Read RRH 40-21 PD V01 11 text version

Alcatel-Lucent 9341 RRH 40W 2100MHz

(9341 RRH40-21)

Product Description

_________________________________________________________________________________________ Document Number: UMT/BTS/INF/022705 Document Issue: 01.11/ EN Document Status: Standard Date of Issue: 14/JAN/2008 _________________________________________________________________________________________

9341 RRH40-21 PRODUCT DESCRIPTION

JANUARY 2008

·

Copyright © 2007 by Alcatel-Lucent Technologies. All Rights Reserved. About Alcatel-Lucent Alcatel-Lucent (Euronext Paris and NYSE: ALU) provides solutions that enable service providers, enterprises and governments worldwide, to deliver voice, data and video communication services to end-users. As a leader in fixed, mobile and converged broadband networking, IP technologies, applications, and services, Alcatel-Lucent offers the end-to-end solutions that enable compelling communications services for people at home, at work and on the move. For more information, visit Alcatel-Lucent on the Internet: http://www.alcatellucent.com Notice The information contained in this document is subject to change without notice. At the time of publication, it reflects the latest information on Alcatel-Lucent's offer, however, our policy of continuing development may result in improvement or change to the specifications described. Trademarks The following trademarks are used throughout this document: Alcatel-Lucent, Alcatel, Lucent Technologies and their respective logos are trademarks and service marks of Alcatel-Lucent, Alcatel and Lucent Technologies.

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CONTENTS

1 INTRODUCTION ................................................................................................5 1.1 1.2 2 OVERVIEW..................................................................................................... 5 SCOPE OF THIS DOCUMENT ..................................................................................... 5

9341 RRH40-21 SOLUTION OVERVIEW.....................................................................7 2.1 OVERVIEW..................................................................................................... 7 2.2 PRODUCT POSITIONING......................................................................................... 8 2.3 BENEFITS OF 9341 RRH40-21 ................................................................................ 9 2.3.1 Higher Savings On Remote Sites ................................................................. 9 2.3.2 Reduced CAPEX and OPEX........................................................................10

3

9341 RRH40-21 PRODUCT DESCRIPTION ................................................................ 12 3.1 OVERVIEW....................................................................................................12 3.2 9341 RRH40-21 MAIN CHARACTERISTICS .....................................................................14 3.3 9341 RRH40-21 DETAILED PERFORMANCE/CHARACTERISTICS/FEATURES ......................................15 3.3.1 Downlink RF Performance .......................................................................15 3.3.2 Uplink RF Performance...........................................................................15 3.3.3 Electrical Performance...........................................................................15 3.3.4 Connectivity and Interfaces .....................................................................16 3.3.5 TMA support .......................................................................................18 3.3.6 Software Architecture ...........................................................................19 3.4 9341 RRH40-21 PHYSICAL OVERVIEW ........................................................................20 3.5 ENVIRONMENTAL AND REGULATORY COMPLIANCE ...............................................................22 3.5.1 Environmental Compliance ......................................................................22 3.5.2 Regulatory Compliance...........................................................................23

4

9341 RRH40-21 PRODUCT CONFIGURATIONS & COMPATIBILITY.................................... 26 4.1 UMTS CONFIGURATIONS ......................................................................................26 4.2 EVOLUTION PATH .............................................................................................26 4.2.1 Multi-Carrier Configuration .....................................................................27 4.2.2 Daisy-Chain Evolution ............................................................................29 4.2.3 Tx Diversity Evolution ............................................................................29

5

APPENDICES .................................................................................................. 30 5.1 APPENDIX A: PUBLICATION HISTORY ...........................................................................30 5.2 APPENDIX B: RELATED READING ...............................................................................31 5.2.1 Applicable Documents............................................................................31 5.2.2 Reference Documents ............................................................................32 5.3 APPENDIX C: GLOSSARY & ACRONYMS .........................................................................33 5.3.1 Glossary ............................................................................................33 5.3.2 Acronyms ...........................................................................................33

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9341 RRH40-21 PRODUCT DESCRIPTION

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LIST OF FIGURES

Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure Figure 1 ­ Alcatel-Lucent 9341 RRH 40W 2100MHz ......................................................................... 7 2 ­ 9341 RRH40-21 System Overview ................................................................................. 8 3 - Site Benefits of Deploying 9341 RRH40-21 ...................................................................... 9 4 ­ 9341 RRH40-21 Functional Architecture ........................................................................ 12 5 ­ 9341 RRH40-21 Top Connectivity ................................................................................ 16 6 ­ 9341 RRH40-21 Bottom Connectivity............................................................................ 16 7 ­ TMA support from 9341 RRH40-21 ............................................................................... 18 8 ­ 9341 RRH40-21 Physical Overview............................................................................... 20 9 ­ 9341 RRH40-21 in 2 Carriers Configuration..................................................................... 27 10 ­ 9341 RRH40-21 in STSR2+1 & STSR2+2 Configurations ...................................................... 28 11 ­ 9341 RRH40-21 in Daisy-Chain Configuration ................................................................. 29 12 ­ 9341 RRH40-21 in TX Diversity Configuration, using Daisy-Chain feature ................................ 29

