Nonlinear Control of Five-Phase PMSG Wind Turbine connected to Vienna Type Rectifier Using SVPWM
Adil Mansouri, Ilyass El Myasse, Abdelmounime EI Magri, Rachid Lajouad, F. Giri
Abstract
In this proposed research, we aim to design a non-linear control for a five-phase Permanent Magnet Synchronous Generator (PMSG) connected to a Vienna rectifier based on Space Vector Pulse Width Modulation (SVPWM) control. The five-phase (PMSG) is a more intricate machine compared to the traditional three-phase PMSG, which necessitates a more sophisticated mathematical model and presents a challenging control problem. By connecting the wind turbine to a Vienna rectifier, the system can achieve better performance in terms of power quality and efficiency. The aim of this research is to design a nonlinear controller using the Integral Sliding Mode Control (ISM C) strategy and the SVPWM technique with an artificial neural network optimizer to enhance the system's performance and achieve a multi-objective strategy.