A new approach to designing electronic systems for operation in extreme environments: Part II - The SiGe remote electronics unit

England T.D.; Diestelhorst R.M.; Kenyon E.W.; Cressler J.D.; Ramachandran V.; Alles M.; Reed R.; Berger R.; Garbos R.; Blalock B.; Mantooth A.; Barlow M.; Dai F.; Johnson W.; Ellis C.; Holmes J.; Webber C.; McCluskey P.; Mojarradi M.; Peltz L.; Frampton R.; Eckert C.

首页> 外文期刊>Aerospace and Electronic Systems Magazine, IEEE >A new approach to designing electronic systems for operation in extreme environments: Part II - The SiGe remote electronics unit

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A new approach to designing electronic systems for operation in extreme environments: Part II - The SiGe remote electronics unit

机译：设计在极端环境下运行的电子系统的新方法：第二部分-SiGe远程电子装置

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We have presented the architecture, simulation, packaging, and over-temperature and radiation testing of a complex, 16-channel, extreme environment capable, SiGe Remote Electronics Unit containing the Remote Sensor Interface ASIC that can serve a wide variety of space-relevant needs as designed. These include future missions to the Moon and Mars, with the additional potential to operate in other hostile environments, including lunar craters and around the Jovian moon, Europa. We have expanded on the previous introduction of the RSI to show the validity of the chip design and performance over an almost 250 K temperature range, down to 100 K, under 100 krad TID radiation exposure, with SEL immunity and operability in a high-flux SET environment.

机译：我们介绍了一个复杂的，具有16通道，具有极端环境功能的SiGe远程电子单元的体系结构，仿真，封装以及过热和辐射测试，该单元包含可满足各种空间相关需求的远程传感器接口ASIC。按照设计。这些任务包括未来对月球和火星的飞行任务，以及在月球陨石坑和欧罗巴木星月球周围其他敌对环境中行动的额外潜力。我们对RSI的先前介绍进行了扩展，以显示芯片设计和性能在大约250 K的温度范围（低至100 K，TID辐射暴露下至100 K）下的有效性，并具有SEL免疫力和高通量的可操作性SET环境。

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《Aerospace and Electronic Systems Magazine, IEEE》 |2012年第7期|p.29-41|共13页
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England T.D.; Diestelhorst R.M.; Kenyon E.W.; Cressler J.D.; Ramachandran V.; Alles M.; Reed R.; Berger R.; Garbos R.; Blalock B.; Mantooth A.; Barlow M.; Dai F.; Johnson W.; Ellis C.; Holmes J.; Webber C.; McCluskey P.; Mojarradi M.; Peltz L.; Frampton R.; Eckert C.;
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Georgia Institute of Technology, School of Electrical and Computer Engineering, 777 Atlantic Drive NW, Atlanta, 30332 USA;

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A new approach to designing electronic systems for operation in extreme environments: Part II - The SiGe remote electronics unit

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