SAW strain sensitivity of selected rayleigh wave crystal cuts

Gudrun Bruckner; Gernot Stampf; Georg Franz; Rene Fachberger; Robert Hauser

doi:10.1109/ULTSYM.2009.5442070

SAW strain sensitivity of selected rayleigh wave crystal cuts

Gudrun Bruckner, Gernot Stampf, Georg Franz, Rene Fachberger, Robert Hauser

Research output: Conference proceeding/Chapter in Book/Report/ › Conference Paper

Abstract

ST-quartz is commonly used for pressure sensor applications. Drawbacks are its frequency limitations and poor coupling coefficient. In particular for medical applications, where the temperature range is limited and the antenna size is critical, good signal coupling and higher frequencies may trump the temperature effects. This work compares experimental data on the sensitivity to mechanical loads of langasite 138.5°, lithiumtantalate 112.2° and ST-quartz. The measurements were performed on a dedicated test stand, using differential delay lines. The impulse responses versus varying mechanical loads were measured. The strain and stress distributions in the SAW elements were calculated from the measured mechanical loads using advanced FEM methods considering anisotropic elasticity. Sensitivity values to stress and strain have been deduced for the investigated substrates.

Original language	Undefined/Unknown
Title of host publication	2009 IEEE International Ultrasonics Symposium
Pages	823-826
Number of pages	4
DOIs	https://doi.org/10.1109/ULTSYM.2009.5442070
Publication status	Published - 2009

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10.1109/ULTSYM.2009.5442070

Cite this

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title = "SAW strain sensitivity of selected rayleigh wave crystal cuts",

abstract = "ST-quartz is commonly used for pressure sensor applications. Drawbacks are its frequency limitations and poor coupling coefficient. In particular for medical applications, where the temperature range is limited and the antenna size is critical, good signal coupling and higher frequencies may trump the temperature effects. This work compares experimental data on the sensitivity to mechanical loads of langasite 138.5°, lithiumtantalate 112.2° and ST-quartz. The measurements were performed on a dedicated test stand, using differential delay lines. The impulse responses versus varying mechanical loads were measured. The strain and stress distributions in the SAW elements were calculated from the measured mechanical loads using advanced FEM methods considering anisotropic elasticity. Sensitivity values to stress and strain have been deduced for the investigated substrates.",

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doi = "10.1109/ULTSYM.2009.5442070",

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T1 - SAW strain sensitivity of selected rayleigh wave crystal cuts

AU - Bruckner, Gudrun

AU - Stampf, Gernot

AU - Franz, Georg

AU - Fachberger, Rene

AU - Hauser, Robert

PY - 2009

Y1 - 2009

N2 - ST-quartz is commonly used for pressure sensor applications. Drawbacks are its frequency limitations and poor coupling coefficient. In particular for medical applications, where the temperature range is limited and the antenna size is critical, good signal coupling and higher frequencies may trump the temperature effects. This work compares experimental data on the sensitivity to mechanical loads of langasite 138.5°, lithiumtantalate 112.2° and ST-quartz. The measurements were performed on a dedicated test stand, using differential delay lines. The impulse responses versus varying mechanical loads were measured. The strain and stress distributions in the SAW elements were calculated from the measured mechanical loads using advanced FEM methods considering anisotropic elasticity. Sensitivity values to stress and strain have been deduced for the investigated substrates.

AB - ST-quartz is commonly used for pressure sensor applications. Drawbacks are its frequency limitations and poor coupling coefficient. In particular for medical applications, where the temperature range is limited and the antenna size is critical, good signal coupling and higher frequencies may trump the temperature effects. This work compares experimental data on the sensitivity to mechanical loads of langasite 138.5°, lithiumtantalate 112.2° and ST-quartz. The measurements were performed on a dedicated test stand, using differential delay lines. The impulse responses versus varying mechanical loads were measured. The strain and stress distributions in the SAW elements were calculated from the measured mechanical loads using advanced FEM methods considering anisotropic elasticity. Sensitivity values to stress and strain have been deduced for the investigated substrates.

U2 - 10.1109/ULTSYM.2009.5442070

DO - 10.1109/ULTSYM.2009.5442070

M3 - Konferenzartikel

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EP - 826

BT - 2009 IEEE International Ultrasonics Symposium

ER -