AirWalk Communications AW96R19AB7 AW96R19AB7A01 Pico MiniCell User Manual
AirWalk Communications, Inc. AW96R19AB7A01 Pico MiniCell Users Manual
Users Manual
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| Document Description | Users Manual |
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| Date Submitted | 2006-06-29 00:00:00 |
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| Document Title | Microsoft Word - System Installation Manual-AW 96_v1.5.doc |
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| Document Author: | cosborn |
AW 96 Series Installation & Maintenance Manual
Version # 1.5
June 2006
Prepared By
AirWalk Communications, Inc.
1830 North Greenville Ave
Richardson, TX, 75081
Phone: (972) 638-9400
Fax: (972) 638-9401
www.airwalkcom.com
FOR USE BY TRAINED TECHNICIANS ONLY
___________________________________________________________________________
AirWalk Proprietary and Confidential
Page 1 of 72
6/14/2006
AW 96 Series System Installation Manual
Revision History
Version
0.1
0.2
0.3
1.0
1.1
1.2
1.3
1.4
1.5
Date
03/01/2004
8/17/2004
8/17/2004
8/20/2004
1/5/2005
3/15/2005
11/4/2005
4/30/2006
6/14/2006
Person
WC/JMH
CMO
CMO
CMO
CMO
CMO
CMO
CMO
CMO
Description
Draft Document (source AW 2100)
Corrected drawings/specifications
Revised for ETL compliance, Labeling
Released
Updated Omni Model Chart
Added Sector RU
Revised Sector RU diagrams
Added MicoCell/PicoCell Cabling section
Added regulatory compliance information
Revision Numbering Key
0.x
Work in Progress
1.0
Initial Document Approval
1.x
Revisions Following Initial Document Approval
2.0
Revisions Approval
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AW 96 Series System Installation Manual
Table of Contents
TABLE OF CONTENTS..................................................................................................................................3
INTRODUCTION.....................................................................................................................................6
1.1
PROPRIETARY INFORMATION NOTICE ..................................................................................................6
1.2
PURPOSE OF DOCUMENT ......................................................................................................................6
1.3
SCOPE ..................................................................................................................................................6
1.4
ORDER OF PRECEDENCE .......................................................................................................................6
1.5
TERMINOLOGY .....................................................................................................................................6
1.6
APPLICABLE DOCUMENTS ...........................................................................................................6
1.6.1
AirWalk Documents.....................................................................................................................6
1.6.2
Telecom Standards ......................................................................................................................7
1.6.3
Other Documents.........................................................................................................................7
AW 96 SERIES MODEL STRUCTURE ................................................................................................8
2.1
2.2
2.3
AW 96 1900 MHZ CONFIGURATIONS (PCS BAND) .............................................................................8
AW 96 800 MHZ CONFIGURATIONS ....................................................................................................9
AW 96 450 MHZ (NMT BAND) CONFIGURATIONS ............................................................................10
AW 96 SAFETY AND COMPLIANCE INFORMATION .................................................................11
3.1
STATEMENT OF INTENT .....................................................................................................................11
3.2
SAFETY PRECAUTIONS .......................................................................................................................11
3.3
MAINTENANCE INFORMATION ...........................................................................................................12
3.3.1
Cleaning ....................................................................................................................................12
3.3.2
Filter Maintenance ....................................................................................................................12
3.3.3
Fuse Replacement .....................................................................................................................12
3.3.4
Other Maintenance....................................................................................................................12
3.4
LABELING ..........................................................................................................................................13
3.4.1
Grounding .................................................................................................................................13
3.4.2
Label: Model Identification, FCC Identification, Power ..........................................................13
3.5
REGULATORY COMPLIANCE INFORMATION .......................................................................................14
3.5.1
Radio Interference (FCC 15.19 Statement)...............................................................................14
3.5.2
Unauthorized Modifications (FCC 15.21 Statement) ................................................................14
3.5.3
Digital Device Interference (FCC 15.105 Statement) ...............................................................14
3.5.4
RF Exposure (FCC MPC Compliance) .....................................................................................14
AW 96 SYSTEM INTRODUCTION.....................................................................................................15
4.1
OVERVIEW .........................................................................................................................................15
4.2
IP- BASE STATION (BS) SYSTEM DESCRIPTION .................................................................................15
4.3
HARDWARE CONFIGURATION ............................................................................................................16
4.3.1
Physical Description .................................................................................................................16
4.3.2
Typical Configurations..............................................................................................................17
4.3.3
Installation Photographs...........................................................................................................17
4.4
BLOCK DIAGRAM – AW 96................................................................................................................19
4.5
SYSTEM CAPACITIES AND SPECIFICATIONS ........................................................................................20
4.5.1
AW 96 Technical Specification..................................................................................................20
4.5.2
Integrated Omni RU (Remote RF Unit) Technical Specification ..............................................21
4.5.3
Sector RU (Remote RF Unit) Technical Specification ..............................................................22
4.5.4
IP-BS Power Supply & Environment Technical Specification ..................................................23
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AW 96 Series System Installation Manual
AW 96 COMPONENTS .........................................................................................................................24
5.1
AW-96 MAIN UNIT ............................................................................................................................24
5.2
INTEGRAL OMNI RU (REMOTE RF UNIT) [OMNI CONFIGURATIONS] .................................................25
5.3
SECTOR RU (REMOTE RF UNIT) [SECTOR CONFIGURATIONS]...........................................................26
5.4
COMPONENT LED CONFIGURATION ..................................................................................................29
5.4.1
CDPB (Common Digital Processing Block)..............................................................................29
XCVB.........................................................................................................................................................30
5.4.2
Sector RU Power Supply Unit (PSU) [AC powered models only] ............................................31
AW 96 INTEGRATED OMNI RU INTERFACE CABLING ............................................................32
6.1
6.2
6.3
6.4
6.5
RF CABLING – INTEGRATED RU OMNI CONFIGURATION ...................................................................32
ELECTRIC POWER CABLE WIRING......................................................................................................33
ETHERNET CABLE WIRING .................................................................................................................34
GPS ANTENNA CABLE WIRING..........................................................................................................34
PHOTOGRAPH OF TYPICAL CABLE WIRING ........................................................................................35
AW 96 SECTOR RU INTERFACE CABLING...................................................................................36
7.1
7.2
7.3
7.4
7.5
7.6
RF CABLING – SECTOR RU CONFIGURATION (3 SECTOR)..................................................................36
RU POWER SUPPLY INTERCONNECT WIRING .....................................................................................37
ETHERNET/SERIAL CABLE WIRING ....................................................................................................37
ELECTRIC POWER CABLE WIRING......................................................................................................38
GPS ANTENNA CABLE WIRING..........................................................................................................39
PHOTOGRAPH OF TYPICAL CABLE WIRING ........................................................................................40
AW 96 LOW POWER (PICOCELL/MICROCELL) CABLING ......................................................41
FREQUENCY SETTING PROCEDURES ..........................................................................................42
9.1
BSM MANAGEMENT ..........................................................................................................................42
9.2
LOCAL FA SETTING ...........................................................................................................................42
9.2.1
MMI Connection .......................................................................................................................42
9.2.2
FA Change Procedure...............................................................................................................43
10
INSTALLATION PROCEDURES....................................................................................................46
10.1 INSTALLATION VERIFICATION ............................................................................................................46
10.1.1 Verify Customer Contact & Equipment location.......................................................................46
10.1.2 Uncrate and arrange for packing material disposal .................................................................47
10.1.3 Verify location of all Facility distribution points (main and intermediate)..............................47
10.2 AW-SERIES IP-RAN INSTALL PROCEDURES ...................................................................................48
10.2.1 Install AW-SERIES IP-RAN Cabinet.........................................................................................48
10.2.2 Verify All Internal System Connections.....................................................................................48
10.2.3 External System Connections ....................................................................................................49
10.2.4 Connect Power to Cabinet ........................................................................................................49
10.2.5 Connect Communications Facilities..........................................................................................49
10.2.6 Power-up procedure..................................................................................................................50
10.3 SYSTEM TEST .....................................................................................................................................50
10.3.1 PC to AW 96 cable ....................................................................................................................50
10.3.2 System Certification Tests .........................................................................................................51
10.3.3 Operation Tests .........................................................................................................................56
10.3.4 Operator Specific Tests .............................................................................................................57
10.4 SITE CLEAN UP AND CUSTOMER SIGNOFF ..........................................................................................57
10.4.1 Dispose of all packing material.................................................................................................57
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10.4.2 Clean-up site. ............................................................................................................................57
10.4.3 Update Installation Checklist. ...................................................................................................57
10.4.4 Customer Signoff. ......................................................................................................................57
10.5 REQUIRED TOOLS AND SUPPLIES .......................................................................................................57
10.6 TROUBLESHOOTING PROCEDURES .....................................................................................................58
10.6.1 Before Calling for Assistance....................................................................................................58
10.6.2 When Calling for Assistance .....................................................................................................59
11
APPENDIX A - ACRONYMS............................................................................................................60
12
APPENDIX B - SITE PREPARATION CHECKLIST ...................................................................65
13
APPENDIX C - INSTALLATION CHECKLIST............................................................................68
14
APPENDIX D - CUSTOMER CERTIFICATION DOCUMENT ..................................................71
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Page 5 of 72
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AW 96 Series System Installation Manual
1 INTRODUCTION
1.1 Proprietary Information Notice
THIS DOCUMENT IS THE PROPERTY OF AIRWALK COMMUNICATIONS, INC. THE
RECIPIENT MAY USE IT ONLY FOR THE PURPOSE FOR WHICH IT WAS
TRANSMITTED AND WILL BE RETURNED UPON REQUEST OR WHEN NO LONGER
NEEDED BY RECIPIENT. IT MAY NOT BE COPIED OR COMMUNICATED WITHOUT
THE WRITTEN CONSENT OF AIRWALK COMMUNICATIONS, INC.
1.2 Purpose of Document
The purpose of this document is to define the Installation, Maintenance and Safety
Compliance of AirWalk Communication’s, Inc. unique CDMA Radio Access Network
(RAN) system. The AirWalk RAN is a market ready, standards compliant, high channel
capacity, cost effective, modular and expandable wireless radio access network system.
Designed specifically for CDMA2000 networks, the Base Station Transceiver (BTS) and
Base Station Controller (BSC) are integrated into a single compact platform.
