ALE 4070 4070 DECT Base Station User Manual User Guide
Alcatel-Lucent Enterprise 4070 DECT Base Station User Guide
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User Guide
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Release 6.1 - October 2007
Legal notice:
Alcatel, Lucent, Alcatel-Lucent and the Alcatel-Lucent logo are trademarks of
Alcatel-Lucent. All other trademarks are the property of their respective
owners.
The information presented is subject to change without notice.
Alcatel-Lucent assumes no responsibility for inaccuracies contained herein.
Copyright © 2007 Alcatel-Lucent. All rights reserved.
The CE mark indicates that this product conforms to the following Council
Directives:
- 89/336/CEE (concerning electro-magnetic compatibility)
- 73/23/CEE (concerning electrical safety)
- 1999/5/CE (R&TTE)
Chapter 1
Installation and Cabling
Intelligent Base Stations ...................................................................... 1.1
Detailed description .................................................................................... 1.1
Safety rules .................................................................................................. 1.8
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1.1 Intelligent Base Stations
1.1.1 Detailed description
This notice describes the rules to follow for an installation comprising three or four DECT
bases.
For a larger installation, a preliminary study must be carried out using coverage tools. The
bases are then installed according to the results of this study.
1.1.1.1 CONNECTION
The Alcatel-Lucent 4070 IO is designed for internal installation in the building, while the
Alcatel-Lucent 4070 EO is designed for external installation.
The 4070 EO IBS comes in a plastic box and is protected against temperature variation.
The 2 antennae are outside the box so that they both have the same signal reception.
Intelligent Base Stations (IBS) are fitted with a red LED that gives information about the state
of the Base Station:
- Fixed LED:
1. Software downloading
2. Initialization phase, waiting for synchronization
3. Software problem, IBS stopped.
- Fast blink: There is a problem with the line.
- Short ON, long OFF: Running on 1 UA link.
- 500ms OFF, 500ms ON: Running on 2 UA link.
The IBSs can run and be powered remotely by the UA access (this is the most common
configuration). But they can also be powered by a power device. This is used when there are a
lot of IBSs and the system power cannot support all the connected IBSs.
A base station may be connected to 1 or 2 UA links (UAI boards) and allows 3 or 6
simultaneous connections with DECT/GAP terminals.
The need for three or six communication channels depends on the number of cordless stations
and on the DECT traffic to be managed.
In the event of a two-cable connection:
- use two interfaces neighboring a UAI board
- use the even-numbered interface for the master link and the other for the slave link.
Both cables should have the same length. The first interface of the system’s UAI16 board
should not be used since the operator station uses those points.
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1.1.1.2 NUMBER OF USEFUL BASE STATIONS
Any radio signal is subject to various propagation phenomena: attenuation, reflection and
diffraction. These phenomena are related to the environment of the Alcatel-Lucent 4070
IO/EO, and affect the radio performance of the system.
The effects can improve or deteriorate wave propagation.
Take as an example a building with a metallic structure. A radio wave will tend to be subject to
many reflections which will consequently degrade system performance.
Moreover, the range of an Alcatel-Lucent 4070 IO/EO is very dependent on the amount of
attenuation subjected to the radio wave across various zones.
The following table gives the values of global coverage zone (cell) for an Alcatel-Lucent 4070
IO/EO under normal environmental and topological conditions:
Interior Exterior
Coverage area ~ 50 m ~ 400 m
Area: ~ 7,000 m2~50000m2
1.1.1.3 NUMBER OF USERS PER BASE STATION
Type of Base Station connection. Number of DECT users
3 channels 4
6 channels 12
1.1.1.4 LOCATING DECT BASE STATIONS
As a result of the environment and the infrastructure, certain recommendations must be taken
into account for locating Alcatel-Lucent 4070 IO/EO:
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Recommendations for location Possible solutions
INTERIOR
COVERAGE As far as possible from walls Suspend Alcatel-Lucent 4070 IO/EO in a
clear zone
Do not fix directly to a metallic structure Move Alcatel-Lucent 4070 IO/EO into
another zone
Do not place in false ceilings or in telecom
rooms Place Alcatel-Lucent 4070 IO/EO in useful
zones (corridors)
As far as possible from industrial machines
or electrical cabinets Place 4070 IO/EO in useful zones
EXTERNAL
COVERAGE Place the base stations in an open space
(as far as possible from buildings) Attached to pylons for example
Place the base stations higher than low
obstacles (trees, cars etc.) At the top of buildings on pylons for
example
1.1.1.5 INTERACTIONS
Interactions with other features
IBS DECT and IBS PWT (Personal Wireless Telecommunications) cannot run together on the
same system. The first IBS plugged determines the system type (DECT or PWT).
To switch from one system to another, unplug all IBSs, make a warm restart and plug in the
IBSs.
Interactions with other applications
IBSs are fully compatible with other wireless technologies such as VOWLAN.
Interactions with other software releases
OmniPCX Office release 5.1 requires 4 kinds of DECT initialization: Europe, Latin America,
United-States and China. See also: § IBS CONFIGURATION .
