Power supplies in space applications operate in environments that require enhanced radiation technology to withstand extreme particle interactions and solar and electromagnetic events.These events degrade space-based systems and disrupt operations. To meet this requirement, Microchip Technology Inc. has announced the qualification of its M6 MRH25N12U3 radiation-hardened 250V, 0.21 Ohm Rds(on), metal-oxide-semiconductor field-effect transistor (MOSFET) for commercial aerospace and defense space applications.Microchip's radiation-hardened M6 MRH25N12U3 MOSFET provides the primary switching element in power conversion circuits including point-of-load converters, DC-DC converters, motor drives and controls and general-purpose switching.The MOSFET withstands the harsh environments of space, extends reliability of power circuitry and meets all requirements of MIL-PRF19500/746 with enhanced performance. Microchip completed testing for Defense Logistics Agency (DLA) review and qualification, for the device's sourcing in the U.S. military supply chain (expected JANSR2N7593U3 certification in June 2021).The M6 MRH25N12U3 MOSFET is designed for future satellite system designs as well as serving as an alternate source in existing systems.The device can withstand total ionizing dose (TID) up to 100 krad and 300 krad and single event effects (SEE) with linear energy transfer (LET) up to 87 MeV/mg/cm2. It provides 100-percent wafer lot radiation hardness assurance in validation tests."Microchip's entry into the radiation-hardened MOSFET market reflects our long-term commitment to support our customer base and provide aerospace and defense OEMs and integrators with high-performance solutions and continuous supply," said Leon Gross, vice president of Microchip's Discrete Product Group business unit."In addition to our proven quality and reliability, the M6 MRH25N12U3 provides a value pricing option for developers and offers them full application support."The M6 MRH25N12U3 is part of Microchip's broad portfolio of aerospace, defense and space technology that includes field programmable gate arrays (FPGAs), microprocessor integrated circuits (ICs), linear ICs, power devices, discretes and power modules that integrate both SiC and Si power solutions.Together with its microcontrollers (MCUs) and analog products, Microchip serves the needs of high-power system control, gate drive and power stage - supporting developers worldwide with total system solutions.While continuing to introduce new technology, Microchip teams with space manufacturers and integrators to secure supply chains for existing and future systems.Related LinksMicrochip's commercial aerospace and military product portfolio.Space Technology News - Applications and ResearchThanks for being there;We need your help. The SpaceDaily news network continues to grow but revenues have never been harder to maintain.With the rise of Ad Blockers, and Facebook - our traditional revenue sources via quality network advertising continues to decline. And unlike so many other news sites, we don't have a paywall - with those annoying usernames and passwords.Our news coverage takes time and effort to publish 365 days a year.If you find our news sites informative and useful then please consider becoming a regular supporter or for now make a one off contribution.SpaceDaily Monthly Supporter$5+ Billed MonthlySpaceDaily Contributor$5 Billed Oncecredit card or paypalStudy: AI faster, better at predicting successful radiation treatment Washington DC (UPI) Jun 3, 2021 In some scenarios, artificial intelligence is better than humans at identifying preferable outcomes for cancer radiation treatment, researchers found in a study published Thursday in Nature Medicine. Researchers at the University of Toronto found radiation treatment plans created by AI were selected over human-based treatments 72 percent of the time in a blind clinical study. In addition, the radiation treatments designed by artificial intelligence were found to be 60 percent faster than ... read more