A Novel Repeat PI Decoupling Control Strategy with Linear Active Disturbance Rejection for a Three-Level Neutral-Point-Clamped Active Power Filter with an LCL Filter

• Published in: Electronics (Basel) Vol. 13; no. 15; p. 2973
• Main Authors: Gao, Yifei, Zhu, Liancheng, Wang, Xiaoyang, Lv, Xiaoguo, Wei, Hongshi
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.08.2024
• Subjects: Accuracy; Active control; Clamping; Compensation; Control methods; Control systems design; Controllers; Coordinates; Decoupling; Design optimization; Dynamic response; Electric filters; Electric power supplies; Feedback control; Harmonic control; Mathematical models; Nonlinear control; Proportional integral; Reduced order models; Rejection; Robust control; State observers; Systems stability
• ISSN: 2079-9292; 2079-9292
• DOI: 10.3390/electronics13152973

The three-level neutral-point-clamped (NPC) active power filter (APF) is suitable for harmonic compensation in high voltage and large capacity applications. And, the harmonic compensation effect of APF depends on its dynamic performance and control. This paper propose a repeat proportional integral (PI) decoupling control strategy with linear active disturbance rejection (LADRC) to address the issues of detection in complex harmonic current and power supply current distortion when the nonlinear load varies. To simplify the design of LADRC, this paper adopts inverter current feedback control. Firstly, repeat control is introduced to optimize the traditional PI controller, which improves the compensation accuracy while ensuring the dynamic response capability of the control system. Then, to address the serious coupling of the system model in the d-q coordinate system, a reduced order linear active disturbance rejection (LADRC) control is introduced. The PI and linear extended state observer (LESO) control method is adopted in the outer voltage loop to maintain stable DC voltage and improve the ability to suppress voltage overshoot during grid connection. The effectiveness of this control method has been verified through MATLAB/Simlink. The results show that, compared with the repeat PI method, the control method based on repeat PI–LADRC can achieve better decoupling control, improve robustness and anti-interference ability, enhance the performance of the original system, and can significantly improve the harmonic suppression capability of the APF.