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ALCATEL-LUCENT WIMAX SOLUTION
ALCATEL-LUCENT 9116
COMPACT
WIMAX BASE STATION
Compact WiMAX Base Station
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Scope
This document gives a description of the Alcatel-Lucent 9116 Compact WiMAX Base Station. Its major
purpose is
The information contained in this document is subject to change without notice.
Notice of proprietary information
This document contains proprietary technical information belonging to Alcatel-Lucent. By accepting this
material, the recipient agrees that this material will neither be reproduced nor used in whole or part
except as otherwise agreed between Alcatel-Lucent and the recipient.
to provide general information and to give technical data about the Base Station Compact,
to describe the Base Station Compact product range and configurations,
Compact WiMAX Base Station
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TABLE OF CONTENT
1. INTRODUCTION 5
2. PRODUCT HIGHLIGHTS 7
3. WIMAX BASE STATION IN RAN ARCHITECTURE 9
3.1 WIMAX RAN ARCHITECTURE 9
3.2 THE COMPACT WIMAX BASE STATION CONCEPT 10
4. COMPACT WIMAX BASE STATION ARCHITECTURE 12
4.1 OVERALL ARCHITECTURE 12
4.2 MAIN MODULES 13
4.2.1 NETWORK AND MODEM 13
4.2.2 RF MODULES 14
4.2.3 POWER SUPPLY 14
4.3 INTERFACES 15
4.4 MECHANICAL AND INSTALLATION PRINCIPLES 15
4.4.1 MOUNTING FRAME AND CONNECTION BOX 16
4.4.2 PROTECTION COVER 16
4.5 INSTALLATION AND COMMISSIONING 16
5. MAIN FEATURES 18
5.1 RADIO 18
5.1.1 FREQUENCY BANDS, MODULATION AND DUPLEXING MODE 18
5.1.2 RADIO PERFORMANCES 19
5.1.3 ENHANCED RADIO FEATURES 21
5.1.4 MULTIPLE ANTENNAS PROCESSING 22
5.2 TELECOM AND SYSTEM FEATURES 23
5.3 OPERATION & MAINTENANCE 25
5.4 BACKHAULING 27
6. MAIN CHARACTERISTICS & TECHNICAL DATA 29
7. PRODUCT RANGE 30
7.1 CONFIGURATIONS 30
7.1.1 BASE STATION COMPACT CONFIGURATIONS 30
7.1.2 ANTENNA CONFIGURATIONS 31
7.2 OPTIONS 31
Compact WiMAX Base Station
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7.2.1 PROTECTION COVER 31
7.2.2 INTEGRATED FANS 32
7.2.3 EXTERNAL ALARMS 32
7.2.4 OPTICAL CONNECTIONS 33
7.2.5 SITE SUPPORT CABINET 33
8. RADIO SITES ASPECTS AND INSTALLATION 35
8.1 INTRODUCTION, MAIN ALCATEL-LUCENT PRINCIPLES 35
8.2 SITE INSTALLATION 36
8.2.1 INDOOR INSTALLATION EXAMPLE 36
8.2.2 ON THE WALL INSTALLATION EXAMPLE 37
8.2.3 ON THE POLE INSTALLATION EXAMPLE 37
8.3 SMART ANTENNA SOLUTION 38
9. ENVIRONMENTAL AND EMC CONDITIONS 39
9.1 ENVIRONMENTAL CONDITIONS 39
9.2 ELECTROMAGNETIC COMPATIBILITY (EMC) 39
9.3 ACOUSTIC NOISE AND ULTRASONIC 39
9.4 ENVIRONMENTAL PROTECTION FOR OUTDOOR 39
9.5 ENVIRONMENTAL PROTECTION FOR INDOOR 39
9.6 ENVIRONMENTAL REQUIREMENTS (ROHS DIRECTIVE, WEEE AND ECMA) 40
9.7 US ENVIRONMENTAL CONDITIONS 40
9.8 OPERATION OF COMPACT WIMAX BASE STATION 40
9.9 TRANSPORTATION OF COMPACT WIMAX BASE STATION 41
9.10 STORAGE OF COMPACT WIMAX BASE STATION 42
Compact WiMAX Base Station
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1. INTRODUCTION
� INVESTING IN YOUR NETWORK. INVESTING IN YOUR FUTURE
In the deployment of such new radio technology and new services, the optimization of the CAPEX is a key
parameter for the overall success and to permit operators to reach financial targets.
Alcatel-Lucent designs WiMAX radio solutions for
The smallest total cost of ownership
Their optimum adaptation to environmental constraints
All radio access networks are living networks with a long term investment: there’s no shortage of
challenges confronting operators that deploy new network : How to contain infrastructure investment and
answer to traffic growth and network densification? How to optimize the network and ensure high quality?
How to guarantee network evolution? How to minimize churn while generating new revenues? How to
introduce new services? Well, Alcatel-Lucent helps you turn these business challenges into opportunities
with Alcatel-Lucent WiMAX solution.
Conscious of the necessity for operators to get compact equipment with high performance, Alcatel-Lucent
launched the Evolium™ Concept for its successful mobile radio access portfolio (2G and 3G) and follows
the same approach for its new WiMAX portfolio. This product development strategy is based on the
following key principles guaranteeing optimized total cost of ownership :
Flexible architecture, permitting optimized configurations to answer various operators requests and
sites constraints, and easy and with backwards compatibility, of new modules.
Reduced number of modules and plug & play approach,
Intensive usage of DSP and FPGA rather than specific chipset or ASIC ensures a Software upgrade only
strategy, to permit introduction of new features on installed equipments,
Multi-access and Multi-standard strategy : to house in same Base Station Cabinet several radio access
technologies, such 2G, 3G and WiMAX,
The Alcatel-Lucent 9116 Compact WiMAX Base Station has been designed with the main goal of facilitating
site acquisition and installation in a wide variety of environment, while offering cost-efficient operation
and flexibility for future evolutions, and is part of the same family as Micro Base Station for GSM and UMTS
and largely deployed since 1999 in Mobile Operators.
Compact WiMAX Base Station
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GSM
Micro BTS
1998
EDGE
Micro BTS
2003
UMTS
Micro NodeB
2004
WiMAX
Base Station
2006
GSM
Micro BTS
1998
EDGE
Micro BTS
2003
UMTS
Micro NodeB
2004
WiMAX
Base Station
2006
Compact WiMAX Base Station
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2. PRODUCT HIGHLIGHTS
� CAPEX OPTIMIZATION
Flexible and Shelteress Site Solution
Reduction of site costs. The Base Station is extremely compact and modular, which considerably simplifies
site acquisition and operation.
Wall or pole installation
Indoor or outdoor installation
Various Site Options (site support cabinet, antennas etc..)
Minimum volume and weight, the most compact WiMAX Base Station,
High temperature environment support with optional fan,
No acoustic noise emission thanks to convectional cooling concept.
Extended Coverage thanks to Radio Booster features
Optimized Radio Configurations. The Alcatel-Lucent WiMAX offers highly flexible configurations adapted to
all cases of urban and rural coverage. Combined with the right radio features such as smart antennas, this
allows network deployment with a minimum number of additional sites.
