Product Description
iSite BTS3006C V300R008
Issue 01
Date 2007-09-25
HUAWEI TECHNOLOGIES CO., LTD.
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Huawei Technologies Co., Ltd. provides customers with comprehensive technical support and service. Please feel free to contact our local office or company headquarters.
Huawei Technologies Co., Ltd.
Address: Huawei Industrial Base Bantian, Longgang Shenzhen 518129 People's Republic of China
Website: http://www.huawei.com
Email: [email protected]
Copyright © Huawei Technologies Co., Ltd. 2007. All rights reserved. No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd. Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other trademarks and trade names mentioned in this document are the property of their respective holders. Notice The information in this document is subject to change without notice. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute the warranty of any kind, express or implied.
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About This Document
Author Prepared by Gao Xiulan Date 2007-09-25
Reviewed by Feng Baoshun,Song limin, Li baomin, Yang changdong, Chen ping, Guo jiang, Kang xuhong, Gong chuya, Lin mudan
Date 2007-09-10
Approved by Feng Baoshun Date 2007-09-25
Summary This document consists of seven chapters and three appendixes. It is organized as follows:
Chapter Content
1 Introduction to BTS3006C This chapter introduces the position of the BTS3006C in the network.
2 Key Benefits This chapter introduces the main features of the BTS3006C.
3 System Architecture This chapter introduces the configuration and physical architecture of the BTS3006C.
4 Services and Features This chapter introduces the main services and features of the BTS3006C.
5 Operation and Maintenance
This chapter introduces the operation and maintenance function of the BTS3006C.
6 Reliability This chapter introduces the measures taken in reliability design of the BTS3006C from the aspects of system, hardware and software.
7 Technical Specifications This chapter lists the main performance specifications and engineering parameters of the BTS3006C.
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Chapter Content
A Technical Standards The appendix lists the technical standards that the BTS3006C conforms to.
B Glossary The appendix lists the glossary involved in this manual.
C Acronyms and Abbreviations
The appendix lists the acronyms and abbreviations involved in this manual.
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History Issue Details Date Author Approved by
01 Initial commercial release 2007-09-25 Gao Xiulan Feng baoshun
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Contents
1 Introduction to BTS3006C ............................................................................................. 9 1.1 Position of the BTS3006C in the GSM Network ........................................................................... 9 1.2 Features of the BTS3006C ........................................................................................................ 10
2 Key Benefits...................................................................................................................11 2.1 Coverage Capability ...................................................................................................................11 2.2 Capacity.....................................................................................................................................11 2.3 Environment Adaptability ............................................................................................................11 2.4 Power Supply and Backup Power Supply ...................................................................................11 2.5 Installation..................................................................................................................................11 2.6 Networking Capability.................................................................................................................11 2.7 Clock and Synchronization .........................................................................................................11
3 System Architecture .....................................................................................................11 3.1 Physical Architecture ..................................................................................................................11 3.2 Functional Architecture ...............................................................................................................11
3.2.1 Common Subsystem..........................................................................................................11 3.2.2 Double-Transceiver Subsystem..........................................................................................11 3.2.3 RF Front-End Subsystem...................................................................................................11
3.3 System Configuration .................................................................................................................11
4 Services and Features ..................................................................................................11 4.1 Services .....................................................................................................................................11 4.2 Features.....................................................................................................................................11
4.2.1 EDGE ................................................................................................................................11 4.2.2 Handover...........................................................................................................................11 4.2.3 Frequency Hopping............................................................................................................11 4.2.4 Antenna Hopping ...............................................................................................................11 4.2.5 Encryption..........................................................................................................................11 4.2.6 Power Control ....................................................................................................................11 4.2.7 Detection ...........................................................................................................................11 4.2.8 Antenna System.................................................................................................................11 4.2.9 Extended Cell Function ......................................................................................................11 4.2.10 Cluster Services...............................................................................................................11 4.2.11 Flexible Allocation of Resources .......................................................................................11
5 Operation and Maintenance .........................................................................................11
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5.1 O&M Subsystem ........................................................................................................................11 5.1.1 Overview of the O&M Subsystem.......................................................................................11 5.1.2 Terminal Maintenance ........................................................................................................11 5.1.3 Remote Maintenance.........................................................................................................11