1.1.1.6 LIMITS
Number of IBSs: 20 IBSs per cabinet is recommended, however, the number of IBSs is only
restricted by the available power.
DECT link limit: 3 links on an IBS with one UA access, 6 links on an IBS with 2 UA accesses.
DECT handset limit: up to 120 handsets on a system.
1.1.1.7 PERFORMANCE AND QUALITY
IBSs are downloaded during the system start phase or when hot plugged. A system with many
IBSs plugged might take longer to complete the start phase.
Downloading 1 IBS takes about 30 seconds. It takes more time when several IBSs are
plugged on the same UA resource.
The end of restart is only possible after all the devices have been taken into account.
If an IBS downloading fails, the IBS restarts with the previously installed software.
1.1.1.8 IBS CONFIGURATION
There is no hardware configuration for IBS other than selecting between an external power
supply for each IBS and remote power by system.
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To configure the IBS software:
ARI Number
The ARI number identifies each OmniPCX Office. Each OmniPCX Office has an identical
default ARI number.
When you install a new OmniPCX Office, you have to change the default ARI number. You
can only keep the first digit, which is "1" and which means "ARI type B".
- 1 In OMC,gotoSystem Miscellaneous -->DECT/PWT ARI/GAP
- 2 Enter your own number (octal digit) to register your DECT handset.
___change-begin___
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Figure 1.2: ARI Number
Note 1:
The ARI Number is the only non plug and play device on the IBS.
The default configuration fits with the major systems. Modifications should answer to specific needs.
Line length
The Line length is the cable length used to plug the IBS to the system (distance between the
IBS and OmniPCX Office). It enables the system to add a delay in signal and to avoid a shift in
clock signal that creates a reset of the IBS.
- 1 In OMC,gotoUsers/Base stations List.
- 2 Select the IBS Master and click Details
There are 3 possibilities of configuration:
- Short line (0-400 meters)
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- Medium line (400-800 meters)
- Long line (800-1200 meters)
Restart the IBS after you have modified the Line length parameter.
Antenna diversity
Antenna diversity is the ability of the IBS to move the transmission and reception from one
antenna to the other so that the signal is always of the highest quality.
Restart the IBS after you have modified the Antenna diversity parameter.
Silent-Noisy IBS
Enable the Silent-Noisy IBS parameter to set up the echo canceller device.
The IBS is fitted with a software device that analyses audio signals and eliminates echo and
noises. This device is activated by default.
When an IBS is deployed in a noisy environment, a lot of signals, including Speech ones, are
eliminated while in Conversation state. This leads to bad Speech quality.
You have the option to disable the echo canceller. In that way, the speech and the noise
signals are not filtered. It is then to the user to identify the speech.
Frequency plan
In OMC,gotoSystem Miscellaneous#DECT/PWT Frequencies to select signals. In OMC,
you can configure both the DECT and PWT frequency plans, regardless of what types of
handsets are plugged on the system.
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Figure 1.3: DECT/PWT Frequencies
Note 2:
Due to hardware, there is a limit in the number of channels that you can configure.
You can configure the following numbers of channels:
-DECT EUROPE, LATAM, CHINA: 1, 2, 4, 5, 8, 10 channels
-DECT US: 1, 2, 4, 5 channels
-PWT: 1, 2, 4, 5, 8 channels
1.1.1.9 Initialization
Once the IBS finishes the downloading, the system starts the initialization.
The system synchronizes the signals of the IBSs so that handovers are possible. The system
selects the T0, T2, or CPU main board clock as the source.
Then the system sends the following data:
- Fixed part capabilities (Full slot, frequency control, page repetition, setup on dummy, basic
A field setup): value sent = 0x007910
- Line length: Short line
- Frequency plan (2 bytes)
Some countries have shifted DECT frequencies. In order to be compatible with all frequency
bands in the different countries, 4 types of initialization of frequency plans are available:
Europe, Latin America, The United-States and China.
