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Dr. Khurram Afridi and Dr. Robert Erickson
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Taught by experts in the field of power electronics: Dr. Khurram Afridi and Dr. Robert Erickson
Covers key concepts in the analysis and design of magnetic components: inductors and transformers
Develops models for losses in magnetic components, including core and winding losses; helps learners understand design trade-offs
Provides a complete procedure for optimizing inductor design in switched-mode power converters
Requires prior completion of Introduction to Power Electronics and Converter Circuits
Focuses specifically on magnetic components and does not cover other aspects of power electronics or circuit design

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Reviews summary

Essential magnetics for power electronics design

According to students, this course provides a solid foundation in the fundamental principles of magnetics as applied to power electronic converters. Learners highlight the clear and systematic approach to analyzing and designing essential magnetic components like inductors and transformers, often citing the instructor's expertise and teaching clarity as major strengths. Many find the coverage of modeling losses and the design optimization procedure particularly valuable and practical. While generally positive, some reviews suggest that prior knowledge beyond the stated prerequisite is helpful and that the material is challenging, requiring dedicated study.
Directly applicable to power converter work.
"This course is indispensable if you are serious about working with power electronic converters."
"It filled a crucial gap in my knowledge regarding the magnetic components used in power circuits."
"A must-take course for anyone designing or analyzing power electronic systems."
"Directly improved my ability to handle the magnetic aspects of power converter design."
In-depth coverage of magnetic losses.
"The sections on core and winding losses, including skin and proximity effects, were very thorough."
"Understanding how to model and predict losses in magnetic components was a major benefit."
"The detailed analysis of losses is essential for efficient power converter design."
"I found the explanation of different loss mechanisms to be particularly strong."
Offers practical steps for component design.
"The step-by-step procedure for inductor design optimization was extremely useful and directly applicable."
"I gained practical skills for designing magnetic components that I can use in my work."
"The course covers design trade-offs effectively, which is crucial for real-world applications."
"Learning how to analyze and optimize inductors for switched-mode converters was a key takeaway for me."
Explains core magnetics principles clearly.
"The course provides a strong foundation in the physics and principles behind inductors and transformers in power electronics."
"I really appreciated the detailed explanations of magnetic circuits and energy storage concepts."
"Understanding inductance, core saturation, and airgaps was made very clear through the lectures."
"This course laid out the fundamental concepts of magnetics needed for converter design very well."
Concepts require significant effort to grasp.
"This course is quite challenging and requires a good amount of time dedicated to understanding the concepts."
"The material is dense, and I had to rewatch lectures multiple times to fully grasp it."
"While rewarding, the course content is difficult and not for the faint of heart."
"Be prepared for a demanding course load and complex topics."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Magnetics for Power Electronic Converters with these activities:
Review from Electromagnetics Course
Electromagnetics concepts will help you understand the fundamentals of magnetic components.
Show steps
  • Review Gauss's law for magnetism and the concept of magnetic flux density.
  • Review Ampere's circuital law and its application to magnetic circuits.
  • Review the concept of inductance and the factors affecting it, such as core material, geometry, and number of turns.
Review Magnetic Fundamentals
Reinforce your understanding of the foundational concepts of magnetic components, such as inductance, reluctance, and magnetic circuits, to prepare you for the in-depth analysis and design covered in the course.
Browse courses on Inductors
Show steps
  • Revisit the concepts of magnetic fields and magnetic materials.
  • Review the basic principles of inductors and transformers, including their construction and operation.
  • Explore the characteristics of magnetic materials, such as permeability and saturation.
  • Practice solving problems related to magnetic circuits and energy storage in magnetic components.
Review the fundamentals of physics
Review the fundamentals of physics to strengthen your understanding of the concepts covered in this course.
Browse courses on Magnetism
Show steps
  • Review the concepts of electric current, voltage, and resistance.
  • Study the principles of magnetism, including the concepts of magnetic fields and magnetic induction.
  • Review the basics of electromagnetism, including the relationship between electric current and magnetic fields.
Ten other activities
