Techniques of Design-Oriented Analysis training provided by University of Colorado
Techniques of Design-Oriented Analysis free videos and free material uploaded by University of Colorado Staff .
Extra Element Theorem
Introduction to Extra Element Theorem: statement, derivation, and application examples
Design example: SEPIC frequency responses
Application of the Extra Element Theorem to analysis and design of complex converter transfer functions
N Extra Element Theorem (NEET)
Introduction to N Extra Element Theorem: statement, and application examples
This course can also be taken for academic credit as ECEA 5706, part of CU Boulder’s Master of Science in Electrical Engineering degree.
This is Course #2 in the Modeling and Control of Power Electronics course sequence. The course is focused on techniques of design-oriented analysis that allow you to quickly gain insights into models of switching power converters and to translate these insights into practical converter designs. The design-oriented techniques covered are the Extra Element Theorem and the N-Extra Element Theorem (N-EET). Through practical examples, it is shown how the EET can be used to simplify circuit analysis, to examine the effects of initially unmodeled components, and to design damping of converters such as SEPIC and Cuk to achieve high-performance closed-loop controls. The N-EET will allow you to perform circuit analysis and to derive circuit responses with minimum algebra. Modeling and design examples are supported by design-oriented MATLAB script and Spice simulations. After completion of this course, the student will gain analytical skills applicable to the design of high-performance closed-loop controlled switching power converters.
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