Torque Ripple Minimization Strategy for Direct Torque Control of Induction Motors

2010 Third International Conference on Intelligent Networks and Intelligent Systems Pub Date : 2010-11-01 DOI:10.1109/ICINIS.2010.82

Sheng-wei Gao, Yan Cai

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引用次数: 11

Abstract

In the traditional direct torque control (DTC) of induction motor, the low order harmonic component of stator current is very large when the motor is running at low speed. It leads to high torque ripple of motor in low speed. To solve this problem, a new control method has been proposed in this paper. Base on the traditional DTC method, electromagnetic torque and flux models have been analyzed. To further improve the torque response and reduce the torque ripple, fuzzy logic concept has been introduced into the flux model. The method of dynamic adjustment of the torque hysteresis amplitude is proposed. In this model, fuzzy variables are the speed and stator current error. Through the rationalization of fuzzy classification, the choice of voltage space vector is optimized. The results of simulation and experiment show that the method can not only improve the speed of torque response, and the problem of torque ripple can be effectively solved. In the whole speed range, the performance of dynamic and static is better than that of the conventional DTC.

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感应电机直接转矩控制的转矩脉动最小化策略

在传统的异步电动机直接转矩控制(DTC)中，电机低速运行时定子电流的低次谐波分量很大。这导致电机在低速时转矩脉动较大。为了解决这一问题，本文提出了一种新的控制方法。在传统直接转矩控制方法的基础上，分析了电磁转矩和磁链模型。为了进一步提高转矩响应，减小转矩脉动，在磁链模型中引入了模糊逻辑概念。提出了一种动态调整转矩滞后幅度的方法。在该模型中，模糊变量为转速和定子电流误差。通过对模糊分类的合理化，优化了电压空间矢量的选择。仿真和实验结果表明，该方法不仅可以提高转矩响应速度，而且可以有效地解决转矩脉动问题。在整个转速范围内，动态和静态性能均优于传统的直接转矩控制系统。

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

2010 Third International Conference on Intelligent Networks and Intelligent Systems

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