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REQUEST FOR INFORMATION: BROAD PARAMETERS FOR VSAT SATELLITE
TERMINALS
1.
Detailed information is to be sought from interested OEMs/ Vendors with regards
to VSAT Satellite Terminal & VSAT Man Portable Satellite Terminal. Brief about
required VSAT Satellite Terminals is given att at Annx. Broad parameters are at
Annexure ‘A’ & Annexure ‘B’ respectively. Respondents are also requested to furnish
details about their firms/ companies in accordance with the proforma at Annexure ‘C’.
2.
Additional information, technical details , product brochures/ literature pertaining
to the items in question may be forwarded to the under mentioned address within 15
days :Communication Directorate
HQ National Security Guard
Mehram Nagar, Palam
Near Domestic Airport
New Delhi – 110037
Fax No : 011 – 25663177
25663249
E-mail – [email protected]
Annx
BRIEF ABOUT REQUIRED NSG VSAT SUB SYSTEM
Ground Segment
1.
NSG’s proposed broad band VSAT Satellite based communication network will
facilitate network connectivity to primary sites of NSG for second tier of connectivity
during breakdown of terrestrial connectivity over MPLS or lease lines and to connect
man transportable satellite terminals (TST) during NSG’s operational activities or
operational training activities. This network can provide voice, data and video
conferencing between terminals and hubs in full star configuration. Three different
types of satellite stations in the satellite based communication network are enumerated
below.
(a)
Satellite Hubs.
There should be two hubs with min 8 Mbps IP data
rates & with >9m antenna, working in geographical redundant configuration in hot
standby static mode. Hardware at the hubs should be capable to cater for min 14
terminals concurrent connections including man transportable Satellite terminals
(TSTs).
(b)
Satellite Terminals. There should be a total of six terminals having
capability to be connected in a star & or mesh configuration with 2 Mbps links
(3.8m antenna) in hot standby static mode. Hardware at the hubs should be
capable to cater for min 7 terminals concurrent connections for Static Satellite
Terminals and one hub.
(c)
Man Transportable Satellite terminals. There should be a total of seven
(07) Man Transportable Satellite terminals (TSTs) with 1.2 m antenna and 2
Mbps link capacity. All the seven terminals will be active at any given point of
time, therefore hardware at the hubs should be capable to cater for min 07
terminals concurrent connections for man transportable Satellite terminals
(TSTs).
2.
Link encryptors will be used in the network. In case of primary network, the 2/4
Mbps stream is to be taken as the modem input. This carrier will be converted into RF
signal and transmitted to the satellite.
3.
Hubs should be in full redundant configuration to ensure maximum reliability. The
network should support more than one transponder operation. Guaranteed Round trip
time within the system should be less than 700 milli second for a single hop, two way
communications in both star and mesh configuration irrespective of the congestion
state. The technical specifications required for the various systems and equipment is
listed in the subsequent paragraphs.
Annexure A
BROAD QRs FOR VSAT SATELLITE HUBS/ TERMINALS
1.
OEM/Vendors are required to respond to the following details and indicate which may/may not be essential requirements of
VSAT Satellite Hubs/ Terminals (as per questionnaire below):Srl
No
Parameters
Specifications/Features
Hubs / Terminals
Satellite stations for Hubs and Sites should be with a single box based
solution to include both modem and router (i.e. IDU). The same will be
referred to as satellite modems. The satellite modems used for primary
network and TSTs will support both star and mesh topology.
1.
2.
3.
Network Topology
Frequency Band
Modem/Router
4.
5.
Stacking
Outbound Carrier
(Receive)
6.
Inbound Carrier
(Transmit)
7.