LIST OF TABLES

Table Table Table Table Table Table Table 1 2 3 4 5 6 7 ­ ­ ­ ­ ­ ­ 9341 RRH40-21Main Characteristics.............................................................................. 14 9341 RRH40-21 RF Downlink Performance Figures ............................................................. 15 9341 RRH40-21 RF Uplink Performance Figures ................................................................ 15 9341 RRH40-21 DC Power Consumption ......................................................................... 15 9341 RRH40-21 Alarms ............................................................................................. 19 9341 RRH40-21 Clearances ........................................................................................ 21 Distributed Node B Configurations with 9341 RRH40-21 ...................................................... 26

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9341 RRH40-21 PRODUCT DESCRIPTION

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1

1.1

INTRODUCTION

Overview

This document provides an overview and describes the characteristics of the W-CDMA Remote Radio Head (RRH) 40W 2100 MHz from Alcatel-Lucent. Its official naming is the Alcatel-Lucent 9341 RRH 40W 2100MHz, also named 9341 RRH40-21 in the rest of the document ("40" for 40W, "21" for 2100 MHz). The content of this document is not a commitment from Alcatel-Lucent. Alcatel-Lucent reserves the right to change the technical specifications without notice until General Availability of the product. For more information on features availability, please refer to the Product Bulletins, Feature Planning Guides, Baseline and Release Notes.

1.2

Scope of this Document

The scope of this document is the Product Description for Alcatel-Lucent 9341 RRH 40W 2100 MHz (3GPP band I). This document describes the 9341 RRH40-21 unit and the configurations it can/could enable. It does not describe the digital Node B, refer to [R1], [R2] or [R3] for more information.

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2.1

9341 RRH40-21 SOLUTION OVERVIEW

Overview

The Alcatel-Lucent distributed solution is composed of two main parts: · · The Alcatel-Lucent digital Node B The Alcatel-Lucent 9341 RRH40-21, located on the remote site: 9341 RRH40-21 provides the RF transceiver, MCPA and filter functions typically found in the conventional Node B.

Figure 1 ­ Alcatel-Lucent 9341 RRH 40W 2100MHz (without and with solar shield)

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These two equipments are linked by optical fibres, carrying UMTS downlink and uplink (main and diversity) base band digital signals along with OAM information.

Local site

Remote site

9341 RRH40-21

Optical interface in 9326 d2U

optical fiber

Figure 2 ­ 9341 RRH40-21 System Overview (Star Configuration Supported From 9326 d2U Node B)

2.2

Product Positioning

Alcatel-Lucent distributed solution is designed to provide operators with the means to achieve a high quality and capacity coverage with minimum site requirements. 9341 RRH40-21 is designed for macro-cellular applications, and is an alternative to conventional Macro Node B.

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9341 RRH40-21 PRODUCT DESCRIPTION

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The advantages of using Alcatel-Lucent 9341 RRH40-21 to replace a traditional Node B are most evident in rooftop installations. In fact, the limited space available in some sites may either prevent the installation of traditional Macro Node B equipment or require costly cranes to be employed, thus coverage holes may appear. These sites can however host 9341 RRH4021 installation providing more flexible site selection and therefore improved network quality. In addition installation times and costs are greatly reduced.

Antenna

Antenna

RF Feeder

RF Jumper

RRH

Radio Digital

Optical Link

Digital

Backhaul

Before

Backhaul

After

Figure 3 - Site Benefits of Deploying 9341 RRH40-21

2.3

Benefits of 9341 RRH40-21

In comparison with a traditional Node B site, the following benefits are achieved:

2.3.1

·

Higher Savings On Remote Sites

Faster and lower cost implementation: Due to its small size and weight, operators can locate the 9341 RRH40-21 where RF engineering deems ideal, trade-offs between available sites and RF optimum sites are minimized 9341 RRH40-21 is a zero footprint solution and a noise-free module: this allows for simpler negotiation with site landlords and minimize the impact on the environment/neighbourhood Less civil works are required. There is no need for reinforcing steel frames to support heavy outdoor Node B cabinet (around 300Kg). 9341 RRH40-21 weighs less than 20kg. 9341 RRH40-21 is an easy-to-install product (sizes below 30l): the installation can be done by a single person, no cranes are needed to hoist the Node B cabinet to the rooftop. A site can be on air in < one day, a fraction of the time required for a traditional Node B.

·

· ·

·

Less rental area: · The footprint of a cluster of 9341 RRH40-21 is much less than the footprint of a traditional Node B cabinet (in some cases also transmission cabinet, battery cabinet and power distribution cabinet) therefore the monthly rental fees are considerably reduced (less footprint and weight).

