电力电子变换器在电动汽车中的应用综述

S. M. S. H. Rafin, Rejaul Islam, O. Mohammed
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引用次数: 2

摘要

在过去的十年里,由于环保、资源充足和成本效益高,电动汽车(ev)市场迅速增长。对于电动汽车应用,本文讨论了几种导电充电整流器、动力总成dc-dc变换器和电机驱动逆变器。为了开发更高效、更环保的电动汽车,AC-DC、DC-DC和DC-AC等电源转换器是现代电力电子技术的关键应用。经过简短的回顾,对于充电部分,维也纳整流器表现出出色的性能,对于动力总成大功率DC-DC变换器部分,多器件交错DC-DC升压变换器似乎是EV应用的优秀候选。对于动力系统直流-交流逆变器,三次谐波注入七电平逆变器可以被认为是电动汽车动力系统的理想选择。在本文中,除了描述之外,还讨论了这些电源转换器拓扑(AC-DC, DC-DC, DC-AC)的结果。
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Overview of Power Electronic Converters in Electric Vehicle Applications
A rapidly growing market of electric vehicles (EVs) has been witnessed in the last decade due to being environmentally friendly, having enough resources, and being cost-efficient. For EV applications, several conductive charging rectifiers, powertrain dc-dc converters, and motor driving inverters have been discussed in this paper. To develop more efficient and environmentally friendly EVs, power converters such as AC-DC, DC-DC, and DC-AC are critical applications of modern power electronics. After this brief review, for the charging section, the Vienna rectifier presents great performance, for the powertrain high-power DC-DC converter section, the multidevice interleaved dc-dc boost converter seems to be an excellent candidate for EV application. For the powertrain DC-AC inverter, the third harmonic injected seven-level inverter can be considered a well-suited candidate for an electric vehicle’s powertrain. In this paper along with the description, the result of these power converters topologies (AC-DC, DC-DC, DC-AC) have been discussed.
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