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RUAG Space develops high-tech-mechanisms for new all-electric satellites by Staff Writers Bern, Switzerland (SPX) Jan 20, 2020
Eutelsat KONNECT satellite has been launched on 16 January on board an European Ariane 5 rocket. The satellite will provide broadband internet services to Africa. For this new generation of European telecommunications satellites, RUAG Space produced mechanisms that point the satellite's electrical engines. The electric propulsion is necessary to bring the satellite exactly into its position and to maintain this position over the lifetime of several years. "To have designed and produced such a complex mechanism in a very short time frame is an extraordinary technical achievement," says Peter Guggenbach, Executive Vice President RUAG Space. "Our mechanisms are a key element of this new type of all-electric satellite." The all-electric Eutelsat KONNECT spacecraft is the first satellite built on the new Spacebus Neo platform from Thales Alenia Space. Electric engines consume significantly less fuel than chemical engines, for example. The Electric Propulsion Pointing Mechanisms (EPPM) were delivered from RUAG Space to Thales Alenia Space, the satellite builder. The mechanisms will be mounted on Eutelsat KONNECT satellite. In total RUAG Space developed and produced 12 mechanisms at its site in Vienna, Austria.
Exact pointing for 15 years
The Neosat programme The Neosat programme comprises both Spacebus Neo by Thales Alenia Space and Eurostar Neo by Airbus Defence and Space. It includes development up to in-orbit validation of the new satellite product lines for both companies, allowing European industry to deliver competitive satellites for the commercial satellite market. The payload fairing and the onboard computer for the Ariane 5 rocket was produced by RUAG Space.
China tests micro propulsion technology for space-based gravitational wave detection Beijing (XNA) Jan 06, 2020 Chinese space engineers have tested a micro propulsion technology on a recently launched satellite, which could be used in future space-based gravitational wave detection. Experts from the China Academy of Space Technology under the China Aerospace Science and Technology Corporation said they tested the variable thrust propulsion at the micronewton level on the Tianqin-1 satellite, which was sent into space on Dec. 20, 2019. The thrust of one micronewton is equivalent to the weight of a 1-cm ... read more
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