2020
DOI: 10.1109/tuffc.2020.2968245
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A Unidirectional Transducer Design for Scaling GHz AlN-Based RF Microsystems

Abstract: In this work, we present a novel unidirectional transducer design for frequency scaling aluminum nitride (AlN)-based radio frequency (RF) microsystems. The proposed thickness-field-excited single-phase unidirectional transducers (TFE-SPUDT) adopt 5/16 wavelength electrodes and, thus, enable efficient piezoelectric transduction with better frequency scalability. The design space of the TFE-SPUDT is theoretically explored and validated using the acoustic delay line (ADL) testbeds. The ADL testbeds with a large f… Show more

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Cited by 16 publications
(5 citation statements)
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“…ADLs [69], [79], [80], and also higher-order Lamb wave ADLs in single-layer structures [47], [51]. The feature sizes and the film thickness are also listed.…”
Section: B Complementarily Oriented Bi-layer Acoustic Delay Linesmentioning
confidence: 99%
“…ADLs [69], [79], [80], and also higher-order Lamb wave ADLs in single-layer structures [47], [51]. The feature sizes and the film thickness are also listed.…”
Section: B Complementarily Oriented Bi-layer Acoustic Delay Linesmentioning
confidence: 99%
“…Finally, the loss extraction framework based on unidirectional ADLs is readily extendable to other thin-film structures, such as the emerging high-quality ScAlN/AlN piezoelectric thin films [59]- [64], by using the reported AlN unidirectional ADL designs [65]. Thus, this reported acoustic loss analysis approach could facilitate the future development of thin-film low-loss wideband microsystems in various acoustic platforms.…”
Section: E Discussion and Future Workmentioning
confidence: 99%
“…Recently, extensive characterizations on acoustic wave propagation loss in thin-film LN have shown a material Q limit of 6000, while devices only display Q ranging from 300 to 1000. Such studies leverage a new group of devices, named acoustic delay lines (ADLs) [51], [80]- [82]. ADLs are two-port devices with a pair of piezoelectric transducers on the opposite end of the acoustic waveguide.…”
Section: Enhancing Quality Factors and Reducing Lossmentioning
confidence: 99%
“…One can directly extract acoustic propagation loss [86] with the identical transducer design but different waveguide lengths [87]. Low-loss and wideband ADLs at GHz have been built using S0 in AlN thin films [82], S0 [87], SH0 [88], A1 [89], and higher-order Lamb waves [90] in LN thin-films, and SH-SAW in solidly mounted LN thin-films [91], [92]. The propagation loss reported for GHz acoustic waves in LN is around 0.005 dB/λ and 0.03 dB/λ [90], and S0 shows the lowest loss.…”
Section: Enhancing Quality Factors and Reducing Lossmentioning
confidence: 99%