Modeling and Control of Single-Phase Rectifiers and Inverters

Go to Course: https://www.coursera.org/learn/modeling-and-control-of-single-phase-rectifiers-and-inverters

Introduction

### Course Review: Modeling and Control of Single-Phase Rectifiers and Inverters (ECEA 5709) #### Overview If you're an electrical engineering student or a professional looking to expand your knowledge in power electronics, the **Modeling and Control of Single-Phase Rectifiers and Inverters** course on Coursera, also known as **ECEA 5709**, is an exceptional choice. This course is part of CU Boulder’s Master of Science in Electrical Engineering program and the fifth installment in the **Modeling and Control of Power Electronics Specialization**. This course equips you with the necessary skills to understand, analyze, model, and design low-harmonic rectifiers and inverters that connect directly to DC loads or sources. Given the rise of renewable energy systems, especially photovoltaic arrays, this course is both timely and relevant. #### Course Syllabus The course syllabus is structured to guide you through essential concepts in power electronics, primarily focused on grid-tied systems. Here’s a closer look at the main components of the syllabus: 1. **Grid-Tied Power Electronics** - The course begins with an introduction to key concepts like power factor and harmonics. You’ll learn about the operating principles and how to model low-harmonic power factor correction (PFC) rectifiers, which is vital for maintaining system efficiency and compliance with grid requirements. 2. **Control of Power Factor Correction Rectifiers** - This module dives into the modeling of low-harmonic rectifiers. It highlights the importance of energy storage in single-phase systems and guides you through designing effective current and voltage control loops. This is essential for achieving stability and performance in power electronics applications. 3. **Modeling and Control of Single-Phase Inverters** - The final module introduces photovoltaic (PV) systems. You will explore the intricacies of modeling and controlling single-phase PV inverters, a critical skill given the increasing integration of solar power into the energy grid. #### Course Delivery and Format The **Modeling and Control of Single-Phase Rectifiers and Inverters** course is delivered entirely online, featuring a blend of video lectures, reading materials, quizzes, and hands-on projects. This format caters well to busy professionals and students, allowing you to learn at your own pace while providing structured content to keep you on track. #### Who Should Enroll? This course is highly recommended for: - Students pursuing a Master’s in Electrical Engineering or related fields. - Engineers and professionals working in power electronics, renewable energy, or energy systems. - Anyone interested in advancing their understanding of grid-tied power electronics and improving their design skills. #### Why You Should Take This Course 1. **Expert Instruction**: Learn from instructors who are specialists in power electronics, providing insights and real-world applications of the content. 2. **Comprehensive Learning**: The well-structured syllabus covers complex topics, making them accessible and digestible. 3. **Practical Applications**: By the end of this course, you will have the ability to apply theoretical knowledge to practical challenges in power electronics, especially in designing systems compliant with modern energy requirements. 4. **Academic Credit Option**: As this course can be taken for academic credit as part of CU Boulder’s degree program, it not only enhances your skills but also adds value to your academic qualifications. #### Conclusion In summary, the **Modeling and Control of Single-Phase Rectifiers and Inverters** course on Coursera is an invaluable opportunity for anyone looking to deepen their understanding of power electronics, particularly in the context of renewable energy systems. With its structured content, expert instruction, and applicable skill sets, this course comes highly recommended for aspiring electrical engineers and power electronics professionals. Don’t miss the chance to elevate your expertise in this critical field!

Syllabus

Grid-Tied Power Electronics

Introduction to power factor and harmonics, operating principles, and modeling of low-harmonic power factor correction (PFC) rectifiers.

Modeling of low-harmonic rectifiers, the need for energy storage in single-phase systems, and design of current and voltage control loops.

Introduction to photovoltaic (PV) systems, modeling and control of single-phase PV inverters.