Power Converters

General

  • Course Code: 1812
  • Semester: 8th
  • Course Type: Scientific Area - Skills Development (SA-SD)
  • Course Category: Optional (OP)
  • Scientific Field: Electronics (EL)
  • Lectures: 2 hours/week
  • Lab teaching: 2 hours/week
  • ECTS units: 6
  • Teching and exams language: Greek
  • The course is offered to Erasmus students
  • Recommended prerequisite courses: (1702) Power Electronics
  • Coordinator: Kioskeridis Iordanis
  • Instructors: Kioskeridis Iordanis, Vassios Vasileios

Educational goals

The aim of the course is to introduce the student to the topologies of DC input power converters, which are used in the implementation of power supplies and in the production of adjustable ac voltage for driving motors or interconnecting RES systems. In the laboratory, the student should be able to handle and assemble passive and active electronic components, precisely control their actions with coordinated action and skill, and in addition to gain automation when implementing and taking measurements from electronic instruments. Thus, the student will acquire the ability to identify and repair damages to actual power electronics boards in the environment where he or she is pursuing his / her professional activity. Specific objectives of the course are that the student can:

  • Remember, recognize, evaluate and use the knowledge from the Power Electronics course.
  • Classify, describe and analyze the DC-DC converters.
  • Design and calculate various types of power supplies.
  • Describe and explain the topologies of inverters.
  • Identify and select the most suitable power circuit, depending on each application and in particular for power supplies and electric motor drives.
General Skills
  • Search, analyze and synthesize data and information, using the necessary technologies.
  • Decision making.
  • Independent work.
  • Teamwork.
  • Exercising criticism and self-criticism.
  • Promoting free, creative and inductive thinking.
  • Working in an interdisciplinary environment.

Course Contents

  • MOSFET and IGBT.
  • PWM techniques.
  • Non isolated dc-dc convertes.
  • Isolated dc-dc convertes.
  • Power supplies design.
  • Voltage and current source inverters.
  • Electric motor control.
  • Industrial applications and traction systems.

Teaching Methods - Evaluation

Teaching Method
  • Face to face teaching.
  • Laboratory training in small groups of students.
Use of ICT means
  • Using Power Point Presentations software.
  • Using the online learning platform (moodle).
  • Power electronics simulation software.
  • Contact students via email.
Teaching Organization
Activity Semester workload
Lectures26
Laboratory exercises26
Laboratory projects per week26
Compulsory home work (project)50
Self-study52
Total 180
Students evaluation

Ι. Written final theory (FT) test, which is in the form of problem solving with distinct difficulty and the free use of any book.

ΙΙ. Intermediate Project (IP), which deals with the study, design and simulation of a power circuit.

ΙΙΙ. Evaluation of deliverable laboratory exercises (LAB).

The course grade is derived by equation FT * 0.3 + IP * 0.3 + LAB * 0.4 and must be at least five (5.0).

The grade in each of the three evaluation methods must be at least four (4.0).

The assessment criteria are notified to students through the course web site and also during lectures and labs.

Recommended Bibliography

Recommended Bibliography through "Eudoxus"
  1. (Ελληνικά) Ιορδάνης Κιοσκερίδης, “Ανανεώσιμες Πηγές Ενέργειας και εφαρμογές των Ηλεκτρονικών Ισχύος”, ΕΚΔΟΣΕΙΣ Α. ΤΖΙΟΛΑ & ΥΙΟΙ Α.Ε., 2η έκδοση 2019, ISBN: 978-960-418-852-9, Κωδικός Βιβλίου στον Εύδοξο: 86055394
  2. Σ. Μανιάς, “Ηλεκτρονικά Ισχύος”, Εκδότης ΚΑΛΑΜΑΡΑ ΕΛΛΗ, 2η έκδοση 2017, ISBN: 978-960-9400-60-2, Κωδικός Βιβλίου στον Εύδοξο: 68388749
Complementary greek bibliography
  1. (Ελληνικά) Μάριος Χατζηπροκοπίου, “Ηλεκτρονικά Ισχύος και Βιομηχανικά Ηλεκτρονικά”, Εκδότης Μασκλαβάνος Θεόδωρος, 2η έκδοση 2009, ISBN: 978-960-90343-3-3
  2. Mohan Ned, Undeland Tore A., Robbins William P., “Εισαγωγή στα Ηλεκτρονικά Ισχύος”, ΕΚΔΟΣΕΙΣ Α. ΤΖΙΟΛΑ & ΥΙΟΙ Α.Ε., 3η έκδοση 2010, ISBN: 978-960-418-250-3
Complementary international bibliography
  1. S. Maniktala, “Switching Power Supply Design & Optimization”, McGraw-Hill, 2004, ISBN: 978-0071434836.
  2. K. Billings, “Switchmode Power Supply Handbook”, McGraw-Hill Education, 3rd edition 2010, ISBN: 978-0071639712.
  3. W. Shepherd, L. N. Hulley, D. T. W. Liang, “Power Electronics and Motor Control”, Cambridge University Press, 2nd edition 2012, ISBN: 978-1139172820.
  4. E. Acha, V. Agelidis, O. Anaya, T. J. E. Miller, “Power Electronic Control in Electrical Systems”, Newnes Power Engineering Series, 2002, ISBN: 0-7506-5126-1.
  5. J. Hindmarsh, A. Renfrew, “Electrical Machines and Drives Systems”, Butterworth-Heinemann, 3rd edition 1997, ISBN: 978-0750627245.
Scientific journals
  1. IEEE Transactions on Power Electronics.
  2. IEEE Transactions on Industry Applications.
  3. IEEE Transactions on Industrial Electronics.