Piezoelectric Actuators: Vector Control Method Basic, Modeling and Mechatronic Design of Ultrasonic Devices
Auteurs : Giraud Frederic, Giraud-Audine Christophe
Piezoelectric Actuators: Vector Control Method: Base, Modeling and Mechatronic Design of Ultrasonic Devices guides researchers and engineers through the process of implementing the vector control method (VCM) in their systems. The book presents which measurements can be made, how to visualize a variable as a rotating vector, about the angular position of the rotating reference frame, how to calculate the parameters of the controllers, and how to observe key variables. Additionally, the book focuses on the modeling of PE ultrasonic transducers and investigates the energy conversion process in an ultrasonic transducer.
2. Dynamicmodeling of piezoelectric media
3. Modeling in a rotating reference frame
4. Control in the rotating reference frame
5. Applications
6. Practical implementation
Christophe Giraud-Audine received a Mechanical Engineering degree from the Ecole Nationale Supérieure d'Arts et Métiers in 1993, a Master Degree in Electrical Engineering in 1994 and a PhD in Electrical Engineering from the Polytechnical Institute of Toulouse with honours in 1998. He worked for two years at the Electrical Machines and Drive Group at the University of Sheffield until 2001.He is currently associate professor at the Ecole Nationale Supérieure d'Arts et Métiers in Lille where he teaches Electrical Engineering and Mechatronic. He was involved in European projects in collaboration with aeronau
- Presents the fundamentals of the VCM at a basic level for researchers and practitioners who are new to the field
- Simulates several MATLAB and Simulink examples for deeper learning of the subject
- Presents the application to several test cases, with actual measurements obtained on experimental test benches
- Describes practical implementations of the method
Date de parution : 05-2019
Ouvrage de 212 p.
15x22.8 cm
Thèmes de Piezoelectric Actuators: Vector Control Method :
Mots-clés :
bender; calibration; causal modeling; closed-loop control; control in rotating reference frame; controller design; demodulation; direct digital synthesis; elastic vibrations; elasticity; electrostatics; energetic macroscopic representation; equivalent circuit; equivalent mass–spring system; finite beam; finite element model; gain; implementation; Langevin transducer; Langevin transducer control; macroscopic dynamic modeling; microcontroller; mode coupling; mode shapes; multilayer actuator; piezoelectric actuator; resonance; resonance frequency; robustness; rotating reference frame; transfer function; traveling wave; ultrasonic transducer; vector control method; vibration velocity