Avaya Canada UMTS1900MONO UMTS 1900 Mono iBTS User Manual essai03

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Exhibit 8 User Manual

UMT/DCL/DD/0002

411–8111–905

Wireless Service Provider Solutions

UMTS

Product Fundamentals

About the Univity iBTS

UMT/DCL/DD/0002 03.08/EN Draft September 2003

411–8111–905

Wireless Service Provider Solutions

UMTS

Product Fundamentals

About the Univity iBTS

Document number: UMT/DCL/DD/0002

411–8111–905

Document issue: 03.08/EN

Document status: Draft

Product release: UMTS03

Date: September 2003

Printed in France

NORTEL NETWORKS CONFIDENTIAL

The information contained herein is the property of Nortel Networks and is strictly confidential. Except as

expressly authorized in writing by Nortel Networks, the holder shall keep all information contained herein

confidential, shall disclose the information only to its employees with a need to know, and shall protect the

information, in whole or in part, from disclosure and dissemination to third parties with the same degree of

care it uses to protect its own confidential information, but with no less than reasonable care. Except as

expressly authorized in writing by Nortel Networks, the holder is granted no rights to use the information

contained herein.

Information is subject to change without notice. Nortel Networks reserves the right to make changes in design or components as

progress in engineering and manufacturing may warrant.

Nortel Networks, the Nortel Networks logo, the Globemark, Univity iBTS, Univity RNC, Passport, and Unified Networks are

trademarks of Nortel Networks. Bussmann is a trademark of Bussmann. All other brand and product names are trademarks or

registered trademarks of their respective holders.

PUBLICATION HISTORY

SYSTEM RELEASE UMTS03

September 2003

Issue 03.08/EN Draft

Update for OAM V3.1/RAN V3.1 Customer Readiness

Introduction of UMTS 1900 Univity iBTSs Mono and Indoor Compact

August 2003

Issue 03.07/EN Preliminary

Update after internal review

July 2003

Issue 03.06/EN Draft

Update for OAM V3.1/RAN V3.1 Customer Readiness

Introduction of UMTS 1900 iBTSs Indoor 2 and Outdoor

July 2003

Issue 03.05/EN Preliminary

Update after FCC Regulatory information validation

June 2003

Issue 03.04/EN Draft

FCC Regulatory Information enhancement: addition of North-American rules

May 2003

Issue 03.03/EN Preliminary

Update after Internal Review

April 2003

Issue 03.02/EN Draft

Update for OAM V3.1/RAN V3.1

April 2003

Issue 03.01/EN Standard

Minor update

Document version change (UTRAN V2.1 belong to UMTS V3.0b system release)

SYSTEM RELEASE UMTS02

January 2003

Nortel Networks Confidential Publication history i

Issue 02.08/EN Standard

Editorial Update to introduce the iBTS Indoor 2

November 2002

Issue 02.07/EN Standard

Update for UMTS V2.1 UTRAN

September 2002

Issue 02.06/EN Preliminary

Update for UMTS V2.0d UTRAN

July 2002

Issue 02.05/EN Preliminary

Minor update

July 2002

Issue 02.04/EN Preliminary

Update after internal review

June 2002

Issue 02.03/EN Draft

Update for UMTS V2.0c UTRAN

May 2002

Issue 02.02/EN Preliminary

Update after internal review

March 2002

Issue 02.01/EN Draft

• introduction of the STSR2 configuration

• introduction of the new iBTS Street

• drop and insert feature description

SYSTEM RELEASE UMTS01

February 2002

Issue 01.08/EN Preliminary

Update after review

January 2002

Issue 01.07/EN Draft

Update according the product release change.

Nortel Networks Confidential Publication history ii

411–8111–905

October 2001

Issue 01.06/EN Preliminary

Update after review

September 2001

Issue 01.05/EN Draft

The following changes were made throughout the document:

• modify modules organization throughout the document

• update the iBTS features according to the system release change

• update the configuration rules

• add the TMA description

• update the PFM description

• update the ac plinth description

• update the batteries description

• modify software section

July 2001

Issue 01.04/EN Preliminary

Update after review

June 2001

Issue 01.03/EN Draft

The following changes were made throughout the document:

• update the iBTS description and configuration according to the system release

• update the hardware description

• add information about physical interfaces, cabling, functional architecture, and

