................................................................4-69Figure 4-42 DTRU panel....................................................................................................................................4-70Figure 4-43 Panel of the fan box........................................................................................................................4-74Figure 5-1 Installation positions of the power cables for the cabinet...................................................................5-9Figure 5-2 Power cable from the Busbar to the DAFU subrack........................................................................5-11Figure 5-3 Power cable from the busbar to the DTRU subrack.........................................................................5-12Figure 5-4 Power cable from the busbar to the fan subrack...............................................................................5-14Figure 5-5 Power cable from the busbar to the common subrack......................................................................5-16Figure 5-6 PGND cable......................................................................................................................................5-17Figure 5-7 Installation positions of the PGND cables on top of the cabinet......................................................5-17Figure 5-8 E1 cable............................................................................................................................................5-19Figure 5-9 Optical cable.....................................................................................................................................5-20Figure 5-10 Ethernet cable.................................................................................................................................5-21Figure 5-11 Lightning protection failure alarm cable........................................................................................5-23Figure 5-12 Power detection cable.....................................................................................................................5-24Figure 5-13 Signal cable for cabinet groups.......................................................................................................5-26Figure 5-14 Environment monitoring signal cable.............................................................................................5-28Figure 5-15 RET control signal cable................................................................................................................5-30Figure 5-16 Signal cable between the DCSU and the DAFU subrack...............................................................5-31Figure 5-17 Signal cable between the DCSU and the DTRB............................................................................5-35Figure 5-18 Signal transfer cable for the fan subrack........................................................................................5-38
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Hardware Description(for 18TRX II)
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Figure 5-19 Diversity receive short-circuiting cable..........................................................................................5-39Figure 5-20 Four-in-one short-circuiting signal cable........................................................................................5-40Figure 5-21 Signal cable between the DFCB and the DFCU.............................................................................5-41Figure 5-22 RF RX signal cable and RF TX signal cable..................................................................................5-43Figure 5-23 Indoor 1/2-inch jumper...................................................................................................................5-44Figure 5-24 Signal cable for the external environment alarm box.....................................................................5-45
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Tables
Table 2-1 Cable distribution of the cabinet..........................................................................................................2-7Table 2-2 Dimensions (appearance).....................................................................................................................2-8Table 2-3 Cabinet weight..................................................................................................................................... 2-8Table 2-4 Specifications of the power input.........................................................................................................2-9Table 2-5 Power consumption..............................................................................................................................2-9Table 3-1 Input ports on the Sidepower............................................................................................................... 3-3Table 3-2 Output ports on the Sidepower.............................................................................................................3-4Table 4-1 List of boards and modules..................................................................................................................4-3Table 4-2 LEDs on the DATU panel....................................................................................................................4-6Table 4-3 Ports on the DATU panel.....................................................................................................................4-7Table 4-4 Setting of DIP switches on the DATU.................................................................................................4-8Table 4-5 Specifications for the DATU............................................................................................................... 4-9Table 4-6 Ports on the DCCU panel...................................................................................................................4-12Table 4-7 Specifications for the DCCU.............................................................................................................4-12Table 4-8 Specifications for the ECMB.............................................................................................................4-13Table 4-9 Ports on the DCOM panel..................................................................................................................4-16Table 4-10 Specifications for the DCOM...........................................................................................................4-17Table 4-11 Ports on the DCSU panel.................................................................................................................4-18Table 4-12 Settings of SW1................................................................................................................................4-20Table 4-13 Settings of SW11..............................................................................................................................4-20Table 4-14 Settings of SW6 and SW7................................................................................................................4-20Table 4-15 Settings of SW8................................................................................................................................4-21Table 4-16 Settings of SW9 and SW10..............................................................................................................4-21Table 4-17 Settings of SW15–SW18..................................................................................................................4-21Table 4-18 Settings of SW19..............................................................................................................................4-21Table 4-19 Specifications for the DCSU............................................................................................................4-22Table 4-20 LEDs on the DDPU panel................................................................................................................4-25Table 4-21 Ports on the DDPU panel.................................................................................................................4-26Table 4-22 Specifications for the DDPU............................................................................................................4-27Table 4-23 LEDs on the DEMU panel...............................................................................................................4-30Table 4-24 Port on the DEMU panel..................................................................................................................4-31Table 4-25 Specifications for the DEMU...........................................................................................................4-31Table 4-26 LEDs on the DFCB (900 MHz) panel..............................................................................................4-36
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Table 4-27 Ports on the DFCB (900 MHz) panel...............................................................................................4-37Table 4-28 LEDs on the DFCB (1800 MHz) panel............................................................................................4-40Table 4-29 Specifications for the DFCB............................................................................................................4-41Table 4-30 LEDs on the DFCU (900 MHz) panel.............................................................................................4-46Table 4-31 Ports on the DFCU (900 MHz) panel..............................................................................................4-47Table 4-32 LEDs on the DFCU (1800 MHz) panel...........................................................................................4-51Table 4-33 Specifications for the DFCU............................................................................................................4-52Table 4-34 LEDs on the DTMU panel...............................................................................................................4-56Table 4-35 Ports on the DTMU panel................................................................................................................4-57Table 4-36 Settings of the DIP switches on the DTMU.....................................................................................4-58Table 4-37 Specifications for the DTMU...........................................................................................................4-59Table 4-38 Specifications for the DTRB............................................................................................................4-61Table 4-39 LEDs on the DTRU panel................................................................................................................4-70Table 4-40 Description of the ports on the DTRU.............................................................................................4-72Table 4-41 Specifications of the DTRU.............................................................................................................4-73Table 4-42 LEDs on the fan box........................................................................................................................4-75Table 4-43 Ports on the panel of the fan box......................................................................................................4-75Table 4-44 Specifications of the fan box............................................................................................................4-75Table 5-1 List of the BTS3012 cables..................................................................................................................5-3Table 5-2 Installation positions of the power cables for the cabinet....................................................................5-9Table 5-3 Pin assignment of the power cable from the busbar to the DAFU subrack.......................................5-11Table 5-4 Installation positions of the power cable from the busbar to the DAFU subrack..............................5-12Table 5-5 Pin assignment of the power cable from the busbar to the DTRU subrack.......................................5-13Table 5-6 Installation positions of the power cable from the busbar to the DTRU subrack..............................5-13Table 5-7 Pin assignment for the power cable from the busbar to the fan subrack............................................5-15Table 5-8 Installation positions of the power cable from the busbar to the fan subrack....................................5-15Table 5-9 Pin assignment of the power cable from the busbar to the common subrack....................................5-16Table 5-10 Installation positions of the power cable from the busbar to the common subrack.........................5-16Table 5-11 Installation positions of the PGND cables.......................................................................................5-18Table 5-12 Installation positions of the E1 cable...............................................................................................5-19Table 5-13 Installation positions of the optical cable.........................................................................................5-20Table 5-14 Pin assignment of the Ethernet cable...............................................................................................5-21Table 5-15 Installation positions of the Ethernet cable......................................................................................5-22Table 5-16 Pin assignment for the lightning protection failure alarm cable......................................................5-24Table 5-17 Installation positions of the lightning protection failure alarm cable...............................................5-24Table 5-18 Installation position of the forward power detection cable..............................................................5-25Table 5-19 Installation position of the reverse power detection cable...............................................................5-25Table 5-20 Pin assignment of the signal cable for cabinet groups.....................................................................5-26Table 5-21 Installation positions of the signal cable for cabinet groups............................................................5-27Table 5-22 Pin assignment of the environment monitoring signal cable...........................................................5-28Table 5-23 Installation positions of the environment monitoring signal cable..................................................5-30Table 5-24 Installation positions of the RET control signal cable.....................................................................5-31
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Table 5-25 Pin assignment of W1......................................................................................................................5-32Table 5-26 Pin assignment of W2......................................................................................................................5-32Table 5-27 Pin assignment of W3......................................................................................................................5-33Table 5-28 Installation positions of the signal cables between the DCSU and the DAFU subrack...................5-34Table 5-29 Pin assignment of the signal cable between the DCSU and the DTRB...........................................5-35Table 5-30 Installation positions of the signal cable between the DCSU and the DTRB..................................5-37Table 5-31 Pin assignment of W1......................................................................................................................5-38Table 5-32 Installation positions of the fan subrack signal transfer cable.........................................................5-39Table 5-33 Installation position of the diversity receive short-circuiting cable.................................................5-39Table 5-34 Installation position of the four-in-one short-circuiting signal cable...............................................5-41Table 5-35 Installation positions of the signal cable between the DFCB and the DFCU..................................5-42Table 5-36 Installation positions of the RF signal cables...................................................................................5-43Table 5-37 Installation positions of the indoor 1/2-inch jumper........................................................................5-44Table 5-38 Pin assignment for the signal cable for the external environment alarm box..................................5-45Table 5-39 Installation positions of the signal cable for the external environment alarm box..........................5-46Table 5-40 Installation positions of the power cable between the Sidepower and the BTS3012......................5-46
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About This Document
PurposeThis document provides an overview of BTS3012 hardware for planning and deploying theBTS3012. It describes the configurations, functions, and specifications of the subracks, boards,and parts in a BTS3012 cabinet. This document also describes the classification of cables,specifications for connectors, and installation positions of cables.
Product VersionThe following table lists the product version related to this document.
Product Name Product Version
BTS3012 V300R008
Intended AudienceThis document is intended for:
l BTS3012 installers
l Site maintainers
Change HistoryFor changes in the document, refer to Changes in BTS3012 Hardware Description (for18TRX II).
Organization1 Components of the BTS3012 System
This describes the components of the BTS3012 system. The BTS3012 system consists of theBTS3012 cabinet, antenna subsystem, OM equipment, and auxiliary equipment.
2 BTS3012 Cabinet
The BTS3012 cabinet consists of the common subrack, DAFU subrack, DTRU subrack, fansubrack, and transmission subrack. The BTS3012 cabinet is designed in compliance with theIEC60297 standard. It has a modular structure. The cabinet is used to process the signals withinthe BTS.
3 BTS3012 Auxiliary Equipment
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The BTS3012 auxiliary equipment includes the Sidepower, EMU, and sensors.
4 BTS3012 Boards and Modules
The BTS3012 boards include the DTMU, DEMU, DATU, DCSU, DCCU, ECMB, and DTRB.The modules include the DTRU, DCOM, DDPU, DFCU, DFCB, and fan box.
5 BTS3012 Cables
This describes the functions, appearance, assignment of pins, and installation positions of theBTS3012 cables.
ConventionsSymbol Conventions
The symbols that may be found in this document are defined as follows.
Symbol Description
Indicates a hazard with a high level of risk, which if notavoided,will result in death or serious injury.
Indicates a hazard with a medium or low level of risk, whichif not avoided, could result in minor or moderate injury.
Indicates a potentially hazardous situation, which if notavoided,could result in equipment damage, data loss,performance degradation, or unexpected results.
Indicates a tip that may help you solve a problem or savetime.
Provides additional information to emphasize or supplementimportant points of the main text.
General Conventions
The general conventions that may be found in this document are defined as follows.
Convention Description
Times New Roman Normal paragraphs are in Times New Roman.
Boldface Names of files, directories, folders, and users are inboldface. For example, log in as user root.
Italic Book titles are in italics.
Courier New Examples of information displayed on the screen are inCourier New.
Command Conventions
The command conventions that may be found in this document are defined as follows.
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Convention Description
Boldface The keywords of a command line are in boldface.
Italic Command arguments are in italics.
[ ] Items (keywords or arguments) in brackets [ ] are optional.
{ x | y | ... } Optional items are grouped in braces and separated byvertical bars. One item is selected.
[ x | y | ... ] Optional items are grouped in brackets and separated byvertical bars. One item is selected or no item is selected.
{ x | y | ... }* Optional items are grouped in braces and separated byvertical bars. A minimum of one item or a maximum of allitems can be selected.
[ x | y | ... ]* Optional items are grouped in brackets and separated byvertical bars. Several items or no item can be selected.
GUI Conventions
The GUI conventions that may be found in this document are defined as follows.
Convention Description
Boldface Buttons, menus, parameters, tabs, window, and dialog titlesare in boldface. For example, click OK.
> Multi-level menus are in boldface and separated by the ">"signs. For example, choose File > Create > Folder .
Keyboard Operations
The keyboard operations that may be found in this document are defined as follows.
Format Description
Key Press the key. For example, press Enter and press Tab.
Key 1+Key 2 Press the keys concurrently. For example, pressing Ctrl+Alt+A means the three keys should be pressed concurrently.
Key 1, Key 2 Press the keys in turn. For example, pressing Alt, A meansthe two keys should be pressed in turn.
Mouse Operations
The mouse operations that may be found in this document are defined as follows.
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Action Description
Click Select and release the primary mouse button without movingthe pointer.
Double-click Press the primary mouse button twice continuously andquickly without moving the pointer.
Drag Press and hold the primary mouse button and move thepointer to a certain position.
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1 Components of the BTS3012 System
This describes the components of the BTS3012 system. The BTS3012 system consists of theBTS3012 cabinet, antenna subsystem, OM equipment, and auxiliary equipment.
Figure 1-1 shows the BTS3012 system.
Figure 1-1 BTS3012 system
BTS3012 system
Antenna
BTS3012 cabinet
OM equipment
Auxiliary equipment
Cabinet
The BTS3012 cabinet is the core of the BTS3012 system. It processes baseband signals and RFsignals.
Antenna System
The antenna subsystem receives UL signals and transmits DL signals on the Um interface.
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OM EquipmentThe OM equipment performs the OM functions of the BTS such as security management, alarmmanagement, data configuration, and maintenance management. The BTS3012 supports threeOM modes: Site Maintenance Terminal, LMT, and Network iManager.
Auxiliary EquipmentThe BTS3012 can be configured with the auxiliary equipment such as 3.1 Sidepower, 3.2EMU, and various sensors. The auxiliary equipment converts the power supply, monitors theenvironment of the equipment room and the BTS, and reports environment alarms.
1 Components of the BTS3012 SystemBTS3012
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2 BTS3012 Cabinet
About This Chapter
The BTS3012 cabinet consists of the common subrack, DAFU subrack, DTRU subrack, fansubrack, and transmission subrack. The BTS3012 cabinet is designed in compliance with theIEC60297 standard. It has a modular structure. The cabinet is used to process the signals withinthe BTS.
2.1 Appearance of the BTS3012 CabinetThis describes the BTS3012 cabinet, which is designed in compliance with the IEC60297standard. The BTS3012 cabinet is blue gray in color and vertical in appearance.
2.2 Physical Structure of the BTS3012This describes the physical structure of the BTS3012. The BTS3012 consists of the BTS3012cabinet, antenna subsystem, and operation and maintenance (OM) equipment.
2.3 Cable Distribution of the BTS3012This describes the cable distribution of the BTS3012. It consists of the cable distribution at thefront of the cabinet and that on the top of the cabinet.
2.4 Engineering Specifications of the BTS3012This describes the BTS3012 engineering specifications, which include dimensions, weight,power supply, and power consumption.
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2.1 Appearance of the BTS3012 CabinetThis describes the BTS3012 cabinet, which is designed in compliance with the IEC60297standard. The BTS3012 cabinet is blue gray in color and vertical in appearance.
Figure 2-1 shows the BTS3012 cabinet.
Figure 2-1 BTS3012 cabinet
2 BTS3012 CabinetBTS3012
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2.2 Physical Structure of the BTS3012This describes the physical structure of the BTS3012. The BTS3012 consists of the BTS3012cabinet, antenna subsystem, and operation and maintenance (OM) equipment.
Physical Structure of the BTS3012 CabinetThe BTS3012 cabinet has the following components: DAFU subrack, DTRU subrack, fansubrack, common subrack, transmission subrack, and power distribution unit.
Figure 2-2 shows a fully configured BTS3012 cabinet in S6/6/6 configuration.
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Figure 2-2 Fully configured BTS3012 cabinet
Air Inlet
Wiring
DTRU
DTRU
DTRU
DTRU
DTRU
Wiring
FAN
Transmission Unit
DTMU
DCSU
Power
9U
2U
9U
2U
1U
9U
2U
6
5
4
3
1
7
Busbar
DAFU
DAFU
DAFU
DAFU
DAFU
DAFU
Wiring
Air Inlet
DTRU
DTRU
DTRU
DTRU
Wiring
2
DCCU
DATU
(1) Transmission subrack (2) Common subrack (3) DTRU subrack 0
(4) Fan subrack (5) DTRU subrack 1 (6) DAFU subrack
(7) Power distribution unit
l DAFU subrack
The DAFU subrack can be configured with the 4.7 DDPU, 4.5 DCOM, 4.10 DFCU, or4.9 DFCB.For details on the DAFU subrack, refer to BTS3012 RF Front-End Subsystem.
l DTRU subrackThe DTRU subracks can hold up to nine 4.13 DTRUs.
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For details on the DTRU subrack, refer to BTS3012 Double-Transceiver Subsystem.l Fan subrack
The fan subrack is configured with one fan box that holds four fans and one fan monitoringboard.For details on the fan subrack, refer to 4.14.1 Functions of the Fan Box.
l Common subrackThe common subrack is installed below the fan subrack. It holds the following parts:– 4.11 DTMU– 4.8 DEMU– 4.2 DATU– 4.6 DCSU– 4.3 DCCUFor details on the common subrack, refer to BTS3012 Common Subsystem.
l Power distribution unitThe power distribution unit consists of the DC lightning arrester, PGND bar, busbarterminal socket on top of the cabinet, and the busbar at the right of the cabinet.For details on the power distribution unit, refer to BTS3012 Power Subsystem.
l Transmission subrackThe transmission subrack is located below the common subrack. The transmission subrackreserves space for installing the baseband unit (BBU). The SDH and microwavetransmission equipment can be installed in the transmission subrack.
Physical Structure of the Antenna SubsystemFor details on the antenna subsystem, refer to Antenna Subsystem of the BTS.
Physical Structure of the OM EquipmentFor details on the OM equipment, refer to OM System of the BTS.
2.3 Cable Distribution of the BTS3012This describes the cable distribution of the BTS3012. It consists of the cable distribution at thefront of the cabinet and that on the top of the cabinet.
Front Cable ConnectionsFigure 2-3 shows the cable distribution at the front of the cabinet. The red dashed lines indicatethe power cables and the blue ones indicate the signal cables.
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Figure 2-3 Cable distribution at the front of the cabinet
Signal cable Power cable
DCOM DDPU DDPU DDPUDCOM DCOM
DTRU
DTRU DTRU DTRU
DTRU DTRU DTRU DTRUDTRU
17
14 13 12
3
5
20
18.1 18.2 19.218.3
16.1 16.2 16.3
16
6
6
7
7
8
8
9
9
10
10
11
4
1213
14
5
4
11
19.319.1
3
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Internal Cable Distribution at the Top of the CabinetFigure 2-4 shows the internal cable distribution on the top of the cabinet.
Figure 2-4 Internal cable distribution on the top of the cabinet
DC powerdistributionequipment
DC lightningprotection board
Power input wiring terminal block
Protection grounding bar
-48V
GND
0
3
1
2
To protectiongrounding barin equipment room
Cable Distribution of the CabinetTable 2-1 describes the cable distribution of the cabinet.
Table 2-1 Cable distribution of the cabinet
CableNumber
Cable Type Quantity
0 External input power cables 1 pair
1 Power cables between the wiringcopper bar on top of the cabinetand the busbar
1 pair
2 PGND cable 1
3 Lightning protection alarm signalcable
1
4 Power cable between the busbarand the FAN subrack
1
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5 Power cable between the busbarand the common subrack
1
6 to 14 Power cables between the busbarand the DTRU subrack
9
15 (15.1,15.2, 15.3),16 (16.1,16.2, 16.3)
Power cables between the busbarand the DAFU subrack
2
17 Signal cable between the DCSUand the DTRB
1
18 (18.1,18.2, 18.3),19 (19.1,19.2, 19.3)
Signal cables between the DCSUand the DAFU subrack
2
20 Signal transfer cable for the fansubrack
1
21 Environment monitoring signalcable
1
2.4 Engineering Specifications of the BTS3012This describes the BTS3012 engineering specifications, which include dimensions, weight,power supply, and power consumption.
Dimensions
Table 2-2 Dimensions (appearance)
Item Width (mm) Depth (mm) Height (mm)
Cabinet 600 450 1600
Cabinet + power distributionunit
600 450 1661
Weight
Table 2-3 Cabinet weight
Configuration Type Cabinet Weight (kg)
Empty cabinet (including the boards in the commonsubrack)
120
Full configuration (S6/6/6) 220
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Power Supply
The power input of the BTS3012 meets the specifications of the rated power of -48 V DC, whichare defined in ETS 300 132-2. The specifications are listed in Table 2-4.
Table 2-4 Specifications of the power input
Power Type Rated Value Permissible Range
-48 V DC -48 V DC -40 V DC to -60 V DC
NOTE
The BTS3012 cabinet supports power inputs such as 110 V AC, 220 V AC, or +24 V DC, using the externalpower.
Power ConsumptionTable 2-5 lists the power consumption values of the BTS3012 when the DTRUs are used.
