Recent radiation test results for trench power MOSFETs

2017 IEEE Radiation Effects Data Workshop (REDW) Pub Date : 2017-07-17 DOI:10.1109/NSREC.2017.8115473

J. Lauenstein, M. Casey, E. Wilcox, A. Phan, Hak S. Kim, Alyson D. Topper, R. Ladbury, K. Label

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引用次数: 6

Abstract

Single-event effect (SEE) radiation test results are presented for various trench-gate power MOSFETs. The heavy-ion response of the first (and only) radiation-hardened trench-gate power MOSFET is evaluated: the manufacturer SEE response curve is verified and importantly, no localized dosing effects are measured, distinguishing it from other, non-hardened trench-gate power MOSFETs. Evaluations are made of n-type commercial and both n- and p-type automotive grade trench-gate device using ions comparable to of those on the low linear energy transfer (LET) side of the iron knee of the galactic cosmic ray spectrum, to explore suitability of these parts for missions with higher risk tolerance and shorter duration, such as CubeSats. Part-to-part variability of SEE threshold suggests testing with larger sample sizes and applying more aggressive derating to avoid on-orbit failures. The n-type devices yielded expected localized dosing effects including when irradiated in an unbiased (0-y) configuration, adding to the challenge of inserting these parts into space flight missions.

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沟槽功率mosfet的最新辐射测试结果

给出了各种沟栅功率mosfet的单事件效应(SEE)辐射测试结果。评估了第一个(也是唯一一个)辐射硬化沟栅功率MOSFET的重离子响应:验证了制造商的SEE响应曲线，重要的是，没有测量局部剂量效应，将其与其他非硬化沟栅功率MOSFET区分开来。对n型商用和n型和p型汽车级沟槽门装置进行了评估，使用的离子与银河系宇宙射线光谱铁膝的低线性能量传递(LET)侧的离子相当，以探索这些部件在具有更高风险承受能力和更短持续时间的任务(如立方体卫星)中的适用性。SEE阈值的部分到部分可变性建议使用更大的样本量进行测试，并采用更积极的降额来避免在轨故障。n型器件产生了预期的局部剂量效应，包括在无偏置(0-y)配置下照射时，这增加了将这些部件插入太空飞行任务的挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE Radiation Effects Data Workshop (REDW)

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