阿古斯:模拟太空辐射对现代电子产品影响的飞行活动

M. Swartwout, S. Jayaram, R. Reed, R. Weller
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引用次数: 4

摘要

辐射对现代电子产品的影响尚不清楚;长度小于60纳米的器件在更宽的输入能量范围内敏感,并且与较大的器件相比,对不同物种的响应不同。这不是一个微不足道的问题:现有的预测故障模型误差高达三个数量级。使问题复杂化的是,现代设备有几十种工作模式,需要多出数量级的测试时间。地面测试所需时间(和成本)的增加,加上通过立方体卫星进行空间实验的成本(和开发时间)大大降低,使太空飞行成为地面测试的明智补充。范德比尔特大学的空间和国防电子研究所(ISDE)与圣路易斯大学的空间系统研究实验室合作开发了“阿格斯”,这是一项拟议的飞行运动,可能会有十几艘立方体卫星级的航天器跨越数年。阿古斯号将进行一系列辐射效应模拟实验;在轨事件率将与地面预测进行比较,以帮助校准ISDE开发的新预测模型。Argus利用COTS CubeSat系统和极其简单的有效载荷要求,为两所大学的学生开发了一套非常低成本、非常自动化的被动平台。本文将描述现代电子产品辐射效应建模的挑战以及ISDE开发的新模型。“阿格斯”计划的概念和驱动因素将被讨论,前两个任务将被介绍:“铜”计划将于2012年底发射,“阿格斯-高”计划将于2013年发射。
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Argus: A flight campaign for modeling the effects of space radiation on modern electronics
The effects of radiation on modern electronics are not well understood; devices with length scales below 60 nm are sensitive across a wider range of input energies and respond differently to different species than larger devices. This is not a trivial issue: existing predictive failure models are off by as much as three orders of magnitude. Complicating the problem is that modern devices have dozens of operating modes, requiring orders of magnitude more testing time. This increase in the required time (and cost) for ground testing, coupled with the greatly reduced cost (and development time) for space experimentation via CubeSats, has made spaceflight a sensible complement to ground testing. The Institute for Space and Defense Electronics (ISDE) at Vanderbilt University has partnered with the Space Systems Research Laboratory at Saint Louis University to develop Argus, a proposed flight campaign of perhaps a dozen CubeSat-class spacecraft spanning years. Argus will fly an array of radiation-effects modeling experiments; on-orbit event rates will be compared against ground predictions to help calibrate new predictive models developed at ISDE. Argus leverages COTS CubeSat systems and the extremely simple payload requirements to field a set of very low-cost, very automated passive platforms developed by students at both institutions. This paper will describe the challenges in modeling radiation effects on modern electronics as well as the new models developed at ISDE. The Argus campaign concept and drivers will be discussed, and the first two missions will be presented: COPPER, which flies in late 2012, and Argus-High, proposed for a 2013 launch.
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