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9341 RRH40-21 PRODUCT DESCRIPTION

Less equipment on site:

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·

The digital Node B cabinet does not need to be installed on the rooftop and can be placed in the basement (with fibre running to 9341 RRH40-21 in rooftop) or in centralized Node B "hotels" (if dark fibre is available between sites). No need for TMAs due to the fact that the feeder losses are dramatically reduced (9341 RRH40-21 are mounted close to antennas)

·

Great RF performance thanks to the capability of installing 9341 RRH40-21 close to the antenna:

·

No RF feeders are needed, only jumpers from 9341 RRH40-21 to the antenna. This reduces the feeder loss in UL/DL, having several consequences:

- - -

The feeder cost and installation costs are reduced. In the UL, there is no need for a TMA, as the losses introduced by the RF feeder are greatly reduced. In the DL, no RF power is dissipated in the feeder runs. The PA power can be reduced while maintaining the same RF power at the antenna. This results in the power consumption of the equipment being reduced. Compared to a conventional Node B (equipped with MCPA 60W) that delivers about 20W at the antenna level (assuming 3dB feeder+TMA losses), 9341 RRH40-21 (assuming 0.8 dB jumper loss) delivers 65% more RF power while consuming half the power.

2.3.2

2.3.2.1

·

Reduced CAPEX and OPEX

Reduced CAPEX

Where dark fibre is available, Node Bs can be centralized (Node B hotels) off-town, thus further reducing the site construction/ acquisition cost, normally higher in urban areas: cost is further decreased by the use of one single fibre (thanks to single-mode CWDM feature) per remote site (assuming daisy-chain), leading to a dark fibre lease cost reduction factor of up to 6. A digital Node B can serve several remote sites and Channel Element pooling amongst them further reduces equipment costs.

·

2.3.2.2

· · · ·

Reduced OPEX

Up to 50% reduction in power consumption. 20% less site visits: as the Channel Element cards are in the digital Node B cabinet, there is no need to visit the remote site for capacity upgrades. 9341 RRH40-21 has a high MTBF and uses natural convection cooling to produce a zero noise high reliability fan-less solution. Operation and management is simplified as number of Node Bs that need to be managed is reduced (one digital Node B can serve several remote sites) and they are in the same location. Transmission costs are reduced as no leased E1/T1 is needed, instead owned and/or leased optical fibre between 9341 RRH40-21 site and centralized base station.

·

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9341 RRH40-21 PRODUCT DESCRIPTION

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3

3.1

9341 RRH40-21 PRODUCT DESCRIPTION

Overview

9341 RRH40-21 is a single sector 2100 MHz (3GPP band I) self-contained radio module, including:

· · · · ·

A 2100 MHz transceiver An MCPA A duplexing system An optical interface A power system

9341 RRH40-21 delivers 40W nominal composite RF power at antenna port and supports up to 3 carriers. It is an outdoor product, supporting -40°C/+50°C temperature range (up to +55°C with derated RF power) using natural convection cooling (no fans).

The functional architecture of 9341 RRH40-21 is depicted on the following figure:

Diversity antenna

RF to digital converter Digital Node B BB

(CPRI, PPR, DUC, DPD)

LNA

RF to digital converter Digital to RF converter DPD loop PA

Cascading port

E

LNA

E

processing

Main antenna

O O

DC Power input

Coupler Filter & DC/DC OAM interface

Tx coupling

µController

User alarms

Figure 4 ­ 9341 RRH40-21 Functional Architecture

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9341 RRH40-21 PRODUCT DESCRIPTION

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In downlink, 9341 RRH40-21 receives the optical signal from the digital Node B in accordance with CPRI format. The signal is converted into an electrical digital base band signal, which goes then through several digital processing functions (filtering, digital up-conversion, peak power reduction, digital pre-distortion). The resulting digital signal is digital to analogue converted and up converted to an RF signal. The RF signal is amplified through a power amplifier and fed to the duplexer. 9341 RRH40-21 measures continuously the transmit RF power and has the capability to monitor VSWR. In uplink, two signals are received from the main and diversity antennas. They are amplified, through low noise amplification chains, and down-converted before being converted into digital signals. The resulting digital signals go through different digital processing functions (digital down-conversion, filtering), and are then multiplexed according to the required CPRI format and converted into optical signals that are sent to the digital Node B.

9341 RRH40-21 has two antenna ports: one port is connected to a duplexer, which provides the necessary isolation to connect the transmitter and one receiver on the same antenna. The second 9341 RRH40-21 port enables RX diversity. 9341 RRH40-21 also provides a TX coupling port for on-field test purpose. The digital Base-Band processing provides daisy-chain capabilities to link several 9341 RRH4021 with only one fibre link coming from the digital Node B. 9341 RRH40-21 is offered in 2 variants, according to optical interface (Single-Mode or MultiMode optical fibre).

