3G Mobile Communication cdma2000 System – All-IP Architecture ZXC10 BTSB I1 (V1.
ZXC10 BTSB I1(V1.0) cdma2000 Base Transceiver Station Installation Manual Manual Version Product Version 20040615-R1.1 V1.0 Copyright © 2003 ZTE Corporation All rights reserved. No part of this documentation may be excerpted, reproduced, translated, annotated or duplicated, in any form or by any means without the prior written permission of ZTE Corporation. ZTE CORPORATION ZTE Plaza, Keji Road South, Hi-Tech Industrial Park, Nanshan District, Shenzhen, P.R.China Website: http://www.zte.com.
FAX: 0086-755-26770160 Suggestions and Feedback To improve the quality of ZTE product documentation and offer better services to our customers, we hope you can give us your suggestions and comments on our documentation and fax this form to +86-755-26770160; or mail to “Marketing center 3rd floor ZTE Plaza, Keji Road South, Hi-Tech Industrial Park, Nanshan District, Shenzhen, P. R. China”. Our postcode is 518057. ZXC10 BTSB (V1.
Preface About This Manual This manual introduces the hardware installation flow and method of the ZXC10 BTSB I1. It is one of the manuals of the CDMA cellular mobile communication system of ZTE. This manual is intended to provide basic installation operation guide to the engineering staff that install the ZXC10 BTSB I1 of ZTE. Operation and maintenance staff of the equipment can also use it as reference.
Chapter 6 Grounding System Installation describes the installation procedure of the BTSB grounding system. Chapter 7 Cable Installation in Cabinet introduces the types of BTSB cabinet internal cables, and describes the installation procedure of them. Chapter 8 Trunk Cable Installation describes the installation procedure of the BTSB trunk cables, and explains how to prepare the E1 cables and how to convert the 75 Ω trunk cables into the 120 Ω trunk cables.
indicate a man-machine interface, menu item, data list, or field name. The symbol "-->" separates a multi-level menu, e.g., [File --> New --> Folder] indicates the [Folder] menu item under the [New] submenu of the menu [File]. 2. Keyboard operation conventions Format Character within Description angular brackets Indicating a key or button name, e.g., , , , and Indicating to hold several keys down at the same time.
FCC & IC STATEMENT Before using this product, read this important RF energy awareness and control information and operational instructions to ensure compliance with the FCC and IC RF exposure guidelines. NOTICE: Working with the equipment while in operation, may expose the technician to RF electromagnetic fields that exceed FCC rules for human exposure. Visit the FCC website at www.fcc.gov/oet/rfsafety to learn more about the effects of exposure to RF electromagnetic fields.
Contents 1 Installation Overview..............................................................................................................................1-1 1.1 BTSB Installation Overview ..........................................................................................................1-1 1.2 BTSB Installation Flow Chart........................................................................................................1-3 1.3 BTSB Precautions for Hardware Installation.......................
3.3.2 Unpacking Procedure.......................................................................................................... 3-4 3.3.3 Checking the Boards........................................................................................................... 3-4 3.4 Goods Acceptance and Handover .................................................................................................. 3-4 4 Cabinet Installation ...............................................................................
7.2.2 Installing Power Cables in the BDS....................................................................................7-2 7.2.3 Installing Optical Fibers ......................................................................................................7-2 7.2.4 Installing Monitoring Cables in the BDS ............................................................................7-3 7.2.5 Internal Cabling Table of the BDS ................................................................................
9.2.2 Installing the Indoor Temperature/Humidity Sensor........................................................... 9-3 9.2.3 Installing the Infrared Sensor.............................................................................................. 9-4 10 Main Antenna Feeder System Installation ....................................................................................... 10-1 10.1 Preparation for Installing the Antenna Feeder System ..............................................................
11.1 Preparation for Installing the Antenna Feeder System ............................................................... 11-1 11.2 Structure of the Antenna Feeder System .................................................................................... 11-1 11.3 Installation Flow......................................................................................................................... 11-2 11.4 Installing the Parts.............................................................................
13.5 Checking the E1 Cables............................................................................................................. 13-5 13.6 Checking the Sensors................................................................................................................. 13-5 13.7 Checking the Internal Connections of the Cabinet .................................................................... 13-6 13.8 Checking Indoor 1/2" Jumpers ................................................................
Appendix B Using SiteMaster .................................................................................................................. B-1 B.1 Selecting a frequency range.......................................................................................................... B-1 B.2 Checking SiteMaster .................................................................................................................... B-1 B.3 Inputting feeder parameters...............................................
List of Figures Fig. 1.1-1 BTSB Cabinet Composed of RF Chassis/BDS Chassis/PWS Chassis 1-2 Fig. 1.1-2 Appearance of BTSB Macro Base Station and PWS/BDS/RFS Chassis 1-2 Fig. 1.1-3 BTSB Installation Hardware 1-3 Fig. 1.2-1 Hardware Installation Flow 1-5 Fig. 3.2-1 Structure of the Wooden Box 3-2 Fig. 3.3-1 Packing Box of Modules 3-4 Fig. 4.1-1 Flexible Combination of ZXC10 BTSB I1 Subracks 4-2 Fig. 4.2-1 Cabinet Installation Flow 4-3 Fig. 4.
Fig. 4.2-17 Installation of Feeder Fixing Rack 4-18 Fig. 4.2-18 Feeder Fixing Rack after Installation 4-19 Fig. 4.2-19 4-19 Installation and Replacement of Dust Filters Fig. 5.1-1 BDS Power Cable Installation on BTSB 5-1 Fig. 5.2-1 Installation Flow of RFS Power 5-2 Fig. 5.3-1 RFS Power Cabling 5-3 Fig. 5.3-2 BDS Power Cabling 5-3 Fig. 5.3-3 Connection between Busbar and Backplane 5-4 Fig. 5.3-4 Connecting Power Cable (1) 5-5 Fig. 5.3-5 Connecting Power Cable (2) 5-6 Fig. 6.
Fig. 8.2-1 Assembly of thCC4Y-J32 Coaxial Cable Connector 8-5 Fig. 8.2-2 Coaxial Connector of the DDF 8-6 Fig. 8.2-3 Assembling DDF Coaxial Cable Plug 8-7 Fig. 8.3-1 Appearance and Wiring of an Impedance Converter 8-8 Fig. 8.3-2 Wiring of the Impedance Converter 8-9 Fig. 9.1-1 Structure of External Monitoring Cable of RFS 9-1 Fig. 9.2-1 Installing the Smog Sensor Base 9-3 Fig. 9.2-2 Installation of Temperature-Humidity Converter 9-4 Fig. 9.
Fig. 10.4-14 Introducing Feeders into the Equipment Room (Method 1) 10-23 Fig. 10.4-15 Introducing Feeders into the Equipment Room (Method 2) 10-23 Fig. 10.5-1 Installation and Lightning Protection of Arrester 10-25 Fig. 10.6-1 Wrapping the Waterproof Adhesive Tapes (1) 10-27 Fig. 10.6-2 Wrapping the Waterproof Adhesive Tapes (2) 10-27 Fig. 10.6-3 Wrapping the Waterproof Adhesive Tapes (3) 10-28 Fig. 11.2-1 Composition of the GPS Antenna Feeder System 11-2 Fig. 11.
List of Tables Table 2.1-1 DC Power Supply Indices for the Normal Operation of BTSB .....................................2-4 Table 2.1-2 Power Consumption Indices for the Normal Operation of BTSB..................................2-4 Table 2.2-1 Tools...............................................................................................................................2-7 Table 2.2-2 Instruments...........................................................................................................
Table C.2-1 BTSB Board Indicators.................................................................................................
1 Installation Overview Summary: z Hardware installation flow of the BTSB system z Precautions for BTSB installation 1.1 BTSB Installation Overview The cabinet of ZXC10 BTSB I1 comprises three basic chassis: RF chassis (RFS), baseband chassis (BDS) and power chassis (PWS). These chassis can be combined in different ways in a cabinet, as shown in Fig. 1.1-1. The appearance of the BTSB macro base station of ZTE is shown in Fig. 1.1-2. The BTSB system installation involves the following parts: 1.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Power chassis Slave baseband chassis Slave baseband chassis Power chassis Master baseband chassis Master baseband chassis RF chassis RF chassis Fig. 1.1-1 Slave baseband chassis Slave baseband chassis Master baseband chassis RF chassis BTSB Cabinet Composed of RF Chassis/BDS Chassis/PWS Chassis PWS BDS RFS Fig. 1.
Chapter 1 GPS installation Installation Overview Antenna system installation BTSB cabinet installation Power supply system installation Rack installation Trunk cable installation Internal cable installation Grounding system installation Board installation Fig. 1.1-3 Monitoring system installation BTSB Installation Hardware 1.2 BTSB Installation Flow Chart The normal operation of ZXC10 BTSB I1 depends heavily on the quality of the installation engineering.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual The detailed hardware installation flow of the BTSB system is shown in Fig. 1.2-1. This manual describes the specific installation procedure by chapters according to this flow.
Chapter 1 Installation Overview Start Survey report Engineering installation preparation Engineering design file Environment acceptance report Construction condition checking Cabling rack, power supply system, grounding system and other accessories Unpacking and acceptance Delivery error feedback form Consistence Packing list Yes Cabinet installation Power supply system installation Grounding system installation Cable installation in cabinet Trunk cable installation Monitoring system installat
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 1.3 BTSB Precautions for Hardware Installation Precautions for the BTSB hardware installation include: 1. Take careful precautions for the safety of yourself and the equipment during the installation. 2. Avoid hot swap during module installation. 3. In case of lightning, never install the antenna & feeder system. 4. Before the thunderstorm season every year, check whether the lightning arrester is in proper contact.
2 Installation Preparations Summary: z Environment check prior to the BTSB installation z Tool and instrument preparation prior to the BTSB installation z Technical documentation preparation prior to the BTSB installation 2.1 Checking the Installation Environment Check the following environment items before installation: Before installation, the customer should prepare the equipment room, power supply and grounding cables, and provide necessary facilities for the project implementation.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual doors in the equipment room should be no less than 2.2 meters, and the width should be no less than 1 meter. The net height of the equipment room should be no less than 3 meters. The equipment room should have a sufficient area for the equipment with extra free space.
