Current-Mode Control

University of Colorado Boulder via Coursera

Go to Course: https://www.coursera.org/learn/current-modecontrol

Introduction

### Course Review: Current-Mode Control on Coursera **Course Name**: Current-Mode Control **Offered by**: CU Boulder, part of the Master of Science in Electrical Engineering program **Available for Academic Credit**: ECEA 5708 --- #### Overview The **Current-Mode Control** course on Coursera is a comprehensive exploration of current-mode control techniques, which are vital for implementing switched-mode power supplies effectively. This course serves as Course #4 in the **Modeling and Control of Power Electronics** sequence, making it an essential part of understanding advanced concepts in power electronics. The course delves into the practical applications and the advantages of using peak current-mode control, including built-in overcurrent protection and enhanced dynamic response, making it highly applicable for both academic and real-world engineering challenges. #### Course Structure and Syllabus The course is structured to guide learners through foundational concepts to more complex applications, ensuring a solid grasp of key topics. Below is a quick breakdown of the syllabus: 1. **Peak Current-Mode Control: Simple Model** - Introduction to the fundamental concepts of peak current-mode control. - Exploration of the simple model and the necessity for slope compensation. 2. **Peak Current-Mode Control: More Accurate Model** - Focus on a more refined averaged model. - Discussion of averaged circuit simulations and the design of control loops, which are crucial for implementing robust systems. 3. **High-Frequency Effects in Peak Current-Mode Control** - Examination of the sampled-data characteristics of switching converters. - Insights into high-frequency effects and their impacts on performance metrics. 4. **Average Current-Mode Control** - Dive into averaged current-mode control. - Design considerations for current and voltage control loops, essential for modern power electronics applications. #### Why You Should Enroll 1. **Expert Instruction**: The course is taught by faculty from CU Boulder, ensuring that the material is not only academic but also highly relevant to current industry practices. The instructors bring their extensive knowledge and research expertise to the classroom, enhancing the learning experience. 2. **Robust Curriculum**: The progression from simple to more complex topics allows for a deep understanding of current-mode control strategies. Each module builds on the last, providing a cohesive learning journey. 3. **Practical Relevance**: The emphasis on practical applications of peak current-mode control techniques prepares you for real-world engineering problems. This is especially beneficial for those looking to pursue a career in electrical engineering or power electronics. 4. **Academic Credit**: For those enrolled in CU Boulder’s Master of Science in Electrical Engineering program, this course can be taken for academic credit as ECEA 5708, making it a valuable addition to your degree. 5. **Flexibility of Online Learning**: Being offered through Coursera, you can plan your study schedule around your personal life, allowing for a flexible learning experience while you balance work or other educational commitments. #### Who Should Take This Course? This course is ideal for electrical engineering students, industry professionals looking to deepen their understanding of power electronics, and anyone interested in contemporary control techniques used in switched-mode power supplies. If you are involved in designing or implementing power conversion solutions, this course will equip you with critical skills and knowledge to excel in your field. #### Conclusion In conclusion, the **Current-Mode Control** course on Coursera provides a rich educational experience that not only covers theoretical aspects of current-mode control but also translates them into practical applications. With the backing of CU Boulder and a well-structured syllabus, this course is highly recommended for anyone serious about advancing their knowledge in power electronics. Whether you’re looking to earn academic credit, reinforce your understanding of power systems, or simply expand your skill set, this course is worth considering. Enroll today and take a significant step toward mastering the complexities of current-mode control!

Syllabus

Peak Current-Mode Control: Simple Model

Introduction to peak current-mode control, simple model, and the need for slope compensation

Peak Current-Mode Control: More Accurate Model

More accurate averaged model, averaged circuit simulations, and design of control loops

High-Frequency Effects in Peak Current-Mode Control

Introduction to the sampled-data nature of switching converters and high-frequency effects in peak current-mode controlled converters

Average Current-Mode Control

Averaged current-mode control and design of current and voltage control loops

Overview

This course can also be taken for academic credit as ECEA 5708, part of CU Boulder’s Master of Science in Electrical Engineering degree. This is Course #4 in the Modeling and Control of Power Electronics course sequence. The course is focused on current-mode control techniques, which are very frequently applied in practical realizations of switched-mode. Practical advantages of peak current mode control are discussed, including built-in overcurrent protection, simpler and more robust dynamic re

Skills

Modeling And Simulation Power Supplies Power Electronics Design Power Electronics Circuit Design

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