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Techniques of Design-Oriented Analysis

Master power electronics analysis using Extra Element Theorem and N-EET for efficient converter design and optimization.

Master power electronics analysis using Extra Element Theorem and N-EET for efficient converter design and optimization.

This course cannot be purchased separately - to access the complete learning experience, graded assignments, and earn certificates, you'll need to enroll in the full Modeling and Control of Power Electronics Specialization program. You can audit this specific course for free to explore the content, which includes access to course materials and lectures. This allows you to learn at your own pace without any financial commitment.

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Techniques of Design-Oriented Analysis

This course includes

12 Hours

Of Self-paced video lessons

Intermediate Level

Completion Certificate

awarded on course completion

Free course

What you'll learn

  • Understand and derive the Extra Element Theorem

  • Apply EET to converter analysis and design problems

  • Master the N-Extra Element Theorem

  • Implement N-EET in complex converter designs

  • Use design-oriented analysis for practical applications

Skills you'll gain

Circuit Analysis
Power Electronics
Extra Element Theorem
N-Extra Element Theorem
Converter Design
SEPIC Design
Circuit Modeling
Transfer Functions

This course includes:

3.5 Hours PreRecorded video

7 quizzes

Access on Mobile, Tablet, Desktop

FullTime access

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There are 3 modules in this course

This course focuses on design-oriented analysis techniques for switching power converters. Students learn to apply the Extra Element Theorem (EET) and N-Extra Element Theorem (N-EET) to simplify circuit analysis and design high-performance closed-loop controls. The curriculum covers practical applications including SEPIC and Cuk converter analysis, damping design, and impedance interactions.

Extra Element Theorem

Module 1 · 3 Hours to complete

Design example: SEPIC frequency responses

Module 2 · 3 Hours to complete

N Extra Element Theorem (NEET)

Module 3 · 4 Hours to complete

Fee Structure

Instructor

Dr. Dragan Maksimovic
Dr. Dragan Maksimovic

4.9 rating

36 Reviews

32,011 Students

9 Courses

Charles V. Schelke Endowed Professor

Dr. Dragan Maksimovic is a distinguished Charles V. Schelke Endowed Professor in the Department of Electrical, Computer, and Energy Engineering at the University of Colorado Boulder. He earned his B.S. and M.S. degrees from the University of Belgrade and completed his Ph.D. at the California Institute of Technology in 1989. Since joining CU Boulder in 1992, he has co-founded the Colorado Power Electronics Center (CoPEC), where he serves as Co-Director, focusing on research in smart power electronics and digital control for high-frequency switched-mode power converters. His work has garnered significant support from various industrial sponsors and government agencies, including NSF and DARPA.Dr. Maksimovic is a recognized leader in the field of power electronics, having published over 250 papers and holding more than 30 US patents. His research interests include renewable energy systems, energy efficiency, and advanced power conversion technologies using wide bandgap semiconductors. He has co-authored influential textbooks such as Fundamentals of Power Electronics and Digital Control of High-Frequency Switched-Mode Power Converters. A Fellow of the IEEE, he has received numerous awards for his contributions to engineering education and research, including the IEEE PELS Modeling and Control Technical Achievement Award. Through his teaching and innovative research, Dr. Maksimovic continues to shape the future of power electronics and energy systems at CU Boulder.

Techniques of Design-Oriented Analysis

This course includes

12 Hours

Of Self-paced video lessons

Intermediate Level

Completion Certificate

awarded on course completion

Free course

Testimonials

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