Influence of Negative Bias Temperature Instability on Single-Event Burnout in n-Channel Power VDMOS Transistors

IF 1.9 3区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Nuclear Science Pub Date : 2025-02-13 DOI:10.1109/TNS.2025.3541492

Fengkai Liu;Lei Wu;Shuo Liu;Zhijie Zhou;Yadong Wei;Kai Wang;Huimin Geng;Zhongli Liu;Jianqun Yang;Xingji Li

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引用次数: 0

Abstract

This article investigates the effects of cumulative damage, specifically negative bias temperature instability (NBTI), on the transient phenomenon known as single-event burnout (SEB) in power vertical diffused metal-oxide–semiconductor field-effect transistors (VDMOSFETs). Tantalum heavy ion irradiation (THII) experiments were conducted on devices subjected to various pretreatments: negative bias temperature stress (NBTS), hydrogen, low temperature, and a combination of hydrogen and NBTS. The results indicate that devices pretreated with NBTS exhibit increased sensitivity to SEB, whereas those subjected to other pretreatment methods demonstrate decreased sensitivity. In addition, the subthreshold mid-gap technique (SMGT) was employed to differentiate between interface traps and oxide charges, with subsequent technology computer-aided design (TCAD) simulations analyzing their impacts on SEB. The findings reveal that NBTS pretreatment primarily reduces the built-in potential (

$\varphi _{\text {B}}$

) of parasitic bipolar junction transistor (BJT) conduction by generating oxide charges, thereby increasing SEB sensitivity. Conversely, pretreatments with hydrogen and low temperature promote the conversion of oxide charges into interface traps, resulting in decreased SEB sensitivity. Although the change in SEB sensitivity is relatively small, this research reveals a synergistic interaction between NBTI and SEB, which may lead to premature SEB occurrences and reduce the operational lifespan of power VDMOS transistors.

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来源期刊

IEEE Transactions on Nuclear Science 工程技术-工程：电子与电气

CiteScore

3.70

自引率

27.80%

发文量

314

审稿时长

6.2 months

期刊介绍： The IEEE Transactions on Nuclear Science is a publication of the IEEE Nuclear and Plasma Sciences Society. It is viewed as the primary source of technical information in many of the areas it covers. As judged by JCR impact factor, TNS consistently ranks in the top five journals in the category of Nuclear Science & Technology. It has one of the higher immediacy indices, indicating that the information it publishes is viewed as timely, and has a relatively long citation half-life, indicating that the published information also is viewed as valuable for a number of years. The IEEE Transactions on Nuclear Science is published bimonthly. Its scope includes all aspects of the theory and application of nuclear science and engineering. It focuses on instrumentation for the detection and measurement of ionizing radiation; particle accelerators and their controls; nuclear medicine and its application; effects of radiation on materials, components, and systems; reactor instrumentation and controls; and measurement of radiation in space.