5.2 O&M Functions ..........................................................................................................................11 5.2.1 Security Management ........................................................................................................11 5.2.2 Alarm Management............................................................................................................11 5.2.3 Data Configuration .............................................................................................................11 5.2.4 Maintenance Management.................................................................................................11
6 Reliability .......................................................................................................................11 6.1 System Reliability .......................................................................................................................11 6.2 Hardware Reliability....................................................................................................................11 6.3 Software Reliability.....................................................................................................................11
7 Technical Specifications...............................................................................................11 7.1.1 Radio Specifications...........................................................................................................11 7.1.2 Working Frequency Bands .................................................................................................11 7.1.3 Transmit Specifications ......................................................................................................11 7.1.4 Receive Specifications .......................................................................................................11
7.2 Engineering Specifications..........................................................................................................11 7.2.1 Mechanical Dimensions .....................................................................................................11 7.2.2 Weight ...............................................................................................................................11 7.2.3 Power Supply.....................................................................................................................11 7.2.4 Power Consumption...........................................................................................................11 7.2.5 Transmission......................................................................................................................11 7.2.6 Working Environment.........................................................................................................11 7.2.7 Lightning Protection ...........................................................................................................11 7.2.8 EMC ..................................................................................................................................11 7.2.9 Noise .................................................................................................................................11 7.2.10 Storage Environment........................................................................................................11 7.2.11 Transportation Environment..............................................................................................11
A Technical Standards .....................................................................................................11 A.1 ITU and ETSI Standards ............................................................................................................11 A.2 Abis Interface and Um Interface Standards.................................................................................11 A.3 Environment Adaptability Standards ...........................................................................................11 A.4 EMC Standards..........................................................................................................................11 A.5 Lightning Protection Standards...................................................................................................11 A.6 Antenna Port and TMA: 8 kA/40 kA Safety Standard...................................................................11 A.7 Physical protection Standard ......................................................................................................11
B Glossary ........................................................................................................................11
C Acronyms and Abbreviations ......................................................................................11
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1 Introduction to BTS3006C
1.1 Position of the BTS3006C in the GSM Network Huawei double-transceiver Base Transceiver Station (BTS) family provides customized solutions for the GSM radio access network based on different requirements and network environments.
Figure 1-1 shows the position of the BTS3006C in the GSM network.
Figure 1-1 Position of the BTS3006C in the GSM network
BSC
BSC/PCU
GSM NSS
BSS
MS
BTS3012AE
BTS3006C
BTS3002E
BTS3012AE
BTS3012
BTS3006C
BTS3002E
BTS3012
MS
MS
MSC
Table 1-1 lists the application scenarios of the double-transceiver BTS family.
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Table 1-1 Application scenarios of the double-transceiver BTS family
Model Maximum Number of TRXs per Cabinet
Application Scenario
BTS3012 18 Used in highly populated areas with high traffic volume or in the areas where wide coverage is required
BTS3012AE 12 Used in cities, suburbs, and rural areas where high traffic volume and wide coverage are required, or in the areas where the site for an equipment room is hard to find or the construction cost of an equipment room is too high
BTS3006C 6 Used in cities and suburbs where medium traffic volume and wide coverage are required
BTS3002E 2 Used in indoor coverage, towns and suburbs where low traffic volume and wide outdoor coverage are required
1.2 Features of the BTS3006C The BTS3006C is used for edge networks and hotspots in cities, where medium traffic volume is required. It is a double-transceiver EDGE BTS. It has the features of fast deployment, low cost, and wide coverage.
A single BTS3006C cabinet holds up to six TRXs. It performs the functions such as transmit diversity, 4-way receive diversity, and AMR.
The BTS3006C cabinet has large power and large capacity. It is small and easy to install and saves the cost on the equipment room. Especially, it uses the direct air cooling technology, with low power consumption and maintenance.
The BTS3006C has strong environment adaptability. It can work under the temperature of –40 to +55 . It supports the outdoor application with IP55 ℃ ℃protection level.
The BTS3006C supports –48 V DC power inputs or AC power inputs. It supports SDH. Optical cables can be directly connected to the BTS.
The BTS3006C can form a network with indoor double-transceiver BTSs and outdoor BTSs, thus providing a fast, economical, and effective network construction and operation.
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2 Key Benefits
2.1 Coverage Capability The BTS3006C has the following benefits in terms of coverage:
l High receive sensitivity The static sensitivity of the TCH/FS is –112.5 dBm (a typical value in the normal temperature)
l Omni-directional coverage and directional coverage l Configuration of up to four cells in a single cabinet l Radio Frequency (RF) hopping and baseband frequency hopping l Transmit diversity and 4-way receive diversity l Dynamic power control and static power control l Detection and reporting of the power of transceivers
2.2 Capacity The BTS3006C has the following benefits in terms of capacity:
l A single cabinet supports up to six TRXs. l A single cabinet supports up to four cells. l A synchronous site supports combined cabinets or cabinet groups consisting of
six cabinets. l Each site supports 1 to 36 TRXs.
