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Dr. Dragan Maksimovic and Климин Анастасий Игоревич
This course covers advanced converter control techniques, including averaged-switch modeling and Spice simulations, modeling and design of peak current mode and average current mode controlled converters, as well as an introduction to control of single-phase ac grid tied rectifiers and inverters. Design and simulation examples include wide bandwidth point-of-load voltage regulators, low-harmonic power-factor-correction rectifiers, and grid-tied inverters for solar photovoltaic power systems. Upon completion of the course, you will be able to model, design control loops, and simulate state-of-the-art pulse-width modulated (PWM) dc...
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This course covers advanced converter control techniques, including averaged-switch modeling and Spice simulations, modeling and design of peak current mode and average current mode controlled converters, as well as an introduction to control of single-phase ac grid tied rectifiers and inverters. Design and simulation examples include wide bandwidth point-of-load voltage regulators, low-harmonic power-factor-correction rectifiers, and grid-tied inverters for solar photovoltaic power systems. Upon completion of the course, you will be able to model, design control loops, and simulate state-of-the-art pulse-width modulated (PWM) dc-dc converters, dc-ac inverters, ac-dc rectifiers, and other power electronics systems. This course assumes prior completion of Introduction to Power Electronics, Converter Circuits, and Converter Control
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Good to know

Know what's good
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Teaches advanced converter control techniques, essential for power electronics engineers
Offers practical examples and hands-on exercises to enhance understanding of complex concepts
Taught by instructors with extensive experience in power electronics, ensuring credible and up-to-date knowledge
Assumes prior knowledge in power electronics, making it suitable for intermediate to advanced learners
Requires previous completion of three courses on power electronics, which may limit accessibility
Focuses on advanced topics in power electronics, appealing to specialized learners in the field

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Reviews summary

Informative converter control course

This course is a great addition to studies in power electronics. Its emphasis on control design and simulation is highly praised by students who also note the instruction of Professor Dragan as being of high quality. While the assignments can be quite strict in their grading, most students found the course to be very useful and informative.
Professors explain concepts clearly.
"Excellent course. Explanation are very clear. Concepts are progressively introduced wh"
LTspice simulation is covered in depth.
"Really enjoyed taking on this course! Tough, lots of learning and cool design verification through LTspice"
"I have learned so many valuable things in this course and have learned detailed analysis in LTSpice and have also learned facts of Power Electronics"
Expertise in current mode control is gained.
"Really interesting topic to learn. Now I know how to control my converter using peak and average current."
This course is an essential topic in the power management industry.
"Definitely important course because the entire power management industry is based upon current mode control."
Assignment grading is very strict.
"One drawback though of the course is that some of the answers to the assignment questions are too tight in limits. Even if you have solved the question correctly but the decimal place is wrong/missing then the answer is marked wrong which confuses if the approach was wrong or the answer format."

Activities

Coming soon We're preparing activities for Advanced Converter Control Techniques. These are activities you can do either before, during, or after a course.