software

• add and update the ancillary modules

• add the configuration description

• delete the dimensioning section

January 2001

Issue 01.02/EN Preliminary

Update after review

December 2000

Issue 01.01/EN Draft

Creation

Nortel Networks Confidential Publication history iii

About this publication 1

What is in new about the Univity iBTS 3

Univity iBTS regulatory information 4

UTRAN introduction of the UMTS03 solution 9

Univity iBTS basic characteristics 13

Univity iBTS introduction 14

Univity iBTS key features 23

Univity iBTS mechanical characteristics 24

Univity iBTS architecture and configuration 30

Univity iBTS architecture 31

Univity iBTS RF configuration 35

Univity iBTS interfaces 48

Uu interface physical description 49

Iub interface physical description 50

Univity iBTS hardware 51

Univity iBTS hardware presentation 52

Univity iBTS digital shelf 74

Univity iBTS digital shelf description 75

CEM (Channel Element Module) 82

iCEM (internet Channel Element Module) 89

CCM (Core Control Module) 94

iCCM (internet Core Control Module) 98

TRM (Transceiver Receiver Module) 103

iTRM (internet Transceiver Receiver Module) 112

GPSAM/cGPSAM (GPS and Alarm Module) 116

Univity iBTS RF block 120

Nortel Networks Confidential Table of contents iv

411–8111–905

Univity iBTS Radio Frequency (RF) Description 121

MCPA (Multi Carrier Power Amplifier) 125

Tx Splitter 130

DDM (Dual Duplexer Module) 133

Univity iBTS cabinet other modules 139

MCA (Manufacturing, Commissioning, and Alarm) module 140

Mono Control Board 145

Single Power Control Module (SPCM) 147

TMA (Tower Masterhead Amplifier) 149

Interconnection module of the Univity iBTS 156

Alarm protection module 161

PCM protection module (iBTS Outdoor) 165

PCM protection module (iBTS Indoor 2) 167

PFM (Power Filter Module) (Univity iBTS Indoor 2100) 170

User ICO of the iBTS Outdoor 171

User ICO of the Univity iBTS Street 2100 172

Univity iBTS cooling system 173

Cooling system of the Univity iBTS Outdoor 174

Fan tray of the Univity iBTS Indoor 2100 177

Cooling system of the Univity iBTS Street 2100 179

Cooling system of the Univity iBTS Indoor 2 182

Cooling system of the Univity iBTS Indoor 1900 Compact 185

Univity iBTS power system 189

Power supply of the Univity iBTS Outdoor 190

Power supply of the Univity iBTS Indoor 2100 192

ac plinth (Univity iBTS Indoor 700 2100) 195

Nortel Networks Confidential Table of contents v

Power supply of the Univity iBTS Street 2100 199

dc power system shelf of the Univity iBTS 201

dc distribution module of the Univity iBTS Outdoor 204

dc distribution module of the Univity iBTS Street 2100 206

dc distribution system of the Univity iBTS Indoor 2 208

dc distribution system of the Univity iBTS Mono 211

dc distribution system of the Univity iBTS Indoor 1900 Compact 214

Rectifier of the Univity iBTS 217

Single Power Control Module (SPCM) 219

Batteries of the Univity iBTS Outdoor 221

Batteries of the Univity iBTS Indoor 700 222

External battery cabinet 223

Univity iBTS software 226

Univity iBTS software overview 227

CEM software 231

TRM software 233

CCM software 235

Univity iBTS services and features 238

Introduction of the Univity iBTS services and features 239

Multi CEM management 242

Resource allocation management 243

Pool management 246

Multi PCM management 247

Multi PCM features 248

Multi PCM feature interactions 251

Impact of the multi PCM feature on the network 252

Nortel Networks Confidential Table of contents vi

411–8111–905

Figure 1 - UTRAN architecture example of the UMTS03 solution (1900 MHz SONET) 10

Figure 2 - UTRAN architecture example of the UMTS03 solution (2100 MHz SDH) 11

Figure 3 - UTRAN architecture example of the UMTS03 solution (2100 MHz PCM) 12

Figure 4 - Univity iBTS Outdoor outside view 17

Figure 5 - Univity iBTS Indoor 2100 outside view 18

Figure 6 - Univity iBTS Street 2100 outside view 19

Figure 7 - Univity iBTS Indoor 2 outside view 20

Figure 8 - Univity iBTS Mono outside view 21

Figure 9 - Univity iBTS Indoor 1900 Compact outside view 22

Figure 10 - Univity iBTS functional architecture 32

Figure 11 - Univity iBTS hardware architecture 33

Figure 12 - Univity iBTS Mono configuration 37

Figure 13 - Univity iBTS Indoor 1900 Compact with O1 configuration (functional diagram) 40

Figure 14 - Univity iBTS Outdoor 2100, Univity iBTS Indoor 600, Univity iBTS Indoor 700,

or Univity iBTS Indoor 2 2100 with OTSR1 configuration (functional diagram) 41

Figure 15 - Univity iBTS Street 2100 with OTSR1 configuration (functional diagram) 42

Figure 16 - iBTS Outdoor, iBTS Indoor 600, iBTS Indoor 700, or iBTS Indoor 2 with

STSR1 configuration without TRM/iTRM redundancy (functional diagram) 43

Figure 17 - Univity iBTS Street 2100 with STSR1 configuration (functional diagram) 44

Figure 18 - Univity iBTS Indoor 1900 Compact with STSR1 configuration (functional

diagram) 45

Figure 19 - Univity iBTS Outdoor, Univity iBTS Indoor 600, Univity iBTS Indoor 700,

Univity iBTS Indoor 2, or Univity iBTS Indoor 1900 compact with STSR2 (functional

diagram)

Figure 20 - Inside view (Univity iBTS Outdoor 2100) 53

Figure 21 - Inside view (Univity iBTS Indoor 600) 55

Figure 22 - Inside view (Univity iBTS Indoor 700) 56

Figure 23 - Bulkhead top view (Univity iBTS Indoor 600) 57

Figure 24 - Bulkhead top view (Univity iBTS Indoor 700) 58

Figure 25 - Inside view (Univity iBTS Street 2100) 60

Figure 26 - Cabinet layout (Univity iBTS Street 2100) 61

Figure 27 - Internal cabling top view (Univity iBTS Street 2100) 62

Figure 28 - Inside view (Univity iBTS Indoor 2) 63

Figure 29 - Cabinet Layout (Univity iBTS Indoor 2) 64

Figure 30 - Bulkhead top view (Univity iBTS Indoor 2) 65

Figure 31 - Inside view (Univity iBTS Mono 2100) 67

Figure 32 - Cabinet layout (Univity iBTS Mono 2100) 68

Figure 33 - Bulkhead below view (Univity iBTS Mono 2100) 69

Figure 34 - Inside view (Univity iBTS Indoor 1900 Compact 71

Figure 35 - Cabinet layout (Univity iBTS Indoor 1900 Compact) 72

Figure 36 - Bulkhead top view (Univity iBTS Indoor 1900 Compact) 73

Figure 37 - Digital shelf description 76

Figure 38 - Front view of the digital shelf (Univity iBTS Outdoor and Univity iBTS Indoor 77

Nortel Networks Confidential List of figures vii

700)