2.3 Environment Adaptability The BTS3006C has the following benefits in terms of environment adaptability:
l IP55 protection: 360° waterproof, dust-proof, and smoke-proof. It can work in adverse conditions with high temperature, moisture, and smoke
l Wide working temperature range: –40°C to +55°C l Excellent lightning protection: built-in lightning protection unit and external power
lightning protection unit
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2.4 Power Supply and Backup Power Supply The BTS3006C has the following benefits in terms of power supply and backup power supply:
l AC inputs and DC inputs − 110 V AC (dual live wires) and 220 V AC
If the DPSM power module is installed in the cabinet, the AFB can be configured to provide external AC power supply.
− –48 V DC If the DSEM power module is installed in the cabinet, the APM or Sidepower can be configured to provide DC power supply.
l DC battery power supply When the external AC power supply fails, the storage batteries can supply DC power supply for the BTS to extend the power supply time.
2.5 Installation The BTS3006C cabinet is easy to install. It has the following benefits in terms of installation:
l Various installation modes − When installed indoors, it supports standing installation and stack installation. − When installed outdoors, it supports standing installation and against-pole
installation. l If installed against poles, cabinets can be installed side by side or back to back. l External cables are installed and maintained through the bottom of the cabinet. l Fans can be installed and maintained through the bottom of the cabinet. They
can be replaced one by one.
2.6 Networking Capability The BTS3006C has the following benefits in terms of networking capability:
l Support for E1 transmission and built-in STM-1 transmission l Support for microwave and satellite transmissions by means of the power cabinet l Support for various networking topologies including star, tree, chain, ring, and
hybrid networking l A single cabinet supports a maximum of S1/1+S1/1 dualband site configuration.
Two cabinets can support a maximum of S2/2/2+S2/2/2 dualband site configuration.
l Transmission optimization on the Abis interface(One E1 cable support 24 TRXs).
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2.7 Clock and Synchronization The BTS3006C clock works in four modes: fast pull-in, locked, holdover, and free run. It also supports software synchronization on the Abis interface.
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3 System Architecture
3.1 Physical Architecture The design of the BTS3006C cabinet complies with the IEC60297 standard. The dimensions of a BTS3006C cabinet are as follows:
l Height: 700 mm l Width: 600 mm l Depth: 470 mm
Figure 3-1 shows the BTS3006C cabinet.
Figure 3-1 BTS3006C cabinet
Figure 3-2 shows a fully configured BTS3006C cabinet.
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Figure 3-2 Fully configured BTS3006C cabinet
DDRM2
DAFM 3
DAFM 2 DAFM 0
DAFM 1
DDRM1 DDRM 0
DPSM/DSEM
DMCM
FAN 2 FAN 1 FAN 0
The DAFM as shown in Figure 3-2 can be the DDPM, DATM, DDCM, and DSCM.
Table 3-1 lists the modules of the BTS3006C.
Table 3-1 Modules of the BTS3006C
Module Full Name
DAFM Antenna Front-end Module for DDRM BTS
DBMB BTS3006C Module Backplane
DDCM Double Combining Module for DDRM BTS
DDPM Dual Duplexer Module for DDRM BTS
DDRM Double-transceiver Digital and Radio frequency Module
DMCM Main Control Module for DDRM BTS
DPSM Power Supply Module for DDRM BTS
DSCM Single Combining Module for DDRM BTS
DSEM DC SPD and EMI Module
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3.2 Functional Architecture Figure 3-3 shows the functional modules of the BTS3006C.
Figure 3-3 Functional modules of the BTS3006C
TMA TMA
TMA TMA
TMA TMA
Extensioncabinet
DDRM
DDRM
DDRM
DDPM
DDPM
DDPM
Dry contact
E1
Opticalcable
SFP (optical cable) DATMMS
Abis Common subsystem DDRM and DAFM subsystems Antenna subsystem
.
.
.
.
.
.
DMCMRS485
The subsystems as shown in Figure 3-3 are described subsequently.
3.2.1 Common Subsystem The common subsystem consists of the DMCM and the DBMB.
The DMCM is the basic transmission and control entity of the BTS3006C. It performs the following control functions.
l Remotely connecting the BTS to the BSC l Monitoring the heater l Downloading software l Operating and maintaining the entire BTS l Performing the electrical interconnection of each subsystem through the DBMB l Performing clock management, fault management, configuration management,
performance management, and security management l The built-in optical transmission uses Huawei transmission network manager,
which has powerful functions and is easy to use. It can implement the OAM&P function recommended by the ITU.
l Detecting alarms of external equipment through four dry contacts, monitoring the communication interface of external equipment, monitoring the external fans, detecting the temperature, lightning protection and door status alarms
l Supporting flexible topologies − The DMCM supports E1 transmission and STM-1 (optional) transmission. − Ring, chain, star, and hybrid topologies are supported.