Multiple access
Star
KU Band and Extended KU Band
Satellite Modem (1+1 mode) i.e. Single unit solution for both Modem and
Router (IDU)
Cascading of upto 4 units or more
Signal Format
:
TDM/ DVB-S2 or latest
Carrier Bit Rates
:
2 Mbps upto 100 Mbps
Modulation
:
QPSK, 8PSK, 16APSK, 32APSK
FEC Coding
:
Turbo or better
FEC rates
:
As per industry standards
Receive IF freq:
:
950-2150 Mhz
Access Scheme
:
MFTDMA or latest
Carrier Bit Rates
:
64 Kbps upto 8 Mbps
Modulation
:
BPSK, QPSK, 8PSK, 16APSK
FEC Coding
:
Turbo or better
FEC Rates
:
As per industry standards
Transmit IF freq
:
950 - 2150 Mhz
Downstream
:
MFTDMA and TDM/DVB-S2 or latest
8.
Access Scheme
9.
Traffic Features
Upstream
:
MFTDMA and TDM/DVB S2 or latest
Bandwidth on demand, Real time, Non-real time, guaranteed throughput,
QoS classes.
Traffic filtering, Bandwidth on demand, multiple satellite support, Multiple
outbound, Auto pointing tool.
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Parameters
No
10. Bandwidth
Efficiency
11. IP Features
12. Security
13. Reliability and
Availability
14. Network
Management
Specifications/Features
TCP acceleration, HTTP acceleration, Efficient Packet fragmentation and
aggregation
Enhanced IP features for full flexibility :
IPV4, IPV6, Static Routing, OSPF, BGP, Load Balancing, TCP,
UDP, IGMP, Robust Header Compression, Multi VRF Support, VLAN,
GRE, MPLS support, DiffServ, DHCP, NAT/ PAT, IGMP, RIP, IP
prioritization.
DES or AES - 128 encryption or better
End to End encryption
FTDMA scrambling of all traffic from site to the hub
Secure distribution of multicast keys from Hub to remote site via NMS.
HSRP with single or dual outdoor Units (ODUs), DDR (Dial on demand
routing) for satellite backup of terrestrial WAN and terrestrial backup of
satellite WAN
The NMS/ NCC should be provided in hot standby redundant configuration.
The specifications for the NMS are enumerated below :(a)
A single centralized NMS should support Configuration, Monitoring,
Analysis, Provisioning, Reporting and Maintenance of STAR configuration
within the network.
(b)
The NMS must provide for centralized management of software
upgrades and configuration changes.
(c)
The NMS must have the ability to monitor and provide statistics for
all portions of the network. One must have the ability to manage and
monitor the network remotely.
(d)
NMS must have the ability to gather and display RTT times from
remotes.
(e)
NMS must run on a standard operating system for inter-operability
with UNMS if any in the network.
(f)
All aspects of NMS must be GUI based for ease of management.
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Parameters
Specifications/Features
(g)
Buyer should be able to customize the CDR (Call Data Report) as
per his requirement.
(h)
Authentication of NOC operators is a must, with the ability to define
what functions an operator can perform. NMS must provide remote
authentication.
(i)
NMS must have the ability to manage multiple networks and hubs.
(k)
NMS must have a distributed NMS architecture and be modular to
provide scalability.
(l)
NMS must have the ability to connect to SNMP V3 agent.
(m) NMS must have standard database and provide access for external
applications to retrieve data.
(n)
NMS must provide IP and satcom statistics, both real-time and
historical.
(o)
NMS must be able to provide statistics for all QoS parameters
configured.
(p)
NMS must provide support for multicast/ broadcast software and
firmware upgrades.
(q)
NMS should be site independent.
(r)
Network Operations of a site should not be affected even if the NMS
of that site is down. It should join the NMS network automatically as soon
as fault is rectified.
(s)
NMS must provide client, to allow remote network manager to
monitor the network.
(t)
The equipment should support on-line management for centralized
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Parameters
Specifications/Features
configuration, performance monitoring, fault diagnostics and rectifications.
15. Interfaces/Ports
(v)
NMS should be able to provide statistics and updates to the
umbrella NMS if any.
LAN Port
:
Two or more 10/100/1000 BASE- T Ethernet
RJ-45 ports Independent and Individual
configurable interfaces
Serial RS232/Console :
16. Power Supply/
Environmental
Conditions
17. Safety & EMI/EMC
Compatibility
18
Network
Accelerator (1+1
mode)
For management access via CLI
USB-A 2.0 port
:
Front and Rear ports for image updation
configuration, WLAN etc.