Table 2-5 Power consumption
Parameter
Configuration Type PowerConsumption(Unit: W)
Typicalvalue(whenthetrafficvolumeis 30%)
900 MHz/850 MHz 40 W TRX, full configuration(S6/6/6)
1350
900 MHz/850 MHz 60 W TRX, full configuration(S6/6/6)
1650
1800 MHz/1900 MHz 40 W TRX, full configuration(S6/6/6)
1500
1800 MHz/1900 MHz 60 W TRX, full configuration(S6/6/6)
1650
Maximum Value
900 MHz/850 MHz 40 W TRX, full configuration(S6/6/6)
2700
900 MHz/850 MHz 60 W TRX, full configuration(S6/6/6)
3350
1800 MHz/1900 MHz 40 W TRX, full configuration(S6/6/6)
3250
1800 MHz/1900 MHz 60 W TRX, full configuration(S6/6/6)
3800
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3 BTS3012 Auxiliary Equipment
About This Chapter
The BTS3012 auxiliary equipment includes the Sidepower, EMU, and sensors.
3.1 SidepowerThis describes the Sidepower. It is an auxiliary equipment to supply power to the BTS. TheSidepower converts the ±24 V DC to –48 V DC for the BTS.
3.2 EMUThis describes the functions of the EMU. It monitors the surrounding environment of theequipment room and reports the results to the main control board of the BTS.
3.3 BTS3012 SensorsSensors are used to detect the environment variables of the BTS and report various environmentalarms. The sensors are classified into the door status sensor, water sensor, smoke sensor,infrared sensor, and temperature and humidity sensor.
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3.1 SidepowerThis describes the Sidepower. It is an auxiliary equipment to supply power to the BTS. TheSidepower converts the ±24 V DC to –48 V DC for the BTS.
Appearance
Figure 3-1 shows the Sidepower.
Figure 3-1 Sidepower
Close the front door Open the front door
Input Ports
The input ports of the Sidepower are located on top of the cabinet. Figure 3-2 shows the positiveinput copper bar.
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Figure 3-2 Positive input copper bar of the Sidepower
2
1
(1) Front door of the Sidepower (2) Positive input copper bar
Figure 3-3 shows the negative input copper bar on the Sidepower.
Figure 3-3 Negative input copper bar of the Sidepower
1
2
(1) Front door of the Sidepower (2) Negative input copper bar
Table 3-1 describes the input ports on the Sidepower.
Table 3-1 Input ports on the Sidepower
Port Terminal Specifications Connecting to...
Positive input copper bar Four M8 bolts Positive pole of the powersupply
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Port Terminal Specifications Connecting to...
Negative input copper bar Four M8 bolts Negative pole of the powersupply
Output Ports
Figure 3-4 shows the output ports on the Sidepower.
Figure 3-4 Output ports on the Sidepower
输出电压OUTPUT VOLTAGE
Load1 Load2
RTN
AUX1’2 AUX3’4
输出电流OUTPUT CURRENT
防雷装置SPD BOX
指示灯灭有故障防雷指示
There is a faultWhen any LED is off
LightningProtection Indicator
SPD11D
1
2
(1) Positive output copper bar (2) Negative output air breaker
Table 3-2 describes the output ports on the Sidepower.
Table 3-2 Output ports on the Sidepower
Port Capacity Terminal Type Connecting to...
Positive outputcopper bar
- Two M8 bolts andfour M5 screws
Positive pole of thepower supply for thepower system load
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Port Capacity Terminal Type Connecting to...
Negative output airbreaker
100 A One M8 bolt Negative pole of thepower supply for thepower system load100 A One M8 bolt
32 A Two M5 screws
32 A Two M5 screws
3.2 EMUThis describes the functions of the EMU. It monitors the surrounding environment of theequipment room and reports the results to the main control board of the BTS.
The EMU is connected to the main equipment through the alarm cable. It performs the followingfunctions:
l Provides access for 24 dry contact alarm inputs.
l Provides the input port for one power input. The power supply input port applies to the –48 V power system, whose voltage ranges from –36 V to –72 V.
l Provides an RS-485 port to communicate with the DTMU.
l Provides reverse connection protection for power cable connectors.
For details on the functions and installations of the EMU, refer to EMU User Guide.
3.3 BTS3012 SensorsSensors are used to detect the environment variables of the BTS and report various environmentalarms. The sensors are classified into the door status sensor, water sensor, smoke sensor,infrared sensor, and temperature and humidity sensor.
Door Status SensorThe door status sensor is placed at the intersection of the door frame and door. It detects theopening and closing of the door. Figure 3-5 shows its wiring terminals.
Figure 3-5 Wiring terminals of the door status sensor
Door sensor Wiring terminals ofdoor sensor
S-
S+ Gate
GRND
DB44.11
DB44.26
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Water SensorThe water sensor is horizontally placed at the areas of the equipment room which are subject towater entry. It detects whether there is water entry into the BTS. Figure 3-6 shows its wiringterminals.
Figure 3-6 Wiring terminals of the water sensor
Red
white GRND
+12VA1
Green WaterWatersensor
DB44.30
DB44.15
DB44.35
Wiringterminals
of water sensor
Smoke SensorThe smoke sensor is placed at the center of the ceiling. It detects whether the BTS or theequipment room is on fire. Figure 3-7 shows its wiring terminals.
Figure 3-7 Wiring terminals of the smoke sensor
Smokesensor
Wiringterminals
of smoke sensorPOWER-
POWER+ Smoke 24V
Smoke
DB44.13
DB44.12
Infrared SensorThe infrared sensor is mounted on the wall, 1.5 m above the floor. It detects unauthorized entryinto the BTS or equipment room. Figure 3-8 shows its wiring terminals.
Figure 3-8 Wiring terminals of the infrared sensor
Wiringterminals
of infrared sensorOPTI
R+
POWER+
POWER- GRND
R-Infraredsensor
DB44.43
DB44.34
DB44.34
+12VA1
Shortcircuit
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Temperature and Humidity SensorThe temperature and humidity sensor is mounted on the wall, 1.5 m above the floor. It detectswhether the temperature or humidity exceeds the threshold. Figure 3-9 shows its wiringterminals.
Figure 3-9 Wiring terminals of the temperature and humidity sensor
Wiring terminals oftemperature andhumidity sensor
T+
HUMI
RH+
RH-
T- TEMP
DB44.8
Temperatureand
humidity sensor
+12VA1
+12VA1
DB44.7
DB44.13
DB44.9
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4 BTS3012 Boards and Modules
About This Chapter
The BTS3012 boards include the DTMU, DEMU, DATU, DCSU, DCCU, ECMB, and DTRB.The modules include the DTRU, DCOM, DDPU, DFCU, DFCB, and fan box.
4.1 List of the BTS3012 Boards and ModulesThis provides the list of the BTS3012 boards and modules. The boards are the DTMU, DATU,DCSU, DCCU, ECMB, DEMU, and DTRB. The BTS3012 modules include DTRU, DCOM,DDPU, DFCU, DFCB, and fan box.
4.2 DATUThe Antenna and TMA Control Unit for DTRU BTS (DATU) can be installed in slot 2, 3, or 4(from left to right) of the DCMB in the common subrack. The DATU is an optional board. Amaximum of two DATUs can be configured.
4.3 DCCUThe Cable Connection Unit for DTRU BTS (DCCU) is placed in slot 6 (from left to right) ofthe DCMB in the common subrack. The DCCU is a mandatory board. Only one DCCU can beconfigured.
4.4 ECMBThe Enhanced Module Backplane for DTRU BTS (ECMB) is the backplane for the commonsubrack and DTRU subrack 0. The ECMB is a mandatory board. There are 10 slots on the ECMB.
4.5 DCOMThe Combining Unit for DTRU BTS (DCOM) is placed in the DAFU subrack. It can be insertedin the DAFU subrack with the DDPU. The DCOM is optional and up to three DCOMs can beconfigured. The precondition for configuring the DCOM is that the wideband combinationfunction in the DTRU must be used when there is an additional requirements for the combinationof signals.
4.6 DCSUThe Combined cabinet Signal connection Unit for DTRU BTS (DCSU) is placed in slot 5 of thecommon subrack. The DCSU is a mandatory board. Only one DCSU can be configured.
4.7 DDPUThe Dual-Duplexer Unit for DTRU BTS (DDPU) is configured in the DAFU subrack with theDCOM. The DDPU is an optional module. You can choose to configure DDPU or DFCU.
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Generally, three DDPUs are configured. If the DCOM is not configured, a maximum of sixDDPUs can be configured.
4.8 DEMUThe Environment Monitoring Unit for DTRU BTS (DEMU) can be installed in slot 2, 3, or 4(from left to right) of the DCMB in the common subrack. The DEMU is an optional board. Onlyone DEMU can be configured.
4.9 DFCBThe Filter Combiner Unit for DTRU BTS (DFCU) is located in the RF front-end subrack of theBTS. There are two types of DFCB in terms of frequency band: DFCB (900 MHz) and DFCB(1800 MHz). The DFCB is an optional module. The BTS3012 can be configured with the DDPUor the combination of DFCU and DFCB.
4.10 DFCUThe Filter Combiner Unit for DTRU BTS (DFCU) is located in the RF front-end subrack of theBTS. There are two types of DFCU in terms of frequency band: DFCU (900 MHz) and DFCU(1800 MHz). The DFCU is optional. The BTS3012 can be configured with the DDPU or theDFCU.
4.11 DTMUThe Transmission/Timing/Management Unit for DTRU BTS (DTMU) is an entity for basictransmission and control in the BTS3012. It works as a main controller. The DTMU is amandatory module inserted in slots 0 (from left to right) of the DCMB in the common subrack.
4.12 DTRBThe Double-Transceiver Unit Backplane (DTRB) is placed in the DTRU subrack. The DTRBprovides six slots to house the DTRUs.
4.13 DTRUThe Double-Transceiver Unit (DTRU) is placed in the double-transceiver subsystem of the BTS.One DTRU consists of two TRXs.
4.14 Fan BoxThe fan box forms a loop with the air inlet box to provide forced ventilation and dissipation forthe common subrack, DTRU subrack, and DAFU subrack.
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4.1 List of the BTS3012 Boards and ModulesThis provides the list of the BTS3012 boards and modules. The boards are the DTMU, DATU,DCSU, DCCU, ECMB, DEMU, and DTRB. The BTS3012 modules include DTRU, DCOM,DDPU, DFCU, DFCB, and fan box.
Table 4-1 lists the boards and modules of the BTS3012.
Table 4-1 List of boards and modules
Subrack BoardorModule
ChineseName
Full Spelling Number ofBoards orModulesConfigured ina SingleCabinet
FullConfiguration
MinimumConfiguration
Commonsubrack
DTMU Timing/transmissionandmanagementunit
Transmission/Timing/Management Unit for DTRUBTS
1 1
DATU Antenna andTMA controlunit
Antenna and TMA ControlUnit for DTRU BTS
2 0
DCSU Signal transferunit forcombinedcabinets
Combined cabinet Signalconnection Unit for DTRUBTS
1 1
DCCU Signal transferunit
Cable Connection Unit forDTRU BTS
1 1
DEMU Environmentmonitoringunit
Environment Monitoring Unitfor DTRU BTS
1 0
ECMB Commonsubrack andbackplane 0 indouble-transceiverTRX subrack
Enhanced Common ModuleBackplane for DTRU BTS
1 1
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Subrack BoardorModule
ChineseName
Full Spelling Number ofBoards orModulesConfigured ina SingleCabinet
FullConfiguration
MinimumConfiguration
DTRUsubrack
DTRU Double-transceiver unit
Double-Transceiver Unit 9 1
DTRB Backplane 1 inthe double-transceiverTRX subrack
Double-Transceiver UnitBackplane
1 1
DAFUsubrack
DCOM Combiningunit
Combining Unit for DTRUBTS
3 0
DDPU Dual-Duplexer Dual-Duplexer Unit forDTRU BTS
6 0
DFCU Cavity filtercombiner
Filter Combiner Unit forDTRU BTS
3 0
DFCB Cavity filtercombiner
Filter Combiner Unit forDTRU BTS
1 0
NFANsubrack
FanBox
Fan Box Fan Module 1 1
4.2 DATUThe Antenna and TMA Control Unit for DTRU BTS (DATU) can be installed in slot 2, 3, or 4(from left to right) of the DCMB in the common subrack. The DATU is an optional board. Amaximum of two DATUs can be configured.
4.2.1 Functions of the DATUThis describes the functions of the DATU.
4.2.2 Working Environment of the DATUThis describes the working environment of the DATU.
4.2.3 LEDs and Ports on the DATUThis describes the LEDs and ports on the DATU panel. The three LEDS on the DATU panelindicate the operating status of the DATU. Of the six ports on the DATU panel, three portsprovide power for the TMA, while the other three ports provide power for the TMA and transmitcontrol signals for the RET antenna.
4.2.4 DIP Switches on the DATU
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This describes the DIP switches on the DATU. There are three DIP switches on the DATU:SW1, SW2, and SW3. SW1 enables the loading of single-chip microcomputers in case ofdebugging. SW2 to SW3 enable the power supply to the antenna through the feeder.
4.2.5 Specifications of the DATUThis describes the dimensions, working voltage, power consumption, and weight of the DATU.
4.2.1 Functions of the DATUThis describes the functions of the DATU.
The DATU performs the following functions:
l Controls the RET antenna
l Feeds power to the TMA
l Reports the RET control alarm signals
l Monitors the current from the feeder
4.2.2 Working Environment of the DATUThis describes the working environment of the DATU.
Figure 4-1 shows the working environment of the DATU.
Figure 4-1 Working environment of the DATU
The DATU receives and processes the signals from the DTMU, and then generates the RETcontrol signals. The DATU also supplies power for the TMA through the Bias-Tee. The DATUcommunicates with the DTMU through the CBUS3.
4.2.3 LEDs and Ports on the DATUThis describes the LEDs and ports on the DATU panel. The three LEDS on the DATU panelindicate the operating status of the DATU. Of the six ports on the DATU panel, three portsprovide power for the TMA, while the other three ports provide power for the TMA and transmitcontrol signals for the RET antenna.
Figure 4-2 shows the DATU panel.
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Figure 4-2 DATU panel
DATURUN
AC T
ALM
ANT0
ANT1
ANT2
ANT3
ANT4
ANT5
Table 4-2 lists the LEDs on the DATU panel.
Table 4-2 LEDs on the DATU panel
LED Color Description
Status Meaning
RUN Green Operatingindicatorof theboard
Blinking onceevery fourseconds
There is power supply but thecommunication with the DTMU isabnormal.
Blinking onceevery twoseconds
The board is running normally andthe communication with theDTMU is normal.
Off There is no power supply or theboard is faulty.
ACT Green Servicerunningindicator
On The AISG link is normal.
Off The AISG link is abnormal.
Fast flash atunfixed intervals
There is transmission on the AISGlink.
ALM Red Indicateswhetherthere arealarms
On An alarm is generated, such as anovercurrent alarm.
Off The board operates normally.
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Table 4-3 lists the ports on the DATU panel.
Table 4-3 Ports on the DATU panel
Port Type Cable Function
ANT0 SMA femaleconnector
Control signal cable of theRET antenna
Providing power for theRET antenna andtransmitting control signalsfor the RET antenna
ANT1 SMA femaleconnector
Control signal cable of theRET antenna
Providing power for theantenna
ANT2 SMA femaleconnector
Control signal cable of theRET antenna
Providing power for theRET antenna andtransmitting control signalsfor the RET antenna
ANT3 SMA femaleconnector
Control signal cable of theRET antenna
Providing power for theantenna
ANT4 SMA femaleconnector
Control signal cable of theRET antenna
Providing power for theRET antenna andtransmitting control signalsfor the RET antenna
ANT5 SMA femaleconnector
Control signal cable of theRET antenna
Providing power for theantenna
4.2.4 DIP Switches on the DATUThis describes the DIP switches on the DATU. There are three DIP switches on the DATU:SW1, SW2, and SW3. SW1 enables the loading of single-chip microcomputers in case ofdebugging. SW2 to SW3 enable the power supply to the antenna through the feeder.
Figure 4-3 shows the layout of the DIP switches on the DATU and their factory settings.
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Figure 4-3 Layout of the DIP switches on the DATU
ONOFF
SW141
4 1
SW3
4 1
SW2
OFFON
OFFON
Table 4-4 describes the settings of the DIP switches on the DATU.
Table 4-4 Setting of DIP switches on the DATU
DIP Switch DIP Bit ON/OFF Description
SW1 1 ON Enables the single-chip microcomputerloading in case of debugging
OFF Indicates the setting in normal workingmode
2 ON Enables the single-chip microcomputerloading in case of debugging
OFF Indicates the setting in normal workingmode
3 ON Indicates the setting in normal workingmode
OFF Enables the single-chip microcomputerloading in case of debugging
4 ON Indicates the setting in normal workingmode
OFF Enables the single-chip microcomputerloading in case of debugging
SW2 1 ON No.1 feed test output: ON
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DIP Switch DIP Bit ON/OFF Description
OFF No.1 feed test output: OFF
2 ON No.2 feed test output: ON
OFF No.2 feed test output: OFF
3 ON No.3 feed test output: ON
OFF No.3 feed test output: OFF
4 ON No.4 feed test output: ON
OFF No.4 feed test output: OFF
SW3 1 ON No.5 feed test output: ON
OFF No.5 feed test output: OFF
2 ON No.6 feed test output: ON
OFF No.6 feed test output: OFF
3 - Reserved
4 - Reserved
NOTE
The DIP switches on the DATU are set before delivery. There is no need to set them on site.
4.2.5 Specifications of the DATUThis describes the dimensions, working voltage, power consumption, and weight of the DATU.
Table 4-5 describes the specifications for the DATU.
Table 4-5 Specifications for the DATU
Item Specifications
Size Size of the PCB (length x width x height): 280.0 mm x 233.4 mmx 2.0 mm
Size of the front panel (length x width): 261.0 mm x 30.5 mm
Working voltage –48 V power input
Power consumption(heat consumption)
Maximum power consumption: 72 W
Weight 0.6 kg
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4.3 DCCUThe Cable Connection Unit for DTRU BTS (DCCU) is placed in slot 6 (from left to right) ofthe DCMB in the common subrack. The DCCU is a mandatory board. Only one DCCU can beconfigured.
4.3.1 Functions of the DCCUThis describes the functions of the DCCU.4.3.2 Working Principles of the DCCUThis describes the working principles of the DCCU, which consists of the signal transfer unitand the EMI filtering unit.4.3.3 Ports on the DCCUThis describes the ports on the DCCU. There are five ports on the DCCU: TRAN, CKB, COM ,S+, S-, and POWER.4.3.4 Specifications of the DCCUThis describes the dimensions and weight of the DCCU.
4.3.1 Functions of the DCCUThis describes the functions of the DCCU.
The DCCU performs the following functions:
l Transfers E1 signalsl Transmits the signals between cabinet groupsl Provides input ports for external environment alarms and dry contact alarmsl Processes the power inputs through the EMI filter, and then transmits the power to the
common subrack
4.3.2 Working Principles of the DCCUThis describes the working principles of the DCCU, which consists of the signal transfer unitand the EMI filtering unit.
Figure 4-4 shows the working principles of the DCCU.
Figure 4-4 Functional structure of the DCCU
Signal transfer
DCCU
EMI filtering
DCMB
-48V
E1 signals
Signals from cabinet groups
Dry contact alarm signals
External environment alarm signals
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Signal Transfer UnitThe signal transfer unit provides four connectors to forward the received E1 trunk signals, signalsbetween cabinet groups, external environment alarm signals, and dry contact alarm signals tothe DCMB.
EMI Filtering UnitThe EMI filter processes the -48 V input power, and then transmits the power to the DCMB forthe use of other boards in the common subrack.
4.3.3 Ports on the DCCUThis describes the ports on the DCCU. There are five ports on the DCCU: TRAN, CKB, COM ,S+, S-, and POWER.
Figure 4-5 shows the DCCU panel.
Figure 4-5 DCCU panel
CK
BTR
AN
CO
MP
OW
ER
S1+
S1-
DCCU
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Table 4-6 lists the ports on the DCCU panel.
Table 4-6 Ports on the DCCU panel
Port Type Cable Description
TRAN DB26 femaleconnector
BTS3012 E1 Cable Importing E1 signals
CKB MD64 femaleconnector
Signal cable for cabinetgroups
Transmitting signalsbetween cabinet groups
COM DB9 elbow femaleconnector
Alarm signal cablebetween the Sidepowerand the BTS3012 orsignal cable for theexternal environmentalarm box of the BTS
Transmitting externalenvironment alarms
S+ and S- 2-pin terminal Lightning protectionfailure alarm cable
Transmitting dry contactalarms
POWER 3V3 powerconnector
Power Cable from theBTS3012 Busbar to theCommon Subrack
Importing power to thecommon subrack
4.3.4 Specifications of the DCCUThis describes the dimensions and weight of the DCCU.
Table 4-7 describes the specifications for the DCCU.
Table 4-7 Specifications for the DCCU
Item Specifications
Dimensions Size of the PCB (length x width x height): 280.0 mm x 233.4 mm x2.0 mm
Front panel: 261.0 mm (L) x 30.4 mm (W)
Weight 0.7 kg
4.4 ECMBThe Enhanced Module Backplane for DTRU BTS (ECMB) is the backplane for the commonsubrack and DTRU subrack 0. The ECMB is a mandatory board. There are 10 slots on the ECMB.
4.4.1 Functions of the ECMBThis describes the functions of the ECMB. The ECMB provides power and signal circuits forthe boards in the common subrack and DTRU subrack 0.
4.4.2 Specifications of the ECMBThis describes the dimensions of the ECMB.
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4.4.1 Functions of the ECMBThis describes the functions of the ECMB. The ECMB provides power and signal circuits forthe boards in the common subrack and DTRU subrack 0.
