Alcatel Canada 39T28A03A22A Alcatel 7390 LMDS Multiservice Broadband Wireless User Manual 3cc12426aaaaTQbja01

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Document ID	175937
Application ID	mTthSkDkyAzEow6jbf2b4A==
Document Description	Base Station User Manual 4 of 14
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	249.65kB (3120671 bits)
Date Submitted	2001-10-24 00:00:00
Date Available	2001-12-11 00:00:00
Creation Date	2001-04-13 12:01:57
Producing Software	Acrobat Distiller 4.0 for Windows
Document Lastmod	2001-08-21 10:58:40
Document Title	3cc12426aaaaTQbja01.book
Document Creator	FrameMaker 6.0

Designation
Description
Standards
Observations
Physical interfaces: ATM network interface optical
Connector type
SC/PC socket
1300 nm
1 for each direction
Media
Single-mode Fiber
(SMF; 9/125 µm)
1300 nm
1 for each direction
Environment
Laser product Class 1
Bit rate
Nominal
155.520 Mbps
Timing
± 20 ppm
Line coding
NRZ
Jitter
Refer to standard masks
Signalling
UNI 4.0
Free run mode, i.e. under
synchronization source
fault conditions
Physical interfaces: E3 G703 (34 Mbps) (75 W)
Connector type
75W interface
1,6/5,6
75W interface
Coaxial cable
Media
Environment
Safety
EMC/EMI
Bit rate
Nominal
34.368 Mbps
Tolerance
± 20 ppm
Line coding
Jitter
HDB3
Refer to standard masks
Input tolerated jitter
Output residual jitter
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Designation
Description
Standards
Observations
Physical interfaces: E1, TDM circuit interface (75/120 W)
Connector type
DBS Standard
Sub-D/37 pins/fem.
8 connectors; 8 TDM
interfaces per connector
75W interface
BNC or 1,6/5,6
1 for each direction
120W interface
STP specific connector
1 for each direction
75W interface
Coaxial cable
1 pair for each direction
120W interface
STP
1 pair for each direction
2.048 Mbps
Synchronous stream
± 50 ppm
Under synchronization
source fault conditions
Media
Environment
Safety
EMC/EMI
Bit rate
Nominal
Tolerance
Line coding
Jitter
HDB3
Refer to standard masks
Input tolerated jitter
Output residual jitter
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Designation
Description
Standards
Observations
Physical interfaces: T1 , TDM circuit interface (100 W)
Connector type
100W interface
Sub-D 37 points
Media
100W interface
Shielded twisted Pair
Bit rate
Nominal
1.544 Mbit/s
Tolerance
± 32 ppm
Line coding
Jitter
AMI or B8ZS
Software configurable
Refer to standard masks
Input tolerated jitter
Output residual jitter
Environmental specifications
DBS Classification
Operating
temperature
-5°C to +55°C
Relative humidity
at 30°C
93%
2.12.3– Common characteristics of the X-Pol RBS and DBS
Designation
Description
Standards
Observations
Logistics
Transport
Public transport: class 2.3
Ambient temperature
-40°C to+ 70°C
Relative humidity at
55°C
95%
Storage
Class 1.2
storage premises
sheltered from the
weather, without airconditioning
Ambient temperature
-40°C to + 70°C
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Designation
Description
Relative humidity at
30°C
Condensation
100%
90 to 100 %
Standards
Observations
2.13– Equipment power consumption
2.13.1– X-Pol RBS
The typical power consumption of the X-Pol RBS is 31 W and X-Pol RBS Tx ¾ 50W, X-Pol RBS Rx ¾
24W.
2.13.2– DBS
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DBS configuration type
Typical power consumption
basic configuration (1 sector, 1+0)
130 W
per additional sector
100 W
1+1 redundancy (per sector)
100 W
ANT board (per board)
25 W
TNT board (per board)
30 W
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3 – Installation of the Base Station
3.1 – Equipment delivery
When you receive the equipment in its packaging:
– check the condition of the packaging,
– if damaged, make your reservations known to the carrier without delay.
3.1.1 – Labels on the equipment and the packaging
Figures given on the examples below are not contractual.
The RBS labels are affixed to the packaging and to the equipment to indicate its contents.
–
0,6
Issue date
25 / 07 / 1999
3CC09766ACAA 01
Outdoor Unit model / status index
Serial number
Commercial reference
*3CC09766ACAA 01*
Outdoor unit model bar code and plain text
Serial number bar code and plain text
Figure 83 – Example of a label for the RBS unit
The DBS labels are fixed to the packaging to indicate its contents on leaving the factory.These labels
are not affixed to the equipment because the DBS configuration changes in accordance with the site
modifications.
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Note: to know the place of the corresponding elements,
refer to § 3.5.6 – Place of the board into the rack
Figure 84 – Example of a label for the DBS chassis
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X-Pol RBS Rx
X-Pol RBS Tx
Figure 85 – Unpacking X-Pol RBS
Unpacking the DBS chassis
Figure 86 – Unpacking the DBS chassis
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3.1.1.1 – Content of boxes
EQUIPMENT
X-Pol RBS Tx/X-Pol RBS Rx
CONTENTS
1 assembly
EQUIPMENT
X-Pol RBS Tx/X-Pol RBS Rx
antenna
CONTENTS
1 antenna assembly
EQUIPMENT
CONTENTS
1 chassis containing the electronic boards according to the client configuration
cables (for IBS board interface, N panel), in accordance with the site configuration
DBS chassis
fiber optic jumpers, in accordance with the site configuration
2 fiber optic cable winding cassettes
1 set of screws to install the rack into the chassis
EQUIPMENT
DC/DC power supply
CONTENTS
2 DC/DC power supply units
EQUIPMENT
Optiona Standard 19" rack
CONTENTS
1 rack with removable top cover and adjustable feet
3.1.1.2 – Storage
If the installation is not to be carried out immediately, the type of packaging will determine the equipment
storage conditions:
– the cardboard boxes should be warehoused indoors, in a well-ventilated and dry space,