The target market and applications are in-building areas, corporations, corporate
campuses, enterprises, university campuses, large industrial plants, stadiums, airports,
shopping malls, blind spots, hot spots, rural areas, neighborhoods, and highways.
1.3 Scope
The scope of this document covers the description, environmental specifications,
equipment location, cabling, system installation and maintenance of the AirWalk RAN.
Specific models covered are identified in the section entitled “Model Information”.
1.4 Order of Precedence
This System Installation Manual will take precedence over any previous AirWalk System
Installation Manual or Document.
1.5 Terminology
See the section entitled: Appendix A - Acronyms
1.6 APPLICABLE DOCUMENTS
The following documents are applicable to the extent specified in this System Installation
Manual.
1.6.1 AirWalk Documents
•
IP- Base Station (BS) System Description.
•
IP- Base Station (BS) CPIB Block Diagram.
•
IP- Base Station (BS) GPSR Block Diagram.
•
IP- Base Station (BS) PCPM Block Diagram.
•
IP- Base Station (BS) XCVB Block Diagram.
•
AirWalk System Specification-11-13-2003-v1.0.
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AW 96 Series System Installation Manual
•
System User Manual_022404.
•
System Installation Manual_030104.
1.6.2 Telecom Standards
•
TIA/EIA/IS-2000 Series Revision: C - Introduction to CDMA2000 Spread Spectrum
Systems, 05/00/02
•
Personal Station – Base Station Compatibility Requirements for1.8 to 2.0 GHz CDMA
PCS.
•
TIA/EIA-664 - Wireless Features Description, 12/00/00
•
TIA/EIA Interim Standard 95 Revision A - Mobile Station –Base Station Compatibility
Standard for Dual-Mode Wideband Spread Spectrum Cellular Systems, May 1995
•
TIA/EIA-95-B - Mobile Station-Base Station Compatibility Standard for Dual-Mode
Spread Spectrum Systems, October 31, 1998
•
MSC to BS Interface Inter-Operability Specification (IOS) IOS-4.2
•
IMT-2000 Specification, (indoor wireless propagation)
1.6.3 Other Documents
None Identified
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AW 96 Series System Installation Manual
2 AW 96 Series Model Structure
2.1 AW 96 1900 MHz Configurations (PCS Band)
AW96R19AJ7A01
AW96R1DAJ7A01
AW96R19AB3A01
AW96R19AJ3A01
AW96C19AJ3A01
AW96R1DAJ3A01
AW96C1DAJ3A01
AW10R19AF1A01
Assembly Part
Number
AW96R19AF7A01
Group
AW96R19AB7A01
High Level Model Structure Chart
(AW-96 Series 1900 MHz Band Configurations)
AW96R19AA1A01
This model chart covers all 1900 MHz (PCS band) configuration models. Not all models
are available in all markets. Clarify any model structure questions with Technical Support
Services or your Sales representative.
(Alt)
Name
Descripion
SUB0031
CDPB SUB00xx
Assy SUB00xx
CDPB
CDPB
CDPB
CPIB & PCPM 96 CE
CPIB & PCPM 32 CE (obsolete)
CPIB & PCPM PB Only
PBA0004
PBA0003
PBA0006
XCVB
XCVB
XCVB
1.9 GHz Dual Mode 1/50mW PCS
800 Dual Mode 1/50mW Cell Band
450 Dual Mode 1/50mW NMT (A/H)
XCVB
SUB0004
Assy
SUB00xx
SUB00xx
SUB00xx
XCVB
XCVB
XCVB
XCVB
2100 MHz 1mW (Japan Band)
1800 MHz 1mW (Korea Band)
1.9 GHz xmit ONLY (PB)
800 MHz Xmit ONLY (PB)
SUB00xx
RCPB
SUB00xx
Assy
RCPB
RCPB
5.0 Watt Internal PA Module 1.9 MHz
5.0 Watt Internal PA Module 800 MHz
SUB00xx
FEDB SUB00xx
FEDB
FEDB
MiniCell Internal Duplexer 1.9 GHz
MiniCell Internal Duplexer 800 MHz
SUB00xx
SUB00xx
Chassis SUB00xx
Assy SUB00xx
SUB00xx
Chassis
Chassis
Chassis
Chassis
Chassis
AW-96 Chassis - Onmi Internal PA
AW-96 Chassis - Onmi/1S
AW-96 Chassis - 2 Sector
AW-96 Chassis - 3 sector
AW-10 Chassis - Pilot Beacon
External Cable Kit - Omni RU
External Cable Kit - Sector RU - S1
External Cable Kit - Sector RU - S2
External Cable Kit - Sector RU - S3
Ext
Cable
Kits
CBK0005
CBK0006
CBK0007
CBK0008
Ext Cable
Ext Cable
Ext Cable
Ext Cable
Cord
SUB00xx
Pwr Cord Power Cord UL 16 Guage
(Alt)
RU
RU
RU
RU
Omni System - 1900 Band C/F
Omni System - 1900 Band A/B/D/E
Omni System - 800
Omni System - 450 NMT A Sub Band
RU Assy SUB00xx
SUB00xx
SUB0029
SUB00xx
SUB00xx
RU
RU
RU
RU
RU
Sector System
Sector System
Sector System
Sector System
Sector System
SUB00xx
SUB00xx
SUB0028
SUB00xx
Mount SUB00xx
Assy
- 1900 Band C/F
- 1900 Band A/B/D/E
- 800
- 450 NMT A Sub Bnd
- 2100 Japan
Cabinet AW Cabinet Package 19" Short
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AW 96 Series System Installation Manual
2.2 AW 96 800 MHz Configurations
AW96R80AJ7A01
AW96R80AB3A01
AW96R80AJ3A01
AW96C80AJ3A01
AW10R80AF1A01
Assembly Part
Number
AW96R80AF7A01
Group
AW96R80AB7A01
High Level Model Structure Chart
(AW-96 Series 800 MHz Band Configurations)
AW96R80AA1A01
This model chart covers all 800 MHz (conventional Cellular band) configuration models.
Not all models are available in all markets. Clarify any model structure questions with
Technical Support Services or your Sales representative.
(Alt)
Name
Descripion
SUB0031
CDPB SUB00xx
Assy SUB00xx
CDPB
CDPB
CDPB
CPIB & PCPM 96 CE
CPIB & PCPM 32 CE (obsolete)
CPIB & PCPM PB Only
PBA0004
PBA0003
PBA0006
XCVB
XCVB
XCVB
XCVB
XCVB
XCVB
XCVB
XCVB
1.9 GHz Dual Mode 1/50mW PCS
800 Dual Mode 1/50mW Cell Band
450 Dual Mode 1/50mW NMT (A/H)
SUB00xx
RCPB
SUB00xx
Assy
RCPB
RCPB
5.0 Watt Internal PA Module 1.9 GHz
5.0 Watt Internal PA Module 800 GHz
SUB00xx
FEDB SUB00xx
FEDB
FEDB
MiniCell Internal Duplexer 1.9 GHz
MiniCell Internal Duplexer 800 MHz
SUB00xx
SUB00xx
Chassis SUB00xx
Assy SUB00xx
SUB00xx
Chassis
Chassis
Chassis
Chassis
Chassis
AW-96 Chassis - Onmi Internal PA
AW-96 Chassis - Onmi/1S
AW-96 Chassis - 2 Sector
AW-96 Chassis - 3 sector
AW-10 Chassis - Pilot Beacon
External Cable Kit - Omni RU
External Cable Kit - Sector RU - S1
External Cable Kit - Sector RU - S2
External Cable Kit - Sector RU - S3
XCVB
SUB0004
Assy
SUB00xx
SUB00xx
SUB00xx
2100 MHz 1mW (Japan Band)
1800 MHz 1mW (Korea Band)
1.9 GHz xmit ONLY (PB)
800 MHz Xmit ONLY (PB)
Ext
Cable
Kits
CBK0005
CBK0006
CBK0007
CBK0008
Ext Cable
Ext Cable
Ext Cable
Ext Cable
Cord
SUB00xx
Pwr Cord Power Cord UL 16 Guage
RU
RU
RU
RU
Omni System - 1900 Band C/F
Omni System - 1900 Band A/B/D/E
Omni System - 800
Omni System - 450 NMT A Sub-Band
RU Assy SUB00xx
SUB00xx
SUB0029
SUB00xx
SUB00xx
RU
RU
RU
RU
RU
Sector System - 1900 Band C/F
Sector System - 1900 Band A/B/D/E
Sector System - 800
Sector System - 450 NMT A Sub Bnd
Sector System - 2100 Japan
(Alt)
SUB00xx
SUB00xx
SUB0028
SUB00xx
Mount SUB00xx
Assy
Cabinet AW Cabinet Package 19" Short
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AW 96 Series System Installation Manual
2.3 AW 96 450 MHz (NMT Band) Configurations
CDPB
CDPB
CDPB
CPIB & PCPM 96 CE
CPIB & PCPM 32 CE (obsolete)
CPIB & PCPM PB Only
PBA0004
PBA0003
PBA0006
XCVB
XCVB
XCVB
1.9 GHz Dual Mode 1/50mW PCS
800 Dual Mode 1/50mW Cell Band
450 Dual Mode 1/50mW NMT (A/H)
XCVB
SUB0004
Assy
SUB00xx
SUB00xx
SUB00xx
XCVB
XCVB
XCVB
XCVB
2100 MHz 1mW (Japan Band)
1800 MHz 1mW (Korea Band)
1.9 GHz xmit ONLY (PB)
800 MHz Xmit ONLY (PB)
SUB00xx
RCPB
SUB00xx
Assy
RCPB
RCPB
5.0 Watt Internal PA Module 1.9 GHz
5.0 Watt Internal PA Module 800 GHz
SUB00xx
FEDB SUB00xx
FEDB
FEDB
MiniCell Internal Duplexer 1.9 GHz
MiniCell Internal Duplexer 800 MHz
SUB00xx
SUB00xx
Chassis SUB00xx
Assy SUB00xx
SUB00xx
Chassis
Chassis
Chassis
Chassis
Chassis
AW-96 Chassis - Onmi Internal PA
AW-96 Chassis - Onmi/1S
AW-96 Chassis - 2 Sector
AW-96 Chassis - 3 sector
AW-10 Chassis - Pilot Beacon
External Cable Kit - Omni RU
External Cable Kit - Sector RU - S1
External Cable Kit - Sector RU - S2
External Cable Kit - Sector RU - S3
Ext
Cable
Kits
CBK0005
CBK0006
CBK0007
CBK0008
Ext Cable
Ext Cable
Ext Cable
Ext Cable
Cord
SUB00xx
Pwr Cord Power Cord UL 16 Guage
RU
RU
RU
RU
Omni System - 1900 Band C/F
Omni System - 1900 Band A/B/D/E
Omni System - 800
Omni System - 450 NMT A Sub-Band
RU Assy SUB00xx
SUB00xx
SUB0029
SUB00xx
SUB00xx
RU
RU
RU
RU
RU
Sector System - 1900 Band C/F
Sector System - 1900 Band A/B/D/E
Sector System - 800
Sector System - 450 NMT A Sub Bnd
Sector System - 2100 Japan
SUB00xx
SUB00xx
SUB0028
SUB00xx
Mount SUB00xx
Assy
AW96C45AJ3A01
SUB0031
CDPB SUB00xx
Assy SUB00xx
AW96R45AJ3A01
Descripion
AW96R45AB3A01
Name
AW96R45AJ7A01
Assembly Part
Number
AW96R45AF7A01
Group
AW96R45AB7A01
High Level Model Structure Chart
(AW-96 Series 450 MHz Band Configurations)
AW96R45AA1A01
This model chart covers 450 MHz (former NMT Nordic Mobile Telephone band)
configuration models. Not all models are available in all markets. Clarify any model
structure questions with Technical Support Services or your Sales representative.
