新一代分数阶6k+1阶三相并网变流器重复控制

2021 IEEE 10th Data Driven Control and Learning Systems Conference (DDCLS) Pub Date : 2021-05-14 DOI:10.1109/DDCLS52934.2021.9455628

Wei Wang, Wenzhou Lu, Keliang Zhou, Qigao Fan

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摘要

提出了一种分数阶新一代$6k\pm 1$阶重复控制方案(FO-NG-$6k\pm 1$ RC)。FO-NG-$6k\pm 1$ RC由NG-$6k\pm 1$ RC和基于泰勒级数展开的Farrow结构分数阶延迟滤波器组成。由于$6k\pm 1$ RC/FO-NG $6k\pm 1$ RC占用的数字存储空间更小，因此比CRC/FO-CRC具有更好的动态性能，更适合于以$6k\pm 1$阶谐波为主的三相电力系统的控制。通过在线实时更新滤波器系数，FO-NG-$6k\pm 1$ RC可以快速有效地处理并网变流器的频率变化，并具有良好的频率适应性。通过一个三相并网逆变器的仿真实例，充分验证了所提出的FO-NG-$6k\pm 1$ RC控制方案的有效性和优越性。

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Fractional-Order New Generation of $6k+1$-Order Repetitive Control for Three-phase Grid-connected Converters

This paper proposed a fractional-order new generation of $6k\pm 1$-order repetitive control scheme (FO-NG-$6k\pm 1$ RC). FO-NG-$6k\pm 1$ RC is composed of NG-$6k\pm 1$ RC and a Farrow structure fractional delay filter based on Taylor series expansion. Since $6 k\pm 1$ RC/FO-NG $6k\pm 1$ RC occupies less digital memory space, it has better dynamic performance than CRC/FO-CRC, which is more suitable for the control of three-phase power systems dominated by the $6k\pm 1$-order harmonics. By updating filter coefficients online in real time, FO-NG-$6k\pm 1$ RC can quickly and effectively deal with the frequency variations of grid-connected converters, and has good frequency adaptability. Through a simulation example applied to a three-phase grid-connected inverter, the effectiveness and superiority of the proposed FO-NG-$6k\pm 1$ RC control scheme are fully verified.

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2021 IEEE 10th Data Driven Control and Learning Systems Conference (DDCLS)

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