Output power of up to 35dBm per RF chain,
Embedded Smart Antennas
Future Proof Solution,
Thanks to the Evolium concept, the Alcatel-Lucent Compact WiMAX Base Station solution can easily evolve
towards
Support of enhanced features like MIMO for smart antennas, enhanced mobility mechanisms etc…through
SW upgrade only,
Availability of new frequency bands, according to market demands, can easily be done on top of the 3
main frequencies bands today available (2.3GHz, 2.5GHz, 3.5GHz).
Furthermore the portfolio is evolving towards new BS configurations, WiMAX Base Station Light (2TX/2RX),
macro cabinets including some multi sectors configurations, as well multi carriers capability for all
products; with evolution to multi standard version.
Compact WiMAX Base Station
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� OPTIMIZED OPERATION & MAINTENANCE THROUGH A PLUG & PLAY APPROACH
Reduction of recurring costs. Due to its exceptional compactness and low power consumption, the
Compact WiMAX Base Station significantly decreases site leasing costs and energy expenses.
Reduction of network operating and maintenance costs. All the functions required for operating and
maintaining the base station and the network, based on an Alcatel-Lucent infrastructure, allow simple and
efficient management, minimizing network disruptions.
Easy operation and expansion
Modular mounting concept
Online extension
Plug & play (one module concept) and minimum installation time,
Cabinet with integrated connection box,
Remote inventory,
Auto-test during commissioning
No preventive maintenance (standard configurations),
Two software versions in hot standby.
Compact WiMAX Base Station
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3. WIMAX BASE STATION IN RAN ARCHITECTURE
3.1 WiMAX RAN Architecture
Typically, a WiMAX Access system comprises three basic elements: the User Equipment, the Base Station,
the Access Control and an Operation & Maintenance center as pictured hereafter:
User Equipment / Subscriber Station
Several 802.16e User Equipments are available on the market depending on the service to be offered :
Customer Premises Equipment – CPE
Self install and plug & play indoor modem to offer Wireless DSL services, at home or at
office, including several options, such as Voice Over IP or WiFi access point.
Nomadic User Equipments
Laptops or PDAs can be equipped with WiMAX PCMCIA cards based on 802.16e standard.
WiMAX Base Station
Base Station connects Subscriber Station to a wired network and serves as the wireless equivalent of a LAN
hub. A WiMAX access network with connectivity to the wired network comprises several BS that have some
area of overlap so that mobile devices can roam from one BS to the next seamlessly.
WiMAX Access Control
The WiMAX Access Control (WAC) provides the connectivity for the SS/MSS with the rest of the network
(corporate network, Internet, Core Network, etc). It plays a vital role during the authentication and
WAC
Operation&
Maintenance
BaseStations
W-DSLTerminals
NomadicTerminals
AccessControl
WIMAX RANWIMAX RANWIMAX RAN
WAC
Operation&
Maintenance
BaseStations
W-DSLTerminals
NomadicTerminals
AccessControl
WIMAX RANWIMAX RANWIMAX RAN
Compact WiMAX Base Station
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authorization of the user. Based upon the results of authentication, it may allow the user to access the
network, access some limited local services or deny the access.
Operation & Maintenance Center
The Alcatel-Lucent WiMAX OMC-R will help you in your network deployment while ensuring optimal Quality
of Service (QoS). With the integration of a full set of management features geared to network's special
needs and ready to slide right into operator’s information system.
3.2 The Compact WiMAX Base Station Concept
A Compact WiMAX Base Station (WBS-C) provides wireless Internet access to Subscriber Stations (SS),
which are compliant with Worldwide Interoperability for Microwave Access (WiMAX) standard and IEEE
802.16e. The Base station conveys Internet Protocol (IP) data between the SS and the Internet by
implementing the WiMAX air interface. This provides an equivalent DSL path to the subscriber for Internet
connection and Voice over IP (VoIP) communication, while thanks to embedded mobility mechanisms
based on Mobile IP to bring some nomadicity /portability and mobility functions.
The Alcatel-Lucent Compact WiMAX Base Station is based on a single carrier with embedded 4 antennas
AAS system in a single box concept that offer full flexibility to answer various sites constraints.
Rural or Urban sites,
Mono sector or Multiple-sector (typically 3) sites configuration,
As a general solution the Alcatel-Lucent WiMAX solution relies on an IP transport based solution. The Radio
site (where several BS can be co-located, for instance a tri-sectorized site will use 3 Base Stations) is build
around a LAN concept. To connect the BS to the various kinds of WiMAX Access Network (WAN) transport
layer a Transport Adapter box must be used to convert from WAN to LAN. (The sectorized BSs of a site are
connected through LAN to the Transport Adapter box.)
The BSs can be connected either in star configuration (Site A,B) or in chain configuration (site X).
Therefore the Alcatel-Lucent WiMAX BS is equipped with two LAN interfaces for user traffic. In case of
Compact WiMAX Base Station
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outdoor installation, only optical LAN interfaces of the Base Station Compact can be used to perform the
daisy chain between BSs. In indoor cases, the electrical LAN interfaces can be used for chain purposes.
Different sites can arranged in a WAN chain if this is supported by the Transport box (site A,B).
A typical configuration is 3 sectors per site, one BS per sector, but the Alcatel-Lucent BS can be installed
in any configurations sites (mono sector or multi sectors – 2, 3, 4 etc....).
Compact WiMAX Base Station
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4. COMPACT WIMAX BASE STATION ARCHITECTURE
4.1 Overall Architecture
The Compact WiMAX Base Station architecture is based on a flexible architecture with only 4 main
modules integrated in a single housing making the Alcatel-Lucent solution the most compact WiMAX
Base Station.
NEMO Module
Network and Modem module, in charge of transmission, O&M and baseband processing,
RFCO Module,
The Quad RF Converter module, in charge of digital to/from analog RF signal transformations,
FEU Module,
The Front End Unit including Power Amplifier (PA), Low Noise Amplifier (LNA) and antenna
filtering,
Power Supply Module,
In charge from mains to supply various DC voltage to internal modules,
Power SupplyAC or DC
NEMO – Network & Modem
RFCOQuad RF Converter
4 Tx/Rx RF
conversion
LMT
Alcatel-Lucent 9716 Base Station
Filter
LNA
PA
Filter
LNA
PA
Filter
LNA
PA
Filter
LNA
PA
LAN 1
SW programmable
Component Implementation
BTS ManagementO&M
MACLayer
802.16e
PHYLayer
802.16e
IP /
Eth
ern
etT
ran
spo
rt
4 x
DA
C /
AD
C
GPSReceiver
TimingUnit
Inte
rfac
eC
on
nec
tio
nE
ntr
y B
ox
Power SupplyAC or DC
NEMO – Network & Modem
RFCOQuad RF Converter
4 Tx/Rx RF
conversion
LMT
Alcatel-Lucent 9716 Base Station
Filter
LNA
PA
Filter
LNA
PA
Filter
LNA
PA
Filter
LNA
PA
LAN 1
SW programmable
Component Implementation
BTS ManagementO&M
MACLayer
802.16e
PHYLayer
802.16e
IP /
Eth
ern
etT
ran
spo
rt
4 x
DA
C /
AD
C
GPSReceiver
TimingUnit
Inte
rfac
eC
on
nec
tio
nE
ntr
y B
ox
Compact WiMAX Base Station
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2 FEUs
2 FEUs
Power Supply
NEMO
Quad RFCo
2 FEUs
2 FEUs
Power Supply
NEMO
Quad RFCo
4.2 Main Modules
4.2.1 Network and Modem
This module includes 3 main functionalities implemented,
802.16e MAC
Based on flexible and powerful Network Processor platform.