Cabinet AW Cabinet Package 19" Short
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AW 96 Series System Installation Manual
3 AW 96 Safety And Compliance Information
3.1 Statement Of Intent
The AirWalk AW 96 RAN is intended for use in a CDMA cellular infrastructure radio
access network. The responsible body shall be made aware that, if the equipment is used
in a manner not specified by the manufacturer, the protection provided by the equipment
may be impaired.
3.2 Safety Precautions
1) Power Sources
Use only power sources that are within the specified limits as designated on the
equipment labels. Use of power sources outside the specified limits is hazardous and
may cause personal injury or property damage.
2) Equipment Location
Equipment should be located indoors or in a suitable protected environment such as an
equipment enclosure. Use of unprotected equipment outdoors is hazardous and may
cause personal injury or property damage.
3) Grounding And Electrical Connections
Electrical connections including equipment grounding should be made in accordance with
the National Electric Code and any local regulations. Improper electrical connections are
hazardous and may cause personal injury or property damage. Consult a licensed
electrical installer if in doubt.
4) Hazardous Voltages
Equipment may contain hazardous voltages. Only qualified service personnel should
open the equipment for adjustments, repairs or replacements.
5) Replacement Parts
Damaged parts and protective devices such as fuses should only be replaced by
components approved or recommended by AirWalk Communications. Replacement
fuses must be of the same rating and type as the original for continued protection.
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AW 96 Series System Installation Manual
3.3 Maintenance Information
3.3.1 Cleaning
The AirWalk AW 96 units are protected by a high performance paint which does not
require normal maintenance. If paintwork is soiled, it can be cleaned using a damp cloth
after AC power has been disconnected. Do not use liquids or spray cleaning substances
on the unit since property damage or personal injury may result.
3.3.2 Filter Maintenance
The AW 96 Main Unit is equipped with a washable air filter located in a front mounted
drop down door.
This filter should be checked annually for dirt build-up and cleaned if required. Note more
frequent inspections may be needed in dusty environments.
Air Filter Located In
Drop Down Front Door
3.3.3 Fuse Replacement
The AW 96 Main Unit contains a 250 V 5A fuse located behind the AC connector cap as
shown in the diagram. Replace the fuse with the same type and ratings.
Removable
Fuse Cap
3.3.4 Other Maintenance
Any other required maintenance must be performed by suitable trained service personnel.
Do not open covers or attempt to repair unit if not suitably trained.
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AW 96 Series System Installation Manual
3.4 Labeling
3.4.1 Grounding
Proper grounding is recommended to ensure good RF performance in addition to
personnel safety. Antenna systems should also be suitably grounded for good RF
performance.
Grounding connection points on the chassis are identified by this symbol:
3.4.2 Label: Model Identification, FCC Identification, Power
The following label is applied to the AW 96 unit to provide model identification, FCC
identification and rated power supply information.
1.0
15.0
IP-Base Station
Model : AW96R19AJ1A01 FCC ID : R4HAW96R19AJ1A01
S/N :
*ZF000096UA*
AC IN: 100-240 VAC 50/60Hz 6A/3A
Fuse: AC 250V 6A (20mm x 5mm)
AirWalk Communications., Inc Contact: +1-972-638-9400
50.0
Made In U.S.A.
76.0
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AW 96 Series System Installation Manual
3.5 Regulatory Compliance Information
The FCC regulatory compliance information provided in this section is applicable only to
models equipped with an FCC identification number (FCC ID).
3.5.1 Radio Interference (FCC 15.19 Statement)
This device complies with part 15 of the FCC Rules. Operation is subject to the following
two conditions: (1) This device may not cause harmful interference, and (2) this device
must accept any interference received, including interference that may cause undesired
operation.
3.5.2 Unauthorized Modifications (FCC 15.21 Statement)
Persons or parties responsible for operation of this equipment are cautioned that any
changes or modifications not expressly approved by AirWalk Communications
Incorporated could void the user’s authority to operate this equipment.
3.5.3 Digital Device Interference (FCC 15.105 Statement)
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference in a residential installation. This
equipment generates, uses, and can radiate radio frequency energy and, if not installed
and used in accordance with the instructions, may cause harmful interference to radio
communications.
3.5.4 RF Exposure (FCC MPC Compliance)
In order to comply with FCC RF Exposure requirements, this device must be installed
and operated in such a way that a minimum separation distance of 20 cm is always
maintained between the antenna and all persons during normal operations.
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AW 96 System Introduction
4.1 Overview
The AirWalk AW 96 (CDMA-2000 IP-Base Station) product is unique in the way that it
combines both BTS and BSC functionality in one compact platform.
This product is designed for efficiency and optimized to reduce the service providers
CAPEX, and OPEX and at the same time, it increases the number of users per assigned
spectrum.
It provides higher capacity in less space for today’s spectrum hungry data and multimedia applications.
The AW 96 system provides the following advantages:
•
Easily adapted to 3FA/Omni structure.
•
Supports 2G (TIA/EIA-95, J-STD-008) and 3G-1X (CDMA2000) standards
•
Supports data service transmission of 1.2 kbps to 144 kbps
•
Provides 96 basic channel elements.
•
Easy repair and support
•
Improved reliance
•
Provides an ‘All-IP’ solution
•
Provides an effective solution for enterprise networks and hot spots.
4.2 IP- Base Station (BS) System Description
The AW 96 IP-RAN (Internet Protocol Radio Access Network) is composed of two main
modules: The IP based BSC and the IP based BTS. When an AirWalk IP-RAN is
installed in an ‘ALL-IP’ network the integrated BTS is controlled by the integrated BSC,
and the integrated BSC is controlled by a SS (Soft Switch). Legacy Switching Systems
can also control the integrated BSC through standards based interfaces.
SS7 Network
SMSC
MultiMedia
Multi-Media
Internet
HLR
SG
Wireless
Core Network
MSC
BSC
Macro Network
PDSN
Softswitch
OAM
Core IP Network
Micro Network
MG
IP- RAN
IP- RAN
(BSC+
(BSC+ BTS)
BTS)
PSTN
Figure 4-1 Network Diagram
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4.3 Hardware Configuration
The IP-BS is a unique modular and stackable combination BSC and BTS platform that is
differentiated from other systems. Other systems have separate BTS and BSC platforms
which adds to cost and complexity. The AirWalk RAN has a structure that combines and
arranges the BSC interface with one 1FA/3Sector BTS in a single package.
The main components are (depending on specific model):
•
AW-96 (Main Unit)
o CDPB (Common Digital Processing Board), consisting of:
CPIB (Channel Processor and IF Interface Board)
PCPM (Primary Call Processor Module)
GPSR (Global Positioning System Receiver)
o XCVB (RF Transceiver Board)
o PSA (Power Supply Assembly)
•
RU (Remote RF Unit) [3 Sector RU]
o HPAU (High Power Amplifier Unit)
o AFEU (Antenna Front End Unit)
o FANU (Fan Unit)
o RPSU (Remote RF Power Supply Unit) [Separate assembly]
•
Integral Omni RU (Remote RF Unit)
•
Unified HPAU, AFEU, RPSU in single unit
Optional Cabinet Mounting
o Some units may be mounted in an optional cabinet
4.3.1 Physical Description
•
•
•
•
•
Main Unit
o Dimension: Max. 482mm(W) x 457mm(D) x 178mm(H)
o 19” EIA Rack x 4 Rack Units
o Weight: 18 kg (3 Sector); 15 kg (Omni)
Sector RU [3 Sector RU] (less power supply)
o Dimension: Max. 482mm(W) x 362mm(D) x 355mm(H)
o 19” EIA Rack x 8 Rack Units
o Weight: 39 kg
Sector RU RPSU (AC Power Supply)
o Dimension: Max. 482mm(W) x 446mm(D) x 89mm(H)
o 19” EIA Rack x 2 Rack Units
o Weight: 9 kg
Integrated Omni RU
o Dimension: Max. 482mm(W) x 410mm(D) x 178mm(H)
o 19” EIA Rack x 4 Rack Units
o Weight: 22 kg
Optional Self-Contained Mounting Cabinet (including casters)
o Dimension: Max. 546mm(W) x 610mm(D) x 876mm(H)
o 19” EIA Rack x 16 Rack Units mounting space
o Refer to Optional Cabinet Installation Manual
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4.3.2 Typical Configurations
The following shows typical component configurations for common applications. Refer to
the model charts for the contents of specific model numbers.
