Huawei Technologies BTS3612A-1900 CDMA Base Station User Manual Part 2

Huawei Technologies Co.,Ltd CDMA Base Station Part 2

Contents

User Manual Part 2

Technical Manual Airbridge BTS3612A CDMA Base Station System Description Table of Contents  i Table of Contents Chapter 1 Introduction.................................................................................................................. 1-1 1.1 Huawei CDMA2000 1X System Network Solution ............................................................ 1-1 1.1.1 BSS Brief.................................................................................................................1-2 1.1.2 CN Brief................................................................................................................... 1-3 1.2 Position of BTS3612A in the Network ............................................................................... 1-4 Chapter 2 Product Feature ........................................................................................................... 2-1 2.1 Technical Feature .............................................................................................................. 2-1 2.2 Easy Upgrade and Expansion ........................................................................................... 2-1 2.3 Powerful Environment Adaptability.................................................................................... 2-2 2.4 Convenient Operation and Maintenance........................................................................... 2-3 2.5 Flexible Networking Mode ................................................................................................. 2-4 2.6 Serial Products for Seamless Coverage............................................................................ 2-5 Chapter 3 Product Architecture................................................................................................... 3-1 3.1 Cabinet Profile and Configuration...................................................................................... 3-1 3.1.1 Cabinet Profile......................................................................................................... 3-1 3.1.2 Cabinet Configuration ............................................................................................. 3-2 3.2 System Structure ............................................................................................................... 3-4 3.2.1 Baseband Subsystem ............................................................................................. 3-4 3.2.2 Radio Frequency Subsystem.................................................................................. 3-5 3.2.3 Antenna and Feeder Subsystem............................................................................. 3-5 3.2.4 Power and Environment Monitoring Subsystem..................................................... 3-6 3.3 External Physical Interface ................................................................................................ 3-6 Chapter 4 Main Functions ............................................................................................................ 4-1 4.1 Basic Function ................................................................................................................... 4-1 4.2 Radio Network Function .................................................................................................... 4-2 4.2.1 Power Control.......................................................................................................... 4-2 4.2.2 Handoff.................................................................................................................... 4-3 4.2.3 Radio Configuration ................................................................................................ 4-4 4.2.4 Channel Configuration ............................................................................................ 4-5 4.2.5 Receiving Diversity.................................................................................................. 4-6 4.2.6 Cell Breathing.......................................................................................................... 4-6 Chapter 5 Reliability Design......................................................................................................... 5-1 5.1 System Reliability............................................................................................................... 5-1 5.2 Hardware Reliability........................................................................................................... 5-2 5.3 Software Reliability ............................................................................................................ 5-3
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Table of Contents  ii Chapter 6 Operation and Maintenance System.......................................................................... 6-1 6.1 Structure of the O&M System............................................................................................ 6-1 6.1.1 Local O&M System ................................................................................................. 6-1 6.1.2 M2000 Mobile Network Management System ........................................................ 6-2 6.2 Operation and Maintenance Function ............................................................................... 6-3 Chapter 7 Technical Indices......................................................................................................... 7-1 7.1 Structure and Environment Indices.................................................................................... 7-1 7.2 Capacity Indices................................................................................................................. 7-2 7.3 Transmitter and Receiver Indices at 450MHz Band.......................................................... 7-2 7.4 Transmitter and Receiver Indices at 800MHz Band.......................................................... 7-3 7.5 Transmitter and Receiver Indices at 1900MHz Band........................................................ 7-3 7.6 ODU3601C Cascading ...................................................................................................... 7-4 Appendix A Standard Compliance ..............................................................................................A-1 A.1 General Technical Specification........................................................................................A-1 A.2 Um Interface......................................................................................................................A-1 A.3 Abis Interface.....................................................................................................................A-1 A.4 Lightning Protection...........................................................................................................A-2 A.5 Safety ................................................................................................................................A-3 A.6 EMC...................................................................................................................................A-3 A.7 Environment ......................................................................................................................A-5 Appendix B Abbreviations and Acronyms .................................................................................B-1
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 1  Introduction  1-1 Chapter 1  Introduction The mobile communication system has experienced the first generation (analog system) and the second generation (digital system). As one of the main development trends of the second generation, the CDMA2000 1X technology, advocated by the 3rd Generation Partnership Project 2 (3GPP2), has been widely used for commercial purpose.  The CDMA2000 1X technology complies with IS-95A and IS-95B standards. The capacity of CDMA2000 1X system has increased substantially since it adopts technologies such as reverse pilot, fast power control and transmit diversity.  This chapter first introduces the network solution of Huawei CDMA2000 1X mobile communication system, and then the market position of Huawei outdoor BTS3612A. 1.1  Huawei CDMA2000 1X System Network Solution The Huawei CDMA2000 1X mobile communication system comprises the Base Station Subsystem (BSS) and the Core Network (CN). The operation and maintenance of the system are implemented via an integrated mobile network management system. Figure 1-1 shows the network of CDMA2000 1X system. This manual aims to introduce the BTS product of the BSS part. Therefore, this figure details the network structure of BSS.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 1  Introduction  1-2 InternetPSTN/ISDNPLMNA3/A7A1/A2A10/A11AbisA1/A2MSMobile NetworkManagement SystemBSC/PCFBSC/PCFMSMSPacket DomainNetwork EquipmentA10/A11AbisBTS3601CAbisBSS CNcBTS3612ODU3601CODU3601CODU3601CBTS3606BTS36 12ABTS3612ABTS3 6 12ABTS3612AODU3601CBTS36 12ABTS3612AAbisCircuit DomainNetwork EquipmentInternetPSTN/ISDNPLMNPLMNPLMNA3/A7A1/A2A10/A11AbisA1/A2MSMSMobile NetworkManagement SystemBSC/PCFBSC/PCFMSMSMSMSPacket DomainNetwork EquipmentA10/A11AbisBTS3601CBTS3601CAbisBSS CNcBTS3612cBTS3612ODU3601CODU3601CODU3601CODU3601CODU3601CODU3601CBTS3606BTS3606BTS36 12ABTS3612ABTS36 12ABTS3612ABTS3 6 12ABTS3612ABTS3 6 12ABTS3612AODU3601CODU3601CBTS36 12ABTS3612ABTS36 12ABTS3612AAbisCircuit DomainNetwork Equipment MS: Mobile Station  BSC: Base Station Controller PLMN: Public Land Mobile Network   PSTN: Public Service Telephone Network ISDN: Integrated Service Digital Network  PCF: Packet Control Function BSS: Base Station Subsystem  CN: Core Network  Figure 1-1 Network structure of Huawei CDMA2000 1X system 1.1.1  BSS Brief The BSS comprises the Base Transceiver Station (BTS), Base Station Controller (BSC), and Packet Control Function (PCF), which is usually integrated with the BSC. I. BTS The BTS is mainly responsible for transmitting and receiving radio signals to achieve the communication between the radio network and the Mobile Station (MS).  Huawei provides a series of BTS products, including: z BTS3612A: Outdoor BTS equipment developed based on the cBTS3612. The maximum capacity of a single cabinet is 2 carriers 3 sectors. z BTS3606: Indoor BTS equipment. The maximum capacity of a single cabinet is 2 carriers 3 sectors. z cBTS3612: Indoor BTS equipment. The maximum capacity of a single cabinet is 4 carriers 3 sectors or 2 carriers 6 sectors. z BTS3601C: Outdoor one-carrier BTS equipment. z ODU3601C: Outdoor one-carrier BTS. It shares the baseband processing resource of its upper-level BTS. It implements radio signal transmission and reception together with the upper-level BTS.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 1  Introduction  1-3 II. BSC/PCF The BSC performs the following functions:  z BTS control and management.  z Call connection and disconnection.  z Mobility management.  z Power control.  z Radio resource management.  z The BSC provides stable and reliable radio connections for the upper-level services through soft or hard handoff. The PCF is used for the management of Radio-Packet (R-P) connection. As radio resources are limited, they should be released when subscribers are not sending or receiving information, but the Peer-Peer Protocol (PPP) connection must be maintained. PCF isolates the radio mobility from the upper-level services through the handoff function. III. MS The MS is the equipment used by the mobile subscriber. It can originate and receive calls, and can communicate with the BTS. 1.1.2  CN Brief The CN comprises the packet domain network and circuit domain network. I. Equipments of packet domain network Equipments of packet domain network include Packet Data Service Node (PDSN), Mobile Internet Protocol Home Agent (MIP HA), Authorization, Authentication and Accounting (AAA) and so on.  These equipments interwork with the Internet. II. Equipments of circuit domain network Equipments of circuit domain network include Mobile Switching Center (MSC), Home Location Register (HLR), Gateway Mobile-services Switching Center (GMSC) and so on. These equipments interwork with the conventional Public Land Mobile Network (PLMN) and Public Switched Telephone Network/Integrated Services Digital Network (PSTN/ISDN).
