Investigations of SiC MOSFET Short-Circuit Failure Mechanisms Using Electrical, Thermal, and Mechanical Stress Analyses

Yao Kailun; Yano Hiroshi; Tadano Hiroshi; Iwamuro Noriyuki

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Investigations of SiC MOSFET Short-Circuit Failure Mechanisms Using Electrical, Thermal, and Mechanical Stress Analyses

机译：使用电气，热和机械应力分析来研究SiC MOSFET短路故障机制

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In this study, unique short-circuit failure mechanisms in 1.2-kV SiC metal-oxide-semiconductor field-effect transistors (MOSFETs) at 400 and 800-V dc bias were investigated using experiments and numerical TCAD simulations, taking electrical, thermal, and mechanical stress into account. It was found that the fracture of the interlayer dielectric, caused by high mechanical stress due to different thermal expansion rates, is the source of failure in the 400-V short-circuit transient. The activation of the parasitic bipolar junction transistor under extreme high temperature was confirmed to be the failure mechanism in the 800-V short-circuit transient.

机译：在该研究中，使用实验和数值TCAD模拟研究了400和800V DC偏置的1.2-kV SiC金属氧化物 - 半导体场效应晶体管（MOSFET）中的独特短路故障机制，采用电气，热，和考虑机械压力。结果发现，由于不同的热膨胀率，由高机械应力引起的层间电介质的断裂，是400V短路瞬态失效的源。寄生双极结晶体管在极端高温下的激活被证实是800V短路瞬态中的故障机制。

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来源
《IEEE Transactions on Electron Devices》 |2020年第10期|4328-4334|共7页
作者
Yao Kailun; Yano Hiroshi; Tadano Hiroshi; Iwamuro Noriyuki;
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作者单位

Univ Tsukuba Grad Sch Pure & Appl Sci Tsukuba Ibaraki 3058573 Japan;

Univ Tsukuba Grad Sch Pure & Appl Sci Tsukuba Ibaraki 3058573 Japan;

Univ Tsukuba Grad Sch Pure & Appl Sci Tsukuba Ibaraki 3058573 Japan;

Univ Tsukuba Grad Sch Pure & Appl Sci Tsukuba Ibaraki 3058573 Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
MOSFET; Silicon carbide; Logic gates; Transient analysis; Electrodes; Stress; Temperature; Mechanical fracture; short-circuit failure mechanism; SiC metal-oxide-semiconductor field-effect transistors (MOSFETs); TCAD simulation; thermal expansion;

机译：MOSFET;碳化硅;逻辑门;瞬态分析;电极;应力;温度;机械骨折;短路故障机制;SiC金属氧化物半导体场效应晶体管（MOSFET）;TCAD模拟;热膨胀;热膨胀;

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1. Investigations of short-circuit failure in double trench SiC MOSFETs through three-dimensional electro-thermal-mechanical stress analysis [J] . Yao Kailun, Yano Hiroshi, Iwamuro Noriyuki Microelectronics reliability . 2021,第Jula期

机译：通过三维电热机械应力分析研究双沟SIC MOSFET短路故障的研究
2. Investigation of short-circuit failure mechanisms of SiC MOSFETs by varying DC bus voltage [J] . Namai Masaki, An Junjie, Yano Hiroshi, Japanese journal of applied physics . 2018,第7期

机译：通过改变直流母线电压研究SiC MOSFET的短路故障机理
3. Investigating the Failure Mechanism of Short-Circuit Tests in 1.2-kV SiC JBS-Integrated MOSFETs [J] . Zhang Yourun, Yang Xiao, Chen Hang, IEEE Transactions on Electron Devices . 2020,第10期

机译：在1.2-kV SiC JBS集成MOSFET中调查短路测试的失效机制
4. Investigations of UIS Failure Mechanism in 1.2 kV Trench SiC MOSFETs Using Electro-Thermal-Mechanical Stress Analysis [C] . Kailun Yao, Hiroshi Yano, Noriyuki Iwamuro International Symposium on Power Semiconductor Devices and ICs . 2021

机译：使用电热应力分析对1.2 kV沟槽SiC MOSFET中UIS失效机制的研究
5. Electrical passivation of 6H-alpha SiC by thermal oxidation and its characterization and application in SiC MOSFETs. [D] . Kang, Soon Won. 1996

机译：6H-αSiC的热氧化电钝化及其表征和在SiC MOSFET中的应用。
6. Study on the Thermal Conductivity Characteristics for Ultra-Thin Body FD SOI MOSFETs Based on Phonon Scattering Mechanisms [O] . Guohe Zhang, Junhua Lai, Yali Su, 2019

机译：基于声子散射机理的超薄体FD SOI MOSFET导热特性研究
7. Investigation of short-circuit failure mechanisms of SiC MOSFETs by varying DC bus voltage [O] . Masaki Namai, Junjie An, Hiroshi Yano, 2018

机译：不同直流母线电压调查SiC MOSFET的短路故障机制

Investigations of SiC MOSFET Short-Circuit Failure Mechanisms Using Electrical, Thermal, and Mechanical Stress Analyses

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