带直接转矩控制(DTC)的感应电机驱动的转矩脉动最小化

The Fifth International Conference on Power Electronics and Drive Systems, 2003. PEDS 2003. Pub Date : 2003-11-17 DOI:10.1109/PEDS.2003.1282756

R. Kennel, A. El-refaei, F. Elkady, S. Mahmoud, E. Elkholy

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引用次数: 16

摘要

直接转矩控制(DTC)方案可以产生快速和鲁棒的响应，但它们通常表现为滞后控制器。因此，在开关频率较低的工况下，存在开关频率不恒定、转矩脉动大等问题。本文通过对经典方法的修正，改进了直接转矩控制的基本概念。解释了使用标准DTC方法时出现的问题，并提出了克服这些问题的改进方法。通过测量和实验验证了两种理论方法，并与标准DTC进行了比较。该方法提供了恒定的开关频率，解决了无抖动信号的起动问题。进一步的结果是减少了转矩脉动以及定子磁链估计的新方法。

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Torque ripple minimization for induction motor drives with direct torque control (DTC)

Direct torque control (DTC) schemes can produce quick and robust responses, but they usually behave like hysteresis controllers. Consequently there are similar problems like non constant switching frequencies and high torque ripple especially when operation conditions result in low switching frequencies. In this paper, the basic concept of DTC will be improved by modifying the classical method. Problems which arising when using standard DTC methods are explained and improvements are derived to overcome these problems. Two theoretical approaches are verified and compared with standard DTC by measurements and experiments. The proposed methods provide a constant switching frequency and solve the starting problem without dither signal. Further results are a reduction of torque pulsations as well as a new method for stator flux estimation.

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The Fifth International Conference on Power Electronics and Drive Systems, 2003. PEDS 2003.

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