The ECMB performs the following functions:
l Provides signal circuits for connecting the boards in the common subrack
l Provides -48 V power circuits for the boards in the common subrack
l Provides bus connection between the common subsystem and the double-transceiversubsystem
l Specifies the slot number and rack number of the DTRUs in DTRU subrack 0
4.4.2 Specifications of the ECMBThis describes the dimensions of the ECMB.
Table 4-8 describes the specifications for the ECMB.
Table 4-8 Specifications for the ECMB
Item Specifications
Size Size of the PCB (length x width x height): 422 mm x 259.3 mm x 3.0mm
Dimension of the front panel (length x width): The ECMB is abackplane and has no front panel.
4.5 DCOMThe Combining Unit for DTRU BTS (DCOM) is placed in the DAFU subrack. It can be insertedin the DAFU subrack with the DDPU. The DCOM is optional and up to three DCOMs can beconfigured. The precondition for configuring the DCOM is that the wideband combinationfunction in the DTRU must be used when there is an additional requirements for the combinationof signals.
4.5.1 Functions of the DCOMThis describes the functions of the DCOM. The DCOM combines two routes of TX signals fromthe DTRU, and then sends them to the DDPU.
4.5.2 Working Environment of the DCOMThis describes the working environment of the DCOM. The DCOM receives two routes of DLsignals from the DTRU and combines them into one route. Then, the DCOM transmits thecombined signals to the DDPU, which sends the signals to the antenna for transmission.
4.5.3 Working Principles of the DCOMThis describes working principles of the DCOM. The DCOM consists of a 3 dB electrical bridgeand a high-power load.
4.5.4 Ports on the DCOMThis describes the ports on the DCOM panel. There are four ports on the DCOM: ONSHELL,TX-COM, TX1, and TX2.
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4.5.5 Specifications of the DCOMThis describes the dimensions and weight of the DCOM.
4.5.1 Functions of the DCOMThis describes the functions of the DCOM. The DCOM combines two routes of TX signals fromthe DTRU, and then sends them to the DDPU.
4.5.2 Working Environment of the DCOMThis describes the working environment of the DCOM. The DCOM receives two routes of DLsignals from the DTRU and combines them into one route. Then, the DCOM transmits thecombined signals to the DDPU, which sends the signals to the antenna for transmission.
Figure 4-6 shows the working environment of the DCOM.
Figure 4-6 Working environment of the DCOM
DTRUCBUSDBUS
DTRU
TMA TMA MS
TBUSDCOM DDPU
DAFU
FH_BUS
DBUS/TBUS/CBUS
4.5.3 Working Principles of the DCOMThis describes working principles of the DCOM. The DCOM consists of a 3 dB electrical bridgeand a high-power load.
Figure 4-7 shows the working principles of the DCOM.
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Figure 4-7 Functional structure of the DCOM
3-dB electrical bridge
TX1
TX2
TX1+TX2
Load of high power
3 dB Electrical BridgeIt combines two routes of RF TX signals into one route.
High-Power LoadIt matches the 3 dB electrical bridge.
4.5.4 Ports on the DCOMThis describes the ports on the DCOM panel. There are four ports on the DCOM: ONSHELL,TX-COM, TX1, and TX2.
Figure 4-8 shows the DCOM panel.
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Figure 4-8 DCOM panel
DCOM
TX-COM
TX2
TX1
ONSHELL
Table 4-9 lists the ports on the DCOM panel.
Table 4-9 Ports on the DCOM panel
Port Type Cable Description
ONSHELL
DB26 femaleconnector
Signal CableBetween the DCSUand the DAFUSubrack of theBTS3012
This port transmitssynchronization clock signals,CBUS3 signals, and moduleidentification signals.
TX-COM
N female connector RF signal cable It is the output port for the signalscombined from the TX1 and TX2ports of the DCOM.
TX1 N female connector RF signal cable It is the input port for thecombined signals from the DTRUto the DCOM.TX2 N female connector RF signal cable
4.5.5 Specifications of the DCOMThis describes the dimensions and weight of the DCOM.
Table 4-10 describes the specifications for the DCOM.
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Table 4-10 Specifications for the DCOM
Item Specifications
Size Size of the front panel (length x width): 383.6 mm x 70.6 mm
Weight 3.2 kg
4.6 DCSUThe Combined cabinet Signal connection Unit for DTRU BTS (DCSU) is placed in slot 5 of thecommon subrack. The DCSU is a mandatory board. Only one DCSU can be configured.
4.6.1 Functions of the DCSUThis describes the functions of the DCSU.
4.6.2 Ports on the DCSUThis describes the ports on the DCSU. There are five ports on the DCSU: To_DTRB, DAFU 01 2, DAFU 3 4 5, TO_FAN, and SYNC.
4.6.3 DIP Switches on the DCSUThis describes the 19 DIP switches on the DCSU.
4.6.4 Specifications of the DCSUThis describes the dimensions and weight of the DCSU.
4.6.1 Functions of the DCSUThis describes the functions of the DCSU.
The DCSU performs the following functions:l Transfers the data, control signals, and clock signals for the DTRU
l Transfers the control signals for the fans
l Transfers the control signals and clock signals from the DAFU subrack
l Transfers the external synchronization clock signals
4.6.2 Ports on the DCSUThis describes the ports on the DCSU. There are five ports on the DCSU: To_DTRB, DAFU 01 2, DAFU 3 4 5, TO_FAN, and SYNC.
Figure 4-9 shows the DCSU panel.
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Figure 4-9 DCSU panel
DA
FU3
4 5
DA
FU0
1 2
TO_D
TRB
TO_ F
AN
SY
NC
DCSU
Table 4-11 lists the ports on the DCSU panel.
Table 4-11 Ports on the DCSU panel
Silk-Screen Type Description
DAFU 0 1 2 MD64femaleconnector
Transfers the control signals and clock signals from slot 0, slot1, and slot 2 of the DAFU subrack
DAFU 3 4 5 MD64femaleconnector
Transfers the control signals and clock signals from slot 3, slot4, and slot 5 of the DAFU subrack
TO_DTRB MD64femaleconnector
Connected to the DTRB through a cable and transmits controlsignals for the DTRU
TO_FAN DB9 femaleconnector
Connected to the fan subrack and transmit control signals forthe fans
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Silk-Screen Type Description
SYNC SMAconnector
Input port for external synchronization clock signals
4.6.3 DIP Switches on the DCSUThis describes the 19 DIP switches on the DCSU.
Set the DIP switches on the DCSU as follows: If two filler panels are installed on the left sideof the DCSU, remove the filler panels and then set the DIP switches accordingly.
NOTE
Do not unplug the DCSU to set the DIP switches.
Figure 4-10 shows the layout of the DIP switches on the DCSU and their factory settings.
Figure 4-10 Layout of the DIP switches on the DCSU
SW71 4
SW9 SW10ONOFF
1 4 1 4
ONOFF
SW19ONOFF
1 4
SW15ONOFF
1 4
SW61 4
SW121 4
SW131 4
SW141 4
SW8ONOFF
1 4
SW5ONOFF
1 4
SW4ONOFF
1 4
SW3ONOFF
1 4
SW2ONOFF
1 4
SW11ONOFF
1 4
SW1ONOFF
1 4
1 4
SW18ONOFF
SW17ONOFF
1 4
SW16ONOFF
1 4
SW1 indicates whether the cabinet group is a main cabinet group. Table 4-12 describes thesettings of W11.
W11 is used to set whether to select the terminal match. Table 4-13 describes the settings ofW11.
SW2 to SW5 are set to ON by default.
SW6 is used to set the impedance of four E1 cables. Table 4-14 describes the settings of SW6.SW7 is reserved.
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Table 4-15 describes the settings of SW8.
SW9 and SW10 are used to set the cabinet type. Table 4-16 describes the settings of SW9 andSW10.
SW15 to SW18 are used to set whether the cabinet type is single cabinet. Table 4-17 describesthe settings of SW15 to SW18.
Table 4-18 describes the settings of SW19.
Table 4-12 Settings of SW1
SW1 Description
All ON The cabinet is a main cabinet group.
All OFF Not specified
Table 4-13 Settings of SW11
SW11 Description
All ON CBUS1 terminal match
All OFF CBUS1 no terminal match
Table 4-14 Settings of SW6 and SW7
DIPSwitch
DIPBit
ON/OFF Description
SW6 1 ON Impedance for the first E1 cable: 75 ohms
OFF Impedance for the first E1 cable: 120 ohms
2 ON Impedance for the second E1 cable: 75ohms
OFF Impedance for the second E1 cable: 120ohms
3 ON Impedance for the third E1 cable: 75 ohms
OFF Impedance for the third E1 cable: 120 ohms
4 ON Impedance for the fourth E1 cable: 75 ohms
OFF Impedance for the fourth E1 cable: 120ohms
SW7 1 ON Reserved
OFF Reserved
2 ON Reserved
OFF Reserved
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DIPSwitch
DIPBit
ON/OFF Description
3 ON Reserved
OFF Reserved
4 ON Reserved
OFF Reserved
Table 4-15 Settings of SW8
DIP Bits of SW8 Description
1 2 3 4
ON ON ON ON The cabinet is a maincabinet group.
Notspecified
Undefined
Table 4-16 Settings of SW9 and SW10
DIP Bits of SW9 DIP Bits of SW10 Description
0 1 2 ~ 3 1 ~ 4
OFF OFF ON Undefined The cabinet type isBTS3012.
Table 4-17 Settings of SW15–SW18
DIP Bits of SW15–SW18 Description
ALL ON Single cabinet
ALL OFF Undefined
Table 4-18 Settings of SW19
DIP Bits of SW19 Description
ALL ON Fixed setting for the BTS3012
ALL OFF Undefined
4.6.4 Specifications of the DCSUThis describes the dimensions and weight of the DCSU.
Table 4-19 describes the specifications for the DCSU.
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Table 4-19 Specifications for the DCSU
Item Specifications
Size Size of the PCB (length x width x height): 280.0 mm x 233.4 mm x 2.0 mm
Size of the front panel (length x width): 261.0 mm x 25.4 mm
Weight 0.7 kg
4.7 DDPUThe Dual-Duplexer Unit for DTRU BTS (DDPU) is configured in the DAFU subrack with theDCOM. The DDPU is an optional module. You can choose to configure DDPU or DFCU.Generally, three DDPUs are configured. If the DCOM is not configured, a maximum of sixDDPUs can be configured.
4.7.1 Functions of the DDPUThis describes the functions of the DDPU.
4.7.2 Working Environment of the DDPUThis describes the working environment of the DDPU.
4.7.3 Working Principles of the DDPUThis describes the working principles of the DDPU. The DDPU consists of the DDLC, duplexer,and power coupler.
4.7.4 LEDs and Ports on the DDPUThis describes the LEDs and ports on the DDPU panel. The two LEDs on the DDPU panelindicate the operating status of the DDPU. There are 14 ports on the DDPU panel. These portsinclude antenna ports, TX ports, RX ports, communication port, and power port.
4.7.5 Specifications of the DDPUThis describes the dimensions, working voltage, power consumption, and weight of the DDPU.
4.7.1 Functions of the DDPUThis describes the functions of the DDPU.
The DDPU performs the following functions:
l Provides lightning protection through the ANT port
l Detect VSWR alarms in the antenna system
l Control the gains for the receive low noise amplifier
l Transmits multiple routes of RF signals from the transmitter to the antenna
l Receives signals from the antenna, amplifies and quarters these signals, and then transmitsthem to the receiver of the DTRU
4.7.2 Working Environment of the DDPUThis describes the working environment of the DDPU.
Figure 4-11 shows the working environment of the DDPU.
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Figure 4-11 Working environment of the DDPU
DTRU
DBUSTBUS
DDPU
CBUS3CBUS
DTRU DDPU
CBUS3
… …
TMA TMA MS
MS
TMA TMABias-Tee
Bias-Tee
Bias-Tee
Bias-Tee
DBUS/TBUS/CBUS
The working environment of the DDPU is as follows:
l The DDPU receives the UL signals from the antenna, filters and amplifies them, and thensends them to the DTRU for demodulation.
l The DDPU also receives the DL signals from the DTRU, filters them, and then sends themto the antenna for transmission.
4.7.3 Working Principles of the DDPUThis describes the working principles of the DDPU. The DDPU consists of the DDLC, duplexer,and power coupler.
Figure 4-12 shows the working principles of the DDPU.
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Figure 4-12 Working Principles of the DDPU
DDLC
DDPU
DuplexerTX1
TX/RX ANTA
RX1ARX2ARX3ARX4A
BUS
-48 V DC
DuplexerTX2
RX1BRX2BRX3BRX4B
TX/RX ANTB
Power coupler
Power coupler
DDLCThe DDLC receives signals from the antenna, amplifies and quarters these signals, and thensends them to the DTRU. It also features fault self-detection.
DuplexerThe duplexer consists of the receive filer and the transmit filter. The duplexer filters the receivedsignals and the signals to be transmitted.
Power CouplerThe power coupler extracts signals for the DDLC to perform VSWR detecting.
4.7.4 LEDs and Ports on the DDPUThis describes the LEDs and ports on the DDPU panel. The two LEDs on the DDPU panelindicate the operating status of the DDPU. There are 14 ports on the DDPU panel. These portsinclude antenna ports, TX ports, RX ports, communication port, and power port.
Figure 4-13 shows the DDPU panel.
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Figure 4-13 DDPU panel
RUNALMVSWRA
RXA1RXA2RXA3RXA4RXB1RXB2RXB3RXB4
DDPU
TXA
TXB
COM
POWER
VSWRB
ANTAANTB
Table 4-20 lists the LEDs on the DDPU panel.
Table 4-20 LEDs on the DDPU panel
LED Color Description Status Meaning
RUN Green Operating andpower-onindicator of theDDPU
On There is power supply. However,the module is faulty.
Off There is no power supply or themodule is faulty.
Blinking onceevery two seconds
The module works normally.
Fast flash (on for0.2s and off for0.2s)
The DTMU is issuingconfiguration data to the DDPUor the DDPU is loading softwareprograms.
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LED Color Description Status Meaning
ALM Red Indicateswhether thereare alarms
On (includinghigh-frequencyflash)
Alarms (including VSWRalarm). This indicates that thereare faults.
Off An alarm is not generated.
Blinking onceevery two seconds
The DDPU is starting or loadingthe latest application.
VSWRA
Red VSWR alarmindicator forchannel A
Blinking onceevery two seconds
There is a VSWR alarm withchannel A.
On There is a critical VSWR alarmwith channel A.
Off There is no VSWR alarm withchannel A.
VSWRB
Red VSWR alarmindicator forchannel B
Blinking onceevery two seconds
There is a VSWR alarm withchannel B.
On There is a critical VSWR alarmwith channel B.
Off There is no VSWR alarm withchannel B.
Table 4-21 lists the ports on the DDPU panel.
Table 4-21 Ports on the DDPU panel
Port Type Cable Function
COM DB26 femaleconnector
Signal cable betweenthe BTS3012 DCSUand the DAFU subrack
Receiving control signals,communication signals, and clocksignals from the BTS3012 DCSU
POWER
3V3 powerconnector
Power cable from theBTS3012 Busbar to theDAFU Subrack
Power input port
TXA N femaleconnector
RF TX signal cable l It is the input port for the signalsreceived from the TX1 or TX2 portfrom the DTRU.
l It is the input port for the combinedsignals from the TCOM port of theDTRU.
l It is the input port for the combinedsignals from the TX-COM port ofthe DCOM.
TXB N femaleconnector
RXA1 SMA femaleconnector
RF RX signal cable It is the output port for the main RFsignal received from the ANTA port.
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Port Type Cable Function
RXA2 It is connected to the RXM1, RXD1,RXM2, or RXD2 port on the DTRUpanel.RXA3
RXA4
RXB1 SMA femaleconnector
RF RX signal cable It is the output port for the diversityRF signal received from the ANTBport. It is connected to the RXM1,RXD1, RXM2, or RXD2 port on theDTRU panel.
RXB2
RXB3
RXB4
ANTA DIN femaleconnector
Indoor 1/2-InchJumper of the BTS3012
Antenna port for reception andtransmissionl It is the input port for the RF
signals received from the antenna.l It is the output port for the RF
signals transmitted from the TXAport of the DDPU.
l It is connected to the indoor 1/2-inch jumper of the BTS3012 or tothe Bias-Tee.
4.7.5 Specifications of the DDPUThis describes the dimensions, working voltage, power consumption, and weight of the DDPU.
Table 4-22 describes the specifications for the DDPU.
Table 4-22 Specifications for the DDPU
Item Specifications
Size Size of the front panel (length x width): 383.6 mm x 70.6mm
Working voltage –48 V power input
Power consumption (heatconsumption)
Maximum power consumption: 8 W
Weight 8.0 kg
4.8 DEMUThe Environment Monitoring Unit for DTRU BTS (DEMU) can be installed in slot 2, 3, or 4(from left to right) of the DCMB in the common subrack. The DEMU is an optional board. Onlyone DEMU can be configured.
4.8.1 Functions of the DEMU
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This describes the functions of the DEMU. The DEMU guarantees the normal operation of theBTS by monitoring and controlling the environment monitoring signals.
4.8.2 Working Environment of the DEMUThis describes the working environment of the DEMU. The DEMU is directly connected to theexternal monitoring signal cable for receiving alarm information. The DEMU sends the collectedalarm information to the DTMU through the relevant bus.
4.8.3 Working Principles of the DEMUThis provides the working principles of the DEMU. The DEMU consists of the power circuit,lightning protection circuit, MCU control circuit, and RS485 serial port circuit.
4.8.4 LEDs and Port on the DEMUThis describes the LEDs and port on the DEMU. The DEMU has three LEDs and one port. Theports are RUN, ACT, and ALM, which are used to indicate the working status of the DEMU.The IN-OUT port is used for eight Boolean or dry contact inputs and four Boolean outputs.
4.8.5 Specifications of the DEMUThis describes the dimensions, working voltage, power consumption, and weight of the DEMU.
4.8.1 Functions of the DEMUThis describes the functions of the DEMU. The DEMU guarantees the normal operation of theBTS by monitoring and controlling the environment monitoring signals.
The DEMU performs the following functions:
l Provides lightning protection of the Boolean and dry contact signals
l Collects alarm information and reports it to the DTMU
l Provides four Boolean outputs and eight Boolean or dry contact inputs
4.8.2 Working Environment of the DEMUThis describes the working environment of the DEMU. The DEMU is directly connected to theexternal monitoring signal cable for receiving alarm information. The DEMU sends the collectedalarm information to the DTMU through the relevant bus.
Figure 4-14 shows the working environment of the DEMU.
Figure 4-14 Working environment of the DEMU
Common subsystem
CBUS3Monitoring signal
Clock, data, and control bus
DEMU
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l The DEMU receives the external alarm information.
l After processing the alarm information, the DEMU sends the information to the DTMUthrough the relevant bus.
4.8.3 Working Principles of the DEMUThis provides the working principles of the DEMU. The DEMU consists of the power circuit,lightning protection circuit, MCU control circuit, and RS485 serial port circuit.
Figure 4-15 shows the working principles of the DEMU
Figure 4-15 Functional structure of the DEMU
MCU control circuit
Power circuit-48V
RS485 serial port circuitLightning
protection circuit
Dry contact input
4 dry contact outputs
Power Circuitl Supports -48 V DC input.
l Provides power conversion.
Lightning Protection CircuitProvides lightning protection of the Boolean monitoring signals.
MCU Control Circuitl Receives the monitoring configuration parameters data from the DTMU.
l Provides working clock reference for the MCU through the 24 MHz oscillator.
l Provides the automatic reset function through Watchdog.
RS485 Serial Port CircuitEnables the communication between the DEMU and the CBUS3 of the DTMU.
4.8.4 LEDs and Port on the DEMUThis describes the LEDs and port on the DEMU. The DEMU has three LEDs and one port. Theports are RUN, ACT, and ALM, which are used to indicate the working status of the DEMU.The IN-OUT port is used for eight Boolean or dry contact inputs and four Boolean outputs.
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Panel
Figure 4-16 shows the DEMU panel.
Figure 4-16 DEMU panel
DEMURUN
ALM
AC T
IN
LEDs
Table 4-23 lists the LEDs on the DEMU panel.
Table 4-23 LEDs on the DEMU panel
LED Color Description
Status Description
RUN Green Operatingindicatorof theboard
On There is power supply. The boardor software, however, is faulty.
Off There is no power supply, or theboard is faulty.
Blinking (ONfor 1s and OFFfor 1s)
The board is working undercurrent configuration.
Blinking at 4Hz (ON for0.125s andOFF for0.125s)
The board does not communicateswith the DTMU properly.
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LED Color Description
Status Description
ACT Green Indicatorof theservicerunningstatus
On There is power supply, and theboard is in working mode.
Off There is no power supply to theboard.
ALM Red Alarmindicator
Blinking (ONfor 1s and OFFfor 1s)
An alarm is generated.
Off No alarm is generated.
PortTable 4-24 describes the port on the DEMU panel.
Table 4-24 Port on the DEMU panel
Port Type Cable Remarks
IN-OUT DB44 femaleconnector
BTS3012 EnvironmentMonitoring Signal Cable
Eight Boolean or dry contactinputs and four Booleanoutputs
4.8.5 Specifications of the DEMUThis describes the dimensions, working voltage, power consumption, and weight of the DEMU.
Table 4-25 describes the specifications for the DEMU.