Omni low/medium power systems including MicroCell & MiniCell (1mW/50mW/4W)
- AW 96 Main Unit
Omni Pilot Beacon MacroCell Systems (4W)
- AW 96 Main Unit
Omni High Power MacroCell Systems (20W)
- AW 96 Main Unit
- Integrated Omni RU
Sector Low Power MicroCell Systems (1mW/50mW)
- AW 96 Main Unit
Sector High Power MacroCell Systems (20W)
- AW 96 Main Unit
- Sector RU
- Sector RU PSU (AC power supply)
4.3.3 Installation Photographs
The following photographs show typical field installations for AW 96 systems:
Figure 4-2 – Typical AW 96 Microcell, MiniCell & Pilot Beacon Installation
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Figure 4-3 – Typical AW 96 with Omni RU (Rack Mounting)
Figure 4-4 – Typical AW 96 & 3 Sector RU (Rack Mounting)
Figure 4-5 – Typical AW 96 & 3 Sector RU with Cabinet Mounting Option
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4.4 Block Diagram – AW 96
Figure 4-6 IP-BS Hardware Structure
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4.5 System Capacities and Specifications
4.5.1 AW 96 Technical Specification
Item
Capacity and
Specification
Up-Link: 2175 ~ 2180 MHz
Down-Link: 1985 ~ 1990MHz
Up-Link: 1850 ~ 1910 MHz
Frequency Band
Down-Link: 1930 ~ 1990 MHz
Up-Link: 824 ~ 849 MHz
Down-Link: 869 ~ 894 MHz
Refer To Model For Sub-Band
3 Sectors/FA
Sector/FA
3FA/Omni
Channel Elements / IP-BS 96CE 3FA (32 CE Omni)
Handoff
Softer H/O, soft H/O. Hard H/O
Channel pooling
Sector
GPS
External GPS Antenna
Installation
Rack Mountable
Cooling
Forced Air
IP-Network Interface
10/100 Base-T Ethernet
Transmitter output power
1mW/50mW/5W or 20W w/RU
1 Transmit and 1 Receive A RF
RF Interface
signal, 1 Receive B RF signal
J-STD-008/IS-95-A/IS-95B
Common Air Interface (CAI)
/CDMA2000-1x
Channel bandwidth
1.25MHz
Less than 1% FER, when the
Receiving sensitivity
power is under -119dBm
Remarks
Japan PCS Band
North American PCS Band
800 MHz Cellular Band
450 MHz NMT Band
Each AW 96 Unit
IP BTS
One per AW-96
4 Rack Units
Front To Rear Flow
Includes duplexer function
CDMA 2000 1x
Mechanical Specification
RF Input and Output
Connector
AC Power Connector
Ethernet Signal Port
Connectors
Dimensions ( W x H x D )
Weight
SMA Female (Input/Output)
From/To RU
IEC
RJ-45
482mm(W) x 457mm(D) x
178mm(H)
18 kg (3 Sector); 15 kg (Omni)
4 Rack Units
AW 96 Main Unit
Table 4-1 – AW-96 Specifications
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4.5.2 Integrated Omni RU (Remote RF Unit) Technical Specification
Tx
2160 ~2185 MHz
1850 ~1890 MHz
1890 ~ 1910 MHz
824 ~ 849 MHz
Refer To Model For SubBand
43dBm, 20 Watt
53 ± 1.0dB
1.5: 1
23 ± 1.0dB
Frequency
Output Power
Gain
In/Out VSWR
Coupling Value
1970
100dBc
~1995MHz
Fc±885KHz
Spurious Emission
Fc±1.98MHz
@43dBm(20W)_1FA
Fc±2.75MHz
Attenuation
Japan PCS Band
N American PCS (A/B/D/E)
North American PCS (C/F)
800 MHz Cellular Band
450 MHz NMT Band
CDMA
Output: Isolator Included
North American PCS
-42dBc Min
-52dBc Min
-18dBm Min
Max Hold Marker
RBW, VBW=30KHZ,
BW=1MHz
Over Power
45 + 0.7dBm
Over VSWR
Protection
Alarm 3:1
30~43dBm
Over Temp. Protection
Alarm @ 90o ± 2 o
Base Plate Temperature
Rx
Frequency
Gain
Gain Flatness
In/Out VSWR
Attenuation
Noise Figure
1970 ~1995MHz
1970 ~1995 MHz
Japan PCS Band
1930 ~ 1990 MHz
North American PCS
869 ~ 894 MHz
800 MHz Cellular Band
Refer To Model For SubB 450 MHz NMT Band
24 ± 1.0dB
1.0dB max
1.5: 1
100dBc min
North American PCS
2.1dB max
Mechanical Specification
RF Input and Output Connector
SMA Female (Input)
AC Power Connector
IEC
Ethernet Signal Port Connector
RJ-45
482mm(W) x 457mm(D)
x 178mm(H))
Dimensions ( W x H x D )
N Female (Output)
4 Rack Units
Table 4-2 – Integrated Omni RU Specifications
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4.5.3 Sector RU (Remote RF Unit) Technical Specification
Tx
2160 ~2185 MHz
1850 ~ 1890 MHz
1890 ~ 1910 MHz
824 ~ 849 MHz
Refer To Model For SubBand
43dBm, 20 Watt
53 ± 1.0dB
1.5: 1
23 ± 1.0dB
Frequency
Output Power
Gain
In/Out VSWR
Coupling Value
1970
100dBc
~1995MHz
Fc±885KHz
Spurious Emission
Fc±1.98MHz
@43dBm(20W)_1FA
Fc±2.75MHz
Attenuation
Japan PCS Band
N American PCS (A/B/D/E)
N American PCS (C/F)
800 Cellular Band
450 MHz NMT Band
CDMA
Output: Isolator Included
North American PCS
-42dBc Min
-52dBc Min
-18dBm Min
Max Hold Marker
RBW, VBW=30KHZ,
BW=1MHz
Over Power
45 + 0.7dBm
Over VSWR
Protection
Alarm 3:1
30~43dBm
Over Temp. Protection
Alarm @ 90o ± 2 o
Base Plate Temperature
Rx
Frequency
Gain
Gain Flatness
In/Out VSWR
Attenuation
Noise Figure
1970 ~1995MHz
1970 ~1995 MHz
1930 ~ 1990 MHz
869 ~ 894 MHz
Refer to Model For SubB
24 ± 1.0dB
1.0dB max
1.5: 1
100dBc min
2.1dB max
Japan PCS Band
North American PCS
800 MHz Cellular Band
450 MHz NMT Band
North American PCS
Mechanical Specification
RF Input and Output Connector
AC Power Connector
SMA Female (Input)
IEC
Ethernet Signal Port Connector
RJ-45
482mm(W) x 362mm(D)
x 355mm(H)
Dimensions ( W x H x D )
N Female (Output)
8 Rack Units
Table 4-3 – Integrated Omni RU Specifications
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4.5.4 IP-BS Power Supply & Environment Technical Specification
Input Power Supply
Input Voltage:
Input Frequency:
AC 100Volts ~ 250Volts
50Hz ~ 60Hz
Dissipated Power
AW-96 Main Unit:
Integrated Omni RU Unit
Sector RU Unit
Maximum AW 96 IP-BS
350 Watt Max (Efficiency 75%)
400 Watt Max (Efficiency 85%)
1150 Watt Max (Efficiency 85%)
1500 Watt Max (Main Unit & Sector RU)
Environment Specification
Operating Temperature
Storage Temperature
Relative Humidity
Noise
Airborne Particle
0o ~ +50 o
-30 o ~ +60 o
5% ~ 95% - Non-condensing
Less than 60dBA, distance 1.5m
0 ~ 90 ㎍/㎥
Table 4-3 - Power Supply & Environment Specifications
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5 AW 96 Components
5.1 AW-96 Main Unit
Figure 5-1 AW-96 Main Unit Photo (Front View)
Figure 5-2 AW-96 Main Unit Line Diagram (Front View)
Figure 5-3 AW-96 Main Unit Photo (Back View)
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Figure 5-4 AW-96 – Line Diagram (Back View)
5.2 Integral Omni RU (Remote RF Unit) [Omni Configurations]
This is the IP-BS (Internet Protocol BTS System) RF interface system.
The main functions include a 20W power amplifier, RF filtering for Tx and Rx paths, a
duplexer function for to allow connection to an antenna system, and a power supply. All
components are packaged in a unified 4 rack unit package.
Figure 5-5 Integrated Omni RF Unit Photo (Front View)
Figure 5-6 Integrated Omni RU - Line Diagram (Front View)
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Figure 5-7 Integrated Omni RU (RF Unit) Photo (Rear View)
RF RX_B OUT
RF TX IN
RX_B TP
RF RX_A OUT
RX_B ANT
TX/ RX_A ANT
TX_TP
RX_A TP
RJ- 45
Figure 5-8 Integrated Omni RU (RF Unit) - Line Diagram (Back View)
5.3 Sector RU (Remote RF Unit) [Sector Configurations]
This is the IP-BS (Internet Protocol BTS System) sector RF Shelf. The main functions
include a 20W power amplifier for each sector, RF filtering for Tx and Rx paths, a
duplexer function for to allow connection to an antenna system, and a power supply.
The Sector RU system consists of a common chassis in which the following modules are
installed:
•
HPAU (High Power Amplifier Unit): 20 Watt power amplifier, one per sector
•
AFEU (Antenna Front End Unit): Includes duplexer and LNA functions, 1/sector
•
FANU (Fan Unit): Includes fans assemblies for HPAU cooling
•
PSU (Power Supply Unit): A separate AC power supply for the RU system
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Figure 5-9 Sector RU Photo (Front View)
Figure 5-10 Sector RU Line Diagram (Front View)
Figure 5-11 Sector RU Line Diagram (Rear View)
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Each AC powered Sector RU system is also equipped with a separate Power Supply Unit
which provides conditioned power for the RU system.
Figure 5-12 Sector RU PSU - Photo (Front View)
Figure 5-13 RPSU – Line Diagram (Front and Back Views)
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5.4 Component LED Configuration
5.4.1 CDPB (Common Digital Processing Block)
LED status indicators are provided on the AW-96 CDPB module. LED functions are
described in the following pictures and tables.
PWR
CDPB
FLT
BTS
MMI
CPIB
GPSR
BSC
MMI
RESET
CPIB
PCPM
PCPM
SCPM
SCPM
Figure 5-9 CDPB Panel Diagram
Figure 5-10 - CDPB Panel Photo
Name
Color
On
Off
Note
CPIB
GPSR
PCPM
SCPM
Green
Green
Green
Green
Normal
Normal
Normal
Normal
Abnormal
Abnormal
Abnormal
Abnormal
CPIB
Orange
Abnormal
Normal
GPSR
Orange
Abnormal
Normal
PCPM
Orange
Abnormal
Normal
SCPM
Orange
Abnormal
Normal
CPIB power on/off indicator
GPSR power on/off indicator
PCPM power on/off indicator
SCPM power on/off indicator
Check function of CPU in CPIB
Board and ALARM
GPSR alarm on/off indicator
Check function of CPU in
PCPM Board and ALARM
Check function of CPU in
SCPM Board and ALARM
Table 5-1 – CDPB Indicator Codes
NOTE: AW-96 models are NOT normally equipped with an SCPM (Secondary Call
Processor Module), therefore these indicators are not used in most system applications.
