Sensing Viscosity and Density of Glycerol-Water Mixtures Utilizing a Suspended Plate MEMS Resonator

Samir Cerimovic; Roman Beigelbeck; Hannes Antlinger; Johannes Schalko; Bernhard Jakoby; Franz Keplinger

doi:10.1007/s00542-012-1437-9

Sensing Viscosity and Density of Glycerol-Water Mixtures Utilizing a Suspended Plate MEMS Resonator

Samir Cerimovic, Roman Beigelbeck, Hannes Antlinger, Johannes Schalko, Bernhard Jakoby, Franz Keplinger

Institute of Microelectronics and Microsensors

Research output: Contribution to journal › Article › peer-review

Abstract

A sensor suitable for online monitoring of viscosity and density of glycerol-water mixtures is presented. The device is based on Lorentz force excitation and features an integrated piezoresistive readout. The core sensing element is a rectangular vibrating plate suspended by four beam springs. Two of the plate-carrying springs comprise piezoresistors. With two additional resistors on the silicon rim they form a half Wheatstone-bridge. Through the conductive layer of the beam springs a sinusoidal excitation current is driven. In the field of a permanent magnet, the Lorentz force excites plate vibrations resulting in a bridge unbalance. We recorded both the frequency response of the amplitude and the phase of the bridge output. By evaluating the properties of the resonant system, it is possible to extract the glycerol percentage and, hence, viscosity and the mass density of the mixtures.

Original language	English
Pages (from-to)	1045-1056
Number of pages	12
Journal	Microsystem Technologies
Volume	18
Issue number	7-8
DOIs	https://doi.org/10.1007/s00542-012-1437-9
Publication status	Published - Aug 2012

Fields of science

203017 Micromechanics
202019 High frequency engineering
202028 Microelectronics
202039 Theoretical electrical engineering
202037 Signal processing
202027 Mechatronics
202036 Sensor systems

JKU Focus areas

Mechatronics and Information Processing

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10.1007/s00542-012-1437-9

Cite this

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abstract = "A sensor suitable for online monitoring of viscosity and density of glycerol-water mixtures is presented. The device is based on Lorentz force excitation and features an integrated piezoresistive readout. The core sensing element is a rectangular vibrating plate suspended by four beam springs. Two of the plate-carrying springs comprise piezoresistors. With two additional resistors on the silicon rim they form a half Wheatstone-bridge. Through the conductive layer of the beam springs a sinusoidal excitation current is driven. In the field of a permanent magnet, the Lorentz force excites plate vibrations resulting in a bridge unbalance. We recorded both the frequency response of the amplitude and the phase of the bridge output. By evaluating the properties of the resonant system, it is possible to extract the glycerol percentage and, hence, viscosity and the mass density of the mixtures.",

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AU - Cerimovic, Samir

AU - Beigelbeck, Roman

AU - Antlinger, Hannes

AU - Schalko, Johannes

AU - Jakoby, Bernhard

AU - Keplinger, Franz

PY - 2012/8

Y1 - 2012/8

N2 - A sensor suitable for online monitoring of viscosity and density of glycerol-water mixtures is presented. The device is based on Lorentz force excitation and features an integrated piezoresistive readout. The core sensing element is a rectangular vibrating plate suspended by four beam springs. Two of the plate-carrying springs comprise piezoresistors. With two additional resistors on the silicon rim they form a half Wheatstone-bridge. Through the conductive layer of the beam springs a sinusoidal excitation current is driven. In the field of a permanent magnet, the Lorentz force excites plate vibrations resulting in a bridge unbalance. We recorded both the frequency response of the amplitude and the phase of the bridge output. By evaluating the properties of the resonant system, it is possible to extract the glycerol percentage and, hence, viscosity and the mass density of the mixtures.

AB - A sensor suitable for online monitoring of viscosity and density of glycerol-water mixtures is presented. The device is based on Lorentz force excitation and features an integrated piezoresistive readout. The core sensing element is a rectangular vibrating plate suspended by four beam springs. Two of the plate-carrying springs comprise piezoresistors. With two additional resistors on the silicon rim they form a half Wheatstone-bridge. Through the conductive layer of the beam springs a sinusoidal excitation current is driven. In the field of a permanent magnet, the Lorentz force excites plate vibrations resulting in a bridge unbalance. We recorded both the frequency response of the amplitude and the phase of the bridge output. By evaluating the properties of the resonant system, it is possible to extract the glycerol percentage and, hence, viscosity and the mass density of the mixtures.

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Sensing Viscosity and Density of Glycerol-Water Mixtures Utilizing a Suspended Plate MEMS Resonator

Abstract

Fields of science

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