Table 4-25 Specifications for the DEMU
Item Specification
Dimensions Dimensions of the PCB (height x width x depth): 2.0 mm x 233.3mm x 280.0 mm
Dimensions of the front panel (length x width): 261.00 mm ×30.5mm
Working voltage -48V power input
Power consumption (heatdissipation)
Maximum power consumption: 3.6 W
Weight 0.5 kg
4.9 DFCBThe Filter Combiner Unit for DTRU BTS (DFCU) is located in the RF front-end subrack of theBTS. There are two types of DFCB in terms of frequency band: DFCB (900 MHz) and DFCB
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(1800 MHz). The DFCB is an optional module. The BTS3012 can be configured with the DDPUor the combination of DFCU and DFCB.
4.9.1 Functions of the DFCBThis describes the functions of the DFCB. The DFCB is used with the DFCU to combine fiveor six carrier signals for transmission.
4.9.2 Working Environment of the DFCBThis describes the working environment of the DFCB, which combines the DL signals from theDTRU and transmits the combined signal to the DFCU. The DFCB (900 MHz) receives the ULsignals from the antenna, divides the signals, and then sends the signals to the DTRU. The DFCB(1800 MHz) has no antenna ports and thus cannot receive the UL signals from the antenna.
4.9.3 Working Principles of the DFCBThis describes the working principles of the DFCB. The DFCB (900 MHz) is composed of thecavity combiners, duplexer, lower noise amplifier (LNA), directional coupler, and control unit.The DFCB (1800 MHz) is composed of the cavity combiners and control unit.
4.9.4 LEDs and Ports on the DFCBThis describes the LEDs and ports on the DFCB panel. The DFCB (900 MHz) provides 4 LEDsand 28 signal input/output ports. This describes the LEDs and ports on the DFCB panel. TheDFCB (1800 MHz) provides 4 LEDs and 12 signal input/output ports.
4.9.5 Specifications of the DFCBThis describes the dimensions, working voltage, power consumption, and weight of the DFCB.
4.9.1 Functions of the DFCBThis describes the functions of the DFCB. The DFCB is used with the DFCU to combine fiveor six carrier signals for transmission.
The functions performed by the DFCB are as follows:
l The DFCB tunes the one or two carrier signals from the DTRU and combines the signalsinto one before transmitting the signal to the DFCU. In the DFCU, the incoming signalfrom the DFCB is combined with other four carrier signals, and then is transmitted to theantenna after filtering and amplification.
l Detects the VSWR alarms of the antenna system and provides the function of the VSWRalarms whose thresholds are adjustable
l The DFCB (900 MHz) transmits the incoming signals from the antenna to the duplexer andLNA, divides the signals, and then transmits the signals to the DTRU. The DFCB alsocontrols the signal gain of the amplifier.
NOTEYou are not advised to use the antenna ports of the DFCB (900 MHz) except in special situations.
The following lists an example when the antenna ports of the DFCB are used.
l The configuration of six TRXs within a cell is achieved through the cascading of a DFCUand a DFCB. To expand the capacity of the cell without adding additional RF front-endmodules (for example, seven or eight TRXs), the antenna ports of the DFCB (900 MHz)can be used to transmit one or two carrier signals.
4.9.2 Working Environment of the DFCBThis describes the working environment of the DFCB, which combines the DL signals from theDTRU and transmits the combined signal to the DFCU. The DFCB (900 MHz) receives the UL
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signals from the antenna, divides the signals, and then sends the signals to the DTRU. The DFCB(1800 MHz) has no antenna ports and thus cannot receive the UL signals from the antenna.
Figure 4-17 shows the working environment of the DFCB (900 MHz).
Figure 4-17 Working environment of the DFCB (900 MHz)
DTRUDTRU DFCU TMA
DTRUDTRU DFCB TMA
l The DFCB (900 MHz) receives the DL signals from the DTRU, combines the one or two
DL signals, and then transmits the combined signals to the COM-IN port on the DFCU forthe combination output of five or six carrier signals.
l The DFCB (900 MHz) receives the UL signals from the antenna, filters, amplifies, anddivides the signals, and then transmits them to the DTRU for demodulation.
l The DFCB (900 MHz) receives the DL signals from the DTRU, filters and amplifies thesignals, and then sends the signals to the antenna for transmission.
Figure 4-18 shows the working environment of the DFCB (1800 MHz).
Figure 4-18 Working environment of the DFCB (1800 MHz)
DTRUDTRU DFCU TMA
DTRUDTRU DFCB
The DFCB (1800 MHz) receives the DL signals from the DTRU, combines the one or two DLsignals, and then transmits the combined signals to the COM-IN port on the DFCU for thecombination output of five or six carrier signals.
4.9.3 Working Principles of the DFCBThis describes the working principles of the DFCB. The DFCB (900 MHz) is composed of thecavity combiners, duplexer, lower noise amplifier (LNA), directional coupler, and control unit.The DFCB (1800 MHz) is composed of the cavity combiners and control unit.
Figure 4-19 shows the functional structure of the DFCB (900 MHz).
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Figure 4-19 Functional structure of the DFCB (900 MHz)
Jumper
COM1TX1TX2TX3
TX4
DuplexerTX/RX-ANT
TX-DUPPF-out1PF-out2
PR-out2PR-out1
PR-in1PR-in2PF-in1
PF-in2DC-IN -48V
DBUS
HL-OUT
RX2RX3
RX1
DFCB
COM2
Directionalcoupler
LNA
Control unit
Cavity combiner
Cavity combiner
Figure 4-20 shows the functional structure of the DFCB (1800 MHz).
Figure 4-20 Functional structure of the DFCB (1800 MHz)
PR-in1PR-in2PF-in1PF-in2
DC-IN -48VDBUS
DFCB
Control unit
COM1TX1TX2
TX3TX4 COM2
Cavity combiner
Cavity combiner
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Cavity CombinerThe cavity combiners tune the DL signals from the DTRU and combine the signals into twobefore sending to the extension combination port.
DuplexerThis module provides a reliable path so that the receive signals and the transmit signals can sharethe same antenna, ensuing that the transmit signals with large power does not affect weak receivesignals. The duplexer is composed of the receive filter and the transmit filter.
LNAThis module is used to amplify the receive signals from the antenna. The LNA gain is adjustablethrough the commands issued by the BTS. This module features self-detection through whichan alarm is reported when a fault occurs.
Directional CouplerThis module is used for the detection of the voltage standing wave ratio (VSWR). The VSWRdetection circuit detects the forward/reverse DL power through the standing-wave detector. Theoutput voltage from the standing-wave detector are processed and calculated. If the VSWRexceeds a defined threshold, the VSWR alarm is reported.
Control Unitl In the DFCB (900 MHz), this module is used to control the cavity combiners, detect the
VSWR alarms, set the signal gain of the LNA, detect the LNA alarm, and set up thecommunication between the DFCB and the BTS.
l In the DFCB (1800 MHz), this module is used to control the cavity combiners and set upthe communication between the DFCB and the BTS.
4.9.4 LEDs and Ports on the DFCBThis describes the LEDs and ports on the DFCB panel. The DFCB (900 MHz) provides 4 LEDsand 28 signal input/output ports. This describes the LEDs and ports on the DFCB panel. TheDFCB (1800 MHz) provides 4 LEDs and 12 signal input/output ports.
LEDs and Ports on the DFCB (900 MHz)The DFCB (900 MHz) provides four LEDs to indicate whether the module operates normally.It provides 28 ports to receive power input and transfer RF signals and monitoring signals.
Figure 4-21 shows the DFCB (900 MHz) panel.
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Figure 4-21 DFCB (900 MHz) panel
TX1
PF in1TUNINGVSWRLNARUN
PF in2
PF out1
PF out2
PR out1
PR out2
RX6
RX5
RX4
HL-IN
RXD-OUT
HL-OUTCOM2
DBUS
RX3
RX2
RX1
TX3
PR in1
DC-IN-48V PR in2
TX4
TX-DUP
EGSM900 DFCB
COM1
TX/RX-ANT
TX2
RXD-ANT
Table 4-26 lists the LEDs on the DFCB (900 MHz) panel.
Table 4-26 LEDs on the DFCB (900 MHz) panel
LED Color Description Status Meaning
RUN Green Power indicator On Power input is available.
Off No power input isavailable.
VSWR Red VSWR alarm indicatorof the TX/RX_ANTport
On Level 2 VSWR alarm isdetected.
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LED Color Description Status Meaning
Blinking onceevery two seconds
Level 1 VSWR alarm isdetected.
Off No VSWR alarm isdetected.
LNA Red LNA alarm indicator On The LNA alarm isdetected.
Off No alarm is generated.
TUNING
Red Tuning fail alarmindicator
On The tuning failure alarmis detected.
Blinking onceevery two seconds
Tuning
Off No alarm is generated.
Table 4-27 lists the ports on the DFCB (900 MHz) panel.
Table 4-27 Ports on the DFCB (900 MHz) panel
Port Type Cable Function
TX/RX-ANT
7/16 DIN femaleconnector
Indoor 1/2-Inch Jumper ofthe BTS3012
Antenna port for receptionand transmissionl It is the input port for the
RF signals received fromthe antenna.
l It is the output port for theRF signals transmittedfrom the TX-DUP port.
RXD-ANT 7/16 DIN femaleconnector
Diversity receive antennaport
DBUS DB26 femaleconnector
Signal cable between theBTS3012 DCSU and theDAFU subrack
Input/output port for DBUSsignals
DC-IN –48V
3V3 powerconnector
Power Cable from theBTS3012 Busbar to theDAFU Subrack
DC power input port
COM1 N femaleconnector
Signal cable between theDFCB and the DFCU
It is the output port for thesignals combined from theTX1 and TX2 ports.
TX-DUP N femaleconnector
Four-in-one short-circuiting signal cable
Input port for the RF signalsfrom the duplexer; It isconnected to the COM1 orCOM2 port.
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Port Type Cable Function
COM2 N femaleconnector
Signal cable between theDFCB and the DFCU
It is the output port for thesignals combined from theTX3 and TX4 ports.
TX1 N femaleconnector
RF TX signal cable Input port for the RF signals;It is connected to the TX1 orTX2 port on the DTRUpanel.
TX2
TX3
TX4
RX1 SMA femaleconnector
RF RX signal cable It is the output port for theRF signals received fromthe TX/RX-ANT port. It isconnected to the RXM1,RXD1, RXM2, or RXD2port on the DTRU panel.
RX2
RX3
RX4 SMA femaleconnector
RF RX signal cable It is the output port for theRF signal received from theHL-IN port. It is connectedto the RXM1, RXD1,RXM2, or RXD2 port on theDTRU panel.l If the HL-IN port
connects with the RXD-OUT port, it serves as theoutput port for thediversity RF signalsreceived by the RXD-ANT.
l If the HL-IN portconnects with the HL-OUT port, it serves as theoutput port for the RFsignals received by theTX/RX-ANT port.
RX5
RX6
HL-OUT SMA femaleconnector
Diversity receive short-circuiting cable
Output port for high-levelsignals; It can be connectedto the HL-IN port.
HL-IN SMA femaleconnector
Input port for the high levelsignals; It is connected to theHL-OUT or RXD-OUTport.
RXD-ANT SMA femaleconnector
Output port for the diversityreceived signals; When theRXD-ANT is used, theRXD-OUT is connected tothe HL-IN port.
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Port Type Cable Function
PR out1 SMA femaleconnector
Reverse power detectioncable
Reverse power samplingoutput port 1
PR out2 SMA femaleconnector
Reverse power detectioncable
Reverse power samplingoutput port 2
PF out1 SMA femaleconnector
Forward power detectioncable
Forward power samplingoutput port 1
PF out2 SMA femaleconnector
Forward power detectioncable
Forward power samplingoutput port 2
PR in1 SMA femaleconnector
Reverse power detectioncable
Reverse power samplinginput port 1
PR in2 SMA femaleconnector
Reverse power detectioncable
Reverse power samplinginput port 2
PF in1 SMA femaleconnector
Forward power detectioncable
Forward power samplinginput port 1
PF in2 SMA femaleconnector
Forward power detectioncable
Forward power samplinginput port 2
NOTE
If the COM2 port of the DFCB (900 MHz) is not used, keep the connection between the COM2 port andthe TX-DUP port, it is useful in the capacity expansion.
LEDs and Ports on the DFCB (1800 MHz)The DFCB (1800 MHz) provides four LEDs to indicate whether the module operates normally.It provides 12 ports to receive power input and transfer RF signals and monitoring signals.
Figure 4-22 shows the DFCB (1800 MHz) panel.
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Figure 4-22 DFCB (1800 MHz) panel
TX1
PF in1TUNINGVSWRLNARUN
PF in2
COM2
DBUS
TX3
PR in1
DC-IN-48V PR in2
TX4
DCS1800 DFCB
COM1TX2
Table 4-28 lists the LEDs on the DFCB (1800 MHz) panel.
Table 4-28 LEDs on the DFCB (1800 MHz) panel
LED Color Description Status Meaning
RUN Green Powerindicator
On The power input failure alarm isdetected.
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LED Color Description Status Meaning
Blinking onceevery two seconds
The power input is normal.
Off No power input is detected.
ALM Red Communication alarm LED
On The DFCB internalcommunication failure alarm isdetected
Blinking onceevery two seconds
An internal program of the DFCBis running or the program from theBSC is being downloaded.
Off No alarm is detected.
SWR Red VSWR alarmindicator of theTX/RX_ANTport
On Level 2 VSWR alarm is detected.It means a serious fault associatedwith the antenna occurs and theRF power is being blocked.
Blinking onceevery two seconds
Level 1 VSWR alarm is detected.It means a slight performancedecrease of the antenna occurs.No action is required on the BTSside.
Off No VSWR alarm is detected.
TUNING
Red Tuning failalarm indicator
On The tuning failure alarm isdetected.
Blinking onceevery two seconds
The tuning is being performed.
Off No alarm is detected.
For details about the ports on the DFCB (1800 MHz), refer to Ports on the DFCB (900 MHz)panel.
4.9.5 Specifications of the DFCBThis describes the dimensions, working voltage, power consumption, and weight of the DFCB.
Table 4-29 describes the specifications for the DFCB.
Table 4-29 Specifications for the DFCB
Item Specifications
Size Size of the front panel (length x width): 396 mm x 142mm
Working voltage –48 V power input
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Item Specifications
Power consumption (heatconsumption)
Maximum power consumption: 50 W
Weight DFCB (900 MHz): 20 kg
DFCB (1800 MHz): 12 kg
4.10 DFCUThe Filter Combiner Unit for DTRU BTS (DFCU) is located in the RF front-end subrack of theBTS. There are two types of DFCU in terms of frequency band: DFCU (900 MHz) and DFCU(1800 MHz). The DFCU is optional. The BTS3012 can be configured with the DDPU or theDFCU.
4.10.1 Functions of the DFCUThis describes the functions of the DFCU.
4.10.2 Working Environment of the DFCUThis describes the working environment of the DFCU.
4.10.3 Working Principles of the DFCUThis describes the working principles of the DFCU. The DFCU is composed of the cavitycombiners, micro-band combiner, duplexer, directional coupler, diversity filter, lower noiseamplifier (LNA), and control unit.
4.10.4 LEDs and Ports on the DFCUThis describes the LEDs and ports on the DFCU panel. Four LEDs on the DFCU panel indicatesthe operating status of the DFCU and twenty-eight ports provide signals input and output.
4.10.5 Specifications of the DFCUThis describes the dimensions, working voltage, power consumption, and weight of the DFCU.
4.10.1 Functions of the DFCUThis describes the functions of the DFCU.
The DFCU performs the following functions:
l Transmits multiple routes of RF TX signals from the DTRU transmitter to the antennathrough the duplexer after combination
l Transmits the received signals from the antenna to the duplexer and LNA (The DFCU alsocontrols the gain of the amplifier), divides the signals into several routes, and then transmitsthem to the receivers of the DTRUs
l One DFCU supports four inputs, and provides four-in-one signal combination or six-in-one signal combination once connected with the DFCB
l Detects the frequencies of the input signals and performs automatic tuning
l Detects the VSWR alarms of the antenna system and provides the function of the VSWRalarms whose thresholds are adjustable
4.10.2 Working Environment of the DFCUThis describes the working environment of the DFCU.
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Figure 4-23 shows the working environment of the DFCU (900 MHz).
Figure 4-23 Working environment of the DFCU (900 MHz)
DTRUDTRU DFCU TMA
DTRUDTRU DFCB TMA
Figure 4-24 shows the working environment of the DFCU (1800 MHz).
Figure 4-24 Working environment of the DFCU (1800 MHz)
DTRUDTRU DFCU TMA
DTRUDTRU DFCB
l The DFCU receives the UL signals from the antenna, filters, amplifies, and divides the
signals, and then transmits them to the DTRU for demodulation.l The DFCU receives the DL signals from the DTRU, filters and combines the signals, and
then transmits them to the antenna for transmission.l The DFCU receives the combined signals from the DFCB, filters the signals, and then
transmits them to the antenna for transmission.
4.10.3 Working Principles of the DFCUThis describes the working principles of the DFCU. The DFCU is composed of the cavitycombiners, micro-band combiner, duplexer, directional coupler, diversity filter, lower noiseamplifier (LNA), and control unit.
Figure 4-25 shows the functional structure of the DFCU.
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Figure 4-25 Functional structure of the DFCU
COM-INTX1TX2TX3TX4
DuplexerTX/RX-ANT
TX-COM
TX-DUPPF-out1PF-out2
Directionalcoupler
Cavitycombiner
PR-out2PR-out1
Control unit
PR-in1PR-in2PF-in1
PF-in2DC-IN -48V
DBUS
Diversity filterRXD-ANT
HL-OUT
RX4
RX2RX3
RXD-OUTLNA
LNA
RX5RX6
HL-IN
RX1
DFCU
Jumper
Micro-band
combinerCavitycombiner
Cavity Combiner
The cavity combiners tune the two downlink signals from the DTRU, combine the two signals,and then send the combined signal to the micro-band combiner.
Micro-Band Combiner
This module combines the two RF signals from the cavity combiners and the one RF signal fromthe extension combination port, and then sends the combined signal to the duplexer.
Duplexer
This module provides a reliable path so that the receive signals and the transmit signals can sharethe same antenna, ensuing that the high-power transmit signals do not affect weak receivesignals. The duplexer is composed of the receive filter and the transmit filter.
Directional Coupler
This module is used for the detection of the voltage standing wave ratio (VSWR). The VSWRdetection circuit detects the forward/reverse DL power through the standing-wave detector. Theoutput voltage from the standing-wave detector is processed and calculated. If the VSWRexceeds a defined threshold, the VSWR alarm is reported.
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Diversity FilterThis module is used to filter the uplink signals from the diversity antenna.
LNAThis module is used to amplify the receive signals from the antenna. The LNA gain is adjustablethrough the commands issued by the BTS. This module features self-detection through whichan alarm is reported when a fault occurs.
Control UnitThis module is used to control the cavity combiners, detect the VSWR alarms, set the signalgain of the LNA, detect the LNA alarm, and set up the communication between the DFCU andthe BTS.
4.10.4 LEDs and Ports on the DFCUThis describes the LEDs and ports on the DFCU panel. Four LEDs on the DFCU panel indicatesthe operating status of the DFCU and twenty-eight ports provide signals input and output.
LEDs and Ports on the DFCU (900 MHz)The DFCU (900 MHz) provides four LEDs to indicate whether the module operates normally.It provides 28 ports to receive power input and transfer RF signals and monitoring signals.
Figure 4-26 shows the DFCU (900 MHz) panel.
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Figure 4-26 DFCU (900 MHz) panel
RXD-ANT
TX/RX-ANT
TX2
Table 4-30 lists the LEDs on the DFCU (900 MHz) panel.
Table 4-30 LEDs on the DFCU (900 MHz) panel
LED Color Description Status Meaning
RUN Green Power indicator On Power input isavailable.
Off No power input isavailable.
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LED Color Description Status Meaning
VSWR Red VSWR alarmindicator of theTX/RX_ANT port
On Level 2 VSWRalarm is detected.
Blinking onceevery two seconds
Level 1 VSWRalarm is detected.
Off No VSWR alarmis detected.
LNA Red LNA alarmindicator
On The LNA alarm isdetected.
Off No alarm isgenerated.
TUNING Red Tuning fail alarmindicator
On The tuning failurealarm is detected.
Blinking onceevery two seconds
Tuning
Off No alarm isgenerated.
Table 4-31 lists the ports on the DFCU (900 MHz) panel.
Table 4-31 Ports on the DFCU (900 MHz) panel
Port Type Cable Description
TX/RX-ANT
7/16 DIN femaleconnector
Indoor 1/2-Inch Jumperof the BTS3012
Antenna port for receptionand transmissionl It is the input port for the
RF signals received fromthe antenna.
l It is the output port forthe RF signalstransmitted from the TX-DUP port.
RXD-ANT 7/16 DIN femaleconnector
Diversity receive antennaport
DBUS DB26 femaleconnector
Signal Cable Between theDCSU and the DAFUSubrack of the BTS3012
Input/output port forDBUS3 signals
DC-IN –48V
3V3 powerconnector
Power cable from theBTS3012 busbar to theDAFU subrack
DC power input port
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Port Type Cable Description
TX-COM N femaleconnector
Four-in-one short-circuiting signal cable
Combination output portfor the signals transmittedfrom the TX1, TX2, TX3,TX4, and COM-IN ports; Itis connected to the TX-DUP port.
TX-DUP N femaleconnector
Input port for the RF signalsfrom the duplexer; It isconnected to the TX-COMport.
COM-IN N femaleconnector
Signal cable between theDFCB and the DFCU
Extended combination port;It is connected to the outputport of the RF signals fromthe DFCB.
