Design of a Power Electronic Drive for a Small Utility Electric Vehicle

2020 IEEE India Council International Subsections Conference (INDISCON) Pub Date : 2020-10-01 DOI:10.1109/INDISCON50162.2020.00027

A. Mathew, R. Bindu, S. Thale

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引用次数: 1

Abstract

Electric transportation is gaining momentum through the adoption of various e-mobility options such as Electric Vehicles (EV) based on Battery, Fuel Cell etc. The selection of a suitable motor with energy efficient power electronic drive is crucial for the EV. The EV drive should provide a smooth operation (less torque pulsation) with minimum losses over a wide range of speed. Fast dynamic response, good steady state response and minimum computational complexity of the control algorithm are also the inevitable requirements of an EV drive. This paper presents design considerations of a drive for a small utility EV intended for an urban driving cycle in India. The urban driving involves frequent and sudden variations in both speed and power, and hence it is recommended to use a high-performance control algorithm. The most popular control algorithms, Indirect Rotor Field Oriented Control (IFOC) based on hysteresis current control (HCC), Sine Pulse Width Modulation (SPWM) and Space Vector PWM (SVPWM) are simulated and analyzed in this paper. IFOC based on SVPWM is found to be the most effective method. The simulation of this project is completed and found to be satisfactory while the hardware is being developed.

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小型多功能电动车动力电子驱动系统的设计

通过采用各种电动交通选择，如基于电池、燃料电池等的电动汽车(EV)，电动交通正在获得动力。选择合适的电机和高效节能的电力电子驱动对电动汽车至关重要。电动汽车驱动应提供平稳的操作(更少的扭矩脉动)，并在较宽的速度范围内将损失降到最低。快速的动态响应、良好的稳态响应和最小的计算复杂度也是电动汽车驱动的必然要求。本文提出了一种驱动的设计考虑为小型公用事业电动汽车打算在印度的城市驾驶周期。城市驾驶涉及到速度和功率的频繁和突然变化，因此建议使用高性能的控制算法。本文对目前最流行的基于磁滞电流控制(HCC)、正弦脉宽调制(SPWM)和空间矢量PWM (SVPWM)的间接转子磁场定向控制(IFOC)进行了仿真和分析。基于SVPWM的IFOC是最有效的方法。在硬件开发的同时，已经完成了该方案的仿真，结果令人满意。

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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2020 IEEE India Council International Subsections Conference (INDISCON)

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