Chapter 2 3. Installation Preparations Cleanness Cleanness is related to the amount of dust and harmful gases in the air. The equipment room should meet the following cleanness requirements: z No explosive, conductive, magnetic or corrosive dust. z Density of the dust whose diameter is larger than 5µm must be less than or equal to 3*104 particles/m3. z No corrosive metal or gas that is harmful to insulations, such as SO2, NH3.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual that used for local operation & maintenance consoles) 1) Three-phase power supply: 380V, with the voltage fluctuation range of no more than 10%, frequency fluctuation range of no more than 5%, line voltage waveform distortion factor of less than 5%.
Chapter 2 Configuration Installation Preparations Amplification Working 1X Maximum Power DO Maximum Power Output Voltage Consumption (W) Consumption (W) 2-carrier 1-sector 40W/carrier -48V About 1400W About 1400W 3-carrier 1-sector 40W/carrier -48V About 1400W About 1400W 5-carrier 1-sector 40W/carrier -48V About 2000W About 2000W 7-carrier 1-sector 40W/carrier -48V About 2000W About 2100W 1-carrier 3-sector 40W/carrier -48V About 2500W About 2600W 2-carrier 3-sector 40W
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual may be reduced by burying the stake deeply into the ground. Grounding stakes are usually made of galvanized materials in proper size. The connection cables from the grounding stake to the equipment should adopt copper-sheathed wires of good conductivity (core wire section area less than 50 mm2, and length as short as possible).
Chapter 2 Installation Preparations 2.1.6 Checking the Safety Conditions Appropriate fire-fighting devices should be equipped in the equipment room, such as a certain quantity of portable powder fire-extinguishers. As for a large equipment room, a complete set of automatic fire-fighting system should be equipped. No inflammable or explosive articles should be placed in the equipment room. 1.
ZXC10 BTSB (V1.
Chapter 2 Category Installation Preparations Name Pulley block Auxiliary tools Rope Ladder Forklift Table 2.2-2 Instruments Instrument Name Manufacturer Spectrum analyzer (needed in some HP special cases) Base station tester SITE MASTER Testing MS Qualcomm Compass Multimeter Field strength tester (needed in some special cases) 2.3 Preparing Technical Documentation The technical documents to be prepared before the commissioning of the equipment include: 1.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 2. ZXC10BTSB (V 1.0) cdma2000 Base Transceiver Station Installation Manual ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Technical Manual ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Hardware Manual ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Maintenance Manual 3. Installation Acceptance Report and Test Acceptance Report.
3 Unpacking and Acceptance Summary: z Unpacking of BTSB z Acceptance of BTSB 3.1 Checking Goods against the Packing List 1. Check the Delivery Checklist of ZTE Corporation. 2. Unpacking inspection is conducted by the Project Supervising Committee and representatives from the user. First, check the total number of goods, the intactness of the packing boxes, and check whether the arrival place is the actual installation place against the packing list number attached to the packing boxes; 3.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 3.2 Unpacking the Wooden Box 3.2.1 Wooden Box Structure The wooden boxes are generally used for packing heavy goods like rack. The structure of the BTSB rack-packing box is shown in Fig. 3.2-1. 860mm 2060mm Fig. 3.2-1 m 0m 86 Structure of the Wooden Box 3.2.2 Unpacking Procedure 1. Prepare appropriate tools such as nail hammer, pliers, straight screwdriver and crowbar. 2. First skin the packing sheet iron.
Chapter 3 Unpacking and Acceptance tilting. Visually there is no dent, bump, scratches, peel, bubbling, stains or other similar damaged signs. The captive screws should not be loose, missing or misplaced. The installation slots for plug-in boxes are intact and the slot guide rails are not missing, damaged or broken. All fittings and accessories required for rack installation are complete. The labels of installation slots are intact and eligible.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Fig. 3.3-1 Packing Box of Modules 3.3.2 Unpacking Procedure Take the following steps to unpack a carton: 1. Use the diagonal pliers to cut the straps. 2. Use a paper knife to cut the adhesive tape along the slits on the box covers. Note that the cut shall not be too deep and damage the goods inside. 3.
4 Cabinet Installation Summary: z Appearance and structure of the BTSB cabinet z Installation procedure of a single BTSB cabinet z Arrangement of the BTSB cabinets z Connection and fixation between BTSB cabinets z Standard of installing the BTSB cabinets 4.1 Cabinet Types ZXC10 BTSB I1 is composed of three types of subracks, PWS, BDS and RFS, that can be combined flexibly into super base stations, as shown in Fig. 4.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual PWS BDS RFS Fig. 4.1-1 Flexible Combination of ZXC10 BTSB I1 Subracks 4.2 RFS Cabinet Installation The RFS cabinet supports base installation and support installation. The following sections detail the procedures of these two installations. 4.2.1 RFS Installation Flow The base installation mode is to mount the cabinet on an adjustable base provided by ZTE in the case that there is antistatic floor in the equipment room.
Chapter 4 Support installation mode Base installation mode Support installation Base installation Cabinet Installation Fixing the cabinet to the base Cabinets fixing Cabinet accessories installation Installation check End Fig. 4.2-1 Cabinet Installation Flow 4.2.2 Support Installation Mode 4.2.2.1 Support and Pressure Plate Assembly The support fixing amplification is shown in Fig. 4.2-2. 4.2.2.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 1. Locking nut 2. Pressure plate 3. M10X25 bolt 4. Support 5. Insulating washer Fig. 4.2-2 Zoom-in Diagram of Support Fixing Start Support installation Pressure plate assembly positioning Expansion bolts installation Cabinet positioning Pressure plate assembly installation Insulation test N Y End Fig. 4.
Chapter 4 Cabinet Installation 4.2.2.3 Adjusting the Supports The cabinet base is equipped with supports and caster wheels. The supports should be suspended so that the cabinet can move with the caster wheels. Fig. 4.2-4 1. Cabinet 2. Caster wheels 3. Support Fig. 4.2-4 Position of Caster Wheels and Supports In the equipment room, screw off the support to make it 80 mm lower than the cabinet bottom. Thus, there is room for the baffle and the caster wheels.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 80mm Fig. 4.2-5 Rotating Supports Downward 4.2.2.4 Positioning the Pressure Plate Assembly 1.
Chapter 4 Support area Rack area Fig. 4.2-6 2. Cabinet Installation M10X40 embedded expansion nut ф12 drill bit is recommended for holes of 43 mm deep Positions of Installation Holes of Cabinet Supports Drilling After the scoring in Fig. 4.2-6, select φ12 bit for drilling. Keep the bit vertical to the floor. Use both hands to hold the drill handle tightly and straightly without swing to avoid damaging floor and incline the hole.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual ground with a dedicated hammer or a rubber hammer. 4.2.2.6 Positioning the Cabinet Move the cabinet to the right position, revolve the screws of the cabinet feet to adjust the height of the cabinet, select three points on the shelf and measure them with a level meter to make the rack level. 4.2.2.
Chapter 4 Cabinet Installation installation is shown in Fig. 4.2-8. 1. Cabinet 2. Baffle 3. Lock 4. Vent Fig. 4.2-8 Cabinet after Installation 4.2.3 Base Installation Mode 4.2.3.1 Base Structure The server cabinet is installed on ZTE’s universal base that is composed of four independent square piers, two connection boards and some other accessories. Three types, different in adjustable heights, are available: 1. Type A 150 mm ~ 205 mm 2. Type B 185 mm ∼ 285 mm 3.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual The adjustable height means the height from the bottom of an installed cabinet to floor. The installation on universal base is shown in Fig. 4.2-9. 1. Pressure plate 2. M10 × 25 bolts 3 Cabinet support 4. Bracket 5. Base 6. M10 × 40 embedded expansion (12 φ bit, 43 hole depth) Fig. 4.2-9 Installation on Universal Base The bracket shown in the Fig. 4.2-9 is optional.
Chapter 4 Cabinet Installation Start Base Positioning Base installation Cabinets fixing Insulation test N Y End Fig. 4.2-10 Base Installation Flow 4.2.3.2 Positioning the Base 1. Scoring Decide the installation positions of the bases according to the benchmark dimensions and the cabinet dimensions given in the construction floor plan, get a few marking points by measuring with a long tape, and mark two lines that are 670 mm apart and parallel to the base line with an ink fountain.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Rack area M10X40 embedded expansion nut ф12 drill bit is recommended for holes of 43 mm deep Fig. 4.2-11 2. Locations of the Installation Holes for the Four Bases Drilling After the scoring according to Fig. 4.2-11, select φ12 bit for drilling. Keep the bit vertical to the floor. Use both hands to hold the drill handle tightly and straightly without swing, to avoid damaging floor and incline the hole.
Chapter 4 Cabinet Installation 4.2.3.3 Installing the Base Arrange the base according to the scoring position and connect the parts according to Fig. 4.2-9. Adjust the height and tighten all bolts. Screw 12 M10 × 25 bolts in the embedded expansion nuts to fix the base parts. 4.2.3.4 Fixing the Cabinet Lift the cabinet onto the base after adjusting the four feet of the cabinet 65 mm above the cabinet bottom.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 2 1 5 3 6 7 4 1. Pressure plate 2. M10 × 25 bolts 3 Washer 4. Insulation pad 5. Cabinet support 6. Retaining nut 7. Base Fig. 4.2-13 Fixation of Supports, Pressure Plate and Base 4.2.3.5 Testing Insulation Connect the cabinet to the floor. The test is passed if electricity cannot be conducted through the connection. 4.2.4 Cabinet Stacking Mode BDS and PWS are put on RFS. 4.2.4.
Chapter 4 1. BDS unit 2. Jointing edge iron Cabinet Installation 3. RFS unit Fig. 4.2-14 Installation of BDS Unit 4.2.4.2 Installing the PWS Unit The PWS units are stacked on the BDS unit. Similarly, screw five M5 screws on the front cover and fix the two units together with ten screws and flat connection plate, as shown in Fig. 4.2-15.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 1. PWS unit 2. Flat connection board 3. BDS unit (May be multiple) 4. RFS unit Fig. 4.2-15 Installation of PWS Unit The appearance of the BDS and PWS units after installation is shown in Fig. 4.2-16.
