Comparative Investigation of Current-Source Inverters using SiC Discrete Devices and Power Modules

2022 IEEE 9th Workshop on Wide Bandgap Power Devices & Applications (WiPDA) Pub Date : 2022-11-07 DOI:10.1109/WiPDA56483.2022.9955264

Feida Chen, Sangwhee Lee, T. Jahns, B. Sarlioglu

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Abstract

The purpose of this paper is to investigate the impact of the SiC device packages on the commutation performance characteristics of current-source inverters (CSIs). The parasitic components in the CSI current commutation loop between the two-phase legs and output capacitors have a significant impact on the high-frequency performance of the SiC devices. To meet the elevated current requirements of high-power CSIs, it is often necessary to connect multiple discrete devices in parallel which increases the current commutation loop length. The selection of compact high-power SiC MOSFET and Schottky diode modules instead of discrete devices can be highly desirable to reduce the loop inductance and improve the system performance and power density. Two CSI benchtop prototype units, one with SiC discrete devices and the other with power modules, have been designed and tested, and the performances of the two CSIs are compared. The CSI with SiC power modules significantly reduces the inverter volume and lowers the parasitic inductance by 60% and the voltage ripple amplitude by 20% compared to the CSI unit with discrete devices.

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基于SiC分立器件和功率模块的电流源逆变器的比较研究

本文的目的是研究SiC器件封装对电流源逆变器(CSIs)换流性能特性的影响。两相支路和输出电容之间的CSI电流换流回路中的寄生元件对SiC器件的高频性能有重要影响。为了满足大功率csi对高电流的要求，通常需要将多个分立器件并联，这增加了电流换流回路的长度。选择紧凑的高功率SiC MOSFET和肖特基二极管模块代替分立器件可以降低环路电感，提高系统性能和功率密度。设计并测试了两种采用SiC分立器件和功率模块的CSI台式样机，并对两种CSI的性能进行了比较。与带有分立器件的CSI单元相比，带有SiC功率模块的CSI单元显著减小了逆变器体积，寄生电感降低了60%，电压纹波幅度降低了20%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE 9th Workshop on Wide Bandgap Power Devices & Applications (WiPDA)

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