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 1  Introduction  1-4 1.2  Position of BTS3612A in the Network The BTS3612A is located between the BSC and the MS in the CDMA2000 1X mobile communication system.  Under the control of the BSC, the BTS3612A serves as the radio transceiver equipment of one cell or multiple logical sectors. By connecting to the BSC via the Abis interface, it assists the BSC in managing the radio resource, radio parameter and interface resouce. It also implements, via the Um interface, the radio transmission between the BTS and the MS as well as related control functions.  The outdoor BTS3612A can accommodate to various climates and complex electromagnetic environments. It features low cost, fast installation and flexible environment adaptability. As an essential part of Huawei CDMA BTS series, it allows the radio network to achieve seamless coverage more easily.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 2  Product Feature  2-1 Chapter 2  Product Feature The BTS3612A is designed with considerations of customers' requirements for service, capacity, coverage, transmission, power supply, installation and maintenance.  2.1  Technical Feature The BTS3612A has the following technical features:  The advanced hierarchical structure allows the smooth upgrade to CDMA2000 1X EV. The operational mode of Channel Element (CE) pool improves the availability of the hardware resources, and the error tolerance capabilityof the system.  The digital intermediate frequency technology enhances the signal processing capability.  The BTS3612A supports bands of 450MHz, 800MHz and 1900MHz. The BTS3612A can be cascaded with the ODU3601C to flexibly expand the coverage area of radio network 2.2  Easy Upgrade and Expansion I. Compatibility design The BTS3612A is compatible with IS-95A/B and CDMA2000 1X, and can be upgraded to CDMA2000 1X EV smoothly. Huawei BTS3612A saves the operator's investment when the network is upgraded from IS-95 to CDMA2000 1X, or from CDMA2000 1X to CDMA2000 1X EV.  II. Flexible configuration It supports the configurations of omni cell, 3 sectors and 6 sectors. The full configuration per cabinet is 2 carriers 3 sectors. The capacity of 4 carriers 3 sectors or 2 carriers 6 sectors can be configured as required by combining the cabinets.  III. Smooth expansion  The modular structure allows BTS3612A to be expanded simply by adding the modules. The cabinets can be combined to achieve the capacity of more than 6 carriers.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 2  Product Feature  2-2 2.3  Powerful Environment Adaptability  The BTS3612A is protected against wind, sand, rain, sun shine and theft. It features excellent environment adaptability, which minimizes its environmental requirements. I. Fully-enclosed integrated structure The BTS3612A complies with the the IP55 (IEC 60529: Degrees of protection provided by enclosure) in respect of waterproof and dustproof. It is up to the Class 1 protection standard (3 classes) against moisture air, mould and salt atmosphere.  II. Wide operating temperature range The BTS3612A is equipped with a temperature control system. Its operating temperature ranges from -40°C through +55°C (Air conditioner type) or from -40°C through +45°C (Heat exchanger type). In the case of high temperature, BTS3612A dissipates heat through the temperature control unit. In the case of low temperature, the built-in heater is started to ensure the internal components to operate in a reliable temperature range. III. Robust power distribution function The BTS3612A supports 220V, 230V and 240V power supplies and single-phase or three-phase input. The voltage ranges between 176 and 264V and frequency between 47 and 63Hz. It provides over-voltage protection upon 290V voltage. The system is also compatible with 110, 115 and 127 AC power and single-phase or three-phase input. The voltage ranges between 90 and 135V and frequency between 47 and 63Hz. It provides over-voltage protection upon 85V. The built-in storage battery provides power supply in the case of AC power failure, so as to ensure the normal operation of BTS3612A for a period of time. The optional outdoor battery rack allows a one carrier 3 sectors system to operate for more than 8 hours when the AC power BTS fails. With hierarchical power supply function, the BTS3612A can promise the transmission function of lower-level BTS in the absence of mains support.  IV. Sound lightning protection and monitoring function  The BTS3612A is equipped with reliable lightning protection facilities such as built-in lightning protection board and external lightning protection box.   It is also furnished with comprehensive environment monitoring system that allows remote monitoring.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 2  Product Feature  2-3 2.4  Convenient Operation and Maintenance  The Local Maintenance Terminal (LMT) and the integrated maintenance console of the M2000 implement the operation and maintenance function to the BTS3612A. The following lists the maintenance functions:  I. System status monitoring  This function provides the indication for the system running status and resource status, the configuration of local cell and logical cell, and their status indication.  II. Data configuration  The BTS3612A adopts dynamic data configuration mode, and the configured data takes effect without resetting BTS. It also provides data backup function, batch processing of data configuration, and the function of configuring common data for multiple network elements. III. Alarm handling  This function provides a series of alarm handling methods: Alarm collection, alarm clearing, alarm querying, alarm shielding, alarm filtering and so on.  IV. Security management The security management covers the following functions: user login authentication, command authority restriction, confirmation of crucial operation, user group management, timeout locking, etc.  V. Test The BTS3612A supports both offline and online tests. The test items include board loopback test, self-test, trunk loopback test, etc. VI. Site monitoring  Data transmission channels are provided for monitoring devices so as to realize centralized monitoring. VII. Upgrade System upgrade can be implemented through remote loading. The upgrade process is retrievable, that is, the system can fall back to the original one when the upgrade fails.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 2  Product Feature  2-4 VIII. Equipment operation BTS3612A supports front operation (operations can be conducted on the facade of the cabinet), and hot swappable baseband boards. This facilitates the maintenance, upgrade and capacity expansion. IX. Auto restart function In the case of whole BTS service interruption due to power failure or transmission faults, the BTS3612A system can restart automatically right after the faults are cleared.  X. Simulation of BSC for testing purpose The BTS3612A can simulate the BSC for testing purpose. Call tests and system debugging can be performed without BSC connected.  