Study in direct torque control of induction motor by using space vector modulation

2008 12th International Middle-East Power System Conference Pub Date : 2008-03-12 DOI:10.1109/MEPCON.2008.4562298

F. Abdel-Kader, A. El-Saadawi, A. Kalas, O.M. El-baksawi

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引用次数: 33

Abstract

In conventional direct torque control (DTC) has, over the years, become of the most popular methods of control for induction motors (IM) drive system. A single stator voltage vector of the inverter standard topology is selected every control sampling period, and it is maintained for the whole period. This makes the torque and stator flux reference values to be reached quickly, with a small number of inverter switching, resulting in a very good dynamic response. However, by this switching technique, based on hysteresis, large and small torque and flux errors are not distinguished, which cause an extra torque ripple in motor steady state operation.. A control is proposed to determine the reference value of the flux according to the value of the motor torque. The results of the Matlab- Simulink simulations with different algorithms such as classical DTC, SVM-DTC method and SVM-DTC with PI controller direct torque control without hysteresis band has been compared.. The average torque ripple is reduced over 60% with SVM-DTC with PI controller method compared with classical DTC and is reduced by 30% compared with SVM-DTC.

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空间矢量调制在异步电动机直接转矩控制中的应用研究

在传统的直接转矩控制(DTC)中，多年来，直接转矩控制已成为感应电机(IM)驱动系统最常用的控制方法。每个控制采样周期选取逆变器标准拓扑的单个定子电压矢量，并保持整个采样周期。这使得转矩和定子磁链的参考值能够迅速达到，用少量的逆变器开关，产生非常好的动态响应。然而，这种开关技术基于磁滞，无法区分大小转矩和磁链误差，在电机稳态运行中会产生额外的转矩脉动。提出了一种根据电机转矩值确定磁链参考值的控制方法。对经典DTC、SVM-DTC方法和SVM-DTC带PI控制器的直接转矩无迟滞带等不同算法在Matlab- Simulink上的仿真结果进行了比较。采用PI控制方法的SVM-DTC比传统直接转矩控制方法平均转矩脉动减小60%以上，比SVM-DTC平均转矩脉动减小30%以上。

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2008 12th International Middle-East Power System Conference

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