Figure 39 - Front view of the digital shelf (Univity iBTS Indoor 600) 78

Figure 40 - Front view of digital shelf (Univity iBTS Street 2100) 78

Figure 41 - Front view of digital shelf (Univity iBTS Indoor 2) 79

Figure 42 - Front view of digital shelf (Univity iBTS Mono) 80

Figure 43 - Front view of digital shelf (Univity iBTS Indoor 1900 Compact) 80

Figure 44 - Overview of the CEM physical architecture 83

Figure 45 - Detailed view of the CEM hardware 85

Figure 46 - Interconnection of the mini backplane 86

Figure 47 - Front view of the CEM 87

Figure 48 - iCEM 64 functional architecture 89

Figure 49 - Front view of the iCEM 64 91

Figure 50 - Front view of the iCEM 128 92

Figure 51 - Front view of the CCM 95

Figure 52 - Interfaces of the CCM 97

Figure 53 - iCCM functional architecture 99

Figure 54 - Front view of the iCCM 101

Figure 55 - Functional block diagram of the TRM 104

Figure 56 - Block diagram of the dTRM 105

Figure 57 - Block diagram of the rTRM transmitted part 106

Figure 58 - Block diagram of the rTRM received part 107

Figure 59 - Front view of the TRM 108

Figure 60 - iTRM radio architecture (Direct Modulation) 112

Figure 61 - iTRM radio architecture (Direct Demodulation) 113

Figure 62 - Front view of the iTRM 114

Figure 63 - GPSAM alarm and inventory diagram 117

Figure 64 - Front view of the GPSAM 118

Figure 65 - RF block general description 122

Figure 66 - Front view of the MCPA (Univity iBTS Outdoor, Univity iBTS Indoor 2100, and

Univity iBTS Indoor 2) 123

Figure 67 - Front view of the MCPA (Univity iBTS Street 2100) 123

Figure 68 - Functional description of an MCPA 126

Figure 69 - MCPA functional block diagram 127

Figure 70 - Front view of the MCPA module 128

Figure 71 - Tx Splitter functional block 131

Figure 72 - Tx Splitter hardware description 132

Figure 73 - DDM block diagram 134

Figure 74 - Front view of DDM (iBTS Outdoor, iBTS Indoor, and iBTS Indoor 2) 135

Figure 75 - Front view of DDM (iBTS Street and iBTS Mono) 136

Figure 76 - Front view of DDM-2 (iBTS Outdoor, iBTS Indoor, and iBTS Indoor 2) 137

Figure 77 - Front view of the MCA module (Univity iBTS Outdoor) 140

Figure 78 - Front view of the MCA module (Univity iBTS Indoor 2100) 141

Nortel Networks Confidential List of figures viii

411–8111–905

Figure 79 - Front view of the MCA module (Univity iBTS Street 2100) 142

Figure 80 - Front view of the MCA module (Univity iBTS Mono) 143

Figure 81 - Front view of MCA module 144

Figure 82 - Front view of the MCA module (Univity iBTS Indoor 2) 144

Figure 83 - Front view of Control board (iBTS Mono) 146

Figure 84 - Front view of the SPCM 147

Figure 85 - Double TMA 2100 insertion in the system 150

Figure 86 - single TMA 1900 insertion in the system 151

Figure 87 - TMA 2100 block diagram 152

Figure 88 - TMA 1900 block diagram 153

Figure 89 - Front view of single TMA 1900 module 154

Figure 90 - Front view of double TMA 2100 module 154

Figure 91 - Front view of ICO module (iBTS Outdoor) 158

Figure 92 - Front view of ICO module (Univity iBTS Indoor) 158

Figure 93 - Front view of CICO module (Univity iBTS Street 2100/Univity iBTS Indoor

1900 Compact) 159

Figure 94 - Front view of ICO module (Univity iBTS Indoor 2) 160

Figure 95 - Front view of ICO module (Univity iBTS Mono) 160

Figure 96 - Front view of the alarm protection module (iBTS Outdoor) 161

Figure 97 - Front view of the alarm protection module (iBTS Indoor) 162

Figure 98 - Alarm protection cabling (iBTS Outdoor) 163

Figure 99 - Alarm protection cabling (iBTS Indoor 600) 164

Figure 100 - Front view of the PCM protection module (iBTS Outdoor) 165

Figure 101 - PCM lightning protection cabling (iBTS Outdoor) 166

Figure 102 - Front view of the LPPCM (iBTS Indoor 2) 168

Figure 103 - LPPCM cabling (iBTS Indoor 2) 169

Figure 104 - Front view of the PFM 170

Figure 105 - Front view of User ICO module (iBTS Outdoor) 171

Figure 106 - Front view of User ICO module (iBTS Street) 172

Figure 107 - iDACS operation principle 175

Figure 108 - iBTS Indoor cooling unit 177

Figure 109 - iBTS Street air paths 180

Figure 110 - ICU front view 184

Figure 111 - Univity iBTS Indoor 1900 Compact airflow 186

Figure 112 - CICU detailed front view 188

Figure 113 - Distribution of the ac voltage within the Univity iBTS Outdoor 190

Figure 114 - Front view of the ac filtering box (Univity iBTS Outdoor) 191

Figure 115 - BIP functional diagram 193

Figure 116 - Front view of the BIP (Univity iBTS Indoor 2100) 194

Figure 117 - Outside view of the ac plinth 195

Figure 118 - Inside view of the ac plinth 196

Figure 119 - ac plinth cabling (Univity iBTS Indoor 700 2100) 198

Nortel Networks Confidential List of figures ix

Figure 120 - ac voltage distribution within the Univity iBTS Street 2100 199

Figure 121 - Front view of the dc power system shelf (Univity iBTS Outdoor) 202

Figure 122 - Front view of the dc power system shelf in the ac plinth (Univity iBTS Indoor

2100) 202

Figure 123 - Front view of the dc power system shelf (Univity iBTS Street 2100) 203

Figure 124 - dc distribution rack of the Univity iBTS Outdoor 204

Figure 125 - Front view of the dc distribution (Univity iBTS Outdoor) 205

Figure 126 - Distribution scheme of the dc current within the Univity iBTS Street 2100 207

