Maximization of the power delivered from permanent magnet synchronous generator wind energy conversion system to the grid based on using moth flame optimization

In recent years, optimization techniques have been developed to improve accuracy and reduce execution time. The moth flame technique (MFO) adapts behavior. This design is based on the moth's transverse orientation. Over long distances, they maintain a fixed angle with respect moon at night. They spiral around lights, however. Moths are trapped in deadly as light approaches; eventually, all converge it. Furthermore, created by artificial fly similarly. To maximize power delivered grid, used optimize controller parameters of wind energy conversion system (WECS). A permanent magnet synchronous generator (PMSG) implements grid-connected WECS. grid side converter (GSC) machine (MSC) used. simulation package was model proposed model. PSIM software simulate circuits converters. Simulations were done MATLAB. As result, obtained coefficients minimize both overshoot steady-state error. Particle swarm (PSO) harmony search (HSO) results compared. MFO reliable method.