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l The built-in SDH device and other SDH devices form complicated network topologies, which provide channel protection and multiplex section protection. The topologies are: − Star topology − Tangency ring topology − Intersecting ring topology − Ring-chain topology
Table 3-2 lists the modules in the common subsystem and their functions.
Table 3-2 Modules in the common subsystem and their functions
Module Function
DMCM l Supports the four the E1 signal inputs l Supports STM-1 (optional) l Provides a 10 Mbit/s Ethernet port for terminal maintenance l Provides an IASU Ethernet port for terminal maintenance l Supports alarm inputs through four contacts l Supports one RS485 full duplex serial port l Provides access interface for two optical cables to combine
cabinets
DBMB Interconnects signals and power supplies of each module
3.2.2 Double-Transceiver Subsystem The double-transceiver subsystem consists of the DDRM and fan units. It performs the following functions:
l Processing baseband signals l Transmit diversity and 4-way receive diversity l Receiving signals l Synthesizing frequencies l Performing loopback test l Amplifying power and then transmitting it through two TRXs individually l Supplying power to the fans and monitoring the fans l Supporting one fan for one DDRM l Supporting replacement of at least one fan at a time
3.2.3 RF Front-End Subsystem The RF front-end subsystem consists of the antenna subsystem and the DAFM subsystem.
Table 3-3 lists the components of each subsystem.
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Table 3-3 Components of the RF front-end subsystem and their functions
RF Front-End Subsystem
Component Function
Antenna Transmits and receives signals
Feeder Connects the antenna to port ANTA or ANTB on the DDPM
Antenna subsystem
TMA Amplifies the signal received by the antenna
DDPM l Sends the multiple channels of the RF signals from the transceiver to the antenna through the duplexer
l Amplifies the received signals from the antenna and divides the signals into three parts and then sends them to the transceiver
l Controls the low noise amplification
DDCM Double combination (used for the single combination in single sector with no more than four carriers)
DSCM Single combination (used for the double combinations in single sector with five or six carriers)
DAFM subsystem
DATM Supplies power for the TMA
3.3 System Configuration The system configuration of the BTS3006C is as follows:
l A fully configured single cabinet has a maximum of six TRXs, that is, three DDRMs.
l A single cabinet supports S2/2/2 and two cabinets support S4/4/4. l Using wideband combination, one sector has one dual polarization antennas or
two single polarization antennas. One cell supports up to six TRXs.
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4 Services and Features
4.1 Services Table 4-1 lists the services that the BTS3006C provides.
Table 4-1 List of the BTS3006C services
Service Abbreviation Full Name
EFR Enhanced full rate speech service
FR Full rate speech service
HR Half rate speech service
Speech service
AMR Adaptive multi-rate
F9.6 9.6 kbit/s full rate data service
F4.8 4.8 kbit/s full rate data service
Data service
F2.4 2.4 kbit/s full rate data service
GPRS CS1/CS2/CS3/CS4 packet service Packet service
EDGE MCS1–MCS9 EGPRS packet service
4.2 Features The special features of the BTS3006C are described in terms of the following aspects.
4.2.1 EDGE l The BTS3006C supports system information broadcast and resource indication,
which are compatible with the GSM/EDGE R99. l The BTS3006C supports the GSM/EDGE LAPDm protocol.
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4.2.2 Handover The BTS3006C supports the following types of handovers:
l Synchronous and asynchronous handovers l Dualband handover
4.2.3 Frequency Hopping The BTS3006C supports the following frequency hopping modes:
l Baseband frequency hopping l RF hopping
4.2.4 Antenna Hopping The BTS3006C supports antenna hopping.
4.2.5 Encryption The BTS3006C supports the following encryption functions:
l A5/0 non-encryption l A5/1, A5/2 and A5/3 encryption and decryption
4.2.6 Power Control The BTS3006C supports the following types of power control modes:
l Static power control l Dynamic power control
4.2.7 Detection The BTS3006C can detect the following factors:
l Random access collision l Module in-position status l Output power of the DDRM (report of the output power is also supported)
4.2.8 Antenna System The BTS3006C antenna system supports the following items:
l Dual polarization antennas that reduce the number of antennas in the cell l TMA that improves the receive sensitivity
4.2.9 Extended Cell Function With the extended cell function, the BTS3006C can cover a wide range of areas of 120 km.
4.2.10 Cluster Services The BTS3006C supports VBS and VGCS services.
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4.2.11 Flexible Allocation of Resources The BTS3006C supports Flex Abis and Flex MAIO features.
