1. Apply
knowledge of basic components of control system to the analysis and design of
physical systems such as electrical networks, sensors, mechanical systems, etc.
2. Identify state variables and analyze the response of various control systems in time domain to obtain their steady-state error.
3. Improved transient response of the system in terms of overshoots, settling time and rise time.
4. Use routh-hurwitz criterion to determine the stability of linear control system to design practical stable physical systems necessary for engineering practice.
5. To design a practical control system in frequency domain with the help of Nyquist stability criterion, relative stability, bode plot etc., to meet desired requirements in realistic environment.
2. Identify state variables and analyze the response of various control systems in time domain to obtain their steady-state error.
3. Improved transient response of the system in terms of overshoots, settling time and rise time.
4. Use routh-hurwitz criterion to determine the stability of linear control system to design practical stable physical systems necessary for engineering practice.
5. To design a practical control system in frequency domain with the help of Nyquist stability criterion, relative stability, bode plot etc., to meet desired requirements in realistic environment.