802.16e PHY,
Based on EVOLIUM concept, and to ensure a complete future proof approach through SW
upgrade, the PHY layer including all required digital signal processing are implemented on a
combination of DSP and FPGA
Base Station Compact O&M
As well, the NEMO board provides the transmission function while hosting an IP/Ethernet
transport functionality ensuring the L3/L2 transport to and from WAC, OMC configuration and
monitoring management, as well as to other chained base stations.
For TDD synchronisation purposes BS is equipped with a GPS receiver to synchronize its frame
(timing and frequency) with other BS in the network.
NEMO Module
Compact WiMAX Base Station
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4.2.2 RF Modules
4.2.2.1 RFCO Module
The Quad RF converter module performs digital base band to RF conversion in Tx direction and vice versa
in Rx direction. To serve 4 antennas, the mentioned functionality is implemented 4 times on the Quad RF
converter board.
4.2.2.2 FEU Module
On the Front End Unit, power amplifier (PA), low noise amplifier (LNA), RF filter and Rx/Tx antenna
switch to permit the TDD mode of operation, are implemented.
The power amplifier is used in the transmit path and delivers 35dBm RF mean output power to the
antenna connector (43 dBm max with PAPR = 8 dB).
The low noise amplifier is used in receive path and amplifies the received antenna signal.
The RF filter is used in both directions Rx and Tx. In Tx direction the filter is used to prevent from
emitting spurious out of band RF power. In RF direction the filter is used to provide sufficient adjacent
frequency bands rejection to maximize the carrier to interference and noise ratio (CINR) at LNA input.
Through different configuration of switches, transmitted signal can be analysed to adjust predistortion of
the PA in the NEMO board, and also reflected signal or others coming from antenna can be monitored for
the antenna VSWR and array calibration.
4.2.3 Power Supply
The power supply unit delivers the necessary voltages to supply the devices of the BS. Depending on
network request, the input can be: either AC covering 220V AC /110V AC or 48V DC, and it delivers
outputs according modules requests.
The power supply block includes 2 power distribution paths to increase the BS reliability. One path is
feeding the NEMO, half of the RFCO, and 2 FEUs, while the other power path is feeding the NEMO again,
the second half of RFCO, and the 2 last FEUs. In case of failure of one power distribution path, the NEMO
and 2 RF parts are available to carry on WiMAX transmissions.
In option, a site support cabinet is proposed to house apart, 48V DC power supply with battery backup (4h
or 8h), as well as room provision and cabling facilities to welcome microwave transmission equipment
(IDU), additional DC/DC converter, Ethernet wiring/connections, external alarms connection…
Compact WiMAX Base Station
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4.3 Interfaces
BS interfaces
ANT4
PowerSupply
GPSANT
LAN2
LANOPTSFP2
LAN1
LANOPTSFP1
ANT3
ANT1
ANT2
LMT
BS interfaces
ANT4
PowerSupply
GPSANT
LAN2
LANOPTSFP2
LAN1
LANOPTSFP1
ANT3
ANT1
ANT2
LMT
The Alcatel-Lucent Compact WiMAX Base Station provides
4 antennas connectors, (N female connectors with QN adapter)
3 Ethernet interfaces for LAN and Local Maintenance Terminal (LMT)
• Both Electrical and Optical interfaces are possible for LAN network connection.
• RJ45 connectors for indoor electrical interfaces with 100M Ethernet speed (Fast Ethernet)
Outdoor Electrical Ethernet (LAN1+LMT) interfaces are available through hybrid cable.
• Optical interface for fiber LAN backhaul is possible using SFP module; option to be mounted
during commissioning; with 1Giga Ethernet speed. Single mode fiber with LC connector is used,
and LX interface type allows up to 10 km connection.
GPS Antenna Interface, (N female connector with QN adapter)
Power Supply. (Hybrid (connector+cable))
All these interfaces are available directly on BS shell or through the Connection Entry Box
Connection box exemple
4.4 Mechanical and Installation Principles
In addition to the high compactness (26 liters for the basic unit) and the aesthetic side, the Compact
WiMAX Base Station has been designed in a flexible, modular and extensible way to facilitate the
installation and replacement process.
Compact WiMAX Base Station
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4.4.1 Mounting frame and connection box
A mechanical device (mounting frame) allows fast and easy installation or replacement of the Unit. A
connection area (CE box) at the bottom of the BS unit is ready to welcome options as optical connections
(splicing), external alarms board and connections, Ethernet cables for indoor usage.
The mounting frame has to be fixed on the wall or pole. The basic unit can be simply ‘plugged’ at the
frame.
4.4.2 Protection cover
In case of environmental or aesthetics constraints, a protection cover can be added as an option to the
Compact WiMAX Base Station. Please refer to Chapter 7.2 “Options” for details.
4.5 Installation and commissioning
After the fixture of the mounting frame (MOFRA) on the wall or pole, the shell is simply hooked and fixed
with clips to install the basic unit at the frame.
- For tower mounting, the unit can be easily manually lifted, with handwheel and wrope. Two
persons are needed for the operation.
In case the protection cover option is chosen, the back part of the cover is fixed with the mounting frame
.
Both indoor and outdoor (with protection cover) environments are possible.
Compact WiMAX Base Station
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Figure 6: Compact WiMAX Base Station - mechanical units and installation
Flexible collocated positioning of units is possible on the same wall or same mast.
In case of hardware failure the Compact WiMAX Base Station is replaced completely. No on-site
intervention for repair is foreseen.
Manual calibration during commissioning has not to be carried through. Thanks to the modular mounting
concept, the connection box integrated in the cabinet, as well as autotest during the commissioning
phase, the installation or replacement process is easy and fast.
By means of a convectional cooling the temperature range supported by the Compact WiMAX Base Station
is -33 °C up to +45 °C. Thanks to the optional fan mounted on top of the cover, hot-temperature
conditions up to +55 °C can be reached.
