Shyam Telecom BTSLINK-208 BTS Link-208 Repeater User Manual 2

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Document ID	964141
Application ID	/C53qeeyqYkOrG1nSoaSsw==
Document Description	User Manual 2
Short Term Confidential	No
Permanent Confidential	No
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Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	224.63kB (2807900 bits)
Date Submitted	2008-07-02 00:00:00
Date Available	2008-07-02 00:00:00
Creation Date	2008-06-07 09:15:59
Producing Software	Acrobat Distiller 5.0 (Windows)
Document Lastmod	2008-06-07 09:17:41
Document Title	Microsoft Word - Shyam-Repeater-BTS-LinK-208-manual-filing.doc
Document Creator	PScript5.dll Version 5.2.2
Document Author:	Wei

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Figure 13: Password Setting
6.3. Block Description
Main constituents of the system are:
I) Master Optical Unit (MOU)
The MOU is installed at the indoor location close to the BTSs. In the DL
path, the received RF signals from the BTSs are fed to the MOU, which
converts the RF signals to a stream of optical signals to be applied to the
optical fibers for transmission to the DBROUs installed at different
locations. The optical signals between MOU & each of the DBROUs are
propagated on two single mode fibers.
In the UL path, the optical signals received from each of the DBROUs are
converted back to the RF signals in the preset frequency bands for
application to the BTSs.
The connectivity between the MOU and the BTS is through low loss RF
coaxial cable via directional coupler. The type of directional coupler shall
depend on the loss between the BTS & the MOU.
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Modules in the MOU
a) Duplexer: It is provided in the RF path interfacing BTSs for providing
isolation between the DL & UL frequency bands. One duplexer is
equipped for each band.
b) Optical Transmitter Unit (OTX): It receives RF signals in the preset
frequency bands in the DL path & converts the same to the optical
signals in 1310 nm wavelength at a level of –1.5±1dBm for
application to the optical fiber. Two OTX units are equipped in MOU
for handling signals for 8 DBROUs.
c) Optical Splitter 1:4 Unit: As indicated earlier, one MOU supports 8
DBROUs at different locations, the optical signals from OTX are split
in this unit in to 4 in case of BTS Link-204. Two splitters shall be
equipped in case of 8 DBROUs.
d) Optical Receiver Unit (ORX): Up to 8 ORX units (depending on the
number of DBROUs) are equipped in the MOU and each of them
receives optical signals in 1550 nm wavelength from the DBROU in
the UL path. Out put from ORX units are converted in to RF signals
for application to BTS at the desired power.
e) Power Supply Unit (PSU): The unit gets input of –48 V DC or 100 to
240 V AC (depending on option) for deriving different DC voltages
required for other active units in the MOU.
f) Gain Module: It is available after ORX in the UL path for making RF
signals available for application to the BTS.
g) Supervisory & ASK Modem: Supervisory and ASK modem enable
the monitoring the status of MOU & DBROUs at different locations
and the information can be extracted through USB interface available
in the front panel.
h) VFD & Key Pad: It is possible to set the required parameters for
configuration through the VFD & Key pad in the absence of
PC/laptop. USB interface is available for connecting the Laptop/PC
for downloading the CMC software and monitoring of the whole link.
A wireless modem (optional) is equipped in the system for remote
monitoring & configuration through Dial up connection.
II) Optical Fiber & Patch Cords: It is very important part of the system,
which connects MOU with DBROU through two fibers. Two single
mode optical fibers are needed between the MOU and each of the
DBROUs. Each pair of fibers for the specific DBROU is terminated at
the corresponding ORX/TRX unit(s) in the MOU.
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III) Dual Band Remote Optical Unit (DBROU): As indicated earlier,
maximum up to 8 DBROUs are located at different sites as per
requirement. The DBROU shall be installed at indoor location for
providing coverage in the targeted area. It houses the following
modules:
a) Optical Receiver Unit (ORX): One such unit is provided in the
DBROU, which receives the optical signals in the 1310 nm
wavelength in the DL path from MOU and converts the same to RF
signals in the preset frequency bands.
b) Power Amplifier (PA): The PA unit is responsible for generating the
desired RF power 0f +33dBm for application to the server antennas.