XI. Reverse maintenance function With the reverse maintenance function, users can, from the LMT, log in to the BAM through the network port on the BCKM to perform operation, maintenance and management to the whole BSS.  2.5  Flexible Networking Mode I. Transmission mode In the BTS3612A cabinet, the standard clearance is reserved for transmission equipment, such as microwave, High-bit-rate Digital Subscriber Link (HDSL) or Synchronous Digital Hierarchy (SDH) system. It supports various transmission modes.  The BTS3612A supports the networking by using E1 and T1 links, and the interfaces of Inverse Multiplexing on ATM (IMA) and User Network Interface (UNI). The multiplexing rate on the Abis interface is greatly increased.  II. Networking mode The BTS3612A supports networking modes in chain, star and tree topologies. It can also share the transmission network with other Network Elements (NEs) over the Fractional ATM. III. Clock source The BTS3612A supports the Global Position System (GPS) clock, the Global Navigation Satellite System (GLONASS) clock and other external clock sources. Thus, it can adapt to various networking situations.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 2  Product Feature  2-5 In case of the loss of external clock source signal, the BTS3612A can still keep clock synchronization for 24 hours.  2.6  Serial Products for Seamless Coverage  Huawei provides a series of BTS products to enable a seamless coverage for urban, suburb, and rural area, high way and hot area. Table 2-1 shows the application of various BTS products.  Table 2-1 Application comparison between serial BTS products Product   Max. sector carrier per cabinet  Capacity Application   Type cBTS3612  12  Large  Highly populated area and city.  Indoor BTS3606 6  Medium Medium and small cities, towns. Low requirement for equipment room.  Indoor BTS3612A 6  Medium  Outdoor, heavy traffic and limited equipment room space  Outdoor BTS3601C 1  Small  Indoor, underground, highway and railroad.   Outdoor (also applicable to the indoor condition) ODU3601C 1  Small  Indoor, underground, highway and railroad.  Outdoor (also applicable to the indoor condition)
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 3  Product Architecture  3-1 Chapter 3  Product Architecture 3.1  Cabinet Profile and Configuration  3.1.1  Cabinet Profile I. Cabinet appearance The BTS3612A cabinet conforms to the IEC297 standard. The external dimensions are: 1700mm×1200mm×1000mm (Height×Width×Depth). Its appearance is as shown in Figure 3-1.  Figure 3-1 BTS3612A cabinet
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 3  Product Architecture  3-2 II. Cabinet feature The BTS3612A cabinet features:  Fully-enclosed integrated structure and powerful environment adaptability Light weight owing to its aluminum alloy materials. Excellent electrical conductivity and shielding effect. Good ventilation effect owing to the well-designed air ducts. Convenient installation and maintenance. Nice appearance.  3.1.2  Cabinet Configuration The BTS3612A cabinet is show in Figure 3-2.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 3  Product Architecture  3-3 Storage battery/DC powerfilter/DC lightning arresterReserved spacefor transmissionequipmentDFU/DDU/CDU2BC IMBC IMBCPMBCPMBCPMBCKMBCKMBRDMBRDMBCPMBCPMBCPMSecondary powerswitch boxFan boxAir intake ventCable troughFibermanagementtrayDFU/DDU/CDU1DFU/DDU/CDU0Alternating current\lightningprotection\filtering unitPSU(DC/DC) PSU(DC/DC)PSU(AC/DC)PMUSecondary powerswitch boxSynchronousantenna feederarresterE1/SDH lightningprotection boardPSU(DC/DC)PSU(AC/DC )PSU(AC/DC)PSU(AC/DC)PSU(AC/DC)PSU(AC/DC)PSU(AC/DC)PSU(AC/DC)PSU(AC/DC)Air exhaustventBHPA1BTRM1BHPA3BTRM3BHPA5BTRM5RLDU1BHPA0BTRM0BHPA2BTRM2BHPA4BTRM4RLDU0Air exhaustvent Air exhaustvent Air exhaustvent Figure 3-2 Full configuration of the BTS3612A cabinet   The boards and modules of BTS3612A are listed in Table 3-1. Table 3-1 Boards and modules of the BTS3612A Acronyms Full name BCIM  BTS Control Interface Module BCKM  BTS Control & Clock Module BCPM  BTS Channel Processing Module BESP BTS E1 Surge Protector
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 3  Product Architecture  3-4 Acronyms Full name BRDM BTS Resource Distribution Module CDU  Combiner and Duplexer Unit DDU  BTS Dual Duplexer Unit DFU Duplexer and Filter Unit BHPA  BTS High Power Amplifier BTRM  BTS Transceiver Module PSUAC/DC AC/DC Power Supply Unit PSUDC/DC DC/DC Power Supply Unit PMU  Power Management Unit RLDU  Receive LNA Distribution Unit  3.2  System Structure This section highlights the main equipment of BTS3612A, which is composed of baseband subsystem, Radio Frequency (RF) subsystem, antenna & feeder subsystem, and power & environment monitor subsystem, as shown in Figure 3-3. Standard space is reserved in the cabinet to accommodate transmission equipment such as microwave and SDH, so as to support different networking modes.  BSCBasebandsubsystemPower & environment monitor subsystemRadio FrequencysubsystemAbisinterfaceUminterfaceMS Antenna & feedersubsystem220V ACor110V ACBTS3612A  Figure 3-3 BTS3612A system structure  3.2.1  Baseband Subsystem Composed of the BCKM, BCIM, BRDM, BCPM, etc, the baseband subsystem can  z Provide Abis interface and complete the related processing of Abis protocol.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 3  Product Architecture  3-5 z Provide a fiber interface to the RF subsystem, and complete the processing of Um physical layer and Common Channel (CCH) MAC layer protocols. z Implement the modulation/demodulation of baseband data and the coding/decoding of CDMA channels. z Provide synchronization clock signal to the BTS.  The baseband subsystem also implements system resource management, operation and maintenance, and environment monitoring. 3.2.2  Radio Frequency Subsystem The RF subsystem is composed of the BTRM, BHPA, CDU/DFU/DDU, RLDU, etc. Its functions can be grouped in forward and reverse directions.  z In forward direction The subsystem completes the power-adjustable up-conversion and linear power amplification to the modulated transmission signals, filtering of signals, and multi-carrier combination (optional) before sending the signal to the antenna & feeder subsystem. z In reverse direction The subsystem filters the signals received by the antenna to suppress the outband interference, and performs low-noise amplification, multi-carrier division, noise factor–adjustable down-conversion, and channel-selective filtering before sending the signals to the baseband subsystem.  3.2.3  Antenna and Feeder Subsystem The antenna and feeder subsystem of BTS3612A includes two parts: the RF part and the GPS/GLONASS synchronization part.  z RF antenna and feeder This part is composed of the transmitting and receiving antennae, feeders, tower amplifier (optional), etc. It transmits and receives signals on the air interface.  z GPS/GLONASS synchronization antenna and feeder This part is composed of the satellite signal receiving antenna, feeder, lightning protector, etc. It receives synchronization signals from the satellites (GPS or GLONASS) to provide precise clock source for the BTS. .
