Robust Nonlinear Adaptive Control for Power Quality Enhancement of PMSG Wind Turbine: Experimental Control Validation

Due to the intense penetration of wind energy into power grid, grid quality and stability have become a crucial necessity in this type generation. It is context that article has just designed an Adaptive Nonlinear Control strategy applied Permanent Magnet Synchronous Generator (PMSG) 1.5 MW power, order generate good cleanly usable energy. Interestingly, robust control algorithm mainly uses Lyapunov theory, which ensures Wind Energy Conversion System (WECS), therefore offers excellent results presence system parametric uncertainties changes elements external environment. To end, methodology followed in-depth study focuses on application Backstepping for WECS by exploiting MATLAB/Simulink toolbox. The theoretical simulation was supported Processor-in-the-Loop (PIL) implantation dSPACE DS1104 embedded board approve effect terms robustness against different profiles changes. ST-LINK communication used connect host computer. obtained revealed fast response signals, practically low ripple rate 0.1% minor overshoots electrical quantities. Operation with unity factor well ensured via strategy. Therefore, adaptive verified high performance offered benefits from additional properties.