For detailed specifications regarding gain, refer to clause 7.1. Two PA
units are equipped in each DBROU, one for each band.
c) Duplexer: It is provided to isolate the DL & UL RF signals. It
interfaces with the server antenna through Diplexer.
d) Low Noise Amplifier (LNA): It is provided in the UL path after the
duplexer to provide the amplification to the RF signals.
e) Optical Transmitter Unit (OTX): It receives RF signals in the preset
frequency bands in the UL path & converts the same to the optical
signals in 1550 nm wavelength at a level of +4±1dBm for application
to the optical fiber. One OTX unit is equipped in SBROU.
f)
Power Supply Unit (PSU): One PSU is equipped in the DBROU for
deriving DC voltages required for operation of different devices, it gets
AC in the range of 100-240 V, 47/63 Hz.
g) Supervisory & ASK Modem: Supervisory and ASK modem enable
the monitoring the status of MOU & SBROUs at different locations
and the information can be extracted through USB interface.
h) Gain Modules: One is provided between ORX and PA in the DL path
for enabling generation of the desired RF band. Another one is
provided with the OTX unit.
i) Attenuator: A variable attenuator up to 31 dB in step of 1 dB is
provided for adjusting the RF power radiated from the Power Amplifier
in the UL path.
j) Server Antenna: It does not form main part of the equipment. The RF
signals from SBROU are distributed to the mobile users through a set
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of server antennas mounted at the appropriate indoor locations. The
antennas should be of appropriate gain & required frequency band.
7. BTS LinK-208 Repeater Specifications
7.1. Electrical Specifications-RF & Optical
S.NO.
Parameter
1.
Optical
Wavelength (TX)
Optical
Wavelength (RX)
Frequency Band
2.
3.
4.
5.
6.
6.
7.
8.
Specifications MOU
1550 nm
1550 nm
1310 nm
Same as indicated in
Same as indicated in
clause 5.1
clause 5.1
-1.5±1dBm
+4±1dBm
Optical Power TX
+33dBm
RF power in DL
path
50 Ohms
50 Ohms
Impedance at RF
ports
< -36dBm @ 9 KHz to 1 < -36dBm @ 9 KHz to 1
Spurious
GHz, <-30dBm @ 1 GHz GHz, <-30dBm @ 1 GHz
Emission
to 12.75 GHz
to 12.75 GHz
-----------------------------System
Noise ----------------5dB max. --figure
------------------------------Group
delay ---< 5 microseconds---without fiber
7.2. Electrical Specification Power Requirement
S.NO.
Parameter
Specifications MOU
1.
Power Supply
-48 V DC/AC mains
Power
60 watts (Fully equipped)
consumption
7.3. External Electrical/Optical Interface
S.NO. Parameter
Specifications for MOU
N-type
1.
RF Port
2.
Specifications DBROU
1310 nm
Optical Port
FC-PC
Specifications DBROU
100-240 V AC, 47/63 Hz
150 watts
Specifications for ROU
N-type
FC-PC
7.4. Mechanical Specification
S.NO. Parameter
Specifications
Specifications DBROU
MOU
1.
Dimensions 485x400x135 mm 700x385x210 mm (27x15x8 inches)
(19x16x5 inches)
(w x h x d)
12 Kg. (26 lbs.) 25 Kg. (55 lbs.) +33dBm,
2.
Weight
3.
Housing
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Metal Housing for
Indoor application
Shyam Telecom Limited
Metal Housing for Indoor application
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4.
5.