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XCVB
The XCVB module is equipped with 2 indicators. LED functions are described in the
following pictures and tables.
XCVB
PWR
FLT
Figure 5-11 - XCVB Panel Diagram
Figure 5-12 XCVB Panel Photo
Name
PWR
FLT
Color
Green
Orange
On
Off
Normal
Abnormal
Abnormal
Normal
Note
XCVB power on/off indicator
XCVB alarm on/off indicator
Table 5-2 - XCVB Indicator Code Key
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5.4.2 Sector RU Power Supply Unit (PSU) [AC powered models only]
The RU PSU (Power Supply Unit) is equipped with both indicators and a small numeric
display. The indicator and display functions relate only to power supply operation for the
RU and are described in the following pictures and tables.
Note that only AC powered models are equipped with the PSU module.
PSU
+27 - V
+27 - A
+12 - V
NOR FAIL V-adj SEL
Figure 5-6 - RPSU Panel Diagram
Figure 5-7 RPSU Panel Photo
Name
Color
On
Off
NOR
Green
Normal
Abnormal
FAIL
RED
Fail
Normal
+27-V
Green
Select
Non-Select
+27-A
Green
Select
Non-Select
+12-V
Green
Select
Non-Select
Note
RPSU power normal
operation indicator
RPSU power fail indicator
+27V Voltage select by
SEL push switch
+27V Current select by SEL
push switch
+12V Voltage select by
SEL push switch
Table 5-1 - RPSU Indicator Codes
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6 AW 96 Integrated Omni RU Interface Cabling
6.1 RF Cabling – Integrated RU Omni Configuration
The AW 96 transmitter exciter output and diversity receiver inputs are connected to the
RU which contains the duplexer, LNA and HPA functions. Connect using jumper cables
as shown in Figure 6-1 (1). Use suitable cables as provided with the AW 96 system and
shown in figure 6-2.
Connect external diversity antenna systems as shown in Figure 6-1 (2). External antenna
connectors are “N-Type”.
GPSANT
T_EVEN
RF RXB(a)
RF RXA(a)
RF TX
(a)
T_10MHz
RF RXB(b)
RF RXA(b)
RF TX
(b)
RF RXB(r)
RF RXA(r)
RF TX (r)
RU IF
BSC IF
ENV IF
BTS IF
RF RX_B OUT
RF TX IN
RX_B TP
RF RX_A OUT
RX_B ANT
TX/ RX_A ANT
TX_TP
RX_A TP
RJ- 45
RF Antenna
Figure 6-1 Integrated Omni RU RF Cabling Diagram
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RG316DS
Coaxial Cable
Figure 6-2 AW-96 to RU RF Cable Specification
6.2 Electric Power Cable Wiring
Connect AW-96 and Integrated Omni RU to suitable AC power sources as shown in Figure 6-3.
Use only the AC power cable provided with AW 96 unit for safe operation.
GPSANT
T_EVEN
RF RXB(a)
RF RXA(a)
RF TX
(a)
T_10MHz
RF RXB(b)
RF RXA(b)
RF TX
(b)
RF RXB(r)
RF RXA(r)
RF TX (r)
RF RX_B OUT
RF TX IN
RX_B TP
RU IF
BSC IF
ENV IF
BTS IF
RF RX_A OUT
RX_B ANT
TX/ RX_A ANT
TX_TP
RX_A TP
RJ- 45
AC Power
Figure 6-3 AW 96 Power Cabling
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6.3 Ethernet Cable Wiring
Connect Integrated Omni RU to AW-96 using supplied Ethernet cable as shown in Figure
6-4 (1). Connect external Ethernet connections to the BTS and BSC Ethernet ports on
the AW-96 (2).
GPSANT
T_EVEN
RF RXB(a)
RF RXA(a)
RF TX
(a)
T_10MHz
RF RXB(b)
RF RXA(b)
RF TX
(b)
RF RXB(r)
RF RXA(r)
RF TX (r)
RU IF
BSC IF
ENV IF
BTS IF
RF RX_B OUT
RF TX IN
RX_B TP
RF RX_A OUT
RX_B ANT
TX/ RX_A ANT
TX_TP
RX_A TP
RJ- 45
Figure 6-4 Ethernet Cable Wiring
6.4 GPS Antenna Cable Wiring
Connect the external GPS antenna RF cable to the GPS antenna port on the AW-96 unit
as shown in Figure 7-5. The GPS connector is an “TNC” connector. The AirWalk GPS
antenna kit (AWANC001GPCA01) includes a GPS antenna, mounting hardware and a
25m cable (RG-58 or better).
Note the GPS antenna must located outside in a position to see the general sky. The
GPS antenna must see at least 4 GPS satellites in the sky to receive enough time
information for proper system operation.
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GPS Antenna
GPSANT
T_EVEN
RF RXB(a)
RF RXA(a)
RF TX
(a)
T_10MHz
RF RXB(b)
RF RXA(b)
RF TX
(b)
RF RXB(r)
RF RXA(r)
RF TX (r)
RU IF
BSC IF
ENV IF
BTS IF
Figure 6-5 GPS Antenna Cable Wiring
6.5 Photograph Of Typical Cable Wiring
Figure 6-6 shows the actual cabling found in a typical system installation.
Figure 6-6 – Integrated RU Field Installation Photograph
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7 AW 96 Sector RU Interface Cabling
7.1 RF Cabling – Sector RU Configuration (3 Sector)
The AW 96 transmitter exciter output and diversity receiver inputs are connected to the
Sector RU which contains the duplexer, LNA (Low Noise pre-Amplifier) and HPA (High
Power Amplifier) functions. Connect using jumper cables as shown in Figure 7-1.
Use only the cables supplied with the RU system for interconnection to the AW-96.
Cables are labeled for ease of installation. See Figure 7-2 for cable specification.
GPSANT
T_EVEN RF RXB(a)
RF RXA(a) RF TX (a)
T_10MHz RF RXB(b)
RF RXA(b) RF TX(b)
RF RXB(r)
RF RXA(r) RF TX (r)
RU IF
BSC IF
ENV IF
BTS IF
α Sector
β Sector
γ Sector
To “γ”
Sector
Antennas
To “β”
Sector
Antennas
To “α”
Sector
Antennas
Figure 7-1 AW-96 to Sector RU RF Cable Connections
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It is important to ensure transmit and receive connections are made correctly to prevent
damage or field operational problems such as:
Damage due to transmitting into a receiver port
Crossed over diversity receive ports
Crossed over sectors which could disrupt RF system design/optimization
Connect the external transmission lines from the diversity antenna systems to the RU
Antenna connections as shown in Figure 7-1. External connectors are “N-Type”.
Note that transmission line (or jumpers to transmission line) type and length will impact
the overall link budget calculations for the cell site. Be sure to include these losses in the
RF system design calculations for coverage.
RG316DS
Coaxial Cable
Figure 7-2 AW-96 to RU RF Cable Specification
7.2 RU Power Supply Interconnect Wiring
Connect the power interconnect cable between the RU main assembly and the RU power
supply as shown in Figure 7-3. Use only the cable supplied with the RU system for this
purpose. Tighten connector captivating screws to prevent accidental disconnection.
Connect the RU power supply alarm interconnect cable between the RU main assembly
and the RU power supply as shown in Figure 7-3. Use only the cable supplied with the
RU system for this purpose. Tighten connector captivating screws to prevent accidental
disconnection.
7.3 Ethernet/Serial Cable Wiring
Connect RU interface cable between the AW-96 RU I/F port and the RU RU I/F port as
shown in Figure 7-3. This connection allows the AW-96 to communication with RU
system for the purposes of transferring measurements, alarms and control functions. Use
only the serial cable supplied with the RU system for this purpose. Ensure the RJ-45
connectors are properly seated (“click”) to prevent accidental disconnection.
Connect the external Ethernet connections (cable not supplied) from the local Ethernet
switch or hub at the cell site to the BTS and BSC Ethernet ports on the AW-96 as shown
in Figure 7.3. Use category 5 Ethernet cable (or better) for best performance.
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7.4 Electric Power Cable Wiring
Connect AW-96 and Sector RU system to suitable AC power sources as shown in Figure
7-3. Use only the AC power cables provided with AW 96 unit and the RU unit to ensure
continued safe operation.
GPSANT
T_EVEN RF RXB(a)
RF RXA(a) RF TX (a)
T_10MHz RF RXB(b)
RF RXA(b) RF TX(b)
RF RXB(r)
RF RXA(r) RF TX (r)
RU IF
BSC IF
ENV IF
BTS IF
To Local
Ethernet
Switch/Hub
RU Interface
Cable
AC
Power
Power
Interconnect
Cable
Alarm
Interconnect
Cable
AC
Power
Figure 7-3 AW-96 to RU Serial/Ethernet/Power Connections
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7.5 GPS Antenna Cable Wiring
Connect the external GPS antenna RF cable to the GPS antenna port on the AW-96 unit
as shown in Figure 7-5. The GPS connector is an “TNC” connector. The AirWalk GPS
antenna kit (AWANC001GPCA01) includes a GPS antenna, mounting hardware and a
25m cable (RG-58 or better).
Note the GPS antenna must located outside in a position to see the general sky. The
GPS antenna must see at least 4 GPS satellites in the sky to receive enough time
information for proper system operation.
GPS Antenna
GPSANT
T_EVEN
RF RXB(a)
RF RXA(a)
RF TX
(a)
T_10MHz
RF RXB(b)
RF RXA(b)
RF TX
(b)
RF RXB(r)
RF RXA(r)
RF TX (r)
RU IF
BSC IF
ENV IF
BTS IF
Figure 7-5 GPS Antenna Cable Wiring
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7.6 Photograph Of Typical Cable Wiring
Figure 7-6 shows the cabling found in a typical Sector RU system installation.
