Title :
H∞ robust control of APF considering the parameter perturbation of the grid-connected reactor
Author :
Shengzhou Ke ; Ying Chen ; Shaowei Huang ; Xiuqiong Huang
Author_Institution :
Dept. of Electr. Eng., Tsinghua Univ., Beijing, China
Abstract :
Active power filter (APF) can effectively compensate the harmonic current in the power grid. As APF is a nonlinear, multivariable, strong coupling system, it brings complexity to the controller design. Thus, a mathematical model is proposed to make the control law expression be effective and simple. Since the parameter perturbation of the grid-connected reactor during the operation process affected by external uncertain factors, the harmonic compensation effect of APF would be unstable. Therefore, an H∞ robust control strategy against the parameter fluctuations is proposed. Simulation results show that the proposed control strategy has better parameter robustness than PI control strategy. The approach also guarantees the accurate compensation and fast dynamic response of the APF.
Keywords :
H∞ control; PI control; active filters; mathematical analysis; perturbation techniques; power filters; power grids; robust control; APF; H∞ robust control; PI control strategy; active power filter; compensation; control law expression; control strategy; controller design; fast dynamic response; grid-connected reactor; harmonic compensation effect; harmonic current; mathematical model; nonlinear multivariable strong coupling system; operation process; parameter fluctuations; parameter perturbation; parameter robustness; power grid; Active filters; Harmonic analysis; Inductors; Pi control; Power filters; Power system harmonics; Robustness; H∞ robust control; active power filter; grid-connected reactor; parameter perturbation;
Conference_Titel :
Innovative Smart Grid Technologies Europe (ISGT EUROPE), 2013 4th IEEE/PES
Conference_Location :
Lyngby
DOI :
10.1109/ISGTEurope.2013.6695434