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 3  Product Architecture  3-6 3.2.4  Power and Environment Monitoring Subsystem The power and environment monitoring subsystem includes the power supply and environment monitor (including the temperature controller). z Power supply The power supply contains the AC distribution unit, DC distribution unit, Power Supply Units (PSUs, including PSUAC/DC and PSUDC/DC), PMU, battery group and its management unit.  The PSUs work in N+1 redundancy mode. If any PSU fails, an alarm will be reported. The PSUs support online insertion and removal.  z Environment monitor The environment monitor includes the PMU and sensors. The PMU collects the environment variables of temperature, humidity, smoke, water and access control from the sensors, and reports them to the BCKM of the BTS. The BTS performs the preset operations and reports the information to the OMC.  z Temperature control device The temperature controller may be an air conditioner or a heat exchanger, which can ensure the normal operation of the BTS in the following ambient-temperature ranges:  z Air conditioner: –40°C–55°C z Heat exchanger: –40°C–45°C 3.3  External Physical Interface The BTS3612A provides the following main external physical interfaces listed in Table 3-2. Table 3-2 Main external physical interfaces on the BTS3612A Interface name  Type  Quantity  Function Abis interface  E1/T1 (One of the two)  8 Connecting to transmission system and the BSC equipment. Supporting IMA/UNI and cascading. Providing 75Ω and 120Ω loading interfaces for E1, 100Ω loading interfaces for T1. Providing the Fractional Asynchronous Transfer Mode (ATM) function. Realizing transmission on timeslots different from those used by other network elements.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 3  Product Architecture  3-7 Interface name  Type  Quantity  Function 6 When cabinets are combined, the extension cabinet and the main cabinet share one baseband subrack. Optical fiber is used for the connection between cabinets.  Cabinet combining interface   4  Four RF connection cables are provided to connect the RLDU and BTRM in different cabinets.  ODU3601C cascading interface Optical fiber  6  When the combined cabinet is fully configured with 12 sectors/carriers, six more external ODU3601Cs can be attached to the combined cabinet. GPS/GLONASS  2  Connecting the satellite signal receiver and the satellite antenna to provide long-term and stable clock signal for the BTS. Clock interface  External synchronous clock input 1  Providing high-precision clock. Maintenance interface  Ethernet interface  1  Providing near-end maintenance path. Clock source interface 1  Outputting 10MHz signal for testing. Clock test interface Sync test interface 1  Outputting 2S signal for testing. Power supply  4  A, B, and C phase lines and zero line  Protection grounding (PGND)  3 One PGND is led out to the grounding cable. When cabinets are combined, one PGND is connected to the extension cabinet. One PGND is connected to the auxiliary equipment. Power supply and grounding DC power supply  2  Providing -48 DC power for the recharge of batteries Feeder interface  RF signal   6 Corresponding to 3 sectors. Each sector corresponds to 2 DIN connectors, which can be used for both transmitting and receiving.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 4  Main Functions  4-1 Chapter 4  Main Functions 4.1  Basic Function The Um interface of the BTS3612A supports the TIA/EIA IS-2000 Rel.A standard, and is compatible with the TIA/EIA-95-A/B standard. The minimum performance satisfies TIA/EIA-97-D requirements. The Abis interface complies with the 3GPP2 A.R0003 standard. The BTS3612A supports: z The 90~290V AC input.  z The GPS/GLONASS synchronization interface and external synchronization interface to achieve long-term clock synchronization.  z Cascading of ODU3601Cs.  z Soft and softer handoffs.  z Slotted mode paging and fast paging modes.  z Channel management function.  z Channel Element (CE) pool operational mode to dynamically allocate resources.  z Resource status management.  z High power and wide coverage (When operate at 450MHz band, the max power output is 25W).  z Multiple power controls.  z The 75Ω unbalanced interface (E1, coaxial cable), 120Ω balanced interface (E1, twisted pair) and the 100Ω unbalanced interface (T1, twisted pair) on the Abis interface.  z Timeslot cross function on the Abis interface.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 4  Main Functions  4-2 4.2  Radio Network Function 4.2.1  Power Control  The CDMA system is a self-jamming system, in which every subscriber is an interference source to other subscribers. Power control directly affects the system capacity and the service quality. If it is possible to ensure that every MS transmits the minimum power it needs, the whole system capacity can be the largest.  Power control can be divided into forward power control and reverse power control. The forward power control is used to control BTS’s transmit power while the reverse power control aims to control MS’s transmit power. I. Forward power control  Forward power control has various methods, whose applications are subject to the MS protocol version and the system parameters.  z Power control based on PMRM When the MS adopts power control based on Power Measurement Report Message (PMRM), it will determine the method and frequency of reporting PMRM in accordance with the received control message of the system parameter message.  z Power control based on EIB  When the MS adopts power control based on Erasure Indicator Bit (EIB), it will detect forward frame quality, and feed back the information to the BTS via EIB. The BTS will adjust the transmit power according to EIB information.  z Forward fast power control The MS will adjust BTS power according to power control bit (the maximum speed can reach 800bit/s). In the CDMA2000 1X system, high speed data service is supported. Therefore, the requirement on forward power control is increasingly strict. The forward fast power control method can control forward channel transmit power accurately, so as to reduce interference and improve the capacity.  II. Reverse power control  Reverse power control includes open-loop power control and close-loop power control. The close-loop power control can be further divided into inner loop power control and outer loop power control.  z Open-loop power control
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 4  Main Functions  4-3 The MS will determine the transmit power to access the BTS according to the received pilot signal strength.  z Close-loop power control  The BTS issues power control command to the MS, and performs the adjustment according to MS feedback. The principle of close-loop power control is shown in the following figure.  MS BTS BSCEb/Nt FERPower control bitEb/Nt changing quantityInner loop Outer loop Figure 4-1 Close-loop power control In inner loop power control mode, the BTS will issue power control bit according to the received Eb/Nt value. In outer power control mode, the BSC will adjust preset Eb/Nt value according to the Frame Error Rate (FER) of the received reverse signal. Then the BTS will use the newly set Eb/Nt value to issue power control bit. In this way, the transmit power of MS can be controlled.  4.2.2  Handoff When the MS is moving out of the coverage of current cell/sector or the conversation quality deteriorates to an unbearable degree, the MS will be handed off to another cell/sector to maintain the ongoing conversation. If the MS handoff helps to improve conversation quality and network performance, handoff procedure may also be triggered. I. Soft handoff The soft handoff happens between adjacent cells which serve on the same frequency and belong to different BTSs. The two different BTSs can belong to the same BSC, or two different BSCs connected with A3/A7 interface.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 4  Main Functions  4-4 In soft handoff procedure, the MS will maintain the connection with the previous cell until it establishes the communication with the new cell. During handoff procedure, the MS can establish radio links with multiple cells, select and combine data received from these links so as to improve conversation quality and reduce call drops.   II. Softer handoff  The softer handoff happens between adjacent cells that serve on the same frequency and belong to the same BTS. In fact, it is a special case of soft handoff. Since the MS establishes radio links with multiple sectors under the same BTS, the BTS can combine the diversity signals received by its sectors from the MS. Therefore, the conversation quality during softer handoff is better than that of soft handoff.  