Abstract

A split-gate SiC trench gate MOSFET with stepped thick oxide, source-connected split-gate (SG), and p-type pillar (p-pillar) surrounded thick oxide shielding region (GSDP-TMOS) is investigated by Silvaco TCAD simulations. The source-connected SG region and p-pillar shielding region are introduced to form an effective two-level shielding, which reduces the specific gate–drain charge (Q gd,sp) and the saturation current, thus reducing the switching loss and increasing the short-circuit capability. The thick oxide that surrounds a p-pillar shielding region efficiently protects gate oxide from being damaged by peaked electric field, thereby increasing the breakdown voltage (BV). Additionally, because of the high concentration in the n-type drift region, the electrons diffuse rapidly and the specific on-resistance (R on,sp) becomes smaller. In the end, comparing with the bottom p+ shielded trench MOSFET (GP-TMOS), the Baliga figure of merit (BFOM, BV 2/R on,sp) is increased by 169.6%, and the high-frequency figure of merit (HF-FOM, R on,sp × Q gd,sp) is improved by 310%, respectively.

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