Compact WiMAX Base Station
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5. MAIN FEATURES
5.1 Radio
5.1.1 Frequency bands, Modulation and Duplexing mode
Bands
Alcatel-Lucent proposes different bands according to the different available bands for WiMAX services
2,5 GHz licensed band
2.3-2.4 GHz
2.5-2.7 GHz
3,5 GHz licensed band
3.3-3.4 GHz (according to market demand)
3.4-3.6 GHz
3.6-3.8 GHz (according to market demand)
Futhermore Alcatel-Lucent currently investigates the feasibility to extend its product family towards
unlicensed spectrum bands, 5GHz or 700MHz. Nevertheless as the conditions of usage of this band are
quite different (operator business model, constraints on output power and on interference management),
Alcatel-Lucent foresees this evolution in a second wave after availability of WiMAX systems in licensed
bands. The standardization efforts necessary to make evolve WiMAX standards currently adapted for
licensed band usage towards an unlicensed band usage has just started (mid 2005) with the creation of the
802.16h working group in IEEE 802.16 MAN standard.
FFT sizes
1024 & 512
2048 in further release
Modulation and puncturing
For both downlink and uplink, depending on MS capability and Air link propagation conditions (AMC mode),
available modulations and FEC puncturing schemes at BS in CC and CTC mode are:
QPSK ½ & ¾
16-QAM ½ & ¾
64-QAM 2/3 & ¾
64-QAM ½ & 5/6 (in CTC only)
Channel Bandwidth
5.0 MHz, 10.0 MHz
7.0 MHz
Compact WiMAX Base Station
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8.75 MHz
3.5 MHz* (for further release)
14 MHz** or 20 MHz** (for further release)
* (Not in the WiMAX Forum main profile & further release)
**(Not in the WiMAX Forum profile & further release)
Table here under shows mapping between Channel Bandwidth and FFT size:
Channel Bandwidth
20MHz** 14MHz** 10 MHz 8.75 MHz 7 MHz 5 MHz 3.5 MHz*
FFT size 2048 2048 1024 1024 1024 512 512
Duplexing Mode
The duplexing mode is TDD
The DL/UL Frame ratio is configurable from Operation & Maintenance Center in 3 steps: 3/1, 2/1, 1/1
The exact number of OFDM symbols in each DL or UL part depends on the selected channel bandwidth,
and the permutation schemes used within the frame (PUSC, AMC 2*3,…)
Typical configuration for PUSC mode are depicted in the table after
Depending on Channel bandwidth, and possible number of OFDM symbols in 5ms frame, remaining
(TTG+RTG), can reach up to around 160 µs. Adjustable TTG (with 50µs min RTG) values are according
to WiMAX Forum Profile definition; see basic configuration in table here after:
Extended cell range capability (up to around 50km) is possible using extended TTG (+1, +2 or +3 symbols)
and extended ranging region (up to 6 symbols in UL), see Cell range and Extended Celle Range chapter.
5.1.2 Radio Performances
Output power at antenna connector
35 dBm per antenna element
BW (MHz) 3,5 7 5 10 8,75Effective Symbols 33 33 47 47 42TTG min (s) (profile) 188,00E-6 188,00E-6 105,71E-6 105,71E-6 87,20E-6Affordable Range (km) 20,7 20,7 8,36 8,36 5,58
BW (MHz) 3,5 7 5 10 8,75DL:3 1+22+1 1+22+1 1+34 1+34 1+28+1UL:1 9 9 12 12 12DL:2 1+20 1+20 1+30+1 1+30+1 1+26UL:1 12 12 15 15 15DL:1 1+16+1 1+16+1 1+24+1 1+24+1 1+22+1UL:1 15 15 21 21 18Preamble, MAPs+data, possible extra Symbol for TTG in PUSC mode
Compact WiMAX Base Station
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The transmit power is configurable with OMC-R from 25 dBm to 35 dBm with 0.5 dB steps
Peak to Average Power Ratio
PAPR < 8dB
Through different configuration of the FEU module, transmitted signal can be analysed to adjust
predistortion of the PA in the NEMO board, and also reflected signal or others coming from antenna can
be monitored for the antenna Voltage Standing Wave Ratio (VSWR) and array calibration.
Adjacent Channel Leakage Ratio
ACLR > 40 dB
Ramp up/down time for analog part
< 15 µS
Dynamic RX range
Receiver dynamic range = 67 dB
Maximum input signal = -30dBm
Maximum tolerable signal without damage = 0 dBm
Spurious emissions
< -47 dBm
Rx Sensitivity
Receiver input level sensitivity table (in dBm)
QPSK 16QAM 64QAM
BW 1/2 3/4 1/2 3/4 2/3 3/4
3.5 -98.1 -95.1 -92.6 -89.1 -85.1 -83.1
5 -96,5 -93,5 -91 -87,5 -83,5 -81,5
7 -94.8 -91.8 -89,3 -85,8 -81.8 -79.8
8.75 -94.1 -91.1 -88.6 -85.1 -81.1 -79.1
10 -93,5 -90.5 -88 -84,5 -80,5 -78,5
[With : NF = 3dB, implementation (analog+digital) margin = 2.5dB, nominal FEU gain 35dB]
Compact WiMAX Base Station
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Noise Figure
Rx level Noise figure
-100 dBm < Rx ≤ -70 dBm ≤ 3dB
Spectrum mask considered
ETSI EN 302 326 (compliant)
CEP/ERC recommendation 74-01E
ECC recommendation (04)05 (guard bands to be considered)
FCC 04-258 (guard bands to be considered)
5.1.3 Enhanced Radio Features
Output noise power spectral density when Tx is not transmitting:
During UL, transmitter is not exceeding a broadband floor noise higher than –165 dBm/Hz, assuming a
further TX/RX decoupling of 15 dB provided by duplexer.
Frequency flatness:
The absolute difference between adjacent sub-carriers is ≤ 0.1 dB
The total gain flatness is less than 1 dBp-p in any 10 MHz band.
Error Correction Coding
Convolutional Code (CC),
Convolutional Turbo Code (CTC)
Automatic Repeat Request
Standard ARQ
Hybrid ARQ
Permutation schemes
DL: PUSC, AMC 2*3, FUSC
UL: PUSC, AMC 2*3
Frequency reuse
A frequency reuse factor of 1/3 is considered.
A fractional frequency reuse is possible using the segmentation in PUSC mode (segmented PUSC)
Frequency reuse of 1/1 is planned for further release.
Compact WiMAX Base Station
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5.1.4 Multiple Antennas Processing
Scalable antenna solution: C-WBS is a 4*RF chains product optimized for beamforming solution. (MIMO
+ beamforming further release). The product is configurable to use only 2*RF chains over 4 in case
of MIMO 2*2 or diversity schemes. Omni antennas or sectorized standard antennas (diversity) can
be used in 2*RF configuration. A single AAS antenna panel with 4 elements inside (main
configuration) is used in beamforming mode.
2TX/2RX Diversity for 2 antennas configuration, for rural or suburb, or indoor usages, where diversity
gain comes from Maximum Ratio Combining (MRC). Antennas can be sectorized, or omni. With
spatial separation of several waves length, cross polarized antenna embedded inside a single
radome. The Alcatel Lucent Base Station Compact can handle: diversity 2*RX or Full diversity
2TX/2RX, as well MIMO configurations. (see L-WBS for optimized 2*RF chains product)
AAS beamforming algorithm for cell range extension, interference reduction, throughput
improvement.
