Analysis and Design of Combination Controller Based on Repetitive Control and Proportional Control for Harmonics Suppression of Grid-Tied Inverters
Zhao Qiangsong1, 2, Chen Shasha1, Zhou Xiaoyu3, Wang Xiaolei1, Wang Shuanhong1
1. School of Electronic Information Zhongyuan University of Technology Zhengzhou 450007 China; 2. College of Automation Engineering Nanjing University of Aeronautics and Astronautics Nanjing 211106 China; 3. State Grid Jiangsu Province Electric Power Co. Ltd Nanjing 210029 China
Abstract:The proportional multi-resonant (PMR) controller in a grid-connected inverter can simultaneously suppress many harmonics in input current of grid. However, the traditional PMR is complex designed and has limited number of parallel resonant controllers. Therefore, a novel combination controller based on repetitive control (RC) and proportional control (PC) is proposed in this paper, which only needs to design a few parameters. Firstly, according to the expansion of RC in frequency domain, the novel combination controller can be realized in parallel of RC and PC. Then, the stability and parameter design of the proposed controller are analyzed. Finally, the parameters of the novel combination controller in L-type grid-connected inverter are designed. The experimental results show that the proposed combination controller can simultaneously suppress harmonics of multiple frequencies and has fast dynamic performance.
赵强松, 陈莎莎, 周晓宇, 王晓雷, 王双红. 用于并网逆变器谐波抑制的重复-比例复合控制器分析与设计[J]. 电工技术学报, 2019, 34(24): 5189-5198.
Zhao Qiangsong, Chen Shasha, Zhou Xiaoyu, Wang Xiaolei, Wang Shuanhong. Analysis and Design of Combination Controller Based on Repetitive Control and Proportional Control for Harmonics Suppression of Grid-Tied Inverters. Transactions of China Electrotechnical Society, 2019, 34(24): 5189-5198.
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