Lianjie Wang, Jiazhan Dong, Wenjin Sun, Chushan Li, He Xu, Wuhua Li
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引用次数: 0
摘要
随着宽带隙功率半导体技术的迅速发展,SiC和Si混合逆变器以其开关频率高、开关损耗低、成本适中等优点受到了学术界和工业界的高度重视。本文提出了一种针对低压应用的三相模块并联(TPMP) SiC & Si混合逆变器,该逆变器由Si和SiC三相功率模块组成。采用本文提出的协调电流补偿调制方案,硅IGBT三相模块实现低频开关,占有功功率的主要部分,而SiC模块工作在高频,只补偿硅IGBT模块的电流纹波。该逆变器的成本较低,因为SiC转换器的额定功率仅为额定功率的1/3。另一方面,由于等效开关频率高,实现了更小的滤波器设计。仿真验证了所提出的拓扑结构和调制方案。
A Three-Phase-Module-Parallel Si & SiC Hybrid Inverter with Smaller Filter Size and Low Cost
With the rapid development of wide bandgap (WBG) power semiconductors, SiC and Si hybrid inverter has received high attention in both academic and industry due to their high switching frequency, low switching loss but appropriate cost. In this paper, a Three-Phase-Module-Parallel (TPMP) SiC & Si hybrid inverter targeted for low voltage applications is proposed, which consists of Si and SiC three-phase power modules. With the proposed coordinated current compensating modulation scheme, the Si IGBT three-phase module enables its low-frequency switching and takes major parts of active power, while the SiC module operates at high frequency to just compensate for the current ripple of Si IGBT modules. This proposed inverter has a lower cost since the power rating of the SiC converter only has 1/3 of the rated power. On the other hand, a smaller filter design is realized since the equivalent switching frequency is high. The proposed topology and modulation scheme are verified by simulation.
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