Distributed fiber optic sensors and systems
First Claim
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1. An arrangement for the non-invasive coupling of information sequentially from a plurality of devices to an optical fiber from the side at a plurality of locations, comprising:
- a) an optical fiber having a first end and a second end and including a core and at least one cladding, the fiber being in communication through its first end with a source of interrogating light and operationally connected through its second end to a photodetection station;
b) a plurality of devices, each connected through a photodetector system to the cladding of said fiber at different points along its length, and through fiber bending means to other different points along the fiber, each photodetector system being adapted to trigger, upon receiving an optical signal from light source means, the non-invasive coupling of information in the form of mechanical forces, one at a time from each device, through a fiber bending system, to said fiber;
c) a source of interrogating light launched into the core of said optical fiber at said first end;
d) light source means adapted to send triggering light signals through said fiber to each of said photodetector systems to trigger the non-invasive coupling of information one at a time from each device to other points of the fiber by fiber bending means;
e) fiber bending means coupled to each of said devices and adapted to bend said fiber and thus cause the coupling of at least a fraction of the intensity of said interrogating light from the core of said fiber to its cladding at said other points, thus generating optical signals transmitted along said cladding to said photodetection station;
f) timing means adapted to cause each of said devices to couple their information one at a time to said fiber; and
g) a photodetection station and associated electronics at said second fiber end for detecting and processing said optical signals.
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Abstract
An arrangement for the noninvasive coupling of information from a plurality of devices, including sensors, to an optical fiber at different locations uses a photodetector and a fiber bender attached to each device in such a manner that the sequential transmission of trigger signals to the photodetector of each device causes the sequential coupling of the information to the optical fiber by the fiber bender.
154 Citations
10 Claims
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1. An arrangement for the non-invasive coupling of information sequentially from a plurality of devices to an optical fiber from the side at a plurality of locations, comprising:
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a) an optical fiber having a first end and a second end and including a core and at least one cladding, the fiber being in communication through its first end with a source of interrogating light and operationally connected through its second end to a photodetection station; b) a plurality of devices, each connected through a photodetector system to the cladding of said fiber at different points along its length, and through fiber bending means to other different points along the fiber, each photodetector system being adapted to trigger, upon receiving an optical signal from light source means, the non-invasive coupling of information in the form of mechanical forces, one at a time from each device, through a fiber bending system, to said fiber; c) a source of interrogating light launched into the core of said optical fiber at said first end; d) light source means adapted to send triggering light signals through said fiber to each of said photodetector systems to trigger the non-invasive coupling of information one at a time from each device to other points of the fiber by fiber bending means; e) fiber bending means coupled to each of said devices and adapted to bend said fiber and thus cause the coupling of at least a fraction of the intensity of said interrogating light from the core of said fiber to its cladding at said other points, thus generating optical signals transmitted along said cladding to said photodetection station; f) timing means adapted to cause each of said devices to couple their information one at a time to said fiber; and g) a photodetection station and associated electronics at said second fiber end for detecting and processing said optical signals. - View Dependent Claims (2, 3, 4, 5)
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6. A method for the non-invasive coupling of information sequentially from a plurality of devices to an optical fiber from the side at a plurality of locations, comprising the steps of:
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a) connecting each of said devices to a photodector, timing means and a fiber bending device, said photodetector being so characterized that, when receiving a triggering pulse of light, it causes said device to couple information to the fiber bending device at a time different for each device and predetermined by said timing means; b) attaching the photodetector of each of said devices non-invasively to the side of an optical fiber at a selected location, the fiber having a first end and a second end and including a core and at least one cladding, the fiber being in communication through its first end with a source of interrogating light and operationally connected through its second end to a photodetection station; c) attaching the fiber bending device of each of said devices non-invasively to the side of said optical fiber at another selected location; d) launching interrogating light into the core of said optical fiber at said first end; e) launching triggering light signals through said fiber to each of said photodetector systems to trigger the non-invasive coupling of information in the form of mechanical forces, one at a time from each device to other points of the fiber by fiber bending means, said fiber bending means causing the coupling of at least a fraction of the intensity of said interrogating light from the core of said fiber to its cladding at said other points, thus generating optical signals transmitted along said cladding to said photodetection station; and f) detecting and processing said optical signals at said photodetection station and associated electronics. - View Dependent Claims (7, 8, 9, 10)
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Specification
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Current AssigneeMarcos Y. Kleinerman
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Original AssigneeMarcos Y. Kleinerman
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InventorsKleinerman, Marcos Y.
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Primary Examiner(s)Healy, Brian
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Application NumberUS08/956,857Time in Patent Office761 DaysField of Search385/24, 385/30, 385/31, 385/32, 385/39, 385/48, 385/88, 385/89, 385/12, 385/13, 385/123, 385/126, 385/127, 385/125, 385/147, 385/141, 359/115, 359/124, 359/127, 250/227.11, 250/227.14, 250/227.16, 250/227.18, 250/227.22, 250/227.23, 250/458.1, 250/459.1, 372/6, 356/43, 356/44, 356/73.1, 356/300, 356/301, 356/319, 356/320, 356/432, 356/445US Class Current385/31CPC Class CodesA61B 2017/00084 TemperatureG01D 5/35358 using backscattering to det...G01D 5/35364 using inelastic backscatter...G01D 5/3538 using a particular type of ...G01J 5/0025 Living bodies ear thermomet...G01J 5/08 Optical arrangementsG01J 5/0818 WaveguidesG01J 5/0821 Optical fibresG01J 5/0896 using a light source, e.g. ...G01J 5/52 using comparison with refer...G01J 5/602 using selective, monochroma...