The theoretical gains, for an antenna array with M elements, are:
20.log(M) for the downlink (e.g. 12 dB for M=4),
10.log(M) for the uplink (e.g. 6 dB for M=4).
Indeed, the gain is higher in downlink since on top
of the diversity gain, the power of each antenna elements adds up.
Beamforming and Cell range extension
Considering the number of sites, AAS with 4 array elements, brings to a coverage enhancement of up
to a factor of 2.
As an example: 100 radio sites with AAS would be more than 200 radio sites with simple SISO system.
Beamforming and Interference reduction
In cellular networks, the spatial concentration of the radiated power leads to a reduced interference
between co-channel cells and thus to smaller frequency re-use distances, as well as higher coverage
probability.
Compact WiMAX Base Station
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Beamforming and AAS throughput gain
Higher link budget and interferences mitigation benefits for a fixed cell range can lead to throughput
increase, considering that more efficient modulation schemes are possible.
Up to 40% throughput gain may be reached using AAS system in comparison with non AAS system.
5.2 Telecom and System Features
Synchronization
1 pulse per second signal from BS GPS receiver is used for timing (TDD frame) and frequency
synchronisation; with accuracy better than 0.5*10-6
4 hours of holdover time can be handled by the timing unit in case of GPS signal loss.
Quality Of Service
Unsolicited Grant Service (UGS), Best Effort (BE), Extended Real Time Variable Bit Rate ErtVBR are
supported. (WiMAX Forum Wave 1 certification.)
Real time and non real time Variable Bit Rate (rt/nrtVBR) part of WiMAX Wave2 are supported as well.
As an example VoIP service, triggered By SIP will use UGS service class over the air to guarantee the
packets QoS. In case of VoIP with silence suppression, the ertVBR class of service will be used over the
air, for better radio bandwidth optimization, as well as nrtVBR service class and RTSP signalling for
Mobile Video applications.
A call admission control function (CAC) will enforce this QoS management in BS, to ensure the
appropriate radio bandwidth sharing.
Air interface typical performances
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The table here after gives an overview of the Base Station Compact radio link capacity (bps) in PUSC
permutation mode, taking into account a TDD frame ratio DL-UL of 2-1 (i.e. 30 useful symbols in DL and 15
symbols in UL, considering 1 symbol preamble, 2 symbols for the MAPs, and 1 symbol to extend TTG
allowing 13km cell range)
Radio link net throughput (bps)(DL+UL) in PUSC vs. radio modulations
(TDD ratio 2-1 (30-15), Maps = 2 symbols)
Typical cell ranges & extended cell ranges
Depending on frequency bands, CPE types, antennas gain, propagation model parameters, outdoor
environments, coverage probability, Channel Bandwidth and TDD frame ratio, etc… the standard cell
range can go from 500 m up to 13 Km, assuming that the minimum cell range given by WiMAX forum
Profile definition is in the table here after:
Cell range extension (up to around 50km) is possible, by adding 1 or 2 or 3 symbols in DL for TTG, and up
to 3 symbols more in UL extending the ranging region; for initial radio entry. Those frame arrangements
allow the longer round trip delay due to the Terminal far location. A radio capacity and throughput
reduction has to be taken into account considering those symbols spent for extended TTG and ranging
within the frame. Table here after gives the possible cell range according to TTG or Ranging
modifications, assuming both modifications in a balanced way (the weakest figures drives) are needed to
achieve the proper cell extension:
Modulations 5 MHz 7 MHz 8.75 MHz 10 MHzQPSK 1/2 2,80E+6 3,87E+6 5,07E+6 5,64E+6QPSK3/4 4,20E+6 5,80E+6 7,60E+6 8,47E+6
16QAM 1/2 5,60E+6 7,74E+6 10,14E+6 11,29E+616QAM 3/4 8,40E+6 11,61E+6 15,21E+6 16,93E+664QAM 1/2 8,40E+6 11,61E+6 15,21E+6 16,93E+664QAM 2/3 11,20E+6 15,48E+6 20,28E+6 22,58E+664 QAM 3/4 12,60E+6 17,41E+6 22,81E+6 25,40E+664QAM 5/6 14,00E+6 19,34E+6 25,34E+6 28,22E+6
BW (MHz) 3,5 7 5 10 8,75Effective Symbols 33 33 47 47 42TTG min (s) (profile) 188,00E-6 188,00E-6 105,71E-6 105,71E-6 87,20E-6Affordable Range (km) 20,7 20,7 8,36 8,36 5,58
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5.3 Operation & Maintenance
Autotesting
Upon activation of the Compact WiMAX Base Station, functioning status is given (all modules active,
antenna equipped) via a LED included in the connection box. During commissioning, the Local Maintenance
Terminal (LMT) is providing a complete view of the BS status.
Reliability and availability
Each basic unit is considered as one module. In case of failure, the complete entity is replaced, and no on-
site repair activity is foreseen.
All components have been chosen with latest technologies and high MTBF values in order to avoid a costly
and not compact redundant solution.
The service availability of a cell, defined as the mean time between two full service interruptions due to
critical hardware failure, is 12 years (functional MTBF).
The advanced architecture of the base Station Compact with 4 RF parts inside brings and additional
degree of reliability assuming that if a failure occurs in one FEU for example, the BS can continue
operating with only 3 RF parts without cutting the services.
The power supply block is including inside 2 power distribution paths. One path is feeding the NEMO, half
of the RFCO, and 2 FEUs, while the other power path is feeding the NEMO again, the second half of RFCO,
and the 2 last FEUs. In case of failure of one power distribution path, the NEMO and 2 RF parts are
available to go on WiMAX transmissions.
Autodetection and configuration
In case of daisy chain configuration, the “master” is the only one which is connected to the WiMAX Access
Control (WAC) interface and downloads the necessary software to all others through its own Ethernet
Switch. In the same way, all the WAC traffic is conveyed through this first edge Base Station. This
“master” function is just a name, this BS is identical to the others, only the way to perform the cabling
differs. (ring topology Vs star topology)
TTG min (s) (WiMAX profile) 188,00E-6 188,00E-6 105,71E-6 105,71E-6 87,20E-6Affordable Range (km) 20,70 20,70 8,36 8,36 5,58TTG min + 1symbol (s) 332,00E-6 332,00E-6 208,57E-6 208,57E-6 202,40E-6Affordable Range1 (km) 42,3 42,3 23,79 23,79 22,86TTG min + 2 symbols (s) 476,00E-6 476,00E-6 311,43E-6 311,43E-6 317,60E-6Affordable Range2 (km) 63,9 63,9 39,21 39,21 40,14TTG min + 3 symbols (s) 620,00E-6 620,00E-6 414,29E-6 414,29E-6 432,80E-6Affordable Range3 (km) 85,5 85,5 54,64 54,64 57,42Ranging min capability (km) 19,2 19,2 13,71 13,71 15,36Ranging +1 symb capability (km) 38,4 38,4 27,43 27,43 30,72Ranging +2 symb capability (km) 57,6 57,6 41,14 41,14 46,08Ranging +3 symb capability (km) 76,8 76,8 54,86 54,86 61,44BW (MHz) 3,5 7 5 10 8,75
Compact WiMAX Base Station
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From the OMC-R, a Compact WiMAX Base Station site configuration in which several basic units are
connected in this mode (more than 1 sector configuration) appears as several independent WiMAX Base
Stations, which are assigned to different sectors.
