References

Satellites EGSE

Meteorological

Meteosat Third Generation (MTG) Interferometer Assembly and Detection Electronic Assembly (IA-DEA)

Thales Alenia Space Cannes (France)
Delivery of Instrument SCOE’s which provided power to the instrument, enabled MIL-STD 1553 interface, ASM, TSM signals acquisition and generation, simulation of thermal loads and IRIG-B interface.
The objective of the MTG mission is to provide Europe, and, by extension, the International Community, with an operational satellite system able to support accurate prediction of meteorological phenomena and the monitoring of climate and air composition through operational applications for the period of time between 2017 and 2037.

Meteosat Third Generation (MTG) Flexible Cobined Imager (FCI)

Thales Alenia Space Cannes (France)
Delivery of Instrument SCOE’s which provided power to the instrument, command and control functions of MIL-STD 1553 interface, synchro signals generation, ASM, BSM, HPC and TSM signals acquisition.
The objective of the MTG mission is to provide Europe, and, by extension, the International Community, with an operational satellite system able to support accurate prediction of meteorological phenomena and the monitoring of climate and air composition through operational applications for the period of time between 2017 and 2037. The Flexible Combined Imager (FCI) on the MTG-I satellite will continue the very successful operation of the Spinning Enhanced Visible and Infrared Imager (SEVIRI) of Meteosat Second Generation (MSG) satellite Meteosat-8.

Meteosat Third Generation (MTG) EPS

OHB System Bremen (Germany)
Delivery of Umbilical, Solar Array Simulator, Load Simulator, Battery Simulator, Pyro SCOE’s which allowed simulating solar panels, batteries, separation straps and pyrotechnics of spacecraft.
The objective of the MTG mission is to provide Europe, and, by extension, the International Community, with an operational satellite system able to support accurate prediction of meteorological phenomena and the monitoring of climate and air composition through operational applications for the period of time between 2017 and 2037.