Power Electronics and Electric Drives

 

Master Program for Specialty in Power Electronics and Electric Drives
 
Majority Name: Power Electronics and Electric Drives; Majority code: 080804
Degree authorization category: Master
 
I. Subject Introduction
The authorization of master’s degree in this specialty was gained in 1987. Through more than 10 years set up by Shanghai Education Commission Key Discipline Projects on Power Electronic and Electric Drives, it established a good development condition. Now the specialty has putting up a new Key Discipline Project supported by Shanghai Education Commission. There is a Research Institute of Electric Drives and Control Systems with 5 professors, 6 associate professors and an invited professor. Their research interesting focus on 4 areas: electric drives and control systems for the applications in ships or harbor equipments; power electronics technologies for the applications in renewable energy developments; electromagnetic measurement and EMC for the applications in ship power quality control and static prevention.
 
II. Training Objective
1. Sticking to policy direction confirmedly and rightly, upholding Four Fundamental Principles, loving our motherland, complying with law and discipline, contributing to one's country in constructing socialist modernization actively.
2. Train a true precise study attitude, independent thinking and innovative scientific inspirit. Study the theories and system knowledge in power electronics, electric drives, control systems and computer technologies, moreover have the ability of scientific research and engineering practice.
3. Have a good health.
 
III. Main Research Direction
Research Direction Title
Main Research Content
Graduate Student Tutors
Renewable energy and ship electric propulsion systems
Renewable energy and power conversion, Electric drive systems and its control methods, Intelligent information processing and intelligent control
Tang Tianhao, XieWei, QianPing, Wang Tianzhen,
Power electronics technologies and equipments
Power electronics technologies, equipments and its applications
Liu Yijian, Wu Weiming, Han Jingang,Wang Runxin
Electromagnetic testing and power quality control technologies
Electromagnetic testing and harmonic analysis, EMC theory, technology and methods
Xu Xiaoyan, YaoGang, Zheng Zhongya
Electric control technologies for ship and harbor systems
Theories and methods of computer control, communication and system integration for ship and harbor systems
Xue Shilong, Wang Bulai, Chen Yihui, Guo Yi


IV. Curriculum Setting
Classification
Courses Title
Hours
Credits
Sem.
School
Teacher
Preparing teachers
Public degree courses
(Required 8 credits)
Chinese Traditional Culture
36
2
first
 
 
 
Modern Chinese Culture
36
2
first
 
 
 
Chinese
144
4
first
second
 
 
 
Degree basic courses
(Required 9 credits)
Numeric Analysis 
54
2.5
1
Liberal Arts and Sciences College
 
 
Matrix Theory
36
2
1
Liberal Arts and Sciences College
 
 
Random Process
36
2
1
Liberal Arts and Sciences College
 
 
Optimal Control
36
2
2
Logistics Engineering College
Wang Xihuai
 
Specialty degree courses (Required 8 credits)
Modern Motion Control Systems
36
2
1
Logistics Engineering College
Tang Tianhao
Xie Wei
DSP Principle & Applications
36
2
2
Logistics Engineering College
Xia Yongming
Han Jingang
Modern Power Electronics
36
2
1
Logistics Engineering College
Wu Weiming
Liu Yijian
Nonlinear Control System
36
2
1
Logistics Engineering College
He Junjie
 
Specialty optional courses
(Required 6-8 credits)
Modern Circuit Theory & Analysis
36
2
2
Logistics Engineering College
Xue Shilong
 
Power Electronics & Electric Drive System Simulation
36
2
1
Logistics Engineering College
Xie Wei
Wang Bulai
Electromagnetic Measurement Technique
36
2
2
Logistics Engineering College
Xu Xiaoyan
He Min
Modern Power Supply Technology
36
2
2
Logistics Engineering College
Liu Yijian
Han Jingang
Power Quality Control Technologies
36
2
2
Logistics Engineering College
Xu Xiaoyan
Wu Weiming
EMC Technology
36
2
2
Logistics Engineering College
Yao Gang
 
AC Motor Analysis & Design
36
2
2
Logistics Engineering College
Wang Bulai
 
Intelligent Control
36
2
2
Logistics Engineering College
Fan Hong
 
Modern Power System Analysis
36
2
2
Logistics Engineering College
Li Cuiling
 
Ship Power System Modelling & Control
36
2
2
Logistics Engineering College
Shi Weifeng
 
Appending courses
(2 courses, non-counted credits)
They are chose by tutor on the basis of graduate student′s specific reality.
Other required aspects
(non-counted credits)
Academic activity and symposium
8 times
2
3
 
Tutor
 
Practice link
60
 
2
 
Tutor
 
Literature reading and review
 
 
1
2
 
Tutor
 
Middle assessment
Third term.
Research requirement
Participate in scientific research of instructor of the subject.
Degree thesis
Third and fourth term.
Other requirement
Speech could be taken by graduate to communicate academic activity and scientific achievements.
Annotation:Graduate students must obtain 32 credits and complete the total contents of other required aspects in cultivation plan and then thesis defense could be applied after finishing thesis.
 
Scheme editor:Tang Tianhao     Dean of college:Shi Weifeng     President of subcommittee:Tang Tianhao
 


V. Main Bibliography and Magazines of Document Reading of the Subject
Serial number
Bibliography and magazines title
Author and publishing units
Remarks
1
IEEE trans. on Power Electronics
IEEE
 
2
IEEE trans. On Circuit Theory
IEEE
 
3
IEEE trans. On Industrial Application
IEEE
 
4
IEEE trans. On Industrial Electronics
IEEE
 
5
Automatica
IFAC
 
6
IEEE trans. on Automatic Control
IEEE
 
7
Transactions of China Electrotechnical Society
China Electrotechnical Society
 
8
Electric Drives
Tianjin Electric Drives Institute
 
9
Power Electronic Technologies
Power Electronics Committee of China Electrotechnical Society
 
10
Proceedings of the Chinese Society for Electrical Engineering
Chinese Society for Electrical Engineering
 
11
Electric Drives & Automation
Tianshui Electric Drives Institute
 
12
Journal of Power Supply
China Power Supply Society
 
Illumination
Document reading:
Based on the research direction of the subjects, the tutor’s research and theme of the paper, the graduates should read a certain amount of documents to master the research foreland of the subject’s development.
 
VI. Training the Practical Ability of the Subject Graduate Students
According to tutor’s material case of teaching and research, the students can choice is following:
1. Arranging the job of assistant teacher for a term, or constructing key laboratory;
2. According to the student’s characteristic and thesis’s research subject, you can take part in the supervisor’s research projects;
3. Encouraging and supporting the student to take part in the production practice directly in relational scientific research institutions or corporation.