A set of dedicated autotests is available in order to reduce the commissioning time of less than 20 minutes
(commissioning tests and configuration parameters acquisition).
Power Up Self Test and on-line Diagnostic
Commissioning tests
Remote SW Downloading and Release Management
Data migration in case of SW Replacement
Software up-grade
Two-software-versions storage: the Alcatel-Lucent Compact WiMAX Base Station is able to store
two software versions with the possibility of activating one or the other on request from OMC-R.
Base Station Compact Local Maintenance Terminal
Alcatel-Lucent provides a Local Maintenance Terminal (laptop) with complete set of O&M features
• Equipment Commissioning Network interface test TX power External alarms mapping HW Inventory editing, BS site-name
• Online Help
• Graphical BS Picture
• Installation Wizard
• Commissioning Wizard
Network Management of Base Station Compact from OMC-R
The Compact WiMAX Base Station can be entirely managed from the Operation and Maintenance Center
Radio that provides, a complete set of configuration and monitoring features from a central remote
Compact WiMAX Base Station
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access. The link between the OMC server and the BS is secured using SNMPv3 protocol, and
user_name/password authentication for the user.
The main functions related to this remote management of the BS are:
• Configuration Management
− - Topology Management
− - Supervision Management
− - Equipment Management
− - Software Management
• Fault Management
− Network Supervision
− Alarms Handling
• Performance Management
− Permanent network-wide QoS Monitoring
5.4 Backhauling
The Compact WiMAX Base Station is using electrical Ethernet or optical Ethernet interfaces, 100bps or
1Giga bps.
According to channelization 5MHz or 10MHz respectively 10 Mbps or 20 Mbps throughput has to be
considered per BS (1 sector).
In basic cellular deployment, 3 sectors are foreseen leading to 25 Mbps or up to 45 Mbps throughput to
convey.
Star topology of these 3 BSs is possible as well as ring topology, thanks to the built in daisy chain
capability of the Base Station Compact to provide single interface to the Access Node (Point Of Presence).
For outdoor installation, only optical LAN interfaces have to be used to perform the daisy chain topology.
For indoor installation, electrical LAN interfaces become available for daisy chain purposes.
Alcatel-Lucent evaluates the feasibility to propose some integrated solutions for Backhauling, mainly
Wired equipment
Optical Multi services nodes with Ethernet over STM1/4/16 access boards
Ethernet over G-SHDSL
Wireless equipment
Microwave PDH or SDH
Self backhauling
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Half of the sector capacity is used for access while the other half is used for back-hauling. The
traffic is redirected by the BS over the air towards a dedicated CPE which aggregates all the user
traffic. (further release)
AccessControl
Chained site
Electrical or OpticalFast or GIGA bit Ethernet
Trans-port
Adapter
BS
BS
BSTrans-port
Adapter
IP
RadioSite
Typical1 to 3 Cells per Radio Site
Transport Adapters are commodity products (e.g. IP-routers, Microwave or DSL equipment)
AccessControl
Chained site
Electrical or OpticalFast or GIGA bit Ethernet
Trans-port
Adapter
BS
BS
BSTrans-port
Adapter
IP
RadioSite
Typical1 to 3 Cells per Radio Site
Transport Adapters are commodity products (e.g. IP-routers, Microwave or DSL equipment)
AccessControl
Chained site
Trans-port
Adapter
BS
BS
BSTrans-port
Adapter
IP
RadioSite
Typical1 to 3 Cells per Radio Site
Transport Adapters are commodity products (e.g. IP-routers, Microwave or DSL equipment)
Electrical* or Optical**Fast or GIGA bit Ethernet
*only for indoor chain, **for outdoor & indoor chain
AccessControl
Chained site
Trans-port
Adapter
BS
BS
BSTrans-port
Adapter
IP
RadioSite
Typical1 to 3 Cells per Radio Site
Transport Adapters are commodity products (e.g. IP-routers, Microwave or DSL equipment)
Electrical* or Optical**Fast or GIGA bit Ethernet
*only for indoor chain, **for outdoor & indoor chain
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6. MAIN CHARACTERISTICS & TECHNICAL DATA
Power supply
Compact WiMAX Base Station Without cover option (indoor) With cover option (outdoor)
Power supply 110V/220V AC
48V DC
Max power consumption
(4*RF chains)
240 W
Max power consumption
with fan (4*RF chains)
260 W
Battery Backup (DC 48V) Provided with Site Support Cabinet Option
Dimensions
Compact WiMAX Base Station without cover option (indoor) with cover option (outdoor)
Height 750 mm 818 mm / 940 mm with fan*
Width 384 mm (max) 450 mm (max)
Depth 137 mm (max) 190 mm (max)
Weight 25 kg 30 kg
Volume 34 l * 54 l *
* The cabinet volume includes modules, mounting mechanics, connection box, lightning protection, as well as provisions for
extension, provisions for optional fan.
Fans speed is controlled depending on air temperature, noise < 54 DBA
Temperature Range
Compact WiMAX Base Station without cover option (indoor) with cover option (outdoor)
Temperature range -33 °C to + 45 °C -33 °C to + 45 °C (+55 °C with fan option)
Environmental Conditions
Compact WiMAX Base Station With cover option (outdoor)
Environmental Conditions EU : ETS 300 019-1-4, class 4.1 ; IP55
US : NEBS Requirements
GR-63-Core : Physical protection
GR-1089-Core : EMC and Electrical Safety
UL-60950 : ANSI standards on safety
Compact WiMAX Base Station
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7. PRODUCT RANGE
This chapter describes all possible configurations and options of the Alcatel-Lucent Compact WiMAX Base
Station.
7.1 Configurations
7.1.1 Base Station Compact Configurations
Alcatel-Lucent proposed different variant of Base Station Compacts based on
• Frequency Band (up to 200MHz bandwidth per variant)
• Power Supply AC or DC
• Antenna Configuration
Frequency Band
• 3,5 GHz licensed band
3.3-3.4 GHz (according to market demand)
3.4-3.6 GHz
3.6-3.8 GHz (according to market demand)
• 2,5 GHz licensed band
2.3-2.4 GHz
2.5-2.7 GHz (2.496 GHz – 2.690 GHz)
The WiMAX Forum recommendations in profile definition state about 250 KHz steps for the carrier. The
Center frequency of the BS is configurable with OMC-R with the same granularity.