Career center

Learners who complete Advanced Converter Control Techniques will develop knowledge and skills that may be useful to these careers:
Power Electronics Engineer
As a Power Electronics Engineer, you will research, design, and develop power electronic systems. This course will provide you with a strong foundation in the principles and practices of power electronics, which will enable you to solve complex engineering problems in this field. You will learn how to model, design, and control a variety of power electronic systems, including dc-dc converters, dc-ac inverters, and ac-dc rectifiers.
Electrical Engineer
As an Electrical Engineer, you will design and develop electrical equipment, including power systems and components. The skills you learn in this course, such as modeling and simulation techniques, will be essential for your success in this role. This course will provide you with a strong foundation in the principles and practices of power electronics, which will enable you to design and develop safe and efficient electrical systems.
Control Systems Engineer
Control Systems Engineers design, develop, and maintain control systems for a variety of applications, including robotics, manufacturing, and aerospace. The skills you learn in this course, such as modeling and control techniques, will be essential for your success in this role. This course will provide you with a strong foundation in the principles and practices of control systems engineering, which will enable you to design and develop robust and efficient control systems.
Simulation Engineer
Simulation Engineers use computer software to create simulations of real-world systems. They use these simulations to test and analyze systems before they are built or implemented. The skills you learn in this course, such as modeling and simulation techniques, will be essential for your success in this role. This course will provide you with a strong foundation in the principles and practices of simulation engineering, which will enable you to develop accurate and reliable simulations.
Test Engineer
Test Engineers design and conduct tests to ensure that products meet safety and quality standards. They also identify and troubleshoot problems with products. The skills you learn in this course, such as modeling and simulation techniques, will be essential for your success in this role. This course will provide you with a strong foundation in the principles and practices of test engineering, which will enable you to design and conduct effective tests.
Design Engineer
Design Engineers use their knowledge of engineering principles and materials to design and develop new products. The skills you learn in this course, such as modeling and simulation techniques, will be essential for your success in this role. This course will provide you with a strong foundation in the principles and practices of design engineering, which will enable you to design and develop innovative and efficient products.
Research Scientist
Research Scientists conduct research to advance knowledge in a particular field. They may also develop new technologies or products. The skills you learn in this course, such as modeling and simulation techniques, may be useful for your success in this role. This course will provide you with a strong foundation in the principles and practices of research science, which will enable you to conduct independent research and make significant contributions to your field.
Systems Analyst
Systems Analysts design, develop, and maintain computer systems. They also analyze and improve existing systems. The skills you learn in this course, such as modeling and simulation techniques, may be useful for your success in this role. This course will provide you with a strong foundation in the principles and practices of systems analysis, which will enable you to design and develop efficient and effective computer systems.
Software Engineer
Software Engineers design, develop, and maintain software applications. They also analyze and improve existing software. The skills you learn in this course, such as modeling and simulation techniques, may be useful for your success in this role. This course will provide you with a strong foundation in the principles and practices of software engineering, which will enable you to design and develop robust and efficient software applications.
Data Scientist
Data Scientists use statistical and machine learning techniques to extract insights from data. They also develop models and algorithms to solve real-world problems. The skills you learn in this course, such as modeling and simulation techniques, may be useful for your success in this role. This course will provide you with a strong foundation in the principles and practices of data science, which will enable you to analyze data and make informed decisions.
Business Analyst
Business Analysts analyze business needs and develop solutions to improve business processes. They also work with stakeholders to gather requirements and ensure that solutions meet business objectives. The skills you learn in this course, such as modeling and simulation techniques, may be useful for your success in this role. This course will provide you with a strong foundation in the principles and practices of business analysis, which will enable you to understand business needs and develop effective solutions.
Project Manager
Project Managers plan, execute, and close projects. They also track progress and manage risks. The skills you learn in this course, such as modeling and simulation techniques, may be useful for your success in this role. This course will provide you with a strong foundation in the principles and practices of project management, which will enable you to plan and execute successful projects.
Product Manager
Product Managers develop and manage products. They also work with stakeholders to gather requirements and ensure that products meet customer needs. The skills you learn in this course, such as modeling and simulation techniques, may be useful for your success in this role. This course will provide you with a strong foundation in the principles and practices of product management, which will enable you to develop and manage successful products.
Technical Writer
Technical Writers create and maintain technical documentation, such as user manuals, training materials, and marketing materials. They also work with subject matter experts to gather information and ensure that documentation is accurate and clear. The skills you learn in this course, such as modeling and simulation techniques, may be useful for your success in this role. This course will provide you with a strong foundation in the principles and practices of technical writing, which will enable you to create effective and informative technical documentation.
Sales Engineer
Sales Engineers sell technical products and services. They also work with customers to identify their needs and develop solutions. The skills you learn in this course, such as modeling and simulation techniques, may be useful for your success in this role. This course will provide you with a strong foundation in the principles and practices of sales engineering, which will enable you to sell technical products and services effectively.

