Power Electronics-Fall 2017

Date	Lectures	Reading	HW	Project
9/19	Syllabus[PDF]; Power Electronics Overview
9/21	Introduction[PDF]	FPE Chapter 1
9/26	Steady state analysis I [PDF]	FPE Chapter 2.1-2.3	Homework1[PDF] Due date: 10/10/2017
9/28	Steady state analysis II [PDF]	FPE Chapter 2.4-2.6	Homework1[PDF] Due date: 10/10/2017
10/3	National Holiday
10/5	National Holiday
10/10	Equivalent circuit modeling [PDF]	FPE Chapter 3
10/12	Power semiconductor devices I [PDF]	Power MOSFET basis[PDF]
10/17	Power semiconductor devices II [PDF]	FPE Chapter 4.1, CoolMOS[PDF]
10/19	Wide bandgap Semiconductors [PDF]
10/24	Switching losses [PDF]	FPE Chapter 4.3	Homework2[PDF] Due date: 10/31/2017	Proposal[PDF] Due date: 12/5/2017
10/26	Discontinuous Conduction Mode [PDF]	FPE Chapter 5	Homework2[PDF] Due date: 10/31/2017	Proposal[PDF] Due date: 12/5/2017
10/31	Simulation Software tutorial
11/2	Nonisolated converter circuits [PDF]	FPE Chapter 6.1-6.2, inverters[PDF]
11/7	Isolated converter circuits [PDF]	FPE Chapter 6.3	Homework3[PDF] Due date: 11/14/2017
11/9	Ac equivalent circuit modeling I [PDF]	FPE Chapter 7.1-7.3	Homework3[PDF] Due date: 11/14/2017
11/14	Ac equivalent circuit modeling II [PDF]	FPE Chapter 7.4-7.6, Sample Exam [PDF]
11/16	Midterm Exam
11/21	Generalized State Space Averaging [PDF]	GSSA1 [PDF], GSSA2 [PDF]	Homework4[PDF] Due date: 11/30/2017
11/23	Canonical model [PDF], Bode Plots [PDF]	FPE Chapter 8.1	Homework4[PDF] Due date: 11/30/2017
11/28	Converter transfer functions [PDF]	FPE Chapter 8.2-8.5		Proposal Presentation Schedule [PDF]
11/30	Stability criteria [PDF]	FPE Chapter 9.2-9.3		Proposal Presentation Schedule [PDF]
12/5	Proposal presentation			Report Templates[URL]
12/7	Controller design I [PDF]	FPE Chapter 9.3-9.4		Report Templates[URL]
12/12	Controller design II [PDF]	FPE Chapter 9.5-9.6;digital control [PDF]	Homework5[PDF] Due date: 12/19/2017
12/14	DCM dc modeling [PDF]	FPE Chapter 11.1	Homework5[PDF] Due date: 12/19/2017
12/19	DCM ac modeling [PDF]	FPE Chapter 11.2
12/21	Current mode control I [PDF]	FPE Chapter 12.1-12.2
12/26	Current mode control II [PDF]	FPE Chapter 12.2-12.3
12/28	Current mode control III [PDF]	FPE Chapter 12.3-12.4
1/2	Review and Wrap-up [PDF]	Sample Exam [PDF]
1/4	Project Defence and Report Due
1/11	Final Exam

Description

This course is an introduction course to switched-mode power converters. The first part of the course treats basic circuit operation, including steady-state converter modeling and analysis, switch realization, discontinuous conduction mode, and transformer-isolated converters. Next, converter control systems are covered, including ac modeling of converters using averaged methods, small-signal transfer functions, and classical feedback loop design. Finally, current programmed control is discussed, including: oscillation for D > 0.5, a simple first-order model, and a more accurate model.

Power Electronics, Fall 2017

Textbook

Description

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Lectures	Tuesday and Thursday, 1300-1440. Rm1B-106, SIST Bldg.
Instructor	Haoyu Wang <`wanghy.shanghaitech@@gmail.com`>
Office Hours	Tuesday and Thursday, 1440-1540. 1D-301C SIST Bldg.
Forum	https://elearning.shanghaitech.edu.cn:8443/
TA	Xiaoying Lu <`luxy@@shanghaitech.edu.cn`> Tuesday, 1900--2100. 1D-304 SIST Bldg.