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5 Operation and Maintenance
5.1 O&M Subsystem 5.1.1 Overview of the O&M Subsystem
The BTS3006C provides two maintenance methods:
l Terminal maintenance l Remote maintenance
Figure 5-1 shows the networking of the O&M subsystem.
Figure 5-1 Networking of the BTS3006C O&M subsystem
Site MaintenanceTerminal System
MMI
MMI
BTS
BTS
BSC
Abis
Abis
OMCServer
Hub
Remote SiteMaintenance System
Site MaintenanceTerminal System
5.1.2 Terminal Maintenance As shown in Figure 5-1, terminal maintenance is carried out through a PC. The PC is connected to the cabinet through an Ethernet cable.
By carrying out terminal maintenance, you can operate and maintain sites, cells, and TRXs.
5.1.3 Remote Maintenance As shown in Figure 5-1, remote maintenance is carried out through a PC. The PC forms a network with the OMC, BSC, and BTS.
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Remote maintenance is carried out through a Graphic User Interface (GUI) and topological view. You can see the name, type, location, number, and running status of each NE in the network through the GUI.
You can view the detailed performance data, alarm data, and configuration data of the NE to be maintained.
You can also operate or maintain an NE through the topological view.
5.2 O&M Functions The BTS3006C O&M system performs the following O&M functions:
l Security Management l Alarm Management l Data Configuration l Maintenance Management
5.2.1 Security Management In terms of security management, the BTS3006C provides the following functions:
l Multi-level authority mechanism Only the authorized users can perform relevant operation.
l Warnings of dangerous operations The problems that may arise after the operation are given.
5.2.2 Alarm Management In terms of alarm management, the BTS3006C provides the following functions:
l Eyeball-catching alarm indications l Powerful real-time alarm management including collecting, clearing, querying,
handling, saving, explaining, prompting, filtering, and analyzing alarms l Detailed online help and layered alarm filtering function that helps you to quickly
locate faults and provide you with troubleshooting methods
5.2.3 Data Configuration The BTS3006C O&M subsystem supports dynamic and static data configuration modes. It performs the following functions:
l Adding, deleting, and modifying data l Checking the consistency of the BTS data
5.2.4 Maintenance Management The O&M subsystem of the BTS3006C provides the following maintenance functions:
l Downloading software to modules, or starting and initializing modules l Recording the interface tracing message and running status of the BTS through
logs
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l Performing in-position test on modules l Testing the Abis link of the DDRM, testing channels, and checking the site, cell,
carrier, and module l Providing fault management for the DBUS and the CBUS
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6 Reliability
6.1 System Reliability To enhance system reliability, the BTS3006C uses the following methods:
l Load sharing l Redundancy configuration l Optimized fault detection of modules and the system l Optimized fault isolation
Redundancy Design The local bus uses redundancy design. The TRX mutual aid is also supported.
Reliability Design In terms of system reliability, the BTS3006C supports the following functions:
l Automatically detecting and diagnosing hardware and software faults l Detecting environment conditions l Reporting alarms
6.2 Hardware Reliability To enhance hardware reliability, the BTS3006C adopts the following methods:
l Prevention Against Mistakenly Inserted Module l Protection Against Over High Temperature of the DDRM l Reliability Design for the Power Supply l Excellent Lightning Protection Design
Prevention Against Mistakenly Inserted Module When inserted into a wrong slot, the functional module cannot get into full contact with the backplane. This prevents the equipment from being damaged.
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Protection Against Over High Temperature of the DDRM When the temperature around the power amplifier of the last level is too high, the DDRM reports an over high temperature alarm.
Reliability Design for the Power Supply In terms of reliability design for the power supply, the BTS3006C provides the following functions:
l Power failure protection for programs and data l Lighting protection and wide range of voltage l Over current protection, over voltage protection l Protection against reverse-polarity connection
Excellent Lightning Protection Design The BTS3006C needs no external lightning protection device. The antenna ports of the DDPM have the 8kA/40kA lightning protection capability through its built-in conductor.
6.3 Software Reliability The BTS3006C has powerful fault tolerance capability. When the software fails, the whole system is not corrupted.
The fault tolerance function is described subsequently.
Regular Check on Key Resources Seizure check is conducted on various software resources in the system. The check mechanism can ensure the release of suspended resources and the output of the related logs and alarms.
Task Monitoring When the software is active, any possible fault in the software or hardware is monitored. The detected faults are reported. Task status and system abnormalities can also be monitored.
Data Check In terms of data check, the system performs the following functions:
l Checking data consistency on a regular or event-driven basis l Restoring data consistency selectively or preferably l Outputting related logs and alarms
Saving Operation Log Information The system records user operations on a regular basis and saves the information as operation logs. The operation logs help you to locate problems and restore data.