Reading list

We've selected 33 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 Advanced Converter Control Techniques.
Is widely used in academic institutions and is commonly cited as a reference material by industry professionals, particularly in the field of power electronics. It provides a broad overview of the fundamentals of power electronics, including both theory and practical applications, and is particularly useful for learners seeking a comprehensive understanding of the field.
This textbook covers the fundamentals of power electronics, including the analysis and design of power electronic converters. It valuable resource for both students and practicing engineers.
Provides a comprehensive treatment of switch-mode power converters, covering topics such as topologies, control techniques, and design considerations. It valuable reference tool for engineers working with power electronics.
Provides a comprehensive overview of the SPICE circuit simulation software, covering topics such as circuit analysis, device modeling, and simulation techniques. It valuable resource for engineers and researchers working with power electronics.
Focuses on the use of digital control techniques in power electronics, covering topics such as digital controllers, control algorithms, and applications. It valuable resource for researchers and engineers working in power electronics.
Provides a comprehensive overview of high-power converters and AC drives, covering topics such as topologies, control techniques, and applications. It valuable resource for engineers working with power electronics.
Provides a comprehensive overview of power electronics, including topics such as power semiconductor devices, power supplies, and motor drives.
Provides a comprehensive overview of switch-mode power supplies, including the use of SPICE simulations for design and analysis. It valuable resource for both students and practicing engineers.
This textbook covers the fundamentals of power electronics, including the analysis and design of power electronic converters. It valuable resource for both students and practicing engineers.
This textbook covers the fundamentals of power electronics, including the analysis and design of power electronic converters. It valuable resource for both students and practicing engineers.
This textbook covers the fundamentals of power electronics, including the analysis and design of power electronic converters. It valuable resource for both students and practicing engineers.
Provides a comprehensive overview of power electronics, covering topics such as power semiconductor devices, power converters, and control techniques. It good resource for background and prerequisite knowledge.
Provides detailed analysis of converter dynamics and includes excellent treatment of modeling averaging techniques. Serves as good background reading to support this course.
This advanced textbook covers the design and analysis of advanced power electronics converters, including the use of SPICE simulations. It valuable resource for both students and practicing engineers.
This standard textbook in power electronics. It covers topics in magnetics, converter topologies, control, and applications. Serves as good background reading to support this course.
Is highly regarded in the field of power electronics and is commonly used as a reference by practicing engineers. It provides a comprehensive overview of the design and optimization of switching power supplies, including practical design considerations and troubleshooting techniques.
Covers all aspects of digital control of power electronics, including control techniques. Serves as good background reading to support this course.
Serves as good background reading to support this course. Includes discussion of structured design techniques for switching converters using average modeling techniques.
Covers all aspects of power electronics, including control techniques. Serves as good background reading to support this course.
Covers all aspects of high performance converters, including control techniques. Serves as good background reading to support this course.
This handbook comprehensive resource for power electronics engineers and researchers. It covers a wide range of topics, including power semiconductor devices, converters, and control techniques. Additionally, it provides practical design guidelines and case studies.
Covers all aspects of control of power electronic converters and systems. Serves as good background reading to support this course.
Covers all aspects of electric power conversion, including control techniques. Serves as good background reading to support this course.
Provides an overview of the state-of-the-art in wide bandgap semiconductor power devices. It covers the fundamental properties, device physics, and applications of these devices in power electronics systems.
Covers all aspects of renewable energy systems, including advanced conversion technologies.
Focuses on the modeling and control of power electronic converters. It provides a comprehensive treatment of the subject, including both theoretical and practical aspects.
Serves as an additional reference to be used with average modeling techniques.
Provides a comprehensive overview of the design and application of high-frequency magnetic components, including transformers, inductors, and chokes. It is particularly useful for learners seeking a deeper understanding of the magnetic circuits and materials used in power electronics systems.
Provides a comprehensive introduction to the subject of power electronics. It covers the fundamental concepts, devices, and applications of power electronics systems. It is particularly suitable for learners who are new to the field or seeking a refresher on the basics.

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