Go to Course: https://www.coursera.org/learn/averagedswitchmodelingandsimulation
### Course Review: Averaged-Switch Modeling and Simulation If you're delving into the intricate world of electrical engineering, particularly in the realm of power electronics, the course **Averaged-Switch Modeling and Simulation** on Coursera is an exceptional choice. This course not only serves as an excellent introduction to the modeling and control of power converters but also offers the opportunity for academic credit as ECEA 5705, part of the Master of Science in Electrical Engineering program at CU Boulder. #### Course Overview The course is designed to equip students with practical skills in the modeling and control of pulse-width modulated (PWM) switched-mode power converters. These components are crucial in modern electronic systems, offering high efficiency and reliable performance. The curriculum is rich with both theoretical principles and hands-on simulation tools, making it ideal for those looking to apply their knowledge in real-world scenarios. ### Key Features of the Course 1. **Course Structure**: - This is **Course #1** in the **Modeling and Control of Power Electronics** series, indicating a well-structured pathway through advanced topics. - The course syllabus is clearly laid out, facilitating easy navigation through the material. 2. **Practical Design Orientation**: - The focus on practical, design-oriented modeling ensures that students can apply theoretical concepts directly to their projects. - Students will learn about techniques that are essential in the design and analysis of power electronics. 3. **Key Techniques and Tools**: - **Middlebrook's Feedback Theorem**: This technique is critical for understanding feedback loops in power electronic systems. The course encourages students to apply this theorem in real-world scenarios, reinforcing their practical understanding. - **Averaged Switch Modeling**: Students will delve into averaged circuit simulations, which are crucial for simplifying the complexity inherent in switched-mode converters. This knowledge will enable participants to model and design converters efficiently. ### Syllabus Breakdown 1. **Modeling, Control and Simulation of Switched-Mode Power Converters**: - The initial module presents a thorough review of essential concepts, ensuring that participants have a solid foundation before moving on to advanced topics. 2. **Techniques of Design Oriented Analysis: Feedback Theorem**: - In this part, students deepen their understanding of how the feedback theorem applies practically, enhancing their analytical skills and design capabilities in power electronics. 3. **Averaged Switch Modeling and Averaged Circuit Simulations**: - This final segment allows students to actively engage with the material, applying learned techniques through simulations to reinforce their knowledge and skills further. ### Recommendation I highly recommend the **Averaged-Switch Modeling and Simulation** course for anyone looking to enhance their expertise in power electronics. Here’s why: - **Comprehensive Learning Experience**: The course provides a perfect blend of theory and practical application, making it suitable for both students and professionals looking to update or refine their skills. - **Academic Credit**: For those enrolled in CU Boulder’s Master of Science in Electrical Engineering, the ability to earn academic credit adds significant value and recognition to the effort invested in this course. - **Preparedness for Advanced Topics**: Completing this course will lay a solid groundwork for advanced courses in the field, preparing students for more complex ideas and projects. Overall, whether you're aspiring to become an electrical engineer or you’re already in the field seeking to improve your design and simulation skills, this course is an excellent investment in your education and professional development. Enjoy the learning journey!
Modeling, Control and Simulation of Switched-Mode Power Converters
Review of modeling, control and simulation of switched-mode power converters
Techniques of Design Oriented Analysis: Feedback TheoremUnderstand and apply Feedback Theorem in the analysis and design of power electronics
Averaged Switch Modeling and Averaged Circuit SimulationsModel and design switched-mode power converters using averaged switch modeling and averaged circuit simulations
This course can also be taken for academic credit as ECEA 5705, part of CU Boulder’s Master of Science in Electrical Engineering degree. This is Course #1 in the Modeling and Control of Power Electronics course sequence. The course is focused on practical design-oriented modeling and control of pulse-width modulated switched mode power converters using analytical and simulation tools in time and frequency domains. A design-oriented analysis technique known as the Middlebrook's feedback theorem
The teaching staff are honestly useless, but the instructor Dr. Maxim was good
Some the the files have issues in them, but I guess they might intentionally have issues in them to get you to think about the content.
The course was well explained and the exercises and HW were helpful for understanding
Very good course. This course lifts you out from ideality and places you in reality in terms of the behaviour of compensation circuits and more.
The course serves as a good starting point for small signal ac modeling and simulation for converters operating in the CCM / DCM mode of operation.