Figure 127 - Univity iBTS Indoor 2 dc electrical distribution system 209

Figure 128 - Univity iBTS Indoor 2 dc distribution scheme 210

Figure 129 - electrical distribution scheme of Univity iBTS Mono (mode 1) 212

Figure 130 - electrical distribution scheme of Univity iBTS Mono (mode 2) 213

Figure 131 - Univity iBTS Indoor 1900 Compact distribution system 215

Figure 132 - Univity iBTS Indoor 1900 dc distribution scheme 216

Figure 133 - Front view of the rectifier module 218

Figure 134 - Front view of the SPCM 219

Figure 135 - Inside view of the external battery cabinet 224

Figure 136 - iBTS protocol stacks 229

Figure 137 - iBTS function mapping 230

Figure 138 - Call processing on the CEM 232

Figure 139 - TRM software architecture 233

Figure 140 - Call processing on the TRM 234

Figure 141 - OAM software architecture on the CCM 236

Figure 142 - Call processing on the CCM 237

Figure 143 - Data flow of the uplink path 240

Figure 144 - Data flow of the downlink path 241

Figure 145 - CEM physical model 243

Figure 146 - iBTS external connection 248

Figure 147 - Transmission between iBTS and Univity RNC by using the IMA over PCM 250

Nortel Networks Confidential List of figures x

411–8111–905

Table 1 - Univity iBTS cabinets 16

Table 2 - The digital shelf modules supported by the iBTS cabinets 76

Table 3 - DDM LEDs status 137

Table 4 - TMA LED Status 137

Table 5 - VSWR LEDs Status (Main/Diversity) 138

Nortel Networks Confidential List of tables xi

About this publication

This publication deals with the Nortel Network Univity Internet Base Transceiver Station (iBTS) which

is part of the UMTS network.

Applicability

This publication is applicable to the UMTS03 system release.

Audience

This publication is for operations and maintenance personnel, and other users who want more

knowledge of the iBTS.

Prerequisites

It is recommended that readers also become familiar with the following documents:

•About the UMTS Network (UMT/DCL/DD/0001 or 411-8111-101)

•Univity iBTS Fault Analysis (UMT/DCL/DD/0006 or 411-8111-506)

•Univity iBTS Hardware Maintenance Guide (UMT/DCL/DD/0005 or 411-8111-505)

•About the Univity RNC (UMT/DCL/DD/0003 or 411-8111-906)

How this document is organized

In a continuous effort to improve our documentation, we are preparing its delivery through the web.

This leads to a new global organization of the Nortel Networks technical publications.

The information will be broken down into modules, with each module containing elementary

information such as the procedure to replace a particular equipment, or the description of a particular

component.

The modules are designed in order to deliver just enough information to provide the user with the

solution required to perform his current task.

These modules will usually be delivered on CD-ROMs or through the web. The user will access this

information by browsing, navigating from one module to another, or by using a search engine.

In its current version, this NTP has been written as a series of modules. The modules are arranged

one after the other in logical order. The table of contents helps you to access the right module. Be

careful, while screening the table of contents, since all the modules will be displayed with the same

level of importance.

This publication consists of the following sets of modules:

• The first part describes what is new in the About the Univity iBTS publication.

• The second part provides the Univity iBTS regulatory information.

• The third part gives the UTRAN overview of the UMTS03 solution.

• The fourth part describes the Univity iBTS configuration and architecture.

• The fifth part describes the Univity iBTS interfaces

• The sixth part describes the Univity iBTS hardware

• the seventh part describes the Univity iBTS software

Nortel Networks Confidential 1

411–8111–905

• the last part describes the Univity iBTS services and features

Vocabulary conventions

Lists of terms used in the publication are in: Terminology (UMT/DCL/DD/0004 or 411-8111-804)

Safety regulation

In order to guarantee the safety of personnel and equipment it must be taken into account of the

following aspects general personnel safety instructions and equipment safety instructions.

Caution message indicate the risk of impact on equipment.

CAUTION

Impact on equipment

Nortel Networks Confidential 2

411–8111–905

What is in new about the Univity iBTS

This following list details the main changes in this publication between system release UMTS03 and

UMTS02 releases:

• new structure of information

• update for UTRAN overview of the UMTS03 solution

• update of RF block information

• Introduction of Univity iBTS Mono 1900

• Introduction of Univity iBTS Indoor 1900 Compact

Nortel Networks Confidential 3

Univity iBTS regulatory information

This part which provides the regulatory information concerning the Univity iBTS is split into the

following items:

• European regulatory requirement compliance

• North American regulatory requirement compliance

• Compliances for other regions/countries

• Operation conditions

• Cable specifications

• Product labelling

European regulatory requirement compliance

As a radio product, the Nortel Networks UMTS iBTS falls under the requirement of the RTTE (Radio

and Telecom Terminal Equipment) European directive 1999/5/EEC. The RTTE directive covers

essential requirements in the field of:

• protection of the Health and Safety of the user and any other person, including the objectives with

respect to safety requirements contained in the Low Voltage directive (73/23/EEC)

• the protection requirements with respect to EMC contained in Directive 89/336/EEC.

The equipment generates, uses, and can radiate radio frequency energy. If not installed and

used in accordance with the instruction manual, the equipment may cause harmful interference to

radio communications. However, there is no guarantee that interference will not occur in a

particular installation. If this equipment does cause harmful interference to radio or television

reception, which can be determined by turning the equipment off and on, the user is encouraged

to try to correct the interference.

The EMC requirements have been selected to ensure an adequate level of compatibility for

apparatus at residential, commercial, and light industrial environments. The levels however, do

not cover extreme cases which may occur in any location but with a low probability of occurrence.

In particular, it may not cover those cases where a potential source of interference which is

producing individually repeated transient phenomena, or continuous phenomena, is permanently

present, for example a radar or broadcast site in the near vicinity. In such a case it may be

necessary to either limit the source of interference, or use special protection applied, to the

interfered part, or both.

Note: For operation or maintenance inside Nortel Networks systems, the antistatic wrist shall

always be used to maintain the integrity of the product.

• effective use of the Radio spectrum allocated to terrestrial/space radio communication and orbital

resources so as to avoid harmful interference. The routes and standards used to demonstrate

compliance with there essential requirements are outlined in the following paragraphs.

