International Journal of Science, Engineering and TechnologyAuthors: Veena Vanamane, Shreya S, Karthik, Ajay BK, Praneeth
Abstract: The evaluation of a proportional-integral-derivative (PID) controller's performance for efficient DC motor speed control. Based on the DC motor's electrical and mechanical properties, a mathematical model is created, and a closed-loop control system is created. In order to attain better dynamic performance, such as shorter rising times, less overshoot, and low steady-state error, the PID controller's parameters are adjusted. MATLAB/Simulink is used for simulation in order to assess the reaction of the system under various operating situations. The findings show that, in comparison to open-loop operation, the PID controller greatly improves the precision and stability of motor speed control. The study shows that a well-tuned PID controller is a dependable and effective way to regulate DC motor speed in industrial settings.
