On-line loss and global efficiency simulation tool for electric vehicles applications

IECON 2021 – 47th Annual Conference of the IEEE Industrial Electronics Society Pub Date : 2021-10-13 DOI:10.1109/IECON48115.2021.9589153

Charbel Zaghrini, G. Khoury, M. Fadel, R. Ghosn, F. Khatounian

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引用次数: 2

Abstract

This paper is dedicated to control-based energy optimization tools useful for the electric vehicles (EVs) propulsion chain, which puts in interaction an electric motor and its energy source static converter. It is essential in energy optimization studies to build an accurate simulation model that takes into account all possible losses of the propulsion chain components according to the operating point. For that reason, the present work provides an accurate loss analysis solution, by studying the various elements losses of an electric traction chain motorized by an Electrically-Excited Synchronous Motor (EESM). The machine power balance is established while taking copper and iron losses into account. Moreover, the inverter and chopper losses are evaluated while using a model based on a novel technique that consists in creating a modified version of output voltages affected by the inverter and chopper losses. Finally, all losses data are gathered in order to simulate the system on-line losses distribution and global efficiency for different operating conditions.

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用于电动汽车的在线损耗和全局效率仿真工具

本文研究了电动汽车推进链中基于控制的能量优化工具，该工具将电动机与其能量源静态变换器相互作用。在能量优化研究中，建立一个精确的仿真模型，根据工作点考虑推进链各部件的所有可能损失，是至关重要的。因此，本研究通过研究由电激同步电动机驱动的电力牵引链的各种元件损耗，提供了一个准确的损耗分析解决方案。在考虑铜和铁损耗的同时，建立了机器的功率平衡。此外，在使用基于一种新技术的模型时，评估了逆变器和斩波器的损耗，该模型包括创建受逆变器和斩波器损耗影响的输出电压的修改版本。最后，收集所有损耗数据，模拟系统在不同工况下的在线损耗分布和全局效率。

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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IECON 2021 – 47th Annual Conference of the IEEE Industrial Electronics Society

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