A Novel Deep-Trench Super-Junction SiC MOSFET with Improved Specific On-Resistance.

In this paper, a novel 4H-SiC deep-trench super-junction MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) with a split-gate is proposed and theoretically verified by Sentaurus TCAD simulations. A deep trench filled with P-poly-Si combined with the P-SiC region leads to a charge balance effect. Instead of a full-SiC P region in conventional super-junction MOSFET, this new structure reduces the P region in a super-junction MOSFET, thus helping to lower the specific on-resistance. As a result, the figure of merit ( FoM , BV 2 / R on,sp ) of the proposed new structure is 642% and 39.65% higher than the C-MOS and the SJ-MOS, respectively.