—iBTS EMC

Compliance with the essential requirements of EMC has been demonstrated using

EN301489-1 & -23 standard

—iBTS radio compliance

Compliance with the essential requirements of effective use of the radio spectrum has been

demonstrated using EN301908-1 & -3 standard.

Nortel Networks Confidential 4

411–8111–905

—iBTS safety

Compliance with the essential requirements of Safety has been demonstrated using EN

60950 Standard.

—iBTS health protection

Compliance with the essential requirement of health requirement has been demonstrated

using EN50385.

North American regulatory requirements compliance

The Nortel Networks UMTS iBTS has been qualified according to North American market

requirements for the Outdoor, Indoor 2 and Mono versions.

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. However, there is no guarantee that

interference will not occur in a particular installation. If this equipment does cause harmful

interference to radio or television reception, which can be determined by turning the equipment off

and on, the user is encouraged to try to correct the interference by one or more of the following

measures:

• reorient or relocate the receiving antenna

• increase the separation between the equipment and receiver

• connect the equipment into an outlet on a circuit different from that to which the receiver is

connected

• consult the dealer or an experienced radio/TV technician for help

iBTS safety

Nortel Network iBTS complies with UL60950 and CAN/CSA C22.2 No. 60950-00 Safety

Standards. The CSA mark is applied on the iBTS and demonstrates compliance with both US

and Canadian Standards.

iBTS EMC and radio compliance

Nortel Network iBTS complies with 47CFR Part 15 class B and 47 CFR Part 24 for EMC and

radio emission limits according to US regulatory requirements as indicated on the regulatory label

iBTS interconnection compliance

The UMTS Univity iBTS complies with 47 CFR Part 68 of the FCC rules and the requirements

adopted by the ACTA.

On the top right of this equipment is a label that contains, among other information, a product

identifier in the following format:

•US : AB6XDNANUMTSIND for the Univity iBTS Indoor 2

•US : AB6XDNANUMTSOUT for the Univity iBTS Outdoor

•US : AB6XDNANUMTSMONO for the Univity iBTS Mono

If requested, the following information must be provided to the telephone company:

Nortel Networks Confidential 5

• FCC Registered Number: AB6

• Facility Interface Code (FIC): 04DU9.BN, 04DU9.DN, 04DU9.1KN, and 04DU9.1SN

• Service Order Code (SOC): 6.0F

A FCC part 68 and ACTA compliant cable is provided with the Univity iBTS equipment, with no

connector at network interface side. The Univity iBTS equipment operates with a 1.544 Mbps

digital channel. See Installation Instructions for details.

If the Univity UMTS iBTS equipment causes harm to the phone network, the telephone company

will notify you in advance that temporary discontinuance of service may be required. But if

advance notice is not practical, the telephone company will notify the customer as soon as

possible. Also, you will be advised of your right to file a complaint with the FCC if you believe it is

necessary

The telephone company may make changes to its facilities, equipment, operations or procedures

that could affect the operation of the equipment. If this happens the telephone company will

provide advance notice so you can make the necessary modifications to maintain uninterrupted

services.

If trouble is experienced with Univity UMTS iBTS equipment, for repair or warranty information,

please contact Toy-Brent LoranceNortel NetworksPhone: 972-685-2270Fax: 972-684-7601Nortel

Networks 1334 Enterprise Drive, West Chester PA, 19380.

If the equipment is causing harm to the telephone network, the telephone company may request

that you disconnect the equipment until the problem is resolved.

All repairs should be handled by authorized Nortel Networks Service Personnel.

Univity iBTS data equipment

The following table shows which jacks are associated with which modes of operation.

Operation Mode USOC Jack

Programmable & Test RJ45S

Univity iBTS systems

Facility Interface Codes (FIC), Services Order Codes (SOC), USOC Jack Codes, and Ringer

Equivalence Number (REN) are shown in the table below for each port where applicable.

Port FIC SOC USOC Jack REN

CCM T1 board 04DU9.BN 6.0F N/A N/A

CCM T1 board 04DU9.DN 6.0F N/A N/A

CCM T1 board 04DU9.1KN 6.0F N/A N/A

CCM T1 board 04DU9.1SN 6.0F N/A N/A

iCCM T1 board 04DU9.BN 6.0F N/A N/A

iCCM T1 board 04DU9.DN 6.0F N/A N/A

iCCM T1 board 04DU9.1KN 6.0F N/A N/A

iCCM T1 board 04DU9.1SN 6.0F N/A N/A

iBTS RF health protection

Nortel Networks Confidential 6

411–8111–905

Compliance with the North American requirements is demonstrated through calculation according

to FCC OET bulletin 65.

Compliances for other regions/countries

For countries outside Europe and the Americas, the requirements of European countries usually

apply.

It is not possible to list all the applicable approvals / compliances as they will be dependent on the

markets and products considered.

Note: Please contact your local Nortel Networks representative for more information.

Operational conditions

The aforementioned standards compliance of the products are based on the following operating

conditions (called normal operation):

• doors shall be closed and/or covers shall be in place

• external cables shall be of the same type as specified by Nortel Networks

• no modification of any mechanical or electrical characteristics of the product shall be made

Any change or modification made to the product without written approval from Nortel Networks

releases Nortel Networks from subsequent responsibility regarding the standards compliance.

Cable specifications

The compliance to the aforementioned standards has been verified using cables as specified by

Nortel Networks. The continuing compliance of the product relies upon use of the correct cabling

scheme as well as use of identical type cables as specified by Nortel Networks. Refer to the

installation guides for details on cable specifications.

Product labeling

The label may be located inside or outside the product, provided that the operation and/or

maintenance personnel have the information when working on the product.

iBTS labeling for American Countries

To indicate compliance with the CSA and UL Safety requirements, the Nortel Networks UMTS

iBTS bears the following mark in a conspicuous location.

On the regulatory label, compliance to 47 CFR Part 15, 24 and 68 is stated along with:

• FCC ID, FCC Registration Number

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• Manufacturers name

• Equipment designation

• Nominal voltage operating range and maximum rated current.

iBTS labelling for European Countries

To indicate compliance with the European RTTE Directive, the Nortel Networks UMTS iBTS

bears the following information in a conspicuous location:

• Manufacturers name

• Equipment designation

• Nominal voltage operating range and maximum rated current

Labeling for other regions / countries

Labeling for other regions and countries is performed as appropriate and required by the local

regulatory framework.