III. Hard handoff In hard handoff procedure, the MS will firstly interrupt the connection with the previous cell, and then set up the connection with the new cell. There is a chance of call drop.  Hard handoff includes: z Intra-frequency hard handoff: Handoff between the BSCs with no A3/A7 interface in-between.  z Inter-frequency hard handoff: Handoff between cells of different frequencies.  4.2.3  Radio Configuration The Um interface of BTS3612A supports CDMA2000 1X, and is compatible with IS-95A/B. The spreading rate is 1.2288Mcps. The CDMA2000 1X physical layer supports multiple Radio Configurations (RC). Each radio configuration supports the frames of the different rate sets, and possesses different channel configuration and spreading spectrum structure.  The transmission combinations supported by BTS3612A include:  z Forward RC1, and reverse RC1. z Forward RC2, and reverse RC2. z Forward RC3 or RC4, and reverse RC3. z Forward RC5, and reverse RC4. Each RC supports different traffic channel data rate. With different RC, the CDMA2000 1X can present different capabilities. RC1 and RC2 are compatible with IS-95A/B.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 4  Main Functions  4-5 4.2.4  Channel Configuration  A series of physical channels have been defined on the Um interface. These physical channels are divided into different types according to the channel features. Different RCs support different channels.  I. Forward channel  z Forward Common Channel Forward Pilot Channel (F-PICH): Provides the MSs in the BTS coverage with synchronization signals. Different from other channels, the F-PICH is a spread spectrum signal which is not modulated and is transmitting continuously. Forward Sync Channel (F-SYNCH): Provides the MSs in the BTS coverage with initial synchronization information.  Forward Paging Channel (F-PCH): Sends overhead message and MS-specific message to the MSs in the BTS coverage. Each frequency in a sector supports seven paging channels at most.  Forward Quick Paging Channel (F-QPCH): Used to send paging order and the system configuration changing order to MSs working in slotted mode, instructing them to receive the paging messages. Thus the MS battery energy can be saved.  z Forward Dedicated Channel Forward Dedicated Control Channel (F-DCCH): Bears traffic information and signaling information between the MS and the BTS.  Forward Fundamental Channel (F-FCH): Bears traffic information between the MS and the BTS.  Forward Supplemental Channel (F-SCH): Bears traffic information between the MS and the BTS. It is applicable to RC3, RC4 and RC5 only. II. Reverse channel z Reverse common channel  Reverse Access Channel (R-ACH): Used by the MS to initiate the communication with the BTS, and respond to paging channel message. MS uses random access protocol to initiate access procedure. Regarding each paging channel supported, maximum 32 access channels can be supported.  z Reverse dedicated channel Reverse Fundamental Channel (R-FCH): Bears traffic information between the MS and the BTS.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 4  Main Functions  4-6 Reverse Common Control Channel (R-DCCH): Bears traffic information and signaling information between the MS and the BTS. Reverse Supplemental Channel (R-SCH): Bears traffic information between the MS and the BTS. It is applicable to RC3 and RC4 only. 4.2.5  Receiving Diversity The BTS3612A supports receiving diversity function. The function is realized through two sets of independent equipment, including antenna, feeder, CDU/DDU/DFU and main/diversity receiving channels. The two sets of receiving equipment demodulate the received signals. Then the baseband processing unit decodes the signals using diversity combining algorithm, which is expected to provide some diversity gain.  The receiving diversity increases the anti-attenuation capability of the BTS and ensures the receiving quality of the BTS under complicated radio environment. 4.2.6  Cell Breathing The BTS3612A can control the coverage of a cell and balance system load by adjusting the transmit power. This function has great significance for the CDMA system. The transmit power of BTS3612A ranges from "1dB" to "24dB", which can be adjusted at a step of "0.5dB".
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 5  Reliability Design  5-1 Chapter 5  Reliability Design 5.1  System Reliability I. De-rating design To delay performance degeneration and prolong the service life of high-power components and heat-generating components, less stress (electrical stress and temperature stress) is to be borne during operation by these components than their designed capabilities. II. Quality control of components  The category, specifications and manufacturers of the components are carefully selected and examined according to the requirements of the product reliability and maintainability. The replaceability and normalization of components is one of the main factors for the decision. Strict quality control is implemented on hardware assembling procedures to ensure high reliability and stability in long run.  III. Thermal design  The heat design primarily concerns the component selection, circuit design, mechanical design and heat dissipation design so that the impact of temperature changes upon product performance is minimized. The thermal design of BTS3612A ensures that it can work reliably in a wide range of temperatures.  IV. EMC design The design ensures that the BTS3612A will not degrade to an unacceptable level due to the electromagnetic interference (EMI) from other equipment in the same electromagnetic environment. At the same time, the BTS3612A will not cause other equipment in the same electromagnetic environment to degrade to an unacceptable level due to the EMI from it. V. Redundancy design For the purpose of reliability, the system is designed with several sets of units performing the same function. The system will not fail unless the specified sets of units fail.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 5  Reliability Design  5-2 VI. Reliability design for input voltage The system is protected against reverse connection of power supply. The input voltage of the -48V power supply is checked and alarm signal will be generated when the voltage is too low or too high. The system is protected again sharp voltage drop and lightning strikes. The system provides protection for program and data in the case of power failure. VII. Maintenability design  The reasonable internal wiring of the BTS facilitates boards replacement. To replace a faulty board, only the cable of this board is required to be removed. The board can be pulled out from the front side of the cabinet. Board indicators are provided to help users identify board status. VIII. Fault monitoring and handling  The BTS3612A is equipped with the functions of self-detection and fault diagnosis. It can record, output and print various fault information. It can also collect environment condition information and generate alarms if there is any problem.  The hardware fault detection procedures include fault locating, isolating the faulty components and automatic switchover to active components. The system will make a final confirmation on a hardware fault through repeated detection, thus avoiding the system reconfiguration or QoS deterioration due to contingent faults. When faults occur to software, certain automatic error-correction function will be executed, including restarting and reloading. Critical faults will be recorded, output or printed, and notified to users through network management system. 5.2  Hardware Reliability I. Protection against wrong insertion of boards  When a board is plugged in the slot of another board by mistake, the special pins will prevent the board from touching the backplane. This avoids the possible damage to the equipment due to wrong insertion.  II. Active-standby switchover of BCKM  The active BCKM will back up the file data to the standby one periodically. Once critical faults occur to the active BCKM, it will trigger active-standby switchover to secure normal operation of the BTS.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 5  Reliability Design  5-3 III. CE pool design of CCPM The CCPM adopts CE pool design to enhance the system's reliability.  IV. Status monitoring and alarm report  The BCKM has the capability of monitoring the status of other boards or modules, and reporting alarms to ensure timely fault location. V. Distributed power supply The system internally adopts distributed power supply. The DC/DC power supply module (PSUDC/DC) works in the N+1 redundancy mode. When an error occurs to a module, it will send the alarm to the BAM. It also supports online insertion and removal of boards.  