Expand to see all activities and additional details
Show all 13 activities
Review 'Design of Magnetic Components' by Erickson and Cuk
Supplement your learning with a comprehensive text that provides in-depth coverage of magnetic component design. This book will provide valuable insights and reinforce the concepts covered in the course.
Show steps
  • Skim through the book to get an overview of its content.
  • Focus on chapters relevant to the topics covered in the course.
  • Take notes and highlight key concepts and equations.
  • Attempt practice problems and exercises to test your understanding.
Inductors and Transformers Tutorial Series
Enroll in an online course or watch video tutorials to gain a deeper understanding of inductors and transformers.
Browse courses on Inductors
Show steps
  • Search for online tutorials or courses on inductors and transformers.
  • Choose a tutorial or course that aligns with your learning style and goals.
  • Follow the tutorials or course modules, taking notes and completing any assignments or quizzes.
Discuss Magnetic Component Losses
Engage in discussions with your peers to explore the different types of losses that occur in magnetic components. This will broaden your understanding of the factors that affect the efficiency of these components.
Show steps
  • Join online forums or study groups dedicated to power electronics.
  • Participate in discussions and ask questions related to core losses and winding losses.
  • Share your knowledge and insights with other participants.
  • Research additional resources and articles to supplement your understanding.
Discussion Forum Participation
Engage in discussions with peers to clarify concepts, share knowledge, and gain different perspectives on the topics covered in this course.
Browse courses on Power Electronics
Show steps
  • Join the course discussion forum.
  • Participate in existing discussions or start new ones.
  • Share your thoughts, ask questions, and respond to others' posts.
Explore Transformer Equivalent Circuits
Enhance your understanding of the behavior of transformers by studying their equivalent circuits. This will enable you to analyze and design transformers more effectively.
Show steps
  • Find online tutorials or resources that explain transformer equivalent circuits.
  • Follow the tutorials to learn about the different types of equivalent circuits, such as T-equivalent and π-equivalent circuits.
  • Practice applying the equivalent circuits to analyze transformer performance.
  • Explore advanced topics related to multi-winding transformers and their equivalent circuits.
Attend a Workshop on Power Converter Design
Expand your knowledge and skills by attending a workshop led by experts in the field of power converter design. This immersive experience will provide hands-on training and allow you to network with other professionals.
Show steps
  • Research and identify relevant workshops in your area or online.
  • Register and attend the workshop.
  • Actively participate in the sessions and ask questions.
  • Take notes and document your learnings.
  • Follow up with the instructors or attendees for further discussions.
Inductor and Transformer Design Calculations
Practice designing inductors and transformers by completing calculations and simulations.
Show steps
  • Find online calculators or simulation tools for inductor and transformer design.
  • Input the required parameters and perform calculations to design inductors and transformers.
  • Compare your results with known designs or use simulation tools to validate your designs.
Practice Inductance and Transformer Calculations
Practice calculations related to inductance and transformers to solidify your understanding of the concepts.
Browse courses on Inductors
Show steps
  • Calculate the inductance of a coil given its dimensions and number of turns.
  • Determine the turns ratio of a transformer given its primary and secondary voltages.
  • Calculate the magnetizing current of a transformer given its core material and geometry.
Design an Inductor for a Power Converter
Apply your knowledge of inductor analysis and design to create a custom inductor for a specific power converter application. This hands-on project will reinforce your understanding of the design process and its practical implications.
Show steps
  • Identify the specifications and requirements for the power converter.
  • Select appropriate core materials and winding configurations.
  • Calculate the inductance, turns ratio, and other parameters of the inductor.
  • Analyze the performance of the inductor using simulation or experimental methods.
  • Optimize the design to meet the desired performance and efficiency targets.
Design and Simulate a Transformer for a Power Converter
Apply the concepts learned in this course to design and simulate a transformer for a power converter.
Browse courses on Transformer Design
Show steps
  • Determine the specifications and requirements for the transformer.
  • Select appropriate core materials, winding configurations, and insulation materials.
  • Design the transformer using simulation software or analytical methods.
  • Simulate the transformer's performance under different operating conditions.
  • Analyze the simulation results and make necessary adjustments to the design.

