Course Name | Chinese | 电力电子磁技术 | ||||||||||||
English | Magnetic Technology of Power Electronic | |||||||||||||
Course Number | Type of Degree | Ph. D | Master | √ | ||||||||||
Total Credit Hours | 60 | In Class Credit Hours | 40 | Credit | 3 | Practice | Computer-using Hours | |||||||
Course Type | ||||||||||||||
School (Department) | Term | Spring;Autumn | ||||||||||||
| A.√Paper(√Open-book □Closed-book) B.□Oral C.□Paper-oral Combination D.□ Others | |||||||||||||
Chief Lecturer | Name | Zhang Jing | Professional Title | Associate Professor | ||||||||||
jzhang@seu.edu.cn | Website | |||||||||||||
Teaching Language used in Course | Chinese | Teaching Material Website | ||||||||||||
Applicable Range of Discipline | Electrical Engineering | Name of First-Class Discipline | Electrical Engineering | |||||||||||
Number of Experiment | Preliminary Courses | |||||||||||||
Teaching Books | Textbook Title | Author | Publisher | Year of Publication | Edition Number | |||||||||
Main Textbook | Magnetics Device Of Switching Power Supply | Zhao Xiuke | Liaoning Science And Technology Publishing House | 2004 | ||||||||||
Main Reference Books | Magnetic Technology of Modern Power Electronic | Yang Yugang | Science Publishing House | 2003 | ||||||||||
Power Electronic Technology | Din DaoHong | Aviation Industry Press | 1999 | |||||||||||
I.Course Introduction (including teaching goals and requirements) within 300 words:
AC-DC conversion circuit and power driver circuit are main content of Power Electronics Technologies. In these circuits would usually take to the transformers and inductors. Transformer have power transformers (including the power frequency transformers, medium-frequency, high-frequency transformers), drive or isolation transformers and current-sense transformers and so on. Inductors have energy storage inductors, DC filter inductors, AC filter inductors, resonant inductors and electromagnetic interference suppression (EMl) inductors. The performance of magnetic components occupy a large proportion in power converters, and magnetic components play an important impact.
This course will introduce the performance of several commonly used magnetic materials, discuss power converter magnetic components in different working condition, then introduce the parameter design of these magnetic components. This will inevitably involve some basic knowledge of the core magnetic properties and magnetic physical quantity. So make some introduction and review of such knowledge firstly.
II.Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):
Require students to master the power electronic circuit under various working conditions such as transformer and inductor design of magnetic components. Teaching as follows:
Chapter 1 The basic concepts of magnetic
Chapter 2 The magnetic circuit components
Chapter 3 The magnetic circuit and calculation of the inductance
Chapter 4 Soft magnetic materials
Chapter 5 Operation condition of magnetic core
Chapter 6 Coil
Chapter 7 Power transformer design
Chapter 8 Inductor and flyback transformer design
Chapter 9 Special magnetic components
Chapter10 Planar transformer and integrated magnetics technology
III.Teaching Schedule:
Week | Course Content | Teaching Method |
1 | The theoretical basis of the magnetic | Lectures |
2 | Magnetic circuit components | Lectures |
3 | The magnetic circuit and calculation of the inductance | Lectures |
4 | The characteristics of soft magnetic materials | Lectures |
5 | Soft magnetic materials used and choice | Lectures |
6 | Transformer I, II type of work status | Lectures |
7 | Class III transformers working condition | Lectures |
8 | Coil and the transformer leakage inductance | Lectures |
9 | Coil structure | Lectures |
10 | Power transformer design | Lectures |
11 | Inductor and flyback transformer design | Lectures |
12 | Special magnetic components (9.1 ~ 9.2) | Lectures |
13 | Planar transformer and integrated magnetics technology | Lectures |
14 | ||
15 |
