Renesas Electronics Corporation has launched a new line of plastic-packaged radiation-hardened (rad-hard) devices for satellite power management systems. The four new devices include the ISL71001SLHM/SEHM point of load (POL) buck regulator, ISL71610SLHM and ISL71710SLHM digital isolators, and the ISL73033SLHM 100V GaN FET and integrated low-side driver. Combining rad-hard assurance levels with the board area savings and cost advantages of plastic packaging, the new portfolio brings space-grade products to missions in medium/geosynchronous Earth orbit (MEO/GEO) with longer lifetime requirements, as well as small satellites and higher density electronics, while reducing size, weight, and power (SWaP) costs.
The new ICs also complement the radiation-tolerant plastic-package ICs Renesas introduced in 2017 for small satellites in Low Earth Orbit. The plastic IC lineup supports multiple orbit ranges, providing the radiation performance and optimal cost balance required for a variety of satellite subsystems and payloads.
“With every new mission, customers want more functionality, which requires larger satellite payloads and has traditionally translated into increased SWaP for the satellite systems,” said Philip Chesley, Vice President, Industrial and Communications Business Division at Renesas. “With Renesas’ new ICs, customers can enjoy the SWaP advantages of plastic packaging to save up to 50 percent of the board area compared to ceramic-packaged devices, while maintaining the reliability and radiation assurance required for higher orbit missions with lifespans ranging up to and beyond 15 years.”
Traditionally, radiation-hardened ICs were almost exclusively produced using hermetically sealed ceramic packages, which achieved the required reliability but had significant tradeoffs in terms of size and weight. The new Renesas rad-hard plastic ICs help customers reduce their electronics footprint and cost without compromising performance.
To ensure the plastic ICs adhere to the highest quality for operation in harsh space environments, the new devices feature QMLV-like production level testing, and all devices will undergo Radiation Lot Acceptance Testing (RLAT).