Study of Thin Film LiNbO3 Laterally Excited Bulk Acoustic Resonators

Study of Thin Film LiNbO3 Laterally Excited Bulk Acoustic Resonators

This work presents an in-depth study of simulation and measurement results of laterally excited shear bulk acoustic resonators (XBAR) in Lithium Niobate, at 5 GHz with high electromechanical coupling factor ( k_{t}^{2} ) as high as 25%, and with impedances at resonance close to 2~\Omega . Loaded Qu...

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Veröffentlicht in:Journal of microelectromechanical systems 2022-04, Vol.31 (2), p.217-225
Hauptverfasser: Yandrapalli, Soumya, Eroglu, Seniz Esra Kucuk, Plessky, Victor, Atakan, H. Baris, Villanueva, Luis Guillermo
Format: Artikel
Sprache:eng
Schlagworte:
5 GHz
5G application
A1 mode
acoustic filters
Aluminum
bulk acoustic resonator (BAW)
Bulk acoustic wave devices
Couplings
Electrodes
electromechanical coupling
Fabrication
k²t
Lamb wave
large bandwidth
Lithium niobate
Lithium niobates
Lithography
Mass production
microfabrication
Resonance
Resonant frequency
Resonators
RF MEMS
shear wave
Thin films
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Beschreibung
Zusammenfassung:This work presents an in-depth study of simulation and measurement results of laterally excited shear bulk acoustic resonators (XBAR) in Lithium Niobate, at 5 GHz with high electromechanical coupling factor ( k_{t}^{2} ) as high as 25%, and with impedances at resonance close to 2~\Omega . Loaded Quality factors of up to 340 and 150 are obtained at resonance and anti-resonance, respectively. Experimental00 dispersion behaviors of main mode and spurious are presented. Several geometric parameters affecting resonator performance are studied in order to improve figure of merits (FoM) of the device for 5G filter applications. The modified fabrication process presented shows a high yield of over 90% of devices which can be scalable for mass production of high frequency, sub-6 GHz, wide band filters. [2021-0202]
ISSN:1057-7157
1941-0158
DOI:10.1109/JMEMS.2022.3143354