Tx Modulator Port
:
F-Connection (75 Ω female)
Rx Demodulator Port :
Operating Temp
:
F-Connector (75 Ω female)
50C to 550C
Relative Humidity
:
Upto 90%
Power Supply
:
Redundant 100V - 250V AC, 50/60 Hz
Safety
: IEC 60950-I, UL/EN 60950-I, AS/NZ S3548,
C-TUV-US, GS Mark, CB
EMC/EMI
:
ETSI EN 301 489-I, ETSI EN 301 489-12,
15 Support B, ICES-003, VCCI Technical
requirement, V-3/2001.04
RF spectrum
:
EN 301-428, CEO 682
WEEE/ RoHS
: RoHS Compliant
(a) The network accelerator should provide TCP acceleration, and
application QoS for locations that use encryption. The network accelerator
should compensate for the long latencies in satellite links that would
otherwise limit the speed of each TCP session; allowing greater utilization
of available bandwidth. The network accelerator should intercept the TCP
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Parameters
Specifications/Features
traffic, prioritise and accelerate it, before it is encrypted. This should result
in a significantly higher overall TCP throughput over a satellite network.
(b) The specifications for the network Accelerator that would be used
along with the Encryption devices at remote as well as at the hub site are
as follows :(i)
Should provide following features
(aa)
Symmetric, Universal & Scalable TCP
Acceleration.
(ab)
Specific end to end QoS support
(ac)
Web acceleration
(ad)
Support for Multiple IP sessions.
(ii)
Network Interfaces 10/100 Base T Ethernet at peripherals
And 10/100/1000 Base T Ethernet at the Hub.
(iii)
Terminal Interface
-
RS 232 serial interface
(iv)
Temperature
-
00 - 550 C
(v)
Humidity
-
5 - 95 %
(vi)
Power Supply
-
230V AC (+10, -20%)
(vii) Management should be possible through a centralized
dedicated GUI and should be field up gradable.
19. Adaptive Power
Control (APC) with
Adaptive Coding
and Modulation
(ACM)
20. Antenna Systems
Taking into consideration the rain statistics of India, it is proposed to have
dynamic adaptive up-link power control at both the Hub-NMS and at each
remote site to ensure that with SSPA/RFT power and available EPFD,
99.7% uplink time is available in the network averaged over a month.
The antennae of Hubs (≥ 9 Mtrs) and Sites (3.8Mtrs) will have full auto
tracking and alignment along with beacon receivers. The electronics should
include auto power control facility to cater for losses due to rain fade or any
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Parameters
21. Antenna
Specifications
Specifications/Features
other reasons. For Hubs (≥ 9 Mtrs) antennas facility for providing lat long
data for antenna alignment will be taken from a GPS and also an option for
taking the same manually from map should be provided. Two sets of
software in CDs for the both antennas system should be provided. The
antenna should be capable of working with any KU band transponders of
INSAT/GSAT series of satellites. The antennas will be painted in disruptive
colour pattern.
