Enroll Course: https://www.coursera.org/learn/magnetics-for-power-electronic-converters-v2
In the ever-evolving field of electrical engineering, understanding the intricacies of magnetics is crucial, especially for those working with power electronic converters. The course “Magnetics for Power Electronic Converters” offered on Coursera is an excellent opportunity for both students and professionals to deepen their knowledge in this essential area. This course can also be taken for academic credit as ECEA 5703, part of CU Boulder’s Master of Science in Electrical Engineering degree.
### Course Overview
This course delves into the analysis and design of magnetic components, such as inductors and transformers, which are vital for power electronic converters. It begins with foundational principles, covering topics like inductance, core material saturation, and energy storage in inductors. The course is structured to provide a comprehensive understanding of how to model and design magnetic devices, which is integral to the overall design of switching converters.
### Syllabus Breakdown
1. **Basic Magnetics**: The course kicks off with a review of basic magnetics theory, including magnetic circuits and modeling of inductors and transformers. This foundational knowledge is essential for understanding the operation of magnetic devices and their losses.
2. **AC Copper Losses**: A significant focus is placed on the losses incurred in winding conductors due to eddy currents, particularly in high-frequency converters. The course explains the skin effect and proximity effect, providing practical methods to compute these losses, which is invaluable for engineers working with multilayer windings.
3. **Inductor Design**: This module guides students through the design of inductors for switching converters, utilizing the Geometric Constant (Kg) method. It covers both single-winding and multiple-winding inductors, ensuring that learners can design effective magnetic elements for various applications.
4. **Transformer Design**: The final module addresses the design of transformers and ac inductors, focusing on minimizing total core and copper losses. Real-world design examples, such as isolation transformers for converters, are provided to illustrate the practical application of theoretical concepts.
### Why You Should Enroll
This course is not just for students pursuing a degree; it is also a valuable resource for industry professionals looking to enhance their skills. The knowledge gained from this course can lead to improved designs and efficiencies in power electronic systems, making it a worthwhile investment for anyone in the field.
### Conclusion
In conclusion, “Magnetics for Power Electronic Converters” is a well-structured course that offers in-depth knowledge and practical skills essential for anyone involved in power electronics. Whether you are a student or a seasoned engineer, this course will equip you with the tools needed to excel in the design and analysis of magnetic components. I highly recommend enrolling in this course to unlock the secrets of magnetics and elevate your expertise in power electronic converters.
### Tags
1. Magnetics
2. Power Electronics
3. Electrical Engineering
4. Inductor Design
5. Transformer Design
6. Coursera
7. Online Learning
8. Academic Credit
9. CU Boulder
10. Engineering Education
### Topic
Magnetics in Power Electronics
Enroll Course: https://www.coursera.org/learn/magnetics-for-power-electronic-converters-v2