Chapter 4 Fig. 4.2-16 Cabinet Installation Appearance of the BDS and PWS Units after Installation 4.2.5 Installing Cabinet Accessories 4.2.5.1 Feeder Fixing Rack The feeder fixing rack is installed at the rear part of the top cover of the RFS cabinet, as shown in Fig. 4.2-17.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 1. Feeder fixing rack 2. RFS cabinet Fig. 4.2-17 Installation of Feeder Fixing Rack A properly installed feeder fixing rack is shown in Fig. 4.2-18.
Chapter 4 Fig. 4.2-18 Feeder Fixing Rack after Installation 4.2.5.2 Dust Filter 1. Plastic decoration panel 2. Pin 3. Dust-filtering network board Fig. 4.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual The dust filters at the front of the cabinet of 3G can be replaced conveniently. Pull open the pin of the plastic decoration board. The decoration board can turn about 20 degrees to draw out the dust filtering network board for cleaning and replacement, as shown in Fig. 4.2-19. The dust filters are cleaned once every three hours or half year according to the specific environments of the equipment room. 4.2.
5 Power Supply System Installation Summary: z Power cables of BTSB z Installation method of the BTSB power supply z Installation procedure of the BTSB power supply 5.1 Introduction to Power Cables The DC power supply cables consist of the -48V cable (black), grounding cable (blue) and protection grounding cable (yellow green). The connector of the BDS power cable on BTSB is shown in Fig. 5.1-1. Fig. 5.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 2. Blue with the cross section area as 25 mm2 in section area (-48V). 3. Yellow green with the cross section area as 35 mm2 (protection grounding cable). 5.2 Installation Flow of Power Cables The power cable installation flow is shown in Fig. 5.2-1. Power cabling in the cabinet Power cable leading from the distribution frame Connecting to the filter on the cabinet Fig. 5.2-1 Installation Flow of RFS Power 5.
Chapter 5 Fig. 5.3-1 RFS Power Cabling Fig. 5.3-2 BDS Power Cabling Power Supply System Installation The connection between the busbar and backplane through the -48V power cable is shown in Fig. 5.3-3.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Blue Locating key 1 4 2 5 3 6 - 48V Yellow GNDP Black GND Black 6-core power connector for backplane Fig. 5.3-3 - 48VGND Lug for busbar Connection between Busbar and Backplane End B of the power cable on the busbar usually has been connected before delivery. If the backplane of the plug-in box has been installed, the End A of the cable has been connected to the backplane.
Chapter 5 Power Supply System Installation Connect one end of the -48V grounding cable (black, 16 mm2) to the GND wiring terminal on the filter of the cabinet, and the other end to the GND busbar of the DC distribution cabinet. Connect the Protection Earth wire (PE) (yellow green, 25 mm2): one end is connected to the PE wiring terminal on the P power supply of the cabinet, and the other end to the PE busbar of the DC distribution cabinet. 3.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 45º or 50º bending connection Back-to-back connection Cross connection 1-Copper bar 2-Plain washer 3-Nut 4-Bolt 5-Cable 6-Spring washer Fig. 5.
6 Grounding System Installation Summary: z Overview of BTSB grounding system installation z Installation procedure of the BTSB grounding system 6.1 Grounding System Overview This section describes the grounding of the BTSB equipment and the installation of the grounding device accessories required for the BTSB installation. It covers the installation of the grounding copper bar, the feeder grounding clip and the lightning arrester.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Iron tower platform Feeder grounding clip Grounding cable of the lightning arrester Outdoor busbar Indoor busbar DC power supply shelf Lightening arrester shelf B T S All protection grounds (including cable racks) in the equipment room are connected to the indoor grounding bar. Grounding cable 50mm² Fig. 6.
Chapter 6 Grounding System Installation 6.2 Installing the Grounding System 6.2.1 Installing the Outdoor Grounding Copper Bar The outdoor grounding copper bar is used for lightning protection grounding. It is usually installed on the wall outside the feeder window. The best place for it is right under the feeder window or on the rainproof wall of the feeder well on the roof top. In principle, it is better to put it close to the feeder window.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 6.2.2.1 Grounding Principles of the Main Feeders 1. Usually, each main feeder should be grounded with grounding clips at least at three positions: on the tower platform, at the place where the main feeder leaves the tower for the outdoor cabling rack, and before the cable enters the equipment room. When the main feeder is over 60m, grounding clips should be added in the middle of it.
Chapter 6 3. Grounding System Installation Lead the grounding cable of the feeder lightning grounding clip to the ground grid. No reverse direction is allowed. The angle formed by the grounding cable and the main feeder should not be more than 15o. No reverse folding is allowed. In the case the antenna feeder system is installed on the tower, the grounding cable of the grounding clip should be led downward along the tower body.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual the building) on the roof top. Remove paint and oxide within the radius of about 13 mm at the connection place, and cover the clean area with antioxidant to ensure good electric contact. When the grounding end is connected, paint another coat of antirust paint. 8. Before the main feeder enters the room, the grounding end of the grounding clip can be connected to the outdoor grounding bar. 6.2.
Chapter 6 3. Grounding System Installation The lightning arrester is installed indoor. Its grounding cable should be connected to the outdoor grounding copper bar and should not contact with the conductor of the indoor cabling rack. The lightning arrester frame is insulated from the cabling rack. The installation of the lightning arrester frame is shown in Fig. 6.2-4.
7 Cable Installation in Cabinet Summary: z BTSB cable types z Cable installation in the BDS cabinet z Cable installation in the RFS cabinet z Types and installation of inter-cabinet cables 7.1 BTSB Cable Installation Overview ZXC10 BTSB I1 has a BDS cabinet and an RFS that is usually mounted on the RFS cabinet. This chapter describes the internal cables of the BDS and RFS and the connection cables between them. Note: 1.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 5. Generally the internal cables have been installed before delivery, so you only need to check their status after the cabinet installation. Check whether the cables are properly connected, whether the socket connectors are firmly and properly inserted, and whether the distributed cables are in good order and without shortages.
Chapter 7 Cable Installation in Cabinet They are usually used to connect a remote RF cabinet. The optical fiber jumpers connect the blind match connectors of the BDS backplane RIM0 master/slave slots to the optical adaptors on the two BIM6 interface boards. The jumpers are available with the following types: MTP4-LC-0.5M, BMTP8-LC-0.5M and BMTP12-LC-0.5M, and the optical fibers are connected in the spectrum order of blue, orange, green, brown, gray, white, red, black, yellow, purple, pink and cyan.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Sequence No.
Chapter 7 BDS-BIM6_OPT1-TX (red) BDS-BIM6_OPT1-TX (black) BDS-BIM6_OPT1-TX (yellow) BDS-BIM6_OPT1-TX (purple) BDS-BIM6_OPT1-TX (pink) BDS-BIM6_OPT1-TX (cyan) BDS-BIM6_OPT0-RX (blue) BDS-BIM6_OPT0-TX (orange) BDS-BIM6_OPT1-RX (green) BDS-BIM6_OPT1-TX (brown) BDS-BIM6_OPT1-TX (grey) 14 BMTP-LC BBDS-RIMA-BMTP BDS-BIM6_OPT1-TX (white) BDS-BIM6_OPT1-TX (red) BDS-BIM6_OPT1-TX (black) BDS-BIM6_OPT1-TX (yellow) BDS-BIM6_OPT1-TX (purple) BDS-BIM6_OPT1-TX (pink) BDS-BIM6_OPT1-TX (cyan) 7.2.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 7.3 RFS Installing Cables in the RFS Cabinet The cables inside the RFS cabinet include power cable, signal cable, RF cable and monitoring cable. All these cables have been installed before delivery. 7.3.
Chapter 7 Sequence No.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual -48V -48VGND GNDA GNDD PE1 PE2 空开 -48V -48V GND 滤波器 BFAN BTRX POW9PIN BRFE POW9PIN POW9PIN BLPA RF_OUT -48V RF_OUT F2 -48V RF_OUT -48V RF_OUT -48V RF_OUT -48V RF_OUT -48V -48VGND RF_IN -48VGND RF_IN F1 -48VGND RF_IN -48VGND RF_IN -48VGND RF_IN -48VGND RF_IN Fig. 7.3-1 RF_OUT -48V F3 -48VGND RF_IN Power Cabling in RFS 7.3.
Chapter 7 Cable Installation in Cabinet cabinet and BDS cabinet. The lightning-proof signal cable is connected to the TRX layer through the lightning board on the top of the cabinet and transit on the top of the cabinet. The interconnection signal cable connection relationship in RFS cabinet is shown in Table 7.3-2. Table 7.3-2 Sequence No.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual The RFS backplane layout is shown in Fig. 7.3-2.
Chapter 7 Cable Installation in Cabinet The layout of the interface board on the top of RFS cabinet is shown in Fig. 7.3-3. Fig. 7.3-3 Layout of the Interface Board on the Top of RFS Cabinet The cabling of signal cables and monitoring cables inside RFS is shown in Fig. 7.3-4.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 44/B1 44/B4 44/B3 44/B8 39/B 40/B 38/B 41/B 43/A 42/A 38/A 44/B2 44/B7 39/A 40/A 41/A 44/A 42/B 43/B 44/B6 44/B5 44/B9 Fig. 7.3-4 Signal and Monitoring Cabling in the RFS 7.3.4 Installing RF Cables The RF cables in the RFS cabinet refers to the FR cables from TRX to RFE, TRX to LPA, RFE to LPA and RFE to antenna feeder system.
Chapter 7 Cable Installation in Cabinet configured in 8-carrier 3-section mode and the RF cable from RFE to the antenna feeder system is installed according to the specific configuration with two cables for one RFE. The RF cable connection relationship inside an RFS cabinet is shown in Table 7.3-4. Table 7.3-4 Sequence No.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Sequence No.
Chapter 7 Fig. 7.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 79/A 77/A 75/B 80/A 78/A 76/B 66/A 65/A 64/A 63/A 56/A 53/A 50/A 47/A 54/A 51/A 48/A 45/A 55/A 52/A 49/A 46/A 68/A 67/A 62/A 59/A 60/A 57/A 61/A 58/A 60-62/B 74/A 57-59/B 73/A 74/B 68/B 51-53/B 54-56/B 72/A 73/B 67/B Fig. 7.3-6 45-47/B 48-50/B 80/A 78/A 76/A 71/A 70/A 69/A 72/B 66/B 75/A 77/A 79/A 71/B 65/B 70/B 64/B 69/B 63/B RF Cabling in the RFS 7.3.
