一种带轮内电机的电动汽车电子差速器系统

2015 9th International Conference on Electrical and Electronics Engineering (ELECO) Pub Date : 2015-11-28 DOI:10.1109/ELECO.2015.7394567

M. Yildirim, E. Oksuztepe, Burak Tanyeri, H. Kurum

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引用次数: 14

摘要

本文对双前轮独立驱动电动汽车电子差动系统(EDS)进行了建模与仿真。由于传统机械式差速器系统笨重，不便于电动汽车使用，且动力系统存在机械损耗等缺点，电动汽车采用了电子差速器。在本研究中，采用了一种具有轮内电机的电动汽车前轮的能谱分析模型，而不是以往文献中研究的罕见车轮。利用Codesys软件包，利用Ackermann-Jeantand模型推导出的方程对前轮转速进行了估计。然后，利用Matlab/Simulink实现了EDS的仿真。根据车速和电动汽车转向角度的变化，用Simulink验证Codesys预估的前轮速度。结果表明，该模型适用于轮毂电机驱动的电动汽车。

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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Electronic differential system for an electric vehicle with in-wheel motor

This paper presents modeling and simulation of Electronic Differential System (EDS) for the dual-front-wheel independently driven Electric Vehicle (EV). Electronic differential is utilized in EVs due to some drawbacks of traditional mechanical differential such as being heavy and bulky systems which are not convenient for EV, and mechanical losses caused by the powertrains. In this study, an EDS for front wheels of an EV with in-wheel motor is modelled instead of rare wheels which has commonly been studied in the literature. The front wheel speeds are estimated by equations derived from Ackermann-Jeantand model using Codesys Software Package. Then, the simulation of EDS is also realized by Matlab/Simulink. According to the change of the vehicle speed and steering angle of EV, front wheel speeds estimated by Codesys are verified by Simulink results. It is observed that the modelled EDS is appropriate for EVs with in-wheel motors.

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来源期刊

2015 9th International Conference on Electrical and Electronics Engineering (ELECO)

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