All verified mentions of this organization in source documents.
RUAG Space supplied the onboard computer that controls and monitors the payload and many subsystems of Galileo satellites.
RUAG Space has developed and produced separation systems at its Linköping, Sweden site for around 40 years.
A RUAG Space navigation receiver that processes Galileo signals is onboard the Sentinel-6 Copernicus satellite, which has been in space since November 2020.
RUAG Space’s tests improved position accuracy from about 1 m to 0.1 m.
RUAG Space partnered with the Mohammed Bin Rashid Space Centre to deliver the LEORIX generation of GNSS navigation receivers for Low Earth Orbit missions.
LEORIX is the latest generation of RUAG Space GNSS navigation receivers designed for Low Earth Orbit.
RUAG Space offers three basic types of navigation receivers: the LEORIX for Low Earth Orbit, the GEORIX for Geostationary Earth Orbit, and the PODRIX for Precise Orbit Determination.
More than 80 receivers of RUAG Space's latest receiver generation (LEORIX, GEORIX, and PODRIX) have been ordered by customers in Asia, Europe, the Middle East, and the USA so far.
RUAG Space's latest-generation receivers will be launched on various Low Earth and Geostationary Earth Orbit missions within the next months and years.
RUAG Space offers three basic types of navigation receivers: the LEORIX for LEO, the GEORIX for GEO, and the PODRIX for Precise Orbit Determination.
RUAG Space partnered with the Mohammed Bin Rashid Space Centre to deliver the LEORIX generation of GNSS navigation receivers for LEO.
RUAG Space in Austria produced the multi-layer thermal insulation that protects OneWeb satellites against temperatures from approximately -150°C to +150°C.
The RUAG Space transport containers move assembled OneWeb satellites from Florida to launch sites and are equipped with a specifically designed damping system and climate control.
RUAG Space built the satellite dispenser that serves as an interface between the Soyuz rocket and OneWeb satellites.
RUAG Space received its first order for satellite thermal protection at the start of 1991 for the four satellites of the Cluster mission.
RUAG Space produced the thermal insulation for the constellation of 80 Iridium NEXT telecommunications satellites.
Since 2017, RUAG Space has been developing and producing high-temperature insulation for rockets.
Since 1993, RUAG Space thermal insulation has been used for low-temperature technology applications on Earth, including medical magnetic resonance tomographs.
RUAG Space thermal insulation is used on all of the more than 20 Galileo navigation satellites currently in orbit.
RUAG Space thermal insulation is used on the Mercury probe of the European-Japanese BepiColombo mission, which has been in space since October 2018.