| 1. Course Title | Switch Mode Power Supplies | |||||||
| 2. Code | 4ФЕИТ05З030 | |||||||
| 3. Study program | КХИЕ | |||||||
| 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 | IV/7 | 7. Number of ECTS credits | 6 | |||||
| 8. Lecturer | D-r Ljupcho Karadjinov | |||||||
| 9. Course Prerequisites | ||||||||
| 10. Course Goals (acquired competencies): Gaining basic knowledge and understanding of the principles of operation, design and applications of basic dc-dc power converter topologies and its parameters, dc-dc power supplies, design requirements and procedures. Acquiring competence and skills to use, analyze, compare, design and test switch-mode power supplies, as well as solving practical application examples. | ||||||||
| 11. Course Syllabus: Introduction: voltage chopper, control of dc-dc converters with pulse-width modulation (PWM), assumptions used in steady-state analysis. Step-down (buck) converter, genesis, continuous and discontinuous conduction mode, boundary between continuous and discontinuous conduction, output voltage ripple, switching devices voltage and current stresses, effects of parasitic elements on converter efficiency. Analysis of other non-isolated converters: step-up (boost) converter, buck-boost converter, Cuk dc-dc converter, SEPIC and ZETA converters. Bidirectional converters. Full-bridge dc-dc converter: PWM with bipolar and unipolar voltage switching . Non-isolated dc-dc converter comparison. Review of magnetic circuits and transformer models. Dc-dc converters with electrical isolation: flyback, forward, push-pull, half-bridge, full-bridge and current-source dc-dc converter. Control of switch-mode dc power supplies: linearization using state-space averaging, transfer function, stability and compensation of the feedback system, current-mode control, power supply protection. | ||||||||
| 12. Learning methods: Lectures supported by presentations, examples solving auditory exercises, practical laboratory exercises, preparation and presentation of individual project/seminar assignments, homework. | ||||||||
| 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 | 0 | ||||||
| 16.2. Individual tasks | 15 | |||||||
| 16.3. Homework and self-learning | 90 | |||||||
| 17. Grading | 17.1. Exams | 40 | ||||||
| 17.2. Seminar work/project (presentation: written and oral) | 10 | |||||||
| 17.3. Activity and participation | 10 | |||||||
| 17.4. Final exam | 40 | |||||||
| 18. Grading criteria (points) | up to 50 points | 5 (five) (F) | ||||||
| from 51to 60 points | 6 (six) (E) | |||||||
| from 61to 70 points | 7 (seven) (D) | |||||||
| from 71to 80 points | 8 (eight) (C) | |||||||
| from 81to 90 points | 9 (nine) (B) | |||||||
| from 91to 100 points | 10 (ten) (A) | |||||||
| 19. Conditions for acquiring teacher’s signature and for taking final exam | Completed practical laboratory exercises and project assignments. | |||||||
| 20. Forms of assessment | Examination comprises two midterm exams (max 120 min), tests during the classes, and a laboratory exercises test at the end of semester. After successful completion of these tests, an oral examination may be required (max 60 min). The final mark is based on the points collected from all mentioned tests and the class activity. Student project is also required due before the end of the lectures. When mid term exams are not successfully passed, they are replaced by a written exam (max 120 min) during the exam sessions, with other requirements and rules remaining the same. Use of textbooks, any other notes, mobile phones, or other electronic devices, except the calculator, are not allowed. | |||||||
| 21. Language | Macedonian and English | |||||||
| 22. Method of monitoring of teaching quality | Internal evaluations and surveys. | |||||||
| 23. Literature | ||||||||
| 23.1. Required Literature | ||||||||
| No. | Author | Title | Publisher | Year | ||||
| 1 | N.Mohan, T.M. Underland, W.P. Robbins | Power Electronics: Converters, Applications and Design | John Wiley & Sons Inc | 2003 | ||||
| 2 | Abraham I. Pressman | Switching Power Supply Design | McGraw-Hill | 2004 | ||||
| 3 | Erickson, Maksimovic | Fundamentals of Power Electronics, 3rd edition | Springer | 2020 | ||||
| 23.2. Additional Literature | ||||||||
| No. | Author | Title | Publisher | Year | ||||
| 1 | Raymond S. Ramshaw and D. Schuurman | Pspice Simulation of Power Electronics Circuits: An Introductory Guide | Chapman & Hall | 1997 | ||||
