“现代电力电子变换技术专题”课程简介

Introduction to “Special Topics on Modern Power Electronic Conversion Technologies”

课程名称 (Course Name) ：

现代电力电子变换技术专题（Special Topics on Modern Power Electronic Conversion Technologies）

课程代码 (Course Code）：C031717 (C031717）

学分/学时 (Credits/Credit Hours)：2/32 (2/32)：

开课时间 (Course Term ) :1st-8th Week，Spring，2017

开课学院（School Providing the Course）:

电子信息与电气工程学院

School of Electronics, Information and Electrical Engineering (SEIEE)

任课教师（Teacher）: 杨喜军，XIJUN YANG

课程讨论时数（Course Discussion Hours）:  8小时(Eight Hours)

课程实验数（Lab Hours）:  零小时(Zero Hours)

课程内容简介(Course Introduction):

    Modern Power Electronic Technologies have a long range of topics and issues, therefore there are a great deal of knowledge known and unknown. Only less of topics and issues will be presented in the time-tight lectures. There are related at least to power components, power factor corrector, two/three level voltage source inverter, two/three level voltage source converter, cascade converter, direct matrix converter, indirect matrix converter, high frequency synthesis theories, solid state transformer and induction power transmission, FACTS and D-FACTS, and so on and so forth. The course has something to do with distributed power generation, flexible power transmission, power distribution, power consumption and power storage, more or less, in addition to their derivatives. It also deals with basics and fundaments, control theories, speed regulation strategies besides modulation algorithm.

教学大纲(Course Teaching Outline/syllabus):

    The course includes eight lectures, each of which has four successive classes for a time. What to outlined in the course is Overview of power components and diode based converters; Single phase active power factor correctors; SPWM and its derivatives based inverters; SVPWM and its derivatives based inverters; Practical key points for VSI, including driving consideration, Deadtime effects and its compensation as well as current reconstruction; SPWM and SVPWM based converters and grid-connected inverter; Direct matrix converter and indirect matrix converter; High frequency synthesis theories, solid state transformer and induction power transmission.

课程进度计划(Course Schedule):

    1.The first four classes：

      Overview of power components and diode based converters

   2.The second four classes:

      Single phase active power factor correctors

    3.The third four classes:

      SPWM and its derivatives based inverters

    4.The fourth four classes:

      SVPWM and its derivatives based inverters

    5.The fifth four classes:

      Practical key points for VSI, including driving consideration ,Deadtime effects and its compensation as well as current reconstruction

    6.The sixth four classes:

      SPWM and SVPWM based converters and grid-connected inverter

    7.The seven four classes:

      Direct matrix converter and indirect matrix converter

    8.The eighth four classes:

      High frequency synthesis theories, solid state transformer and induction power transmission

课程考核要求(Course Assessment Requirements)：

    A comprehensive paper with at least 10 A4 pages, which is handed out at the beginning of the course and required to be handed in by the end of the semester;

   Attendance registration;

   Others.

参考文献(Course References)：

1.   D. Grahame Holmes, Thomas A. Lipo. Pulse width modulation for power converters: principles and practice. IEEE Press, IEEE Press Editorial Board, a john wiley & sons, inc., publication.

2.   Frede Blaabjerg and Zhe Chen. Power electronics for modern wind turbines. A Publication in the Morgan & Claypool Publishers' series Synthesis Lectures on Power Electronics Lecture #1.

3.   Robert W. Erickson，Dragan aksimovic. Fundamentals of power electronics. Second edition.

4.   Muhammad h. Rashid. Power electronics: circuits，devices，and applications. Pearson Education Hall. 2004，Third edition.

5.   Bimal K. Bose, Modern power electronics and ac drives. Beijing：China Machine Press, 2003.

6.   N.G. Hinggorani and L.Gyugyi. Understanding FACTS. IEEE Press. New York, 1999.

7.   Vijay K. Sood. HVDC and FACTS controllers: application of static converters in power systems. Kuluwer academic publishers, 2004.

8.   Marian P. Kazmierkowski，R. Krishnan,Frede Blaabjerg. Control in power electronics- selected problems. Academic Press. Elsevier Science (USA)，2002.

9.   Y. H. Song, et al..Flexible AC transmission system. PJ international Ltd. Padston, Cornwall, 1999.

10.  E. Acha V.G. Agelids et al.Power electronic control in power system.MPG books Ltd, Bodmin, Cornwall, 2002.