Vibration and noise characteristics of an inverter for electric vehicle application

Vibroengineering PROCEDIA Pub Date : 2023-09-21 DOI:10.21595/vp.2023.23563

Rahul Singh, Amogh Nalawade, Manish Pande, Punit Singh

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Abstract

Noise, Vibration & Harshness (NVH) is one of the key parameters associated with comfort of an automobile. An Electric Vehicle (EV) consists of transmission driven by electric motor which ultimately gets its power or current supply from inverter. As per Electric vehicle architecture, motor ranks first followed by transmission and inverter in terms of NVH performance. The function of an inverter is to convert DC current from battery source to 3-phase AC current which goes to electric motor. Torque and speed characteristics of motor is dependent on current and voltage supply from inverter. Hence it is important to assess NVH characteristics of inverter as well. In this paper, vibration and acoustic performance of a standalone EV inverter have been studied by testing it at different vehicle operating conditions. Ideally the output 3 phase AC current from inverter should contain only electrical frequency, but it is observed that AC current contains harmonics in the form of linear combination of electrical frequency and switching frequency. From this study, observations from NVH tests on an EV inverter is highlighted in frequency range where relatively high vibration and noise levels were present.

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电动汽车用逆变器的振动和噪声特性

噪音、振动及;NVH是影响汽车舒适性的关键参数之一。电动汽车(EV)由电动机驱动的传动装置组成，最终由逆变器提供动力或电流。在电动汽车架构中，电机的NVH性能排名第一，其次是变速器和逆变器。逆变器的功能是将来自电池源的直流电转换为进入电动机的三相交流电。电机的转矩和速度特性取决于逆变器提供的电流和电压。因此，评估逆变器的NVH特性也很重要。本文通过对独立的电动汽车逆变器在不同工况下的测试，研究了逆变器的振动和声学性能。理想情况下，逆变器输出的三相交流电流应该只包含电频率，但观察到交流电流中含有谐波，其形式是电频率和开关频率的线性组合。从本研究中，在存在相对高振动和噪声水平的频率范围内，突出显示了EV逆变器的NVH测试结果。

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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来源期刊

Vibroengineering PROCEDIA

CiteScore

0.80

自引率

0.00%

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