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9341 RRH40-21 PRODUCT DESCRIPTION 3.2 9341 RRH40-21 Main Characteristics

Main characteristics are summarized in the following table:

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Mechanical Characteristics

Sizes (HxWxD) in mm Weight Environmental 463 x 260 x 210 (25 liters) (without solar shield) 463 x 268 x 226 (28 liters) (with solar shield) 19 kg ­ 18kg without solar shield Outdoor: -40ºC to +50ºC (up to +55°C with de-rated RF power) - no fan ( natural convection cooling ) - IP65

RF Characteristics

Number of carriers RF output power @antenna port RX diversity Noise Figure RF features Up to 3 adjacent carriers (15 MHz) 40W nominal RF power: 40W x 1 carrier - 20W x 2 carriers - 13W x 3 carriers 2-way diversity 2,5 dB typical (typical sensitivity is -125,5 dBm wrt 3GPP 25.104 w/o RX diversity)* RETA HW ready (AISG 1.1 - class 1 RET) - TMA support VSWR meter on TX antenna path (2 thresholds report) - TX coupling port

Optical Characteristics

Type/number of fibres 1,2 Gbps line bit rate ( CPRI OS.12 & OL.12, refer to [A19] ) Single-Mode variant: one SM fibre (9/125 m), refer to [A25]) per 9341 RRH40-21 carrying UL and DL using CWDM (@1550/1310nm) Multi-Mode variant: two MM fibres (50/125 m), refer to [A26]) per 9341 RRH4021, one carrying UL, 2nd carrying DL (@850 nm) Optical fibre length Up to 500m, using MM fibre Up to 10km, using SM fibre Up to 20km, using SM fibre (for future)

Miscellaneous Characteristics

Power supply DC variant : -48V ( -40.5V/-57V ) Typical power consumption 230 W ( at continuous 40W RF power ) Features External alarms (6) ­ LEDs ­ Daisy-Chain HW ready ( 2 optical ports per 9341 RRH40-21 )

(*) assuming xCEM performance

Table 1 - 9341 RRH40-21Main Characteristics

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9341 RRH40-21 PRODUCT DESCRIPTION 3.3

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9341 RRH40-21 Detailed Performance/Characteristics/Features

3.3.1 Downlink RF Performance

Referring to 3GPP 25.104 release 6, 9341 RRH40-21 meets Wide Area Base Station class specifications unless otherwise specified in the rest of this document. RF performance for the Tx output port of 9341 RRH40-21 is summarized in the following table.

Specification

Operating Frequency band Instantaneous bandwidth Nominal impedance Antenna port return loss Nominal composite output power Output power accuracy 2110 MHz ­ 2170 MHz 15 MHz 50 14 dB min 40W / +46 dBm +/- 0.75 dB

Comments

Band I, as per 3GPP TS25.104 3 adjacent UMTS carriers

At 9341 RRH40-21 antenna connector At 40W output power

Table 2 ­ 9341 RRH40-21 RF Downlink Performance Figures

3.3.2

Uplink RF Performance

Uplink RF performance is summarized in the following table and is applicable to both the main and diversity ports of 9341 RRH40-21.

Specification

Operating Frequency band Instantaneous bandwidth Nominal impedance Antenna ports return loss Pass band Noise Figure Typical sensitivity 1920 MHz ­ 1980 MHz 15 MHz 50 14 dB min 3 dB max. -125,5 dBm

Comments

Band I, as per 3GPP TS25.104 3 adjacent UMTS carriers

2.5 dB typ. at room temperature For AMR 12.2 kbps, without Rx diversity, at ambient temperature

Table 3 ­ 9341 RRH40-21 RF Uplink Performance Figures

3.3.3

Electrical Performance

9341 RRH40-21 maximum power consumption is 300 W (at 40W RF output). The table below shows the typical DC power consumption according to the RF power, at ambient temperature and for -48V input voltage:

RF Power Settings

0% load (only common channels, ie 20% of max RF) 50% load (maximum RF power ­ 3dB) 100% load (maximum RF power)

Typical Power Consumption (W)

135 165 230

Table 4 ­ 9341 RRH40-21 DC Power Consumption

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9341 RRH40-21 PRODUCT DESCRIPTION

3.3.4 Connectivity and Interfaces

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Connection layout is based on weatherized connectors allowing a quick "plug and play" connection. All interface ports (power, AISG, alarms ..., but main RF ports) are placed on the bottom.

Rx Div

Tx/Rx Main

Figure 5 ­ 9341 RRH40-21 Top Connectivity

Optical I/O master

Optical I/O slave

LEDs

Service door

Tx test port

User alarms User alarms

AISG AISG

DC input DC input

Figure 6 ­ 9341 RRH40-21 Bottom Connectivity

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9341 RRH40-21 PRODUCT DESCRIPTION

9341 RRH40-21 is equipped with

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·

3 RF connectors:

o o ·

2 antenna ports as 7/16 type female connectors 1 TX test port as SMA female connector

2 optical ports (ODC connectors):

o o ·

one to interface with digital Node B one for daisy-chain (HW ready for future)

One AISG (V1.1) RS485 connector (IEC 60 130-9, female, 8 pins) to

o o ·

support TMA through AISG port (Current Alarm monitoring mode, AISG for future) be hardware ready to support RET antenna (class 1) (future).

A service door in order to control access to O&M interfaces & facilities: one debug Ethernet connector is located behind this service door, and can be used for corrective maintenance. 2 User Alarm connectors (IEC 60 130-9, female, 8 pins): through these dedicated waterproof connectors, 9341 RRH40-21 is able to manage and report 6 external alarms to the OMC. One DC connector (CPC type, DC power cable conductors section is 2 x 6 mm2): power supply range is -40,5V to -57V for full performance and meets the requirement of [A20].