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UTRAN introduction of the UMTS03 solution

The Nortel Networks UTRAN is based on:

• the Univity RNC

• the Univity iBTS

• the NAM, optionally for transmission purpose

Univity RNC

The Univity RNC is the Nortel Networks Univity UMTS RNC. It is the 3GPP-compliant UMTS RNC

developed by Nortel Networks.

The Univity RNC allows mobility between UMTS and GSM networks.

The main functions of the Univity RNC are to control and manage the following:

• the Radio Access Network (RAN)

• the signaling between the different Core Network (CN) components and the Radio Network

System (RNS)

• the Node Bs and their corresponding radio resources

The Univity RNC is connected to:

• Univity iBTSs through the Iub interface

• another Univity RNC through the Iur interface.

In fact an RNC can be connected to several other RNCs via Iur.

• the Core Network through the Iu interface

Most of the Univity RNC interfaces provide the ability to build multi-vendor solutions. The main part of

the Univity RNC is built upon the Passport technology.

The Univity RNC supports the UMTS 1900 MHz and the UMTS 2100 MHz frequencies.

Univity RNC configurations for UMTS 1900 MHz in North America

The RNC supports UMTS 1900 MHz configurations to provide the SONET/OC-3 transmission

interfaces. The SONET/OC-3 mode is supported for the Iu, Iub, Iur interfaces.

Univity RNC configurations for UMTS 2100 MHz

The RNC supports UMTS 2100 MHz configurations to provide the SDH/STM-1 transmission

interfaces. The SDH/STM-1 mode is supported for the Iu, Iub, Iur interfaces.

Univity iBTS

The Univity iBTS is the 3GPP-compliant UMTS Node B developed by Nortel Networks. The generic

term iBTS is used to designate the Univity UMTS Internet Base Transceiver Station.

The Univity iBTS supports the following functions:

• network interface management

— Iub towards the Univity RNC

— Uu towards the UE

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• radio access and modem (modulation/demodulation, frequency up/down-conversion,

amplification)

• call processing (channel setup and management for both common and dedicated channels, cell

management, power control, handover and measurement)

• configuration and supervision

• synchronization

• performance monitoring

NAM

The NAM improves the switching/routing capabilities of the Univity iBTS.

It provides the following features:

• Hub

The NAM can implement a hubbing function for the Node Bs. It allows to minimize the number of

T1/E1 links, between Node Bs and a RNC.

• Cell aggregation

It concentrates the traffic of different Node Bs before transmission on the Iub interface.

• Fractional E1 to achieve Drop&Insert UMTS-UMTS and GSM-UMTS.

The NAM is built on the Passport 7420 equipment.

UTRAN architecture examples of the UMTS03 solution

UTRAN architecture examples of the UMTS03 solution are shown in the following figures. They are

split into:

• UMTS 1900 MHz: for a SONET configuration

• UMTS 2100 MHz: for a SDH and a PCM configuration

Figure 1 UTRAN architecture example of the UMTS03 solution (1900 MHz —SONET)

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Figure 2 UTRAN architecture example of the UMTS03 solution (2100 MHz —SDH)

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Figure 3 UTRAN architecture example of the UMTS03 solution (2100 MHz —PCM)

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Univity iBTS basic characteristics

This part describing the basic characteristics of the Univity iBTS is split into the following:

• Univity iBTS introduction

• Univity iBTS key features

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Univity iBTS introduction

A NodeB supports Frequency Division Duplex (FDD) mode, Time Division Duplex (TDD) mode or

dual-mode operation.

The 3GPP-compliant UMTS base station developed by Nortel Networks is named Univity iBTS. The

Univity iBTS supports only the FDD mode and it provides Outdoor and indoor deployment to cover

different customer requirements.

This section provides an overview of Nortel Network Univity iBTS.

The Univity iBTS is responsible for radio transmission/reception in one or more cells to/from the UE

(User Equipment).

The iBTS provides:

• the means of communication between a User Equipment (UE) and a network via Transport

Channels

• physical layer channels which are necessary to synchronize the downlink and also to perform cell

selection/reselection and hand over preparation

• measurement information to the Univity RNC for radio resource management (hand over, power

control)

The Univity iBTS provides up to eight E1/T1 with IMA (Inversion Multiplexing ATM) or to Drop and

Insert a fractional E1/T1.

Univity iBTS interfaces

The iBTS provides the following interfaces:

• Uu interface (UMTS User interface): this interface is used between the iBTS (internet Base

Transceiver Station) and the UE (User Equipment). It is dependent on the technology used on

the radio (for example, it can be W-CDMA or TD/CDMA)

• Iub interface (Interface UMTS iBTS): this interface lies between the Univity RNC and the iBTS. It

allows to connect Univity RNCs (internet Radio Network Controller).

Univity iBTS cabinets

Nortel Networks provides the following iBTS cabinet types:

• Univity iBTS Outdoor 2100

The iBTS Outdoor 2100 is a single cabinet closed by two doors.

The iBTS Outdoor 2100 is designed to optimize deployment in rural area, suburban area, urban

area, highway, and rooftop.

• Univity iBTS Outdoor 1900

The iBTS Outdoor 1900 is a single cabinet closed by two doors.

The iBTS Outdoor 1900 is only the 1900 MHz version of the Univity iBTS Outdoor, which makes

it compatible with the North-American standard.

• Univity iBTSs Indoor 2100

The Univity iBTS Indoor is a single 600mm-wide cabinet (Univity iBTS Indoor 600) or a single

700mm-wide cabinet (Univity iBTS Indoor 700) closed by two doors. It is installed inside if an air

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exchanger is provided.

The Univity iBTS Indoor 2100 is also designed to optimize deployment in rural area, sub-urban

area, urban area, highway, and rooftop.

