About this Course

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Learner Career Outcomes

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started a new career after completing these courses

27%

got a tangible career benefit from this course

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Start instantly and learn at your own schedule.

Flexible deadlines

Reset deadlines in accordance to your schedule.

Intermediate Level

Approx. 17 hours to complete

Suggested: 3 weeks of study, 1-3 hours/week...

English

Subtitles: English

What you will learn

  • Check

    Understand what a switched-mode converter is and its basic operating principles

  • Check

    Be able to solve for the steady-state voltages and currents of step-down, step-up, inverting, and other power converters

  • Check

    Know how to derive an averaged equivalent circuit model and solve for the converter efficiency

Learner Career Outcomes

43%

started a new career after completing these courses

27%

got a tangible career benefit from this course

100% online

Start instantly and learn at your own schedule.

Flexible deadlines

Reset deadlines in accordance to your schedule.

Intermediate Level

Approx. 17 hours to complete

Suggested: 3 weeks of study, 1-3 hours/week...

English

Subtitles: English

Syllabus - What you will learn from this course

Content RatingThumbs Up94%(5,428 ratings)Info
Week
1

Week 1

2 hours to complete

Ch 1: Introduction

2 hours to complete
5 videos (Total 53 min), 4 readings, 1 quiz
5 videos
Sect. 1.2 Preliminaries and Grading11m
Sect. 1.3 What will be Covered7m
Sect. 1.1 Technical Introduction16m
Sect. 1.4 Simulation of a Buck Converter using LTspice16m
4 readings
Entering formulas in homework assignments10m
If you have problems with the Coursera system10m
Buck converter simulation files10m
Materials for the LTspice simulation assignment10m
1 practice exercise
Homework Assignment #1: Ch. 1 - Boost Converter Simulation30m
Week
2

Week 2

4 hours to complete

Ch 2: Steady-State Converter Analysis

4 hours to complete
4 videos (Total 74 min), 1 reading, 1 quiz
4 videos
Sect. 2.2 Volt-Sec Balance and the Small Ripple Approximation30m
Sect. 2.3 Boost Converter Example22m
Sects. 2.4 and 2.5 Additional Topics11m
1 reading
Sample problems with solutions10m
1 practice exercise
Homework Assignment #2: Ch. 2 - Converter Analysis3h
Week
3

Week 3

5 hours to complete

Ch 3: Steady-State Equivalent Circuit Modeling, Losses, and Efficiency

5 hours to complete
6 videos (Total 93 min), 1 reading, 1 quiz
6 videos
Sect. 3.1 Supplement: Review of Circuits with Ideal Transformers10m
Sect. 3.2 Inductor Copper Loss12m
Sect. 3.3 Construction of Equivalent Circuit Model19m
Sect. 3.4 How to Obtain the Input Port of the Model10m
Sect. 3.5 Example: Semiconductor Conduction Losses in Boost Converter23m
1 reading
Sample problems with solutions10m
1 practice exercise
Homework Assignment #3: Ch. 3 - Equivalent Circuit Modeling3h
4.8
394 ReviewsChevron Right

Top reviews from Introduction to Power Electronics

By SHSep 23rd 2017

I am very please of with course but i also want the course of power electronics related to any field i mean in FACTS devices applications so we can learn more related to new emerging technologies .

By SMOct 4th 2018

The course has been completely amazing. The knowledge provided in the lectures is perfect and the assignment questions complement the lectures very well and tests the understanding effectively.

Instructor

Instructor rating4.89/5 (30 Ratings)Info
Image of instructor, Dr. Robert Erickson

Dr. Robert Erickson 

Professor
Electrical, Computer, and Energy Engineering
55,436 Learners
6 Courses

Offered by

University of Colorado Boulder logo

University of Colorado Boulder

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.

About the Power Electronics Specialization

Courses 1, 2, and 3 in this specialization can also be taken for academic credit as part of CU Boulder’s Master of Science in Electrical Engineering degree. Enroll here. Courses 5 and 6 will be offered in the degree program soon. 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....
Power Electronics

Frequently Asked Questions

  • Once you enroll for a Certificate, you’ll have access to all videos, quizzes, and programming assignments (if applicable). Peer review assignments can only be submitted and reviewed once your session has begun. If you choose to explore the course without purchasing, you may not be able to access certain assignments.

  • When you enroll in the course, you get access to all of the courses in the Specialization, and you earn a certificate when you complete the work. Your electronic Certificate will be added to your Accomplishments page - from there, you can print your Certificate or add it to your LinkedIn profile. If you only want to read and view the course content, you can audit the course for free.

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