Chapter 7 Table 7.3-5 Sequence No.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual B A Fig. 7.4-1 Interconnection Cables between BDS and RFS Cabinets 7.4.2 Installing Optical Fibers The clock signals and other interconnection signals between BDS and the remote RFS cabinet are transmitted through the optical fibers. There are four pairs of active/standby optical fibers. The optical interface connecting the BDS and RFS cabinets are LC connectors, which is connected through the optical fiber connector box.
Chapter 7 Table 7.4-2 Pin No. at End A Signal Connection Relationships of the Interconnecting Cable with BPWS 1 2 9 Color Pin No.
8 Trunk Cable Installation Summary: z Installation methods of the BTSB trunk cables z Preparation of the E1 cables z Conversion from the 75 Ω trunk cable to the 120 Ω trunk cable 8.1 Installing E1 Cables E1 cables are available in two types, 75 Ω and 120 Ω cables. The connectors connecting BDS are equipped with a high-density D_SUB44 core. It is shown in Fig. 8.1-1. Fig. 8.1-1 D_SUB44-core Connector Connecting BDS 8.1.1.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual coaxial cables of the type SFYE-75-2-1*8. The diameter of the single-core cable should be less than 2.05 mm. The structure of a 75 Ω E1 cable is shown in Fig. 8.1-2. Fig. 8.1-2 Structure of 75 Ω E1 Cable The internal cable connection relationship of a 75 Ω E1 cable is shown in Table 8.1-1. Table 8.1-1 Signal Definitions Pin No. at End A Cable Sequence No.
Chapter 8 Trunk Cable Installation coaxial cable. End A of the E1 cable is connected to the E1 interface on the BIM0 interface board at the back of BDS cabinet, while End B is connected to the silk screen interface on the transfer board at the feeder rack. 8.1.1.2 120 Ω E1 Cable The 120 Ω E1 cable has three cores with the type being PCM-120-16*2*0.4sn. The structure of the cable is shown in Fig. 8.1-3. Fig. 8.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Note: Blue/1 red indicates that there is one red identification on the blue line, and pink/2 red indicates that there are two identifications on the pink line. End A of E1 cable is connected to the E1 interface on the BIM0 interface board at the back of the BDS chassis and End B is connected to DDF rack along the cabling ladder. The correspondence between the pair at End B and signals is shown in Table 8.1-3. Table 8.
Chapter 8 Part 1 Part 2 Trunk Cable Installation Part 3 a) Heat-shrinkable tube Part 1 Part 2 Shielding layer 6 Core wire Soldering pin b) 7 3 c) d) Fig. 8.2-1 Assembly of the CC4Y-J32 Coaxial Cable Connector 1) The plug parts of the CC4Y-J32 RF coaxial connector, as shown in a) of Fig. 8.2-1. 2) As shown in b) of Fig. 8.2-1, slip parts 1 and 2 around the cable, peel one end of the cable, tin the core wire, and then open the shielding layer forth to help inserting the plug crimping position.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Y test plug Cable connector Socket Cable connector Socket Fig. 8.2-2 Coaxial Connector of the DDF Follow these steps to make a coaxial connector plug: 1) Peel the outer jacket of the cable for about 14 mm, as shown in a) of Fig. 8.2-3 . 2) Slip in sequence the cable connector sheath, the heat-shrink tube and the crimping tube. Open the shielding net forth with a net opening sleeve (or do it manually).
Chapter 8 Trunk Cable Installation 14 Cable Hot shrink connector tube sheath Crimping tube 3 6 Crimping pliers Fig. 8.2-3 3. Assembling DDF Coaxial Cable Plug Trunk cable test The internal conductors of the connector at both ends and the inner conductors of the coaxial cable should be soldered securely without dry joint. In the connector at both ends, the internal conductors are conductive and the external conductors are conductive, while the internal and external conductors should not be shorted.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 8.3.1 Appearance of the Impedance Converter Each converter is to serve for only one E1 cable. The interface for the 75 Ω trunk cable is a BNC connector, while that for the 120 Ω trunk cable is an 8P8C network cable socket. The appearance and the connection relationship of the impedance converter are shown in Fig. 8.3-1. RX in Connector RJ-45 Socket TX out Connector RJ-45 Socket Fig. 8.
Chapter 8 Trunk Cable Installation RJ-45 socket RX shielding 8 GND Chip 7 RX Signal 6 Network device TX shielding 5 4 JP2 3 2 JP1 Chip 1 Fig. 8.3-2 GND TX Signal Wiring of the Impedance Converter See Table 8.3-1 for the specific wiring relation. Table 8.3-1 Wiring Correspondence of the Impedance Converter RJ45 Socket Chip Function 1&2 JP1 TX pair 3 JP1 TX shielded 4&5 JP2 RX pair 6 JP2 RX shielded 8.3.
9 Monitoring System Installation Summary: z Composition of the monitoring system z Installation procedure of the monitoring system 9.1 Composition of the Monitoring System The structure of an external monitoring cable of an RFS is shown in Fig. 9.1-1. B1 End B2 End A End B3 End B4 End B5 End B6 End Fig. 9.1-1 Structure of External Monitoring Cable of RFS The content of labels placed on the connectors are as shown in Table 9.1-1. Table 9.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual End A End B1 End B2 End B3 Cable code/A Cable code/B1 ~ B10 Cable code/B11 ~ B15 Cable code/B16 OUT_MON SW_IN CTRL_OUT HUM. TEMP_MON End B4 End B5 End B6 Cable code/B17 Cable code/B18 Cable code/B19 DOOR_MON INFRARED_MON SMOG_MON End A is connected to the socket OUT_MON on the BIM4 interface board of the BDS cabinet (if there is no BDS, it is connected to the OUT_MON D_SUB44 socket on the top of RFS cabinet).
Chapter 9 (a) Monitoring System Installation Label Red Green Label Pin No. sequence of the 25-pin male connector 30 10m End A Upper part of the smog sensor End B Lower part of the smog sensor B B (b) Green line 1 (c) Red line 4 3 2 B- B Fig. 9.2-1 Table 9.2-1 Signal Definitions Installing the Smog Sensor Base Terminal Connection of the Smog Sensor Cable Connector 25-pin Male Connector at Cable Sequence Smog Sensor Base at End A No.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual with End B3 of the RFS external monitoring cable. The DB9 female connector at End B is connected to the sensor. The terminal connection of the cable connector is described in Table 9.2-2. End B End A 1 6 6 1 (a) Label Label 9 5 5 9 Pin No. sequence of DB9 male connector at End A Pin No. sequence of DB9 male connector at End B L= 10 m (b) Fig. 9.2-2 Table 9.
Monitoring System Installation . Chapter 9 Fig. 9.2-3 Location of the Infrared Sensor 9.2.3.2 Structure of the Infrared Sensor Note: There is a wide variety of infrared sensors. The following describes only one of them. When installing an infrared sensor on-site, you may find the actual structure of the infrared sensor is different from the one introduced here. Please follow the specifications of this product for the installation guide. The structure of an infrared sensor is shown in Fig. 9.2-4.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Pre-set hole Cable outlet hole holes Cable outlet hole Fig. 9.2-4 Structure of Infrared Sensor 9.2.3.3 Installation and Cabling 1. Installation The infrared sensor is to be mounted on wall. To install the infrared sensor, drill two φ6 holes (to a depth suitable for placing the plastic expansion bolts, which is recommended to be no less than 30 mm) on the wall 81.7 mm apart.
Chapter 9 Monitoring System Installation The job to do on-site is to sheath each cable in a metal pipe or a PVC fire-retardant pipe. Fasten the infrared sensor to its base with one end being the DB9 connector and the DB9 male connector at the B5 end of the external monitoring cable of RFS, and the infrared sensor is at the other end, as shown in Fig. 9.2-5. Fig. 9.
10 Main Antenna Feeder System Installation Summary: z Installation preparation for the BTSB main antenna feeder system z Structure of the BTSB main antenna feeder system z Installation items and flow of the BTSB main antenna feeder system z Installation procedure of the parts of the BTSB main antenna feeder system z Installation check and test for the antenna feeder part z Waterproof treatment of the connectors The configuration of the BTSB antenna system is closely related to network planning.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual The installation of the antenna feeder equipment is important to the installation of the BTSB equipment. Its construction quality is directly related to the operating performance of the entire BTSB system. Moreover, most of the BTSB installation engineering is the installation of the antenna feeder equipment that generally takes up 80% of the installation time of the whole BTSB system.
Chapter 10 Main Antenna Feeder System Installation outdoor lightning protection grounding cable has been in place with the core diameter more than 50 mm2, whether the distances between the antenna lightning arrester, the lightning protection grounding point, the outdoor cabling rack, and the antenna pole meet the design requirement and whether the strength and the wind-withstanding capability of the pole meet the design requirements.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 10.1.4 Preparing Installation Tools The installation tools comprise: 1. Measurement tools: Compass, multimeter, angle meter, tape 2. Communication tools: Two MSs 3. Hoisting tools: Pulley, rope to pull the main feeder 4. Special tools: Main feeder cutter, special tools for preparing main feeder connectors 5. General-purpose tools: Adjustable wrench, sharp-nose pliers, diagonal pliers, electrical knife, file, hacksaw 6.
Chapter 10 Main Antenna Feeder System Installation Lightning arrester Antennas (6 pairs of directional antennas) Jumpers (1/2, six) Lightening protection grounding clip Main feeders (7/8, six) Equipment room Lightening protection grounding clip Lightning arrester Cabling rack Lightening protection grounding clip Jumpers (1/2, six) Tower BTS cabinet Fig. 10.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 10.3 Installation Content and Flow Caution: 1. Take careful precautions for the safety of yourself and the equipment during the whole antenna installation process. 2. When adjusting the antenna that has started working, take certain measures (for example, wear radiation-shielding clothing), and turn off the high power amplifier to avoid the direct radiation of the antenna to human body. 10.3.
Chapter 10 Main Antenna Feeder System Installation 10.3.2 Antenna Installation Flow The antenna installation flow is shown in Fig. 10.3-1.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 10.4 Installing the Parts 10.4.1 Determining the Antenna Installation Position During the installation, the antenna installation position should be determined according to the antenna feeder installation drawing among the engineering design drawings.