Housing
Color
Cooling
Grey
Grey
Convection
Convection
7.5. Environmental Specification
Conditions
Specification
-5oC to +55 0C (+230F to +1310F)
Operating Temperature
Storage Temperature
Enclosure
-300C to +750C (-220F to +1670F)
In accordance with Indoor application
7.6. Contents of Delivery
ITEMS
Repeater BTS Link-208 MOU
Repeater BTS Link-208 DBROU
PC interface cable for USB port
Power cable 3 pin – 3 meter length
Operation & Installation manual
CD containing the application software
Wireless Modem (Optional)
Mounting Clamps with Nuts-bolts
QUANTITY
As per requirement
As per requirement
As per requirement
As per requirement
As per requirement
As per requirement
As per requirement
7.7. Safety Precautions-Handling Optical Equipment
Special care has to be taken while handling the optical equipment to avoid
damage not only to the equipment but also to the technicians/Engineers.
MOU and DBROUs are equipped with Lasers; direct exposure to the
human eyes must be avoided. Though the Lasers used in the equipment
are of low power and are classified as class III B (norm EN60825) even
then enough care needs to be taken to avoid exposure.
Optical connectors for single mode fibers are designed for sub micron
tolerances. Such a connector has an optical section of only 9-micrometer
diameter.
Even a small particle of dust shall cause excessive loss & adversely affect
the performance:
For safety reasons & optimum performance, following points need attention:
•
•
•
The optical connectors should never be left in open condition to
avoid entry of dust/moisture etc.
When working with the optical connectors or the optical fiber, check
at each end that both optical transmitters are switched off.
The connectors should be cleaned regularly with ethyl alcohol and
tissue paper; the tip should not be touched with bare hands.
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•
The connectors are very delicate in nature therefore proper aligning
without applying excessive force should carry out removal &
insertion.
8. Installation
8.1. Preparation Sheet-Pre Installation
1. General
Application: Indoor
Frequency Bands:
Cellular
Frequency Band DL: 869 MHz to 894 MHz
Frequency Band UL: 824 MHz to 849 MHz
PCS
Frequency Band DL: 1930 MHz to1990 MHz
Frequency Band UL: 1850 MHz to 1910 MHz
Number of DBROUs installed at different sites:
2. Master Unit
Parameter
BTS power
Estimated Feeder Loss between BTS & Coupler
Estimated Coupling loss (in coupler)
Estimated Feeder loss between coupler & Master
unit
Estimated Input RF power in DL to Master unit
Arrangement for termination of optical fibers
Optical power in link path (DL)
Estimated RF power in UL
Remarks
3. Optical Path
Parameter
Optical Fiber length between MOU-DBROU 1……8
Estimated optical loss between MOU-DBROU 1……8
Estimated optical signal level at each DBROU input
in DL
Estimated optical signal level at MOU from each of
the DBROUs
4. Remote Unit (s)
Parameter
Estimated attenuation in DL
Estimated attenuation in UL
Arrangement for termination of optical fibers
Desired power at server antenna in DL
Proposed gain setting in DL
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Remarks
Remarks
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Date:………….
Prepared by……………………….
Site Address:……………..
8.2. MOU Installation
As mentioned earlier in this document, the MOU is placed at indoor
location, which is close to the BTS from where the signals are to be fed
through directional coupler. Following points need consideration:
•
The MOU should be installed at the spot where optical fiber
ends are terminated and is a secured place where
unauthorized access can be avoided.
•
The length of RF coaxial cable route from MOU to the BTS
via directional coupler should also not be excessive & sharp
bends are to be avoided to minimize losses.
•
MOU is operated from –48 V DC or AC mains as the case
may be. Suitable supply has to be insured depending on the
application.
•
The site should be easily accessible for maintenance
purposes.
•
The environment should be free from excessive moisture,
chemical fumes and ultra-violet radiations.
•
The environment is not subjected to any Automobile Ignition
noise, Generator noise etc.
Installation Tools
a. Standard wrenches/screwdrivers/cable stripper/cable cutter/pliers
set for installing the system and antennas. (Refer to the
manufacturer’s recommendations for installing the antennas).
b. RF coaxial cable connection tools for fixing connectors.
c. Multi-meter.
d. Optical power meter.
