On-Air Tests Validate ThinKom Phased Array Antenna’s Ability to Track and Communicate with Telesat Phase 1 LEO Satellite
HAWTHORNE, Calif. – July 2, 2019 – ThinKom Solutions today announced the completion of the first live test of a commercially available phased-array antenna with Telesat’s Phase 1 LEO satellite. The test was performed using a production model of ThinKom’s Ka2517 aeronautical satcom antenna, designed for business aviation, commercial air transport and military airborne applications.
ThinKom’s Ka2517 antenna successfully acquired, tracked and maintained seamless end-to-end connectivity with the Telesat LEO satellite. Full-duplex throughput data rates of up to 370 Mbps on the downlink and 110 Mbps on the uplink were achieved at extremely high spectral efficiencies, all while demonstrating the ultra-low latency capabilities (20-40 msec) of Telesat’s LEO satellite.
Additionally, the Ka2517 reliably transitioned from tracking the LEO satellite to a geostationary (GEO) satellite and back to the LEO satellite, with switching times that were consistently under one second.
The on-air tests were conducted June 10-14 at Telesat’s Allan Park facility in Ontario using the flight-proven ThinKom Ka2517 phased-array antenna and a Newtec MDM6000 modem. The ThinKom antenna acquired and tracked the LEO satellite at elevation angles as low as 10 degrees above the horizon.
“These on-air tests confirm that our unique phased-array antenna architecture provides the beam agility, switching speeds, low look-angles and high spectral efficiencies required to communicate over a LEO satellite network,” said Bill Milroy, ThinKom’s Chairman and Chief Technology Officer. “We are now moving into the next phase of development and commercialization of an Enterprise User Terminal for Telesat’s global LEO satellite system.”
Milroy noted that ThinKom has also conducted successful on-air demos with the Ka2517 across multiple GEO satellites and medium-earth orbit (MEO) constellations from fixed platforms as well as an aircraft in flight. “These tests provide clear validation of our phased-array technology and products across the full range of GEO, MEO and LEO environments,” he said.
“Telesat is pleased to be collaborating with ThinKom on antenna technologies that will enable aeronautical customers to take full advantage of Telesat LEO’s capabilities, including high capacity and ultra-low latency,” said Erwin Hudson, Vice President, Telesat LEO. “The aeronautical market is important for Telesat and these on-air tests highlight the advantages the Telesat LEO satellite constellation will bring to passengers and crew of major airlines worldwide. Telesat looks forward to continuing to partner with ThinKom and to building a complete antenna ecosystem to serve growing markets for mobile broadband.”
ThinKom and Telesat signed a memorandum of understanding (MoU) in September 2018 to jointly develop a Ka-band Enterprise User Terminal for Telesat’s planned LEO satellite constellation, which will offer seamless, low-latency, high-throughput broadband services on a global basis. The live on-air test with ThinKom’s Ka2517 is a big step forward in that process and clearly validates ThinKom’s proprietary phased-array technology.
About Telesat LEO
Able to serve the entire globe, Telesat LEO will satisfy many of the world’s most challenging communications requirements. It will bridge the digital divide with fiber-like high-speed services into rural and remote communities, accelerate 5G expansion and set new levels of performance for commercial and government broadband connectivity on land and in key maritime and aeronautical markets, which are among the fastest growing in today’s satcom industry.