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7 Technical Specifications
7.1.1 Radio Specifications
7.1.2 Working Frequency Bands Table 7-1 lists the working frequency bands of the BTS3006C.
Table 7-1 Working frequency bands of the BTS3006C
Frequency Band Parameter Specification
Receive band 824–849 MHz
Transmit band 869–894 MHz
850 MHz
Space between carriers 200 kHz
Receive band 876–915 MHz
Transmit band 921–960 MHz
900 MHz
Space between carriers 200 kHz
Receive band 1710–1785 MHz
Transmit band 1805–1880 MHz
1800 MHz
Space between carriers 200 kHz
Receive band 1850–1910 MHz
Transmit band 1930–1990 MHz
1900 MHz
Space between carriers 200 kHz
7.1.3 Transmit Specifications Table 7-2 and Table 7-3 list the nominal output power of the DDRM.
Table 7-2 Nominal output power of the DDRM (850 MHz/900 MHz)
850 MHz/900 MHz Modulation Scheme
Mode 1 (Default) Mode 2
GMSK 40W (46.0 dBm) 63 W (48.0 dBm)
8PSK 40W (46.0 dBm) 40 W (46.0 dBm)
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Table 7-3 Nominal output power of the DDRM (1800 MHz/1900 MHz)
1800 MHz/1900 MHz Modulation Scheme
Mode 1 (Default) Mode 2
GMSK 40 W (46.0 dBm) 55 W (47.4 dBm)
8PSK 40 W (46.0 dBm) 40 W (46.0 dBm)
7.1.4 Receive Specifications Table 7-4 lists the static receive sensitivity of the BTS3006C.
Table 7-4 Static receive sensitivity of the BTS3006C
Channel Type Receive Sensitivity
TCH/FS –112.5 dBm (typical value in the normal temperature)
Others Better than the requirements specified in 3GPP TS 05.05
7.2 Engineering Specifications 7.2.1 Mechanical Dimensions
Table 7-5 lists the mechanical dimensions of the BTS3006C.
Table 7-5 Mechanical dimensions of the BTS3006C
Item Width (mm) Depth (mm) Height (mm)
Cabinet 600 470 700
Cabinet + cabinet base 600 470 900
Cabinet + cabinet base + rainhat 600 470 980
7.2.2 Weight Table 7-6 lists the weight of the BTS3006C.
Table 7-6 Weight of the BTS3006C
Configuration Weight (kg)
Empty cabinet 35
Full configuration (S2/2/2, with DATM) 130
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7.2.3 Power Supply The BTS3006C uses a mature EPS210-4830A power supply system.
Table 7-7 and Table 7-8 list the specifications of the input power.
Table 7-7 Specifications of the DC input power
Item Value
Rating Voltage –48 V DC
Range –40 V DC to –60 V DC
Table 7-8 Specifications of the AC input power
Power Distribution Range
110 VAC dual live 85 V AC to 135 V AC, 45 Hz to 65 Hz
220 V AC single live 150 V AC to 300V AC (normal value), 45 Hz to 65 Hz Note:
The equipment is not damaged even under 350 V AC.
Note: For indoor applications, the Sidepower power system provides +24 V DC power inputs.
7.2.4 Power Consumption Table 7-9 lists the DC power consumption of the BTS3006C in typical configuration.
Table 7-9 DC power consumption of the BTS3006C
Configuration Power Consumption
Typical power consumption (S2/2/2 in full configuration, 40W TRXs, no working heating board)
900 W
7.2.5 Transmission
Transmission Interfaces Table 7-10 lists the transmission interfaces of the BTS3006C.
Table 7-10 BTS3006C transmission interfaces
Interface Type Quantity Speed Standard
E1 4 pairs 2 Mbit/s ETS 300 420 ITU G.703/G.704
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Interface Type Quantity Speed Standard
STM-1 2 pairs 155 Mbit/s ANSI T1.105-1995 ITU I.432.2 G.703 ITU G.957
Other External Interfaces Table 7-11 lists the other external interfaces of the BTS3006C.
Table 7-11 Other external interfaces of the BTS3006C
Interface Type Quantity Description
Power supply (including grounding)
