Open AccessExperimental Evaluation of Single-Phase Shunt Active Power Filter Based on Optimized Synergetic Control Strategy for Power Quality Enhancement
Author(s) -
Oussama Gherouat,
Abdelouahab Hassam,
Oualid Aissa,
Badreddine Babes
Publication year - 2021
Publication title -
journal européen des systèmes automatisés/journal européen des systèmes automaitsés
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.16
H-Index - 20
eISSN - 2116-7087
pISSN - 1269-6935
DOI - 10.18280/jesa.540415
Subject(s) - control theory (sociology) , particle swarm optimization , matlab , pid controller , cascade , computer science , dspace , transient (computer programming) , controller (irrigation) , active power filter , control engineering , compensation (psychology) , voltage , power quality , ac power , engineering , control (management) , temperature control , algorithm , psychology , agronomy , electrical engineering , artificial intelligence , chemical engineering , psychoanalysis , biology , operating system
In this paper, a synergetic approach based on particle swarm optimization (SC-PSO) technique is proposed for Single-Phase Shunt Active Power Filter (SP-SAPF). Two-loop cascade controller for SP-SAPF has been designed. In the first loop, a PI controller is used to effectively regulate the DC link voltage. In the second one, a synergetic controller is performed in the current compensation control loop. The various adjustable parameters of the studied synergetic controller are tuned by a PSO algorithm. The objective of this adjustment is to get the optimal control parameters for satisfying requirements of power quality and high dynamic responses for SP-SAPF. The effectiveness of the suggested SC-PSO approach has been proved by simulation and experimental tests using MATLAB/Simulink environment and dSPACE 1104 card for several operating conditions. The experimental results demonstrate that the developed SC-PSO approach is very satisfactory and offers a high performance for both transient and steady states.