·

·

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9341 RRH40-21 PRODUCT DESCRIPTION

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3.3.5

TMA support

9341 RRH40-21 can support TMA in two different modes.

o

Current alarm mode:

TMA is powered and monitored (thanks to power supply current sensing) through 9341 RRH4021 AISG port, using external bias-tees and a specific cabling (TMA Y-cable) as shown below:

X X X X X X X X X X

TMA

Bias Tees

RRH

AISG port TMA Y-cable

Figure 7 ­ TMA support from 9341 RRH40-21

o

AISG mode

In the future, 9341 RRH40-21 will manage TMA trough AISG: this will require to install an AISG bias-tee on one of the two feeders, and one AISG cable between AISG bias-tee and 9341 RRH40-21 AISG port.

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3.3.6

Software Architecture

9341 RRH40-21 is configured, controlled and monitored from the OMC through the digital Node B and the optical link. SW and firmware downloading is supported.

3.3.6.1

Alarm and Status Reporting

Three LEDs indicate the Laser, RF and global status, and are visible when 9341 RRH40-21 is in service. 9341 RRH40-21 is provided with the following alarms capabilities:

Name of alarm

Self test failure Processor out of memory Optical transceiver failure Temperature overload High temperature warning Synthesizer Out Of Lock PA loop failure RF output overload DC voltage regulation Power consumption overload DC converter shutdown DL Gain control failure VSWR Failed VSWR level 2 VSWR level 3

Severity

major major major major minor major major minor minor major major major minor minor major

Table 5 ­ 9341 RRH40-21 Alarms

3.3.6.2

Remote Inventory

9341 RRH40-21 manages remote inventory information that includes the type of equipment, the serial number, manufacturing date, hardware release, last in service date and software release.

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9341 RRH40-21 PRODUCT DESCRIPTION 3.4 9341 RRH40-21 Physical Overview

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9341 RRH40-21 does not use any fan as natural convection cooling is employed. It is equipped with an aesthetic solar shield that may be removed, if desired, for indoor installation only. 9341 RRH40-21 can be either floor, pole or wall mounted, using the appropriate mounting kit: these kits are designed to be easily fitted before hanging and locking 9341 RRH40-21 on to it. Pole mounting kits support from 50 to 380 mm diameter pipes/poles thanks to two options (50-152mm and 152-380mm). A specific mounting kit allows to mounting several 9341 RRH4021 at the same elevation on a single pole. To ease installation, 9341 RRH40-21 may be equipped with 2 eye bolts and a strap used as a handle; these have to be removed once the product is mounted on the kit. The physical appearance of 9341 RRH40-21 is given below:

· · ·

on the left, 9341 RRH40-21 without solar shield at the centre, 9341 RRH40-21 equipped with solar shield, shown with the wall mounting hardware on the right, 9341 RRH40-21 installed with the floor mounting kit (without solar shield)

Figure 8 ­ 9341 RRH40-21 Physical Overview

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9341 RRH40-21 PRODUCT DESCRIPTION

The clearances required for installation of 9341 RRH40-21 are given below: Side 30cm Top 30cm Bottom 40cm Front 100cm Rear 7cm (wall mounting kit)

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Table 6 ­ 9341 RRH40-21 Clearances

The maximum wind speed supported by 9341 RRH40-21 is 200 km/h, and the mechanical design minimizes the wind loading: wind load is about 165N at 150km/h wind speed, below 300N for a 200km/h wind speed.

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9341 RRH40-21 PRODUCT DESCRIPTION 3.5 Environmental and Regulatory Compliance

3.5.1

3.5.1.1

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Environmental Compliance

Operation Temperature and Humidity

9341 RRH40-21 is designed to operate under climatic conditions defined in [A10] class 4K2 except for low temperature, high temperature and low, high absolute humidity:

·

The total operational temperature range of 9341 RRH40-21 is -40°C/+50°C (including solar radiation at 1120W/m2). +50/+55°C temperature range is also supported with derated output power. 9341 RRH40-21 is designed to operate under the absolute humidity range of 0.03 g/m3 36 g/m3 and the relative humidity range 8% - 100%.

·

9341 RRH40-21 is designed to operate under climatic conditions defined in [A11] class 4.1E, except for low temperature (-40°C), high temperature (+50°C) and high absolute humidity (36g/m3). At cold start (-40°C), 9341 RRH40-21 is in normal operation in less than one hour.

3.5.1.2

Special Climatic Conditions

9341 RRH40-21, when fully installed, can withstand the over-turning force exerted by a wind speed of 200km/h as defined in [A10], class 4Z5.

3.5.1.3

Biological Conditions

9341 RRH40-21 may be deployed in locations where the biological conditions are those defined in [A10], class 4B1.

3.5.1.4

Chemical Active Substance

9341 RRH40-21 may be deployed in locations where the maximum levels of chemical contaminants are those defined in [A10], class 4C2.

