并联有源电力滤波器无差拍电流控制的稳定性研究

Chunlong Li, Baoping Guo, Nan Li
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引用次数: 4

摘要

控制延时和无源分量变化是无差拍电流控制的主要缺点。它会引起系统振荡,甚至失去稳定性。为了得到系统稳定性与控制时滞和系统参数变化的关系,提出了一种基于W变换的稳定性判据方法。得到了包含延迟效应和电感参数变化的新的电流环传递函数,并在此基础上通过W′变换得到了新的Z域传递函数。根据波德图和劳斯判据,得到了稳定性与控制时延和电感参数变化的精确关系,并给出了处理无差拍电流控制中稳定性问题的具体方法。建立了5kVA单相并联有源电力滤波器样机进行概念验证。原型系统工作在20 kHz开关频率下,由TMS320F28335 DSP控制。实验结果证明了该方案的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The research on stability of deadbeat current control in shunt active power filter
The control time delay and the passive component variation were the major disadvantages of the deadbeat current control. It could induce system oscillation and even stability to be lost. In order to get the relation of stability with control time delay and the system parameters variation, a new stability criterion method based on W′ transform was proposed. A new current loop transfer function including delay effect and the inductor parameter variation was acquired, and then the transfer function in W′ domain based on the new transfer function in Z domain was obtained by W′ transform. The exact relation of stability with control time delay and the inductor parameter variation was acquired according to the Bode diagram and Routh criterion, and the concrete method which could deal with stability problem in deadbeat current control was given. A prototype 5kVA single-phase shunt active power filter was set up for the proof of concept. The prototype system was operated at 20 kHz switching frequency and was controlled by TMS320F28335 DSP. Experimental results proved the validity of the proposed scheme.
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