LATEST NEWS
Infrastructure and Clean Room works on Hellenic Assembly Integration & Testing Facility nearing completion with support from ESA
December 21, 2025 • 17:53
ESA’s Iris satcom technology takes to US skies to showcase next-gen sustainability applications on Boeing 2025 ecoDemonstrator
December 16, 2025 • 09:42
ITA Airways adopts satellite technology developed by ESA and Viasat to upgrade safety and fuel efficiency
December 16, 2025 • 09:26
Connectivity and Secure Communications programmes receive €2.1 billion at CM25 to continue driving competitive satellite communications
December 10, 2025 • 14:28
PHASMA and MICE-1 missions supported by ESA launched to expand Greece’s foothold in low Earth orbit
December 3, 2025 • 11:07
EVENTS
HydRON – User Workshop
January 25, 2022
Publication date
14 Nov 2013
The new technique can test a variety of complex telecommunication payloads, reducing testing time during integration and verification phases. It also results in improved safety and security for equipment and technicians since it drastically reduces the need for someone to perform the tests inside the payload module.
“We estimate the time reduction using this system is five days,” says Marc Le Scour, Payload AIT Engineer with Thales Alenia Space. “We now test all our payloads with it. The costs savings have been on the order of €50,000 on our standard SB4000C3 platform.”
For highly complex payloads, the time savings could in total be several weeks. As a result, payloads can be delivered sooner, improving the overall satellite delivery schedule. The system is expected to become a standard TAS way to test EMC. It has been used to test the AT1, AT2, Yamal-401, Athena Fidus, and W3D satellite payloads.
Future plans include developing a bigger tent for larger payloads.