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RUAG Space: Maiden flight of new generation navigation receiver by Staff Writers Zurich, Switzerland (SPX) Nov 19, 2020
With the upcoming launch of ocean monitoring satellite Sentinel-6, two new Precise Orbit Determination Receivers (PODRIX) from RUAG Space will make their maiden flight. PODRIX achieves a very high, real-time in-orbit accuracy of the satellite's position in orbit from below one meter to a few centimeters utilizing on-ground post-processing. The high accuracy is achieved through simultaneously processing of multi-frequency signals from the U.S. GPS and European Galileo satellites. PODRIX GNSS receivers are the latest addition to RUAG's GNSS receiver product family that already includes LEORIX (navigation receiver for Low Earth Orbit) and GEORIX (navigation receiver for Geostationary Earth Orbit). "They are all based on the European Space Agency's latest GNSS processing technology", says Anders Linder, Senior Vice President Electronics at RUAG Space. "This launch is a remarkable milestone for our GNSS receiver family, which include the most precise receiver on the market." Kurt Kober, General Manager Product Unit Navigation and Payload Processors, adds: "This maiden flight is an important step towards gaining flight heritage for our new PODRIX receivers."
70 receivers of the latest receiver generation ordered In total, more than 70 receivers of the latest receiver generation (LEORIX, GEORIX and PODRIX) have been ordered by customers in Asia, Europe, Middle East and the USA so far. They will be launched for different Low- and Geostationary Earth Orbit missions within the next few months or years.
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China's Mars probe completes third orbital correction Beijing (XNA) Nov 02, 2020 China's Mars probe Tianwen-1 conducted its third orbital correction Wednesday night, according to the China National Space Administration (CNSA). The probe carried out the orbital correction at around 10 pm (Beijing time) with its eight 25N engines working simultaneously. The performance of the 25N engines was also tested during the operation. The orbital correction aims to fine-tune the transfer orbit after the deep-space maneuver, ensuring that the probe achieves a sound planned rendezvous ... read more
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