| 1. Course Title | Electric Power Devices | |||||||
| 2. Code | 3ФЕИТ02З009 | |||||||
| 3. Study program | KHIE, KSIAR, KTI, TKII | |||||||
| 4. Organizer of the study program (unit, institute, department) | Faculty of Electrical Engineering and Information Technologies | |||||||
| 5. Degree (first, second, third cycle) | First cycle | |||||||
| 6. Academic year/semester | III/5 | 7. Number of ECTS credits | 6.00 | |||||
| 8. Lecturer | Dr Goran Rafajlovski | |||||||
| 9. Course Prerequisites | Taken course: Fundamentals of Еlectrical Еngineering | |||||||
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10. Course Goals (acquired competencies): The program objective is to gain skills and competencies in the field of electric power devices and their control. Competencies for design and selection of adequate drive controller and power converter system in the industry. |
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11. Course Syllabus: Fundamentals of electro-mechanical energy conversion. Power transformers, DC and AC machines. Introduction, principles, voltage and torque equation,, power division, phasor diagrams MMF airgap harmonics, steady state characteristics. Power application – focus on renewable energy sources (RES). Smart power devices for high efficiency applications. Modelling and simulation by means of Matlab/Simulink, Speed and torque control. Analysis and synthesis of the speed current and position control loop. Cascade control principles and PID controller design for optimal control. Symetrical and modul optimization method. Control systems for adjustable frequency Induction and synchronous motor drives. Fundamentals of Vector control of AC drives. Adaptive and observer based control systems. Testing methods of electric power devices. |
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12. Learning methods: Learning methods are based on active presence and contribution to the lectures and laboratory/auditory exercises. Homework and study projects as additional activities. |
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| 13. Total number of course hours | 3 + 1 + 1 + 0 | |||||||
| 14. Distribution of course hours | 180 | |||||||
| 15. Forms of teaching | 15.1. Lectures-theoretical teaching | 45 | ||||||
| 15.2. Exercises (laboratory, practice classes), seminars, teamwork | 30 | |||||||
| 16. Other course activities | 16.1. Projects, seminar papers | 30 | ||||||
| 16.2. Individual tasks | 30 | |||||||
| 16.3. Homework and self-learning | 45 | |||||||
| 17. Grading | 17.1. Exams | 20 | ||||||
| 17.2. Seminar work/project (presentation: written and oral) | 20 | |||||||
| 17.3. Activity and participation | 10 | |||||||
| 17.4. Final exam | 50 | |||||||
| 18. Grading criteria (points) | up to 50 points | 5 (five) (F) | ||||||
| from 51 to 60 points | 6 (six) (E) | |||||||
| from 61 to 70 points | 7 (seven) (D) | |||||||
| from 71 to 80 points | 8 (eight) (C) | |||||||
| from 81 to 90 points | 9 (nine) (B) | |||||||
| from 91 to 100 points | 10 (ten) (A) | |||||||
| 19. Conditions for acquiring teacher’s signature and for taking final exam |
Precondition for final exam is ordinary attendance to the lectures an exercise e.g. Realized activities under 15 and 16 |
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| 20. Forms of assessment |
Knowledge testing during the semester is performed through partial exams, preparation of independent projects, assignments, tests, Survey study report |
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| 21. Language | Macedonian and English | |||||||
| 22. Method of monitoring of teaching quality | Internal survey and self evaluation methods | |||||||
| 23. Literature | ||||||||
| 23.1. Required Literature | ||||||||
| No. | Author | Title | Publisher | Year | ||||
| 1 | T. Kenjo | Electric Motors and their control | Oxford University press | 12 | ||||
| 2 | Goran Rafajlovski, Mihail Digalovski | Induction Motors Dynamics and Vector Contro | Scholar’s Press, Saarbrücken, Germany | 15 | ||||
| 23.2. Additional Literature | ||||||||
| No. | Author | Title | Publisher | Year | ||||
| 1 | Bose B.K | Power Electronic and AC Drives | Prentice Hall, Englewood Cliffs, N.J | 86 | ||||
| 2 | 1. Leonhard W | Control of AC mashines with the help of microprocessors, | 3rd IFAC Symposium, 1983 | 83 | ||||