(a)
≥ 9m Antenna (Hubs)
(i)
Antenna/Reflector Diameter : 9 Mtrs
(ii)
Operating Frequency Band
Tx
Rx
: Ku
: 14.0 - 14.50 GHZ
: 10.95 - 12.75 GHZ
(iii)
Gain (Mid Band)
Tx
Rx
: 60.35 dBi (+/- 1 dB)
: 59.42 dBi (+/- 1 dB)
(iv)
Polarisation
: Linear
(v)
VSWR
: ≤ 1.25:1
(vi)
System G/T at 300 Elevation : minimum 37 dB/0K
and 900 K LNA temp
(vii)
Cross polarization
: ≥ 35 dB (on Axis)
(viii)
Tx-Rx Isolation
: ≥ 85 dB (with TRF)
(ix)
Radiation Pattern
version
Feed Interface
Tx
Rx
: CCIR.580 or latest
(x)
: WR-75
: WR-75
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Parameters
Antenna
Specifications
Specifications/Features
(b)
: 900 continuous, 1800 in two
position
: 50 to 900
(xi)
Azimuth Adjustment
(xii)
Elevation Adjustment
(xiii)
Material
(xiv)
Wind Load Operational
Survival
: 80 kmph
: 200 kmph
(xv)
Operating Temperature
: -150C to 500 C
(xvi)
Rain
: 100 mm/hr
: Aluminium with stretch formed panel
(xvii) Relative Humidity
: 100%
(xviii) Tracking Mode
: Full Auto
(xix)
: 2 KW
Tx power Capability
3.8m Antenna (Terminals)
(i)
(ii)
Antenna size
Operating frequency
Tx
Rx
: 3.8 m
: Ku band
: 14.0-14.50 Ghz
: 10.95-12.75 Ghz
(iii)
(iv)
(v)
(vi)
(vii)
Material
Polarization
Cross-polarization
Tx-Rx isolation
Gain (Mid Band)
Tx
Rx
System G/T at 200 EL
: Aluminium with stretch formed panel
: Linear Polarize
: > 35 dB (Tx) > 30 dB (Rx)
: > 85 dB (with TRF)
(viii)
: 53.0 dBi
: 51.0 dBi
: minimum 29.7 dB/0K
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Parameters
22. Ku Band BUC with
Booster and PLL
LNB (1+1) mode
Specifications/Features
and 900 K LNA temp
(xi)
VSWR
: <1.30:1
(xi)
Feed type
(xii)
Tracking mode
: Automatic
(xiii)
Mount movement
: 00 to 3600 (Azimuth)
120 to 900 (Elevation)
(xiii)
Wind velocity
: Two port Tx-Rx Freq feed, having
Orthogonal linear Polarization, with
provision for manual rotation of feed for
matching of linear polarization.
: Operational-100 kmph
Survival-200 kmph
(xiv) Power Handling
: 100 Watt or higher
Should be a highly integrated 200W/40W/10W ODU that comprises of
BUC, booster in transmit mode and PLL LNB in receive
mode,
power supply and built-in M&C. BUCs should be in hot standby (1+1)
configuration. The specifications are as follows.
(a) Transmit
(i)
Transmit Frequency
14.0 – 14.5 Ghz
(ii)
IF Frequency
950 – 2150 Mhz
(iii)
Frequency Step size
1 Mhz
(iv)
Input Power Range
-25 dBm to -5 dBm
(v)
Gain Stability (temp)
± 2 dB max
(vi)
Gain Adjustment
20 dB @ 1 dB steps
(vii)
Inter Modulation Product
-25 dBc max
(viii)
Spurious
-55 dBc max
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Parameters
Specifications/Features
(ix)
VSWR
≤1.3:1
(x)
Frequency stability (temp)
1 x 10-9
(xi)
M and C Interface
RS 232/RS 485
(b) Environmental
(i)
(ii)
(iii)
Operating Temperature
Storage
Relative Humidity
- 400 C to 550 C
-50°C to 60°C
upto 95 % at 45°C
(c) Ku Band Booster (1+1 mode)
(i)
Gain flatness
± 1.0 dB max
(ii)
VSWR
≤1.3:1
(iii)
Inter-modulation Product
-25 dBc max
(iv)
Spurious
-65 dBc max
(v)
Mgt & Control Interface
RS485/RS232
(vi)
RF Output
WR75G
(vii) Output @ P1dB
53 dBm for 200W
46 dBm for 40 W
40 dBm for 10W
(d) Power Supply
(i)
AC Input voltage
230V AC (± 10%), 47-53
Hz
(e) Phase Locked Low Noise Block (PLL LNB in 1+1 Mode)
(i)
Input frequency
Ku Band
(ii)
L band output frequency
950 – 2150 Mhz
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Parameters
23. Static Antenna
Control System
Specifications/Features
(iii)
Noise temperature at 25 deg C
75° K max or better
(iv)
Gain
60 dB typical
(v)
Output Impedance
50 ohms
(vi)
Gain flatness
± 0.25 dB max
The antenna tracking mechanism consisting of screw jack with AC
motors, shall include the following:(a)
(b)
(c)
(d)
Antenna Control Unit
Motor control unit.