Power Supply
For AC:
• Nominal voltages: 110Vac and 230/240Vac
• Input voltage range: 85Vac ... 270Vac
• Frequency: 47Hz ... 63Hz
• Max hybrid cable length = 80m
For DC:
• Nominal voltages: 48VDC to 60VDC (+- 20%)
• Input voltage range: 38VDC to 75 VDC
• Max hybrid cable length = 60m
Compact WiMAX Base Station
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7.1.2 Antenna Configurations
The Alcatel-Lucent Compact WiMAX Base Station supports different antenna configurations:
4 Rx / 4 Tx antennas (Smart Antennas): half-wavelength spaced 4 elements antenna array using a
single radome and housing (AAS mode). (BS with 4*RF chains)
2 Rx / 2 Tx antenna: diversity optimised configuration with 2 antenna elements, spaced at several
wavelengths (5 to 10) and each having an individual radome and housing; or two cross polarised
antennas in a single one; for omni or sectorised sites (BS with 2*RF chains activated over 4)
2 Rx / 1 Tx with omni or sectorized antennas, for low density area. (BS with 2*RF chains activated
over 4)
See L-WBS for optimized 2*RF chains product usage.
For a cellular deployment with 120° sectors the recommended AAS antenna arrays are composed of
antenna elements with each having:
• Gain: 17dBi (per element, 23 dBi for the AAS array)
• Impedance: 50 Ohms
• Front to back ratio: < -30 dB
• Return loss: > 20dB
• Side lobe suppression: > 20 dB
• VSWR within the frequency band lower than 1.4:1
7.2 Options
7.2.1 Protection cover
For each basic unit, Alcatel-Lucent provides as an option, an appropriate protection cover. It will protect
the Compact WiMAX Base Station equipment against environmental impact (dirt, wind, sun radiation, etc.)
and unauthorized access.
Moreover, thanks to its lightness, the cover is greatly adaptable to the environment.
The use of the cover is recommended for Outdoor environments, or in case of aesthetics constraints in
Indoor environments (public rooms).
The cover is made up of four parts:
• the back part, fixed with the mounting frame during the installation process,
• the front part,
• the top part,
• the bottom part, which gives the access to the connection box.
The second variant is mandatory in case of choosing integrated antenna option.
Compact WiMAX Base Station
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If the fan option is chosen, the top part of the cover is replaced by another one in which fans are
integrated.
Figure 7: Protection cover
7.2.2 Integrated fans
The standard product is designed to support temperature up to +45°C. Fans are added for operating
temperature up to +55°C (cf above pictures).
This option is a special top cover including:
• A fan cassette (with two fans),
• A fan control board,
• DC and alarms cables.
The speed of the fans is controlled depending on the temperature. In case of failure, an external alarm is
sent to the OMC-R.
The replacement from the standard top cover to the special one (including the fans) is done on field
during the installation process. The protection cover is mandatory when using the fans.
7.2.3 External Alarms
An additional external alarms board can be added within the Connection Entry Box of the C-WBS during
installation allowing the supervision from OMC of 4 external alarms (dry loop contacts open or closed)
available around the Base Station Compact (Shelter alarm, contact for open door, smoke detector, water
detector…)
Up to 100m of alarm cable length is possible from Base Station Compact to the detector, that affords a
wide variety of site connections.
Compact WiMAX Base Station
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Connection Entry Box and External alarms board
7.2.4 Optical connections
Alcatel Lucent Base Station Compact is providing optical LAN connections providing GIGA Ethernet
interfaces. The optical connections can be used to reach far location access point (up to 10km) using
single mode fiber and LC connections at BS. The optical connections is the as well the mandatory mean to
perform outdoor multiple BSs daisy chain configuration.
The Optical connections are performed using mechanical splicing techniques and optical patch cord at BS
and optical fiber access box. In star or daisy chain topology the appropriate optical connections are done
within the optical fiber access box for the “ground” access part as well as within the CE box at BS level.
SFP cages inside the C-WBS CE box are ready to welcome 1 or 2 SFP module(s) to perform respectively star
or daisy chain configurations.
Ground
Tower / Mast
Optical FibreCables
A9116 WiMAXBase Stations
IndoorOptical Fibre
Access
Connectors
7.2.5 Site Support Cabinet
The Site Support Cabinet (SSC) is an optional unit that can be added on a site to handle up to 3 Compact
WiMAX Base Stations. It consists of a separate outdoor cabinet which provides secure Power Supply
(48VDC) with battery backup, accomodations for Microwave backhaul equipment (IDU), as well as facilities
for electrical or optical LAN connections and power connections for BSs.
Compact WiMAX Base Station
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The characteristics of the site support cabinet are:
• Battery backup (the system is sized to provide a battery backup time of 4H or up to 8H (with
additional +4h backup option) for a Compact WiMAX Base Station sites (up to 3*BS) with
backhauling options.
• Size: H*W*D: 1530*700*800 cm (exemple)
• Environmental: EN55022, EN60215, EN60950, EN50116, EN6100, EN300, ETS300, IEC529, ROHS,
Bellecore (Telcordia), UL, CE marking…
• Temperature range from -33 to + 55°C thanks to an advanced cooling system (air conditioning)
(heat exchanger option can be provided for lower ambient temp (max 35°C).
A free space (7U) and 330W (-48V DC) power is available in the cabinet for options such as:
• Microwave baseband units
• Network termination and Access point
Protections for lightning (surge protections), primary power supply, rectifier and batteries (DC over
voltage) as well as over temperature (>70°C) are available
6U Battery
4H Autonomy
1U free
6U Battery
4H autonomy
1U free
3U Power Rack 1200W (N+1)
4U Equipement
3U free
Figure 9: Site Support Cabinet overview
Compact WiMAX Base Station
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8. RADIO SITES ASPECTS AND INSTALLATION
8.1 Introduction, main Alcatel-Lucent principles
Minimize the radio sites and reuse existing sites
Overall WiMAX network deployment strategy is to deliver high throughput nomadic services with a global
coverage. In the deployment of such new radio technology and new services, the optimization of the
CAPEX is a key parameter for the overall success and to permit operators to reach financial targets. As the
main part of operator’s network investment is made of radio sites, it is an absolute target in order to
achieve this coverage strategy to minimize number of radio sites.
As Radio sites are becoming more and more a scare resources, due to raising environmental concerns, an
adequate strategy would be to favor solutions for sharing sites between existing deployed cellular
networks sites and WiMAX networks.
Environmental Concerns
It is also essential to realize that radio system deployment should take account of increasing
environmental concerns. The deployment of new radio systems should comply with new regulations.
However, worldwide it is proving an enormous challenge to find new radio sites. Consequently there is a
need for innovative radio sites solutions and solutions to easely integrate Compact WiMAX Base Stations in
existing radio sites and reduce visual impact of antennas.
The main principles of Alcatel-Lucent Radio site solutions
Easy integration of Compact WiMAX Base Station on site
• Compact Equipment
Compact WiMAX Base Station
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• Optimized and Integrated Smart Antenna System
Flexibility : a solution for all sites
• Indoor and Outdoor
• Easy installation in any site, on wall, on pole
Smart Antenna Solution
• Integrated 4 Antennas AAS system
8.2 Site Installation
Alcatel-Lucent designs a very compact Compact WiMAX Base Station (50 liters, 32 kg only !) that can be
installed in all sites environments from urban to rural : indoor, outdoor rooftop, outdoor instreet, on the
antenna tower, shared site with GSM, CDMA, WCDMA etc….
