Modeling and Control of Power Electronics System

发布者：黄允凯发布时间：2015-12-28浏览次数：134

Course Name

Chinese

电力电子系统建模及控制

English

Modeling and Control of Power Electronics System

Course Number

Type of Degree

Ph. D

Master

√

Total Credit Hours

In Class Credit Hours

Credit

Practice

Computer-using Hours

Course Type

□Public Fundamental □Major Fundamental □Major Compulsory √Major Elective

School (Department)

School of Electrical Engineering

Term

Spring

Examination

A. □Paper（□Open-book □Closed-book） B. □Oral

C. □Paper-oral Combination D.√ Others Homework and Presentation

Chief

Lecturer

Name

Wang Jianhua

Professional Title

Lecturer

E-mail

wangjianhua@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

Power Electronics, Automation Control

Teaching Books

Textbook Title

Author

Publisher

Year of Publication

Edition Number

Main Textbook

Modeling and Control of Power Electronics System

Xu Dehong

China Machine PRESS

2006/1

First Edition

Main Reference Books

Fundamentals of Power Electronics

Robert W. Erickson,

Dragan Maksimovic

Springer Science & Business Media

2001

Second

Edition

I.Course Introduction (including teaching goals and requirements) within 300 words:

Introduction of dynamic models of power electronics system, including modeling methods such as state space method, unified circuit model, feedback control design of dc/dc converters, three phase PWM rectifier and inverter dynamic model, PWM modulation theory, instantaneous power theory; converter parallel system dynamic model and current-sharing control, applications of modeling methods of power electronics system in flexible ac/dc transmission and distribution system, distributed generation micro grid system, motor drive and control system.

II.Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):

(1)Modeling methods such as state space method, unified circuit model，

(2)Feedback control design of dc/dc converters,

(3)Three phase PWM rectifier and inverter dynamic model,

(4)PWM modulation theory,

(5)Instantaneous power theory,

(6)Converter parallel system dynamic model and current-sharing control,

(7)Modeling methods of power electronics system application in flexible ac/dc transmission and distribution system,

(8)Modeling methods of power electronics system application in distributed generation micro grid system,

(9)Modeling methods of power electronics system application in motor drive and control system.

III.Teaching Schedule:

Week	Course Content	Teaching Method
1	Course and simulation software introduction,	lecture
2	State space modeling method,	lecture
3	Unified circuit modeling method,	lecture
4	Feedback control design of dc/dc converters,	lecture
5	Three phase PWM rectifier and inverter dynamic model,	lecture
6	PWM modulation theory,	lecture
7	PWM modulation theory,	lecture
8	Instantaneous power theory,	lecture
9	Converter parallel system dynamic model and current-sharing control,	lecture
10	Converter parallel system dynamic model and current-sharing control,	lecture
11	Modeling methods of power electronics system application in flexible ac/dc transmission and distribution system,	lecture
12	Modeling methods of power electronics system application in flexible ac/dc transmission and distribution system,	lecture
13	Modeling methods of power electronics system application in distributed generation micro grid system,	lecture
14	Modeling methods of power electronics system application in distributed generation micro grid system,	lecture
15	Modeling methods of power electronics system application in motor drive and control system,	lecture
16	Modeling methods of power electronics system application in motor drive and control system,	lecture
17	Homework and presentation.	Seminar
18	Homework and presentation.	Seminar