高效率的1700V 4H-SiC UMOSFET，具有局部浮动超结

2020 International Conference on Electronics, Information, and Communication (ICEIC) Pub Date : 2020-01-01 DOI:10.1109/ICEIC49074.2020.9051234

Jinyoung Goh, Kwangsoo Kim

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引用次数: 2

摘要

本文介绍了一种改进的4H-SiC MOSFET结构。与传统的p屏蔽UMOSFET相比，提出的具有局部浮动超结的4H-SiC UMOSFET (LFS-UMOSFET)可以在保持1700 V击穿电压的同时降低导通电阻。此外，它还显示出开关损耗的改善。为了验证这种改进，对传统p屏蔽UMOSFET和该UMOSFET进行了能量损失建模。简单的降压变换器用于测量功率损耗和结温。该结构基于传统的沟底p屏蔽UMOSFET，其超结结构位于p屏蔽下方。在保持击穿电压的同时提高导通电阻，对各种变量进行了优化。所提出的UMOSFET显示特定导通电阻降低48%，开关损耗降低20.6%。采用sentaurus TCAD软件对电特性进行仿真，采用功率电路模拟器PSIM进行建模和电路仿真。

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High Efficiency 1700V 4H-SiC UMOSFET with Local Floating Superjunction

This paper introduces an improved efficiency 4H-SiC MOSFET structure. Compared to conventional p-shielding UMOSFETs, the proposed 4H-SiC UMOSFET with a local floating superjunction (LFS-UMOSFET) can reduce the on-resistance while maintaining a 1700 V breakdown voltage. In addition, it shows an improvement in switching loss. To verify the improvement, the conventional p-shielding UMOSFET and the proposed UMOSFET are modeled for energy loss. The simple buck convertor is used to measure power loss and junction temperature. The structure is based on a conventional trench bottom p-shielding UMOSFET with the superjunction structure located beneath the p-shielding. It was optimized for various variables to improve the on-resistance while maintaining the breakdown voltage. The proposed UMOSFET showed a 48% reduction in the specific on-resistance and a 20.6% reduction in the switching loss. Electrical characteristics is simulated by sentaurus TCAD, and modeling and circuit simulation is simulated by PSIM, a power circuit simulator.

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2020 International Conference on Electronics, Information, and Communication (ICEIC)

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