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#### 100% online

Start instantly and learn at your own schedule.

#### Approx. 28 hours to complete

Suggested: 7 hours/week...

#### English

Subtitles: English

#### 100% online

Start instantly and learn at your own schedule.

#### Approx. 28 hours to complete

Suggested: 7 hours/week...

#### English

Subtitles: English

### Syllabus - What you will learn from this course

Week
1
3 hours to complete

## Ch 7: AC Equivalent Circuit Modeling

8 videos (Total 114 min), 1 reading, 1 quiz
8 videos
Sects 7.2.1-4 Averaged AC Modeling8m
*Sect 7.2.2 Discussion of Averaging15m
Sect 7.2.5 Perturbation and Linearization17m
Sects 7.2.6-8 Construction of Equivalent Circuit11m
Sect 7.6 Modeling the Pulse-Width Modulator10m
Sect 7.5 The Canonical Model20m
*Sect7.3 State-Space Averaging2m
Homework 1 Materials10m
1 practice exercise
Homework Assignment 1: Chapter 728m
Week
2
3 hours to complete

## Ch 8: Converter Transfer Functions - Part 1

7 videos (Total 112 min), 1 reading, 1 quiz
7 videos
8.1 Review of Bode Diagrams: Pole25m
8.1.2 Other Basic Terms8m
8.1.5 Combinations20m
8.1.6 Second-order Response: Resonance18m
8.1.7 The Low-Q Approximation9m
8.1.8 Analytical Factoring of Higher-Order Polynomials16m
Homework 2 Materials10m
1 practice exercise
Homework Assignment 2: Ch. 8, Transfer Functions28m
Week
3
2 hours to complete

## Ch 8: Converter Transfer Functions - Part 2

5 videos (Total 79 min), 1 reading, 1 quiz
5 videos
8.2.2 Transfer Functions of Basic Converters10m
8.3.1 Graphical Construction of Impedances19m
8.3.3 Graphical Construction of Parallel and More Complex Impedances17m
8.3.5 Graphical Construction of Converter Transfer Functions15m
Homework 3 Materials10m
1 practice exercise
Homework Assignment 3: Construction of Transfer Functions30m
Week
4
3 hours to complete

## Ch 9: Controller Design

8 videos (Total 159 min), 1 reading, 2 quizzes
8 videos
9.3 Construction of Closed-loop Transfer Functions10m
9.4.1 Stability21m
9.4.2 Phase Margin vs. Closed-loop Q20m
9.5 Regulator Design19m
9.5.4 Design Example18m
Op-amp Compensator Design29m
HW#4 Materials10m
2 practice exercises
Homework Assignment 4 (Part 1): Feedback14m
Homework Assignment 4 (Part 2): Closed-Loop Simulation12m
4.8
78 Reviews

## 12%

got a tangible career benefit from this course

### Top reviews from Converter Control

By PCJun 26th 2016

The analysis and materials of this course are very useful. A great section. If the MATLAB script for calculating the converter Poles and Zeros can be provided will be even better.

By KSMar 6th 2018

This is the important part of converters to learn.It shows how much complex the systems will be and shows how can we minimize complexity by taking approximations.

## Instructor

### Dr. Robert Erickson

Professor
Electrical, Computer, and Energy Engineering

## Start working towards your Master's degree

This course is part of the 100% online Master of Science in Electrical Engineering from University of Colorado Boulder. If you are admitted to the full program, your courses count towards your degree learning.

CU-Boulder is a dynamic community of scholars and learners on one of the most spectacular college campuses in the country. As one of 34 U.S. public institutions in the prestigious Association of American Universities (AAU), we have a proud tradition of academic excellence, with five Nobel laureates and more than 50 members of prestigious academic academies....

## About the Power Electronics Specialization

Design modern switched-mode power converters; create high-performance control loops around power converters; understand efficiency, power density and cost trade-offs By 2030, 80% of all electrical energy will be processed by power electronics. Professional advantages continue to grow for technical engineers who understand the fundamental principles and technical requirements of modern power conversion systems. This specialization covers design-oriented analysis, modeling and simulation techniques leading to practical engineering of high-performance power electronics systems....