Design Considerations of a GaN-based Three-Level Traction Inverter for Electric Vehicles

2022 IEEE 9th Workshop on Wide Bandgap Power Devices & Applications (WiPDA) Pub Date : 2022-11-07 DOI:10.1109/WiPDA56483.2022.9955248

S. Satpathy, Partha Pratim Das, S. Bhattacharya, V. Veliadis

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Abstract

This paper demonstrates a GaN-based three-level inverter design for an electric vehicle (EV) traction application. The basic power block is a three-level active neutral point clamped (3L-ANPC) converter operating at 800V DC bus voltage with the use of two paralleled 650V, 60A GaN E-HEMTs. The paper focuses on switching mode selection for better thermal performance of high-power 3L-ANPC inverters. The paper presents design details and guidelines for power layout structure and gate driver. The key parasitic inductances of the designed power block are extracted using ANSYS Q3D. A PLECS simulation model using the device loss parameters shows approximate power delivering capability of 41kW for the designed forced air-cooled three-phase inverter. Experimental double pulse test results are presented with low voltage overshoot to verify the low inductance power loop design. Experimental results of the three-phase 3L-ANPC inverter operation at 70kHz switching frequency are presented for delivered output power of 5.1kW at 550V DC.

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基于氮化镓的电动汽车三电平牵引逆变器的设计考虑

介绍了一种基于氮化镓的电动汽车牵引三电平逆变器的设计。基本电源模块是一个三电平有源中性点箝位(3L-ANPC)转换器，工作在800V直流母线电压下，使用两个并联的650V, 60A GaN e- hemt。为提高大功率3L-ANPC逆变器的热性能，重点研究了开关模式的选择。本文给出了电源布局结构和栅极驱动器的设计细节和设计指南。利用ANSYS Q3D软件对设计电源模块的关键寄生电感进行了提取。基于器件损耗参数的PLECS仿真模型显示，所设计的强制风冷三相逆变器的输出功率约为41kW。给出了低电压超调双脉冲实验结果，验证了低电感功率环路的设计。给出了三相3L-ANPC逆变器在550V直流条件下输出功率为5.1kW，开关频率为70kHz的实验结果。

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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