集成DC-DC变换器中垂直和横向功率mosfet的TID和位移损伤效应

2009 European Conference on Radiation and Its Effects on Components and Systems Pub Date : 1900-01-01 DOI:10.1109/radecs.2009.5994551

F. Faccio, B. Allongue, G. Blanchot, C. Fuentes, S. Michelis, S. Orlandi, R. Sorge

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引用次数: 13

摘要

针对耐辐射全集成DC-DC变换器的发展，研究了五种不同技术下垂直和横向功率mosfet的TID和位移损伤效应。调查被推到非常高的辐射水平，期望升级到大型强子对撞机的实验。在n沟道晶体管中，TID会引起阈值电压偏移和源漏漏电流。观察到这些影响的大小有很大的变化。位移损伤增加了垂直和横向高压晶体管的导通电阻。在后一种情况下，高颗粒影响下的降解可能导致输出特性曲线的畸变。限制或消除辐射诱发泄漏电流的HBD技术已成功应用于这些高压晶体管，但必须谨慎使用，以避免对击穿电压产生影响。

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TID and displacement damage effects in vertical and lateral power MOSFETs for integrated DC-DC converters

TID and displacement damage effects are studied for vertical and lateral power MOSFETs in five different technologies in view of the development of radiation-tolerant fully integrated DC-DC converters. Investigation is pushed to the very high level of radiation expected for an upgrade to the LHC experiments. TID induces threshold voltage shifts and, in n-channel transistors, source-drain leakage currents. Wide variability in the magnitude of these effects is observed. Displacement damage increases the on-resistance of both vertical and lateral high-voltage transistors. In the latter case, degradation at high particle fluence might lead to a distortion of the output characteristics curve. HBD techniques to limit or eliminate the radiation-induced leakage currents are successfully applied to these high-voltage transistors, but have to be used carefully to avoid consequences on the breakdown voltage.

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2009 European Conference on Radiation and Its Effects on Components and Systems

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