Termination/Connections at MOU: Connections as detailed below need to
be carried out:
• Optical fibers for connectivity to DBROUs at different locations are
required to be terminated on MOU. Two fibers are needed for each
of the DBROUs.
•
RF connection for transfer of signals from/to BTS.
•
Power connection for extending –48 V DC or AC mains to MOU.
Important:
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a. Continuity/short circuiting of RF coaxial wherever used should be
checked before making connections.
b. Continuity of each fiber to the respective ROU should be ensured.
c. The system should not be switched ON till the installation is
completed and certain settings for the system is made.
d. No optical connector should be left open.
USB port
Optical Tx & Rx Ports
To/From BTS
VFD display
Figure 16: Different Ports on MOU
Commissioning MOU:
Preliminary verify the correct operation of MOU:
• Visual inspection of MOU cards before use, for any mechanical or
component damage.
• Insert the cards in the designated slot only.
• Switch-ON the MOU sub rack.
• Measure the optical power.
• Verify the LED status through CMC software.
WARNING:
Do not remove or insert any module into sub rack, without switching
off the power supply.
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8.3. Optical Fiber Cable Laying
The connectivity between the MOU and the DBROUs at different sites is
through optical fibers. In case the fibers are not available, the laying of
optical fiber cable has to be under taken. Single mode fibers are in use for
which two fibers are required between the MOU and each of the DBROUs.
Depending on the situation, the type of optical fiber cable could be of aerial
type or of buried type. In aerial type, the OFC is firmly fixed/clamped on the
poles/pillars in the open atmosphere and such cables are normally armored
to provide adequate protection/strength. The advantage of using such able is
that the installation job can be completed in less time. However, the cost of
the cable is higher. Whereas the buried type, the OFC is placed in pipes
which are laid underground.
A variety of cable designs are available to meet the requirements of different
installations. Some of the designs are given below:
• Loose tube construction: The fibers lie loosely inside a surrounding
plastic tube so that it can adjust itself when the cable is bent; micro
bending is almost completely eliminated by this technique. Loose tube
cables are preferred for long distance links and for almost all outdoor
applications.
• Tight buffer construction: The buffered fiber is completely enclosed
in a cushioning material (secondary coating up to an external diameter
of 900 micro meters) to improve crush resistance and vibration
isolation, minimizing micro bending. Tight buffer cables are usually
adopted for outdoor applications because they offer small cross-section
dimensions and small bending radius.
Connecting MOU and ROU with optical cables
Under the normal circumstances, two fibers are utilized for connecting
MOU to a particular DBROU, one for the UL & other for the DL path.
Every fiber must be labeled in order to indicate the connection particulars
& route.
Sharp bends on the pigtails are to be avoided while making connections.
The optical connectors must be cleaned thoroughly to avoid entry of dust
and obstructions to the optical signals.
Guidelines for OFC laying are:
• The exact route may be decided before starting the laying work.
• Extra length of OFC may be kept for future use at each end.
• The OFC should be free from all optical connectors and should be
sealed at both the ends at the time of laying.
• Sharp bends, extra pressure, and pull should be avoided during
laying to avoid damage to the fibers.
• Proper splicing should be carried out for minimum splice losses.
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• All technical specifications from the OFC supplier should be
followed.
• The termination of OFC at each end should be done at FDFs, which
should be located close to the equipment.
• Connection between the OFC (terminated at FDF) and the
equipment should be carried out through optical jumpers with FCPC connectors.
8.4. Installation-DBROU
Following points need to be considered
• Availability of AC in the range 100-240 V 47/63 Hz for energizing the
DBROU.
• All other points as indicated in 8.2 above.
• A set of server antennas of omni/directional type for providing
coverage in different areas of the building is to be installed. Site plan is
prepared in advance where coverage is required to be provided.
• The antennas should be of proper gain and frequency band.
Termination/Connections at ROU: Connections as detailed below need to
be carried out:
• Optical fibers for connectivity to MOU. Two fibers are needed for each
of the DBROUs.
