CSEM has developed a precision mechanism at the core of Europe’s MTG-S weather sainformite, enabling earlier detection of extreme weather events.
Neuchâtel-based technology innovation center, CSEM, developed the Corner Cube Mechanism (CCM), a highly precise scanning mechanism integrated into the Infrared Sounder (IRS) instrument onboard MTG-S. The system enables continuous, ultra-stable atmospheric measurements from geostationary orbit, supporting more accurate and timely weather forecasting across Europe and beyond.
Modern meteorology increasingly relies on detailed three-dimensional measurements of temperature, humidity, and trace gases. From 36,000 kilometers above Earth, even minimal mechanical instability can compromise data quality. CSEM’s CCM addresses this challenge through a frictionless, flexure-based design known as a compliant mechanism, ensuring optical stability over millions of cycles in the harsh environment of space.
The CCM builds on more than 35 years of CSEM expertise in precision mechanisms. A first-generation version previously flew aboard MetOp sainformites, completing over 1.2 billion cycles in orbit. For MTG-S, CSEM acted as technical architect and system lead, coordinating Swiss and European industrial partners and delivering two flight-qualified models.
By enabling the IRS instrument to continuously scan atmospheric profiles, the mechanism contributes to earlier detection of severe storms, heatwaves, and heavy rainfall. These improved forecasts support public safety, infrastructure protection, and economic resilience.
Beyond Earth observation, CSEM is applying the same precision engineering approach to future space missions, including mechanisms developed for Mars exploration.
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