A harmonic compensation method for an active power filter based on improved generalized integral control

被引：0

作者：

Sun G. ^{[1
]}

Yin Z. ^{[1
]}

Hu G. ^{[1
]}

机构：

[1] School of Electrical & Mechanic-Engineering, Xuchang University, Xuchang

来源：

Dianli Xitong Baohu yu Kongzhi/Power System Protection and Control | 2021年 / 49卷 / 23期

基金：

中国国家自然科学基金;

关键词：

Active power filter; Discrete domain analysis; Frequency characteristic; Generalized integral control; Harmonic compensation;

D O I：

10.19783/j.cnki.pspc.202109

中图分类号：

学科分类号：

摘要：

There is a stability problem in traditional generalized integral control. We propose a harmonic compensation method based on improved generalized integral control to enhance the compensation performance of the active power filter. By introducing a first-order differential link into the traditional controller, the poles of the controlled object are cancelled and the order of the system is reduced, so the phase margin of the system is improved. At the same time, a multi-channel improved generalized integral control structure in the synchronous rotating coordinate system is constructed so that the number of improved controllers and the controller parameters to be set are reduced by half, the design complexity is reduced and the problem of filtering frequency cross is effectively avoided. Then the influence characteristics of the controller's key parameters in the discrete domain are analyzed. The evolutionary trend of system stability under different integral coefficients is obtained and system stability check results show that the parameter design is reasonable. Finally, the feasibility and effectiveness of the proposed method are verified by simulation. © 2021 Power System Protection and Control Press.

引用

页码：96 / 105

页数：9

共 25 条

[1] SHAO Zhenguo, XU Haobo, XIAO Songyong, Et al., Harmonic problems in a new energy power grid, Power System Protection and Control, 49, 4, pp. 178-187, (2021)
[2] ZHANG Guohui, JING Liuming, WANG Bin, Et al., Study on HVDC consecutive commutation failures mitigation method caused by harmonics, Power System Protection and Control, 48, 5, pp. 33-41, (2020)
[3] BAI Xue, GAO Ruixue, WEN Fuyue, Et al., Suppression of capacitor voltage fluctuation of the modular multilevel converter by specific sub-harmonic injection, Power System and Clean Energy, 36, 9, pp. 8-14, (2020)
[4] ZHANG Guihong, Research on control technology of active power filter under grid distortion condition, Power Capacitor & Reactive Power Compensation, 39, 6, pp. 38-42, (2018)
[5] ZHOU Juan, QIN Jing, WANG Ziji, Et al., Application of deadbeat control with plug-in repetitive controller in active power filter, Transactions of China Electrotechnical Society, 28, 2, pp. 233-238, (2013)
[6] WANG He, LI Yujia, YIN Zhongdong, Et al., Analysis on interactive influences among multiple APFs connected to weak-structured power system, Electric Power, 53, 11, pp. 23-30, (2020)
[7] WANG Xue, GAO Yunguang, LIN Lingyan, Et al., Research status and prospect of active power filter, Power System Protection and Control, 47, 1, pp. 177-186, (2019)
[8] WANG Xiaoqing, YANG Jianfeng, Active selective harmonic compensation method based on improved SDFT and predictive control, Power Electronics, 54, 9, pp. 15-18, (2020)
[9] LIANG Zhirui, YE Huiqiang, ZHAO Fei, Overview on power system harmonic state estimation, Power System Protection and Control, 38, 15, pp. 157-160, (2010)
[10] ZHANG Jianzhong, GENG Zhi, XU Shuai, Et al., An improved adaptive harmonic detection algorithm for active power filter, Transactions of China Electrotechnical Society, 34, 20, pp. 4323-4333, (2019)

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