Chapter 10 Main Antenna Feeder System Installation Pulley block Knot the hoisting rope on and under the tower Pull the antenna away from the tower body by pulling the rope to prevent the antenna from being damaged. Hoisting rope Fig. 10.4-1 Hoisting an Antenna 10.4.3 Installing and Adjusting the Directional Antenna Note: The installation methods of antennas of different models vary from one manufacturer to another.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual shown in Fig. 10.4-2, and then connect fasteners 737974 and 738516. Thus the initial installation of the directional antenna is completed. All accessories must be installed with spring and flat washers. Please refer to the instructions attached to the product for descriptions of other fasteners for the antenna of other manufacturers or of KATHRAIN.
Chapter 10 Main Antenna Feeder System Installation Ф75 mm embracing pole of the antenna 738 516 Connect the two with short bolts and fix the two nuts to enhance fixation. 737 974 Connect the antenna and the fastener with short bolts and add the spring washer and the flat washer. Add the waterproof washer in the inner side of nut. After the initial installation, move the antenna up and down to adjust the pitch angle of the antenna.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Fig. 10.4-3 Adjusting the Pitch Angle of the Antenna 10.4.4 Installing and Adjusting the Omni-antenna Take the following steps to install the omni-antenna: 1. Put the jacket at the antenna lower part close to the support backbone. The top of the jacket should be flush with or slightly higher than the support top. 2. Fix the jacket at the antenna lower part and the support backbone at two points with antenna fixing clips.
Chapter 10 Main Antenna Feeder System Installation The installation steps are as follows: 1. Align the connector of the antenna jumper to the antenna interface and screw it tightly. 2. Perform waterproof treatment to the joint (See 10.6" Waterproof Treatment on Joint" for details): 1) Wrap starting from the root of the antenna joint with waterproof adhesive tape in the same direction as the fastening direction of the antenna jumper.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual engineering design drawing. 2. Make a cavity on the wall according to the size of the feeder window. 3. Use a percussion drill to drill holes for the expansion bolts and fix the main board of the feeder window with expansion bolts. 4. The sealing gasket and sealing tube of the feeder window can be installed when the main feeder is introduced into the room. See 10.4.7.6 "Running the Primary Feeder Cable into the Equipment Room".
Chapter 10 5. Main Antenna Feeder System Installation Installing the outdoor jumper and conducting waterproof treatment on the joint The overall structure of a BTSB feeder is shown in Fig. 10.4-5. Antenna jumper Label Outdoor Feeder Lightning arrester Cabinet top jumper Label Indoor Fig. 10.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 10.4.7.1 Determining the Feeder Cable Route During the engineering installation phase, the layout of the feeder should be determined according to the feeder wiring drawing among the engineering design drawings. If the layout of the feeder need be modified according to the practical situation, you should consult the user representative and try to solve the problem as early as possible.
Chapter 10 3. Main Antenna Feeder System Installation Put the feeder into the notch of the cutter (EASIAX), leaving a length of four sheath threads from the main blade. And then close the cutter handles. Since the position of the cutter is determined according to the threads on the external copper sheath of the feeder, the main blade should just be aligned to the crest at the center of a thread of the feeder. 4.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Fig. 10.4-9 8. Expanding the External Conductor of the Feeder with a Tube Expander Check whether there is residual copper scraps. The external copper sheath should be evenly expanded without burrs. Pull the back part of the feeder connector outward while keeping it from slipping away from the feeder. Make it again if necessary. 9. Connect the front part and the back part of the feeder connector, as shown in Fig. 10.4-10. Fig. 10.
Chapter 10 Main Antenna Feeder System Installation Rotate this wrench only Keep this wrench stay Fig. 10.4-11 Fixing the Front Part and the Back Part of the Feeder 10.4.7.3 Cutting the Feeders Caution: When cutting the main feeder, label it at both ends. Temporary label can also be attached to the middle of the feeder. It’s very important to keep all the labels consistent. Otherwise, the feeder may not be correctly connected and the sectors may not correspond to the feeder.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual are not damaged or pressed. 2. For the antenna feeder to be installed on the tower 1) Use roller support, pulley block and hoisting rope to lift one end of the feeder to the tower top. The person on the ground cuts the feeder to the length with which the feeder can reach the lightning arrester frame inside the equipment room (plus certain redundancy). Attach temporary labels to the lower part of the feeder.
Chapter 10 Main Antenna Feeder System Installation Hoisting rope Pulley block Feeder connector wrapping Label Knotting the hoisting rope at the 0.4 M or 3.4 M distance of the feeder Pulling the antenna away from the tower body with the hoisting rope to prevent the antenna from being damaged Hoisting rope Fig. 10.4-12 Pulling the Feeder Cable up the Iron Tower 10.4.7.5 Laying and Fastening the Main Feeder Cable 1.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual z The minimum bending radius of the main feeder should not be less than 20 times the length of the radius of the main feeder. For one-time bending, the minimum bending radius is 90 mm. The minimum bending radius of repeated bends is 200 mm. z The maximum spacing between the hangers is 1.65 m. 2. Cabling procedure of the main feeder 1) Pre-install the three-feeder clips every 1.
Chapter 10 Main Antenna Feeder System Installation 10.4.7.6 Running the Primary Feeder Cable into the Equipment Room 1. Precautions z Fig. 10.4-14 and Fig. 10.4-15 illustrate how the common feeders enter the equipment room. Please ensure that the feeders will not bring any rain into the equipment room when entering the equipment room. For that purpose, you can design water curves as necessary. Feeder window Indoor Outdoor Cabling rack Fig. 10.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 2. Installation procedure 1) Loosen the fixing hoop from the feeder window to the proper position with reference to 10.4.6 "Installing the Feeder Window", and pull away the sealing cover of the aperture to thread the feeders.
Chapter 10 Main Antenna Feeder System Installation 10.4.8 Installing the Indoor Jumpers Indoor cabinet-top jumpers are used between the lightning arrester connected to the main feeder and the rack. Usually the finished 2m cabinet-top jumpers are used, or the jumpers can be prepared on site according to the actual length required. If the 2 m finished jumpers are used, they can be directly installed between the lightning arrester and the rack top.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Installation standards involved in this figure: 1. The radio frequency antenna and GPS antenna must be installed within the 45° protection angle for arrester. 2. If necessary, install independent arrester for the GPS antenna. 10.5.2 Testing the Antenna SWR After installing all the antenna feeders, conduct the SWR test on each of them. The measured SWR should be less than 1.5 and usually less than 1.3.
Chapter 10 Main Antenna Feeder System Installation Fig. 10.6-1 Wrapping the Waterproof Adhesive Tapes (1) 3) Extend the adhesive tapes to double their length when wrapping them. The direction of wrapping should be the same as the direction of screwing the feeder connector, lest the feeder connector be loosened during the wrapping process. 4) As shown in Fig. 10.6-2, wrap the adhesive tapes layer by layer and then wrap them again in the reverse direction.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Fig. 10.6-3 Wrapping the Waterproof Adhesive Tapes (3) 6) Apply two layers of the PVC tape on top of the waterproof adhesive tape. During the process, make sure the upper layer overlaps the lower layer by half the width of the tape. 7) Grip the PVC tapes and the waterproof adhesive tapes to make them tightly adhered to each other. 8) Tie the two ends of the adhesive tape with straps to prevent it from being aged or falling off.
11 GPS Antenna Feeder System Installation Summary: z Installation preparation for the GPS antenna feeder system z Structure of the GPS antenna feeder system z Installation flow of the GPS antenna feeder system z Installation procedure of the parts of the GPS antenna feeder system z Waterproof treatment for the connectors 11.1 Preparation for Installing the Antenna Feeder System As the clock and frequency reference for CDMA, the GPS plays a very important role.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual GPS antenna Lightning protection arrester Fixing clip Coaxial cable Tube Grounding cable Base station Fig. 11.2-1 Composition of the GPS Antenna Feeder System 11.3 Installation Flow Follow these steps to install the GPS antenna feeder system: 1. Make the outdoor connector for the coaxial cable as making a GPS coaxial cable connector. 2.
Chapter 11 GPS Antenna Feeder System Installation The GPS coaxial cable is peeled according to the dimensions shown in Fig. 11.4-1. 6.2 16.7 Fig. 11.4-1 Stripping GPS Cable 2. Welding core Before welding the core wire, thread the parts with the cable in the sequence as shown in Fig. 11.4-2. Then, weld the cable core with the pin. The shielding layer of the cable should be opened and covered on the bush.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 11.4.2 Installing the Lightning Arrester Each GPS has its own lightning arrester installed between the GPS antenna and the BTSB rack. The lightning arrester should be connected to the outdoor grounding copper bar via a 6 mm2 grounding cable. For the base station installed with a lightning arrester frame, you may fix the GPS lightning arrester onto the frame. In this case, the 6 mm2 grounding cable is unnecessary.
12 Board Installation Summary: z BTSB board types z Installation and replacement of BTSB boards z Installation sequence of BTSB boards 12.1 BTSB Board Types The baseband system consists of the following boards: The CHM implements Channel Elements (CEs) processing. The CE processing modules of each baseband system form a series of baseband processing sharing pools. The RIM implements forward signal summary and reverse signal distribution as the interface between baseband and radio frequency.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual baseband system at the wireline side. The RFS consists of the following boards: The TRX implements signal frequency conversion and supports 6+1 backup. The RMM provides interface between RF and baseband and can run in active/standby mode. The PA amplifies the power of forward signals and supports 6+1 backup for linear power amplification. The PIM provides interface for power amplification.
Chapter 12 Board Installation Filter the weak signals received by an antenna and amplify them with low noise. Distribute power for the signals amplified with low noise, output them to the RSM and the TEST_PORT through two splitters. Provide duplex functions. Filter forward transmitting power signals. Monitor the low noise amplifier state. Check the standing wave of the transmission channel to determine the matching state of the antenna feeder.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Depending on the input cross choice for the TSM and the output cross choice for the BLPA backplane, seven LPAs are configured for 6+1 backup. The CDMA system adopts the QPSK modulation mode, a linear modulation mode. To reduce the spectral expansion of signals, some linear features are required from the PA. In addition, the PA shall also provide constant gain and precisely controllable output power.
