Discussion on Control Methods with Finite-Control-Set Concept for PMSM Drives

2019 IEEE International Electric Machines & Drives Conference (IEMDC) Pub Date : 2019-05-12 DOI:10.1109/IEMDC.2019.8785305

Zhenkun Zhang, Zhenbin Zhang, C. Garcia, José R. Rodríguez, Weiqing Huang, R. Kennel

引用次数: 6

Abstract

This work closely investigates the generalized relationship among the four popular control methods using Finite-Control-Set Model Predictive Control (FCS-MPC)concept for voltage source power converter fed PMSM drivers. The as-investigated control methods include: direct model predictive torque control (DMPTC)in $dq$ frame, direct model predictive current control (DMPCC)in $dq$ frame, direct model predictive current control (DMPCC)in $\alpha\beta$ frame and direct model predictive flux control (DMPFC)in $\alpha\beta$ frame. Our conclusion is that, for nonsaliency based PMSM, DMPTC, DMPCC (both in $\alpha\beta$ and $dq$ frames), DMPFC are theoretically equivalent in achieving the control targets. However, realization effort and computational demands, i.e., the amount calculation required, are different.

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基于有限控制集概念的永磁同步电机控制方法探讨

本文利用有限控制集模型预测控制(FCS-MPC)的概念，对电压源功率变换器供电的永磁同步电机驱动器的四种常用控制方法之间的广义关系进行了深入研究。研究的控制方法包括:$dq$框架的直接模型预测转矩控制(DMPTC)、$dq$框架的直接模型预测电流控制(DMPCC)、$\alpha\beta$框架的直接模型预测电流控制(DMPCC)和$\alpha\beta$框架的直接模型预测磁链控制(DMPFC)。我们的结论是，对于基于非显著性的PMSM, DMPTC, DMPCC(在$\alpha\beta$和$dq$帧中)，DMPFC在实现控制目标方面理论上是等效的。然而，实现工作量和计算需求，即所需的计算量是不同的。

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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来源期刊

2019 IEEE International Electric Machines & Drives Conference (IEMDC)

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