Torque Ripple Reduction in Six-phase Induction Motor Drive using DTC Technique

2023 International Conference on Power Electronics and Energy (ICPEE) Pub Date : 2023-01-03 DOI:10.1109/ICPEE54198.2023.10059889

A. Gauri, K. G. Sreeni, G. Shiny

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Abstract

This work presents a Direct Torque Control (DTC) technique for a six-phase asymmetrical induction motor fed with a two-level six-phase inverter for torque ripple minimization. By increasing the levels in conventional torque hysteresis controller, high torque ripples (which is a major problem in basic DTC) can be minimized and dynamic torque response can be improved. But in practice, the inevitable delay existing in the implementation of hysteresis controllers will cause undesirable overshoot and undershoot in the torque response resulting in high ripples. Also, the torque decreasing rate is comparatively higher than that of torque increase which further boosts the torque ripples and degrades the steady-state performance. A five-level torque controller with modified output status is presented here by taking into account the above two limitations. The auxiliary subspace which is inherently present in a six-phase machine causing stator current distortion is also controlled by generating virtual voltage vectors. The resulting DTC drive is validated using MATLAB/Simulink software.

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直接转矩控制技术在六相感应电动机驱动中的转矩脉动抑制

本文提出了一种用于六相非对称异步电动机的直接转矩控制(DTC)技术，该技术采用双电平六相逆变器来实现转矩脉动最小化。通过提高传统转矩滞后控制器的水平，可以最大限度地减少高转矩波动(这是基本直接转矩控制的主要问题)，并改善动态转矩响应。但在实际应用中，迟滞控制器实施过程中不可避免的延迟会导致转矩响应的超调和欠调，从而产生高波纹。同时，转矩减少率高于转矩增增率，进一步加剧了转矩脉动，降低了稳态性能。考虑到上述两个限制，本文提出了一种具有修改输出状态的五级转矩控制器。通过产生虚电压矢量来控制六相电机中固有的引起定子电流畸变的辅助子空间。使用MATLAB/Simulink软件对所得到的DTC驱动器进行了验证。

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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2023 International Conference on Power Electronics and Energy (ICPEE)

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