TX1 N femaleconnector
RF TX signal cable Input port for the RFsignals; It is connected tothe TX1 or TX2 port on theDTRU panel.
TX2
TX3
TX4
RX1 SMA femaleconnector
RF RX signal cable It is the output port for theRF signals received fromthe TX/RX-ANT port. It isconnected to the RXM1,RXD1, RXM2, or RXD2port on the DTRU panel.
RX2
RX3
RX4 SMA femaleconnector
RF RX signal cable It is the output port for theRF signal received from theHL-IN port. It is connectedto the RXM1, RXD1,RXM2, or RXD2 port onthe DTRU panel.l If the HL-IN port is
connected to the RXD-OUT port, it serves as theoutput port for thediversity RF signalsreceived from the RXD-ANT port.
l If the HL-IN port isconnected to the HL-OUT port, it serves as theoutput port for the RFsignals received from theTX/RX-ANT port.
RX5
RX6
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Port Type Cable Description
HL-OUT SMA femaleconnector
Diversity receive short-circuiting cable
Output port for high-levelsignals; It can be connectedto the HL-IN port.
HL-IN SMA femaleconnector
Diversity receive short-circuiting cable
Input port for the high levelsignals; It is connected tothe HL-OUT or RXD-OUTport.
RXD-ANT SMA femaleconnector
Diversity receive short-circuiting cable
Output port for the diversityreceived signals; When theRXD-ANT is used, theRXD-OUT is connected tothe HL-IN port.
PR out1 SMA femaleconnector
Reverse power detectioncable
Reverse power samplingoutput port 1; It isconnected to the PR in1port.
PR out2 SMA femaleconnector
Reverse power detectioncable
Reverse power samplingoutput port 2; It isconnected to the PR in1 orPR in2 port on the DFCBpanel.
PF out1 SMA femaleconnector
Forward power detectioncable
Forward power samplingoutput port 1; It isconnected to the PF in1port.
PF out2 SMA femaleconnector
Forward power detectioncable
Forward power samplingoutput port 2; It isconnected to the PF in1 orPF in2 port on the DFCBpanel.
PR in1 SMA femaleconnector
Reverse power detectioncable
Reverse power samplinginput port 1
PR in2 SMA femaleconnector
Reverse power detectioncable
Reverse power samplinginput port 2
PF in1 SMA femaleconnector
Forward power detectioncable
Forward power samplinginput port 1
PF in2 SMA femaleconnector
Forward power detectioncable
Forward power samplinginput port 2
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NOTE
l The circuit connected to the COM-IN port is an open circuit, it must be configured if the DFCU is usedindependently. When the DFCU is used independently, the RF signal cable connects the PR in1 portwith the PR out1 port by default. Do not modify the connections on the board.
l If the cell configured with the DFCU has more than six TRXs, short-circuit the HL-IN port and theHL-OUT port of the DFCU to ensure the six receive signals are consistent. If the cell configured withthe DFCU has six or less TRXs, connect the HL-IN port with the HL-OUT port.
LEDs and Ports on the DFCU (1800 MHz)The DFCU (1800 MHz) provides four LEDs to indicate whether the module operates normally.It provides 28 ports to receive power input and transfer RF signals and monitoring signals.
Figure 4-27 shows the DFCU (1800 MHz) panel.
Figure 4-27 DFCU (1800 MHz) panel
RXD-ANT
TX/RX-ANT
TX2
VSWR
DCS1800 DFCU-H
LNA
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Table 4-32 lists the LEDs on the DFCU (1800 MHz) panel.
Table 4-32 LEDs on the DFCU (1800 MHz) panel
LED Color Description Status Meaning
RUN Green Powerindicator
On The power input failure alarm isdetected.
Blinking onceevery two seconds
The power input is normal.
Off No power input is detected.
ALM Red Communication alarm LED
On The DFCU internalcommunication failure alarm isdetected
Blinking onceevery two seconds
An internal program of the DFCUis running or the program from theBSC is being downloaded.
Off No alarm is detected.
SWR Red VSWR alarmindicator of theTX/RX_ANTport
On Level 2 VSWR alarm is detected.It means a serious fault associatedwith the antenna occurs and theRF power is being blocked.
Blinking onceevery two seconds
Level 1 VSWR alarm is detected.It means a slight performancedecrease of the antenna occurs.No action is required on the BTSside.
Off No VSWR alarm is detected.
TUNING
Red Tuning failalarm indicator
On The tuning failure alarm isdetected.
Blinking onceevery two seconds
The tuning is being performed.
Off No alarm is detected.
The ports on the DFCU (1800 MHz) are the same as those on the DFCU (900 MHz). For details,refer to Ports on the DFCU (900 MHz) panel.
4.10.5 Specifications of the DFCUThis describes the dimensions, working voltage, power consumption, and weight of the DFCU.
Table 4-33 describes the specifications for the DFCU.
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Table 4-33 Specifications for the DFCU
Item Specifications
Size Size of the front panel (length x width): 396 mm × 142 mm
Working voltage –48 V power input
Power consumption (heatconsumption)
Maximum power consumption: 50 W
Weight 20 kg
4.11 DTMUThe Transmission/Timing/Management Unit for DTRU BTS (DTMU) is an entity for basictransmission and control in the BTS3012. It works as a main controller. The DTMU is amandatory module inserted in slots 0 (from left to right) of the DCMB in the common subrack.
4.11.1 Functions of the DTMUThis describes the functions of the DTMU. The DTMU provides multiple ports to receive clocksignals, power supply, maintenance signals, and external alarm signals. It controls and managesthe entire BTS.
4.11.2 Working Environment of the DTMUThis describes the working environment of the DTMU, which operates in the common subsystemof the BTS. It processes the E1 trunk signals or the data signals from the optical transmissionequipment, and then transmits the data signals, clock signals, and control signals to the entireBTS through the buses in the BTS.
4.11.3 Working Principles of the DTMUThis describes the working principles of the DTMU. The DTMU consists of the BIU, MCU,and MCK.
4.11.4 LEDs and Ports on the DTMUThis describes the LEDs and ports on the DTMU panel. The nine LEDs on the DTMU panelindicate the operating status of the DTMU. The four ports on the DTMU panel provide accessfor the clock reference and the local maintenance terminal.
4.11.5 DIP Switches on the DTMUThis describes the DIP switches on the DTMU. Of the five DIP switches on the DTMU, twoswitches, namely, S4 and S5, specify the grounding for four E1 routes. The other switches, S3,S6, and S7, are reserved.
4.11.6 Specifications of the DTMUThis describes the dimensions, working voltage, power consumption, and weight of the DTMU.
4.11.1 Functions of the DTMUThis describes the functions of the DTMU. The DTMU provides multiple ports to receive clocksignals, power supply, maintenance signals, and external alarm signals. It controls and managesthe entire BTS.
The DTMU performs the following functions:
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l Provides external GPS inputs
l Provides BITS synchronized clock inputs
l
l Provides the 10 Mbit/s Ethernet port for maintenance
l Supports four E1 inputs by default or eight E1 inputs if required
l Controls, maintains, and operates the BTS
l Downloads software for the BTS
l Provides fault management, configuration management, performance management, andsecurity management
l Distributing and managing BTS clock signals
l E1 port
l Supports six inputs of dry contact signals
l Provides three extended digital control signal outputs
l Monitors the external fan control board and the power modules
4.11.2 Working Environment of the DTMUThis describes the working environment of the DTMU, which operates in the common subsystemof the BTS. It processes the E1 trunk signals or the data signals from the optical transmissionequipment, and then transmits the data signals, clock signals, and control signals to the entireBTS through the buses in the BTS.
Figure 4-28 shows the working environment of the DTMU.
Figure 4-28 Working environment of the DTMU
Common subsystem
TBUS
DBUS
Optical cable
E1CBUS
Optical transmission equipment
DTMUDTMU
Monitoring and BITS signals
The working environment of the DTMU is as follows:
l The DTMU processes the E1 trunk signals or the data signals from the optical transmissionequipment, and then transmits the signals to the DCSU through the data bus.
l The DTMU provides the entire with clock signals and control signals through the systembuses in the BTS.
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l The DTMU processes the external lightning protection failure signals and BITS clocksignals.
4.11.3 Working Principles of the DTMUThis describes the working principles of the DTMU. The DTMU consists of the BIU, MCU,and MCK.
Figure 4-29 shows the working principles of the DTMU.
Figure 4-29 Functional structure of the DTMU
MCU
DTMU
BIU
MCK
DTRU
CBUS2
DBUSBSC
LMTMMI
Abis
Subrack numberand clock
Externalsynchronized clock
OML
Clock
BIUl Connects the BTS to the BSC
l Exchanges timeslot data between the E1 links and the DBUS
l Synchronizes the lower-level clock with the upper-level clock
MCUl Supports the protocols such as UART and HDLC
l Controls the BIU to establish the communication between the BSC and the BTS
l Provides the platform for the running of the MCK software modules
MCKl Provides high-precision clock source for the BTS and provides system clock based on this
clock source
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l Checks the phase-locked state, provides phase lock for the software, provides DAadjustment, and generates frame numbers
4.11.4 LEDs and Ports on the DTMUThis describes the LEDs and ports on the DTMU panel. The nine LEDs on the DTMU panelindicate the operating status of the DTMU. The four ports on the DTMU panel provide accessfor the clock reference and the local maintenance terminal.
PanelFigure 4-30 shows the DTMU panel.
Figure 4-30 DTMU panel
RUNACTPLLLIU1LIU2LIU3LIU4SWTALM
RST
MMI
T2M
FCLK
T13M
DTMU
LEDTable 4-34 lists the LEDs on the DTMU panel.
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Table 4-34 LEDs on the DTMU panel
LED Color Description Status Meaning
RUN Green Operatingindicator of theboard
Blinking once everyfour seconds
The OML is blocked.
Blinking once everytwo seconds
The internal cables of theEMUA are securelyconnected,
Blinking frequentlyand irregularly
The BSC is loading data.
Off There is no power input forthe board.
ACT Green Status indicator On The internal cables of theEMUA are securelyconnected,
PLL Green Clock statusindicator
Off The clock is abnormal.
On Free-run
Blinking four timesper second
Pull-in
Fast flash (on for 0.5sand off for 0.5s)
Locked
LIU1 Green Transmissionstatus indicatorof E1 port 1
Off E1 port 1 is normal whenSWT is off.
On E1 port 1 near end alarmoccurs when SWT is off.
Blinking four timesper second
E1 port 1 remote end alarmoccurs when SWT is off.
LIU2 Green Transmissionstatus indicatorof E1 port 2
Off E1 port 2 is normal whenSWT is off.
On E1 port 2 near end alarmoccurs when SWT is off.
Blinking four timesper second
E1 port 2 remote end alarmoccurs when SWT is off.
LIU3 Green Transmissionstatus indicatorof E1 port 3
Off E1 port 3 is normal whenSWT is off.
On E1 port 3 near end alarmoccurs when SWT is off.
Blinking four timesper second
E1 port 3 remote end alarmoccurs when SWT is off.
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LED Color Description Status Meaning
LIU4 Green Transmissionstatus indicatorof E1 port 4
Off E1 port 4 is normal whenSWT is off.
On E1 port 4 near end alarmoccurs when SWT is off.
Blinking four timesper second
E1 port 4 remote end alarmoccurs when SWT is off.
SWT Green Indicates thetransmissionstatus of E1links
When the DTMUsupports four E1routes, the SWT LEDis always off.
LIU1 to LIU4 indicate thetransmission status of E1port 1 to 4.
ALM Red Alarm indicator Off No board alarm
On An alarm is generated.
PortTable 4-35 lists the ports on the DTMU panel.
Table 4-35 Ports on the DTMU panel
Port Type Cable Function
T2M SMA female connector E1 Cable 2 MHz reference clock,used to test and tune clockprecision
FCLK SMA female connector E1 Cable 216.7 Hz frame clock
T13M SMA female connector E1 Cable 13 MHz reference clock,used to test and tune clockprecision
MMI RJ45 connector Ethernet cable Terminal maintenanceport
4.11.5 DIP Switches on the DTMUThis describes the DIP switches on the DTMU. Of the five DIP switches on the DTMU, twoswitches, namely, S4 and S5, specify the grounding for four E1 routes. The other switches, S3,S6, and S7, are reserved.
Figure 4-31 shows the layout of the DIP switches on the DTMU and their factory settings.
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Figure 4-31 Layout of the DIP switches on the DTMU
ON OFFS4 4
14
S6 4
1
S7 4
1
S3 4
1
S51
The DIP switches on the DTMU specify the grounding of four E1 routes. Table 4-36 lists theirdetailed settings.
Table 4-36 Settings of the DIP switches on the DTMU
DIP Switch DIP Bit ON/OFF Description
S5 1 ON Ring of the first TX E1 route is grounded.
OFF Ring of the first TX E1 route is notgrounded.
2 ON Ring of the first RX E1 route is grounded.
OFF Ring of the first RX E1 route is notgrounded.
3 ON Ring of the second TX E1 route is grounded.
OFF Ring of the second TX E1 route is notgrounded.
4 ON Ring of the second RX E1 route is grounded.
OFF Ring of the second RX E1 route is notgrounded.
S4 1 ON Ring of the third TX E1 route is grounded.
OFF Ring of the third TX E1 route is notgrounded.
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DIP Switch DIP Bit ON/OFF Description
2 ON Ring of the third RX E1 route is grounded.
OFF Ring of the third RX E1 route is notgrounded.
3 ON Ring of the fourth TX E1 route is grounded.
OFF Ring of the fourth TX E1 route is notgrounded.
4 ON Ring of the fourth RX E1 route is grounded.
OFF Ring of the fourth RX E1 route is notgrounded.
4.11.6 Specifications of the DTMUThis describes the dimensions, working voltage, power consumption, and weight of the DTMU.
Table 4-37 describes the specifications for the DTMU.
Table 4-37 Specifications for the DTMU
Item Specifications
Size Size of the PCB (length x width x height): 280.0 mm x 233.4 mm x 2.0mm
Size of the front panel (length x width): 261.0 mm x 30.5 mm
Working voltage –48 V power input
Powerconsumption (heatconsumption)
Maximum power consumption: 27 W
Weight 1.2 kg
4.12 DTRBThe Double-Transceiver Unit Backplane (DTRB) is placed in the DTRU subrack. The DTRBprovides six slots to house the DTRUs.
4.12.1 Functions of the DTRBThis describes the functions of the DTRB.
4.12.2 Working Principles of the DTRBThis describes the working principles of the DTRB. The DTRB uses the bus structure toexchange signals between the DTRU and the common subsystem. The DTRB provides clockbus, control bus, and data bus.
4.12.3 Specifications of the DTRBThis describes the dimensions of the DTRB.
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4.12.1 Functions of the DTRBThis describes the functions of the DTRB.
The DTRB performs the following functions:l Provides bus connection between the common subsystem and the double-transceiver
subsysteml Specifies the slot number and rack number of the DTRU
4.12.2 Working Principles of the DTRBThis describes the working principles of the DTRB. The DTRB uses the bus structure toexchange signals between the DTRU and the common subsystem. The DTRB provides clockbus, control bus, and data bus.
Figure 4-32 shows the working principles of the DTRB.
Figure 4-32 Functional structure of the DTRB
DTRB
DTRUDTRU
DTRUDTRU
DTRUDTRU
DTMU
DCSU
DBUS/TBUS/CBUS
The signal transfer principles of the DTRB are as follows:
l The DTRU connects with the DTMU through the DCSU by using the PCB cabling on theDTRB.
l The DTRB specifies the slot number and rack number of the DTRU.
l The DTMU transmits the clock signals of the BTS system through the DCSU to the DTRB,which transmits the clock signals to the DTRUs.
l The uplink and downlink control bus and data bus of the DTRU are connected to the DCSUthrough the DTRB.
4.12.3 Specifications of the DTRBThis describes the dimensions of the DTRB.
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Table 4-38 describes the specifications for the DTRB.
Table 4-38 Specifications for the DTRB
Item Specifications
Size Size of the PCB (length x width x height): 426.0 mm x 178.0 mm x 3.0 mm
Dimension of the front panel: The DTRB is a backplane and has no frontpanel.
4.13 DTRUThe Double-Transceiver Unit (DTRU) is placed in the double-transceiver subsystem of the BTS.One DTRU consists of two TRXs.
4.13.1 Functions of the DTRUThis descries the functions of the DTRU. The DTRU functionally consists of the basebandprocessing part, RF transmitting part, and RF receiving part.
4.13.2 Working Environment of the DTRUThis describes the working environment of the DTRU. The DTRUs are inserted into the slotsof the backplane in the DTRU subrack.
4.13.3 Working Principles of the DTRUThis describes the working principles of the DTRU. The DTRU consists of the DTRU Basebandand RF Unit (DBRU), DTRU Power Amplifier Unit (DPAU), and DTRU Power Supply Unit(DTPS).
4.13.4 LEDs and Ports on the DTRUThe four LEDs on the DTRU panel indicate the operating status of the DTRU and otherfunctional subsystems. The eight ports on the DTRU panel are used to complete the signalinterconnection with the RF front-end subsystem.
4.13.5 Specifications of the DTRUThis describes the size, working voltage, power consumption, and weight of the DTRU.
4.13.1 Functions of the DTRUThis descries the functions of the DTRU. The DTRU functionally consists of the basebandprocessing part, RF transmitting part, and RF receiving part.
Baseband Processing PartThe baseband processing part performs the following functions:
l Processes signaling, coding and decoding, interleaving and de-interleaving, modulationand demodulation
l Supports RF loop test and switchover of the faulty phase-locked loop
l Amplifying output power
RF Transmitting PartThe RF transmitter performs the following functions:
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l Up-converts baseband signals to RF signals, and performs filtering and hopping of RFsignals.
l Amplifies, combines, and outputs RF signals
The transmitting modes of RF signals are as follows:
l Transmit independencyl PBTl Wideband combinationl Transmit diversity
RF Receiving PartThe RF receiver performs the following functions:
l Down-converts RF signals to baseband signals, and performs hopping of RF signalsl Uncombines the received RF signals. Performs receive diversity
The receiving modes of the RF signals are as follows:
l Receive independencyl Receive diversityl Four-way receive diversity
NOTE
The cross-subrack baseband FH and cross-cabinet baseband FH are not supported.
4.13.2 Working Environment of the DTRUThis describes the working environment of the DTRU. The DTRUs are inserted into the slotsof the backplane in the DTRU subrack.
Figure 4-33 shows the working environment of the DTRU.
Figure 4-33 Working Environment of the DTRU
DTRU
DTRU
DTRU
DBUSCBUSTBUS
DBUSCBUSTBUS
DBUSCBUS
TBUS
DAFU
DAFU
DAFU
FH_BUS
CBUS3
FH_BUSRF signals
CBUS3
FH_BUS
CBUS3
… …
DBUS/TBUS/CBUS
RF signals
RF signals
Double-transceiversubsystem
RF front-endsubsystem
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The working environment of the DTRU is as follows:
l Receiving clock signals, control signals, and data signals from the DTRB
l Modulates the baseband signals into RF signals, and then transmits the RF signals to theDAFU subrack through RF signal cables
4.13.3 Working Principles of the DTRUThis describes the working principles of the DTRU. The DTRU consists of the DTRU Basebandand RF Unit (DBRU), DTRU Power Amplifier Unit (DPAU), and DTRU Power Supply Unit(DTPS).
Functional structure of the DTRUFigure 4-34 shows the functional structure of the DTRU.
Figure 4-34 Functional structure of the DTRU
DPAU
DTMU DAFU
DTRU
DBRU
DTPS
-48 V DC
l The DBRU is the main functional module of the DTRU. It provides modulation/
demodulation, data processing, and combining/dividing between the baseband signals andRF signals.
l The DTPS is the power supply board of the DTRU. The DTPS converts the –48 V DCpower into +28 V DC power for the DPAU. The DTPS also supplies three routes of powerrequired by the TRX: 8 V, 4 V, and 3.3 V.
l The DPAU performs the following functions:– Amplifies the signals transmitted from the DBRU to the required power level
– Couples the output power for a loopback test and the power detection
– Provides the detected temperature of the power amplifier
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– Provides wideband combination and PBT functions
Functional modes of the DTRUl RF Transmit Mode
– In the transmit independency mode, the two TRXs work independently without usingthe combination unit. Figure 4-35 shows the working principle in the DTRU transmitindependency mode.
Figure 4-35 Transmit independency mode
– In the PBT mode, only one TRX in the DTRU is used. One route of signals goes through
modulation and DA conversion. Then, the converted RF signals are divided into tworoutes and sent to the power amplified for amplification. At last, the amplified signalsare combined. As these two routes of signals are aligned in phase, the output power isamplified after combination. Figure 4-36 shows the working principle in the DTRUPBT mode.
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Figure 4-36 PBT mode
TCOM
TX
TRX0
TX
TRX1
TX1
TX2
Control unit
Combiner
– In the wideband combination mode, the two transceivers are combined through acombiner before transmission. Figure 4-37 shows the working principle in the DTRUwideband combination mode.
Figure 4-37 Wideband combination mode
TCOM
TX
TRX0
TX
TRX1
TX1
TX2
Controlunit
Combiner
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– In the transmit diversity mode, one route of baseband signals are divided into two routes.Thus, the downlink receive level of the MS is improved. Figure 4-38 shows the workingprinciple in the DTRU transmit diversity mode.
Figure 4-38 Transmit diversity mode
l RF Receive Mode
– In the receive independency mode, each TRX of the DTRU uses the main and diversityports of itself. Figure 4-39 shows the working principle in the DTRU receiveindependency mode.
