Qianlai Zhu, Li Wang, Liqi Zhang, Wensong Yu, A. Huang
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引用次数: 15
摘要
提出了一种基于10kV碳化硅(SiC) mosfet的改进型双向中压交直流变换器,用于固态变压器(SST)。解决了传统高压桥式交直流变换器中反向阻断硅二极管的雪崩击穿和桥臂穿透问题。射通电流限制在易于控制的低di/dt事件,允许零死区操作。SiC MOSFET的反向恢复耗散被消除,因为没有自由流动的电流将流过主体二极管。这提高了效率以及SiC MOSFET的可靠性。详细介绍了功率级的工作原理和能量传递机理。开发并测试了独特的定制10kV SiC MOSFET/JBS二极管功率模块,进一步降低了寄生参数,简化了转换器接线。因此,这种拓扑结构是中值电压应用的一个很好的选择。
Improved medium voltage AC-DC rectifier based on 10kV SiC MOSFET for Solid State Transformer (SST) application
An improved bidirectional medium voltage AC-DC converter based on 10kV silicon carbide (SiC) MOSFETs for SST (Solid State Transformer) application is presented in this paper. Avalanche breakdown of the reverse blocking silicon diode and bridge arm shoot-through problems in traditional high voltage bridge-type AC-DC converters are solved. Shoot-through currents are limited to low di/dt events that are readily controlled, allowing zero dead-time operation. The reverse recovery dissipation of the SiC MOSFET is eliminated because no freewheeling current will flow through the body diode. This increases the efficiency as well as the reliability of the SiC MOSFET. Detailed power stage operating principles and energy transfer mechanism are described. A unique customized 10kV SiC MOSFET/JBS diode power module is developed and tested, which further reduces parasitic parameters and simplifies converter wire connection. This topology is therefore a very good choice for median voltage applications.
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