EE422 Power Electronics

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Course Code Course Title Weekly Hours* ECTS Weekly Class Schedule
T P
EE422 Power Electronics 1 5 6
Prerequisite ECON301, EE202 It is a prerequisite to
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Course Objectives The course aims at equipping the students with an understanding of fundamental issues in power electronics; the usage of a sophisticated set of tools for analysis of power electronics converters; engagement in realistic case studies in order to introduce students to real design problems
Textbook R. W. Erickson and D. Maksimovic: Fundamentals of Power Electronics, Kluwer Academic Publishers, 2001 (second edition) ISBN 0-7923-7270-0; Ned Mohan, Power Electronics - A First Course, Wiley, John Wiley & Sons, Inc. (2012) ISBN 978-1-118-07480-0 (hardback : acid free paper)
Learning Outcomes After successful  completion of the course, the student will be able to:
  1. topological manipulation of switches and storage elements to realize desired energy transfer.
  2. methods for the analysis of steady state and dynamic characteristics of electronics power converters (dc-dc, dc-ac)
  3. methods for time averaging and dynamic characteristics of electronics power converters (dc-dc, dc-ac) design concepts of control systems as applied to electronics power converters
  4. realization of the semiconductor switches, analysis and design of magnetic components (inductors and transformers) for switching converters
  5. application of power electronics converter in drives and interaction of renewable energy sources, power supplies and motor drives
Teaching Methods Class discussions with examples. Team project, supported by tutorial sessions for engaged learning and continuous feedback on progress. The projects involve design and implementation of real converters, project report writting and the presentation.
WEEK TOPIC REFERENCE
Week 1 Practical Information, Content of the Course, Introduction to Power Electronics Handout, 1.1,1.2,1.3
Week 2 Analysis of periodically switched electrical circuits Handout
Week 3 Steady State Converter Analysis Sec: 2.1-2.6
Week 4 Modeling, Losses and Efficiency Sec: 3.1-3.6
Week 5 Electronic switch and its realization Sec: 4.1-4.4
Week 6 Discontinuous Conduction Mode in dc-dc Power Converters Sec: 5.1-5.4
Week 7 Magnetic Circuits Sec: 13.1,13.2,14.1-14.2
Week 8 MIDTERM EXAM In-class exam
Week 9 Converter Topologies and Topological Manipulations Ch 6
Week 10 Converter Dynamics and Control - Basic Modeling Approach Sec: 7.1 - 7.3 & Handout
Week 11 Topologies of DC to AC converters Handout
Week 12 Topologies of AC to AC converters Handout
Week 13 Examples of the converters applications Handout
Week 14 Examples of the converters applications Handout
Week 15 Course Review and Answers to Students' Questions Handout
Assessment Methods and Criteria Evaluation Tool Quantity Weight Alignment with LOs
Final Exam 1 40 1,2,3,4,5
Semester Evaluation Compenents
Homework 2 30 1,2,3,4,5
Midterm 1 30 1,2,3,4,5
***     ECTS Credit Calculation     ***
 Activity Hours Weeks Student Workload Hours Activity Hours Weeks Student Workload Hours
Lecture Hours 3 15 45 Home Study 2 15 30
Assignments 9 2 18 Assignments 9 2 18
Active Tutorials 0 4 0 Final Exam Study 15 1 15
Home Study 2 15 30 Home Study 2 15 30
        Total Workload Hours = 150
*T= Teaching, P= Practice ECTS Credit = 6
Course Academic Quality Assurance: Semester Student Survey Last Update Date: 04/03/2020
QR Code for https://ecampus.ius.edu.ba/course/ee202-electrical-circuits-ii

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