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Figure 4-39 Receive independency mode
– In the receive diversity mode, each main/diversity signal is divided into two routes
through a divider, and then sent to the main/diversity port of the two TRXs. Note onlytwo channels of RF signals are routed into the DTRU through the RF cables. Figure4-40 shows the working principle in the DTRU receive diversity mode.
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Figure 4-40 Receive diversity mode
– In the 4-way receive diversity mode, four routes of signals are sent to one TRX. The 4-
way receive diversity helps achieve more uplink gain than the main receive diversitydoes. Note in the 4-way receive diversity mode, only one TRX can be used in the DTRU.Figure 4-41 shows the working principles in the DTRU 4-way receive diversity mode.
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Figure 4-41 4-way receive diversity mode
TCOM
TX
TX
TX1
TX2
TRX0
TRX1
Divider
Divider
RXM1
RXD1
RXM2
RXD2
Controlunit Control
unit
Combiner
4.13.4 LEDs and Ports on the DTRUThe four LEDs on the DTRU panel indicate the operating status of the DTRU and otherfunctional subsystems. The eight ports on the DTRU panel are used to complete the signalinterconnection with the RF front-end subsystem.
PanelFigure 4-42 shows the DTRU panel.
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Figure 4-42 DTRU panel
DTRU
TX1
TCOM
TX2
RST
RUNACTALMRF_IND
PWR
RXM1
RXD1RXM2RXD2
LED
Table 4-39 describes the LEDs on the DTRU panel.
Table 4-39 LEDs on the DTRU panel
LED Color Description Status Description
RUN Green Operating andpower-onindicator of theDTRU
On There is powersupply. However,the module isfaulty.
Off There is no powersupply or themodule is faulty.
Blinking onceevery four seconds
The module isstarting.
Blinking onceevery two seconds
The module worksnormally.
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LED Color Description Status Description
Fast flash (on for0.2s and off for0.2s)
The DTMU isissuingconfiguration datato the DTRU.
ACT Green Operatingindicator of thetransceiver
On The DTRU isoperating. (TheDTMU issuingconfiguration datanormally and thecells starts) All thechannels on thetwo TRXs operatenormally.
Off Thecommunicationbetween theDTRU and theDTMU is notestablished.
Blinking onceevery two seconds
A part of logicalchannels worknormally (beforeand after TRXmutual aid).
ALM Red Indicateswhether there arealarms
On (includinghigh-frequencyflash)
Critical alarm(The module isfaulty.)
Off The module isnormal.
RF_IND Red RF indicator On There is voltagestanding waveradio (VSWR)alarm.
Off The internal cablesof the EMUA aresecurelyconnected,
Blinking onceevery two seconds
There is a radiolink alarm.
PortTable 4-40 lists the ports on DTRU (type B) panel.
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Table 4-40 Description of the ports on the DTRU
Port Type Cable Description
TX1 N femaleconnector
RF TX signal cable It is the output port for the signalsfrom TRX1.l In transmit independency or
transmit diversity mode, the TXport routes the signals to the TXport of the module in the RF front-end subrack.
l In PBT or wideband combinationmode, this port is suspended.
TCOM N femaleconnector
RF TX signal cable In PBT or wideband combinationmode, the TCOM port is used tooutput the combined signals from theTX1 and TX2 ports.
TX2 N femaleconnector
RF TX signal cable It is the output port for the signalsfrom TRX2.l In transmit independency or
transmit diversity mode, the TXport routes the signals to the TXport of the module in the RF front-end subrack.
l In PBT or wideband combinationmode, this port is suspended.
RXM1 SMA femaleconnector
RF RX signal cable l In receive independency orreceive diversity mode, it is theinput port for the main RF signal.
l In 4-way receive diversity mode,it is the input port for the diversitysignal 1.
RXD1 SMA femaleconnector
RF RX signal cable l In receive independency orreceive diversity mode, it is theinput port for the diversity RFsignal.
l In 4-way receive diversity mode,it is the input port for the diversitysignal 2.
RXM2 SMA femaleconnector
RF RX signal cable l In receive independency mode, itis the input port for the main RFsignal.
l In 4-way receive diversity mode,it is the input port for the diversitysignal 3.
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Port Type Cable Description
RXD2 SMA femaleconnector
RF RX signal cable l In receive independency mode, itis the input port for the diversityRF signal.
l In 4-way receive diversity mode,it is the input port for the diversitysignal 4.
PWR 3V3 powerconnector
Power Cable fromthe BTS3012Busbar to theDTRU Subrack
Power input port
4.13.5 Specifications of the DTRUThis describes the size, working voltage, power consumption, and weight of the DTRU.
Table 4-41 lists the specifications of the DTRU.
Table 4-41 Specifications of the DTRU
Item Specifications
Dimensions Front panel: 389.2 mm (L) x 68.1 mm (W)
Working voltage –48 V DC or +24 V DC input
Powerconsumption(heatconsumption)
Maximum power consumption with –48 V DC input: 320 W
Maximum power consumption with +27 V DC input: 310 W
Weight 6.8kg
4.14 Fan BoxThe fan box forms a loop with the air inlet box to provide forced ventilation and dissipation forthe common subrack, DTRU subrack, and DAFU subrack.
4.14.1 Functions of the Fan BoxThis describes the functions of the fan box.
4.14.2 Working Principles of the Fan BoxThis describes the working principles of the fan box. The fan box, which is configured in thefan subrack, consists of one NodeB Fan Controlling and Monitoring Board (NFCB) and fourindependent axial flow fans.
4.14.3 LEDs and Ports on the Fan BoxThis describes the LEDs and ports on the fan box. The STATE LED on the panel of the fan boxindicates the operating status of the fans. One port on the panel of the fan box exchanges thesignals with the DTMU, whereas the other port imports power input.
4.14.4 Specifications of the Fan Box
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This describes the dimensions, working voltage, and power consumption (heat consumption) ofthe fan box.
4.14.1 Functions of the Fan BoxThis describes the functions of the fan box.
The fan box performs the following functions:
l Monitors the temperature of the DTRUs, modules in the DAFU subrack, and DTMUs. Andadjusts the rotation speed of the fans.
l Communicates with the central processing unit to report alarms and the adjusted rotationspeed of the fans based on the temperature to the central processing unit
4.14.2 Working Principles of the Fan BoxThis describes the working principles of the fan box. The fan box, which is configured in thefan subrack, consists of one NodeB Fan Controlling and Monitoring Board (NFCB) and fourindependent axial flow fans.
NFCB
l The NFCB is placed in the FAN subrack. It is a mandatory module. Only one DFCB canbe configured.
l The NFCB detects the temperature of the DTRUs, modules in the DAFU subrack, andDTMUs, and then reports the temperature information to the DTMU or automaticallyadjusts the speed of the fans.
l The fans can run at full speed or half speed. The NFCB controls the speed and status offans.
Fans
l The rear part of the cabinet top and the air inlets at the bottom of the cabinet form aventilation circuit, cooling the entire cabinet.
l The fans are configured in N+1 mode. When one fan fails, the other fans run at full speed.In normal temperature, the fans can meet the heat dissipation requirements.
4.14.3 LEDs and Ports on the Fan BoxThis describes the LEDs and ports on the fan box. The STATE LED on the panel of the fan boxindicates the operating status of the fans. One port on the panel of the fan box exchanges thesignals with the DTMU, whereas the other port imports power input.
Figure 4-43 shows the panel of the fan box.
Figure 4-43 Panel of the fan boxFAN
PWR
STATE
COM
The STATE LED on the fan box indicates the operating status of the fans, as shown in Table4-42.
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Table 4-42 LEDs on the fan box
LED Color Status Description
STATE Green Blinking four times persecond
The NFCB communicateswith the DTMUabnormally. There is noalarm.
Red Blinking four times persecond
An alarm is generated.
Green Blinking once every twoseconds
The board operatesnormally.
Orange (red andgreen)
On The software of the boardis being upgraded.
Green or red ororange
Off There is no power supplyor the board is faulty.
Table 4-43 lists the ports on the panel of the fan box.
Table 4-43 Ports on the panel of the fan box
Port Type Cable Description
COM DB26 female connector Signal transfer cablefor the fan subrack
It provides access tocommunicate with theDTMU.
PWR 3V3 power connector Power cable from theBTS3012 busbar to thefan subrack
This is the power inputport that routes the powersupply from the busbar tothe fan subrack.
4.14.4 Specifications of the Fan BoxThis describes the dimensions, working voltage, and power consumption (heat consumption) ofthe fan box.
Table 4-44 describes the specifications of the fan box.
Table 4-44 Specifications of the fan box
Item Specifications
Dimensions Front panel: 435.0mm (L) × 88.1mm (W)
Working voltage -48 V power input
Power consumption (heatconsumption)
Maximum power consumption: 153 W
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5 BTS3012 Cables
About This Chapter
This describes the functions, appearance, assignment of pins, and installation positions of theBTS3012 cables.
5.1 List of the BTS3012 CablesThis describes the BTS3012 cables, including the power cables, PGND cables, transmissioncables, signal cables, and RF signal cables.
5.2 BTS3012 Power CablesThe BTS3012 power cables are classified into the power cables for the cabinet and power cablesfor the busbar. The power cables for the busbar are classified into the power cable between thebusbar and the DAFU subrack, power cable between the busbar and the fan subrack, and powercable between the busbar and the common subrack.
5.3 BTS3012 PGND CablesThe BTS3012 PGND cables are classified into the PGND cable for the external power input,PGND cable for the DC lightning protection board (copper sheet), and PGND cable betweenthe wiring copper bar and the cabinet.
5.4 BTS3012 Transmission CablesThe transmission cables for the BTS3012 consist of the E1 cables, optical cables, and Ethernetcables.
5.5 BTS3012 Signal CablesThe signal cables for the BTS3012 consist of the lightning protection failure alarm signal cable,power detection signal cable, combining short-circuiting signal cable, signal cable for cabinetgroups, RET control signal cable, signal cable between the DCSU and DTRB, signal cablebetween the DCSU and DAFU, signal cable between the DFCB and DFCU, and fan subracksignal cable.
5.6 BTS3012 RF CablesThe RF cables of the BTS3012 include the BTS3012 RF signal cables and the BTS3012 indoor1/2-inch RF jumper.
5.7 Cables Between the BTS3012 and the Auxiliary Equipment
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This describes the cables between the BTS3012 and the auxiliary equipment. The cables betweenthe BTS3012 and the auxiliary equipment consist of the signal cables in the external environmentalarm box and the power cables between the Sidepower and the BTS3012.
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5.1 List of the BTS3012 CablesThis describes the BTS3012 cables, including the power cables, PGND cables, transmissioncables, signal cables, and RF signal cables.
Table 5-1 lists the BTS3012 cables.
Table 5-1 List of the BTS3012 cables
Category
Sub-Category Installation Position Factory Settings
DCpowercable
Power cable for thecabinet
One end is connected to theterminals labeled + and - onthe power input terminalblock, which is located ontop of the cabinet.The other end is connectedto the power distributiondevice provided by thecustomer.
Both ends of the cableshould be connected on site.For details, refer toInstalling the BTS3012Power Cables.
PGNDcable
PGND cable One end is connected to thePGND bar provided by thecustomer.The other end is connectedto the PGND bar on top ofthe cabinet.
Both ends of the cableshould be connected on site.For details, refer toInstalling the BTS3012PGND Cables.
Busbarpowercable
Power cable fromthe busbar to theDAFU subrack
One end is connected to thecorresponding port on thebusbar, which is located onthe right of the cabinet.The other end is connectedto the POWER port on theDDPU panel or the DC-IN-48V port on the DFCUpanel.
One end of the cable isconnected to the busbarbefore delivery. The otherend of the cable should beconnected on site accordingto the actual requirement.For details, refer toInstalling the PowerCables of the BTS3012Busbar.
Power cablebetween the busbarand the DTRU
One end is connected to thecorresponding port on thebusbar, which is located onthe right of the cabinet.The other end is connectedto the PWR port on theDTRU.
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Category
Sub-Category Installation Position Factory Settings
Power cablebetween the busbarand the fan subrack
One end is connected to thecorresponding port on thebusbar, which is located onthe right of the cabinet.The other end is connectedto the PWR port on the fansubrack.
Power cable fromthe busbar to thecommon subrack
One end is connected to thecorresponding port on thebusbar, which is located onthe right of the cabinet.The other end is connectedto the POWER port on theDCCU panel.
Transmissioncable
E1 cable One end is connected to thetransmission deviceprovided by the customer.The other end is connectedto the TRAN port on theDCCU panel.
Both ends of the cableshould be connected on site.For details, refer toInstalling the E1 Cable ofthe BTS3012.
Ethernet cables ofthe BTS3012/BTS3012AE
One end of the straight-through Ethernet cable isconnected to the MMI porton the DTMU panel. Theother end is connected to theHUB port. Alternatively,one end is connected to theEthernet port on the LMTPC and the other end isconnected to the HUB port.The crossover Ethernetcable is used to connect theMMI port on the DTMUpanel to the Ethernet port onthe LMT PC.
The Ethernet cables shouldbe connected on site beforemaintenance.
Optical cable One end is connected to thetransmission device (such asthe ODF) provided by thecustomer.The other end is connectedto the optical transmissionequipment through thecabling hole on top of thecabinet.
Both ends of the cableshould be connected on site.For details, refer toInstalling the OpticalCable of the BTS3012.
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Category
Sub-Category Installation Position Factory Settings
Signalcables
Lightningprotection failurealarm cable
The cord end terminal isconnected to the wiringterminal block on the DCsurge protector on top of thecabinet.The 2PIN phoenix terminalis connected to the S1+S1-port on the DCCU.
Both ends of the cable areconnected before delivery.
Power detectioncable
One end is connected to thePF out/PR out port on theDFCU panel.The other end is connectedto the PF in/PR in port on theDFCU panel.
Both ends of the cable areconnected before delivery.
Four-in-one short-circuiting signalcable
One end is connected to theCOM port on the DFCUpanel.The other end is connectedto the TX-DUP port on theDFCU panel.
This cable should beinstalled on site. For details,refer to Installing the Four-In-One Short-CircuitingSignal Cable of theBTS3012/BTS3012AE.
Diversity receiveshort-circuitingcable
One end is connected to theRXD-OUT port on theDFCU panel.The other end is connectedto the HL-IN port on theDFCU panel.
Both ends of the cable areconnected before delivery.
Signal cable forcabinet groups
The two ends are connectedto the CKB port on theDCCU panel in the maincabinet group and to theCKB port on the DCCUpanel in the extensioncabinet group respectively.
Both ends of the cableshould be connected on site.For details, refer toInstalling the SignalCables for BTS3012Cabinet Groups.
Environmentmonitoring signalcable
One end is connected to portIN-OUT on the DEMU.The other end is connectedto the environmentmonitoring device throughthe DDF.
Both ends of the cableshould be connected on site.For details, refer toInstalling theEnvironment MonitoringSignal Cables of theBTS3012.
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Category
Sub-Category Installation Position Factory Settings
RET control signalcable
One end is connected to theSMA port on the DATUpanel.The other end is connectedto the SMA port on the Bias-Tee.
Both ends of the cableshould be connected on site.For details, refer toInstalling the RETControl Signal Cable ofthe BTS3012.
Signal cablebetween the DCSUand the DAFUsubrack
The MD64 male connectorat one end of the cable isconnected to the DAFU0 1 2or DAFU 3 4 5 port on theDCSU panel.The three DB26 maleconnectors at the other endof the cable are connected tothe COM/ONSHELL/DBUS/DBUS port on thepanel of the DDPU/DCOM/DFCU/DFCB in thecorresponding DAFUsubrack.
Both ends of the cable areconnected before delivery.
Signal cablebetween the DCSUand the DTRB
One end (MD64 maleconnector) is connected tothe TO_DTRB port on theDCSU.The other end (MD68 maleconnector) is connected tothe MD68 port on theDTRB.
Both ends of the cable areconnected before delivery.
Signal cablebetween the DFCBand the DFCU
One end is connected to theCOM1 or COM2 port on theDFCB panel.The other end is connectedto the COM-IN port on theDFCU panel.
This cable should beinstalled on site. For theinstallation method, refer toInstalling the Signal CableBetween the DFCB andthe DFCU of the BTS3012/BTS3012AE.
Signal transfercable for the fansubrack
One end (DB9 connector) isconnected to the To_FANport on the DCSU panel.The other end (DB26connector) is connected tothe COM port for the fanbox in the cabinet.
Both ends of the cable areconnected before delivery.
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Category
Sub-Category Installation Position Factory Settings
RFcable
RF RX/TX signalcables between theDTRU and theDDPU/DFCU/DFCB
The RF cables include theTX signal cable and the RXsignal cable. One end of theRF TX signal cable isconnected to the TX port onthe DTRU panel. The otherend is connected to the TXport on the DDPU/DFCU/DFCB panel.One end of the RF RX signalcable is connected to the RXport on the DTRU panel.The other end is connectedto the RX port on the DDPU/DFCU/DFCB panel.
The cables are installed onsite based on the actualrequirements. For details,refer to Installing the RFSignal Cables of theBTS3012/BTS3012AE.
Indoor 1/2-inchjumper
One end is connected to thefeeder, which is connectedto the antenna.The other end is connectedto the antenna port on theDDPU/DFCU/DFCB.
Both ends of the cableshould be connected on site.For details, refer toInstalling the Indoor 1/2-Inch Jumper of theBTS3012.
NOTE
Place the dustproof caps delivered with the cables under the cabinet for future use.
5.2 BTS3012 Power CablesThe BTS3012 power cables are classified into the power cables for the cabinet and power cablesfor the busbar. The power cables for the busbar are classified into the power cable between thebusbar and the DAFU subrack, power cable between the busbar and the fan subrack, and powercable between the busbar and the common subrack.
5.2.1 Power Cables for the BTS3012 CabinetThe power cables for the BTS3012 cabinet are used to lead the external power into the cabinet.The power cables are classified into the external input power cable and power cable betweenthe wiring copper bar and the busbar.
5.2.2 Power Cable from the BTS3012 Busbar to the DAFU SubrackThis describes function, structure, pin assignment, and installation positions of the power cablefrom the busbar to the DAFU subrack.
5.2.3 Power Cable from the BTS3012 Busbar to the DTRU SubrackThis describes the function, appearance, pin assignment, and installation positions of the powercable from the busbar to the DTRU subrack.
5.2.4 Power Cable from the BTS3012 Busbar to the Fan SubrackThis describes the function, appearance, pin assignment, and installation positions of the powercable from the BTS3012 busbar to the fan subrack.
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5.2.5 Power Cable from the BTS3012 Busbar to the Common SubrackThis describes the function, appearance, pin assignment, and installation positions of the powercable from the busbar to the common subrack.
5.2.1 Power Cables for the BTS3012 CabinetThe power cables for the BTS3012 cabinet are used to lead the external power into the cabinet.The power cables are classified into the external input power cable and power cable betweenthe wiring copper bar and the busbar.
FunctionThe power cables for the cabinet are used to lead the external power to the cabinet.
AppearanceThe external input power cable consists of a -48 V DC power wire and a grounding wire. Thegrounding wire has the same structure as the –48 V DC power wire. Both ends of the externalinput power cable are OT terminals. The color of the external input power cable is subject to theconditions on site.
The power cable between the wiring copper bar and the busbar consists of a -48 V DC powerwire and a grounding wire. The blue -48 V DC power wire has a cross-sectional area of 25mm2. The black grounding wire also has a cross-sectional area of 25 mm2. One end of the powercable between the wiring copper bar and the busbar is an OT terminal and the other end is a two-hole terminal.
Pin AssignmentNone.
Installation PositionFigure 5-1 shows the installation positions of the –48 V DC power wire and grounding wire ofthe power cables for the cabinet.
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Figure 5-1 Installation positions of the power cables for the cabinet
DC powerdistributionequipment
DC lightningprotection board
Power input wiring terminal block
Protection grounding bar
-48V
GND
1
2
To protectiongrounding barin equipment room
Table 5-2 describes the cables shown in Figure 5-1.
Table 5-2 Installation positions of the power cables for the cabinet
Number
PowerCable
Name One End Other End
1 Externalinput powercable
-48 V DCpower wire
OT terminal:connected to therelevant wiring post onthe power distributiondevice
Connected to theterminal labeled -48Von the power inputwiring terminal blockon top of the cabinet
Groundingwire
OT terminal:connected to therelevant wiring post onthe power distributiondevice
Two-hole terminal:connected to theterminal labeled GNDon the power inputwiring terminal blockon top of the cabinet
2 Power cablebetween thewiringcopper barand thebusbar
-48 V DCpower wire
OT terminal:connected to theterminal labeled -48Von the power inputwiring terminal blockon top of the cabinet
Two-hole terminal:connected to thecorresponding terminalon the busbar
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Number
PowerCable
Name One End Other End
Groundingwire
OT terminal:connected to theterminal labeled GNDon the power inputwiring terminal blockon top of the cabinet
Two-hole terminal:connected to thecorresponding terminalon the busbar
NOTE
The power cable between the wiring copper bar and the busbar is connected before delivery.
5.2.2 Power Cable from the BTS3012 Busbar to the DAFU SubrackThis describes function, structure, pin assignment, and installation positions of the power cablefrom the busbar to the DAFU subrack.
FunctionThis describes function, structure, pin assignment, and installation positions of the power cablefrom the busbar to the DAFU subrack.
AppearanceThe power cable from the busbar to the DAFU subrack is a multiple-branch cable. Each cableat the busbar end has three sub-branches and each branch supplies power to the three slots in theDAFU subrack. Figure 5-2 shows the power cable from the busbar to the DAFU subrack.