3.5.1.5

Mechanically Active Substance

9341 RRH40-21 may be installed at locations where the maximum levels of sand and dust are those defined in [A10], class 4S2.

3.5.1.6

Acoustic Noise

9341 RRH40-21 does not have fans (cooling is performed by natural convection using heat sinks) as a result, the operation of 9341 RRH40-21 is silent and no vibrations are produced.

3.5.1.7

Vibration and Shock

Once fully installed, 9341 RRH40-21 meets the requirements as specified in [A10], class 4M5.

3.5.1.8

Earthquake Vibration and Shock

Once fully installed, 9341 RRH40-21 meets the requirement as specified in [A10], class 4M5, and as specified in [A13] & [A14] zone4.

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9341 RRH40-21 PRODUCT DESCRIPTION

3.5.1.9 Ingress Protection

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Once fully installed, 9341 RRH40-21 is weather resistant to prevent ingress of rain, snow, dust, and other solid foreign objects to a minimum level of IP65 as specified in [A15].

3.5.1.10

Storage

Storage of 9341 RRH40-21 complies with environmental conditions defined in [A8] Classes 1K4/1Z2/1Z3/1Z5/1B2/1C2(1C1)/1S3/1M2 (Weather protected, not temperaturecontrolled storage locations).

3.5.1.11

Transportation

Transportation of 9341 RRH40-21 complies with environmental conditions defined in [A9] Classes 2K3/2B2/2C2/2S2/2M1 (Careful transportation).

3.5.2

3.5.2.1

Regulatory Compliance

Safety

9341 RRH40-21 is designed to meet the following Safety Regulatory standards:

· · ·

IEC 60950-1 (document [A16]) EN 60950-1 (document [A17]) EN 60825-1 (document [A18])

3.5.2.2

Health

9341 RRH40-21 is designed to meet the following health standards:

·

EN 50385 (document [A24])

3.5.2.3

EMC

9341 RRH40-21 is designed to meet the following EMC standards:

· · ·

3GPP 25113 (document [A3]) EN 301 489-1 (document [A4]) EN 301 489-23 (document [A5])

3.5.2.4

RF

9341 RRH40-21 is designed to meet the following radio standards:

· · · ·

3GPP 25104 (document [A1]) 3GPP 25141 (document [A2]) EN 301 908-1 (document [A6]) EN 301 908-3 (document [A7])

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9341 RRH40-21 PRODUCT DESCRIPTION

3.5.2.5 CE MARK

JANUARY 2008

9341 RRH40-21 meets the following European standards:

· · ·

European Directive 2002/95/EC (RoHS, document [A21]) European Directive 2002/96/EC (WEEE, document [A22]) European Directive 1999/5/EC (R&TTE, document [A23])

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4

4.1

9341 RRH40-21 PRODUCT CONFIGURATIONS & COMPATIBILITY

UMTS Configurations

9341 RRH40-21 architecture follows the rules below:

· · · · ·

1, 2 or 3 adjacent carriers per 9341 RRH40-21 40W RF power is shared among the carriers One 9341 RRH40-21 per sector (two in case of TX diversity or STSRX+Y configuration, future) Topologies: star, Daisy-Chain (future) Number of 9341 RRH40-21 per dNode B fibre link: Up to three 9341 RRH40-21 - Up to six 9341 RRH40-21 (single carrier) (in the future)

The possible configurations are summarized in the table below.

Node B Configuration (1)

STSR1 STSR2 STSR3

3

STSR1-C STSR2-C

STSR1-D STSR2-D STSR3-D

STSR1+1 STSR2+1 STSR2+2

3 (resp. 6)

Hexa1 Hexa2

Hexa1-C

Number of fibre links Number of 9341 RRH per fibre link

1

3

6

1

1

3

2

2 (resp. 1)

1

6

Comments

Star

Daisychain (2)

TxDiv (2)

(2)

Star (2)

Daisychain (2)

Table 7 ­ Distributed Node B Configurations with 9341 RRH40-21

(1) STSRx stands for tri-sector configuration with x carriers, -C for Cascading (daisy-chain), -D for TX Diversity. Depopulated configurations (1 or 2 sectors) are supported as well. (2) Daisy-chain, TX Diversity, STSRX+Y, Hexa for future

4.2

Evolution Path

The following sections describe the architecture impacts on 9341 RRH40-21 solution: some are related to upgrade while others are related to new 9341 RRH40-21 topology configurations:

· · ·

Increase the number of RF carriers Daisy-chain feature TX diversity

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9341 RRH40-21 PRODUCT DESCRIPTION

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4.2.1

4.2.1.1

Multi-Carrier Configuration

Single 9341 RRH40-21 per sector: STSR2 & STSR3

The configuration and topology of a 1 carrier site remains the same when adding the second carrier: upgrade is performed via software.

X X X X X X X X X X

F1+F2 Tx F1+F2 Rx main F1+F2 Rx div

RRH1

To dNodeB

Figure 9 ­ 9341 RRH40-21 in 2 Carriers Configuration

Same applies for upgrade from 2 carriers (STSR2) to 3 carriers (STSR3) configurations.

