300W Wind Turbine Model Fault Diagnosis and Speed Control Simulation

This document presents a comprehensive implementation of fault diagnosis and speed control for a 300W wind turbine model using Simulink. The content explores practical approaches for simulating wind turbine operations while integrating diagnostic capabilities and control mechanisms. The implementation utilizes Simulink blocks for modeling turbine dynamics, including aerodynamic conversion, generator characteristics, and power electronics interfaces. Key technical aspects covered include sensor data processing algorithms for fault detection, PID control implementations for rotor speed regulation, and signal analysis techniques for identifying common turbine failures. The documentation provides step-by-step modeling procedures with specific block configurations and parameter settings. Through detailed examples and code descriptions, users will learn to construct realistic wind turbine simulations, implement diagnostic systems using logic comparators and threshold detectors, and design speed controllers employing transfer function blocks and feedback loops. The material includes explanations of critical functions such as power calculation algorithms, torque control mechanisms, and fault identification logic using conditional statements and state machines. This guide serves as a complete technical reference for understanding 300W wind turbine operational principles, diagnostic methodology, and closed-loop control strategies within the Simulink environment.