Table of contents:
Introduction. Control of Mechatronics systems. Integrated Circuits, Power Electronic, And Power Converters. Direct-Current Miniscale Machines. Induction Mini- and Microscale Machines. Synchronous Mini- and Microscale Machines. Mini- and Microelectromechanical and Mechatronic Systems. Electroactive and Magnetoactive Materials. Induced Strain Actuators. Piezoelectric Active Sensors. Microcontrollers for Sensing, Actuation, and Process Control. Appendix A: MATLAB Essentials. Index
A unique combination of traditional engineering topics and the latest technologies, this book ensures a solid understanding of the engineering underpinnings of integrated technologies and demonstrates the power and versatility of modern electromechanical engineering-mechatronics. With emphasis on modeling, simulation, analysis, design, and implementation of high-performance mini-and microscale electromechanical systems, it develops the rigorous theory, demonstrates the application of theoretical results, and covers emerging software and hardware. The authors use MATLAB to illustrate practical examples and help readers master this powerful, industry-standard software.
Introduction. Control of Mechatronics systems. Integrated Circuits, Power Electronic, And Power Converters. Direct-Current Miniscale Machines. Induction Mini- and Microscale Machines. Synchronous Mini- and Microscale Machines. Mini- and Microelectromechanical and Mechatronic Systems. Electroactive and Magnetoactive Materials. Induced Strain Actuators. Piezoelectric Active Sensors. Microcontrollers for Sensing, Actuation, and Process Control. Appendix A: MATLAB Essentials. Index
A unique combination of traditional engineering topics and the latest technologies, this book ensures a solid understanding of the engineering underpinnings of integrated technologies and demonstrates the power and versatility of modern electromechanical engineering-mechatronics. With emphasis on modeling, simulation, analysis, design, and implementation of high-performance mini-and microscale electromechanical systems, it develops the rigorous theory, demonstrates the application of theoretical results, and covers emerging software and hardware. The authors use MATLAB to illustrate practical examples and help readers master this powerful, industry-standard software.