双沟槽4H - SiC MOSFET作为SiC MOSFET的增强模型

2017 7th International Symposium on Embedded Computing and System Design (ISED) Pub Date : 2017-12-01 DOI:10.1109/ISED.2017.8303939

Alisha Oraon, Shradha Shreya, Renuka Kumari, A. Islam

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引用次数: 2

摘要

本文提出了一种双沟槽4H SiC MOSFET，作为SiC传统MOSFET的增强模型，具有p+屏蔽以防止栅氧化物的介电击穿。本文提出了一种门沟和源沟同时存在的双沟结构。双沟槽结构减小了栅极氧化物底部的电场。因此，在优化双沟槽结构UMOSFET模型的基础上，进一步提高了击穿电压(BV)。因此，与传统的SiC UMOSFET相比，实现了更高的BV，从而将总体性能值(FoM)增加到一个可观的值。实现的BV为1450 V, on状态比电阻(ronsp)为4.24 mΩ。计算得到FoM为0.495。因此，与传统的SiC UMOSFET相比，FoM提高了36.3%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A double trench 4H — SiC MOSFET as an enhanced model of SiC UMOSFET

In this paper, a double trench 4H SiC MOSFET is presented as an enhanced model for the SiC conventional UMOSFET with a p+ shielding to prevent dielectric breakdown of the gate oxide. This paper proposes a double trench structure with both gate and source trenches. The double trench structure reduces the electric field at the bottom of the gate oxide. Thus, on optimizing the model of UMOSFET with Double Trench structure we further increase the breakdown voltage (BV). Hence, higher BV is achieved compared to conventional SiC UMOSFET, resulting in increase of overall figure of merit (FoM) to an appreciable value. The BV achieved is 1450 V and ON-state specific resistance (RON-sp) is 4.24 mΩ.cm2 which on calculation gives FoM to be 0.495. Thus, the FoM is improved by 36.3% compared to conventional SiC UMOSFET.

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2017 7th International Symposium on Embedded Computing and System Design (ISED)

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