Abstract
In this paper novel 4H-SiC UMOSFETs structures with n-type wrapping region and superjunctions are proposed to reduce on-resistance while maintaining breakdown voltage. In the proposed 4H-SiC UMOSFETs structure an n-type region is created to wrap the p+ shielding region at the bottom of the trench gate. The on-resistances of the optimized 4H-SiC UMOSFETs and the conventional one are 2.31mΩ-cm2 and 3.56 mΩ-cm2 at V GS =15 V and V DS =10 V respectively. The on-resistance and the FOM (figure of merit = VBR2/Ron) improve by 35.1% and 37.3% respectively. By introducing a current spreading layer (CSL)the on-resistance of the optimized 4H-SiC UMOSFETs with superjunctions is 6.03mΩ-cm2 compared with 17.36 mΩ-cm2 for the conventional structure. The FOM of the optimized device with CSL is improved by 110.4% compared with the conventional one with same doping concentration.
Published Version
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