Satnews Daily
September 26th, 2018

Thin is Good ... ThinKom's First Aero Terminal Reaches Connectivity with SES' O3b MEO Satellites

Success for ThinKom Solutions, Inc. regarding the ground test that included a vehicle-mounted ThinKom Ka2517 aeronautical antenna that acquired successive O3b MEO satellites at 13-degree elevation and successfully tracked them for 30-minute periods. All the while the satellites traversed from west to east, resulting in the successful completion of the first ground test of its ThinAir® Ka2517 Ka-band phased-array satellite antenna with the SES’ O3b constellation of medium-Earth orbit (MEO) satellites.

ThinKom ThinAir Ka2517

The test was conducted in August 2018 at ThinKom’s facility in Hawthorne, California, in collaboration with SES Networks. ThinKom said this test is a precursor to a flight test, expected to take place before the end of 2018. This will be the first in-flight demonstration of a ThinKom antenna communicating through a non-geostationary (NGSO) constellation and will demonstrate the ability of ThinKom’s phased-array antenna to auto-track and perform seamless beam switching through aircraft roll, pitch, and yaw motions.

O3b is the first NGSO satellite constellation capable of delivering commercial broadband communication services. The constellation orbits the Earth at about 8,000 km altitude, along an equatorial path, allowing much larger visible Earth angles than low-Earth orbit (LEO) constellations currently being evaluated.

Bill Milroy, ThinKom Chief Technology Officer said that ThinKom’s unique patented low-profile phased-array antennas have been designed for interoperability on geostationary (GEO) and MEO satellites with the agility and switching speed to move seamlessly from beam-to-beam and constellation-to-constellation. Agility tests have proven that their antenna achieves switching speeds of less than one second, more than fast enough to support beam switching with no interruption in connectivity.

He continued that the ground test, and the coming aero tests, are important steps in showing the ability of the ThinKom antenna to operate on the O3b MEO satellite network, and will pave the way to full commercialization.

Stewart Sanders, Executive Vice President of Technology at SES Networks added that innovation in terminal technology is key for scaling SES Networks’ proven MEO system for mass connectivity. They’re delighted to collaborate with ThinKom and to continue growing a partner ecosystem that will redefine the standard for their industry. This development aligns with our aim to make it faster, easier and more affordable to expand service reach to our customers and their end users.

For more on ThinKom’s LEO/MEO/GEO interoperability, see this video.