Design and implementation of energy reshaping based fuzzy logic control for optimal power extraction of PMSG wind energy converter

Given the greater penetration of wind power, impact generators on grid electricity reliability imposes additional requirements. One most common technologies in power generating schemes is permanent magnet synchronous generator (PMSG) converter. However, controller calculation difficult due to nonlinear dynamical and time-varying characteristics this type conversion system. This study develops a unique intelligent approach based passivity notion that tracks velocity maintains it functioning at optimum torque. To address robustness issues encountered by traditional generator-side converter (MSC) strategies such as proportional-integral (PI), suggested scheme integrates passivity-based procedure with fuzzy logic control (FLC) methodology for PMSG-based The distinguished fact features are compensated damped manner rather than canceled. achieve required dynamic, used, which ensures quick convergence global stability closed loop development maximum collected, lowered fixed gains, real-time application method primary contributions novelties. objectives project manage DC voltage attain adequate reactive levels order provide dependable efficient grid. proposed being used regulate MSC, while grid-side employs method. efficiency technique investigated numerically using MATLAB/Simulink software. Furthermore, processor-in-the-loop (PIL) tests carried out demonstrate regulator practically implementable.