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Thermal- and Piezo-Tunable Flexural-Mode Resonator With Piezoelectric Actuation and Sensing (CROSBI ID 239813)

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Sviličić, Boris ; Wood, Graham ; Mastropaolo, Enrico ; Cheung, Rebecca Thermal- and Piezo-Tunable Flexural-Mode Resonator With Piezoelectric Actuation and Sensing // Journal of microelectromechanical systems, 26 (2017), 3; 609-615. doi: 10.1109/JMEMS.2017.2680465

Podaci o odgovornosti

Sviličić, Boris ; Wood, Graham ; Mastropaolo, Enrico ; Cheung, Rebecca

engleski

Thermal- and Piezo-Tunable Flexural-Mode Resonator With Piezoelectric Actuation and Sensing

This paper reports on a piezoelectrically actuated and sensed flexural-mode microelectromechanical resonant device with electrothermally and piezoelectrically tunable resonant frequency. The device is designed as a multilayer circular membrane (diaphragm) resonator with a lead–zirconium-titanate piezoelectric actuator and a sensor, as well as platinum electrothermal tuning electrodes placed on the top of a silicon-carbide diaphragm. The design enables active electrothermal frequency tuning independent of the piezoelectric input/output operation of the device. The performance of the fabricated device has been tested using two-port transmission frequency response measurements that are performed at atmospheric conditions. Electrothermal tuning and piezoelectric tuning introduce the unique feature of shifting the resonant frequency downward and upward, respectively. The resonant frequency has been tuned by applying dc voltages in the range 0–5 V. The measurements have shown that an 886 kHz device exhibits a frequency tuning range of about −8400 ppm when tuned electrothermally and a tuning range of about +2400 ppm when tuned piezoelectrically. Simulated results have shown that the wider frequency range for electrothermal tuning is a result of a larger change in induced stress in the diaphragm for a given dc voltage, as well as the fact that the electrothermal tuning mechanism effectively serves to relax the residual tensile stress in the diaphragm.

Microelectromechanical systems (MEMS) ; resonator ; tunable filter ; piezoelectric actuation ; piezoelectric sensing ; electrothermal tuning ; piezoelectric tuning

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Podaci o izdanju

26 (3)

2017.

609-615

objavljeno

1057-7157

10.1109/JMEMS.2017.2680465

Povezanost rada

nije evidentirano

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