Angle detectors.
Beacon Receiver for auto tracking
(a) Antenna Control Unit
(i) Operational modes :
Manual Step Track Program Track
Standby, also system should revert
automatically to standby in case of any
of the fault condition
(ii) Alarm indications and status monitoring (Visual & resettable audible)
o Limit switch alarm
o Synchro conversion/Angle detection alarm
o System interlock
o Low signal alarm
o Beacon level low
o PLL out of lock
(iii) Signal level monitor
: To monitor beacon signal level in
dB relative to peak
(iv) Angle indication
: AZ-Elmont
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Parameters
Specifications/Features
AZ : 0° - 3600, EL : 0°-90°
Resolution : 0.01 0,
Accuracy : 0.02°
(v) Parameter check and : Satellite position scans cycle
updating data entry
(vi) Step Track Performance



Tracking accuracy : Better than 1/10th of half power beam
width , for wind speed up to 70 km/hour
Auto track select Interval: 10 minutes, 30 minutes, 60
minutes, 120 minutes - Signal level select settable 0.5 dB
(nominal)
Auto track signal level: Settable
(vii)
Capability to drive the system from remote terminal through
RS-232C interface
(viii)
Default mode to bypass the processor and enable manual
control
(b) Motor Controller
(i)
(ii)
(iii)
(iv)
(v)
Mode selection: Local/Remote (ACU)
Built in D.C. power supply unit
Emergency Stop available
Low Speed / High speed selection
Toggle switches provided for locking in local mode in all 4directions
(vi) All weather proof, wall mounted unit.
(vii) Protection against single phase failure and power supply cut
off
(c) Angle detectors
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Parameters
Specifications/Features
(i)
Detector type
(ii)
(iii)
Resolution
Accuracy
Synchro/ Resolver/ optical
encoder
0.01 deg
0.03 deg
(d) Beacon Tracking Receiver
(i)
(ii)
(iii)
Input Frequency
Input signal level
Gradient
(iv)
(v)
(vi)
Output level
Power Supply
Operating Temperature
950 to 1450 MHz
-55 to -100 dBm,
0.5 Volt/dB Nominal for 3 db
range
0-10V
240 VAC ± 10 %
0 to 50° C
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Annexure B
BROAD QRs OF VSAT (MAN PORTABLE) SATELLITE TERMINALS
1.
of VSAT
OEM/Vendors are required to respond to the following details and indicate which may/may not be essential requirements
(Man Portable) Satellite Terminals (as per questionnaire below):Srl
No
1.
2.
3.
4.
5.
6.
Parameters
Specifications Features
Portable Satellite
Terminals
The portable satellite Terminal should be a solution of maximum two boxes,
including accessories. Whether a single or twin box solution is offered, a
box should not weight more than 35 Kg and be fitted with padded strapping
and harness to make it man portable. It should facilitate quick auto
alignment and deployment. Suitable batteries are to be provided. The
systems should have provision for connecting to AC power source. It
should have rugged and light weight collapsible antenna. It should be able
to provide upto 512 Kbps data rates and support upto 2 Mbps traffic when
required. It should be interoperable with Hub and other satellite network
site which is based on MFTDMA TDM/DVB S2 or latest technology
Technical specifications are as follows
Star
Network
Topology
Frequency Band
Modem/Router
Outbound Carrier
(Receive)
Inbound Carrier
(Transmit)
KU Band and Extended KU Band
Single unit solution for both Modem and Router
Signal Format
:
TDM/ DVB-S2 or latest
Carrier Bit Rates
:
2 Mbps upto 8 Mbps
Modulation
:
QPSK, 8PSK, 16APSK, 32APSK
FEC Coding
:
Turbo or latest
FEC rates
:
As per industry standards
Receive IF freq:
:
950-2150 Mhz
Access Scheme
:
MF-TDMA or latest
Carrier Bit Rates
:
64 Kbps upto 2 Mbps
Modulation
:
BPSK, QPSK, 8PSK, 16APSK
FEC Coding
:
Turbo or latest
FEC Rates
:
As per industry standards
Transmit IF freq
:
950 - 2150 Mhz
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7.
