Plastic optical fiber sensor for displacement monitoring with dual-wavelength compensation of power fluctuations

The paper describes the use of a dual-wavelength technique for compensating power fluctuations in intensity-based plastic optical fiber sensors for displacement measurements. The sensor consists of a fiber that collects the reflected light from a target and retrieves its distance from the signal att...

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Hauptverfasser:	Casalicchio, M. L., Olivero, M., Perrone, G., Vallan, A.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Adaptive optics Mirrors Monitoring Optical fibers Optical sensors Temperature sensors
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creator	Casalicchio, M. L. Olivero, M. Perrone, G. Vallan, A.
description	The paper describes the use of a dual-wavelength technique for compensating power fluctuations in intensity-based plastic optical fiber sensors for displacement measurements. The sensor consists of a fiber that collects the reflected light from a target and retrieves its distance from the signal attenuation. Besides a measurement signal at 450 nm that travels back and forth the displacement region and is attenuated according to the target position, a compensation signal at 650 nm propagates along the fiber and is back-reflected at the fiber tip by a dichroic filter. The compensation signal undergoes power fluctuations due to environmental stress of the fiber and is therefore used as a reference to correct the measurement signal. A demonstrator, which includes a sensor, the acquisition circuitry and signal processing software, was built and tested in laboratory and proved that the measurement signal is capable of monitoring displacements in the range (0 ÷ 10) mm even at low power, while the reference signal is not influenced by the position of the reflecting target and can therefore be used as reliable reference.
doi_str_mv	10.1109/IMTC.2011.5944187
format	Conference Proceeding
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The compensation signal undergoes power fluctuations due to environmental stress of the fiber and is therefore used as a reference to correct the measurement signal. 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L.</au><au>Olivero, M.</au><au>Perrone, G.</au><au>Vallan, A.</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Plastic optical fiber sensor for displacement monitoring with dual-wavelength compensation of power fluctuations</atitle><btitle>2011 IEEE International Instrumentation and Measurement Technology Conference</btitle><stitle>IMTC</stitle><date>2011-05</date><risdate>2011</risdate><spage>1</spage><epage>5</epage><pages>1-5</pages><issn>1091-5281</issn><isbn>1424479339</isbn><isbn>9781424479337</isbn><eisbn>9781424479344</eisbn><eisbn>1424479355</eisbn><eisbn>1424479347</eisbn><eisbn>9781424479351</eisbn><abstract>The paper describes the use of a dual-wavelength technique for compensating power fluctuations in intensity-based plastic optical fiber sensors for displacement measurements. The sensor consists of a fiber that collects the reflected light from a target and retrieves its distance from the signal attenuation. Besides a measurement signal at 450 nm that travels back and forth the displacement region and is attenuated according to the target position, a compensation signal at 650 nm propagates along the fiber and is back-reflected at the fiber tip by a dichroic filter. The compensation signal undergoes power fluctuations due to environmental stress of the fiber and is therefore used as a reference to correct the measurement signal. A demonstrator, which includes a sensor, the acquisition circuitry and signal processing software, was built and tested in laboratory and proved that the measurement signal is capable of monitoring displacements in the range (0 ÷ 10) mm even at low power, while the reference signal is not influenced by the position of the reflecting target and can therefore be used as reliable reference.</abstract><pub>IEEE</pub><doi>10.1109/IMTC.2011.5944187</doi><tpages>5</tpages></addata></record>
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subjects	Adaptive optics Mirrors Monitoring Optical fibers Optical sensors Temperature sensors
title	Plastic optical fiber sensor for displacement monitoring with dual-wavelength compensation of power fluctuations
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