5.3  Software Reliability I. Periodic check of key resources  This function aims to check software resource which has been occupied for a long time. If certain resource becomes unavailable due to software error, the check mechanism will release that resource and output logs and alarm. II. Process monitoring Process monitoring provides channel for outputting various software and hardware faults while the software is running. It can monitor the status of a specific task or system running, and report the information to the outside. III. Data check Data check functions include: z The consistency check for data of different processing boards, restore of data consistency and output of log files and alarms. z The consistency check for the data input by the user to ensure correct reference relation among data.  z The rollback function. If the modification of some data fails at certain point, the data will be restored to the initial status so as to ensure data consistency. IV. Fault isolation  The BTS3612A has the feature of isolating module software faults. When a fault occurs to one module, other modules will not be affected. In addition, the software has the
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 5  Reliability Design  5-4 capability of fault tolerance and correction. The normal faults will not trigger system reset or reboot. V. Software fallback The system provides the function of program and data restoration. When the upgrade fails, the function help restore to the original program and data configuration.  VI. Log function The Operation & Maintenance software will automatically record user's operations in a period of time and save them into a log file. When an unknown error occurs to the system, log files can help to trace back to the normal condition for fault location or data restoration.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 6  Operation and Maintenance System  6-1 Chapter 6  Operation and Maintenance System The Operation and Maintenance (O&M) system includes the local O&M system and the M2000 Mobile Network Management System.  In this chapter, the local O&M system is described in the aspect of the local end and the remote end respectively. The M2000 system is not explained in details except its basic structure and functions. The details are available in the related manual of M2000. 6.1  Structure of the O&M System 6.1.1  Local O&M System Figure 6-1 shows the structure of BSS local O&M system. BTSBSCRouterRouterinternetIPOAIPOAIP over EthernetIP over EthernetIP over EthernetIP over EthernetIP over EthernetBTS Figure 6-1 BSS local O&M system  I. Remote maintenance The local OMC of the BSS is designed in the Client/Server (C/S) structure. The user inputs operation commands through the LMT (Client). As the server, the BAM processes commands from different Clients and sends these commands to the foreground (BSC or BTS). The BAM records the operation results (such as success, failure, timeout, or abnormality) and sends the results to the LMT in a specified format.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 6  Operation and Maintenance System  6-2 Through the OMC, the user can perform remote maintenance and can monitor all the BTSs. Meanwhile, information from these BTSs can be collected for network planning and optimization.  II. Local maintenance Local maintenance is implemented by logging in to the BTS through Telnet Client or FTP mode from the LMT. In local maintenance mode, users can perform various operations and maintenance (including data configuration) on the BTS using the MML commands. In addition, through the reverse maintenance function, users can maintain the whole BSS from the LMT of the BTS.  6.1.2  M2000 Mobile Network Management System The M2000 mobile network management system implements the centralized O&M function. In this system, the M2000 server is the core, and various mobile network elements (such as BSC, MSC, HLR, and so on) are connected to the system via Local Area Network (LAN) or Wide Area Network (WAN).  The BSC is connected to the M2000 mobile network management system via the BAM.  Figure 6-2 shows the typical networking of the M2000 mobile integrated network management system. E1, DN, X.25 and frame relay.Dialup ServerLANNE NEM2000 Server WSllSupport remote dialup maintenanceNEPSTNSupport E1, DDN,X.25 and frame relay. Figure 6-2 Networking of M2000 mobile integrated network management system The M2000 mobile network management system performs configuration management, performance management and fault management. z Configuration management function: Collecting, storing, querying and modifying the NE equipment data within the network system.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 6  Operation and Maintenance System  6-3 z Performance management function: The user can register the traffic measurement tasks of the NEs from the network Client, and can view the ask results.  z Fault management function: The user can set combined conditions to get the required alarm data of the network from the Alarm Client, and can view the results and perform related operations.  6.2  Operation and Maintenance Function To meet user's requirement, the BTS3612A provides powerful operation and maintenance capability, including security management, alarm management, loading management, configuration management, equipment management, test management, tracing management, etc. I. Security management The security management based on the user authority mainly includes the user login/logout, user adding/deleting, password changing, and authority changing. To prevent illegal operation, the system provides powerful security management function to control user's operation and equipment running.  The user will be authenticated before he can log in to and operate the BTS3612A. The system provides multi-level authority mechanism so that only the authorized user can perform the operation of specified command sets. In addition, the timeout locking function is provided. When a user has not operated the system for a specified period, the system will automatically lock the screen.   Before the execution of important commands, the system will prompt the user for confirmation.  II. Alarm management  The system performs centralized management over the alarms of the BSC and the BTS. The BSS Maintenance Console provides real-time alarm management function: alarm collecting, clearing, querying, handling, saving, interpretation, notification, shielding, filtering, acknowledging, analyzing, etc.   In addition, the alarm management system provides online help information and leveled filtering to help locate faults. While reporting alarms, the BTS3612A will drive related devices (such as status indicators and alarm box) to give audible and visible alarms.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 6  Operation and Maintenance System  6-4 III. Loading management The loading management implements the loading of software and configuration data. Software loading includes the downloading and activation of the Central Processing Unit (CPU) software and Field Programmable Gate Array (FPGA) logic. Configuration data loading includes downloading and uploading of the data.  IV. Configuration management The configuration management is to configure BTS equipment and radio resources. Users can also query the configuration data and check data consistency.  Both online and offline configuration functions are provided together with batch processing function for data configuration.  V. Equipment management The equipment management provides monitoring and querying of the board's and system's status. It also provides user operation log and system running log to facilitate fault location and shooting.  The equipment management function includes: version querying, status querying, electronic label querying, log management, equipment reset, resource blocking/unblocking, power supply management, etc. VI. Test management The test management facilitates fault location and the optimization of system performance. It includes board loopback, self-detection, Abis link test, etc. VII. Tracing management The tracing management is implemented for the purpose of fault location and performance measurement analysis. The traced objects include various interfaces and BTS resources. The tracing results of some resources (such as CPU resource and cell resource) can be displayed in graphics in real-time for the purpose of monitoring.