Parameters
Multiple access
8.
Access Scheme
9.
Traffic Features
10. Bandwidth
Efficiency
11. IP Features
12. Security
13. Network
Management
System Features
Specifications Features
Downstream
:
MFTDMA and TDM/DVB-S2 or latest
Upstream
:
MFTDMA and TDM/DVB-S2 or latest
Bandwidth on demand, Real time, Non-real time, guaranteed throughput,
QoS classes.
Traffic filtering, Bandwidth on demand, multiple satellite support, Multiple
outbound, Auto pointing tool.
TCP acceleration, HTTP acceleration,
Efficient Packet fragmentation and aggregation
Enhanced IP features for full flexibility :
IPV4, IPV6, Static Routing, OSPF, BGP, Load Balancing, TCP,
UDP, IGMP, Robust Header Compression, Multi VRF Support, VLAN,
GRE, MPLS support, Diff Serv, DHCP, NAT/ PAT, IGMP, RIP, IP
prioritization.
Should be compatible for following
(i) DES or AES - 128 encryption or better
(ii) End to End encryption
(iii) FTDMA scrambling of all traffic from site to the hub
(iv) Secure distribution of multicast keys from Hub to remote site
via NMS.
The NMS features in Man Transportable terminal should include following.
(i)
It should support single centralized NMS for Configuration,
Monitoring, Analysis, Provisioning, Reporting and Maintenance of
STAR configuration within the network.
(ii)
The NMS should support for centralized management of software
upgrades and configuration changes.
(iii)
The NMS must have the ability to monitor and provide statistics to
central NMS and user at the site. It must also have the ability to be
managed and monitor remotely.
(iv)
NMS must run on a standard operating system or browser for interoperability.
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Specifications Features
(v)
All aspects of NMS must be GUI based for ease of management.
(vi)
Buyer should be able to customize the CDR (Call Data Report) as
per his requirement.
(vii) Authentication of NOC operators is a must, with the ability to define
what functions an operator can perform. NMS must provide remote
authentication.
(viii) NMS must have the ability to connect to SNMP V3 agent.
(ix)
NMS must provide IP and satcom statistics, both real-time and
historical.
(x)
NMS must be able to provide statistics for all QoS parameters
configured to user at the site.
(xi)
NMS must provide support for multicast/ broadcast software and
firmware upgrades.
(xii) NMS should be site independent.
(xiii) NMS must provide client, to allow remote network manager to
monitor the network.
(xiv) The equipment should support on-line management for centralized
configuration, performance monitoring, fault diagnostics and
rectifications.
14. Interfaces/Ports
(xv) NMS should be able to provide statistics and updates to the central
NMS/NCC
LAN Port
: One or more 10/100/1000 BASE- T Ethernet
RJ-45 ports Independent and Individual
configurable interfaces
Serial RS232/Console:
For management access via CLI
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Parameters
15. Power Supply/
Environmental
Conditions
Specifications Features
USB-A 2.0 port
:
Front and Rear ports for image updation
configuration, WLAN etc.
Tx Modulator Port
:
F-Connection (75 Ω female)
Rx Demodulator Port :
F-Connector (75 Ω female)
Operating Temp
:
50C to 550C
Relative Humidity
:
Upto 90%
Power Supply
:
Redundant 100V - 250V AC, 50/60 Hz
:
IEC 60950-I, UL/EN 60950-I, AS/NZ S3548,
C-TUV-US, GS Mark, CB
EMC/EMI
:
ETSI EN 301 489-I, ETSI EN 301 489-12,
15 Support B, ICES-003, VCCI Technical
requirement, V-3/2001.04
RF spectrum
:
EN 301-428, CEO 682
16. Safety & EMI/EMC Safety
Compatibility
17. Antenna System
for Portable Sat
Terminal
18
Antenna
Specifications
WEEE/ RoHS
: RoHS Compliant
The Antenna system should be light weight, collapsible and efficient.