1 – Power and grounding interface
Protection grounding 1 –
Monitoring interface
External alarm input port
1 Contains four dry contacts and one RS485 serial port
Antenna system ports
RF signals 8 Connects the antenna feeder and carry RF signals
TMA feed interface TMA power supply 6 Supplies power for the TMA
Fan power supply interface
Power supply, monitoring
3 Provides power for and monitor fans Each DDRM connects to its corresponding fan unit through the fan power supply port
SDH interface STM-1 2 Connects the optical cables
SFP interface SFP 2 Connects the cabinet-combining cables
7.2.6 Working Environment Table 7-12 shows the requirements for the BTS3006C working environment.
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Table 7-12 Requirements for the BTS3006C working environment
Item Range
Temperature –40°C to +55°C
Humidity 5% RH to 100% RH
7.2.7 Lightning Protection The BTS3006C conforms to the following lightning protection standards:
l AC power port (realized through the external lightning protection unit): 40 kA l –48 V DC power port: 15 kA l E1 port: 5 kA or 10 kA l Primary node and 485 serial port: 3 kA or 5 kA l Antenna port and TMA: 8 kA or 40 kA
7.2.8 EMC The BTS3006C fulfils the Electromagnetic Compatibility (EMC) requirements. It complies with the following protocols:
l R&TTE Directive 99/5/EC l 3GPP TS 25.113 V4.4.0 (December 2002) l ETSI EN 301 489-1/23 l ETSI EN 301 908-1 V2.2.1 (October 2003)
The BTS3006C has passed the CE certification.
7.2.9 Noise The BTS3006C complies with the following protocols in terms of noise:
l GR-63-CORE-1995 l ETS 300 753 5.2
7.2.10 Storage Environment The BTS3006C complies with the following protocol in terms of storage environment:
ETS class 1.2 Weather Protected, Not Temperature Controlled Storage Locations in ETS 300 019-1-1.
7.2.11 Transportation Environment The BTS3006C complies with the following protocol in terms of transportation environment:
ETS class 2.3 Public Transportation in ETS 300 019-1-2.
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A Technical Standards
A.1 ITU and ETSI Standards Huawei-developed BTS is in compliance with GSM recommended phase 2+ of ETSI, as shown below:
l GSM 01.02 (ETR009):"general description of a GSM Public Land Mobile Network (PLMN)"
l GSM 04.04 (ETS 300 553):"European digital cellular Telecommunications System (phase 2); layer 1 general requirements"
l GSM 04.05 (ETS 300 554):"European digital cellular Telecommunications System (phase 2); Data Link (DL) layer general aspects"
l GSM 04.06 (ETS 300 555):"European digital cellular Telecommunications System (phase 2); Mobile Station - Base Station System (MS - BSS) interface Data Link (DL) layer specification"
l GSM04.08 (ETS300557):"digital cellular telecommunications system (phase2); mobile radio interface layer 3 specification"
l GSM05.01 (ETS300573):"digital cellular telecommunications system (phase2); physical layer on the radio path general description"
l GSM 05.02 (ETS 300 574):"multiplexing and multiple access on the radio path" l GSM05.03 (ETS300575):"digital cellular telecommunications system (phase2);
channel coding" l GSM05.04 (ETS300576):"digital cellular telecommunications system (phase2);
modulation" l GSM05.05 (ETS300577):"digital cellular telecommunications system (phase2);
radio transmission and reception" l GSM05.08 (ETS300578):"digital cellular telecommunications system (phase2);
radio subsystem link control" l GSM05.10 (ETS300579):"digital cellular telecommunications system (phase2);
radio subsystem synchronization" l GSM11.10 (ETS300607):"digital cellular telecommunications system (phase2);
Mobile Station (MS) conformity specification" l GSM11.11 (ETS300608):"digital cellular telecommunications system (phase2);
specification of the Subscriber Identity Module - Mobile Equipment (SIM - ME) interface"
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l GSM 08.58(ETS 300 596):"Base Station Controller-Base Transceiver Station(BSC-BTS) interface layer 3 specification"
l GSM 08.51 (ETS 300 592):"European digital cellular Telecommunications System (phase 2); Base Station Controller - Base Transceiver Station (BSC - BTS) interface general aspects"
l GSM 08.52 (ETS 300 593):"European digital cellular Telecommunications System (phase 2); Base Station Controller - Base Transceiver Station (BSC - BTS) interface principles"
l GSM 08.56 (ETS 300 595):"European digital cellular Telecommunications System (phase 2); Base Station Controller - Base Transceiver Station (BSC - BTS) interface layer 2 specification"
A.2 Abis Interface and Um Interface Standards The BTS3006C has the following standards in terms of Abis interface and Um interface:
l GSM 08.51 (ETS 300 592):"European digital cellular Telecommunications System (phase 2); Base Station Controller - Base Transceiver Station (BSC - BTS) interface general aspects"
l GSM 08.52 (ETS 300 593):"European digital cellular Telecommunications System (phase 2); Base Station Controller - Base Transceiver Station (BSC - BTS) interface principles"