The most compact WiMAX Base Station
For High Power & Radio FeaturesWiMAX 802.16e Solution
The most compact WiMAX Base Station
For High Power & Radio FeaturesWiMAX 802.16e Solution
This « minimum installation approach » provides this required flexibility deployment.
8.2.1 Indoor Installation Example
Compact WiMAX Base Station
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8.2.2 On the wall Installation Example
8.2.3 On the pole Installation Example
Compact WiMAX Base Station
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8.3 Smart Antenna Solution
AAS (Adaptative Antenna System) is a key feature for offering nomadic and mobile services to WiMAX users
with PCMCIA equipments through providing additional gain in link budget.
Alcatel-Lucent develops AAS algorithms based on beamforming technologies with 4 linear array elements
(4 antennas connectors per sector).
Alcatel-Lucent Resarch & Innovation team together with European Universities and Antenna Manufacturers
has launched some advanced studies in order to be able to deliver optimized integrated antenna solutions
with 4 antennas acceptable for radio site deployments, ie compact, with a target of 17dBi antenna gain
(w/o AAS gain) for sectorized antenna (65-90°).
Antenna Dimensions without radome are today estimated around:
3.5 GHz array Dimensions 2.5 GHz array Dimensions
Band : 3.3 to 3.8 Band : 2.3 to 2.7
Height 1000 mm Height 1350 mm
Width 240 mm Width 360 mm
Depth 80 mm Depth 110 mm
AAS Antenna panels
Compact WiMAX Base Station
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9. ENVIRONMENTAL AND EMC CONDITIONS
9.1 Environmental conditions
The environmental conditions define the limits (temperature, humidity, etc.) for WiMAX cabinets in
operation, transportation, and storage conditions as specified in the following classes:
WiMAX
Base Station Compact
Outdoor
Operation ETS 300 019-1-4 class 4.1
Transportation ETS 300 019-1-2 class 2.3
Storage ETS 300 019-1-1 class 1.3
9.2 ElectroMagnetic Compatibility (EMC)
All Compact WiMAX Base Stations fulfill the requirements of the following standards:
EN300 609; EN 55 022; EN300 132; GSM11.21.
Lightning protection:
• Antenna: Nominal impulse discharge current wave (8/20)µs: 10 kA
• AC Nominal impulse discharge current wave (8/20)µs: 10 kA
• Ethernet: Nominal impulse discharge current wave (8/20)µs: 5 kA
9.3 Acoustic noise and ultrasonic
The emitted sound power level does not exceed 30 dBA without fan and 54 dBA with fan in one meter
distance (sound power measured according to ISO 3743).
9.4 Environmental protection for outdoor
The BS unit sheltered by the sun protection cover is designed to meet the environmental protection level
IP55 (with cover for connectors and sun protection) as described in IEC 529 "Classification of degrees of
protection provided by enclosures".
9.5 Environmental protection for indoor
The BS unit designed to meet the environmental protection level IP54 as described in IEC 529
"Classification of degrees of protection provided by enclosures".
Compact WiMAX Base Station
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9.6 Environmental requirements (RoHS Directive, WEEE and ECMA)
The product shall be compliant to following legal requirements:
• Restriction on the use of certain Hazardous Substances (RoHS):
Directive 2002/95/EC
Note: Additional remarks about allowed exemptions (if necessary)
• Directive on Waste of Electrical and Electronic Equipment (WEEE):
Directive 2002/96/EC
9.7 US Environmental conditions
For the US the BS shall support the NEBS requirements:
GR-63-Core: Physical Protection
GR-1089-Core: EMC and Electric Safety
UL-60950: ANSI standards on safety
9.8 Operation of Compact WiMAX Base Station
Climatic conditions for environmental class 4.1 (stationary use at non-weather protected locations):
Environmental parameter Unit Class 4.1
Low air temperature °C -33
High air temperature °C +40 (Note 1)
Low relative humidity % 15
High relative humidity % 100
Low absolute humidity g/m³ 0.26
High absolute humidity g/m³ 25
Rain intensity mm/min 6
Rate of change of temperature °C/min 0.5
Low air pressure kPa 70
High air pressure kPa 106
Sun radiation W/m2 1120 (Note2)
Heat radiation W/m2 Negligible
Movement of the surrounding air m/s 50
Conditions of condensation None Yes
Conditions of precipitation (rain snow, hail) None Yes
Low rain temperature °C 5
Conditions of water from sources other than rain None Splashing water
Conditions of icing and frosting None Yes
Salt fog cycle 3 x 24 h
(IEC68-2-52: Salt-fog environment)
Note 1: The high temperature supported by the Compact WiMAX Base Station is extended
to +45 °C (+55 °C with optional fans)
Compact WiMAX Base Station
Ref.: File Date Edition Page Mar 2007 02p3 41/42
All rights reserved. Passing on and copying of this document, use and communication of its contents not permitted without written authorization.
Note 2: The sun radiation condition is fulfilled only with the optional cover
9.9 Transportation of Compact WiMAX Base Station
Climatic conditions for environmental class 2.3 (transportation):
Environmental parameter Unit Class 2.3
Low air temperature °C -40
High temperature, air in unventilated enclosures °C +70
High temperature, air in ventilated enclosures or
outdoor air
°C +40
Change of temperature air/air °C -40/+30
Change of temperature air/water °C +40/+5
Relative humidity, not combined with rapid
temperature changes
%
°C
95
+45
Relative humidity, combined with rapid
temperature changes air/air at high relative
humidity
°%
°C
95
-40/+30
Absolute humidity, combined with rapid
temperature changes air/air at high water content
g/m 3
°C
60
+70/+15
Low air pressure kPa 70
Change of air pressure kPa/min no
Movement of the surrounding medium, air m/s 20
Precipitation, rain mm/min 6
Radiation, solar W/ m 2 1120
Radiation, heat W/ m 2 600
Water from sources other than rain m/s 1
Wetness None Conditions of wet
surface
Compact WiMAX Base Station
Ref.: File Date Edition Page Mar 2007 02p3 42/42
All rights reserved. Passing on and copying of this document, use and communication of its contents not permitted without written authorization.
9.10 Storage of Compact WiMAX Base Station
Climatic conditions for environmental class 1.3 (non-weather protected storage locations):
Environmental parameter Unit Class 1.3
Low air temperature °C -33
High air temperature °C +40
Low relative humidity % 15
High relative humidity % 100
Low absolute humidity g/m³ 0.26
High absolute humidity g/m³ 25
Rain intensity mm/min 6
Rate of change of temperature °C/min 0.5
Low air pressure kPa 70
High air pressure kPa 106
Sun radiation W/m2 1120
Heat radiation W/m2 Negligible
Movement of the surrounding air m/s 50
Conditions of condensation None Yes
Conditions of precipitation (rain snow, hail) None Yes
Low rain temperature °C 5
Conditions of water from sources other than rain None Splashing water
Conditions of icing and frosting None Yes
End of Document