By the end of the lecture the student will be able to 1. understand concepts of modern control theory 2. Design switching regulators and power supplies that can supply regulated DC output over a wide range of load currents and supply voltages 3. design a control system for a simple switching regulator that can regulate the output voltage to an accuracy of 0.1% 4. provide a detailed mathematical description of the components of a switched-mode power supply 5. describe the conventional methods for designing a feedback loop in control systems 6. explain how to implement a PD controller and a PID controller in a feedback control system 7. analyze the stability of an open-loop system and a closed-loop system 8. conduct a state-space analysis of a simple linear system and give an approximation of the open-loop and closed-loop poles and zeros 9. provide an overview of PID controller design. To begin, students will be presented with a series of learning modules, each focusing on a different set of subjects. These modules are composed of learning units. After students complete a learning unit, they are required to summarize the subject material in a research unit, allowing them to link the concepts in the unit to their own knowledge. Students are required to demonstrate their understanding of each module's learning units by answering related test questions.
The Art of Power Electronics Series
Author
Skip Langford
Publisher
Prentice Hall
ISBN
978-0321427113
Skills
computer science (sub-programming), computer programming (C), computer architecture, computer graphics, computer integrated design, electronic design automation, electrical design, electrical engineering, electrical engineering design
Materials
print on paper
Cover
paperback
Contents
Chapter 1: Introduction and overview The art of Power Electronics 1 Chapter 2: Basics of circuit operation 2 Chapter 3: Power MOSFET circuits 3 Chapter 4: Controllers and analog circuits 4 Chapter 5: Practical PID control 5 Chapter 6: State-space analysis 6 Chapter 7: Linear circuits 7 Chapter 8: Switching circuits 8 Chapter 9: Fundamentals of control 9 Chapter 10: Optimization and learning 10 Chapter 11: Electric power distribution 11 Chapter 12: Industrial power generation 12 Chapter 13: Industrial applications 13 Chapter 14: Instrumentation and automation 14 Chapter 15: Power generation, distribution and conversion 15 Chapter 16: Power generation and conversion systems
Chapter 16: Power generation and conversion systems 16 Chapter 17: The art of power electronics 17 Chapter 18 be359ba680
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