Oil-free stress impedance pressure sensor for harsh environment

Author

Zribi, Anis ; Iorio, Luana E. ; Lewis, Daniel J.

Author_Institution

Micro & Nano Structures Technol., GE Global Res., Niskayuna, NY

fYear

2005

fDate

Oct. 30 2005-Nov. 3 2005

Abstract

We report on the design, fabrication and demonstration of a pressure sensor using a magnetic material strain gauge. The gauge consists of a soft magnetic thin foil or ribbon patterned in various geometries. It is attached to machined stainless steel diaphragm by means of an adhesive layer. Upon application of pressure to the diaphragm, strain develops in the magnetic gauge leading to a change in its impedance phase and amplitude, which are measured and correlated to pressure. The sensor demonstrated high sensitivity (4 10^-5 degrees/Pa in phase angle and 5.4 10^-5 Ohm/Pa in amplitude) and low hysteresis (0.26% in phase angle, 0.03% in amplitude). Compared to piezoresistive strain gauges, the magnetic gauge provides approximately 5times to 9times improvement in strain gauge factor. In addition to higher performance, the magnetic pressure sensor is an attractive alternative to silicon-micromachined sensors for harsh environment high-pressure sensors

Keywords

magnetic sensors; micromachining; microsensors; piezoresistive devices; pressure sensors; stainless steel; strain gauges; adhesive layers; harsh environment; magnetic material strain gauge; oil-free stress impedance pressure sensor; piezoresistive strain gauge; silicon-micromachined sensor; soft magnetic thin foil; stainless steel diaphragm; Capacitive sensors; Fabrication; Geometry; Impedance; Magnetic field induced strain; Magnetic materials; Magnetic sensors; Soft magnetic materials; Strain measurement; Stress;

fLanguage

English

Publisher

ieee

Conference_Titel

Sensors, 2005 IEEE

Conference_Location

Irvine, CA

Print_ISBN

0-7803-9056-3

Type

conf

DOI

10.1109/ICSENS.2005.1597939

Filename

1597939