l GSM 08.56 (ETS 300 595):"European digital cellular Telecommunications System (phase 2); Base Station Controller - Base Transceiver Station (BSC - BTS) interface layer 2 specification"
l GSM 04.22 (ETS 300 563): "European digital cellular Telecommunication System (phase 2); Radio Link Protocol (RLP) for data and telematic services on the Mobile Station - Base Station System (MS - BSS) interface and the Base Station System - Mobile-services Switching Centre (BSS - MSC) interface"
A.3 Environment Adaptability Standards The BTS3006C has the following specifications in terms of environment adaptability:
l Low temperature working index: IEC 682-1 l High temperature working index: IEC 682-2 l Temperature cycle operation test: IEC 682-3 l Moist heat working index: IEC 68-2-30 l Working jiggling index: ETS 300-019-3 l Shockproof index: Adopt earthquake testing method stipulated by the ministry of
posts and telecommunications. Shockproof grade is grade 8~9 earthquake intensity
l Moldproof index: IDT IEC 68-2-10 l Salt spray proof index: IDT IEC 68-2-11
A.4 EMC Standards The BTS3006C has the following EMC specifications:
l R&TTE Directive 99/5/EC
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l 3GPP TS 25.113 V4.4.0 (2002-12) l ETSI EN 301 489-1/23 l ETSI EN 301 908-1 V2.2.1 (2003-10) l CE authentication
A.5 Lightning Protection Standards The BTS3006C complies with the following lightning protection rules:
l AC power port (according to the external lightning protection equipment): 40 kA l -48 V DC power port: 15 kA l E1 port: 5 kA/10 kA l Main node and 485 signal port: 3 kA/5 kA
A.6 Antenna Port and TMA: 8 kA/40 kA Safety Standard The BTS safety standard: GB4943-1995.
A.7 Physical protection Standard The physical protection features of the product: ITU-T recommendation K.11, K.20.
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B Glossary
A
Antenna A device which radiates and/or receives radio signals. When working as a transmitter, it converts high frequency current to electromagnetic waves; when working as a receiver, it coverts electromagnetic waves to high frequency current.
B
Baseband Baseband is a form of modulation in which the information is applied directly onto the physical transmission medium.
BSS In GSM the Base Station System is a term given to a BSC (Base Station Controller) and the BTS (Base Transceiver Station) associated with it. The number of BTS associated with a BSC is dependent on the manufacturer. Although not mandatory, through interpretation of the Abis interface standard BTS and BSC employed within a BSS will always be supplied by the same manufacturer. The BSS is the physical equipment used to give radio coverage to a determined geographical zone called a cell. Functionally, a BSS is subdivided into BSC and BTS.
Base Transceiver Station
A Base Transceiver Station terminates the radio interface. It allows transmission of traffic and signaling across the air interface. The BTS includes the baseband processing, radio equipment, and the antenna.
C
Cell Radio network object that can be uniquely identified by a User Equipment from a (cell) identification that is broadcasted over a geographical area from one UTRAN Access Point. A Cell is either FDD or TDD mode.
Carrier A sine wave, whose bandwidth is much higher than the bandwidth of a signal and, which can be identified by amplitude, frequency, and phase.
H
Handover The transfer of a user’s connection from one radio channel to another (can be the same or different cell).
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R
Receive diversity
The most common type of diversity, where a mobile device uses two physically separate antennas to combine signals from the two antennas to reduce the impact of spatial variations in signal strength and thus increase the average data rate available - sometimes dramatically.
T
TMA A Tower Mounted Amplifier (TMA) is a lower noise amplifier installed close to the antenna.
TRX A transmitter and receiver housed together in a single unit and having some circuits in common, often for portable or mobile use.
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C Acronyms and Abbreviations
A
AMR Adaptive MultiRate
B
BSC Base Station Controller
C
CBUS Control BUS
D
DAFM Antenna Front-end Module for DDRM BTS
DBMB BTS3006C Module Backplane
DBUS Data BUS
DDCM Double Combining Module for DDRM BTS
DDPM Dual Duplexer Module for DDRM BTS
DDRM Double transceivers Digital and Radio frequency Module
DMCM Main Control Module for DDRM BTS
DPSM Power Supply Module for DDRM BTS
DSCM Single Combining Module for DDRM BTS
DSEM DC SPD and EMI Module
E
EDGE Enhanced Data rates for GSM Evolution
EFR Enhanced full rate speech codec
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EGPRS Enhanced GPRS
EMI External Machine Interface
F
FR Frame Relay
G
GMSK Gaussian Minimum Shift-frequency Keying
GPRS General Packet Radio Service
GSM Global System for Mobile communications
H
HR Half Rate
M
MMI man-machine interactive
O
OMC Operation and Maintenance Center
R
RF Radio Frequency
RH Relative Humidity
S
SDH Synchronous Digital Hierarchy
T
TCH Traffic Channel
TMA Tower Mounted Amplifier