Research on Multi-Vector Cascaded Model Predictive Control of Induction Motors

Ling Feng, Jianguo Fu, Cheng Li
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引用次数: 1

Abstract

When using single vector model predictive control, the direction of output voltage in each control cycle is limited. Therefore, there is pulsation and a quite large harmonic distortion in stator current. In this paper, a novel cascade multi-vector model predictive control strategy is proposed. Firstly, the model predictive controller is used to replace the traditional linear controller in the external speed loop, and a three-vector model predictive controller is designed in the internal current loop. The amplitude and direction of output voltage vector are adjustable which improves the performance of the current control. As multi-vector model predictive control will increase the switching frequency of the system, we construct a cost function with switching frequency constraints to solve this issue. Finally, the proposed control strategy is verified on the asynchronous motor experiment set that it can improve the current tracking performance and effectively reduce the switching frequency of the inverter while maintaining the speed loop with good dynamic and static performance.
感应电机多向量级联模型预测控制研究
当采用单向量模型预测控制时,每个控制周期的输出电压方向是有限的。因此,定子电流存在脉动和较大的谐波畸变。提出了一种新的串级多向量模型预测控制策略。首先,用模型预测控制器代替传统的外速度环线性控制器,在电流环内设计三向量模型预测控制器。输出电压矢量的幅度和方向可调,提高了电流控制的性能。由于多向量模型预测控制会增加系统的开关频率,我们构造了一个带有开关频率约束的代价函数来解决这个问题。最后,在异步电机实验装置上验证了所提出的控制策略可以提高电流跟踪性能,有效降低逆变器的开关频率,同时保持速度环具有良好的动、静态性能。
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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