Block Diagram of a Wind Power Generation System Using Vector Control

My graduation project presents a block diagram of a wind power generation system employing vector control strategy. The system framework constitutes a complete model incorporating multiple functional modules and subsystems. During the design process, I considered various critical factors including wind speed variations, generator rotational speed dynamics, and frequency converter control algorithms. The system supports multiple simulation scenarios such as steady-state operation analysis, transient response studies, and fault condition simulations. From an implementation perspective, the model features modular architecture with clearly defined interfaces between components like the pitch control system, maximum power point tracking (MPPT) algorithm, and grid-side converter control. The design emphasizes high reusability and scalability, facilitating secondary development and improvements through standardized parameter configurations and subsystem replacement. I hope this graduation project can provide valuable references and assistance for students and professionals working in wind energy conversion systems.