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Figure 5-2 Power cable from the Busbar to the DAFU subrack
X1
X2
X3
A
W1W4
W2
W5
W3
W6
View A View B
A1 A2 A3
X4
1
2
(1) 3V3 power connector (2) Common 2-pin connector
Pin AssignmentThe pin assignment of the three sub-branches are the same. The first sub-branch is taken as anexample. The first sub-branch routes the power from the busbar to the left-most module in theDAFU subrack, as shown in Table 5-3.
Table 5-3 Pin assignment of the power cable from the busbar to the DAFU subrack
Wire X1 End X4 End Wire Color
W1 X1.A3 X4.1 Blue
W4 X1.A1 X4.2 Black
Installation PositionTable 5-4 describes the installation positions of the power cable between the busbar to the DAFUsubrack.
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Table 5-4 Installation positions of the power cable from the busbar to the DAFU subrack
Power Cable One End (Common 2-PinConnector)
Other End (3V3PowerConnector)
Power cable between thebusbar and the DAFUsubrack
Connected to the corresponding MCBmarked as DAFU on the busbar
Connected to thePOWER port on theDDPU in theDAFU subrack orto the DC-IN-48Vport on the DFCU
NOTE
One BTS3012 cabinet is configured with two power cables between the busbar and the DAFU subrack.The two power cables are controlled by the same busbar switch.
5.2.3 Power Cable from the BTS3012 Busbar to the DTRU SubrackThis describes the function, appearance, pin assignment, and installation positions of the powercable from the busbar to the DTRU subrack.
Function
The power cable from the busbar to the DTRU subrack is used to supply the power from thebusbar to the DTRUs in the DTRU subrack.
Appearance
There are nine power cables that transmit the power on the busbar to the DTRU subrack. EachDTRU is configured with one power cable. Each two power cables are controlled by a MCB.These cables are same in structure and appearance. Figure 5-3 shows the power cable from thebusbar to the DTRU subrack.
Figure 5-3 Power cable from the busbar to the DTRU subrack
X1
A
W1
W2
X2
12
View A
A1 A2 A3
View B
B
(1) 3V3 power connector (2) Common 2-pin connector
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Pin AssignmentTable 5-5 describes the pin assignment of the power cable from the busbar to the DTRU subrack.
Table 5-5 Pin assignment of the power cable from the busbar to the DTRU subrack
Wire X1 End X2 End Wire Color
W1 X1.A3 X2.1 Blue
W2 X1.A1 X2.2 Black
Installation PositionThere are nine power cables that supply the power on the busbar to the DTRU subrack. Table5-6 shows the installation positions of the power cable.
Table 5-6 Installation positions of the power cable from the busbar to the DTRU subrack
Power Cable One End (Common 2-PinConnector)
Other End (3V3PowerConnector)
Power cable from thebusbar to DTRU5
Connected to the corresponding MCBmarked DTRU5 on the busbar
Connected to thePWR port on thefront panel ofDTRU5
Power cable from thebusbar to DTRU4
Connected to the corresponding MCBmarked DTRU4 on the busbar
Connected to thePWR port on thefront panel ofDTRU4
Power cable from thebusbar to DTRU3
Connected to the corresponding MCBmarked DTRU3 on the busbar
Connected to thePWR port on thefront panel ofDTRU3
Power cable from thebusbar to DTRU2
Connected to the corresponding MCBmarked DTRU2 on the busbar
Connected to thePWR port on thefront panel ofDTRU2
Power cable from thebusbar to DTRU1
Connected to the corresponding MCBmarked DTRU1 on the busbar
Connected to thePWR port onDTRU1
Power cable from thebusbar to DTRU 0
Connected to the corresponding MCBmarked DTRU 0 on the busbar
Connected to thePWR port on thefront panel ofDTRU 0
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Power Cable One End (Common 2-PinConnector)
Other End (3V3PowerConnector)
Power cable from thebusbar to DTRU8
Connected to the corresponding MCBmarked DTRU8 on the busbar
Connected to thePWR port on thefront panel ofDTRU8
Power cable from thebusbar to DTRU7
Connected to the corresponding MCBmarked DTRU7 on the busbar
Connected to thePWR port on thefront panel ofDTRU7
Power cable from thebusbar to DTRU6
Connected to the corresponding MCBmarked DTRU6 on the busbar
Connected to thePWR port on thefront panel ofDTRU6
5.2.4 Power Cable from the BTS3012 Busbar to the Fan SubrackThis describes the function, appearance, pin assignment, and installation positions of the powercable from the BTS3012 busbar to the fan subrack.
Function
The power cable from the busbar to the fan subrack is used to supply the power from the busbarto the fan box in the fan subrack.
Appearance
Figure 5-4 shows the power cable from the Busbar to the fan subrack.
Figure 5-4 Power cable from the busbar to the fan subrack
(1) 3V3 power connector (2) Common 2-pin connector
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Pin AssignmentTable 5-7 describes the pin assignment for the power cable from the busbar to the fan subrack.
Table 5-7 Pin assignment for the power cable from the busbar to the fan subrack
Wire X1 End X2 End Wire Color
W1 X1.A3 X2.1 Blue
W2 X1.A1 X2.2 Black
Installation PositionTable 5-8 describes the structure of the power cable from the busbar to the fan subrack.
Table 5-8 Installation positions of the power cable from the busbar to the fan subrack
Power Cable One End (Common 2-PinConnector)
Other End (3V3PowerConnector)
Power cable between thebusbar and the FANsubrack
Connected to the corresponding MCBmarked as FAN on the busbar
Connected to thePWR port on thefront panel of thefan box
5.2.5 Power Cable from the BTS3012 Busbar to the CommonSubrack
This describes the function, appearance, pin assignment, and installation positions of the powercable from the busbar to the common subrack.
FunctionThe power cable from the busbar to the common subrack is used to supply the power from thebusbar to the entire common subrack.
AppearanceOne power cable is used to connect the common subrack to the busbar. Figure 5-5 shows thepower cable.
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Figure 5-5 Power cable from the busbar to the common subrack
X1
A
W1
W2
X2
12
View A
A1 A2 A3
View B
B
(1) 3V3 power connector (2) Common 2-pin connector
Pin Assignment
Table 5-9 describes the pin assignment for the power cable from the busbar to the commonsubrack.
Table 5-9 Pin assignment of the power cable from the busbar to the common subrack
Wire X1 End X2 End Wire Color
W1 X1.A3 X2.1 Blue
W2 X1.A1 X2.2 Black
Installation Position
Table 5-10 describes the installation position of the power cable from the busbar to the commonsubrack.
Table 5-10 Installation positions of the power cable from the busbar to the common subrack
Power Cable One End (Common 2-PinConnector)
Other End (3V3PowerConnector)
Power cable from thebusbar to the commonsubrack
Connected to the corresponding MCBmarked DCCU on the busbar
Connected to thePOWER port on theDCCU panel
5.3 BTS3012 PGND CablesThe BTS3012 PGND cables are classified into the PGND cable for the external power input,PGND cable for the DC lightning protection board (copper sheet), and PGND cable betweenthe wiring copper bar and the cabinet.
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Function
The PGND cables keep the cabinet well grounded.
Appearance
The PGND cable is yellow and green in color. Both ends of the PGND cable are OT terminals,as shown in Figure 5-6.
Figure 5-6 PGND cable
Pin Assignment
None.
Installation Position
Figure 5-7 shows the installation positions of the PGND cable.
Figure 5-7 Installation positions of the PGND cables on top of the cabinet
DC powerdistributionequipment
DC lightningprotection board
Power input wiring terminal block
Protection grounding bar
2
To protectiongrounding barin equipment room
1
3
Table 5-11 describes the cables shown in Figure 5-7.
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Table 5-11 Installation positions of the PGND cables
Number
PGND Cable One End (OTTerminal)
Other End (OT Terminal)
1 PGND cable for theexternal power input
Connected to thePGND bar on top ofthe cabinet
Connected to the PGND bar in theequipment room
2 PGND cable betweenthe wiring copper barand the cabinet
Connected to the groundingterminal at the rear of the cabinetThe PGND cable is installed.
3 PGND cable for the DClightning protectionboard (copper sheet)
Connected to the DC lightningprotection board on top of thecabinet The PGND cable isinstalled.
5.4 BTS3012 Transmission CablesThe transmission cables for the BTS3012 consist of the E1 cables, optical cables, and Ethernetcables.
5.4.1 BTS3012 E1 线The E1 cable is used to transmit E1 trunk signals between the BTS and the BSC.
5.4.2 Optical Cable of the BTS3012/BTS3012AEThis describes the function, appearance, pin assignment, and installation positions of the opticalcable of the BTS3012/BTS3012AE.
5.4.3 Ethernet Cables of the BTS3012/BTS3012AEThis describes the function, appearance, pin assignment, and installation positions of theEthernet cables. There are two types of Ethernet cables: straight-through cable and crossovercable.
5.4.1 BTS3012 E1 线
The E1 cable is used to transmit E1 trunk signals between the BTS and the BSC.
FunctionThe E1 cable is used to transmit E1 trunk signals between the BTS and the BSC.
AppearanceThe E1 cable is a twisted pair cable with a length of 8 m. The E1 cable consists of four pairs of120-ohm twisted pairs. Each pair forms one E1 route. Therefore, each E1 cable provides fourE1 routes. The E1 cable uses a DB26 male connector at one end. The other end of the cable isbare. The connectors should be selected and made on site. Figure 5-8 shows the cable.
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Figure 5-8 E1 cable
X1
A
Pos.1
Pos.26
View A
(1) DB26 male connector
Installation PositionTable 5-12 describes the installation positions of the E1 cable in the BTS3012.
Table 5-12 Installation positions of the E1 cable
Wire Type BTS One End (DB26 MaleConnector)
Other End (Bare Wire)
E1 cable BTS3012 Connected to the TRANport for the DCCU
Connected to thetransmission equipmentsuch as DDF
5.4.2 Optical Cable of the BTS3012/BTS3012AEThis describes the function, appearance, pin assignment, and installation positions of the opticalcable of the BTS3012/BTS3012AE.
FunctionThe optical cable is used to transmit optical signals between the cabinet and other devices. Theoptical cable of the BTS3012/BTS3012AE uses the multi-mode fibers for short-distancetransmission.
AppearanceBoth ends of the multi-mode optical fiber are LC connectors. Figure 5-9 shows the optical cable.
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Figure 5-9 Optical cable
(1) Heat-shrink tube (2) Tail wire
(3) LC connector
CAUTIONApply a protective cap when the optical connector is not used.
Pin AssignmentNone
Installation PositionTable 5-13 describes the installation positions of the optical cable.
Table 5-13 Installation positions of the optical cable
Cable Type One End Other End
Optical cable Connected to the opticaltransmission equipment, such asthe Metro100
Connected to the transmission interfacebox, such as the ODF
5.4.3 Ethernet Cables of the BTS3012/BTS3012AEThis describes the function, appearance, pin assignment, and installation positions of theEthernet cables. There are two types of Ethernet cables: straight-through cable and crossovercable.
FunctionThe Ethernet cables include the straight-through cable and crossover cable. They are used totransfer maintenance signals.
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l The straight-through cable connects the PC where the site maintenance terminal system isinstalled to the network.
l The crossover cable directly connects the PC where the site maintenance terminal systemis installed to the BTS.
Appearance
The crossover cable and straight-through cable use the same connector. However, they differ inconnector wiring. The Ethernet cable use RJ45 connectors on both ends, as shown in Figure5-10.
Figure 5-10 Ethernet cable
W
X1
1
8
1
8
X2
Pin Assignment
Table 5-14 describes the pin assignment of the Ethernet cable.
Table 5-14 Pin assignment of the Ethernet cable
X1 End Wire Color Wire Type X2 End oftheStraight-ThroughCable
X2 End of theCrossoverCable
X1.2 Orange Twisted pair X2.2 X2.6
X1.1 White/orange X2.1 X2.3
X1.6 Green Twisted pair X2.6 X2.2
X1.3 White and green X2.3 X2.1
X1.4 Blue Twisted pair X2.4 X2.4
X1.5 Blue/white X2.5 X2.5
X1.8 Brown Twisted pair X2.8 X2.8
X1.7 White and Brown X2.7 X2.7
Installation Position
The installation positions of the straight-through cable and crossover cable are same, as shownin Table 5-15.
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Table 5-15 Installation positions of the Ethernet cable
Type One End Other End
Straight-throughcable
Connected to the MMI port on theDTMU panel
Connected to the HUB or the LANswitch port
Connected to the Ethernet port of thePC where the site maintenanceterminal system is installed
Crossovercable
Connected to the MMI port on theDTMU panel
Connected to the Ethernet port of thePC where the site maintenanceterminal system is installed
5.5 BTS3012 Signal CablesThe signal cables for the BTS3012 consist of the lightning protection failure alarm signal cable,power detection signal cable, combining short-circuiting signal cable, signal cable for cabinetgroups, RET control signal cable, signal cable between the DCSU and DTRB, signal cablebetween the DCSU and DAFU, signal cable between the DFCB and DFCU, and fan subracksignal cable.
5.5.1 Lightning Protection Failure Alarm Cable of the BTS3012This describes the function, appearance, pin assignment, and installation positions of thelightning protection failure alarm cable.
5.5.2 Power Detection Cables of the BTS3012/BTS3012AEThis describes the function, structure, pin assignment, and installation position of the powerdetection cable.
5.5.3 Signal Cable for BTS3012 Cabinet GroupsThis describes the function, appearance, pin assignment, and installation positions of the signalcable for BTS3012 cabinet groups. This cable is used for only the BTS3012 (for 18TRX II)cabinet groups.
5.5.4 BTS3012 Environment Monitoring Signal CableThis describes the environment monitoring signal cable. It is used to transmit the externalenvironment monitoring signals.
5.5.5 RET Control Signal Cable of the BTS3012/BTS3012AEThe RET control signal cables are used to connect the DATU with the Bias-Tee on top of acabinet, thus enables the control over power supply and RET.
5.5.6 Signal Cable Between the DCSU and the DAFU Subrack of the BTS3012This describes the function, appearance, pin assignment, and installation positions of the signalcables between the DCSU and the DAFU subrack.
5.5.7 Signal Cable Between the DCSU and the DTRB of the BTS3012/BTS3012AEThis describes the function, appearance, pin assignment, and installation positions of the signalcable between the DCSU and the DTRB.
5.5.8 Signal Transfer Cable for the Fan Subrack of the BTS3012This describes the function, appearance, pin assignment, and installation positions of the signaltransfer cable for the fan subrack of the BTS3012.
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5.5.9 Diversity Receive Short-Circuiting Signal Cable of the BTS3012/BTS3012AEThis describes the function, structure, pin assignment, and installation position of the diversityreceive short-circuiting cable when the DFCU (900 MHz), DFCU (1800 MHz), or DFCB (900MHz) is used.
5.5.10 Four-In-One Short-Circuiting Signal Cable of the BTS3012/BTS3012AEThis describes the function, structure , pin assignment, and installation positions of the four-in-one short-circuiting cable when the DFCU/DFCB is used.
5.5.11 Signal Cable Between the DFCB and the DFCU of the BTS3012/BTS3012AEThis describes the function, appearance, pin assignment, and installation positions of the signalcable between the DFCB and the DFCU.
5.5.1 Lightning Protection Failure Alarm Cable of the BTS3012This describes the function, appearance, pin assignment, and installation positions of thelightning protection failure alarm cable.
Function
The lightning protection failure alarm cable is used to transmit the Boolean signals of the DCpower surge protection board to the DCCU, notifying the cabinet of the availability of the DCpower lightning protection board.
Appearance
Figure 5-11 shows the lightning protection failure alarm cable.
Figure 5-11 Lightning protection failure alarm cable
1
A
X1
W1
W2X2
2
View A X3
(1) 2-pin phoenix connector (2) Cord end terminal
Pin Assignment
Table 5-16 describes the pin assignment for the lightning protection failure alarm cable.
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Table 5-16 Pin assignment for the lightning protection failure alarm cable
Wire 2-Pin PhoenixConnector
Cord End Terminal Wire Color
W1 X1.1 X2 White
W2 X1.2 X3 Red
Installation PositionTable 5-17 describes the installation positions of the lightning protection failure alarm cable.
Table 5-17 Installation positions of the lightning protection failure alarm cable
Wire Type One End (2-Pin PhoenixConnector)
Other End (Core End Connector)
Lightningprotection failurealarm cable
Connected to the S1+S1- porton the DCCU panel.
Connected to the wiring terminal blockon the DC lightning protection boardon top of the cabinet.
5.5.2 Power Detection Cables of the BTS3012/BTS3012AEThis describes the function, structure, pin assignment, and installation position of the powerdetection cable.
FunctionThe power detection cable transmits the incoming RF signals from the DFCU/DFCB to thepower detection unit for power detection. This cable can be categorized into forward powerdetection cable and reverse power detection cable. The forward power detection cable has thesame structure as the reverse power detection cable.
AppearanceFigure 5-12 shows the power detection cable.
Figure 5-12 Power detection cable
RF Rx Cable
1 1
(1) SMA elbow male connector
Pin AssignmentNone
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Installation PositionTable 5-18 describes the installation positions of the forward power detection cable. Table5-19 describes the installation positions of the reverse power detection cable.
Table 5-18 Installation position of the forward power detection cable
Cable Type One End The Other End
Forward powerdetection cable
Connects with the PF inport on the DFCU (900MHz) panel
Connects with the PF out port on the DFCU(900 MHz) panel
Connects with the PF inport on the DFCB (900MHz) panel
Connects to the PF out port on the DFCB(900 MHz) panel when the RF signals comefrom the DFCB (900 MHz) antenna port
Connects to the PF out port on the DFCU(900 MHz) panel when the RF signals comefrom the DFCU (900 MHz) antenna port
Connects with the PF inport on the DFCU (1800MHz) panel
Connects with the PF out port on the DFCU(1800 MHz) panel
Connects with the PF inport on the DFCB (1800MHz) panel
Table 5-19 Installation position of the reverse power detection cable
Cable Type One End The Other End
Reverse powerdetection cable
Connects with the PR inport on the DFCU (900MHz) panel
Connects with the PR out port on the DFCU(900 MHz) panel
Connects with the PR inport on the DFCB (900MHz) panel
Connects to the PR out port on the DFCB(900 MHz) panel when the RF signals comefrom the DFCB (900 MHz) antenna port
Connects to the PR out port on the DFCU(900 MHz) panel when the RF signals comefrom the DFCU (900 MHz) antenna port
Connects with the PR inport on the DFCU (1800MHz) panel
Connects with the PR out port on the DFCU(1800 MHz) panel
Connects with the PR inport on the DFCB (1800MHz) panel
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5.5.3 Signal Cable for BTS3012 Cabinet GroupsThis describes the function, appearance, pin assignment, and installation positions of the signalcable for BTS3012 cabinet groups. This cable is used for only the BTS3012 (for 18TRX II)cabinet groups.
Function
The signal cable for cabinet groups is used to transfer the clock and control signals between thecabinets in the cabinet groups.
Appearance
Figure 5-13 shows the appearance of the signal cable for BTS3012 cabinet groups. Theconnectors on both ends of the cable are MD64 elbow male connectors.
Figure 5-13 Signal cable for cabinet groups
X1
A Pos.1
Pos.64View A
X2
B
Pos.1
Pos.64
View B
Pin Assignment
Table 5-20 describes the pin assignment of the signal cable for cabinet groups.
Table 5-20 Pin assignment of the signal cable for cabinet groups
X1 End Wire Type X2 End
X1.1 Twisted pair X2.1
X1.2 X2.2
X1.17 Twisted pair X2.5
X1.18 X2.6
X1.19 Twisted pair X2.9
X1.20 X2.10
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X1 End Wire Type X2 End
X1.23 Twisted pair X2.13
X1.24 X2.14
X1.27 Twisted pair X2.15
X1.28 X2.16
X1.5 Twisted pair X2.17
X1.6 X2.18
X1.9 Twisted pair X2.19
X1.10 X2.20
X1.13 Twisted pair X2.23
X1.14 X2.24
X1.15 Twisted pair X2.27
X1.Shell Twisted pair X2.Shell
Installation PositionTable 5-21 describes the installation positions of the signal cable for cabinet groups.
Table 5-21 Installation positions of the signal cable for cabinet groups
Wire Type BTS One End Other End
Signal cablefor cabinetgroups
BTS3012 Connected to the CKB porton the DCCU in the maincabinet group
Connected to the CKB porton the DCCU in theextension cabinet group
5.5.4 BTS3012 Environment Monitoring Signal CableThis describes the environment monitoring signal cable. It is used to transmit the externalenvironment monitoring signals.
FunctionThe environment monitoring signal cable is used to transmit the external environmentmonitoring signals.
AppearanceFigure 5-14 shows the environment monitoring signal cable.
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Figure 5-14 Environment monitoring signal cable1
2
Pos.1
Pos.44
A
X1
View A
(1) DB44 male connector (2) Bare wire
Pin AssignmentTable 5-22 describes the pin assignment of the environment monitoring signal cable.
