INTREPID 500XS 5.0m X/S-band radio telescope as ground station

INTREPID 500XS 5.0m X/S-band radio telescope as ground station

For satellite communication

INTREPID 500XS is the professional radio telescope we designed for satellite communication and spacecraft mission support. Science institutes and space agencies now have an affordable system to let them own and operate a high performance ground station.

INTREPID 500XS radio telescope uses a 5,0 meter diameter solid dish antenna with a very high surface precision that allows to record frequencies up to 12 GHz. This radio telescope comes with the giant weatherproof GS-800 antenna rotator for a high precision pointing and tracking of satellites in the sky, remotely controlled and that allows very fast slew speeds (up to 12°/sec). Radio receiver, LNA and software are not included. Thanks to our experience, we’re able to develop specific projects to fulfill customer requests.

Click here to contact us for more information or to order.
CONTACT US

INTREPID 500S X/S-band radio telescope uses a 5,0 meter diameter full dish antenna with a very high surface precision. The dual X/S band feed allows to record frequencies both in X and S bands with 300MHz bandwidth each and dual circular polarisation. The giant GS-800 antenna tracking system allows high precision pointing and tracking of satellites in the sky, with slewing speed up to 12°/sec.

 

INTREPID 500XS 5.0m X/S-band radio telescope as ground station

 

An affordable X/S-band radio telescope with 5,0 meter diameter full dish antenna for satellite communication.

Thanks to specially developed technologies, Radio2Space radio telescopes can be used to support spacecraft exploration and satellite missions in Earth orbit. This ground station can record telemetry data transmitted to Earth from spacecraft or perform radio science (by adding receivers or transceivers not included with INTREPID radio telescope). Radio2Space radio telescopes have very precise mounts that allow accurate tracking of spacecraft, using high directivity antennas – this reduces background noise helping to detect faint signals from spacecraft. Radio telescopes are remotely operated to control antenna position, to detect even the faintest signals.

 

INTREPID 500XS 5.0m S/X-band radio telescope as ground station: specifications

  • Antenna diameter (m): 5
  • Antenna type: Prime focus
  • Working frequency: 2100 – 2400 MHz in S-band / 8300 – 8600 MHz in X-band
  • Bandwidth: 300 MHz both in S and X bands
  • Feed: Dual S/X band, coaxial
  • Polarization: circular, left and right hand
  • Mount: GS-800 antenna tracking system
  • Pier: C800-HEAVY High load capacity pier for concrete base
  • Remote control: yes
  • Maximum slewing speed: 12°/sec
  • Weatherproof: Yes

 

INTREPID 500XS 5.0m S/X-band radio telescope as ground station

 

GS-1000 antenna tracking system with maximum slewing speed of 12°/sec.

The INTREPID 500XS radio telescope uses the professional GS-800 antenna tracking system that we have specially designed and built to move the large 5 meter diameter full dish with great speed (up to 12°/sec) and precision, in order to track even fast moving satellites in low Earth orbit. GS-800 antenna tracking system has 800 Kg load capacity with very high precision pointing and tracking (encoders with a read resolution of 0,0003°). It can also be equipped with a special electronic security system (optional) which “parks” the antenna pointed at the Zenith (the vertical position) when the wind exceeds 75 Km/h, offering the lowest resistance to the wind.

 

INTREPID 500S 5.0m S-band radio telescope as ground station

INTREPID

 

INTREPID: Apollo 12 Lunar Module that landed on the Moon just 600 feet from the planned target (Surveyor 3 probe).

INTREPID radio telescopes are named in honor of the Lunar Module “Intrepid” that landed on the Moon during the Apollo 12 mission in November 1969. Astronauts were able to land the Lunar module in the Ocean of Storms just 600 feet from the planned target: the unmanned Surveyor 3 probe that previously landed on Moon surface on April 1967. Credits: NASA.

Related products

Be the First to Know latest news, products releases and scientific discovering on Radio Astronomy and Satellite Communication.

    I consent to the processing of my personal data for the purposes indicated in the Privacy Policy