电动汽车变流器中的宽带隙器件:性能综述

IF 1.7 Q2 Engineering
A. Abdelrahman, Zekiye Erdem, Y. Attia, M. Youssef
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引用次数: 46

摘要

本文介绍了一种独特的量化研究,即在dc/dc转换器的开关中使用低损耗快速开关宽禁带(WBG)器件,即氮化镓(GaN)和碳化硅(SiC),而不是传统的硅(Si)器件,重点是电动汽车(ev)机器驱动和电池充电器。在PSIM软件中开发了日产Leaf动力系统的详细模型,具有WBG半导体的能力。采用氮化镓半导体和碳化硅器件分别对模型进行了仿真。对仿真结果进行了量化,并对不同半导体的总损耗和效率进行了比较。开发的PSIM模型也可以扩展到其他电动汽车,如雪佛兰伏特。日产Leaf dc/dc转换器的概念验证原型在实验室中建立并收集了结果。给出了组件的实验结果,并证明了它们与仿真结果的相关性。此外,整个动力传动系统试验台的实验结果与仿真结果在系统层面上吻合较好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wide Bandgap Devices in Electric Vehicle Converters: A Performance Survey
This paper introduces a unique quantified study about using low-losses fast-switching wide bandgap (WBG) devices, i.e., gallium nitride (GaN) and silicon carbide (SiC), over traditional Silicon (Si) devices in the switching of dc/dc converters, focusing on electric vehicles’ (EVs) machine drive and battery charger. A detailed model of the power train of a Nissan Leaf was developed in PSIM software, with WBG semiconductors’ capability. The model was simulated one time using GaN semiconductors and another time using SiC devices. Simulation results are quantified and a comparison between different semiconductors in terms of total losses and efficiency is presented. The developed PSIM model can also be extended to other EVs like Chevy Volt. A proof of concept prototype for a Nissan Leaf dc/dc converter was built in the laboratory and results were collected. Componentwise experimental results are presented and their correlation with simulation findings is demonstrated. In addition, experimental results of the overall power train test bench are found to be matched with the simulation results on a system level as well.
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来源期刊
自引率
0.00%
发文量
27
期刊介绍: The Canadian Journal of Electrical and Computer Engineering (ISSN-0840-8688), issued quarterly, has been publishing high-quality refereed scientific papers in all areas of electrical and computer engineering since 1976
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