Table 5-22 Pin assignment of the environment monitoring signal cable
X1 End Wire Type Color of Bare Wire Signal Type Pin Assignment
X1.1 Twisted pair White RELAY1_H Boolean output 2
X1.2 Blue RELAY1_L
X1.3 Twisted pair White RELAY3_H Boolean output 4
X1.4 Orange RELAY3_L
X1.31 Twisted pair Green RELAY0_L Boolean output 1
X1.32 White RELAY0_H
X1.33 Twisted pair Brown RELAY2_L Boolean output 3
X1.34 White RELAY2_H
X1.6 Twisted pair White SWITCH_H1 Boolean or drycontact input 1
X1.16 Gray GRND
X1.7 Twisted pair Blue SWITCH_H2 Boolean or drycontact input 2
X1.17 Red GRND
X1.8 Twisted pair Orange SWITCH_H3 Boolean or drycontact input 3
X1.18 Red GRND
X1.9 Twisted pair Green SWITCH_H4 Boolean or drycontact input 4
X1.19 Red GRND
X1.10 Twisted pair Brown SWITCH_H5 Boolean or drycontact input 5
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X1 End Wire Type Color of Bare Wire Signal Type Pin Assignment
X1.20 Red GRND
X1.11 Twisted pair Gray SWITCH_H6 Boolean or drycontact input 6
X1.21 Red GRND
X1.13 Twisted pair Blue SWITCH_H7 Boolean or drycontact input 8
X1.25 Black GRND
X1.14 Twisted pair Orange SWITCH_H8 Boolean or drycontact input 7
X1.26 Black GRND
X1.15 Twisted pair Green SWITCH_H9 Reserved
X1.27 Black GRND
X1.30 Twisted pair Brown SWITCH_H10
X1.29 Black GRND
X1.44 Twisted pair Gray SWITCH_H11
X1.28 Black GRND
X1.43 Twisted pair Blue SWITCH_H12
X1.24 Yellow GRND
X1.42 Twisted pair Orange SWITCH_H13
X1.38 Yellow GRND
X1.41 Twisted pair Green SWITCH_H13
X1.37 Yellow GRND
X1.40 Twisted pair Brown SWITCH_H14
X1.36 Yellow GRND
X1.39 Twisted pair Gray SWITCH_H15
X1.35 Yellow GRND
Installation PositionsTable 5-23 lists the installation positions of the environment monitoring signal cable.
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Table 5-23 Installation positions of the environment monitoring signal cable
Cable Type One End (DB44 MaleConnector)
Other End (Bare Wire)
Environmentmonitoring signalcable
One end is connected to port IN-OUT on the DEMU.
The other end is connected to theDDF
5.5.5 RET Control Signal Cable of the BTS3012/BTS3012AEThe RET control signal cables are used to connect the DATU with the Bias-Tee on top of acabinet, thus enables the control over power supply and RET.
FunctionThe RET control signal cables are used to connect the DATU with the Bias-Tee on top of acabinet, thus enables the control over power supply and RET.
AppearanceFigure 5-15 shows the RET control signal cable.
Figure 5-15 RET control signal cable
1
W
X1
X2
2
(1) SMA straight male connector (2) SMA elbow male connector
Pin AssignmentNone
Installation PositionTable 5-24 describes the installation positions of the RET control signal cable.
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Table 5-24 Installation positions of the RET control signal cable
Cable Type One End (SMA Straight MaleConnector)
Other End (SMA Elbow MaleConnector)
Control signalcable of the RETantenna
Connected to the SMA port on theBias-Tee
Connected to any ANT port on theDATU panel
5.5.6 Signal Cable Between the DCSU and the DAFU Subrack ofthe BTS3012
This describes the function, appearance, pin assignment, and installation positions of the signalcables between the DCSU and the DAFU subrack.
FunctionThe signal cables between the DCSU and the DAFU subrack are used to transmit signals betweenthe DCSU and the DDPU/DCOM/DFCU/DFCB in the DAFU subrack.
AppearanceThere are two signal cables between the DCSU and the DAFU subrack.l One signal cable connects the DCSU to DAFU0-DAFU2.
l The other signal cable connects the DCSU to DAFU3-DAFU5.
The two cables have the same structure and appearance. Figure 5-16 shows the cable.
Figure 5-16 Signal cable between the DCSU and the DAFU subrack
X1
X3
X4
X2
B
A
Pos.1
Pos.1
Pos.64
Pos.26View B
View A
W3
W2
W1
(A) MD64 male connector (B) DB26 male connector
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Pin Assignment
The two cables have the same pin assignment. X2 in Figure 5-16 connects to DAFU0 or DAFU3.Table 5-25 lists the pin assignment.
Table 5-25 Pin assignment of W1
X1 End Wire Type X2 End
X1.1 Twisted pair X2.7
X1.2 X2.8
X1.3 Twisted pair X2.11
X1.4 X2.10
X1.9 Twisted pair X2.20
X1.10 X2.19
X1.5 Twisted pair X2.13
X1.6 X2.12
X1.17 Twisted pair X2.16
X1.18 X2.9
X1.19 Twisted pair X2.17
X1.7 X2.18
X1.11 Twisted pair X2.15
X1.12 X2.24
X1.13 Twisted pair X2.26
X1.8 X2.25
X3 in Figure 5-16 connects to DAFU1 or DAFU4. Table 5-26 lists the pin assignment.
Table 5-26 Pin assignment of W2
X1 End Wire Type X3 End
X1.23 Twisted pair X3.7
X1.24 X3.8
X1.25 Twisted pair X3.11
X1.26 X3.10
X1.31 Twisted pair X3.20
X1.32 X3.19
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X1 End Wire Type X3 End
X1.27 Twisted pair X3.13
X1.28 X3.12
X1.39 Twisted pair X3.9
X1.40 X3.16
X1.41 Twisted pair X3.17
X1.29 X3.18
X1.33 Twisted pair X3.15
X1.34 X3.24
X1.35 Twisted pair X3.26
X1.30 X3.25
X4 in Figure 5-16 connects to DAFU2 or DAFU5. Table 5-27 lists the pin assignment.
Table 5-27 Pin assignment of W3
X1 End Wire Type X3 End
X1.45 Twisted pair X4.7
X1.46 X4.8
X1.47 Twisted pair X4.11
X1.48 X4.10
X1.53 Twisted pair X4.20
X1.54 X4.19
X1.49 Twisted pair X4.13
X1.50 X4.12
X1.61 Twisted pair X4.9
X1.62 X4.17
X1.63 Twisted pair X4.16
X1.51 X4.18
X1.55 Twisted pair X4.15
X1.56 X4.24
X1.57 Twisted pair X4.26
X1.52 X4.25
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Installation PositionTable 5-28 describes the installation positions of the two signal cables between the DCSU andthe DAFU subrack.
Table 5-28 Installation positions of the signal cables between the DCSU and the DAFU subrack
Signal cables One End (MD64Male Connector)
Other End (Three DB26 Male Connectors)
Connects theDCSU toDAFU0–DAFU2
Connected to theDAFU0 1 2 port onthe DCSU panel
Connected to the COM/ONSHELL/DBUS/DBUS ports on the DDPU/DCOM/DFCU/DFCBpanel in DAFU0
Connected to the COM/ONSHELL/DBUS/DBUS ports on the DDPU/DCOM/DFCU/DFCBpanel in DAFU1
Connected to the COM/ONSHELL/DBUS/DBUS ports on the DDPU/DCOM/DFCU/DFCBpanel in DAFU2
Connected theDCSU toDAFU3-DAFU5
Connected to theDAFU3 4 5 port onthe DCSU panel
Connected to the COM/ONSHELL/DBUS/DBUS ports on the DDPU/DCOM/DFCU/DFCBpanel in DAFU3
Connected to the COM/ONSHELL/DBUS/DBUS ports on the DDPU/DCOM/DFCU/DFCBpanel in DAFU4
Connected to the COM/ONSHELL/DBUS/DBUS ports on the DDPU/DCOM/DFCU/DFCBpanel in DAFU5
5.5.7 Signal Cable Between the DCSU and the DTRB of theBTS3012/BTS3012AE
This describes the function, appearance, pin assignment, and installation positions of the signalcable between the DCSU and the DTRB.
FunctionThe signal cable between the DCSU and the DTRB is used to transmit signals between the DTRUand the DCSU. The signals include the data bus signals, clock bus signals, and CBUS2 signals.
AppearanceFigure 5-17 shows the signal cable between the DCSU and the DTRB.
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Figure 5-17 Signal cable between the DCSU and the DTRB
W
A
X2X1
2Pos.68
View B
Delander
Pos.1
View APos.1
Pos.64
1
B
(1) MD64 male connector (2) MD68 male connector
Pin Assignment
Table 5-29 describes the pin assignment of the signal cable between the DCSU and the DTRB.
Table 5-29 Pin assignment of the signal cable between the DCSU and the DTRB
X1 End Wire Type X2 End
X1.1 Twisted pair X2.1
X1.2 X2.2
X1.3 Twisted pair X2.35
X1.4 X2.36
X1.5 Twisted pair X2.3
X1.6 X2.46
X1.7 Twisted pair X2.4
X1.8 X2.5
X1.9 Twisted pair X2.38
X1.10 X2.39
X1.11 Twisted pair X2.6
X1.12 X2.40
X1.13 Twisted pair X2.7
X1.14 X2.8
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X1 End Wire Type X2 End
X1.15 Twisted pair X2.41
X1.16 X2.42
X1.17 Twisted pair X2.10
X1.18 X2.11
X1.19 Twisted pair X2.44
X1.20 X2.45
X1.21 Twisted pair X2.21
X1.22 X2.26
X1.23 Twisted pair X2.13
X1.24 X2.14
X1.25 Twisted pair X2.47
X1.26 X2.48
X1.27 Twisted pair X2.55
X1.28 X2.60
X1.29 Twisted pair X2.16
X1.30 X2.17
X1.31 Twisted pair X2.50
X1.32 X2.51
X1.33 Twisted pair X2.19
X1.34 X2.20
X1.35 Twisted pair X2.53
X1.36 X2.54
X1.37 Twisted pair X2.18
X1.38 X2.52
X1.39 Twisted pair X2.22
X1.40 X2.23
X1.41 Twisted pair X2.25
X1.42 X2.59
X1.43 Twisted pair X2.37
X1.44 X2.49
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X1 End Wire Type X2 End
X1.45 Twisted pair X2.27
X1.46 X2.28
X1.47 Twisted pair X2.61
X1.48 X2.62
X1.49 Twisted pair X2.30
X1.50 X2.31
X1.51 Twisted pair X2.64
X1.52 X2.65
X1.55 Twisted pair X2.58
X1.56 X2.56
X1.57 Twisted pair X2.24
X1.58 X2.57
X1.59 Twisted pair X2.32
X1.60 X2.66
X1.61 Twisted pair X2.33
X1.62 X2.34
X1.63 Twisted pair X2.67
X1.64 X2.68
X1.53 Twisted pair X2.63
Installation PositionTable 5-30 describes the installation positions of the signal cable between the DCSU and theDTRB.
Table 5-30 Installation positions of the signal cable between the DCSU and the DTRB
Cable Name One End (MD64 MaleConnector)
Other End (MD68 Male Connector)
Signal cablebetween theDCSU and theDTRB
Connected to the TO_DTRBport on the DCSU panel
Connected to the MD68 port on theDTRB
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5.5.8 Signal Transfer Cable for the Fan Subrack of the BTS3012This describes the function, appearance, pin assignment, and installation positions of the signaltransfer cable for the fan subrack of the BTS3012.
Function
The signal transfer cable for the fan subrack is used to transmit the information of the fan boxto the DCSU.
Appearance
Figure 5-18 shows the signal transfer cable for the fan subrack.
Figure 5-18 Signal transfer cable for the fan subrack
X1X2
A
Pos.1
Pos.26
View A
B
Pos.1
Pos.9
View B
(A) DB26 male connector (B) DB9 common 5-pin connector
Pin Assignment
Table 5-31 describes the pin assignment in Figure 5-18.
Table 5-31 Pin assignment of W1
Pin of the DB26Connector at the X1 End
Wire Type DB9 connector pin at the X2end
X1.1 Twisted pair X2.2
X1.10 X2.3
X1.11 Twisted pair X2.4
X1.19 X2.5
Installation Position
Table 5-32 describes the installation positions of the fan subrack signal transfer cable.
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Table 5-32 Installation positions of the fan subrack signal transfer cable
Wire Type One End (DB9 Connector) Other End (DB26 Connector)
Signal transfercable for the fansubrack
Connected to the To_FAN port onthe DSCU panel
Connected to the COM port on theFAN box
5.5.9 Diversity Receive Short-Circuiting Signal Cable of theBTS3012/BTS3012AE
This describes the function, structure, pin assignment, and installation position of the diversityreceive short-circuiting cable when the DFCU (900 MHz), DFCU (1800 MHz), or DFCB (900MHz) is used.
Function
The diversity receive short-circuiting cable is used to transfer the diversity receive signals fromthe antenna subsystem when the DFCU (900 MHz), DFCU (1800 MHz), or DFCB (900 MHz)is used.
Appearance
Figure 5-19 shows the diversity receive short-circuiting cable.
Figure 5-19 Diversity receive short-circuiting cable
RF Rx Cable1 1
(1) SMA elbow male connector
Core Description
None
Installation Position
Table 5-33 describes the installation position of the diversity receive short-circuiting cable.
Table 5-33 Installation position of the diversity receive short-circuiting cable
Cable Type One End The Other End
Diversity receiveshort-circuitingcable
Connects with the HL-IN port on theDFCU (900 MHz) panel
Connects with the RXD-OUT/HL-OUT port on the DFCU(900 MHz) panel
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Cable Type One End The Other End
Connects with the HL-IN port on theDFCU (1800 MHz) panel
Connects with the RXD-OUT/HL-OUT port on the DFCU(1800 MHz) panel
Connects with the HL-IN port on theDFCB (900 MHz) panel
Connects with the RXD-OUT/HL-OUT port on the DFCB(900 MHz) panel
5.5.10 Four-In-One Short-Circuiting Signal Cable of the BTS3012/BTS3012AE
This describes the function, structure , pin assignment, and installation positions of the four-in-one short-circuiting cable when the DFCU/DFCB is used.
FunctionThe four-in-one short-circuiting cable combines four TX signals into one for transmission whenthe DFCU/DFCB is used. It can be used to combine six TX signals when the DFCU and DFCBis cascaded.
AppearanceFigure 5-20 shows the four-in-one short-circuiting signal cable.
Figure 5-20 Four-in-one short-circuiting signal cable
RF Tx Cable1 1
(1) N elbow male connector
Pin AssignmentNone
Installation PositionTable 5-34 describes the installation position of the four-in-one short-circuiting signal cable.
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Table 5-34 Installation position of the four-in-one short-circuiting signal cable
Signal Cable One End The Other End
Four-in-one short-circuiting signalcable
Connects to the TX-COM port on the DFCUpanel
Connects to the TX-DUP port on the DFCUpanel
5.5.11 Signal Cable Between the DFCB and the DFCU of theBTS3012/BTS3012AE
This describes the function, appearance, pin assignment, and installation positions of the signalcable between the DFCB and the DFCU.
FunctionThe signal cable between the DFCB and the DFCU is used to transmit two routes of combinedRF signals (two-in-one) to the DFCU so that the DFCU can combine six routes of RF signalsinto one route for transmission.
AppearanceFigure 5-21 shows the signal cable between the DFCB and the DFCU.
Figure 5-21 Signal cable between the DFCB and the DFCU
RF Tx Cable1 1
(1) N elbow male connector
Pin AssignmentNone
Installation PositionTable 5-35 describes the installation positions of the signal cable between the DFCB and theDFCU.
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Table 5-35 Installation positions of the signal cable between the DFCB and the DFCU
Signal Cable One End The Other End
Signal cablebetween theDFCB and theDFCU
Connects to the COM-INport on the DFCU panel
Connects to the COM1 or COM2 port onthe DFCB panel
5.6 BTS3012 RF CablesThe RF cables of the BTS3012 include the BTS3012 RF signal cables and the BTS3012 indoor1/2-inch RF jumper.
5.6.1 RF Signal Cables of the BTS3012/BTS3012AEThis describes the function, appearance, pin assignment, and installation positions of the RFsignal cables.
5.6.2 Indoor 1/2-Inch Jumper of the BTS3012This describes the function, appearance, pin assignment, and installation positions of the indoor1/2-inch jumper.
5.6.1 RF Signal Cables of the BTS3012/BTS3012AEThis describes the function, appearance, pin assignment, and installation positions of the RFsignal cables.
FunctionThe RF signal cables are classified into RF RX signal cable and RF TX signal cable.l The RF RX signal cable connects the RX ports between the DDPU/DFCU/DFCB and the
DTRU. This cable is used to transmit UL signals.l The RF TX signal cable connects the TX ports between the DDPU/DFCU/DFCB and the
DTRU. This cable is used to transmit DL signals.
AppearanceFigure 5-22 shows the RF RX cable and the RF TX signal cable.
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Figure 5-22 RF RX signal cable and RF TX signal cable
(1) SMA elbow male connector (2) N elbow male connector
Pin AssignmentNone
Installation PositionTable 5-36 describes the installation positions of the RF signal cables.
Table 5-36 Installation positions of the RF signal cables
Cable Name One End Other End
RF TX signal cable Connects to the TX port onthe DTRU panel
Connects to the TX port on theDDPU/DFCU/DCOM/DFCB panel
RF RX signal cable Connects to the RX port onthe DTRU panel
Connects to the RX port on theDDPU/DFCU/DCOM/DFCB panel
NOTE
In inter-cabinet cell configuration, the RF RX cables should be connected between two cabinets. TheBTS3012 cabinet uses two RF RX cables with 2.8 m in length to set up the connection between the twocabinets. The RF RX cable uses SMA coaxial connectors at both ends.
If the DCOM is used in the DAFU subrack, two RF TX signals are required between the DTRU and theDDPU. For details on the connection of the ports, refer to Ports on the DCOM.
5.6.2 Indoor 1/2-Inch Jumper of the BTS3012This describes the function, appearance, pin assignment, and installation positions of the indoor1/2-inch jumper.
FunctionThe indoor 1/2-inch jumper is used to transmit signals between the BTS and the antenna systemby connecting one end of the jumper to the ANT port on the DDPU/DFCU/DFCB and connectingthe other end of the jumper to the feeder through a feeder connector.
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Appearance
The indoor 1/2-inch jumper uses a DIN male connector at both ends. The connectors should bemade on site according to the actual situations or to the customer's requirements. For details onmaking the DIN male connectors, refer to the instruction guide given in the connector bag.Figure 5-23 shows the jumper.
Figure 5-23 Indoor 1/2-inch jumper
1 1
(1) DIN male connector
Pin Assignment
None.
Installation Position
Table 5-37 describes the installation positions of the indoor 1/2-inch jumper.
Table 5-37 Installation positions of the indoor 1/2-inch jumper
Wire Type One End Other End
Indoor 1/2-inchjumper
Connected to the ANT port on theDDPU/DFCU/DFCB
Connected to the feeder of theantenna system
5.7 Cables Between the BTS3012 and the AuxiliaryEquipment
This describes the cables between the BTS3012 and the auxiliary equipment. The cables betweenthe BTS3012 and the auxiliary equipment consist of the signal cables in the external environmentalarm box and the power cables between the Sidepower and the BTS3012.
5.7.1 Signal Cable for the External Environment Alarm Box of the BTSThis describes the function, appearance, pin assignment, and installation positions of the signalcable of the external environment alarm box in the BTS. This cable is used when the EMU isconfigured.
5.7.2 Power Cable Between the Sidepower and the BTS3012This describes the function, appearance, pin assignment, and installation positions of the powercable between the Sidepower and the BTS3012.
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5.7.1 Signal Cable for the External Environment Alarm Box of theBTS
This describes the function, appearance, pin assignment, and installation positions of the signalcable of the external environment alarm box in the BTS. This cable is used when the EMU isconfigured.
Function
The signal cable for the external environment alarm box is used to transmit the alarm signals tothe BTS. This helps the BTS take actions to clear relevant alarms.
Appearance
Figure 5-24 shows the signal cable for the external environment alarm box.
Figure 5-24 Signal cable for the external environment alarm box
X1
1 1
X2
View A
AA
W
View A
Pos.1
Pos.9
Pos.1
Pos.9
(1) DB9 male connector
Pin Assignment
Table 5-38 describes the pin assignment for the signal cable for the external environment alarmbox.
Table 5-38 Pin assignment for the signal cable for the external environment alarm box
X1 End X2 End Wire Type Remarks
X1.3 X2.2 Twisted pair WARNING_T+
X1.7 X2.6 WARNING_T-
X1.2 X2.3 Twisted pair WARNING_R+
X1.6 X2.7 WARNING_R-
Installation Position
Table 5-39 describes the installation positions of the signal cable for the external environmentalarm box.
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Table 5-39 Installation positions of the signal cable for the external environment alarm box
BTS One End Other End
BTS3012 Connected to the COM port onthe DCCU.
Connected to the correspondingcontrol device.
5.7.2 Power Cable Between the Sidepower and the BTS3012This describes the function, appearance, pin assignment, and installation positions of the powercable between the Sidepower and the BTS3012.
FunctionThis cable is used to supply the -48 V DC input from the Sidepower to the BTS3012 cabinet.
Installation PositionTable 5-40 describes the installation positions of the power cable between the Sidepower andthe BTS3012.
Table 5-40 Installation positions of the power cable between the Sidepower and the BTS3012
Signal Cable One End (OT Terminal) Other End
Power CableBetween theSidepower and theBTS3012
The -48 V DC power cable isconnected to the negative copperbar on the Sidepower.
The -48 V DC power cable isconnected to the -48 V terminal ontop of the BTS3012 cabinet.
The grounding cable is connectedto the positive copper bar on theSidepower.
The grounding cable is connectedto the GND terminal on top of theBTS3012 cabinet.
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