• RF connection for transfer of signals from/to antennas.
• Connection to the AC mains.
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To Antenna
Optical In port
Optical out port
Figure 17: Terminations at Different ports in DBROU
Commissioning DBROU:
• After making the desired connections, Switch “ON” The power
•
•
•
supply.
Check the LED status at DBROU.
Measure the Optical Output Power. It should be +4±1dBm.
If any Parameter is not within the specified limits, check the
connections and observe alarms.
8.5. Dos & Don’t Dos
1. The BTS-208 system is comprised of independent unit’s viz. Master
Optical unit & Dual Band Remote Optical Unit(s); the site selection should
be made with great care for maximum efficiency.
2. The site(s) should be accessible for maintenance purposes.
3. Arrangement is to be made to avoid unauthorized access to the system.
4. Stable power supply for units should be ensured.
5. The route of Cables to/from antennas should be short to limit the cable
losses and should be free from sharp bends & kinks.
6. Local standard of cabling should be followed.
7. Route of cable from antenna to the system should be secured to avoid
damage and connections have to be made water tight to prevent the entry
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of water in the equipment.
8. There should be adequate separation between the antenna system and
power lines.
9. The Master unit draws RF input from BTS; its level should not be
excessively high for satisfactory performance.
10. The optical fiber termination should be carried out with care and no optical
port should be left open when the system is ON.
11. Bending of optical fiber cable at acute angles must be avoided
12. The estimation of coverage area should be confirmed.
13. The system should be configured for normal traffic after actual
measurement of:
a) RF power in the DL
b) RF power in the UL
14. Feedback regarding performance of the system must be obtained from the
user.
8.6. Checklist-Post Installation
Service Band:
Cellular
Frequency Band DL: 869 MHz to 894 MHz
Frequency Band UL: 824 MHz to 849 MHz
PCS
Frequency Band DL: 1930 MHz to1990 MHz
Frequency Band UL: 1850 MHz to 1910 MHz
A. Coupler Installation
S.NO. Point(s) To Be Verified
1.
2.
3.
4.
5.
Remarks
30 dB coupler installed on BTS main antenna
feeder
Type N connector closer to antenna terminated
with 50 Ohms
Type N connector closer to BTS connected to
donor cable
BTS operating normally with coupler installed
Coupler weatherproof
B. Master Unit Installation
S.NO. Point(s) To Be Verified
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Remarks
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1.
2.
3.
4.
5.
6.
7.
Grounding of the unit
Cable from coupler terminated at donor (BTS) port
Termination of optical fibers for different ROUs &
no optical fiber port is left open. Two fibers are
provided for each ROU.
-48 V DC cable connected to the Master unit
RF Cable protection ensured and outdoor
connections are waterproof
Precautions against excessive bending of optical
cable.
Labels showing cautions displayed
C. Master Unit Setup
S.NO. Point(s) To Be Verified
1.
2.
3.
4.
5.
6.
7.
8.
D. Remote Unit Installation
S.NO. Point(s) to be verified
1.
2.
3.
4.
5.
6.
Remarks
Ensure termination of optical fibers at optical Tx & RX
ports.
Grounding of the unit
RF cable connected between RF port and server
antenna.
Cable to server antenna connected to server antenna
port
Mains cable connected to the Remote unit
RF Cable protection ensured and outdoor
connections are waterproof
E. Remote Unit Setup
S.NO. Point(s) To Be Verified
1.
2.
3.
4.
5.
6.
7.
Remarks
Master unit switched ON
Any error/alarm observed
RF signal strength in DL
Transmitting optical signal strength at relevant optical
port for each ROU
Received optical signal strength at relevant optical
port from each ROU
Loss for optical signals between MOU and each of
the ROUs is within limits.
RF power set in UL.
Attenuation inserted in UL.
Remarks
Remote unit switched ON
Any error/alarm observed
Received optical signals at RX port
Attenuator inserted for desired RF power
RF power set
Optical signal strength at TX port
Remote unit secured.
