Modeling and Experimental Investigation of Resonant Viscosity and Mass Density Sensors Considering their Cross-Sensitivity to Temperature

Martin Heinisch; Erwin Reichel; Isabelle Dufour; Bernhard Jakoby

doi:10.1016/j.proeng.2014.11.391

Modeling and Experimental Investigation of Resonant Viscosity and Mass Density Sensors Considering their Cross-Sensitivity to Temperature

Martin Heinisch, Erwin Reichel, Isabelle Dufour, Bernhard Jakoby

Institute of Microelectronics and Microsensors

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

In this contribution we discuss a generalized, reduced order model for resonant viscosity and mass density sensors which considers also the devices’ cross sensitivities to temperature. The applicability of the model is substantiated by experimental results from measurements obtained with a circular steel tuning fork in various liquids and temperatures. Advantages of this model are its simplicity, its general applicability for resonant mass density and viscosity sensors which furthermore facilitates the comparison of different sensors.

Original language	English
Title of host publication	Procedia Engineering
Publisher	Elsevier
Pages	472-475
Number of pages	4
Volume	87
DOIs	https://doi.org/10.1016/j.proeng.2014.11.391
Publication status	Published - Dec 2014

Publication series

Name	Procedia Engineering

Fields of science

202019 High frequency engineering
202021 Industrial electronics
202036 Sensor systems
203017 Micromechanics
202 Electrical Engineering, Electronics, Information Engineering
202027 Mechatronics
202028 Microelectronics
202037 Signal processing

JKU Focus areas

Mechatronics and Information Processing

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10.1016/j.proeng.2014.11.391

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title = "Modeling and Experimental Investigation of Resonant Viscosity and Mass Density Sensors Considering their Cross-Sensitivity to Temperature",

abstract = "In this contribution we discuss a generalized, reduced order model for resonant viscosity and mass density sensors which considers also the devices{\textquoteright} cross sensitivities to temperature. The applicability of the model is substantiated by experimental results from measurements obtained with a circular steel tuning fork in various liquids and temperatures. Advantages of this model are its simplicity, its general applicability for resonant mass density and viscosity sensors which furthermore facilitates the comparison of different sensors.",

author = "Martin Heinisch and Erwin Reichel and Isabelle Dufour and Bernhard Jakoby",

year = "2014",

month = dec,

doi = "10.1016/j.proeng.2014.11.391",

language = "English",

volume = "87",

series = "Procedia Engineering",

publisher = "Elsevier",

pages = "472--475",

booktitle = "Procedia Engineering",

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Modeling and Experimental Investigation of Resonant Viscosity and Mass Density Sensors Considering their Cross-Sensitivity to Temperature. / Heinisch, Martin; Reichel, Erwin; Dufour, Isabelle et al.
Procedia Engineering. Vol. 87 Elsevier, 2014. p. 472-475 (Procedia Engineering).

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

TY - GEN

T1 - Modeling and Experimental Investigation of Resonant Viscosity and Mass Density Sensors Considering their Cross-Sensitivity to Temperature

AU - Heinisch, Martin

AU - Reichel, Erwin

AU - Dufour, Isabelle

AU - Jakoby, Bernhard

PY - 2014/12

Y1 - 2014/12

N2 - In this contribution we discuss a generalized, reduced order model for resonant viscosity and mass density sensors which considers also the devices’ cross sensitivities to temperature. The applicability of the model is substantiated by experimental results from measurements obtained with a circular steel tuning fork in various liquids and temperatures. Advantages of this model are its simplicity, its general applicability for resonant mass density and viscosity sensors which furthermore facilitates the comparison of different sensors.

AB - In this contribution we discuss a generalized, reduced order model for resonant viscosity and mass density sensors which considers also the devices’ cross sensitivities to temperature. The applicability of the model is substantiated by experimental results from measurements obtained with a circular steel tuning fork in various liquids and temperatures. Advantages of this model are its simplicity, its general applicability for resonant mass density and viscosity sensors which furthermore facilitates the comparison of different sensors.

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U2 - 10.1016/j.proeng.2014.11.391

DO - 10.1016/j.proeng.2014.11.391

M3 - Conference proceedings

VL - 87

T3 - Procedia Engineering

SP - 472

EP - 475

BT - Procedia Engineering

PB - Elsevier

ER -

Modeling and Experimental Investigation of Resonant Viscosity and Mass Density Sensors Considering their Cross-Sensitivity to Temperature

Abstract

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