Enroll Course: https://www.coursera.org/learn/techniques-of-design-oriented-analysis
Are you delving into the fascinating world of power electronics and looking to build practical, efficient switching power converters? If so, Coursera’s ‘Techniques of Design-Oriented Analysis’ course is an absolute must-take. This course, also available for academic credit as ECEA 5706 within CU Boulder’s Master of Science in Electrical Engineering program, is the second installment in their ‘Modeling and Control of Power Electronics’ sequence. It’s specifically designed to equip you with the analytical tools needed to not only understand complex power converter models but also to translate that understanding directly into tangible design improvements.
The core of this course revolves around the powerful ‘Extra Element Theorem’ (EET). You’ll start with a clear introduction to the theorem, covering its statement, derivation, and practical application examples. This foundational knowledge is then put to the test in a compelling design example: analyzing the frequency responses of a SEPIC converter. Here, you’ll witness firsthand how the EET can be applied to dissect and design complex converter transfer functions, a skill that is invaluable for any power electronics engineer.
Furthermore, the course expands your analytical arsenal with the ‘N Extra Element Theorem’ (NEET). You’ll learn its statement and explore various application examples, further solidifying your ability to tackle even more intricate circuit analyses. What makes this course truly stand out is its ‘design-oriented’ approach. Instead of just theoretical musings, the techniques taught are geared towards providing quick insights that directly inform practical design decisions. This means you won’t just be learning *how* converters work, but *why* they are designed the way they are, and how to optimize them yourself.
Whether you’re a student pursuing a master’s degree or a practicing engineer looking to sharpen your skills, ‘Techniques of Design-Oriented Analysis’ offers a rigorous yet accessible path to mastering power electronics design. The ability to rapidly gain insights and translate them into practical designs is a superpower in this field, and this course provides you with that power.
Enroll Course: https://www.coursera.org/learn/techniques-of-design-oriented-analysis