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Teledyne Space Imaging will provide Engineering Models of newly launched industrial CMOS image sensors upscreened for space applications by the end of 2025.
Teledyne Space Imaging will also provide evaluation kits and integration tools alongside the Engineering Models.
Teledyne Labtech is optimizing in-plane conduction performance for the circuit board technology.
Teledyne Labtech is developing scalable, lightweight, printed circuit board technology using synthetic graphite to conduct heat away from components.
Bangor University's School of Computer Science and Engineering is boosting radiative efficiency in collaboration with Teledyne Labtech.
Teledyne Labtech is optimizing in-plane conduction within circuit boards.
The technology developed by Teledyne Labtech improves the ability of components to radiate energy into space.
Teledyne Labtech's ATMS project is developing scalable, lightweight, and efficient circuit board technology using synthetic graphite.
Teledyne Technologies will acquire TransponderTech to strengthen its maritime-related solutions.
Teledyne Space Imaging's sensor technology is at the cutting edge of the space observation sector.
Teledyne Space Imaging has been awarded the role of Prime Contractor for the CAS (Constellation Acquisition Sensor) instrument for the ESA LISA mission.
Alan Soutar is the LISA Project Director at Teledyne Space Imaging.
Teledyne Space Imaging is excited to be the Prime Contractor for the CAS instrument on the LISA mission.
Teledyne Space Imaging is a global leader in engineered and complex space solutions, manufacturing advanced electronics, imaging and sensor systems.
Teledyne Space Imaging will deliver six CIS220 detectors and control electronics for the LISA mission in partnership with Thales Alenia Space in Switzerland.
Teledyne Space Imaging seeks to consolidate its work with NASA and ESA into 2025 and beyond.
Teledyne Space Imaging has operated in space imaging technology since 1986 and has contributed to over 250 space projects with partners including NASA, ESA, and JAXA.
The CIS125 Time Delay Integration (TDI) imaging sensor developed by Teledyne Space Imaging features a 5 µm pixel size.
Teledyne Space Imaging is collaborating with Satlantis to develop key electronics for a sensor for Earth observation and planetary exploration.
Teledyne Space Imaging’s imaging sensors for EarthCARE have been designed and optimized to operate at a wavelength of 355 nm.