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Robustness of Cascode GaN HEMTs in Unclamped Inductive Switching

共栅 高电子迁移率晶体管 稳健性(进化) 电气工程 氮化镓 材料科学 击穿电压 过电压 拓扑(电路) 光电子学 MOSFET 晶体管 电压 计算机科学 工程类 化学 纳米技术 生物化学 图层(电子) 基因
作者
Qihao Song,Ruizhe Zhang,Joseph P. Kozak,Jingcun Liu,Qiang Li,Yuhao Zhang
出处
期刊:IEEE Transactions on Power Electronics [Institute of Electrical and Electronics Engineers]
卷期号:37 (4): 4148-4160 被引量:49
标识
DOI:10.1109/tpel.2021.3122740
摘要

Surge-energy robustness is essential for power devices in many applications such as automotive powertrains and electricity grids. While Si and SiC mosfet s can dissipate surge energy via avalanche, the GaN high-electron-mobility transistor (HEMT) has no avalanche capability and withstands surge energy by its overvoltage capability. However, a comprehensive study into the surge-energy robustness of the cascode GaN HEMT, a composite device made of a GaN HEMT and an Si mosfet , is still lacking. This article fills this gap by investigating the failure and degradation of 650-V-rated cascode GaN HEMTs in single-event and repetitive unclamped inductive switching (UIS) tests. The cascode was found to withstand surge energy by the overvoltage capability of the GaN HEMT, accompanied by avalanche in the Si mosfet . In single-event UIS tests, the cascode failed in the GaN HEMT at a peak overvoltage of 1.4–1.7 kV, which is statistically lower than the device's static breakdown voltage (1.8–2.2 kV). In repetitive UIS tests, the device failure boundary was found to be frequency dependent. At 100 kHz, the failure boundary (∼1.3 kV) is even lower than the single-event UIS boundary. After 1 million cycles of 1.25-kV UIS stresses, devices show large but recoverable parametric shifts. All these failure and degradation behaviors can be explained by the buffer trapping in the GaN HEMT and the resulted change in its dynamic breakdown voltage. Moreover, the GaN buffer trapping is believed to be assisted by the Si mosfet avalanche. An analytical model was also developed to extract the charges and losses produced in the Si avalanche in a UIS cycle. These results provide new insights into the surge-energy and overvoltage robustness of cascode GaN HEMTs.
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