Discover an advanced reference offering a powerful novel approach to the design and use of reliable and fault-tolerant power electronic systems
In Resilient Power Electronic Systems, a team of accomplished researchers deliver an insightful treatment of the challenges faced by practitioners and researchers working with power electronic converters and attempting to analyze internal and external failure mechanisms. The authors expertly present advanced techniques for reducing noise effects on fault detection and prognosis.
Comprised of thirteen chapters, the authors discuss the concepts of resilience and effective operative life in the context of power electronics. The differences between reliable and efficient systems are discussed, as well as the nature of these differences in complex systems. Finally, the book explores various methods to improve the resilience of power converters.
Resilient Power Electronic Systems is packed with features, including illustrations, practice problems, and PowerPoint presentations. The book also includes: - A thorough introduction to the application of power electronics in various industries, as well as the concept of resilience in a power converter - Comprehensive explorations of resilience against fault tolerance, including fault-tolerant power converters and resilient power converters - Practical discussions of the state-of-the-art in resilient power converters, including examinations of mission-critical applications - In-depth examinations of internal and external fault in power converters with mission-critical applications
Resilient Power Electronic Systems is an indispensable resource for researchers, professionals, and postgraduate students studying power electronics. It’s also an ideal reference for research and development engineers working with the design and development of power electronic converters.
Table of Contents
Preface
Part 1: Resilient Power Electronic Systems
Chapter 1 Resilient Systems
Chapter 2 Mission Critical Power Electronic Systems
Chapter 3 Resilience in Power Electronics
Chapter 4 State of the Art of Resilience
Part 2: Useful Life of the Power Electronic Systems
Chapter 5 Useful Life Modeling
Chapter 6 Internal Faults: Converter Level
Chapter 7 Internal Faults: Element Level
Chapter 8 External Faults
Chapter 9 Malfunctioning: Influence of Noise and Disturbance
Part 3: Health Estimation of the Power Electronic Systems
Chapter 10 Condition Monitoring
Chapter 11 Fault Prognosis
Chapter 12 Fault Diagnosis
Part 4: Methods of Resilience in Power Electronic Systems
Chapter 13 Resilience Against Internal Faults
Chapter 14 Resilience Against External Faults
Chapter 15 Inherently Resilient Power Electronic Converters