Teledyne’s Technology to Help Perseverance Search for Past Life on Mars

Artist’s concept of NASA’s Perseverance Rover on Mars. (Credit: NASA/JPL-Caltech)

THOUSAND OAKS, Calif., February 19, 2021 (Teledyne Technologies PR) – Teledyne Technologies (NYSE: TDY) is proud to contribute several of its advanced high performance image sensors to form part of the complex instrumentation onboard the Mars Rover Perseverance. Teledyne sensors will power, sense and help analyze the chemical composition of the surface and minerals, including Gy and atmosphere during the Mars 2020 mission.

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Aerojet Rocketdyne Receives Contract for up to Two More MMRTGS for Future Deep Space Exploration Missions

Artist’s concept of NASA’s Perseverance Rover. Perseverance’s power source, a Multi-Mission Radioisotope Thermoelectric Generator (MMRTG) provided by Aerojet Rocketdyne, is visible at the aft end of the rover. (Credit: NASA/JPL-Caltech)

LOS ANGELES, Calif., Feb. 12, 2021 – Aerojet Rocketdyne recently received a contract award to deliver up to two Multi-Mission Radioisotope Thermoelectric Generators (MMRTG) to the U.S. Department of Energy (DOE) for use in future planetary science missions. MMRTGs are radioisotope power systems that have been used as reliable electrical power sources on multiple deep space missions, including NASA’s Perseverance Rover, which will land on Mars on Feb. 18.

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NASA Tipping Point Selections Include Cryogenic Fluid, Lunar Surface and Landing Tech

An astronaut descends the ladder to explore the lunar surface. (Credit: NASA)

WASHINGTON (NASA PR) — The following selections, organized by topic area, are based on NASA’s fifth competitive Tipping Point  solicitation and have an expected combined award value of more than $370 million. NASA’s Space Technology Mission Directorate (STMD) will negotiate with the companies to issue milestone-based firm-fixed price contracts lasting for up to five years.

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NASA Announces Partners to Advance ‘Tipping Point’ Technologies for the Moon, Mars

NASA and industry have developed and tested numerous technologies to enable long-term cryogenic fluid management, which is essential for establishing a sustainable presence on the Moon and helping crewed missions to Mars. For example, this 13-foot diameter cryogenic storage test tank evaluated technologies to reduce the evaporation or “boil off” propellant losses. Implementation of similar technologies in operational missions requires further maturation through in-space demonstrations. (Credits: NASA)

WASHINGTON (NASA PR) — NASA has selected 14 American companies, including several small businesses, as partners to develop a range of technologies that will help forge a path to sustainable Artemis  operations on the Moon by the end of the decade.

U.S. industry submitted the proposals to NASA’s fifth competitive  Tipping Point solicitation, and the selections have an expected combined award value of more than $370 million. NASA’s Space Technology Mission Directorate will negotiate with the companies to issue milestone-based firm fixed-price contracts lasting for up to five years.

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NASA Selects US Companies to Advance Space Resource Collection

WASHINGTON, May 31, 2018 (NASA PR) — NASA has selected 10 companies to conduct studies and advance technologies to collect, process and use space-based resources for missions to the Moon and Mars. NASA placed a special emphasis on encouraging the responders to find new applications for existing, terrestrial capabilities that could result in future space exploration capabilities at lower costs.

The practice of in-situ resource utilization (ISRU) could increase safety and affordability of future human spaceflight missions by limiting the need to launch supplies, such as oxygen and water from Earth. NASA issued Appendix D of the Next Space Technologies for Exploration Partnerships-2 (NextSTEP) Broad Agency Announcement on Dec. 4, 2017. With it, the agency sought three areas of work focused on producing propellant and other exploration mission consumables using water from extraterrestrial soils and carbon dioxide from the Martian atmosphere.

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