Figure 7-6 Sector RU Field Installation Photograph
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8 AW 96 Low Power (PicoCell/MicroCell) Cabling
The following connections are required for AW 96 stand-alone applications, including
PicoCell and MicroCell. AW 96 units for these applications are normally configured for
50mW power output and are equipped with an internal duplexer function which requires
only a single antenna for normal operation. A second diversity receiver connection is
provided if required for the application
Connect power, Ethernet, GPS and RF antenna cables as shown in the diagram below.
Outdoor GPS
Antenna
Optional
RF Cables
Diversity
Cables: 2, one Tx, one Rx
Antenna
Connectors: SMA M – N Type M
Cable Type: RG-400 or equiv
GPS Cable
Connectors: TNC M-TNC M
Cable Type: RG-58 or equiv
Main
Tx/Rx
Antenna
GPS ANT
TNC F
Connector
GPSANT
T_EVEN
RF RXB(a)
RF RXA(a)
RF TX
(a)
T_10MHz
RF RXB(b)
RF RXA(b)
RF TX
(b)
RF RXB(r)
RF RXA(r)
RF TX (r)
RU IF
BSC IF
ENV IF
BTS IF
RF TX (α)
SMA F
Connector
RF RXA (α)
SMA F
Connector
BSC IF
RJ-45
BTS IF
RJ-45
Ethernet Cables
Cables: 2, one BSC I/F, one BTS I/F
Connectors: RJ-45
Standard
IEC Connector
Supplied AC
Power Cord
10/100 Ethernet Switch
To WCA/MG & BSM (Ethernet)
Use only the AC power cables provided with AW 96 unit unit to ensure continued safe
operation.
Use recommended RF and Ethernet cables or equivalent.
Use the optional AirWalk GPS antenna kit (AWANC001GPCA01) when GPS is required
for the application. This kit includes a GPS antenna, mounting hardware and a 25m
cable.
Note the GPS antenna must located outside in a position to see the general sky. The
GPS antenna must see at least 4 GPS satellites in the sky to receive enough time
information for proper system operation when GPS is required.
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9 Frequency Setting Procedures
9.1 BSM Management
The AW-96 series base stations are normally managed by the centrally located BSM
(Base Station Manager) system which communicates with the AW-96 over an IP
connection.
The BSM will download system software and configuration information which includes the
physical FA (Frequency Assignment) for each base station. The base station will tune to
the correct frequency as defined by the BSM configuration files.
Refer to the BSM operations manual for instructions on base station remote configuration.
9.2 Local FA Setting
It may required to set the AW-96 series base station physical FA (frequency assignment)
locally for specialized test purposes or when the BSM connection is unavailable (for
example during early BTS installations). This can be done using the local MMI (Man
Machine Interface) port and a local PC.
The configuration data downloaded from the BSM will override local settings when BSM
connections are established.
Refer to the MMI instruction manual for further information on other commands.
9.2.1 MMI Connection
Connect the serial port of the PC to the “BTS MMI” port on the AW-96 front panel. Use
the cable described in section 8.3.1 and the following port settings:
9600 baud
8 bit
No Parity
1 stop bit
No flow control
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9.2.2 FA Change Procedure
The following menu driven commands will permit local change of the FA.
Step 1
At the prompt enter the following:
> pn3383
// this will take you to the menu screen which looks something like this:
================= PN 3383 ====================
1. Tx Test
2. Rx Test
3. ParameterSetup
4. Rf Gain Display
5. xcvbSetup
6. ampSetup
7. Normal Gain Display
8. MakeTestCall
9. callClear
10. Overhead Calibration Control
11. Test Phone Setup (619 2221001)
12. Handoff Test
0. Exit
-------------------------------------------------Select Number ===>
Step 2
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Enter the following:
Select number => 5
// it will take you to the below menu screen.
================= Xcvb Setup ====================
1. Change Ch
2. Tx On
3. Tx Off
4. Rx_Main_AGC ON
5. Rx_Main_AGC OFF
6. Rx_Sub_AGC ON
7. Rx_Sub_AGC OFF
8. Set RxMain ATT
9. Set RxSub ATT
10. Set Tx Att
11. Xcvb Status
12. showXcvrAttGain
0. Exit
-------------------------------------------------Select Input Number =====>
Step 3
Enter the following:
Select Input Number => 1 // choosing 1 will take you to the below menu.
ALPHA : xcvrChangeCh Num [001 ~ 1500] [1175] [/0:Exit]==>
Step 4
From the above menu, type the new channel desired (CDMA channels from 1 to 1500)
and 0 to exit. Note that for 3 sector base stations Step 3 must be repeated for each
sector (alpha, beta, and gamma).
Note that only standard CDMA channel numbers within the designated band capability of
the radio will be accepted by the base station.
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10 Installation Procedures
This Section gives definitions and instructions for installing the AW-Series IP-RAN and for
connecting it to the wireless carriers infrastructure. It contains detailed definitions needed
for completing site Installation Checklist (Appendix B).
10.1 Installation Verification
Before installing the equipment, it is necessary to verify the following:
10.1.1 Verify Customer Contact & Equipment location
10.1.1.1
Contact Customer1
1) Verify contact name check Site Preparation Planning Checklist Appendix B.
2) Verify contact phone number.
3) Introduce yourself to the Customer contact.
4) Introduce Installation team (if more than one person on team).
5) Verify that all current customer contacts are listed.
a) Verify that contacts can solve problems within a timely manner for:
i) Power Connection(s),
ii) T1 Connection(s),
iii) LAN Connection(s),
iv) If not, have main customer contact provide names and method of
contacting.
6) Determine when contacts are available for help (e.g.; Time of day, day of week.).
7) Obtain any site access or security requirements (e.g.: ID Badges, Card-keys, Keys,
Access codes) required to access installation site.
8) Indicate all changes on checklist.
10.1.1.2
Locate AW-SERIES IP-RAN Equipment.2
1) Determine where AW-SERIES IP-RAN is stored.
2) Check for any visible shipment damage.
NOTE: Make sure all changes are sent to the Installation Coordinator Immediately.
NOTE: If any visible damage contact the Installation Coordinator immediately.
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10.1.1.3
Locate and verify floor space.
1) Determine where the AW-SERIES IP-RAN is to be installed (Refer to site diagram
in Appendix B).
2) Verify that there is enough space to safely install it (Refer to site diagram in
Appendix B).
10.1.2 Uncrate and arrange for packing material disposal
1) Carefully unpack the AW-SERIES IP-RAN and related components from packing
material.
2) Check for any shipment damage.3
3) Be certain that all components match system order.4
4) Make arrangements with customer contact on where, when, and how to dispose of
all AW-SERIES IP-RAN packing material.
10.1.3 Verify location of all Facility distribution points
(main and intermediate)
10.1.3.1
Power Check.
10.1.3.1.1 Power Location
1) Locate the customer provided power connection.
a) There should be a –48VDC connection for DC powered models (if required).
b) There should be a 120 or 240 VAC connection for AC powered models (if
required).
10.1.3.1.2 Verify Connector.
1) An 8 AWG three wire stranded cable to connect to a WECO DC terminal block
connector is required for –48VDC (if required).
2) A 6ft (1.84m) e conductor type SJT cables with standard grounded connector is
required for 110VAC connection (if required).
NOTE: Note any damage on shipping report, and Installation Checklist. Contact
the Installation Coordinator immediately
NOTE: If components do not match the system order, contact the Coordinator
immediately.
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10.1.3.1.3 Voltage
1) Using a power meter check for correct voltage.
a) –48VDC range is 40VDC to 57VDC (if required).
b) 120 VAC range is 90 VAC to 132 VAC (if required).
c) 240 VAC range is 180 VAC to 264 VAC (if required).
10.1.3.1.4 Amps
1) Check cables to determine if they will handle required Amps.
a) –48VDC should be able to support 27.9 Amps.
b) 120 VAC should support 15 Amps, 240 VAC should support 7.5 Amps
10.1.3.1.5 LAN Facilities check.
1) Location – Locate the customer provided LAN connections.
2) Verify IP Address (Site Prep Checklist Appendix B).
3) Verify Connector is an RJ45 (if not contact customer).
4) Connect Laptop and Ping IP Address.
5) Prepare a site IP addressable device diagram showing the IP address for each
device at the base station site. This diagram is essential for any needed
troubleshooting activities.
6) Post the diagram at the site and return a copy to the customer’s maintenance center
and a copy to the AirWalk customer service center:
AirWalk Customer Service Centre
1830 North Greenville Ave.,
Richardson, Texas 75081
10.2 AW-SERIES IP-RAN Install Procedures
10.2.1 Install AW-SERIES IP-RAN Cabinet
Move AW-SERIES IP-RAN to location.
Secure AW-SERIES IP-RAN in designated location
(Bolt down or Secure Wheels if provided).
10.2.2 Verify All Internal System Connections
To verify all internal connections refer to the Section and Figures in the following Table
for proper cable installation.
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Section
Description
6.1
RF Cable - AW-96 to RU
6.3
Ethernet Cable – AW-96 to RU
Reference
Figure 6-1
Use RF cables
supplied with
AW-96.
Figure 6.4
Table 7-1 - Internal System Cable Reference
10.2.3 External System Connections5
To install new internal connections refer to the Section and Figures in the following Table
for proper cable installation.
Section
Description
Reference
6.1
External Diversity Antenna System
Figure 6-2
Figure 6-3
6.2
Electrical Power Cable
Use AC power
cables supplied
with AW-96.
6.3
6.4
External BSC & BTS Ethernet Cable
External GPS Antenna Cable
Figure 6-4
Figure 6-5
Table 7-2 - External System Cable Reference
10.2.4 Connect Power to Cabinet
Connect -48VDC to DC distribution panel (if applicable).
Connect 120VAC or 240VAC to Rack AC distribution panel (if applicable).
10.2.5 Connect Communications Facilities
Connect LAN Facilities to BSC
Connect LAN Facilities to BTS.
WARNING: Make sure all system power supplies are turned off. All
breakers/Fuses are pulled on all main and intermediate panels. Then proceed with
the Installation.
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10.2.6 Power-up procedure67
10.2.6.1
Power-up Main cabinet.
Make sure all appropriate LED’s are illuminated.
10.2.6.2
Complete any Configuration options.
a) Configure the AW-SERIES IP-RAN.
i)
Outgoing and incoming channels.
