8 April 2021
Lynred of Palaiseau (near Paris) and Veurey-Voroize (near Grenoble), France, which designs and manufactures infrared (IR) detectors for aerospace, defense and commercial applications, says that Airbus Defence & Space (ADS), the prime contractor in the European Copernicus Land Surface Temperature Monitoring (LSTM) mission, has selected it to develop a new linear shortwave-infrared (SWIR) array to meet the special requirements of the satellite’s imager instrument.
The linear SWIR array will be integrated into an imager; a high-resolution radiometer that measures land-surface temperatures. LSTM’s overall aim is to improve sustainable agricultural productivity at field-scale in regions experiencing increasing water scarcity and climate variability. Its objective is to improve how the agriculture sector predicts droughts and addresses other land degradation issues.
“Lynred has a long track record in developing and manufacturing SWIR detectors for space instruments,” comments Vincent Chorvalli, LSTM instrument project manager at ADS. “We trust in Lynred’s capacity and technological performance to tackle the challenges in this program and deliver the LSTM SWIR detector according to our expectations.”
This type of IR detector, in particular its performance, is one of the major components enabling the imager instrument to achieve its overall system performance. Equally important is the requirement for the IR detector to operate at nominal performance while withstanding the rigors of space, notably high radiation levels. This makes its role and the requirement to perform reliably all the more critical.
“Our brand of IR detectors for space applications, built upon decades of the highest technological performance, reassures customers of Lynred’s reliability as a supplier and its ability to help them achieve the ambitious goals of their space programs,” says Lynred’s space business development manager Philippe Chorier. “We see this legacy as a key driver in the design of future missions – based on this large-format SWIR detector,” he adds. “We look forward to engaging with customers on other projects designed to preserve and protect the planet.”
Lynred’s SWIR detector will capture infrared light at three different wavelengths (0.945µm, 1.375µm and 1.61µm). Its design will meet the special needs of the mission, notably a linear array with four different lines (the line at 0.945µm being duplicated according to mission needs) of 1200 pixels each in the across-track satellite velocity direction and 12 pixels in the long-track scanning direction (scanning methods are used to acquire a multispectral image). The 12 pixels will enable the implementation of a TDI (time-delay integration) operation – a signal-to-noise ratio improvement method employed to enhance image quality – directly on the detector chip. As a consequence, the interface towards detector electronics is significantly simplified for global detection chain design optimization.
Lynred will deliver the first flight model by the end of 2023. The firm has previously contracted with ADS on other space missions, such as Sentinel 2, Sentinel 5, Microcarb and METImage.