Universal readout system for temperature, elongation and hydrostatic pressure sensors based on highly birefringent fibers

Author

Bock, W.J. ; Nawrocka, M.S. ; Urbanczyk, W.

Author_Institution

Dept. d´´informatique et d´´ingenierie, Univ. du Quebec en Outauais, Gatineau, Que., Canada

Volume

53

Issue

1

fYear

2004

Firstpage

170

Lastpage

174

Abstract

In this paper, we present a universal readout system, which can be used to decode polarimetric fiber-optic sensors based on highly birefringent fibers. All such sensors use the same sensing principle, relying upon the dependence of modal birefringence on different physical parameters. To register the measurand-induced phase changes between polarization modes, we use the coherence-addressing principle. This requires that the interrogated sensor be powered by a broadband source (superluminescent diode) and that the total optical path delay introduced by the sensor be balanced in the decoding interferometer. The system performance in decoding elongation, temperature and hydrostatic pressure sensing is demonstrated.

Keywords

birefringence; demodulation; fibre optic sensors; light interferometers; light interferometry; polarimetry; pressure sensors; strain sensors; temperature sensors; broadband source; coherence addressing principle; decoding interferometer; decoding system; elongation sensors; fiber-optic sensor; highly birefringent fibers; hydrostatic pressure sensors; interferometric sensors; measurand-induced phase changes; modal birefringence; polarimetric sensors; polarization modes; temperature sensors; total optical path delay; universal readout system; Birefringence; Decoding; Optical fiber polarization; Optical fiber sensors; Optical interferometry; Optical sensors; Phase measurement; Sensor systems; Superluminescent diodes; Temperature sensors;

fLanguage

English

Journal_Title

Instrumentation and Measurement, IEEE Transactions on

Publisher

ieee

ISSN

0018-9456

Type

jour

DOI

10.1109/TIM.2003.822193

Filename

1259541