Microchip Announces Space-Qualified COTS-Based Radiation-Hardened Power Converters – CIE cieonline.co.uk - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from cieonline.co.uk Daily Mail and Mail on Sunday newspapers.
Radiation-hardened power converters Microchip Technology is expanding its SA50-120 power converter family with nine new units based on its Commercial Off-the-Shelf (COTS) technology.
This technology provides developers with space-qualified power converters that help to minimize risk and lower development costs,
These SA50-120 radiation-hardened DC to DC power converters â the only standard non-hybrid space-grade DC-DC power converters available â utilize surface mount component construction, allowing flexibility and customisation in order to fit specific applications and requirements.
The device family, qualified to Mil-Std-461, Mil-Std-883 and Mil-Std-202, enables designers to start with proven COTS technology and quickly scale up development, reducing risk and development time.
Expansion of SA50-120 family introduces qualified 100V and 120V bus systems for space applications
CHANDLER, Ariz., February 23, 2021 – As reliance on communication and weather satellites grows and space research expands in scope and mission, new technology is required to help speed spaceflight system design and production. Microchip Technology Inc. (Nasdaq: MCHP) today announced the expansion of its SA50-120 power converter family with nine new units based on its Commercial Off-the-Shelf (COTS) technology. This technology provides developers with space-qualified power converters that help to minimize risk and lower development costs.
Microchip’s
SA50-120 radiation-hardened DC to DC power converters – the only standard non-hybrid space-grade DC-DC power converters available – utilize surface mount component construction, allowing flexibility and customization to fit specific applications and requirements. The SA50-120 family, qualified to Mil-Std-461, Mil-Std-883 and