A Double Membrane Sensor for Liquid Viscosity Facilitating Measurements in a Large Frequency Range

Martin Heinisch; Erwin Reichel; Thomas Voglhuber-Brunnmaier; Bernhard Jakoby

A Double Membrane Sensor for Liquid Viscosity Facilitating Measurements in a Large Frequency Range

Martin Heinisch
, Erwin Reichel
, Thomas Voglhuber-Brunnmaier
, Bernhard Jakoby

Institute of Microelectronics and Microsensors

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

Abstract

In this contribution a resonating sensor for viscosity and mass density facilitating measurements at different fre- quencies is presented. A sample liquid is subjected to time harmonic shear stress induced by two opposed vibrating polymer membranes. These membranes, placed in an external static magnetic field, carry two conductive paths each. The first path is used to actuate the membranes by means of Lorentz forces while the second acts as a pick-up coil providing an induced voltage representing the movement of the membrane. From the resulting frequency response the liquid’s viscosity and mass density can be obtained. This double membrane based setup allows to examine the test liquid at adjustable frequencies in the low kilohertz range from 500 Hz to 20 kHz. This novel sensor design is suitable, e.g., for low cost handheld devices with inline capabilities and disposable sensor elements.

Original language	English
Title of host publication	Eurosensors XXIV Proceedings
Number of pages	4
Publication status	Published - 2010

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

Cite this

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title = "A Double Membrane Sensor for Liquid Viscosity Facilitating Measurements in a Large Frequency Range",

abstract = "In this contribution a resonating sensor for viscosity and mass density facilitating measurements at different fre- quencies is presented. A sample liquid is subjected to time harmonic shear stress induced by two opposed vibrating polymer membranes. These membranes, placed in an external static magnetic field, carry two conductive paths each. The first path is used to actuate the membranes by means of Lorentz forces while the second acts as a pick-up coil providing an induced voltage representing the movement of the membrane. From the resulting frequency response the liquid{\textquoteright}s viscosity and mass density can be obtained. This double membrane based setup allows to examine the test liquid at adjustable frequencies in the low kilohertz range from 500 Hz to 20 kHz. This novel sensor design is suitable, e.g., for low cost handheld devices with inline capabilities and disposable sensor elements.",

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year = "2010",

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T1 - A Double Membrane Sensor for Liquid Viscosity Facilitating Measurements in a Large Frequency Range

AU - Heinisch, Martin

AU - Reichel, Erwin

AU - Voglhuber-Brunnmaier, Thomas

AU - Jakoby, Bernhard

PY - 2010

Y1 - 2010

N2 - In this contribution a resonating sensor for viscosity and mass density facilitating measurements at different fre- quencies is presented. A sample liquid is subjected to time harmonic shear stress induced by two opposed vibrating polymer membranes. These membranes, placed in an external static magnetic field, carry two conductive paths each. The first path is used to actuate the membranes by means of Lorentz forces while the second acts as a pick-up coil providing an induced voltage representing the movement of the membrane. From the resulting frequency response the liquid’s viscosity and mass density can be obtained. This double membrane based setup allows to examine the test liquid at adjustable frequencies in the low kilohertz range from 500 Hz to 20 kHz. This novel sensor design is suitable, e.g., for low cost handheld devices with inline capabilities and disposable sensor elements.

AB - In this contribution a resonating sensor for viscosity and mass density facilitating measurements at different fre- quencies is presented. A sample liquid is subjected to time harmonic shear stress induced by two opposed vibrating polymer membranes. These membranes, placed in an external static magnetic field, carry two conductive paths each. The first path is used to actuate the membranes by means of Lorentz forces while the second acts as a pick-up coil providing an induced voltage representing the movement of the membrane. From the resulting frequency response the liquid’s viscosity and mass density can be obtained. This double membrane based setup allows to examine the test liquid at adjustable frequencies in the low kilohertz range from 500 Hz to 20 kHz. This novel sensor design is suitable, e.g., for low cost handheld devices with inline capabilities and disposable sensor elements.

M3 - Conference proceedings

BT - Eurosensors XXIV Proceedings

ER -