Phase Current Reconstruction Algorithm for Four-Phase Switched Reluctance Motor under Direct Torque Control Strategy

D. Ronanki, Krishna Reddy Pittam, A. Dekka, P. Perumal, A. R. Beig
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引用次数: 1

Abstract

Existing phase current reconstruction algorithms are developed for switched reluctance motor (SRM) operated under current chopping control (CCC), which generates high torque ripple. Therefore, the direct torque control (DTC) technique is mostly used to control the SRM with minimal torque pulsations. However, the reconstruction of phase currents using the existing one or two sensor methods developed under CCC control will be more difficult to adopt for the DTC scheme due to the simultaneous conduction of all phases. To circumvent this issue, a novel DTC method with reduced sensors is introduced in this paper, which exhibits better performance in comparison to the conventional DTC method. The proposed DTC method avoids the long tail currents thereby limits the conduction of all phases simultaneously. The efficacy of the proposed scheme is validated for four-phase SRM through MATLAB simulations. The results show that the proposed approach helps to operate the drive at the lower torque ripple with reduced cost under various operating conditions in comparison to the conventional DTC.
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直接转矩控制下四相开关磁阻电机相电流重构算法
针对开关磁阻电机在斩波电流控制下产生的大转矩脉动,开发了现有的相电流重建算法。因此,直接转矩控制(DTC)技术多用于控制SRM,使其具有最小的转矩脉动。然而,使用现有的在CCC控制下开发的一种或两种传感器方法来重建相电流,由于所有相同时导通,将更加难以用于DTC方案。为了解决这一问题,本文提出了一种新型的减容传感器直接转矩控制方法,与传统的直接转矩控制方法相比,该方法具有更好的性能。该方法避免了长尾电流,从而限制了各相同时导通。通过MATLAB仿真验证了该方案在四相SRM中的有效性。结果表明,与传统的直接转矩控制相比,该方法在各种工况下都能以较低的转矩脉动运行,并降低了成本。
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