table 1.4: RF Band Europe
Channel TX Freq RX Freq
0 1897.344 1898.206
1 1895.616 1896.480
2 1893.888 1894.752
3 1892.160 1893.024
4 1890.432 1891.296
5 1888.704 1889.566
6 1886.978 1887.840
7 1885.248 1886.112
8 1883.520 1884.384
9 1881.792 1882.656
Note 1:
By default, all frequencies used
Value sent to IBS: 0x3FF
0000 0011 1111 1111
table 1.5: RF Band China
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Channel TX Freq RX Freq
0 1918.060 1918.944
1 1916.352 1917.216
2 1914.624 1915.446
3 1912.898 1913.760
4 1911.188 1912.032
5 1919.440 1910.304
6 1907.712 1908.576
7 1905.964 1906.848
8 1904.256 1905.120
9 1902.528 1903.392
Note 2:
By default, all frequencies used
Value sent to IBS: 0x3FF
0000 0011 1111 1111
table 1.6: RF Band Latam
Channel TX Freq RX Freq
0 1928.448 1929.312
1 1926.720 1927.584
2 1924.992 1924.992
3 1923.264 1923.264
4 1921.536 1921.536
5 1919.808 1919.808
6 1918.060 1918.060
7 1916.352 1916.352
8 1914.624 1914.624
9 1912.896 1912.896
Note 3:
By default, all frequencies used
Value sent to IBS: 0x3FF
0000 0011 1111 1111
table 1.7: RF Band US
Channel TX Freq RX Freq
3 1928.448 1929.312
4 1926.720 1927.584
5 1924.992 1925.856
6 1923.264 1924.128
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7 1921.536 1922.400
Note 4:
By default, only 5 frequencies used
Value sent to IBS: 0x03E0
0000 0011 1110 0000
table 1.8: RF Band PWT
Channel Center Freq
0 1929.375
1 1928.125
2 1926.875
3 1925.625
4 1924.375
5 1923.125
6 1921.875
7 1920.625
Note 5:
By default, 8 frequencies used
Value sent to IBS: 0x03FC
0000 0011 1111 1100
1.1.2 Safety rules
1.1.2.1 ENVIRONMENTAL PROTECTION
For an exterior installation, it is necessary to take precautions against lightning affecting the
location of the Alcatel-Lucent 4070 IO/EO.
1.1.2.1.1 Conditions for using lightning protection:
Protection of Alcatel-Lucent 4070 IO/EO against lightning should be used when they:
- are less than 1.5 m from a wall more than 2 m below the antenna.
- use an external airborne connection between the base station and the system.
1.1.2.2 RECOMMENDATIONS FOR EXPOSURE OF THE PUBLIC TO THE
ELECTROMAGNETIC FIELD
1.1.2.2.1 MAGNETIC ABSORPTION RATE
Exposure of the public to the electromagnetic field from DECT sets and base stations is
measured using the Specific Absorption Rate (SAR) measuring unit. 2W/kg is the SAR limit
value indicated in international recommendations and also in the European recommendation
(1999/519/EC).
The DECT authorised SAR limit value is 2 Watts/kilogram on 10g of body tissue (local SAR).
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International recommendations include a safety margin for the public and take account of
possible measuring variations.
SAR values
- Set: as the average power emitted from a set is lower than 20mW, the set is considered to
comply without having to undergo any tests (see: EN 50371). The SAR value for DECT
sets (e.g.: Mobile Reflexes) is not significant.
- Base station: the local SAR (head and chest) on 10g of body tissue for DECT base
stations (e.g.: 4070) is lower than 0.5 W/kg (this is with an integrated omni-directional
antenna).
1.1.2.2.2 ANTENNAE CHARACTERISTICS
Integrated antennae
The following is a list of characteristics for integrated antennae:
- Bandwidth: 1.88 to 1.93 Ghz
- Impedance: 50 Ohms
- TOS: 1.5:1
- Gain: 3 dBi (maximum)
- Polarization: vertical (axis of the antenna)
- Width of the beam at 3 dB (vertical): 90º
- Radiation diagram: omni-directional in the horizontal plane.
External antennae
According to the ETSI EN 301 406 standard, DECT antenna gain is limited to 12 dB +/-3dB. In
the case of external directional antennae, if a minimum safety distance of 50 cm is respected,
the SAR value is the same as the value obtained in the case of an integrated omni-directional
antenna (and therefore, lower than: 0.5 W/kg).
1.1.2.2.3 CONFORMANCE PERIMETER FOR EXPOSURE OF THE PUBLIC
- Integrated omni-directional antennae: no limit for the conformance perimeter
- External antenna (directional): the installation must allow for a safety perimeter respecting
a minimum distance of 50 cm.
1.1.2.3 RECOMMENDATIONS FOR INSTALLATION
1.1.2.3.1 Standard Topology.
The various building infrastructures are grouped into three types of geometric shape.
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Coverage areas SQUARE:Coverage areas RECTANGULAR
:Coverage areas ROUND
The distances quoted below give an idea of typical range of a base station. It is clear that a
rectangular zone requires more base stations to provide full coverage.
1.1.2.3.2 Layout technique
For structures with a number of floors, different solutions can be envisaged as a function of:
- the coverage obtained at each level.
- the position of the Alcatel-Lucent 4070 IO/EO (higher or lower level).
Installation examples
Square zone Rectangular zone
Example 1: square building Example 2: rectangular building
1st floor 1st floor
2ndfloor 2ndfloor
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It is possible to alter the number of base stations used
from one floor to another for this type of building.
The technique used is overlapping the location of base stations from one level to another. This
technique can be used for alternate floors if the coverage of a level can be achieved from an
adjacent level.
1.1.2.3.3 Coverage depending on the infrastructure
The solution proposed alternates two stations per floor with overlapping locations from one
floor to another. The zones shown by unbroken circles correspond to the zones covered by
each station (B1, B2, B3, B4).
The zones in bold correspond to the coverage at a given level from a station on the floor above
or below.
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