10.3 System Test
This section contains the system tests that should be completed to determine if AWSERIES IP-RAN is operational.
10.3.1 PC to AW 96 cable
A special cable is required to run the required certification tests.
Connect a PC with the subject cable to run tests
RJ1
Pin Configuration
P1
RJ-45
10
10
BTS
DB9
(Computer)
RJ-45
(BTS)
CONNECTOR DB9
Figure 7-1 - PC to AW 96 Cable Specifiaction
Note: Once all connections are made, make sure to: Reset/install all breakers/fuses for
all main and intermediate breaker/fuse box(s). Then proceed with the Installation.
Make sure all added cabling is tie-wrapped correctly
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Figure 7-2 - PC to AW 96 Cable Connection Diagram
10.3.2 System Certification Tests
Start The AW-SERIES IP-RAN tests.
This sequence of test cases is designed to certify the AW 96 IP-RAN installation.
It is assumed the person running this checklist is familiar with the basics of configuring,
running, stopping, and starting the AW 96 IP-RAN.
10.3.2.1
Test Case #1 - Image/PLD loading
10.3.2.1.1 Test Procedure #1
•
Command:
user: ipbs001
FTP password: ipbs001
•
Command:
Edit:
- P: display
- C: edit
10.3.2.1.2 Expected Result of Case #1
Screen from PC using ftp Server is shown in Figure 7-3.
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Figure 7-3 - Screen from PC Screen from WPM
Figure 7-4 - Screen from PC
10.3.2.2
Test Case #2 – System Check
10.3.2.2.1 Test Procedure #2
•
Command: Version
10.3.2.2.2 Expected Result of Case #2
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Figure 7-5 - Version Command Screen
10.3.2.3
Test Case #3 – Tx check
10.3.2.3.1 Test Procedure #3
•
Command: txReason
•
Expected Result of Case #3
Figure 7-6 - Tx Check Screen
10.3.2.4
Test Case #4 – Output power
10.3.2.4.1 Test Procedure #4 – RF Check
•
Command: showRfGain
10.3.2.4.2 Expected Result of Case #4
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Figure 7-7 - RF Check Screen
10.3.2.5
Test Case #5 – GPS Check
10.3.2.5.1 Test Procedure #5
•
Command: gpsStatus
10.3.2.5.2 Expected Result of Case #5
Figure 10-8 – GPS Status Check Screen
Figure 10-9 - GPS Alarm Check Screen
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10.3.2.6
Test Case #6 – BTS Alarm Check
10.3.2.6.1 Test Procedure #6
•
Command: showAlarm
10.3.2.6.2 Expected Result of Case #6
Figure 10-10 - BTS Alarm Check Screen
10.3.2.7
Test Case #7 – System Reset
10.3.2.7.1 Test Procedure #7
•
Command: btsReset/bscReset/allReset
10.3.2.7.2 Expected Result of Case #7
The system is RESET
10.3.2.8
Test Case #8 – PN Check
10.3.2.8.1 Test Procedure #8
•
Command: RcmCmd 1,1
10.3.2.8.2 Expected Result of Case #8
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Figure 10-11 - PN Check Screen
10.3.2.9
Test Case #9 – System Interface Check
10.3.2.9.1 Test Procedure
•
Command: Ping
Send Ping Command to the Following system IP Addresses
1. WPM (Wireless PBX Manager)
2. PDSN (Packet Data Serving Node)
3. CA (Call Agent)
4. MG (Media Gateway)
5. SG (Signal Gateway)
10.3.2.9.2 Expected Result of Case #X
A successful PING command response from each system.
10.3.3 Operation Tests
These test cases are designed to determine if AW 96 is ready for production testing.
10.3.3.1
Test Case #1 – Voice Calls
10.3.3.1.1 Test Procedure
Test Call From MS #1 to MS #2.
Test Call From MS #1 to Landline Phone #1.
10.3.3.1.2 Excepted Result of Case #1
1. 2nd MS Rings and call is answered
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2. Landline phone Rings and call is answered.
10.3.3.2
Test Case #2 – Data Calls
10.3.3.2.1 Test Procedure
1. A Test Data Call From MS #1 to MS #2.
2. A Test Data Call From MS #2 to MS #1.
10.3.3.2.2 Excepted Result of Case #2
1. A Data Session is established between MS #1 and MS #2.
2. A Data Session is established between MS #2 and MS #1.
10.3.4 Operator Specific Tests
These test cases are covered in a separate test plan document and are agreed to by the
operator and AirWalk Communications, Inc.
10.4 Site Clean up and Customer Signoff
10.4.1 Dispose of all packing material.
Make sure to dispose of all AW-SERIES IP-RAN packing material.
10.4.2 Clean-up site.
Make sure not to leave anything but the installed AW-SERIES IP-RAN. (e.g., excess tiewraps, bolts, etc).
10.4.3 Update Installation Checklist.
Make sure all changes are notes on Installation Checklist.
10.4.4 Customer Signoff.
Get Customer Signature on Certification Document Appendix D.
10.5 Required Tools and Supplies
1) Hand Tools
a) Screwdriver set,
b) Pliers set,
c) Nut Driver set,
d) Cutter set,
e) Punch Down Tool,
f)
Wire-wrap (Optional),
g) RJ-45 Crimper.
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2) Test Equipment.
a) Multi-Meter & Adapter kit,
b) Cable Tester,
c) Protocol Analyzer & Adapter kit,
d) Telephone Test Set (Butt-set),
e) Set of Banjo adapters
f)
Tone Generator & Inductive pick-up.
3) Supplies.
a) RJ-45,
b) Cat 5 Cable,
c) Tie-wraps.
10.6 Troubleshooting Procedures
The AW-SERIES IP-RAN is designed to provide reliability and consistently high
performance in all network environments. The installation procedure for the AW-SERIES
IP-RAN is a straightforward and is discussed in these sections.
Should problems develop during installation, this section is intended to help locate,
identify and correct these types of problems. Please follow the suggestions listed below
prior to contacting AirWalk Communications, Inc. or Carrier contacts. If you are unsure of
the procedures described in this section, contact the Installation coordinator immediately.
10.6.1 Before Calling for Assistance
1) If difficulty is encountered with a specific component of the AW-SERIES IP-RAN,
refer back to the Installation Section for that component.
2) Check the cables and connectors to ensure that they have been properly connected
and the cables/wires have not been crimped or impaired in some way during
installation. (About 90% of component problems can be attributed to wiring and
connector problems).
a) Check Cable,
b) Check connector,
c) Check for solid connection,
d) Check with Carrier contact.
3) Make sure that all power cord is properly attached to each AW-SERIES IP-RAN
component. Be certain that all power cords are plugged into a functioning electrical
outlet. Use the PWR LED’s to verify each unit is receiving power.
a) Check intermediate breakers or fuses.
4) If the problem is isolated to something other than the AW-SERIES IP-RAN contact
the appropriate Carrier contact.
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5) Verify whether or not the problem is corrected. If not, go to Step 6 below. If the
problem is corrected, continue with installation.
6) If the problem continues after completing Step 4 above, contact the AirWalk
Communications, Inc. Installation Project manager, to determine the next course of
action.
10.6.2 When Calling for Assistance
Please be prepared to provide the following information.
1) A complete description of the problem, including the following points:
a) The nature and duration of the problem;
b) Situations when the problem occurs;
c) The components involved in the problem;
d) Any particular application that, when used, appears to create the problem;
2) A record of changes that have been made to the AW-SERIES IP-RAN configuration
prior to the occurrence of the problem.
3) Any changes to system should all be noted.
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11 Appendix A - Acronyms
Acronym
2G
3G
AC
Access
Channel
ACH
AD
AFEU
AGC
ANT
AWGN
Base Station
(BS)
BCCM
BHCA
BLK
BS
BSAP
BSC
BSMAP
BTS
CA
CAI
CC
CCM
CDMA
CEC
CED
CLAP
CPIB
CPU
CR
CREF
CSM5000
DA
DC
DCCH
DCLI
DRS
DT
Description
Second Generation in CDMA wireless network
Third Generation in CDMA wireless network
Alternating Current
A Reverse CDMA Channel used by mobile stations for communicating to the
base station. The Access Channel is used for short signaling message
exchanges, such as call originations, responses to pages and registrations. The
Access Channel is a slotted random access channel.
Access Channel
Analog to Digital
Antenna Front End Unit
Automatic Gain Control
Antenna
Additive White Gaussian Noise
A fixed station used for communicating with mobile stations. Depending upon
the context, the term base station may refer to a cell, a sector within a cell, an
MSC, or other part of the wireless system.
BTS Call Control Module
Busy Hour Call Attempts
Blank
Base Station
Base Station Application Part
Base Station Controller
Base Station Management Application Part
Base station Transceiver Subsystem
Call Agent
Common Air Interface
Connection Confirm
Channel Control Module in BTS
Code Division Multiple Access
Channel Elements Control Block
Channel Elements Diagnostic Block
Composite Link Analysis Platform
BTS Channel and Call Processing Interface Board
Central Processing Unit
Connection Request
Connection Refused
Cell Site Modulator 5000 (CDMA ASIC chip released by Qualcomm for
cdma2000)
Digital to Analog
Direct Current
Dedicated Control Channel
Data Link Connection Identifier
Data Ready to Send
Data Form
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Acronym
DTAP
EMI
ESN
EVDO
EVDV
EVRC
FA
FCC
F-CCH
FCH
F-DCCH
FDCH
FER
FM
FO
Forward
Traffic
Channel
FSCH
GND
GPS
GRE
HLR
HO
HPAU
IF
IMSI
ING
IOS
IP
IPC
LAC
LPA
LTU
MAC
MAHHO
MCC
MG
MIMO
MIN
MMC
MMS
MN
Description
Direct Transfer Application Part
Electro-Magnetic Interference
Electronic Serial Number
Evolution Data Only
Evolution Data and Voice
Enhanced Variable Rate CODEC
Frequency Assignment
Federal Communications Commission
Forward Common Control Channel
Fundamental Channel
Forward Dedicated Control Channel
Forward Dedicated Signaling Logical Channel
Frame Error Rate
Fault Management
Frame Offset
One or more code channels used to transport user and signaling traffic from the
base station to the mobile station.
