Chaos in Electric Drive Systems : Analysis, Control and Application.
Başlık:
Chaos in Electric Drive Systems : Analysis, Control and Application.
Yazar:
Chau, K. T.
ISBN:
9780470826348
Yazar Ek Girişi:
Basım Bilgisi:
1st ed.
Fiziksel Tanımlama:
1 online resource (338 pages)
İçerik:
CHAOS IN ELECTRIC DRIVE SYSTEMS: ANALYSIS, CONTROL AND APPLICATION -- Contents -- Preface -- Organization of this Book -- Acknowledgments -- About the Authors -- Part One: Introduction -- 1 Overview of Chaos -- 1.1 What is Chaos? -- 1.2 Development of Chaology -- 1.3 Chaos in Electrical Engineering -- 1.3.1 Chaos in Electronic Circuits -- 1.3.2 Chaos in Telecommunications -- 1.3.3 Chaos in Power Electronics -- 1.3.4 Chaos in Power Systems -- 1.3.5 Chaos in Electric Drive Systems -- References -- 2 Introduction to Chaos Theory and Electric Drive Systems -- 2.1 Basic Chaos Theory -- 2.1.1 Basic Principles -- 2.1.2 Criteria for Chaos -- 2.1.3 Bifurcations and Routes to Chaos -- 2.1.4 Analysis Methods -- 2.2 Fundamentals of Electric Drive Systems -- 2.2.1 General Considerations -- 2.2.2 DC Drive Systems -- 2.2.3 Induction Drive Systems -- 2.2.4 Synchronous Drive Systems -- 2.2.5 Doubly Salient Drive Systems -- References -- Part Two: Analysis of Chaos in Electric Drive Systems -- 3 Chaos in DC Drive Systems -- 3.1 Voltage-Controlled DC Drive System -- 3.1.1 Modeling -- 3.1.2 Analysis -- 3.1.3 Simulation -- 3.1.4 Experimentation -- 3.2 Current-Controlled DC Drive System -- 3.2.1 Modeling -- 3.2.2 Analysis -- 3.2.3 Simulation -- 3.2.4 Experimentation -- References -- 4 Chaos in AC Drive Systems -- 4.1 Induction Drive Systems -- 4.1.1 Modeling -- 4.1.2 Analysis -- 4.1.3 Simulation -- 4.1.4 Experimentation -- 4.2 Permanent Magnet Synchronous Drive Systems -- 4.2.1 Modeling -- 4.2.2 Analysis -- 4.2.3 Simulation -- 4.2.4 Experimentation -- 4.3 Synchronous Reluctance Drive Systems -- 4.3.1 Modeling -- 4.3.2 Analysis -- 4.3.3 Simulation -- 4.3.4 Experimentation -- References -- 5 Chaos in Switched Reluctance Drive Systems -- 5.1 Voltage-Controlled Switched Reluctance Drive System -- 5.1.1 Modeling -- 5.1.2 Analysis -- 5.1.3 Simulation.
5.1.4 Experimentation -- 5.2 Current-Controlled Switched Reluctance Drive System -- 5.2.1 Modeling -- 5.2.2 Analysis -- 5.2.3 Simulation -- 5.2.4 Phenomena -- References -- Part Three: Control of Chaos in Electric Drive Systems -- 6 Stabilization of Chaos in Electric Drive Systems -- 6.1 Stabilization of Chaos in DC Drive System -- 6.1.1 Modeling -- 6.1.2 Analysis -- 6.1.3 Simulation -- 6.1.4 Experimentation -- 6.2 Stabilization of Chaos in AC Drive System -- 6.2.1 Nonlinear Feedback Control -- 6.2.2 Backstepping Control -- 6.2.3 Dynamic Surface Control -- 6.2.4 Sliding Mode Control -- References -- 7 Stimulation of Chaos in Electric Drive Systems -- 7.1 Control-Oriented Chaoization -- 7.1.1 Time-Delay Feedback Control of PMDC Drive System -- 7.1.2 Time-delay Feedback Control of PM Synchronous Drive System -- 7.1.3 Proportional Time-Delay Control of PMDC Drive System -- 7.1.4 Chaotic Signal Reference Control of PMDC Drive System -- 7.2 Design-Oriented Chaoization -- 7.2.1 Doubly Salient PM Drive System -- 7.2.2 Shaded-Pole Induction Drive System -- References -- Part Four: Application of Chaos in Electric Drive Systems -- 8 Application of Chaos Stabilization -- 8.1 Chaos Stabilization in Automotive Wiper Systems -- 8.1.1 Modeling -- 8.1.2 Analysis -- 8.1.3 Stabilization -- 8.2 Chaos Stabilization in Centrifugal Governor Systems -- 8.2.1 Modeling -- 8.2.2 Analysis -- 8.2.3 Stabilization -- 8.3 Chaos Stabilization in Rate Gyro Systems -- 8.3.1 Modeling -- 8.3.2 Analysis -- 8.3.3 Stabilization -- References -- 9 Application of Chaotic Modulation -- 9.1 Overview of PWM Schemes -- 9.1.1 Voltage-Controlled PWM Schemes -- 9.1.2 Current-Controlled PWM Schemes -- 9.2 Noise and Vibration -- 9.3 Chaotic PWM -- 9.3.1 Chaotic Sinusoidal PWM -- 9.3.2 Chaotic Space Vector PWM -- 9.4 Chaotic PWM Inverter Drive Systems -- 9.4.1 Open-Loop Control Operation.
9.4.2 Closed-Loop Vector Control Operation -- References -- 10 Application of Chaotic Motion -- 10.1 Chaotic Compaction -- 10.1.1 Compactor System -- 10.1.2 Chaotic Compaction Control -- 10.1.3 Compaction Simulation -- 10.1.4 Compaction Experimentation -- 10.2 Chaotic Mixing -- 10.2.1 Mixer System -- 10.2.2 Chaotic Mixing Control -- 10.2.3 Chaotic Mixing Simulation -- 10.2.4 Chaotic Mixing Experimentation -- 10.3 Chaotic Washing -- 10.3.1 Chaotic Clothes-Washer -- 10.3.2 Chaotic Dishwasher -- 10.4 Chaotic HVAC -- 10.5 Chaotic Grinding -- References -- Index.
Özet:
In Chaos in Electric Drive Systems: Analysis, Control and Application authors Chau and Wang systematically introduce an emerging technology of electrical engineering that bridges abstract chaos theory and practical electric drives. The authors consolidate all important information in this interdisciplinary technology, including the fundamental concepts, mathematical modeling, theoretical analysis, computer simulation, and hardware implementation. The book provides comprehensive coverage of chaos in electric drive systems with three main parts: analysis, control and application. Corresponding drive systems range from the simplest to the latest types: DC, induction, synchronous reluctance, switched reluctance, and permanent magnet brushless drives. The first book to comprehensively treat chaos in electric drive systems Reviews chaos in various electrical engineering technologies and drive systems Presents innovative approaches to stabilize and stimulate chaos in typical drives Discusses practical application of chaos stabilization, chaotic modulation and chaotic motion Authored by well-known scientists in the field Lecture materials available from the book's companion website This book is ideal for researchers and graduate students who specialize in electric drives, mechatronics, and electric machinery, as well as those enrolled in classes covering advanced topics in electric drives and control. Engineers and product designers in industrial electronics, consumer electronics, electric appliances and electric vehicles will also find this book helpful in applying these emerging techniques. Lecture materials for instructors available at www.wiley.com/go/chau_chaos.
Notlar:
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2017. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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