Title :
A modular RC-active network for vibration damping in piezo-electro-mechanical beams
Author :
Panella, Massimo ; Paschero, Maurizio ; Massimo, Fabio ; Mascioli, Frattale
Author_Institution :
INFO-COM Dept., Univ. of Rome "La Sapienza", Italy
Abstract :
A modular RC-active circuit is proposed in this paper to emulate the behavior of a fourth order transmission line, which is able to perform multimodal control of vibrations in piezo-electro-mechanical systems. The basic idea of this work is to consider the line as the cascade of basic sections and to design an RC-active circuit whose voltage signals emulate actual voltages and currents of the section. The principal advantages of this approach, with respect to the straightforward synthesis of each inductor, are the saving of one amplifier for each section, the opportunity to connect the piezo-electric capacitance to high impedance nodes and the possibility to obtain a scheme very suitable for integration purposes.
Keywords :
RC circuits; active networks; damping; piezoelectric transducers; vibration control; PEM beam vibration damping; fourth order transmission line emulation; high impedance node piezo-electric capacitance connection; modular RC-active network; multimodal vibration control; piezo-electro-mechanical beams; piezoelectric transducers; Capacitance; Circuit synthesis; Control systems; Damping; Distributed parameter circuits; Inductors; Signal design; Signal synthesis; Vibration control; Voltage;
Conference_Titel :
Circuits and Systems, 2005. ISCAS 2005. IEEE International Symposium on
Print_ISBN :
0-7803-8834-8
DOI :
10.1109/ISCAS.2005.1465855