Career center

Learners who complete Magnetics for Power Electronic Converters will develop knowledge and skills that may be useful to these careers:
Electrical Engineer
As an Electrical Engineer, you will design and develop electrical components and systems for a variety of industries, which could include power generation, transportation, or manufacturing. This course can help you build a solid foundation in the fundamentals of magnetic components, which are essential for the design and development of power electronic converters. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge will be invaluable as you work to develop new and innovative electrical products.
Power Electronics Engineer
Power Electronics Engineers design, develop, and test power electronic systems, which are used in a wide variety of applications, including power generation, transmission, and distribution. This course can help you build a strong foundation in the fundamentals of magnetic components, which are essential for the design and development of power electronic systems. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge will be invaluable as you work to develop new and innovative power electronic systems.
Controls Engineer
Controls Engineers design, develop, and test control systems, which are used in a wide variety of applications, including manufacturing, robotics, and transportation. This course can help you build a foundation in the fundamentals of magnetic components, which are used in many control systems. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge will be helpful as you work to develop new and innovative control systems.
Product Design Engineer
Product Design Engineers design and develop new products, which can include anything from consumer electronics to medical devices. This course can help you build a foundation in the fundamentals of magnetic components, which are used in many products. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge will be helpful as you work to develop new and innovative products.
Systems Engineer
Systems Engineers design, develop, and test complex systems, which can include anything from aircraft to software systems. This course can help you build a foundation in the fundamentals of magnetic components, which are used in many systems. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge will be helpful as you work to develop new and innovative systems.
Research Scientist
Research Scientists conduct research in a variety of fields, including physics, chemistry, and biology. This course can help you build a foundation in the fundamentals of magnetic components, which are used in many research applications. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge will be helpful as you work to develop new and innovative research methods and technologies.
Technical Writer
Technical Writers create documentation for a variety of products and services, including software, hardware, and medical devices. This course can help you build a foundation in the fundamentals of magnetic components, which are used in many products and services. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge will be helpful as you work to create clear and concise documentation for technical products and services.
Patent Attorney
Patent Attorneys help clients obtain patents for their inventions. This course can help you build a foundation in the fundamentals of magnetic components, which are used in many inventions. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge will be helpful as you work to help clients obtain patents for their inventions.
Sales Engineer
Sales Engineers sell technical products and services to businesses and organizations. This course can help you build a foundation in the fundamentals of magnetic components, which are used in many products and services. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge will be helpful as you work to sell technical products and services to businesses and organizations.
Marketing Manager
Marketing Managers develop and implement marketing campaigns for products and services. This course may help you build a foundation in the fundamentals of magnetic components, which are used in many products and services. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge may be helpful as you work to develop and implement marketing campaigns for products and services that use magnetic components.
Business Analyst
Business Analysts analyze business processes and systems to identify areas for improvement. This course may help you build a foundation in the fundamentals of magnetic components, which are used in many business processes and systems. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge may be helpful as you work to analyze business processes and systems to identify areas for improvement.
Financial Analyst
Financial Analysts analyze financial data to make investment recommendations. This course may help you build a foundation in the fundamentals of magnetic components, which are used in many financial applications. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge may be helpful as you work to analyze financial data to make investment recommendations.
Human Resources Manager
Human Resources Managers oversee the human resources department of an organization. This course may help you build a foundation in the fundamentals of magnetic components, which are used in many human resources applications. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge may be helpful as you work to oversee the human resources department of an organization.
Project Manager
Project Managers plan and execute projects. This course may help you build a foundation in the fundamentals of magnetic components, which are used in many projects. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge may be helpful as you work to plan and execute projects.
Teacher
Teachers teach students in a variety of subjects. This course may help you build a foundation in the fundamentals of magnetic components, which are used in many teaching applications. You will learn about the different types of magnetic components, how they work, and how to design them for optimal performance. This knowledge may be helpful as you work to teach students in a variety of subjects.

Reading list

We've selected 20 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Magnetics for Power Electronic Converters.
This journal publishes original research papers on all aspects of power electronics.
Provides a detailed treatment of the electromagnetic analysis and design of magnetic components for power electronics.
Covers the fundamentals of magnetic components and their applications in power electronics. It is written for practicing engineers and researchers in the field of power electronics.
Provides a comprehensive treatment of the design of magnetic components for high-frequency converters.
Offers an introduction to all types of magnetic components used in switched-mode power converters. It covers materials, design techniques, and analysis methods.
Provides a comprehensive treatment of the fundamentals of power electronics.
Provides a practical guide to the design of power magnetics.
Provides a comprehensive treatment of high-frequency magnetic components. It covers the fundamental principles of magnetics, the design and analysis of magnetic components, and their application in high-frequency power converters.
Provides a comprehensive treatment of power converter circuits. It covers the basic principles of power converters, the design and analysis of power converter circuits, and their application in various industries.
Provides a comprehensive treatment of the magnetic materials used in power transformers.
Provides a comprehensive overview of magnetic materials and their applications. It covers the fundamental principles of magnetism, the properties of magnetic materials, and the application of magnetic materials in power electronics.
Provides a comprehensive treatment of electric machinery fundamentals. It covers the basic principles of electric machinery, the design and analysis of electric machinery, and their application in various industries.
Provides a comprehensive overview of the magnetic properties of materials. It covers the fundamentals of magnetic materials, including magnetic materials, magnetic properties, and magnetic applications.
Provides a comprehensive overview of electromagnetism. It covers the fundamental principles of electromagnetism, the design and analysis of electromagnetic devices, and the application of electromagnetism in power systems.
Provides a comprehensive overview of electric power systems. It covers the fundamental principles of electric power systems, the design and analysis of electric power systems, and the application of electric power systems in power systems.
Provides a comprehensive overview of power electronics. It covers the basics of power electronics, including power semiconductor devices, power converters, and magnetic components.
Provides a comprehensive overview of the magnetic materials and their applications. It covers the basics of magnetic materials, including magnetic materials, magnetic properties, and magnetic applications.

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