Any Other Remark/Comment:
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Date Of Installation:------------------------
Repeater ID:-------------------------------
Site Address:-------------------------------------------------------------Name of the Installer:-----------------------------------------------------
9. System Maintenance
9.1. General
The system normally operates without any operator intervention or
maintenance. If, in the unlikely event of a unit failure, the field replaceable
units (antenna unit, cables) should be checked for faults and the system
restored. A faulty unit can be removed and replaced with a spare while the
rest of the system (other repeaters) is still operating. Soldering or local
repair of the modules should be avoided from better maintenance point of
view. Faulty module/unit should be replaced with genuine spares from
Shyam Telecom Limited only.
The power supply of the faulty unit should be isolated from AC mains and
DC power before any module is replaced. In the event of a system
malfunction, the status of the antenna systems should be checked as well
as the continuity of the cabling before replacing any modules within the
unit.
9.2. Preventative Maintenance
The BTS Link-208 repeater does not require any preventative
maintenance. However, some of the common observations are possible;
some of them are tabulated below with remedial action suggested:
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Observation
Remark
No
RF
power
is
available in any of the
DBROUs connected to
the MOU.
Check if the MOU is ON. If it is not ON, please
check the availability of –48 V DC for MOU. Make
sure that –48 V is available.
Check the alarms, if Laser diode/photo diode
failure is indicated. Verify functioning of OTX unit
by replacing with working/good unit. Also clean
the optical connectors wherever provided.
Check the optical power at each port connected to
the DBROUs. If it is available at each of the ports,
check the optical connectivity between MOU and
DBROUs.
RF power high in DL at Check for the indication for alarm and insert an
DBROU
additional attenuator to reduce the RF power.
RF power low in DL at Check for the indication for alarm and adjust the
DBROU
attenuator to enhance the RF power.
VSWR alarm at ROU
Check the connections at RF ports at antenna and in
the system.
LNA failure indication at Failure of communication between the ROU and the
ROU
MOU shall be observed, replacing the LNA unit at
ROU shall restore the communication.
Power high UL at MOU
Reduce the level by inserting additional attenuator.
RSSI LOW/HIGH DL at Adjust the attenuator in order to get rid off the alarm.
MOU
Also check the RF cable between the antenna and the
MOU.
Photo-diode 1/2/3/4….8 It indicates the problem in the ORX unit. Check &
failure at MOU
verify the ORX unit, if required replace it with the good
unit.
In case of malfunctioning, it is suggested that the confirmation should be
made if the fault lies in optical path or RF path by observing alarms before
initiating any action.
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FCC & IC Statements:
FCC ID:S3CBTSLINK208
This device complies with Part 2, 15, 22, 24 of the FCC Rules. Operation is
subject to the following two conditions: (1) this device may not cause harmful
interference and (2) this device must accept any interference received, including
interference that may cause undesired operation.
IC Information:
Trade Name: SHYAM BTS Link-208 Repeater
Model No.: 208
IC: 5751A-BTSLINK208
This device complies with RSS-131, RSS-102 of the IC Rules.
Warning
Changes of modifications not expressly approved by the manufacturer could void
the user’s authority to operate the equipments.
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For Technical Support, please contact at any of the following addresses:
For Americas
Shyam Telecom Inc.
6, KILMER ROAD, SUIT D,
EDISON, New Jersy-08817 (USA)
Email: info@shyamtelecom.com
For Europe
Shyam Telecom GmbH.
Frohsinnstrasse 16, 63739 Aschaffenburg, Germany
Tel: + 49-6021-45901-0 Fax: + 49-6021-45901-29
Email: service@shyamtelecom.com
For ASEAN & Others
Shyam Telecom Ltd.
246, Phase IV, UDYOG VIHAR,
GURGAON – 122015 (INDIA)
Tel: +91-124-4311600 FAX: +91-124-4018117
Email: repeater@shyamtelecom.com
Email: contact@shyamtelecom.com
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