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 Coursera course titled ‘Magnetics for Power Electronic Converters’ offers an in-depth exploration of this essential topic, making it a valuable resource for both students and professionals alike.
This course, which can also be taken for academic credit as ECEA 5703 as part of CU Boulder’s Master of Science in Electrical Engineering degree, delves into the analysis and design of magnetic components such as inductors and transformers. The curriculum is structured to provide a comprehensive understanding of the physical principles behind these components, starting with the basics of magnetics.
### Course Overview
The course begins with a solid foundation in basic magnetics theory, covering magnetic circuits, inductor modeling, and transformer modeling. This foundational knowledge is critical for anyone looking to design and model magnetic devices effectively. The course emphasizes that the design of magnetic devices cannot be isolated from the overall converter design, making it essential for power electronics engineers to grasp both aspects.
### Key Modules
1. **Basic Magnetics**: This module reviews essential magnetics theory, equipping students with the technical tools necessary to understand the operation of magnetic devices and model their losses.
2. **AC Copper Losses**: Here, students learn about eddy currents and their impact on winding conductors, particularly in high-frequency converters. The course explains the skin effect and proximity effect, providing practical methods to compute these losses.
3. **Inductor Design**: This section focuses on designing inductors for switching converters using the Geometric Constant (Kg) method. Students will learn to specify maximum flux density and design elements to achieve desired copper loss.
4. **Transformer Design**: The final module addresses the design of transformers and AC inductors, emphasizing the minimization of total core and copper loss. Design examples include isolation transformers for various converter types.
### Why You Should Enroll
Whether you are a student pursuing a degree in electrical engineering or a professional looking to enhance your skills, this course is a must. The blend of theoretical knowledge and practical application makes it an excellent choice for anyone interested in power electronics. The course is well-structured, with clear explanations and real-world examples that facilitate understanding.
In conclusion, ‘Magnetics for Power Electronic Converters’ is a highly recommended course for those looking to deepen their knowledge of magnetic components in power electronics. With its rigorous curriculum and practical insights, it prepares students to tackle real-world challenges in the field. Don’t miss the opportunity to enhance your expertise in this critical area of electrical engineering!
Enroll Course: https://www.coursera.org/learn/magnetics-for-power-electronic-converters-v2