Modeling and Control of Power Electronic Converters. Fall 2019

Week	Date	Lectures	Reading (Erickson's Text)	HW & Project
1	9/9	Syllabus [PDF]; Lecture 1-Introduction [PDF]	FPE Chapter 1	Homework 1[PDF] Due date: 9/23/2019
1	9/11	Lecture 2-Steady state analysis [PDF]	FPE Chapter 2	Homework 1[PDF] Due date: 9/23/2019
2	9/16	Lecture 3-DC equivalent circuit modeling [PDF]	FPE Chapter 3
2	9/18	Lecture 4-Power Diodes [PDF]	FPE Chapter 4.1
3	9/23	Lecture 5-Power MOSFET, IGBT, and SCR [PDF]	FPE Chapter 4.2 MOSFET Parameters [PDF]	Homework 2[PDF] Due date: 10/9/2019
3	9/25	Lecture 6-Power losses [PDF]	FPE Chapter 4.3	Homework 2[PDF] Due date: 10/9/2019
4	9/30	Lecture 7-Wide bandgap power devices [PDF]	Power MOSFET[PDF] Super Junction[PDF]
4	10/2	Lecture 9-Nonisolated converters [PDF]	dc/ac inverters[PDF] FPE Chapter 6.1-6.2
5	10/7	Holiday
5	10/9	Lecture 8-DCM dc modeling [PDF]	FPE Chapter 5
6	10/14	Lecture 10-Isolated converters [PDF]	FPE Chapter 6.3-6.4	Homework 3[PDF] Due date: 10/23/2019
6	10/16	Lecture 11-Ac equivalent circuit modeling[PDF]	FPE Chapter 7.1-7.2	Homework 3[PDF] Due date: 10/23/2019
7	10/21	Lecture 12-State space averaging modeling[PDF]	FPE Chapter 7.3-7.4	Sample Exam[PDF]
7	10/23	Lecture 13-Generalized state space averaging modeling[PDF]	paper_gssa[PDF] paper_gssa2[PDF]	Sample Exam[PDF]
8	10/28	Lecture 14-Canonical model[PDF], Bode Plot[PDF]	FPE Chapter 7.5-7.6, 8.1	Proposal[PDF] Due date: 11/18/2019
8	10/30	MidTerm		Proposal[PDF] Due date: 11/18/2019
9	11/4	No class		Homework 4[PDF] Due date: 11/20/2019
9	11/6	Lecture 15-Converter transfer function[PDF]	FPE Chapter 8.2-8.4	Homework 4[PDF] Due date: 11/20/2019
10	11/11	Lecture 16-System stability[PDF]
10	11/13	Lecture 17-Controller design I[PDF]	FPE Chapter 9.1-9.4
11	11/18	Proposal Presentation		Homework 5[PDF] Due date: 12/2/2019
11	11/20	Lecture 18-Controller design II[PDF]	FPE Chapter 9.5-9.6	Homework 5[PDF] Due date: 12/2/2019
12	11/25	Lecture 19-DCM dc modeling[PDF]	Digital_Control[PDF] FPE Chapter 11.1-11.2
12	11/27	Lecture 20-DCM ac modeling[PDF]	FPE Chapter 11.3-11.4
13	12/2	Lecture 21-CPM dc modeling [PDF]	FPE Chapter 12.1-12.2
13	12/4	Lecture 22-CPM ac modeling [PDF]	FPE Chapter 12.2-12.3
14	12/9	Lecture 23-CPM accurate ac modeling and DCM modeing [PDF]	FPE Chapter 12.3-12.4	Homework 6[PDF] Due date: 12/18/2019
14	12/11	Lecture 24-Pulse-width modulated rectifiers-1 [PDF]	FPE Chapter 18.1-18.3	Homework 6[PDF] Due date: 12/18/2019
15	12/16	Lecture 25-Pulse-width modulated rectifiers-2 [PDF]	FPE Chapter 18.4-18.5
15	12/18	Lecture 26-Pulse-width modulated rectifiers-3 [PDF]	FPE Chapter 18.6-18.7
16	12/23	Project Presentation-part 1		Project Report Due date: 12/29/2019
16	12/25	Project Presentation-part 2		Project Report Due date: 12/29/2019
18	1/6	Final Exam,1:00-3:00pm		Sample exam2[PDF]

Lectures	Monday and Wednesday, 13:00-14:40@1D-104 SIST Bldg.
Instructor	Prof. Haoyu Wang <moc.liamg@hcetiahgnahs.yhgnaw>
Office Hours	Wednesday, 14:40-16:40@1D-301C SIST Bldg.

Textbook	R. W. Erickson, and D. Maksimovic, Fundamentals of Power Electronics,2nd Edition,Springer, 2001. ISBN: 978-0-79-237270-7

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