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Investigation of SiC MOSFET Body Diode Reverse Recovery and Snappy Recovery Conditions

Author

Listed:
  • Giuseppe Pennisi

    (ST Microelectronics s.r.l., 95121 Catania, Italy)

  • Mario Pulvirenti

    (ST Microelectronics s.r.l., 95121 Catania, Italy)

  • Luciano Salvo

    (ST Microelectronics s.r.l., 95121 Catania, Italy)

  • Angelo Giuseppe Sciacca

    (ST Microelectronics s.r.l., 95121 Catania, Italy)

  • Salvatore Cascino

    (ST Microelectronics s.r.l., 95121 Catania, Italy)

  • Antonio Laudani

    (Department of Electrical Electronic and Computer Engineering (DIEEI), University of Catania, 95125 Catania, Italy)

  • Nunzio Salerno

    (Department of Electrical Electronic and Computer Engineering (DIEEI), University of Catania, 95125 Catania, Italy)

  • Santi Agatino Rizzo

    (Department of Electrical Electronic and Computer Engineering (DIEEI), University of Catania, 95125 Catania, Italy)

Abstract

This paper investigates the behavior of SiC MOSFETs body diode reverse recovery as a function of different operating conditions. The knowledge of their effects is crucial to properly designing and driving power converters based on SiC devices, in order to optimize the MOSFETs commutations aiming at improving efficiency. Indeed, reverse recovery is a part of the switching transient, but it has a significant role due to its impact on recovery energy and charge. The set of different operating conditions has been properly chosen to prevent or force the snappy recovery of the device under testing. The experimental results and specific software simulations have revealed phenomena unknown in the literature. More specifically, the analysis of the reverse recovery charge, Q rr , revealed two unexpected phenomena at high temperatures: it decreased with increasing gate voltage; the higher the device threshold, the higher the Q rr . TCAD-Silvaco (ATLAS v. 5.29.0.C) simulations have shown that this is due to a displacement current flowing in the drift region due to the output capacitance voltage variation during commutation. From the analysis of the snappy recovery, it has emerged that there is a minimum forward current slope, below which the reverse recovery cannot be snappy, even for a high current level. Once this current slope is reached, Q rr varies with the forward current only.

Suggested Citation

  • Giuseppe Pennisi & Mario Pulvirenti & Luciano Salvo & Angelo Giuseppe Sciacca & Salvatore Cascino & Antonio Laudani & Nunzio Salerno & Santi Agatino Rizzo, 2024. "Investigation of SiC MOSFET Body Diode Reverse Recovery and Snappy Recovery Conditions," Energies, MDPI, vol. 17(11), pages 1-21, May.
    • Handle: RePEc:gam:jeners:v:17:y:2024:i:11:p:2651-:d:1405281
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    Cited by:

    1. Hsien-Chie Cheng & Yan-Cheng Liu & Wen-You Jhu & Po-Kai Chiu & Tao-Chih Chang & Kuo-Ning Chiang, 2024. "Power Loss and Electrothermal Characterization of Hybrid Power Integrated Modules for Industrial Servo Motor Drives," Energies, MDPI, vol. 17(23), pages 1-22, November.

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