Forward Common Signaling Logical Channel
Ground
Global Positioning System
Generic Routing Encapsulation
Home Location Register
Handoff
High Power Amplifier Unit
Intermediate Frequency
International Mobile Subscriber Identity
Inter Network Gateway
Interoperability System
Internet Protocol
Inter Processor Communication
Link Access Control.
Entity that provides assured mode or unassured mode delivery of information
across the air interface between the mobile station and the base station.
Linear Power Amplifier
Logical Transmission Unit
One or more Type 3 or Type 5 MuxPDUs with a 16bit CRC.
Medium Access Control
Entity that controls the access to and from Upper Layer Signaling, Data Services
and Voice Services to Physical Layer resources.
Mobile Assisted Hard Hand Off
Main Call Control module in IP-BSC
Media Gateway
Multi Input Multi Output
Mobile Identification Number
Man-Machine Command
Multimedia Messaging Service
Mobile Node
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Acronym
MS
MSC
MTBF
MTTR
NDSS
NGN
NMS
OAM
OCNS
OS
OTD
OUNS
PACA
Paging
Channel
PBA
PBX
PCB
PCF
PCH
PCM
PCPM
PDSN
PDU
PER
Physical
Channel
Pilot
Channel
PLD
PN
PSA
PSTN
QCELP
QOF
QOF
QoS
RAN
RC
RCC
RDCH
Reverse
Traffic
Channel
Description
Mobile Station
Mobile Switching Center
Mean Time between Failure
Mean Time to Repair
Network Directed System Selection
Next Generation Networks
Network Management System
Operation, Administration, and Maintenance
Orthogonal channel Noise Simulator
Operating System
Orthogonal Transmit Diversity
Other User Noise Source
Priority Access Channel Assignment
A code channel in a Forward CDMA Channel used for transmission of control
information and pages from a base station to a mobile station
Printed Board Assembly
Private Branch Exchange
Printed Circuit Board
Packet Control Function in IP-BSC
Paging Channel
Pulse Code Modulation
Primary BSC Call Processing Board
Packet Data Serving Node
Protocol Data Unit. An atomic set of data, header information, and control
information that are provided by a service user to a service provider.
Packet Error Rate
Radio transmission link
An un-modulated, direct-sequence spread spectrum signal transmitted by a
CDMA base station or mobile station. A pilot channel provides a phase
reference for coherent demodulation and may provide a means for signal
strength comparisons between base stations for determining when to handoff.
Program Loaded Data
Pseudo Noise
Power Supply Assembly
Public Switched Telephone Network
Qualcomm Code Excited Linear Prediction
Quasi-Orthogonal Function
Quasi Orthogonal Function
Quality of Service
Radio Access network
Radio Configuration
Radio interface Call Control
Reverse Dedicated Signaling Logical Channel
A traffic channel on which data and signaling are transmitted from a mobile
station to a base station. The Reverse Traffic Channel is composed of up to one
Reverse Dedicated Control Channel, up to one Reverse Fundamental Channel,
zero to two Reverse Supplemental Channels, and zero to seven Reverse
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Acronym
RF
RLC
RLP
RLSD
RP
RPSU
RRCU
RRM
RRP
RRQ
RSCH
RSSI
RTP
RU
RUpd
SAP
SAR
SCCH
SCCP
SCH
SDU
SEU
SIGTRAN
Slotted Mode
SMS
SMV
SRBP
SRU
SS
STS
Sync
Channel
TCC
TCE
TCM
TCP
TOD
TP
TPTL
UART
UDP
Description
Supplemental Code Channels.
Radio Frequency
Release Complete
Radio Link Protocol. Connection-oriented, negative-acknowledgement-based
data delivery protocol.
Released
Radio Network – PDSN
Remote RF Power Supply Unit
Remote RF Control Unit
Radio Resource Management Block
Registration Reply Message
Registration Request Message
Reverse Common Signaling Logical Channel
Received Signal Strength Indication
Real-Time Transport Protocol
Remote RF Unit
Registration Update Message
Service Access Point
Conceptual point at the interface between two adjacent layers where services
are provided to the upper layer and data and protocol information is exchanged
between layers.
Segmentation and Reassembly
Supplemental Code Channel
Signaling Connection Control Protocol
Supplemental Channel
Selection and Distribution Unit
Sector Expansion Unit
Signaling Transport processing module in IP-BSC
An operation mode of the mobile station in which the mobile station monitors
only selected slots on the Paging Channel
Short Message Service
Selectable Mode VOCODER
Signaling Radio Burst Protocol. An entity that provides connectionless protocol
for Signaling messages.
Sector Reduction Unit
Soft Switch
Space Time Spreading
A code channel in the Forward CDMA Channel which transports the
synchronization message to the mobile station
Traffic Channel Control Block
Traffic Channel Element
Traffic Control Module in BTS
Transmission Control Protocol
Time of Day
Traffic processing and Path Control module in IP-BSC
Transmit Power Tracking Loop
Universal Asynchronous Receiver/Transmitter
User Datagram Protocol
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Acronym
VSWR
XCV
XCVR
Description
Voltage Standing Wave Ratio
Base Station Transceiver Control Block
Transceiver Board
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AW2100U System Installation Manual
12 Appendix B - Site preparation checklist
AW-Series IP-RAN Site Preparation Check List for:
Site
Prep
Date
Com
Guide
Complete plete
Section
ITEM # Description
Customer Contact & Equipment location
a. Main Contact Customer
1.1.1
b. Other Customer Contacts
1.1.2
1. Power contact
1.1.2
2. Communications Facilities Contact
1.1.2
3. LAN Facilities Contact
1.1.2
4. MSC Security Contact
1.1.2
App. C
AirWalk Series IP-RAN Site Requirements
2.1
a. Space requirements
2.1.1
b. AirWalk Series IP-RAN placement Diagram
2.1.2
c. Installation Location for AirWalk Series IP-RAN Equipment
Complete Site Drawings Appendix B
Information
c. Complete Customer Questions Appendix C
{Customer Name}
2.1.2.1
App. B
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ITEM # Description
Power requirements
Site
Prep
Date
Com
Guide
Complete plete
Section
Information
2.1.3
a. Location
b. Voltage
c. Amps
d. Connector
Security
2.1.3
a. MSC Equipment Room security
b. MSC Equipment room access
Communications Facilities
2.1.3
a. Number of T1 circuits
Connector
Location
LAN Facilities
2.1.3
a. Location
b. Connector
c. Carrier Network IP Address
d. AirWalk Series IP-RAN Component IP Addresses
Other Information
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ITEM # Description
Site
Prep
Date
Com
Guide
Complete plete
Section
Information
a. Heat dissipation
b. Environmental specifications
2.1.4
c. Ambient temperature and humidity
2.1.4.2
d. Dust density
2.1.4.4
e. Altitude
2.1.4.5
f. Air conditioning
2.1.4.6
g. Fire protection
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13
Appendix C - Installation Checklist
AW-Series IP-RAN Site Installation Check List for:
Address
{Customer Name}
Installer Name (s)
Customer Contact (s)
{AW-SERIES IP-RAN Installation Address}
ITEM
10
11
12
13
14
15
16
Install
Date
Manual
Complete
Section
Description
Verify Customer Contact & Equipment location
Contact Customer
Locate AW-SERIES IP-RAN Equipment
Locate and verify Floor Space
Uncrate and arrange for packing material disposal
Verify location of all distribution points (main and intermediate)
Power Check
Power Location
Verify Connector
Voltage
Amps
LAN Facilities check
Location
Verify IP Address
Verify Connector
Ping IP Address
Time
Customer
Installer
Contact
Initials
Initials
9.1.1
9.1.1.1
9.1.1.2
9.1.1.3
9.1.2
9.1.3
9.1.3.1
9.1.3.1.1
9.1.3.1.2
9.1.3.1.3
9.1.3.1.4
9.1.3.1.5
9.1.5.1.5
9.1.3.1.5
9.1.3.1.5
9.1.3.1.5
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ITEM
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
Install
Date
Manual
Complete
Section
Description
Time
Customer
Installer
Contact
Initials
Initials
Prepare IP addressable device diagram
9.1.3.1.5
Post IP diagram at: i) site; ii) customer; iii) Airwalk Customer Service
9.1.3.1.5
Install AW-SERIES IP-RAN Cabinet
9.2.1
Move AW-SERIES IP-RAN to location
9.2.1
Secure AW-SERIES IP-RAN in designated location
9.2.1
Verify all internal System connections
9.2.2
External System Connections
9.2.3
MAKE SURE ALL SYSTEM POWER SUPPLIES ARE TURNED OFF BEFORE PROCEEDING! ! !
Connect Power to Cabinet
9.2.4
Connect -48VDC to DC distribution panel (If applicable)
9.2.4
Connect 120-240 VAC to AC distribution panel (If applicable)
9.2.4
Connect Communications Facilities
9.2.5
Connect LAN Facilities to BSC
9.2.5
Connect LAN Facilities to BTS
9.2.5
Power-up procedure
9.2.6
Power-up Main cabinet/rack power, check LEDs
9.2.6.1
Complete any configuration options
9.2.6.2
System Certification Tests
9.3.2
Test Case #1 - Image/PLD loading
9.3.2.1
Test Case #2 – System Check
9.3.2.2
Test Case #3 – Tx check
9.3.2.3
Test Case #4 – Output power
9.3.2.4
Test Case #5 – GPS Check
9.3.2.5
Test Case #6 – BTS Alarm Check
9.3.2.6
Test Case #7 – System Reset
9.3.2.7
Test Case #8 – PN Check
9.3.2.8
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ITEM
41
42
43
44
45
46
47
48
Install
Date
Manual
Complete
Section
Description
Test Case #9 – System Interface Check
Operation Tests
Test Case #1 – Voice Calls
Test Case #2 – Data Calls
Operator Specific Tests (If Required)
Site Clean Up & Documentation
Dispose of all packing material
Clean-up site
Update Installation Checklist
Get Customer Signature on Certification Document
Time
Customer
Installer
Contact
Initials
Initials
9.3.2.9
9.3.3
9.3.3.1
9.3.3.2
10.3.4
10.4.1
10.4.2
10.4.3
10.4.4
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14 Appendix D - Customer Certification Document
Date
Subject:
The subject AW-SERIES IP-RAN has been certified to be up and running today.
_______________________________________
AirWalk Communications, Inc. (Installation Team)
_______________________________________
Authorized Carrier Representative
__________________
Date
__________________
Date
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This Page Marks End Of Document
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