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Model-Based Predictive Rotor Current Control Strategy for Indirect Power Control of a DFIM Driven by an Indirect Matrix Converter
IEEE Transactions on Energy Conversion ( IF 5.0 ) Pub Date : 2020-11-17 , DOI: 10.1109/tec.2020.3038471
Alejandro Olloqui , Jose L. Elizondo , Marco Rivera , Manuel E. Macias , Osvaldo M. Micheloud , Ruben Pena , Patrick Wheeler

This paper presents a new control strategy using model-based predictive current control (MB-PCC) for a doubly fed induction machine (DFIM) driven by an indirect matrix converter (IMC). This strategy proposes the control of rotor currents, whose references are calculated from active and reactive stator power set points and the dynamic model of the DFIM. The control strategy works well in the four P-Q operating regions of the DFIM. The grid synchronization process is carried out by setting the P-Q power set points to zero. The results include the DFIM synchronization procedure as well as the active and reactive power control at variable shaft speed to validate the feasibility of the proposed strategy.

中文翻译:

基于模型的预测转子电流控制策略,用于间接矩阵变换器驱动的DFIM的间接功率控制

本文提出了一种基于模型的预测电流控制(MB-PCC)的新控制策略,该控制策略用于由间接矩阵转换器(IMC)驱动的双馈感应电机(DFIM)。该策略提出了转子电流的控制,其参考值是根据有功和无功定子功率设定值以及DFIM的动态模型计算得出的。该控制策略在DFIM的四个PQ操作区域中效果很好。通过将PQ功率设置点设置为零来执行电网同步过程。结果包括DFIM同步程序以及可变轴速下的有功和无功功率控制,以验证所提出策略的可行性。
更新日期:2020-11-17
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