PRODUCTS

SATELLITE TELECOMMAND RECEIVERS

OVERVIEW

Telecommand Receiver, which has been developed and qualified to operate on geostationary satellites, is responsible for receiving the commands uplinked from the ground stations and transmit the demodulated data to satellite management unit which is responsible for executing them.

These time tagged control commands are sent to the satellite for actions such as controlling the movement of the satellite or turning on and off of other equipment on the satellite. Telecommand Receiver is a state-of-the-art RF equipment with the flexibility to change the frequency in-orbit and works on Ku-Band frequencies.

// SATELLITE TELECOMMAND RECEIVERS

  • In-orbit frequency agility up to 250 MHz
  • Standard PCM/BPSK/FM demodulation
  • Cost effective and state-of-the-art design using latest qualified    components
  • Compact design for low mass and size
  • Vertical mounting for dense system layout
  • Low non-recurring engineering costs with the help of frequency agility

 

  • CAN-SU data protocol
  • Compatible with major platforms' electrical and mechanical interfaces
  • Electromagnetic compatibility per MIL-STD-461F
  • Suitable for GEO, LEO and MEO platforms
  • To be qualified in 2020

 

SPECIFICATIONS KU-BAND SATELLITE TELECOMMAND RECEIVERS NOTES
Operating frequency range 12.75 to 14.50 GHz  
Frequency agility range 250 MHz  with 100 kHz steps
Subcarrier frequency 16 KHz 8 kHz Optional
Input power range -112/-60 dBm  
Modulation BPSK/FM Options available upon request
Data rate Up to 1000 bps  
Bit error rate (@-112 dBm) 10-7 @ 1000 bps  
Ranging delay variation ±50 ns  
Data interface CAN-SU Options available upon request
Power consumption 20 W  
Mass < 1.9 kg  
Dimensions 235 x 180 x 60 mm  
Download Brochure for Details

”FUTURE IS IN THE SKIES.”

FEATURES

 Vestibulum Sapien

SPACE QUALIFIED

Fully space qualified equipment for geostationary satellites.

 

 Praesent Libero

IN FLIGHT CONFIGURABLE

Frequency flexibility function allows in-orbit change of operating frequency.

HIGH%20RELIABILITY

HIGH RELIABILITY

Designed for more than 15 years of lifetime in geostationary orbit with lowest cost possible.

Low%20cost

SWaP-C DESIGN

Designed for low size, weight, power consumption and cost, required to meet state-of-the-art customer requirements.

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