• Univity iBTS Street 2100

The Univity iBTS Street 2100 is a single cabinet closed by two doors.

The Univity iBTS Street 2100 is designed to optimize deployment in city, urban, and sub-urban

areas: city street corner, public sidewalks, parking areas, and motorways.

• Univity iBTS Indoor 2 2100

The Univity iBTS Indoor 2 2100 is a single cabinet closed by one door. It is designed for ease of

manufacture, transportation, installation, system assembly, repair and testing.

The iBTS Indoor 2 2100 is installed inside if an air exchanger is provided.

The iBTS Indoor 2 2100 is an evolution of iBTS Indoor 600 to improve mechanical, acoustic

performances, and the cost reduction on the equipment.

• Univity iBTS Indoor 2 1900

The Univity iBTS Indoor 2 1900 is a single cabinet closed by one door. It is designed for ease of

manufacture, transportation, installation, system assembly, repair and testing.

The iBTS Indoor 2 1900 is installed inside if an air exchanger is provided.

The Univity iBTS Indoor 2 1900 is a new version of the Univity iBTS Indoor 2 2100, which makes

it compatible with the North-American standard. There is no specific evolution, excepted the

support of the module needed for the 1900 MHz frequency.

The Univity iBTS Indoor 2 1900 is deployed in North-American countries.

• Univity iBTS Mono 2100

the Univity iBTS Mono 2100 is a single cabinet closed by one door.

The Univity iBTS Mono 2100 is designed to be installed on walls or poles. It is also designed to

provide minimum visual impact while maintaining the highest Radio Frequency (RF) performance

for a mono carrier UMTS product. Its compact dimensions allow easy and flexible installation in

outdoor areas.

• Univity iBTS Mono 1900

The Univity iBTS Mono 1900 is a new version of the Univity iBTS Mono 2100, which makes it

compatible with the North-American standard. There is no specific evolution, excepted the

support of the module needed for the 1900 MHz frequency.

The Univity iBTS Mono 1900 is deployed in North-American countries.

• Univity iBTS Indoor 1900 Compact

the Univity iBTS Indoor 1900 Compact is a single cabinet closed by one door.

The Univity iBTS Compact provides the an attractive solution for restricted site space, particularly

in urban and sub-urban environments. It can fit in standard racks or even on tabletops.

The Univity iBTS Indoor 1900 Compact is only developed for US market.

The Macro iBTS term is used to indicate the set of iBTS cabinets (Univity iBTS Outdoor, Univity iBTS

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Indoor 700, Univity iBTS Indoor 600, and Univity iBTS Indoor 2).

The Macro iBTS is modular in design for easy network growth and flexibility, to manage diverse

traffic demands. Common modules are used to grow the iBTS to increase capacity as required. The

increase in capacity is provided via the simple addition of modules, as opposed to the addition entire

of cabinets.

The following table lists the Univity iBTS cabinets according to the UMTS standard (UMTS 2100 and

UMTS 1900).

Table 1 Univity iBTS cabinets

Types UMTS 2100 UMTS 1900

Univity iBTS Outdoor X X

Univity iBTS Indoor 2100

(600/700) X NA

Univity iBTS Indoor 2 X X

Univity iBTS Mono X X

Univity iBTS Street 2100 X NA

Univity iBTS Indoor 1900 Com-

pact NA X

The following figure shows the iBTS types provide by Nortel Networks:

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Figure 4 Univity iBTS Outdoor outside view

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Figure 5 Univity iBTS Indoor 2100 outside view

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Figure 6 Univity iBTS Street 2100 outside view

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Figure 7 Univity iBTS Indoor 2 outside view

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Figure 8 Univity iBTS Mono outside view

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Figure 9 Univity iBTS Indoor 1900 Compact outside view

Univity iBTS modules

In the first generation, Nortel Networks delivers the modules-alpha. These modules are supported by

all the iBTSs (Macro iBTS, Univity iBTS Mono, Univity iBTS Indoor 1900 Compact, and Univity iBTS

Street 2100).

In the second generation (UMTS03 system release), Nortel Networks delivers the iModules (called

also modules-beta). These modules are supported by all the iBTSs (Macro iBTS, Univity iBTS Mono,

Univity iBTS Indoor 1900 Compact, and Univity iBTS Street 2100) and are compatible with existing

ones. These new modules are transparent to you as they do not provide a capacity change (except

for the iCEM).

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Univity iBTS key features

This section describes the general features of the iBTS.

iBTS features

The iBTS includes the following features:

• outdoor operation

• indoor operation

• ac operation (iBTS Outdoor, iBTS Street, and iBTS Indoor 700) or dc operation (iBTS Indoor 600,

iBTS Indoor 2, iBTS Mono, and iBTS Indoor 1900 Compact)

• digital system support of up to three carriers

• front access only

• plug and play

• PCM internal protection

• multiple CEM

• multiple PCM

• no need for an extra site cabinet for user space and batteries

• best-in-class in term of volume and size

• easy installation and commissioning

• maintenance facilities: modular design, hardware and software diagnostics for fault isolation

mechanism and fast reconfiguration

• most commonly shared modules between the iBTS different types

• software upgrade with minimum service downtime

• a flexible product: possible growth from low to high capacity without any additional cabinets

• drop and insert

• STSR1 configuration

• STSR2 configuration

• OTSR1 configuration

• OTOR1 configuration

• Network Access Module (NAM)

• iCEM, iCCM, and iTRM modules

• iCCM redundancy

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Univity iBTS mechanical characteristics

This section details the characteristics (frequency bands, physical, electrical, thermal and acoustic) of

the iBTS cabinet types.

