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8/04/2021

AC Electric Motors Control: Advanced Design Techniques and Applications.pdf

 AC Electric Motors Control: Advanced Design Techniques and Applications


AC Electric Motors Control: Advanced Design Techniques and Applications.pdf


The complexity of AC motor control lies in the multivariable and nonlinear nature of AC machine dynamics. Recent advancements in control theory now make it possible to deal with long-standing problems in AC motors control. This text expertly draws on these developments to apply a wide range of model-based control designmethods to a variety of AC motors.


Contributions from over thirty top researchers explain how modern control design methods can be used to achieve tight speed regulation, optimal energetic efficiency, and operation reliability and safety, by considering online state variable estimation in the absence of mechanical sensors, power factor correction, machine flux optimization, fault detection and isolation, and fault tolerant control.


Describing the complete control approach, both controller and observer designs are demonstrated using advanced nonlinear methods, stability and performance are analysed using powerful techniques, including implementation considerations using digital computing means.



Other key features:


• Covers the main types of AC motors including triphase, multiphase, and doubly fed induction motors, wound rotor, permanent magnet, and interior PM synchronous motors


• Illustrates the usefulness of the advanced control methods via industrial applications including electric vehicles, high speed trains, steel mills, and more


• Includes special focus on sensorless nonlinear observers, adaptive and robust nonlinear controllers, output-feedback controllers, fault detection and isolation algorithms, and fault tolerant controllers



This comprehensive volume provides researchers and designers and R&D engineers with a single-source reference on AC motor system drives in the automotive and transportation industry. It will also appeal to advanced students in automatic control, electrical, power systems, mechanical engineering and robotics, as well as  mechatronic, process, and applied control system engineers.


Content:

Chapter 1 Introduction to AC Motor Control (pages 1–13): Marc Bodson and Fouad Giri

Chapter 2 Control Models for Induction Motors (pages 15–40): Abderrahim El Fadili, Fouad Giri and Abdelmounime El Magri

Chapter 3 Control Models for Synchronous Machines (pages 41–56): Abdelmounime El Magri, Fouad Giri, and Abderrahim El Fadili

Chapter 4 State Observers for Estimation Problems in Induction Motors (pages 57–77): Gildas Besancon and Alexandru Ticlea

Chapter 5 State Observers for Active Disturbance Rejection in Induction Motor Control (pages 78–104): Hebertt Sira Ramirez, Felipe Gonzalez Montanez, John Cortes Romero and Alberto Luviano?Juarez

Chapter 6 Observers Design for Systems with Sampled Measurements, Application to AC Motors (pages 105–122): Vincent Van Assche, Philippe Dorleans, Jean?Francois Massieu and Tarek Ahmed?Ali

Chapter 7 Experimental Evaluation of Observer Design Technique for Synchronous Motor (pages 123–135): Malek Ghanes and Xuefang Lin Shi

Chapter 8 High?Gain Observers in Robust Feedback Control of Induction Motors (pages 137–157): Hassan K. Khalil and Elias G. Strangas

Chapter 9 Adaptive Output Feedback Control of Induction Motors (pages 158–187): Riccardo Marino, Patrizio Tomei, and Cristiano Maria Verrelli

Chapter 10 Nonlinear Control for Speed Regulation of Induction Motor with Optimal Energetic Efficiency (pages 188–206): Abderrahim El Fadili, Abdelmounime El Magri, Hamid Ouadi and Fouad Giri

Chapter 11 Experimental Evaluation of Nonlinear Control Design Techniques for Sensorless Induction Motor (pages 207–232): Jesus De Leon, Alain Glumineau, Dramane Traore and Robert Boisliveau

Chapter 12 Multiphase Induction Motor Control (pages 233–252): Roberto Zanasi and Giovanni Azzone

Chapter 13 Backstepping Controller for DFIM with Bidirectional AC/DC/AC Converter (pages 253–274): Abderrahim El Fadili, Vincent Van Assche, Abdelmounime El Magri and Fouad Giri

Chapter 14 Fault Detection in Induction Motors (pages 275–309): Alessandro Pilloni, Alessandro Pisano, Martin Riera?Guasp, Ruben Puche?Panadero and Manuel Pineda?Sanchez

Chapter 15 Sensorless Speed Control of PMSM (pages 311–340): Dhruv Shah, Gerardo Espinosa–Perez, Romeo Ortega and Michael Hilairet

Chapter 16 Adaptive Output?Feedback Control of Permanent?Magnet Synchronous Motors (pages 341–369): Patrizio Tomei and Cristiano Maria Verrelli

Chapter 17 Robust Fault Detection for a Permanent?Magnet Synchronous Motor Using a Nonlinear Observer (pages 370–380): Maria Letizia Corradini, Gianluca Ippoliti and Giuseppe Orlando

Chapter 18 On Digitization of Variable Structure Control for Permanent Magnet Synchronous Motors (pages 381–397): Yong Feng, Xinghuo Yu and Fengling Han

Chapter 19 Control of Interior Permanent Magnet Synchronous Machines (pages 398–428): Faz Rahman and Rukmi Dutta

Chapter 20 Nonlinear State?Feedback Control of Three?Phase Wound Rotor Synchronous Motors (pages 429–451): Abdelmounime El Magri, Vincent Van Assche, Abderrahim El Fadili, Fatima?Zahra Chaoui and Fouad Giri

Chapter 21 AC Motor Control Applications in Vehicle Traction (pages 453–486): Faz Rahman and Rukmi Dutta

Chapter 22 Induction Motor Control Application in High?Speed Train Electric Drive (pages 487–508): Jaroslaw Guzinski, Zbigniew Krzeminski, Arkadiusz Lewicki, Haitham Abu?Rub and Marc Diguet

Chapter 23 AC Motor Control Applications in High?Power Industrial Drives (pages 509–552): Ajit K.


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