Go to Course: https://www.coursera.org/learn/techniques-of-design-oriented-analysis
### Course Review: Techniques of Design-Oriented Analysis **Overview** The "Techniques of Design-Oriented Analysis" course, available on Coursera, is an invaluable resource for students and professionals in the field of electrical engineering, particularly those interested in power electronics. This course is part of CU Boulder’s Master of Science in Electrical Engineering program (course code: ECEA 5706) and serves as Course #2 in the Modeling and Control of Power Electronics sequence. The primary objective of this course is to equip students with practical skills in design-oriented analysis, especially for switching power converters. By focusing on industry-relevant techniques, students learn how to efficiently synthesize and apply complex theoretical concepts to real-world converter designs. --- **Course Content and Structure** The syllabus is meticulously designed to facilitate an understanding of advanced power electronics through two main methodologies: 1. **Extra Element Theorem (EET)** - Introduction to EET: The course begins with a detailed derivation of the Extra Element Theorem (EET), reinforcing its relevance and application in power electronics. - Application Examples: Participants explore various case studies that showcase how EET can simplify and optimize the analysis and design of switching converters. 2. **Design Example: SEPIC Frequency Responses** - In this section, students utilize EET to analyze the frequency responses of the SEPIC (Single-Ended Primary Inductor Converter) topology. This practical application demonstrates the transition from theoretical concepts to practical implementation. 3. **N Extra Element Theorem (NEET)** - Introduction to NEET: Extending the principles learned from EET, the course introduces the N Extra Element Theorem. - Application Examples: Participants engage with complex scenarios, reinforcing their understanding and capability to employ NEET for enhanced converter design. --- **Why Take This Course?** **1. Industry-Relevant Skills:** In a rapidly evolving technological landscape, the ability to design and analyze electrical systems efficiently is paramount. This course targets essential skills that are directly transferable to real-world applications, making it an excellent choice for engineers looking to advance their careers. **2. Strong Academic Foundation:** As part of CU Boulder’s accredited engineering program, completing this course not only enhances your professional skill set but also contributes to academic credit, making it a dual benefit for students. **3. Engaging Instructional Methodology:** The course is taught through a mix of theoretical instruction and hands-on applications. This integration aids in solidifying understanding and encourages active participation, which is crucial for grasping complex engineering concepts. --- **Conclusion and Recommendation** If you are a student in electrical engineering, a professional in the field, or specifically engaged in power electronics design, "Techniques of Design-Oriented Analysis" is a course that I strongly recommend. The unique focus on the Extra Element Theorem and its applications provides practical insights that are invaluable in designing efficient and effective power converter systems. Whether you are looking to earn academic credit or enhance your professional skills, this course offers a dynamic and comprehensive learning experience. Don't miss the opportunity to deepen your understanding of design-oriented analysis and stay ahead in the field of electrical engineering. Enroll today on Coursera and take your first step towards mastering these critical techniques!
Extra Element Theorem
Introduction to Extra Element Theorem: statement, derivation, and application examples
Design example: SEPIC frequency responsesApplication 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 Theor
This course is really good, as it gives you insight and understanding into more challenging electronics design