Chelmsford, UK, July 14th, 2020 – Teledyne e2v, a Teledyne Technologies [NYSE: TDY] company and part of the Teledyne Imaging Group has been selected through the grouped proposal of the European Space Agency’s (ESA) industrial policy committee to place six Copernicus Sentinel satellite missions to provide the image sensor technology.
The two missions, CHIME and CO2M, funded by ESA, incorporate image sensors at the heart of the instruments and will utilise Teledyne Imaging’s technology.
The Copernicus Hyperspectral Imaging Mission, CHIME, a unique visible to shortwave infrared spectrometer will provide routine hyperspectral observations to support new and enhanced services for sustainable agricultural and biodiversity management, and soil property characterisation. The mission will complement Copernicus Sentinel-2, which also features a Teledyne Imaging visible sensor, for applications such as land-cover mapping. Thales Alenia Space France will lead the CHIME industrial consortium.
Dr Miles Adcock – President Space and Quantum at Teledyne e2v said: “This is excellent news in two respects for the CHIME mission. First, the UK facility has been able to continue the long-standing supply of imaging sensor technology to the Copernicus Sentinels. Second, we have developed a UK infrared detector design and manufacturing capability that utilises the world’s best base detector substrate materials from within the Teledyne Imaging Group.”
The Copernicus Anthropogenic Carbon Dioxide Monitoring (CO2M) mission will carry a near-infrared and shortwave-infrared spectrometer to measure atmospheric carbon dioxide produced by human activity. The mission will comprise a constellation of three spacecraft to map the emissions of carbon dioxide.
CO2M will comprise four sensor instruments, CO2I, NO2, Multi-Angle Polarimeter (MAP) and Cloud Imager (CLIM).
Teledyne Imaging will supply for the MAP instrument focal plane array (FPA) VNIR CMOS digital image sensors, from their new family called Capella (2048 x 2048 10µm pixels).
Capella will also feature as the visible sensors for the CO2I and NO2 instruments.
In addition, the CLIM instrument, which relies on the Proba-V flight proven design, will utilise a Teledyne e2v VNIR CCD detector using 4 x 6000 pixels of the flight proven quadrilinear 13µm pixel device. The CO2M industrial consortium will be led by OHB-System AG.
Christophe Tatard – Vice President Business and Product Development at Teledyne e2v said: “We have a proud heritage of supplying the Sentinels with CCD and CMOS detectors and with this extension of the programme we are very excited to now be providing a SWIR detector as well as the VNIR detectors.”
Notes to Editors:
Teledyne e2v is part of the Teledyne Imaging Group. Their innovations lead developments in healthcare, life sciences, space, transportation, defence and security and industrial markets. Teledyne e2v’s unique approach involves listening to the market and application challenges of customers and partnering with them to provide innovative standard, semi-custom or fully-custom imaging solutions, bringing increased value to their systems.
For more information, visit https://www.teledyne-e2v.com
Teledyne Imaging is a group of leading-edge companies aligned under the Teledyne Technologies [TDY] umbrella. Teledyne Imaging forms an unrivalled collective of expertise across the spectrum with decades of experience. Individually, each company offers best-in-class solutions. Together, they combine and leverage each other’s strengths to provide the deepest, widest imaging and related technology portfolio in the world. From aerospace through industrial inspection, radiography and radiotherapy, geospatial surveying, and advanced MEMS and semiconductor solutions, Teledyne Imaging offers world-wide customer support and the technical expertise to handle the toughest tasks. Their tools, technologies, and vision solutions are built to deliver to their customers a unique and competitive advantage.
For more information, visit https://www.teledyneimaging.com/
Mark Bown, Head of Marketing - Space Imaging