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ELECTRICAL AND ELECTRONICS ENGINEERING (ENGLISH) PROGRAMME COURSE DESCRIPTION |
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| Name of the Course Unit | Code | Year | Semester | In-Class Hours (T+P) | Credit | ECTS Credit |
|---|---|---|---|---|---|---|
| INTRODUCTION TO CONTROL SYSTEM | EEE302 | 3 | 6 | 3+1 | 3.0 | 5.0 |
| Weekly Course Contents and Study Materials for Preliminary & Further Study | ||
|---|---|---|
| Week | Topics (Subjects) | Preparatory & Further Activities |
| 1 | Introduction, Overview of Feedback. | No file found |
| 2 | Introduction, Overview of Feedback. | No file found |
| 3 | Dynamic Models: Mechanical systems. Electric circuits. Electromechanical systems. Block Diagram Reduction | No file found |
| 4 | Dynamic Models: Mechanical systems. Electric circuits. Electromechanical systems : Signal Flow Graphs, Mason's Formua | No file found |
| 5 | Dynamic Response: Laplace transform. System modelling diagrams. Time-domain specification. Effect of pole location and of zeros. | No file found |
| 6 | Dynamic Response: Laplace transform. System modelling diagrams. Time-domain specification. Effect of pole location and of zeros. | No file found |
| 7 | Dynamic Response: Laplace transform. System modelling diagrams. Time-domain specification. Effect of pole location and of zeros. | No file found |
| 8 | Stability, Routh-Hurwitz criterion. System type, steady-state error. | No file found |
| 9 | Stability, Routh-Hurwitz criterion. System type, steady-state error. | No file found |
| 10 | Cases of Routh-Hurwitz | No file found |
| 11 | Root Locus: Sketching a root locus. Design using root locus. | No file found |
| 12 | Root Locus: Sketching a root locus. Design using root locus. | No file found |
| 13 | Frequency Response: Bode diagrams. Nyquist stability criterion. Stability margins. | No file found |
| 14 | Frequency Response: Bode diagrams. Nyquist stability criterion. Stability margins. | No file found |