Collapsible design is required only for ≤ 1.2m antenna in man transportable
terminals. Antenna efficiency should be 65% or better, meeting CCITT &
CCIR 580R specifications and should confirm to NOCC standards.
Construction of antenna should adhere to pre stretch hardening with stretch
forming.
≤ 1.2m Antenna (Man Transportable)
(i)
(ii)
Antenna size. Type
Antenna Type
(iii)
Operating frequency
Tx
Rx
≤ 1.2 m
Gregorian Dual offset or better
Ku band
14.0-14.50 Ghz
10.95-12.75 Ghz
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Parameters
Specifications Features
(iv)
Material
(v)
(vi)
(vii)
(viii)
Polarization
Cross-polarization
Tx-Rx isolation
Gain (Mid Band)
Tx
Rx
Glass Fiber Reinforced
Polyester SMC or better
Linear orthogonal
> 30 dB or better (on axis)
> 85 dB (with TRF)
42.5 dBi (± 0.2 dB)
41.0 dBi (± 0.2 dB)
(ix)
System G/T at 200 Elevation
and 900 K LNA temp
Min 16.6 dB/K
(xi)
VSWR
≤1.30:1
(xi)
Feed type
As per Industry standards.
(xii)
Tracking mode
Manual/Automatic
(xiii)
Mount movement
00 to 3600 (Azimuth)
50 to 900 (Elevation)
(xiii)
Wind velocity
Operational -100 kmph
Survival – 200 kmph
(xiv)
Tx Power handling
16 Watt or more
Reply with Specifications by
the OEM/Vendor
Annexure C
INFORMATION PROFORMA
1.
Name of the Vendor/Company/ Firm
_____________________________________________________________________
_____________________________________________________________________
_____________________________________________________________________
(Company profile, in brief, to be attached)
2.
Type (Tick the Relevant Category)
(a)
Original Equipment Manufacturer (OEM)
Yes
No
(b)
Government sponsored Export Agency
(Details of Registration be provided)
Yes
No
(c)
Authorized Representative of OEM
Yes
No
(d)
Other (give specific details)
______________________________________________________
______________________________________________________
3.
Contact Details
Postal Address.
City______________________ Province ____________________________
Country___________________ PIN/ZIP Code ________________________
Tele _____________________ Fax ________________________________
URL/ Website __________________________________________________
4.
Local Branch/ Liaison Officer/ Authorised Representatives in Delhi (if any)
Name and Address.
City______________________ Province ____________________________
Country___________________ PIN/ZIP Code ________________________
Tele _____________________ Fax ________________________________
5.
Financial Details.
(a)
Annual turnover: __________________________________ USD.
(b)
Earlier contracts with Indian Ministry of Defence/ Government agencies:-
Agency
(c)
6.
Equipment
Quantity
Cost
Details of manufacturing infrastructure available: ___________________
Certification by Quality Assurance Organisation (If Applicable).
Agency
7.
Contact
Number
Certificate
Applicable from
(Date & Year)
Valid till (Date &
Year)
Equipment/ Product Profile (to be submitted for each product separately).
(a)
Name of the Product: _________________________________________
(Should be given category wise for e.g. all products under night vision devices to
be mentioned together).
(b)
Description (attach technical literature) : ___________________________
(c)
Whether OEM or Integrator : ____________________________________
(d)
Status (In service/Design development state) :______________________
(e)
Production capacity per annum : _________________________________
(f)
Countries where equipment is in service : _________________________
(g)
Whether export clearance is required from respective government
(Foreign Vendors only).
(h)
In case of equipment and ammunition JV/MoU compliance to be specified.
(j)
Details of any collaboration/ Joint Venture/ co production/authorized
dealer with Indian Industry (Foreign Vendors only) :Name and Address
________________________________________________________________
________________________________________________________________
Tele : ___________________________ Fax : ___________________________
8.
(a)
Are you making the full equipment or is it being integrated by you ?
(b)
What are the components, sub system or sub-assemblies of the
equipment which are not manufactured by you ?
9.
Details of participation in similar procurement cases in India in the past.
10.
Any other Relevant Information
______________________________________________________________________
______________________________________________________________________
______________________________________________________________________