The role of magnetic energy in electromechanical energy conversion. Generalized equation of machines. Active and passive transformation. Linear transformation in circuits and machines. Electric machine dynamics. The torque expressions. Transient performance of various machines (motors and generators). Stability analysis using various stability criteria. Reference frames and applications. Steady-state performance of induction machines. Steady-state performance of synchronous machines. Description and utilization of mathematical software of electric machines analysis.
M.Sc. in Electrical and Control Engineering
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| content serial | Description |
|---|
| 1 | Generalized equation of electrical machines. |
| 2 | D-Q modeling of generalized electrical machines. |
| 3 | Stationary and rotating parts representation. |
| 4 | Three phase to two phase transformation. |
| 5 | Unbalanced system transformation. |
| 6 | Modeling of Induction Machine (Motor/Generator). |
| 7 | Modeling of Single phase Induction Motor. |
| 8 | Modeling of Synchronous Machine (Motor/Generator). |
| 9 | Types and performance of Permanent Magnet Synchronous Generator. |
| 10 | Modeling of Synchronous Reluctance Machine (Motor/Generator). |
| 11 | Steady State analysis of the induction and synchronous machine. |
| 12 | Torque production terms and Stability analysis for whole system. |
| 13 | Utilization of mathematical software of induction motor. |
| 14 | Utilization of mathematical software of synchronous motor. |
| 15 | Utilization of mathematical software of synchronous reluctance motor. |
| 16 | Final Exam. |
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