Chapter 12 Board Installation the signals to PA for power amplification.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Fig. 12.3-2 Picture of a Board 12.3.1.2 Structure Overview As shown in Fig. 12.3-1, the board has a panel in the front, and plug-ins at the back. Two ejector levers and some indicators are on the front panel. 12.3.
Chapter 12 Board Installation Fig. 12.3-3 Loosening the Screws and Unplugging the RFE 12.4 Interface Boards at the Back of the Baseband Cabinet 12.4.1 Interface Board Overview The BIM of the BDS system provides interface between the BDS cabinet (single shelf equipment) and the external equipment (PWS, BDS and RFS). Due to the great amount of the BIM interfaces, the functions of the BIM are assigned to 12 interface boards.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual B I M 0 B I M 1 B I M 1 B I M 1 slot 0 slot 1 slot 2 slot 3 slot 4 B I M 6 B I M 2 1 B I M 3 2 B I M 4 3 slot 5 slot 6 slot slot 7 8 B B II M M 64 B I M 6 B I M 6 B I M 5 6 B I M 5 slot 9 slot 10 slot slot slot 11 12 13 Fig. 12.4-1 BIM Interface Board Structure The interfaces of the BIM interface boards are described in Table 12.4-1. Table 12.
Chapter 12 Board Installation Slot ID BIM Version Interface Description Name Control stream communication interfaces between the MBDS and the SBDS0, consisting of a master one and a slave one. Cascading data interfaces between the MBDS and the SBDS0 for the system clock, circuit clock, control reset line, HW signals and order-wire signals.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Fig. 12.4-2 Structure of a Back Interface Board 12.4.3 Interface Board Structure As shown in Fig. 12.4-2, the interface board at the back has a panel in the front, and plug-ins at the back. Two captive screws and some plug-ins are on the panel. 12.4.4 Installing and Replacing the Interface Boards To install a board, align the board with its slot, push the board vertically until it is in position, and fasten the captive screws.
Chapter 12 Board Installation Fig. 12.
13 Hardware Installation Check Summary: z M452/R452 hardware installation check Check the installed items before you power on the BTSB. 13.1 Checking the Cabinet The installation of an indoor cabinet involves the installation of a BTSB rack and other cabinets (such as DC/AC power cabinets). After cabinet installation, check the following items: 1. The rack installation location conforms to the design drawing. 2. A rack, when fixed, should be firmly erected to resist a 7.0 earthquake. 3.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual cabinet and walls insulated. 10. The stand supporter should be consistent with the hole sites of expansion screws. 11. The upper plane of the conductive floor in the equipment room is no higher than the lower surface of the stand lest the radiating of a stand should be affected. 12.
Chapter 13 Hardware Installation Check 2. Cables should be bent smoothly and evenly and the outer part of the arc should be as vertical or horizontal. 3. Power cables and signal cables are separated from each other with at least 150 mm in between. 4. Both cable ends should be clearly labeled or marked to prevent connection mistakes. 5. Connector locations should be compact, firm, well-contacted and upright without broken or bending. 6.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual copper-core cable with the cross-section area 25 mm2. The -48V power cable adopts the blue copper-core cable with the cross-section area 25 mm2. All these cables are laid straight and connected reliably. 3. A grounding bus cable should be directly connected with an indoor ground cable bus without connected to any intermediate equipment. The diameter of the grounding bus cable shall be more than 50 mm2. 4.
Chapter 13 Hardware Installation Check the power supply on the rack top. 18. Power cables, ground cables, trunk cables and RF cables should not be broken or damaged. 19. The labels on both ends of the power cable and ground cable shall be clear and correct. 20. The bare wires at the connecting terminals and lug handle should be tightly wrapped with insulating tape or a heat-shrink tube instead of being exposed. 21. The connecting terminals should be equipped with flat washers and spring washers. 13.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 13.7 Checking the Internal Connections of the Cabinet Requirements: 1. The RF cables between modules within the rack shall be reliably connected. 2. The screws of all modules within the rack must be fastened to the greatest extent to prevent any unreliable connection. 3. Any unused connector is screwed on with a matching terminal. 4. The RF cables shall avoid crossing and over stretching.
Chapter 13 Hardware Installation Check 3. The RF lightning arrester and the GPS lightning arrester should be mounted between two crosspieces of the cable rack without touching the cable rack. Insulation from the cable rack is required. 13.10 Checking the Lightning Arrester Rack Requirement: 1. The lightning arrester rack installed should be insulated from the cable rack. 2. The lightning arrester should be installed on the lightning arrester rack in a firm, reliable and beautiful way. 3.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 4. If a tower is above 60 m and needs a longer feeder, another feeder grounding clip should be placed in the middle of the tower. 5. If a feeder is off the tower and routed for above 20 m at the building top or on the cable rack before going into the room, another grounding clip for lightning protection should be put at the building top or on the cable rack. 6.
Chapter 13 Hardware Installation Check be bound on both terminals of a feeder to ensure that feeders correspond to antennas. Write corresponding lengths on a feeder name plate. 15. Avoid any dry joint in soldering GPS core wire. 16. GPS copper core and external outer layer cannot be short-circuited. The core pin of a feeder connector should be parallel to the external end face of a GPS feeder connector. 17. Tighten the GPS feeder connectors. 13.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 2. The intervals between the feeder fixing clips should be even and in the same direction. 3. A feeder card should be installed every 1.5m on the main feeder. 13.14 Checking the Outdoor 1/2" Jumpers Requirements: 1. Antennas and 1/2" jumpers. The 1/2" jumpers and main feeders should also be correctly connected. The threads of the connectors should fit in and the connectors are tightened. 2.
Chapter 13 Hardware Installation Check Fig. 13.14-1 Waterproof Outdoor 1/2” Jumper 13.15 Checking the Antenna Requirements: 1. An antenna support and a tower should be connected in a reliable and firm way. 2. Check the model of the antenna in use to make sure that it conforms to networking planning. 3. The hanging height of an antenna refers to the distance between the ground and the middle of the antenna.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual conforms to network planning and two antennas within the same sector goes in the same direction. The azimuth error of the directional antenna is no more than ±0.50. 6. Measure the actual mechanical downdip of an antenna with an angulometer. In case of a unipolarization antenna, each antenna should be measured. An omni antenna will not be checked and a directional antenna should have the azimuth error of no more than ±0.50.
Chapter 13 Hardware Installation Check 15. The diversity distance between two antennas within one sector refers to the vertical distance between the parallel lines of the two antennas front surfaces. It is not the distance between two antennas. Diversity distance is irrelevant to bipolarization antenna. The diversity distance should be 3.5 m for the 800M system, 1.5 m for the 1.9G system, and 6.7 m for the 450M system. 16.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Bolt Clamp Installation part 1 Adjustable antenna arm Antenna pole Antenna Installation part 2 Bolt Clamp Antenna RF socket RF cable socket (with waterproof treatment) Cable strap Fig. 13.15-1 Antenna Installation Checking the Feeder SWR 13.16 Checking Feeders of SWR Requirements: 1. Measure the SWR after antennas and all feeders are installed. 2.
Chapter 13 Hardware Installation Check 3. Fill in a corresponding vswr value and provide vswr test-chart. 13.17 Checking Indoor & Outdoor Environments Requirements: 1. Clean outdoor engineering waste. After the installation is over, the outdoor work site should be recovered to what it was, without any cable strap, stub, waste paper box, waste cable or waste plastic bag. The whole site should be clean and tidy. 2. Put away indoor unused materials.
14 Power-on/Power-off Summary: z Power-on/Power-off of the PWS (AC/DC) of the BTSB z Power-on/Power-off the BDS shelf z Power-on/Power-off the RFS shelf 14.1 Checking before Power-on Check the following power switches: 1 The upper level switch of the AC power 2. The input AC power switch of the system 3. The DC power switch of the BDS shelf 4. The DC power switch of the RFS shelf 5. The battery loop switch that is in the rupturing state 14.1.1 Checking the External Connections of the Rack 1.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual 4. Check the antenna feeder system. Check with an SWR tester to see whether the SWR of the antenna feeder is less than 1.5 (generally less than 1.3). Feeder connectors should be well assembled and no feeder or antenna is faulty. 5. Check whether the grounding cable is reliable. 6. Check whether the cable labels are pasted securely, correctly and beautifully. 14.1.2 Checking the Internal of the Rack 1.
Chapter 14 Power-on/Power-off 14.2 Procedure of Power-on 14.2.1 Initial Power-on 1. Open the front door of the upper rack, check whether the rectifier module of the PWS shelf is pluggable. When the rectifier module is unplugged, it shall be partially seated in the shelf. When the PMM is inserted into the slot, it shall be partially seated in the shelf. 2. Open the front door to the BDS shelf of the rack in the middle, insert a board, and then abort the insertion to make it partially seated in the shelf.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual If any exception occurs, switch off the power for a check. 14.2.2 Normal Power-on 1. AC power-on: Switch on the upper level AC power, connect the corresponding AC voltage for the terminals, switch off the AC power input, and complete when the D-level lightning-proof indicators on the right corner of the front panel are all on. 2. DC power-on: Insert and start one rectifier module.
Chapter 14 Power-on/Power-off 14.4 Hot Swap The LPA and PIM in the BTSB rack have their own power switches and shall be plugged/unplugged only when their power switches are turned off. The other boards in the BTSB rack, such as PRM, PMM, CHM, CCM, DSM, SNM, RIM, GCM, SAM, BTM, RMM, TSM, RSM, TRX and RFE, are all hot-swappable.
Appendix A Technical performance indices of the BTSB A.1 Mechanical indices Dimensions and weight: Single cabinet (baseband cabinet + RF cabinet): 700 mm (W) × 800 mm (D) × 1600 mm (H) RFS cabinet: 700 mm (W) × 800 mm (D) × 1200 mm (H) BDS cabinet: 700 mm (W) × 600 mm (D) × 400 mm (H) Optional PWS rack: 700 mm (W) × 600 mm (D) × 400 mm (H) BTS cabinet color: Black Table A.1-1 indicates the weight of the integrated machine and the bearing capability of the equipment room floor: Table A.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Table A.