Univity iBTS Outdoor

The characteristics of the Univity iBTS Outdoor are the following:

• frequency bands 2100 MHz:

— 21102170 MHz for downlink

— 19201980 MHz for uplink

• frequency bands 1900 MHz:

— 19301990 MHz for downlink

— 18501910 MHz for uplink

• optimized size versus capacity ratio:

— footprint: 0.95 m²

— cabinet size is the following:

– width (W): 1350 mm

– depth (D): 700 mm

– height (H): 1300 mm

— Volume: 1240 l

• ac Power:

— Single/Split: 20 A/phase

— three phase: 10 A/phase (balanced)

• operation Temperature Range: -40 to +50 degree Celsius

• weight:

— fully equipped: 520 kg

— empty: 180 kg

• acoustic: about 44 dBA at 5 feet

Univity iBTS Indoor 600

The characteristics of the Univity iBTS Indoor 600 are the following:

• frequency bands 2100 MHz:

— 21102170 MHz for downlink

— 19201980 MHz for uplink

• optimized size versus capacity ratio:

— footprint: 0.615 m²

— cabinet size is the following:

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– width (W): 600 mm

– depth (D): 600 mm

– height (H): 1600 mm

— volume: 576 L

• dc Power: -48 V dc

• operation Temperature Range: -5 to +50 degree Celsius

• weight:

— fully equipped: 560 kg

— empty: 105 kg

Univity iBTS Indoor 700 without ac Power Plinth

The characteristics of the Univity iBTS Indoor 700 are the following:

• frequency bands 2100 MHz:

— 21102170 MHz for downlink

— 19201980 MHz for uplink

• Optimized size versus capacity ratio:

— footprint: 0.7525 m²

— cabinet size is the following:

– width (W): 700 mm

– depth (D): 600 mm

– height (H): 1600 mm

— volume: 672 l

• dc Power: -48 V dc

• operation Temperature Range: -5 to +50 degree Celsius

• weight:

— fully equipped: 325.5 kg

— empty: 128.5 kg

Univity iBTS Indoor 700 with ac power plinth

The characteristics of the Univity iBTS Indoor 700 with ac Power Plinth are the following:

• frequency bands 2100 MHz:

— 21102170 MHz for downlink

— 19201980 MHz for uplink

• optimized size versus capacity ratio:

— footprint: 0.7525 m²

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— cabinet size is the following:

– Width (W): 700 mm

– Depth (D): 600 mm

– Height (H): 2000 mm

— Volume: 672 l

• dc Power: -5 V dc and +24 V dc

• ac Power:

— Single/Split: 20 A/phase

— three phase: 10 A/phase (balanced)

• operation Temperature Range: -5 to +50 degree Celsius

• weight:

— fully equipped: 513.5 kg

— empty: 128.5 kg

— ac Plinth: 170 kg

Univity iBTS Street 2100

The characteristics of the Univity iBTS Street are the following:

• frequency bands 2100 MHz:

— 21102170 MHz for downlink

— 19201980 MHz for uplink

• optimized size versus capacity ratio:

— footprint: 0.52 m²

— cabinet size is the following:

– width (W): 1480 mm

– depth (D): 350 mm

– height (H): 1500 mm

— volume: 761.25 l

• ac power is following:

— Single/Split: 120/240 V ac

— three phase: 120/208 V ac or 240/416 V ac

• operation Temperature Range: -40 to +45 degree Celsius

• weight:

— fully equipped: 323 kg

— empty: 180 kg

• acoustic: about 47 dBA between -20 and +40 degree Celsius

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Univity iBTS Indoor 2

The characteristics of the Univity iBTS Indoor 2 are the following:

• frequency bands 2100 MHz:

— 21102170 MHz for downlink

— 19201980 MHz for uplink

• frequency bands 1900 MHz:

— 19301990 MHz for downlink

— 18501910 MHz for uplink

• optimized size versus capacity ratio:

— cabinet size is the following:

– width (W): 600 mm

– depth (D): 600 mm

– height (H): 1650 mm

— volume: 594 L

• dc Power: -48 V dc (2100)

• dc Power: + 24 V dc (1900)

• operation Temperature Range: -5 to +70 degree Celsius

• weight:

— empty: 140 kg

Univity iBTS Mono

The characteristics of the Univity iBTS Mono are the following:

• frequency bands 2100 MHz:

— 21102170 MHz for downlink

— 19201980 MHz for uplink

• frequency bands 1900 MHz:

— 19301990 MHz for downlink

— 18501910 MHz for uplink

• optimized size versus capacity ratio:

— cabinet size is the following:

– width (W): 450 mm

– depth (D): 570 mm

– height (H): 650 mm

— volume: 167 L

• dc power: -48 V dc

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• single phase: 220 V ac

• operation Temperature Range: -20 to +45 degree Celsius

• weight < 90 kg

• single configuration: 1 sector and 1 carrier

• receive diversity

The iBTS Mono does not support the following:

• external alarms

• battery backup

• CCM redundancy

• Tx diversity

• +24Vdc

The iBTS Mono supports the following options:

• Tower Mounted Amplifiers (TMA)

• Lightening protection

• Fractional E1/T1 which is shared with GSM BTS

Univity iBTS Indoor 1900 Compact

The characteristics of the Univity iBTS Indoor 1900 Compact are the following:

• frequency bands 1900 MHz:

— 19301990 MHz for downlink

— 18501910 MHz for uplink

• optimized size versus capacity ratio:

— cabinet size is the following:

– width (W): 483 mm

– depth (D): 650 mm

– height (H): 900 mm

— volume: 282 L

• dc power: -48 V dc

• single/split phase: 120/240 V ac

• operation Temperature Range: -5 to +45 degree Celsius

• weight < 63kg

• the configurations supported are the following:

— O1 configuration

— OTSR1 configuration with MCPAs 45W

— STSR1/STSR2 configuration with MCPAs 45W

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• receive diversity

The Univity iBTS Indoor 1900 Compact does not support the following:

• external or internal battery

• O2 configuration

• CCM redundancy

• Tx diversity

The Univity iBTS Indoor 1900 Compact supports the following options:

• Tower Mounted Amplifiers (TMA)

• Lightening protection

• Fractional E1/T1 which is shared with GSM BTS

• +24 Vdc

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Avaya Canada UMTS1900MONO UMTS 1900 Mono iBTS User Manual essai03

Avaya Canada Corporation UMTS 1900 Mono iBTS essai03

Exhibit 8 User Manual

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