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9341 RRH40-21 PRODUCT DESCRIPTION

4.2.1.2 Two 9341 RRH40-21 per sector: STSRx+y

JANUARY 2008

9341 RRH40-21 is provided with a specific feature that makes it possible to manage up to 4 carriers on the UL (each 9341 RRH40-21 manages one single RX antenna), more precisely two blocks of adjacent carriers. By using two 9341 RRH40-21 per sector, the following STSRX+Y configurations may be supported in the future:

· · ·

STSR1+1, providing 40W per carrier STSR2+1, ie 3 carriers configuration providing 20W per carrier STSR2+2, ie 4 carriers configuration providing 20W per carrier

STSRX+Y configurations using 9341 RRH40-21 are perfectly suited to support UTRAN sharing.

STSR 2+1 @20W/car

X X X X X X X X X X

Block 1 (F1&F2)

Block 2 (F3&F4)

2110MHz

2170MHz

X X X X X X X X X X

STSR 2+2 @20W/car

F1+F2 Tx F1+F2+F3 Rx main

F3 Tx F1+F2+F3 Rx div

F1+F2 Tx F1+F2+F3+F4 Rx main

F3+F4 Tx F1+F2+F3+F4 Rx div

RRH1

RRH2

RRH1

RRH2

To dNodeB

To dNodeB

Figure 10 ­ 9341 RRH40-21 in STSR2+1 & STSR2+2 Configurations

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9341 RRH40-21 PRODUCT DESCRIPTION

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4.2.2

Daisy-Chain Evolution

In the future, up to three 9341 RRH40-21 (up to six in single carrier configuration) may be daisy-chained on the remote site linked to the Digital Node B by a single optical fibre link. This feature will be an enabler for deployment using long-distance fibre run, as it will minimize the number of dark fibres required, translating into operator CAPEX and OPEX savings.

Multiple single-sector sites on one single fiber

dNode B dNode B

RRH

RRH

RRH

RRH RRH RRH

Node B "Hotel"

STSRx on one single fiber

Figure 11 ­ 9341 RRH40-21 in Daisy-Chain Configuration

4.2.3

Tx Diversity Evolution

Tx diversity (future) will require the co-location of a second 9341 RRH40-21 per sector. Using the daisy-chain feature, an additional short range fibre link will be required between two co-located 9341 RRH40-21. As an alternative site solution, the second 9341 RRH40-21 can be connected using a direct fibre connection to the digital Node B (6 fibres from digital Node B).

RRH RRH

RRH RRH

RRH RRH

dNode B

Figure 12 ­ 9341 RRH40-21 in TX Diversity Configuration, using Daisy-Chain feature

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5

5.1

APPENDICES

Appendix A: Publication History

13/JUN/2007

Issue 01.01 / EN, Draft Creation of the document

20/JUN/2007

Issue 01.02 / EN, Preliminary Update of the document

13/AUG/2007

Issue 01.03 / EN, Preliminary Update of the document

22/OCT/2007

Issue 01.10 / EN, Standard Update of the document

14/JAN/2008

Issue 01.11 / EN, Standard Update of the document

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9341 RRH40-21 PRODUCT DESCRIPTION 5.2 Appendix B: Related Reading

5.2.1

[A1] [A2] [A3] [A4]

JANUARY 2008

Applicable Documents

3GPP TS25.104, v 6.8.0: Base Station radio transmission and reception (FDD) 3GPP TS25.141, v 6.8.0: Base Station conformance testing (FDD) 3GPP TS25.113: Base Station and repeater Electro-Magnetic Compatibility EN 301 489-1 Electromagnetic compatibility and Radio spectrum Matters (ERM); Electro-Magnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements EN 301 489-23 Electromagnetic compatibility and Radio spectrum Matters (ERM); Electro-Magnetic Compatibility (EMC) standard for radio equipment and services; Part 23: Specific conditions for IMT-2000 CDMA Direct Spread (UTRA) Base Station (BS) radio, repeater and ancillary equipment EN 301 908-1 Electromagnetic compatibility and Radio spectrum Matters (ERM); Base Stations(BS) and User Equipment (UE) for IMT2000 Third-Generation cellular networks; Part 1: Harmonized EN for IMT-2000, introduction and common requirements, covering essential requirements of article 3.2 of the R&TTE Directive EN 301 908-3 Electromagnetic compatibility and Radio spectrum Matters (ERM); Base Stations(BS) and User Equipment (UE) for IMT-2000 Third-Generation cellular networks; Part 3: Harmonized EN for IMT-2000, CDMA Direct Spread (UTRA FDD) (BS) covering essential requirements of article 3.2 of the R&TTE Directive IEC 60721-3-1 Classification of groups of environmental parameters and their severities ­ Storage Classes 1K4/1Z2/1Z3/1Z5/1B2/1C2(1C1)/1S3/1M2 temperature-controlled storage locations) (Weather protected, not

[A5]

[A6]

[A7]

[A8]

[A9]

