Course Name | Chinese | 电力电子及其应用 | |||||||||||
English | Fundamental of Power Electronics | ||||||||||||
Course Number | S016204 | Type of Degree | Ph. D | Master | √ | ||||||||
Total Credit Hours | 54 | In Class Credit Hours | 48 | Credit | 3 | Practice | 0 | Computer-using Hours | 0 | ||||
Course Type | □Public Fundamental □Major Fundamental □Major Compulsory RMajor Elective | ||||||||||||
School (Department) | School of Electrical Engineering | Term | Spring | ||||||||||
Examination | A.□Paper(□Open-book □Closed-book) B.□Oral C.□Paper-oral Combination D.R Others | ||||||||||||
Chief Lecturer | Name | Professional Title | Lecturer | ||||||||||
Website | |||||||||||||
Teaching Language used in Course | English | Teaching Material Website | |||||||||||
Applicable Range of Discipline | first-class | Name of First-Class Discipline | Electrical Engineering and its Automation | ||||||||||
Number of Experiment | 0 | Preliminary Courses | |||||||||||
Teaching Books | Textbook Title | Author | Publisher | Year of Publication | Edition Number | ||||||||
Main Textbook | Fundamentals of Power Electronics | R. W. Erickson | Kluwer Academic Publisher | 2001 | 2 | ||||||||
Main Reference Books | High frequency power electronics | CAI Xuansan Gong Shaowen | China Water Power Press | 2009 | 1 | ||||||||
I.Course Introduction :
This course will introduce the fundamental theories and design principles of high frequency power electronics systemically. The details include steady-state and dynamic equivalent models of converter, switching realization, converter topologies, loss analysis and controller designs et al, where both steady-state and dynamic circuit analysis are emphasized. The objective of this course is to define, to present, and to treat the fundamentals of high frequency power electronics in sufficient depth so that students acquire the knowledge and skills needed to design practical power electronic systems.
II.Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):
Chapter 1 Introduction to high frequency power electronics
Chapter 2 Principles of steady state converter analysis
Chapter 3 Steady-state equivalent circuit modeling, losses, and efficiency
Chapter 4 Switch realization
Chapter 5 The discontinuous conduction mode
Chapter 6 Converter circuits
Chapter 7 AC equivalent circuit modeling
Chapter 8 Converter transfer function
Chapter 9 Controller design
III.Teaching Schedule:
Week | Course Content | Teaching Method |
1 | General Theory, definition and category of power electronics | Lecture |
2 | Principles of steady state converter converter | Lecture |
3 | Design example as CUK converter | Lecture |
4 | Steady state equivalent circuit modeling | Lecture |
5 | A brief survey of power semiconductor switching devices | Lecture |
6 | Switching losses analysis | Lecture |
7 | Analysis of discontinuous conduction mode | Lecture |
8 | DC-DC Converter circuits | Lecture |
9 | DC-DC Converter circuits | Lecture |
10 | The basic AC modeling approach | Lecture |
11 | Modeling implementation | Lecture |
12 | Converter transfer functions | Lecture |
13 | Characters of Transfer function | Lecture |
14 | Measurement of Transfer function | Lecture |
15 | Controller design | Lecture |
16 | Controller design | Lecture |
