Abstract
High reverse recovery charge (QRR) and resultant high switching losses have become the main factors that constrain the performance and application area of superjunction MOSFET (SJ-MOSFET). To reduce QRR, an SJ-MOSFET with reduced hole-barrier is proposed and demonstrated. By introducing a Schottky contact on the bottom of the n-pillar at the drain side, the barrier for the hole carrier is dramatically reduced in the reverse conduction state. As a result, the hole carrier in the drift region is significantly reduced, which results in a low QRR and enhanced reverse recovery performance. Compared with the conventional SJ-MOSFET (Conv-SJ-MOSFET), the proposed device achieves 64.6% lower QRR with almost no sacrifice in other characteristics. The attenuated QRR accounts for a 19.6% ∼ 46.8% reduction in total power losses with operation frequency at 5 ∼ 200 kHz, demonstrating the great potential of the proposed SJ-MOSFET used in power conversion systems.
Funder
National Natural Science Foundation of China
Stable Support Project
China Postdoctoral Science Foundation
Publisher
The Electrochemical Society
Subject
Electronic, Optical and Magnetic Materials