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 7  Technical Indices  7-1 Chapter 7  Technical Indices 7.1  Structure and Environment Indices  Item Index Cabinet dimensions (Height×Width×Depth)   1700mm x 1200mm x1000mm 220/230/240V AC:  Single-phase/three-phase input Voltage range: 176~264V Frequency range: 47~63Hz Over-voltage protection when the voltage reaches 290V. Power supply  110/115/127V AC: Single-phase/three-phase input Voltage range: 90~135V Frequency range: 47~63Hz Under-voltage protection when the voltage reaches 85V. Weight  650kg (excluding the batteries and the built-in transmission equipment) Air conditioner Power consumption of integrated equipment (with air conditioner in cooling function and without battery cabinet): 6100W Power consumption of integrated equipment (with air conditioner in cooling function and with battery cabinet): 11000W Power consumption of integrated equipment (with air conditioner in heating function, and without battery recharging considered): 6000W Power consumption (in full configuration) Heat exchanger 4500W (without battery cabinet)  9500W (with battery cabinet)  6000W (heating, without recharging)  Air conditioner -40°C ~ 55°C Operational environment temperature  Heat exchanger -40°C ~ 45°C Relative humidity  5% ~ 100% Noise  ≤ 65dBA (The noise varies with the ambient temperature)
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 7  Technical Indices  7-2 Item Index A: ≥ 99.999% MTBF:≥ 100000h Reliability  MTTR: ≤ 1h (excluding the time spent on the journey) MTTR: ≤ 3h (including the time spent on the journey)  7.2  Capacity Indices Full configuration of single cabinet  6 sectors/carriers Full configuration of combined cabinet  12 sectors/carriers  7.3  Transmitter and Receiver Indices at 450MHz Band  I. Transmitter indices Item Index Working band  460 ~ 467MHz Channel bandwidth  1.23MHz Channel precision  25kHz Frequency tolerance  ≤±0.05ppm Transmit power  25W (the maximum value measured at the cabinet feeder port)  II. Receiver indices Item Index Working band  450 ~ 457MHz Channel bandwidth  1.23MHz Channel precision  25kHz Sensitivity of signal receiver  Better than -127 (RC3, main and diversity receiving)
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 7  Technical Indices  7-3 7.4  Transmitter and Receiver Indices at 800MHz Band  I. Transmitter indices Item Index Working band  869 ~894MHz Channel bandwidth  1.23MHz Channel precision  30kHz Frequency tolerance  ≤±0.05ppm Transmit power  20W (the maximum value measured at the cabinet feeder port)  II. Receiver indices Item Index Working band  824 ~ 849MHz Channel bandwidth  1.23MHz Channel precision  30kHz Sensitivity of signal receiver  Better than –127dBm (RC3, main and diversity receiving)  7.5  Transmitter and Receiver Indices at 1900MHz Band  I. Transmitter indices  Working frequency  1930~1990MHz Channel bandwidth  1.23MHz Channel precision  50kHz Frequency tolerance  ≤±0.05ppm Transmit power  20W (the maximum value measured at the cabinet feeder port)  II. Receiver indices Working frequency  1850~1910MHz Channel bandwidth  1.23MHz Channel precision  50kHz Sensitivity of signal receiver  Better than -126dBm (RC3, main and diversity receiving)
Technical Manual Airbridge BTS3612A CDMA Base Station System Description Chapter 7  Technical Indices  7-4 7.6  ODU3601C Cascading Item Index Max. distance of single cascading  10km or 70km (depending on the optical interface module used) Max. number cascaded ODU3601Cs   3  Max. distance of all cascadings  90km
Technical Manual Airbridge BTS3612A CDMA Base Station  System Description Appendix A  Standard Compliance  A-1 Appendix A  Standard Compliance A.1  General Technical Specification TIA/EIA-97-D: Recommended minimum performance standards for base stations supporting dual-mode spread spectrum mobile stations General Technical Requirements: Federal IMT-MC (CDMA2000) cellular mobile system operating in band 450MHz A.2  Um Interface I. Physical layer TIA/EIA IS-2000-2-A: Physical layer standard for CDMA2000 spread spectrum systems II. MAC layer TIA/EIA IS-2000-3-A: Medium Access Control (MAC) standard for CDMA2000 spread spectrum systems III. Service capability TSB2000: Capabilities requirements mapping for CDMA2000 standards A.3  Abis Interface I. Physical layer z E1 interface E1 physical interface specification, september 1996 z SDH STM-1 ANSI T1.101: Synchronization interface standard  ITU-T G.707: (3/96) Network node interface for the synchronous digital hierarchy (SDH)  ITU-T G.703: (10/98) Physical/electrical characteristics of hierarchical digital interfaces
Technical Manual Airbridge BTS3612A CDMA Base Station  System Description Appendix A  Standard Compliance  A-2 ITU-T G.957: Optical interface for equipment and systems relating to the synchronous digital hierarchy  ITU-T G.958: Digital line systems based on the synchronous digital hierarchy for use on optical fiber cables z ATM AF-PHY-0086.001: Inverse Multiplexing for ATM (IMA) specification version 1.1 ATM Forum af-phy-0064.000 ATM Forum af-phy-0130.000 STR-PHY-FN64-01.00: ATM on fractional E1/T1, October 1999 II. ATM layer ANSI T1.627-1993: Telecommunications broadband ISDN-ATM layer functionality and specification III. ATM adaptation layer ITU-T recommendation I.366.2: B-ISDN ATM adaptation layer type 2 specification ITU-T I.363.5: B-ISDN ATM adaptation layer 5 specification: Type 5 AAL IV. TCP/IP RFC791: Internet protocol RFC793: Transport control protocol V. Abis interface high layer protocol 3GPP2 A.R0003: Abis interface technical report for CDMA2000 1X spread spectrum system VI. Self-defined standard  CDMA2000 1X Abis interface high layer protocol  A.4  Lightning Protection IEC 61312-1(1995) Protection against lightning electromagnetic impulse part I: General principles IEC 61643-1(1998) Surge protective devices connected to low-voltage power distribution systems
Technical Manual Airbridge BTS3612A CDMA Base Station  System Description Appendix A  Standard Compliance  A-3 ITU-T K.11 (1993) Principles of protection against over-voltage and over-current. ITU-T K.27 (1996) Bonding configurations and earthing inside a telecommunication building ETS 300 253(1995) Equipment engineering; earthing and bonding of telecommunication equipment in telecommunication centers A.5  Safety IEC60950 Safety of information technology equipment including electrical business equipment IEC60215 Safety requirement for radio transmitting equipment CAN/CSA-C22.2 No 1-M94 Audio, video and similar electronic equipment CAN/CSA-C22.2 No 950-95 Safety of information technology equipment including electrical business equipment. UL 1419 Standard for professional video and audio equipment 73/23/EEC Low voltage directive UL 1950 Safety of information technology equipment including electrical business equipment IEC60529 Classification of degrees of protection provided by enclosure (IP Code). GOST 30631-99. General Requirements to machines, instruments and other industrial articles on stability to external mechanical impacts while operating; GOST R 50829-95. Safety of radio stations, radio electronic equipment using transceivers and their components. The general requirements and test methods; GOST 12.2.007.0-75. Electrotechnical devices. The general safety requirements. A.6  EMC TS 25.105; 3rd Generation Partnership Project; TSG RAN WG4; UTRA (BS) TDD; Radio transmission and reception89/336/EEC EMC directive Council directive of 3 May 1989 on approximation of laws of the Member States relating to electromagnetic compatibility; CISPR 22 (1997): "Limits and methods of measurement of radio disturbance characteristics of information technology equipment";