Appendix B Using SiteMaster Different models of SiteMaster are used differently. For usage information, please refer to the documents came with the device. B.1 Selecting a frequency range 1. Press of SiteMaster to turn on the meter. 2. Press on the main menu. 3. Press on the [Frequency] menu. 4. Input the frequency for [Lower], such as “825MHz”, and then press for confirmation. 5. Press on the [Frequency] menu. 6.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual B.3 Inputting feeder parameters 1. Press . 2. Press . 3. Press to enter the feeder loss per meter (dB), which varies with providers and models. Then press for confirmation. 4. Press to enter the relative transmission rate, which varies with providers and models. Then press for confirmation. 5. Press to return to the main menu. B.
Appendix B Using SiteMaster 11. Press to save the data. Fig. B.5-1 SWR Test for the Antenna Feeder B.6 Measuring DTF 1. Press . 2. Press to choose [MODE]. 3. Press or to choose [SWR], and press for confirmation. 4. Press to return to the main menu. 5. Input a proper frequency range if necessary. 6. Check the meter if necessary. 7. Input a proper feeder length if necessary. 8. Press to return to the main menu. 9.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual Fig. B.
Appendix C BTSB board indicators C.1 RMM indicators The BTSB has more than ten boards. The first three indicators, RUN, ALM and M/S, on these boards function similarly. This section takes the indicators on the RMM as an example. z RUN indicates the operating state of the board. z ALM indicates exception occurred on the board. z M/S indicates whether the board is the master one. Fig. C.1-1 shows the indicators of the RMM. RMM RUN ALM M/S TFS F0S F1S BLS TYP RST M/S Fig. C.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual C.2 Board indicators Table C.2-1 shows the states and meanings of the indicators on the BTSB boards. Table C.2-1 BTSB Board Indicators CCM Indicators Indicator Color Meaning Description Normal State Solid on: The version starts to run and Normal flash (5/3 HZ, attempts to obtain a network address. 50%) Name RUN Green RUN indicator Solid off: No power or CPU down. Extremely slow flash: (0.
Appendix C BTSB board indicators CCM Indicators Indicator Color Meaning Description Normal State Name M/S Green Master/Slave Solid on: Master board Solid on for master indicator Off: Slave board board. Solid board. E0S Green Group indicator 0 E1 Running state for the uplink DT0 through DT3 Flash green with flash frequency as 0.125 HZ and period as 8 S: Normal. 1S (On Off Off Off Off Off Off Off Off Off): DT0 is normal. Not on: DT0 is abnormal.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual CCM Indicators Indicator Color Meaning Description Normal State Name E1S Green Group indicator 1 E1 Running state of the uplink DT4 through DT7 Flash green with flash frequency as 0.125 HZ and period as 8 S: Normal. 1S (On Off Off Off Off Off Off Off Off Off): DT4 is normal. Not on: DT4 is abnormal. 2S (Off Off Off Off Off Off Off Off Off Off) interval 3S (On Off On Off Off Off Off Off Off Off): DT5 is normal.
Appendix C BTSB board indicators CCM Indicators Indicator Color Meaning Description Normal State Name E2S Green Group indicator 2 E1 Running state for the downlink DT0 through DT3 Flash green with flash frequency as 0.125 HZ and period as 8 S: Normal. 1S (On Off Off Off Off Off Off Off Off Off): DT0 is abnormal. Not on: DT0 is abnormal. 2S (Off Off Off Off Off Off Off Off Off Off) interval 3S (On Off On Off Off Off Off Off Off Off): DT1 is abnormal. Not on: DT1 is abnormal.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual CCM Indicators Indicator Color Meaning Description Normal State Name E3S Green Group 3 E1 indicator Running state of the downlink DT4 through Flash DT7 Flash green with flash frequency as 0.125 HZ and period as 8 S: Normal. 1S (On Off Off Off Off Off Off Off Off Off): DT4 is normal. Not on: DT4 is abnormal. 2S (Off Off Off Off Off Off Off Off Off Off) interval 3S (On Off On Off Off Off Off Off Off Off): DT5 is abnormal.
Appendix C BTSB board indicators CCM Indicators Indicator Color Meaning Description Normal State Solid on: The version starts to run and Normal flash (5/3 HZ, attempts to obtain a network address. 50%) Name RUN Green RUN indicator Off: No power or CPU down. Extremely slow flash (0.2 HZ, 50%): Boot requests to download the version. Slow flash (1/3 HZ, 50%): Notifying the power-on to the basic processes. Normal flash (5/3 HZ, 50%): Powered on for normal working.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual CCM Indicators Indicator Color Meaning Description Normal State Name SCS Green Slave RLS0 Green PP2S RLS1 Green clock Flash every 2 seconds: Normal. indicator Off: Abnormal. OIB6 optical port Solid on: Locked. lock indicator Off: Unlocked.
Appendix C BTSB board indicators CCM Indicators Indicator Color Meaning Description Normal State Name RUN Green Run indicator Solid off: Normal. Solid on Off: Abnormal. ALM Red Alarm indicator Solid on: Alarm. Solid off Off: Normal. M/S TFS FOS F1S Green Green Green Green Master/Slave Solid on: Master board. indicator Off: Slave board. PP2S clock Flash every 2 seconds: Normal. indicator Off: Abnormal. OIB0 optical port Solid on: Locked. lock indicator Off: Unlocked.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual CCM Indicators Indicator Color Meaning Description Normal State Name FSS Green Frequency Solid on: Normal. synthesizer state Solid off: Abnormal or not in position. Solid on Run indicator for the frequency synthesizer including reference, local and RF oscillator IF local oscillator PLL working state BLS Green Baseband link state Solid on: Normal. Solid on Solid off: Abnormal.
Appendix C BTSB board indicators CCM Indicators Indicator Color Meaning Description Normal State Name RUN Green Run indicator Solid on: The version starts to run and Flash attempts to obtain a network address. Solid off: No power or CPU down. Extremely slow flash (0.2 HZ, 50%): Boot requests to download the version. Slow flash (1/3 HZ, 50%): Notifying the power-on to the basic processes. Normal flash (5/3 HZ, 50%): Powered on for normal working.
ZXC10 BTSB (V1.0) cdma2000 Base Transceiver Station Installation Manual CCM Indicators Indicator Color Meaning Description Normal State Name LPA Indicators Indicator Color Meaning Description Normal State RUN Green Run indicator Flash (0.3 S on and 0.3 S off): Normal. Flash ALM Red Alarm indicator On: Alarm. Off ACT Green Working On: Output. On Name OPS OTS VWS L1S L2S PWS Green Green Green Green Green Green state indicator Off: Slave board or output is switched off.
Appendix D Abbreviations Abbreviation Description 1X EV 1X Evolution 1X EV-DO 1X Evolution Data Only 1X EV-DV 1X Evolution Data & Voice 1xEV-DO 1x evolution Data Optimized 24PB 24V Power Board 2G BTSB 2G BaseStation Transceiver 3G BTSB 3G BaseStation Transceiver A AAA Authentication Authorization Accounting AAL ATM Adaptation Layer AAL2 ATM Adaptation Layer type 2 AAL5 ATM Adaptation Layer type 5 Abis Interface Abis Interface—the interface of BSCB--BTSB ABS Air BreakSwitch AC As
Abbreviation Description ALCAP Access Link Control Application Protocol ALW Always AM Acknowledged Mode AMB Attenuation Matching Board AMF Authentication Management Field AMP Address Management Protocol AMR Adaptive Multi Rate AN Access network ANID Access Network Identifiers AP Access preamble APB ATM Process Board APD AC Power Distribution Module APDU Application Protocol Data Unit API Application Programming Interface ARM ARM processor ARP Address Resolution Protocol ARQ
Appendix D Abbreviations Abbreviation Description BCS BTSB Communication Subsystem BCSN Backplane of Circuit Switch Network BCTC Backplane of Control Center BDM Baseband Digital Module BDM1900 1.
