Cascaded Model Predictive Control of Six-Phase Permanent Magnet Synchronous Motor with Fault Tolerant Ability

Ling Feng;Zhaohui Wang;Jianghua Feng;Wensheng Song
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Abstract

In the field of high-power electric drives, multiphase motors have the advantages of high power-density, excellent fault tolerance and control flexibility. But their decoupling control and modulation process are much more complicated compared with three-phase motors due to the increased degree of freedom. Finite control set model predictive control can reduce the difficulties of controlling six-phase motors because it does not require modulation process. In this paper, a cascaded model predictive control strategy is proposed for the optimal control of high-power six-phase permanent magnet synchronous motors. Firstly, the current prediction model of torque and harmonic subspaces are established by decoupling the six-phase spatial variables. Secondly, a cascaded cost function with fault-tolerant capability is proposed to eliminate the weighting factor in the cost function. And finally, the proposed strategy is demonstrated through theoretical analysis and experiments. It is validated that the proposed method is able to maintain excellent steady-state control accuracy and fast dynamic response while significantly reduce the control complexity of the system. Besides, it can easily achieve fault-tolerant operation under open-phase fault.
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具有容错能力的六相永磁同步电动机级联模型预测控制
在大功率电力传动领域,多相电动机具有功率密度高、容错能力强、控制灵活等优点。但由于自由度的增加,与三相电机相比,它们的解耦控制和调制过程要复杂得多。有限控制集模型预测控制不需要调制过程,可以降低六相电机的控制难度。针对大功率六相永磁同步电动机的最优控制问题,提出了一种级联模型预测控制策略。首先,通过解耦六个相位空间变量,建立了转矩和谐波子空间的电流预测模型。其次,提出了一种具有容错能力的级联代价函数,以消除代价函数中的权重因子。最后,通过理论分析和实验验证了所提出的策略。验证了该方法能够保持良好的稳态控制精度和快速的动态响应,同时显著降低了系统的控制复杂度。此外,它还可以很容易地实现断相故障下的容错操作。
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