| ACTIVITIES | PERCENTAGES |
|---|---|
| Homework | 40% |
| Two quizzes (25% each) | 50% |
| Design project | 10% |
Table of Contents
Syllabus
Syllabus
 When you click the Amazon logo to the left of any citation and purchase the book (or other media) from Amazon.com, MIT OpenCourseWare will receive up to 10% of this purchase and any other purchases you make during that visit. This will not increase the cost of your purchase. Links provided are to the US Amazon site, but you can also support OCW through Amazon sites in other regions. Learn more. |
Description
6.334 examines the application of electronics to energy conversion and control. Topics covered include: modeling, analysis, and control techniques; design of power circuits including inverters, rectifiers, and DC-DC converters; analysis and design of magnetic components and filters; and characteristics of power semiconductor devices. Numerous application examples will be presented such as motion control systems, power supplies, and radio-frequency power amplifiers. The course is worth 6 engineering design points.
Prerequisite
6.012
Homework
Problem sets will be issued on a weekly basis, and will be due one week after issue unless otherwise specified. Late problem sets will not be accepted unless previously arranged with the TA. Good problems for 6.334 are very difficult to create, so you will sometimes be assigned a problem used in previous years. Under no circumstances are you to use 6.334 "bibles" to help you with problem sets. You may, however, consult with colleagues who are taking 6.334, or who have taken 6.334 in the past. For those of you without access to such colleagues, many graduate students in LEES have taken 6.334 and are willing to help answer questions if you can't arrange to see the TA or Prof. Perreault.
Quizzes
There will be 2 quizzes in 6.334 this term. The tentative dates for these are due two days after Lec #19 and one day after Lec #34. The exams will be closed book and will be given during the evening, starting at 7:30 pm. There is no final exam.
Grading
Grading will be based on three components:
The project will be issued in early April and tentatively due on Lec #37. As with the homework, consultation with colleagues is permissible, but you must hand in a unique, independently-completed solution.
Required Text
Kassakian, John G., Martin F. Schlecht, and George C. Verghese. Principles of Power Electronics. Reading, MA: Addison-Wesley, 1991. ISBN: 9780201096897.
Additional References
Most information you will need is in the course text or will be provided in handouts or references, so purchase of another book is not necessary. Some other books that might prove helpful on occasion are:
Krein, Philip T. Elements of Power Electronics. New York, NY: Oxford University Press, 1998. ISBN: 9780195117011.
Mohan, Ned, Tore Undeland, and William Robbins. Power Electronics: Converters, Applications, and Design. 2nd ed. New York, NY: John Wiley & Sons, 1995. ISBN: 9780471584087.
Erickson, Robert W. Fundamentals of Power Electronics. New York, NY: Chapman & Hall, 1997. ISBN: 9780412085413.
Rashid, Muhammad H. SPICE for Power Electronics and Electric Power. 2nd ed. Boca Raton, FL: CRC Press, 2006. ISBN: 9780849334184.
Field Trip
As part of the class, we will arrange a field trip to the power electronics design and manufacturing facility of Synqor in Boxborough, MA. Synqor is a technology leader in DC/DC converters for telecommunications applications.