CONTROL SYSTEMS

CONTROL SYSTEMS

The "Control System in Electrical Engineering" course offers an in-depth exploration of the principles, techniques, and applications of control systems within electrical engineering. The course begins with an introduction to control theory, emphasizing the distinction between open-loop and closed-loop systems, and the critical role of feedback in achieving desired system performance. Students will learn to model dynamic systems using differential equations and transfer functions, essential for analyzing system behavior. The course covers both time-domain and frequency-domain analysis, focusing on transient and steady-state responses to understand system dynamics comprehensively. A key focus is on the design and implementation of various control strategies. You will study Proportional-Integral-Derivative (PID) controllers, which are widely used in industrial applications, as well as more advanced techniques like state-space methods and digital control. Stability analysis is a critical component, with detailed instruction on using the Routh-Hurwitz criterion, Nyquist plots, and Bode plots to ensure robust system performance. The course incorporates numerous practical examples and case studies to demonstrate the application of control systems in real-world electrical engineering scenarios, such as motor control, power systems, and automated processes. By the end of the course, students will be equipped with the knowledge and skills necessary to design, analyze, and implement effective control systems in electrical engineering.