Power Electronics
A First Course
Published on 18. November 2011
Book
Hardback
288 pages
978-1-118-07480-0 (ISBN)
Description
This book is part of a three-book series for the sequence of electric power electives taught in most large universities' Electrical Engineering departments. Advances in hybrid-electric cars and alternative energy systems, coupled with the severe environmental problems associated with hydrocarbon-based fuels, are driving renewed interest in the electric energy systems (EES) curriculum at the Undergraduate level.
Ned Mohan has been a leader in EES education and research for decades, as author of the best-selling text/reference Power Electronics with Wiley and a series of textbooks self-published under the MNPERE imprint. Mohan leads a consortium of 80+ universities working to revitalize electric power engineering education. These texts are based on the integrated curriculum developed over nearly 15 years of research in education in this field.
This textbook focuses on Power Electronics as one of the topics in an integrated Electric Energy Systems curriculum. It follows a top-down, systems-level approach to highlight interrelationships between the sub-fields within this curriculum, and is intended to cover both the fundamentals and practical design in a single-semester course. The author follows a building-block approach to power electronics that provides an in-depth discussion of several important topics that often omitted from conventional courses, for example, designing feedback control, power-factor-correction circuits, soft-switching, and Space-Vector PWM.
Ned Mohan has been a leader in EES education and research for decades, as author of the best-selling text/reference Power Electronics with Wiley and a series of textbooks self-published under the MNPERE imprint. Mohan leads a consortium of 80+ universities working to revitalize electric power engineering education. These texts are based on the integrated curriculum developed over nearly 15 years of research in education in this field.
This textbook focuses on Power Electronics as one of the topics in an integrated Electric Energy Systems curriculum. It follows a top-down, systems-level approach to highlight interrelationships between the sub-fields within this curriculum, and is intended to cover both the fundamentals and practical design in a single-semester course. The author follows a building-block approach to power electronics that provides an in-depth discussion of several important topics that often omitted from conventional courses, for example, designing feedback control, power-factor-correction circuits, soft-switching, and Space-Vector PWM.
More details
Other editions
New editions
Mohan
Power Electronics, A First Course: Simulations and Laboratory Implementations
Simulations and Laboratory Implementations
Book
12/2022
2nd Edition
Wiley-Blackwell
€120.50
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Person
Ned Mohan is Oscar A. Schott Professor of Power Electronics in the Department of Electrical Engineering at the University of Minnesota, where he has been teaching for 33 years. He has written five textbooks; one of them is translated into several languages.
He has 13 patents and has written over 200 technical articles. He is actively involved in the area of renewable energy and is working on the next generation of wind generators and storage.
He received the Distinguished Teaching Award by the Institute of Technology at the University of Minnesota. He is a Morse-Alumni Distinguished Teaching Professor and is a member of the Academy of Distinguished Teachers at the University of Minnesota. He received the Outstanding Educator Award from the Power Engineering Society of the IEEE in 2008. He is a Fellow of the IEEE.
He has 13 patents and has written over 200 technical articles. He is actively involved in the area of renewable energy and is working on the next generation of wind generators and storage.
He received the Distinguished Teaching Award by the Institute of Technology at the University of Minnesota. He is a Morse-Alumni Distinguished Teaching Professor and is a member of the Academy of Distinguished Teachers at the University of Minnesota. He received the Outstanding Educator Award from the Power Engineering Society of the IEEE in 2008. He is a Fellow of the IEEE.
Content
Chapter 1 Power Electronics: An Enabling Technology
Chapter 2 Design of Switching Power-Pole
Chapter 3 Switch-Mode DC-DC Converters: Switching Analysis, Topology Selection and Design
Chapter 4 Designing Feedback Controllers in Switch-Mode DC Power Supplies
Chapter 5 Rectification of Utility Input Using Diode Rectifiers
Chapter 6 Power-Factor-Correction (PFC) Circuits and Designing the Feedback Controller
Chapter 7 Magnetic Circuit Concepts
Chapter 8 Switch-Mode DC Power Supplies
Chapter 9 Design of High-Frequency Inductors and Transformers
Chapter 10 Soft-Switching In DC-DC Converters and Inverters for Induction Heating and Compact Fluorescent Lamps
Chapter 11 Applications of Switch-Mode Power Electronics in Motor Drives, Uninterruptible Power Supplies and Power Systems
Chapter 12 Synthesis of DC and Low-Frequency Sinusoidal AC Voltages for Motor Drives and UPS
Chapter 13 Thyristor Converters
Chapter 14 Utility Applications of Power Electronics
Chapter 2 Design of Switching Power-Pole
Chapter 3 Switch-Mode DC-DC Converters: Switching Analysis, Topology Selection and Design
Chapter 4 Designing Feedback Controllers in Switch-Mode DC Power Supplies
Chapter 5 Rectification of Utility Input Using Diode Rectifiers
Chapter 6 Power-Factor-Correction (PFC) Circuits and Designing the Feedback Controller
Chapter 7 Magnetic Circuit Concepts
Chapter 8 Switch-Mode DC Power Supplies
Chapter 9 Design of High-Frequency Inductors and Transformers
Chapter 10 Soft-Switching In DC-DC Converters and Inverters for Induction Heating and Compact Fluorescent Lamps
Chapter 11 Applications of Switch-Mode Power Electronics in Motor Drives, Uninterruptible Power Supplies and Power Systems
Chapter 12 Synthesis of DC and Low-Frequency Sinusoidal AC Voltages for Motor Drives and UPS
Chapter 13 Thyristor Converters
Chapter 14 Utility Applications of Power Electronics