IEC 60721-3-2 Classification of groups of environmental parameters and their severities ­ Transportation Classes 2K3/2B2/2C2/2S2/2M1 (Careful transportation)

[A10]

IEC 60721-3-4 Classification of groups of environmental parameters and their severities - Stationary use at non-weather protected locations Classes 4K2/4Z5/4Z7/4B1/4C2/4S2/4M5. Except for: low temperature (­40°C), high temperature (+50°C), relative humidity levels (between 8% and 100%) condensing and high absolute humidity (36g/m3)

[A11] [A12] [A13]

ETS 300 019-1-4 Classification of environmental conditions - Stationary use at nonweather protected locations ETS 300 019-2-4 Specification of environmental tests - Stationary use at non-weather protected locations IEC 60721-2-6 Classification of environmental conditions Part 2: Environmental conditions appearing in nature ­ Earthquake vibration and shock. : Zone 4

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9341 RRH40-21 PRODUCT DESCRIPTION

[A14] [A15] [A16] [A17] [A18] [A19] [A20] [A21]

JANUARY 2008

GR-63-CORE Telcordia NEBS Requirements: Physical Protection. R4.4.4 & R5.4.1 Zone 4 IEC 60529 Degrees of Protection Provided by Enclosures (IP Code) IEC 60950-1 Safety of information technology equipment EN 60950-1 Safety of information technology equipment EN 60825-1 Safety of laser products - Part 1: Equipment classification, requirements and user's guide CPRI Specification V2.1: Common Public Radio Interface (CPRI): Interface Specification ETS 300132-2 Power supply interface at the input to telecommunications equipment, operated by direct current (dc) European Directive 2002/95/EC Directive of the European Parliament and of the Council of 27 January 2003 on the Restriction of the use of certain Hazardous Substances in electrical and electronic equipment (RoHS) European Directive 2002/96/EC Directive of the European Parliament and of the Council of 27 January 2003 on Waste Electrical and Electronic Equipment European Directive 1999/5/EC Directive of the European Parliament and of the Council of 9 March 1999: R&TTE EN 50385 Product standard to demonstrate the compliances of radio base stations and fixed terminal stations for wireless telecommunication systems with the basic restrictions or the reference levels related to human exposure to radio frequency electromagnetic fields (110 MHz ­ 40 GHz) ITU-T G652: SERIES G: TRANSMISSION SYSTEMS AND MEDIA, DIGITAL SYSTEMS AND NETWORKS - Transmission media characteristics ­ Optical fibre cables: Characteristics of a single-mode optical fibre and cable ITU-T G651: SERIES G: TRANSMISSION SYSTEMS AND MEDIA, DIGITAL SYSTEMS AND NETWORKS - Transmission media characteristics ­ Optical fibre cables: Characteristics of a 50/125 m multimode graded index optical fibre cable

[A22] [A23] [A24]

[A25]

[A26]

5.2.2

[R1] [R2] [R3]

Reference Documents

UMT/BTS/INF/019435: digital 2U Node B Product Description UMT/BTS/INF/007944: UMTS BTS 12010, Indoor version 2 Customer Product Overview UMT/BTS/INF/012284: UMTS BTS 12020, Outdoor version 2 Customer Product Overview

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9341 RRH40-21 PRODUCT DESCRIPTION 5.3 Appendix C: Glossary & Acronyms

5.3.1

Fibre link

JANUARY 2008

Glossary

A fibre link is: · · Either one physical fibre when Single-Mode optical propagation is used (using CWDM), Either a pair of fibres when Multi-Mode optical propagation is used: one fibre carries the downlink signal, the other one the uplink signals (Main and Diversity digital streams are multiplexed into a single HSSL stream).

Node B

A logical node responsible for UMTS radio transmission/reception in one or more cells to/from the User Equipment.

5.3.2

Acronyms

1 - 10

3GPP Third Generation Partnership Project

G-S

HW HSDPA IEC IP Hardware High Speed Downlink Packet Access International Electrotechnical Commission Ingress Protection Multi Carrier Power Amplifier Multi-Mode (fibre) Mean Time Between Failures Operation and Maintenance Remote Electrical Tilt RET Automatic (Alcatel-Lucent RET solution) Radio Frequency Restriction of the use of certain Hazardous Substances Remote Radio Head Receiver/Receive Small Form-factor Pluggable Single-Mode (fibre) Software

A-D

AC AISG BTS CWDM DC DL EMC FDD Alternating Current (Power source) Antenna Interface Standard Group Base Transceiver Station Coarse Wavelength Division Multiplexing Direct Current (Power source) Downlink Electro-Magnetic Compatibility Frequency Division Duplex

MCPA MM MTBF O&M RET RETA RF RoHS RRH RX SFP SM SW

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9341 RRH40-21 PRODUCT DESCRIPTION

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T-W

TMA TX UL UMTS UTRAN VSWR WEEE Tower Mounted Amplifier Transmitter/Transmit Uplink Universal Mobile Telecommunication System Universal Terrestrial Radio Access Network Voltage Standing Wave Ratio Waste of Electrical and Electronic Equipment

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