Renesas' radiation hardened (rad hard) power products achieve the stringent voltage accuracy required of FPGAs, ASICs, microprocessors, and microcontrollers used in space and harsh environment applications. Our solutions enable regulation accuracy over input voltage, load current variation, switching noise, and large load transients and have proven highly reliable within mixed radiation exposure rates and other harsh environment variants.

Manufacturing & Test Information

Renesas has an unparalleled track record of providing highly reliable, efficient and accurate radiation hardened power products that achieve the stringent voltage accuracy required for harsh environments.

The low dose rate ionizing dose response of semiconductors has become a key issue in space applications. Renesas is addressing this market by wafer-by-wafer low dose rate acceptance testing as a complement to current high dose rate acceptance testing.

Renesas is one of only a few RHA Defense Logistics Agency (Land and Maritime) QML suppliers. All of Renesas' radiation hardened SMD products are MIL-PRF-38535/QML compliant and are 100% burned in.

description文档

文档标题 language 类型 文档格式 文件大小 日期
应用指南 & 白皮书
Radiation Hardened Load Switches Simplify Redundancy and Increase Reliability in Space Grade Power Systems 白皮书 PDF 522 KB
Reduce Size, Weight and Power of Telecommunication Payload and Satellite Command/Telemetry Subsystems 日本語 白皮书 PDF 340 KB
Taking Advantage of GaN in Small Satellite “New Space” Applications 日本語 白皮书 PDF 470 KB
How to Reduce SWaP of Satellite Command and Telemetry Subsystems 白皮书 PDF 352 KB
Ensuring Power Supply Sequencing in Spaceflight Systems 白皮书 PDF 547 KB
Advantages of Using Gallium NitrideFETs in Satellite Applications 白皮书 PDF 548 KB
Wafer by Wafer Low Dose Rate Acceptance White Paper 白皮书 PDF 533 KB
其他
Intersil Space Products Brochure 手册 PDF 3.16 MB

print新闻及更多资源

类型 日期
Standard Data Package 基本页面 2020年3月20日
Rad Hard Test Reports 基本页面 2020年3月20日
Rad Hard SMD Test Flow 基本页面 2020年3月20日
Low Dose Rate Acceptance Testing 基本页面 2020年3月26日