Technical Manual Airbridge BTS3612A CDMA Base Station  System Description Appendix A  Standard Compliance  A-4 IEC 61000-6-1: 1997; "Electromagnetic compatibility (EMC) ∗ Part 6: Generic standards  ∗ Section 1: Immunity for residential, commercial and light-industrial environments"; IEC 61000-6-3: 1996; "Electromagnetic compatibility (EMC) ∗ Part 6: Generic standards ∗ Section 3: mission standard for residential, commercial and light industrial environments"; IEC 61000-3-2 (1995): "Electromagnetic compatibility (EMC) - Part 3: Limits ∗ Section 2: Limits for harmonic current emissions (equipment input current = 16 A) "; IEC 61000-3-3 (1995): "Electromagnetic compatibility (EMC) - Part 3: Limits ∗ Section 3: Limitation of voltage fluctuations and flicker in low-voltage supply systems for equipment with rated current = 16 A" IEC 61000-4-2 (1995): " Electromagnetic compatibility (EMC) - Part 4: Testing and measurement techniques ∗ Section 2: Electrostatic discharge immunity test"; IEC 61000-4-3 (1995): " Electromagnetic compatibility (EMC) - Part 4: Testing and measurement techniques ∗ Section 3: Radiated, radio-frequency electromagnetic field immunity test"; IEC 61000-4-4 (1995): " Electromagnetic compatibility (EMC) - Part 4: Testing and measurement techniques ∗ Section 4: Electrical fast transient/burst immunity test"; IEC 61000-4-5 (1995): " Electromagnetic compatibility (EMC) - Part 4: Testing and measurement techniques ∗ Section 5: Surge immunity test"; IEC 61000-4-6 (1996): " Electromagnetic compatibility (EMC) - Part 4: Testing and measurement techniques ∗ Section 6: Immunity to contacted disturbances, induced by radio frequency fields"; IEC 61000-4-11 (1994): " Electromagnetic compatibility (EMC) - Part 4: Testing and measurement techniques ∗ Section 11: Voltage dips, short interruptions and voltage variations. Immunity tests"; ITU-T Recommendation K.20, Resistibility of Telecommunication Switching Equipment to Overvoltages and Overcurrents; CFR 47, FCC  Part 15-Radio Frequency Device; TS 25.113v3.1.0, 3rd Generation Partnership Project; Technical Specification Group Radio Access Networks; Base station EMC; ITU-R Rec. SM.329-7: "Spurious emissions"; GOST R 51318.22-99: Electromagnetic compatibility of technical equipment. Man-made noise from informational equipment. Limits and test methods;
Technical Manual Airbridge BTS3612A CDMA Base Station  System Description Appendix A  Standard Compliance  A-5 GOST 30429-96. "Electromagnetic compatibility of technical equipment. Man-made noise from equipment and apparatus used together with service receiver systems of civil application. Limits and Test methods. A.7  Environment IEC 60529  "Degrees of protection provided by enclosure (IP code)" IEC 60721-3-1"Classification of environmental conditions- Part3: Classification of groups of environmental parameters and their severities-Section 1: Storage"; IEC 60721-3-2"Classification of environmental conditions- Part3: Classification of groups of environmental parameters and their severities-Section 2: Transportation"; IEC 60721-3-3 (1994) "Classification of environmental conditions - Part 3: Classification of groups of environmental parameters and their severities - Section 3: Stationary use at weather protected locations"; IEC 60721-3-4 (1995): "Classification of environmental conditions - Part 3: Classification of groups of environmental parameters and their severities - Section 4: Stationary use at non-weather protected locations"; ETS 300 019-2-1 "Equipment Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part2-1, Specification of environmental tests Storage"; ETS 300 019-2-2 "Equipment Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part2-2, Specification of environmental tests Transportation"; ETS 300 019-2-3 "Equipment Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part2-3, Specification of environmental tests Transportation Stationary use at weather-protected locations"; ETS 300 019-2-3 "Equipment Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part2-3, Specification of environmental tests Transportation Stationary use at non-weather-protected locations"; IEC 60068-2-1 (1990): "Environmental testing - Part 2: Tests. Tests A: Cold"; IEC 60068-2-2 (1974): "Environmental testing - Part 2: Tests. Tests B: Dry heat"; IEC 60068-2-6 (1995): "Environmental testing - Part 2: Tests - Test Fc: Vibration (sinusoidal)". GOST 15150-69:  Machines, instruments and other industrial articles. Applications for different climatic regions. Categories, operating, storage and transportation conditions in compliance with the environmental factors";
Technical Manual Airbridge BTS3612A CDMA Base Station  System Description Appendix A  Standard Compliance  A-6 GOST 23088-80. "Electronic equipment. Requirements to packing and transportation and test methods".
Technical Manual Airbridge BTS3612A CDMA Base Station  System Description Appendix B  Abbreviations and Acronyms  B-1 Appendix B  Abbreviations and Acronyms A   ATM  Asynchronous Transfer Mode B   BCIM  BTS Control Interface Module BCKM  BTS Control & Clock Module BCPM  BTS Channel Process Module BESP  BTS E1 Surge Protector BHPA  BTS High power Amplifier BRDM  BTS Resource Distribution Module BSC  Base Station Controller BSS  Base Station Subsystem BTRM BTS Intermediate Frequency Module C   CDU Combiner and Duplexer Unit CN Core Network CPU  Central Processing Unit D   DC Direct Current DDU  BTS Dual Duplexer Unit DFU  Duplexer and Filter Unit E   EIA  Electronics Industry Association EIB Erasure Indicator Bit F   F-DCCH Forward Dedicated Control Channel F-FCH  Forward Fundamental Channel F-PCH  Forward Paging Channel FPGA  Field Programmable Gate Array F-PICH  Forward Pilot Channel F-QPCH  Forward Quick Paging Channel F-SCH  Forward Supplemental Channel F-SYNCH  Forward Sync Channel
Technical Manual Airbridge BTS3612A CDMA Base Station  System Description Appendix B  Abbreviations and Acronyms  B-2 FTP  File Transfer Protocol G   GLONASS  Global Navigation Satellite System GPS  Global Position System GSM  Global System for Mobile Communication H   HDSL  High-speed Digital Subscriber Line HLR Home Location Register I   IMA  Inverse Multiplexing for ATM ISDN  Integrated Services Digital Network L   LMT Local Maintenance Terminal M   MAC  Medium Access Control MML Man-Machine Language MS Mobile Station MSC Mobile Switching Center MTBF  Mean Time Between Failures MTTR  Mean Time To Repair P   PCF  Packet Control Function PLMN  Public Land Mobile Network PMRM  Power Measurement Report Message PMU  Power Management Unit PPP Peer-to-Peer Protocol PSTN  Public Switched Telephone Network PSU (AC/DC)  AC/DC Power Supply Unit PSU (DC/DC)  DC/DC Power Supply Unit R   R-ACH  Reverse Access Channel RC Radio Configuration R-DCCH Reverse Dedicated Control Channel R-FCH  Reverse Fundamental Channel RLDU  Receive LNA Distribution Unit R-P Radio-Packet
Technical Manual Airbridge BTS3612A CDMA Base Station  System Description Appendix B  Abbreviations and Acronyms  B-3 R-SCH  Reverse Supplemental Channel S   SDH  Synchronous Digital Hierarchy T   TIA  Telecommunications Industry Association U   UNI  User Network Interface

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