– the wooden or laminated crates may be stored outdoors, provided that they are protected from the
rain and direct sunlight.
3.2 – Installing the equipment
3.2.1 – Information required for installation
Appendix 1 – Installation sheet contains a sheet for you to complete, that compiles all the general
information needed for the installation procedure.
3.2.2 – Precautions
Installation is designed to meet all requirements concerning electromagnetic compatibility and safety.
The performance of the equipment depends on installation practices (cable installation, ground
connections, etc.) which should be based on best trade practices and which may be degraded if theses
pratices are not respected.
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3.2.3 – Tools required
The installation team must possess a standard installation toolkit (containing, in particular: drill, drill bits,
soldering iron, cable tie pliers, terminal pliers).
The list of tools required for the mechanical installation of the equipment is given below:
Tool
Use
No. 6 Allen wrench (for 8 mm screw)
Antenna alignment
16/17 mm box wrench and flat wrench
Used for pole mounting and for fine adjustment of the
antenna and various tightening operations
16/17 mm Torque wrench
Used for pole mounting and various tightening operations
20 mm flat wrench
For attaching the "N" coaxial connectors
Compax "Mars Actel OSA3" insertion
and extraction tool
Wiring the COMPAX (mars actel cad) terminal strips
Essential compass and inclinometer
(not supplied)
Pointing the antenna
5 mm Allen key (for M6 screw)
For mounting the antenna
10 mm flat wrench
For fixing the ground terminal
8 mm Allen key (for M10 screw)
For tightening the different parts of the pole mounting
Tool
Crimping tool
Use
Sub-D connectors crimping
Industrial Code
7390YTB001
To get the commercial codes of these items, please consult Appendix 5 – Correspondence between
commercial codes and industrial codes relating to the BS which gives the connection between industrial
and commercial codes.
3.3 – Installation of outdoor equipment
Considerations
– Outdoor equipment installation involves:
•
installation of the mechanical system (also called "pole mounting" system) which supports the
X-Pol RBS and facilitates antenna alignment,
•
installation of the X-Pol RBS assembly and its antenna,
•
installation of the connection cable connecting the X-Pol RBS to the DBS rack.
– Outdoor equipment installation should guarantee a precise and fixed antenna pointing.
– The X-Pol RBS location and its antenna orientation should arise from a planning analysis in order
to optimize the sector coverage. These elements must be imperatively known with precision by
the installation staff.
– Antenna orientation is carried out according to geometric criterion (using compass and inclinometer).
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– All the outdoor equipment assemblies are designed for installation without any particular protection. However, the following recommendations must be respected:
•
make sure that the reception metallic structure has a perfect stability,
•
do not install the equipment below bird nesting areas,
•
do not attach the equipment to chimneys which give off fat deposits, dust and other aerosols
which are liable to be deposited on the equipment,
•
do not install the equipment in proximity to sources of heat,
•
do not place the equipment in proximity to corrosive gas outputs,
•
do not place the equipment below roof run-offs not equipped with guttering (high risk of microwave short-circuit),
•
do not attach the equipment to a structure prone to vibrations,
•
do not cross the antenna field.
– Two types of installation are possible:
1. installation on a tube or pole, using threaded U-bolts and nuts.
Note: the tube selected should be sufficiently rigid to resist vibrations that may give rise to antenna
misalignment.
3.3.1 – Spatial separation for Base Station Antennas
In band-plans where the uplink and downlink frequency separation is large, then the distance required
between the Tx antenna and the RX antenna might be negligible. Where the band-plan is contiguous
and uplink and downlink frequency separation is small, or non-existent, the distance required between
the Tx and Rx antennas must be greater. Use this document to plan required between the antennas in
installations where the use of contiguous band-plans and small frequency separations require a
substantial.
It is important to note that this document contains general recommendations. The unique characteristics
of every rooftop may require a customized layout for each installation. For example, where a larger roof
accomodates a larger distance between Tx and Rx antennas, it is possible to minimize frequency
separation. If a small rooftop prohibits a large distance between Tx and Rx antennas, the frequency
separation can be increased to compensate.
These table lists the minimum antenna separation requirements for various relative antenna
configurations. With these separations, no guard band is required between the uplink and downlink
frequencies.
Interference scenario
Minimum
Antenna
Separation (feet)
Vertical Mount, X-Pol, parallel antennas
4.3
Vertical Mount, X-Pol, antennas offset by 90deg
9.8
Vertical Mount, X-Pol, antennas offset by 180deg
3.3
Horizontal Mount, X-Pol, parallel boresite
49.2
Horizontal Mount, X-Pol, antennas offset by 90 deg at 135deg off
base station to base station plane
13.1
Horizontal Mount, X-Pol, antennas offset by 90deg at 90 & 180deg
off base station to base station plane
3.3
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Meters
3CC12426AAAA TQ BJA 01

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Title                           : 3cc12426aaaaTQbja01.book

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