Outline Syllabus: - Applications of feedback
- Modeling of feedback systems
- Definitions of stability
- Transfer functions F(s)
- Zero and poles of transfer functions and their representations in the coordinate systems (S plane)
- Criteria of system efficiency in transient and stable states
- Kinds of systems
- Servo-mechanisms
- Controllers (such as O, PI, PD, PID)
- Investigation of the stability of a system by the methods of root locus and Hurwitz
- Extended fractions
- Frequency response and Bode diagram
- Polar diagrams and Nyquist criterion
- Nichols diagram
- M curves and their applications
- Approximate methods for the reduction of high order systems
- State space
- Control system design and compensators
- Analog modeling
Credits: 3 Pre-requisites: - Electric circuits II
- Electric machines I
Co-requisites:
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