Abbreviation CAMEL Description Customized Application CAP CAMEL Application Part C-APDU Command APDU CB Cell Broadcast CBA IPI for Mobile network for Internal Process Enhanced Logic CMM-Based Appraisals Improvement CBR Constant Bit Rate CBS Cell Broadcast Service CC Control Channel CC/PP Composite Capability/Preference Profiles CCB Configuration Control Board CCBS Completion of Calls to BusySuBSCBriber CCCH Common Control Channel CCF Call Control Function CCH Control C
Appendix D Abbreviations Abbreviation Description CIB Circuit-bearer Interface Board CIC Circle Identify Code CLA Class CLK Clock CLKD CLOCK Distributor CLKG CLOCKGenerator CLNP Connectionless network protocol CLNS Connectionless network Service CM Configuration Management CMB Combiner CMF Connection Monitor Function CMIP Common Management Information Protocol CMIS Common Management Information Service CMM Capability Maturity Model CMU Carnegie-Mellon University CN Core Net
Abbreviation Description CSM5000 CellSite Modem ASIC 5000 CSU/DSU Channel Service Unit/ Digital Service Unit CTCH Common Traffic Channel CTDMA Code Time Division Multiple Access C-TPDU Command TPDU CW Continuous Wave (unmodulatedSignal) D D_K DBS Kernel Module D_M D_Method D_S D_Service D_V D_View DAC Digital-to-Analog Converter DAD Destination Adress DAM DECT Authentication Module DBS Database Subsystem DC Dedicated Control (SAP) DCA Dynamic Channel Allocation DCCH Dedica
Appendix D Abbreviations Abbreviation Description DPCH Dedicated Physical Channel DPDCH Dedicated Physical Data Channel DRAC Dynamic Resource Allocation Control DRC Data Rate Control DRNC Drift Radio Network Controller DRNS Drift RNS DRX Discontinuous Reception DSA DigitalSignature Algorithm DS-CDMA Direct-Sequence Code Division Multiple Access DSCH Downlink Shared Channel DSM Data Service Module DTB Digital Trunk Board DTCH Dedicated Traffic Channel DTI Digital Trunk Interface
Abbreviation Description ETSI European Telecommunications Standards Institute etu elementary time unit EUT equipment under test F F/R-CCCH Forward / Reverse Common Control Channel F/R-DSCH Forward/Reverse Dedicated Signal Channel F/R-DCCH Forward / Reverse Dedicated Control Channel F/R-FCH Forward / Reverse Fundamental Channel F/R-PICH Forward / Reverse Pilot Channel F/R-SCCH Forward / Reverse Supplemental Code Channel F/R-SCH Forward / Reverse Supplemental Channel FA Foreign Agent F
Appendix D Abbreviations Abbreviation Description FP Function Point F-PCH Paging Channel F-QPCH Quick Paging Channel FS Frequency Synthesizer FSB Frequency Synthesizer Board F-SYNCH Sync Channel FTAM File Transfer Access Maintenance FTB Fiber Transceiver Board FTC Forward Traffic Channel F-TDPICH Transmit Diversity Pilot Channel FTP File Transfer Protocol G GC General Control (SAP) GCM GPS Control Module GID1 Group Identifier (level 1) GID2 Group Identifier (level 2) GLI GE
Abbreviation Description HIRS High-speed Interconnect Router Subsystem HLR Home Location Register HN Home Network HO Handover HPA High Power Amplifier HPLMN Home Public Land Mobile Network HPS Handover Path Switching HRPD High rate packet data HRR Handover Resource Reservation HSCSD HighSpeed Circuit Switched Data HSS Home SuBSCBriber Server HTTP Hyper Text Transfer Protocol HTTPS Hyper Text Transfer Protocol HWB HW-signal process Board I I/O Input/Output IANA Internet Assig
Appendix D Abbreviations Abbreviation Description IMSI International MobileSuBSCBriber Identity IMT-2000 International Mobile Telecommunications 2000 IMUN International Mobile User Number IN Intelligent Network INAP Intelligent Network Application Part INF INFormation field IP Internet Protocol IPB IP Process Board IPCP IP Control Protocol IP-M IP Multicast IPSec IP Security ISAKMP InternetSecurity Association and Key Management Protocol ISCP Interference Signal Code Power ISDN
Abbreviation Description KSLOC KiloSource Lines Of Code ksps kilo-symbols perSecond L L1 Layer 1 (physical layer) L2 Layer 2 (data link layer) L3 Layer 3 (network layer) L3Addr Layer 3 Address LAC Link Access Control LAI Location Area Identity LAN Local Area Network LATA Local Access and Transport Area LCD Low Constrained Delay LCF Link Control Function LCP Link Control Protocol LCS LocationServices LE Local Exchange LEN Length LFM Local Fibre Module LLC Logical Link Con
Appendix D Abbreviations Abbreviation Description MAHO Mobile Assisted Handover MAP Mobile Application Part MC Message Center MCC Mobile Country Code MCE Module Control Element Mcps Mega-chips perSecond MCU Media Control Unit MDIV Diversity MDIV800 Micro Diversity MDN Mobile Directory Number MDS Multimedia DistributionService MDUP Duplex MDUP800 Micro Duplex ME Mobile Equipment MEHO Mobile evaluated handover MER Message Error Rate MExE MobileStation (application) Executio
Abbreviation Description MNIC Multi-service Network Interface Card MNP Mobile Number Portability MO Mobile Originated MOF MO administration Function MOHO Mobile Originated Handover MONB MONIOTR BOARD MOS Mean OpinionScore MPA Micro Power Amplifier MPA800 Micro Power Amplifier MPB Main Process Board MPC8260 Motorola Power PC 8260 MPC860 MPD Micro-BTSB Power Distribution MPEG Moving Pictures Experts Group MPM MSC Processing Module MRB Media Resource Board MRF Media Resource Fu
Appendix D Abbreviations Abbreviation Description NAS Non-AccessStratum NBAP Node B Application Part NCK Network Control Key NCM Network Control Module NDC National Destination Code NDUB Network Determined User Busy NE Network Element NEF Network Element Function NEHO Network evaluated handover NIM Network Interface Module NITZ Network Identity and Time Zone NMC Network Management Center NMSI National MobileStation Identifier NNI Network-Node Interface NO Network Operator NP
Abbreviation Description ODTCH ODMA Dedicated Traffic Channel OIB Opticall Interface Board OIM Optical Interface Module OMC Operation Maintenance Centre OMF Operation Maintenance Function OMI Operation Maintenance Interface OMM Operation Maintenance Module OMS Operation & Maintenance Subsystem OO Object-Oriented OOF Operation Outputting Function OPD Organization Process Definition OPF Organization Process Focus OPRM Optical Receiver Module OPTM Optical Transmitter Module ORACH
Appendix D Abbreviations Abbreviation Description PCCPCH Primary Common Control Physical Channel PCF Packet Control Function PCH Paging Channel PCK Personalisation Control Key PCM Process Change Management PCMCIA Personal Computer Memory Card International Association PCP Packet Consolidation Protocol PCPCH Physical Common Packet Channel PCS Personal Communication System PCU Packet Control Unit PD Power Divider PDB Process Database PDCP Packet Data Convergence Protocol PDF Dete
Abbreviation Description PMM Power Monitor Module PN Pseudo Noise PNP Private Numbering Plan POMC POTS Plain Old Telephony Service PowerQUICC PP2S PPM Protocol Process Module PPP Point-to-Point Protocol PPS Protocol and Parameter Select (response to the ATR) PR Peer Reviews PRACH Physical Random Access Channel PRE Pre-amplifiy Board PRM Power Rectifier Module PRX Predistortion Receiver Board PS Packet Switched PSB Power Splitter Board PSC Primary Synchronization Code PSCH Ph
Appendix D Abbreviations Abbreviation Description QAF Q3 Adaptor Function QC Quality Control QoS Quality of Service QPM Quantitative Process Management QPSK Quadri PhaseShift Keying QXF Qx Interface Function R R_CLP Communication Link Part R_CLP_InSubsystem R_CLP_InterSubsystem R_CLP_MasterSlave R_CLP_TrafficData R_FMP File Management Part R_FMP_Background R_FMP_Foreground R_RSP Running Support Part R_RSP_AbnormityProcess R_RSP_MemoryManagement R_RSP_ProcessCommunication R_RSP_ProcessDi
Abbreviation Description R-APDU Response APDU RB Radio Bearer R-Block Receive-ready Block RC Radio Configuration RDF Resource Description Format R-EACH Enhanced Access Channel RF Radio Frequency RFCM RF Control Module RFE Routing Functional Identity RFF RF Filter RFIM RF Interface Module RFM Remote Fiber Module RFM1900 1.
Appendix D Abbreviations Abbreviation Description RRP Mobile IP Registration Reply RRQ Mobile IP Registration Request RSA Rivest-Shamir-Adleman public key algorithm RSCP ReceivedSignal Code Power R-SGW Roaming Signalling Gateway RSM Reverse Switch Module RSSI Received Signal Strength Indicator RST Reset RSVP Resource Reser Vation Protocol RT Real Time RTC Reverse Traffic Channel RTOS Real Time Operate System RTP Real Time Protocol R-TPDU Response TPDU RU Resource Unit RUM R
Abbreviation Description SACCH Slow Associated Control Channel SAD Source ADdress SAM Site Alarm Module SAP Service Access Point SAPI Service Access Point Identifier SAR Segmentation and Reassembly SAT SIM Application Toolkit SB Storage Battery S-Block Supervisory Block SC Synchronous Capsule SCC Serial Communication Controller SCCB Software Configuration Control Board SCCH Synchronization Control Channel SCCP Signaling Connection Control Part SCCPCH Secondary Common Control P
Appendix D Abbreviations Abbreviation Description SFN System Frame Number SGSN Serving GPRS Support Node SHA Secure Hash Algorithm SHCCH Shared Channel Control Channel SIC Service Implementation Capabilities SIE Sector Interface Element SIM GSMSuBSCBriber Identity Module SINR Signal to interface plus noise ratio SIP Session Initiated Protocol SIR Signal-to-Interference Ratio SLA Service Level Agreement SLOC Source Lines Of Code SLP Signaling Link Protocol SMC Serial Management
Abbreviation Description SR1 Spreading Rate 1 SRNC Serving Radio Network Controller SRNS Serving RNS S-RNTI SRNC Radio Network Temporary Identity SRS Software Requirement Specification SS7 Signaling System No.
Appendix D Abbreviations Abbreviation TE TE9 Description Terminal Equipment Terminal Equipment 9 (ETSISub-technical committee) TF Transport Format TFC Transport Format Combination TFCI Transport Format Combination Indicator TFCS Transport Format CombinationSet TFI Transport Format Indicator TFM Timing Frequency Mudule TFS Timeing &FrequencySubsystem TLLI Temporary Link Level Identity TLS Transport LayerSecurity TLV Tag Length Value TMB Traffic Manage Board TMN Telecommunication M
Abbreviation Description UARFCN UTRA Absolute Radio Frequency Channel Number UARFN UTRA Absolute Radio Frequency Number UART Universal Asynchronous Receiver Transmitter UATI Unicast Access Terminal Identification UCS2 Universal CharacterSet 2 UDD Unconstrained Delay Data UDP User Datagram Protocol UDR User Data Record UE User Equipment UER User Equipment with ODMA relay operation enabled UI User Interface UICC Universal Integrated Circuit Card UIM Universal Interface Module UL U
Appendix D Abbreviations Abbreviation Description UUI User-to-User Information UUS UuStratum UWSF Unit Workstation Functions V VA Voice Activity factor Variable-Rate Variable Data Rate VASP Value Added Service Provider VBR Variable Bit Rate VBS Voice Broadcast Service VC Virtual Circuit VCO Voltage Control Oscillator VGCS Voice Group Call Service VHE Virtual Home Environment VLR Vistor Location Register VMS VoIP Voice Over IP VPLMN Visited Public Land Mobile Network VPM VLR
Abbreviation Description WWT Work Waiting Time WWW World Wide Web X XRES Expected user RESponse Z ZXC10- BSSB cdma2000 BaseStation System ZXC10- BSCB cdma2000 Base Station Controller ZXC10- BTSB cdma2000 Base Transceiver Station ZXC10- MBTS cdma2000 Micro Base Transceiver Station ZXC10- BDSB cdma2000 Baseband Digital System ZXC10- PWSB cdma2000 Power System ZXC10- RFSB cdma2000 Radio Frequency System ZXC10- CBTS cdma2000 Compact Base Transceiver Station ZXC10- PBTS cdma2000 Pico Bas
Appendix D Abbreviations Abbreviation Description ZXCBTS R192 ZXICS C800 ZXPOS CNA1 ZXPOS CNT1 ZXRPT C800 ZXRPT C801 ZXRPT C810 ZXRPT C190 ZXRPT C191 14-29