Three-parameter optical fiber sensor and system
First Claim
1. A measuring system, comprising:
- a length of an optical fiber transmission medium having first and second ends, said medium consisting of a single optical fiber,a sensor attached to said first end of said medium, said sensor including a quantity of substantially optically transparent elastomeric material having a convexly shaped surface extending away from said first medium end and characterized by changing its curvature in response to being compressed by force directed against it, and a flexible layer of optically reflecting material attached to at least a portion of said convex surface in a position that is in optical communication with said medium through its said one end, wherein the reflective material is generally circular in shape and positioned substantially symmetically about a longitudinal axis of said single optical fiber in a manner to occupy only a portion of the field of view of said fiber through its said second end, and wherein a quantity of material characterized by changing a detectable optical characteristic in response to a changing parameter other than displacement, force or pressure is positioned as part of said sensor in another non-overlapping portion of said fiber field of view,means provided at said second end of said medium for transmitting optical radiation along the length of said medium against said reflective layer, whereby at least some of said optical radiation is reflected by said layer back along said medium to its said second end, andmeans provided at said second end of said medium for detecting a level of said reflected radiation, thereby measuring a displacement of said reflective layer, whereby the force or pressure applied to said sensor may be determined.
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Accused Products
Abstract
A single sensor is provided as part of a fiberoptic probe to measure up to three parameters, namely pressure (or force or displacement), temperature, and heat flow or fluid velocity. A solid elastomeric optical element is formed at the end of optical fiber transmission medium, and adjacent light reflective and temperature dependent materials are formed on the resulting convex surface of the optical element. The amount of light reflected is proportional to the force or pressure against the element. The temperature dependent material is preferably a luminescent material. Over the luminescent material is formed a layer of material that is absorptive of infrared radiation, thereby allowing a determination of characteristics of heat or fluid flow by measuring the rate at which heat is carried away from the infrared heated layer. The sensor can be formed at the end of a single optical fiber, thereby having extensive applications where a very small sensor is required. One such application is a medical or clinical one, where the sensor is mounted in a catheter for providing pressure, flow and temperature of the blood in a blood vessel.
717 Citations
44 Claims
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1. A measuring system, comprising:
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a length of an optical fiber transmission medium having first and second ends, said medium consisting of a single optical fiber, a sensor attached to said first end of said medium, said sensor including a quantity of substantially optically transparent elastomeric material having a convexly shaped surface extending away from said first medium end and characterized by changing its curvature in response to being compressed by force directed against it, and a flexible layer of optically reflecting material attached to at least a portion of said convex surface in a position that is in optical communication with said medium through its said one end, wherein the reflective material is generally circular in shape and positioned substantially symmetically about a longitudinal axis of said single optical fiber in a manner to occupy only a portion of the field of view of said fiber through its said second end, and wherein a quantity of material characterized by changing a detectable optical characteristic in response to a changing parameter other than displacement, force or pressure is positioned as part of said sensor in another non-overlapping portion of said fiber field of view, means provided at said second end of said medium for transmitting optical radiation along the length of said medium against said reflective layer, whereby at least some of said optical radiation is reflected by said layer back along said medium to its said second end, and means provided at said second end of said medium for detecting a level of said reflected radiation, thereby measuring a displacement of said reflective layer, whereby the force or pressure applied to said sensor may be determined. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A measuring system, comprising:
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a length of an optical fiber transmission medium having first and second ends, a sensor carried by said first end of said medium, said sensor including a quantity of substantially optically transparent elastomeric material having a non-planar surface extending away from said first medium end and characterized by changing its curvature in response to being compressed by force directed against it and a flexible layer of optically reflective material attached to said non-planar surface in a position that occupies only a portion of the field of view of said medium through its said first end, a quantity of material characterized by changing a detectable optical characteristic in response to a changing parameter other than displacement, force or pressure positioned as part of said sensor in another non-overlapping portion of said field of view, means provided at said second end of said medium for transmitting optical radiation along the length of said medium against said reflective layer, whereby at least some of said optical radiation is reflected by said layer back along said medium to its said second end, means provided at said second end of said medium for detecting a level of said reflected radiation, thereby measuring a displacement of said reflective layer, whereby the force or pressure applied to said sensor may be determined, and means provided at said second end of said medium for detecting said optical characteristic simultaneously with detecting said displacement. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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14. A measuring system, comprising:
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a length of an optical fiber transmission medium having first and second ends, a sensor carried by said first end of said medium, said sensor including a quantity of substantially optically transparent elastomeric material having a non-planar surface extending away from said first medium end and characterized by changing its curvature in response to being compressed by force directed against it, and a flexible layer of optically reflecting material attached to at least a portion of said non-planar surface in a position that is in optical communication with said medium through its said first end, said sensor reflective material including luminescent material characterized by emitting temperature proportional radiation in a first wavelength range when excited by radiation in a second substantially non-overlapping wavelength range, means provided at said second end of said medium for transmitting optical radiation within a third wavelength range along the length of said medium against said reflective layer, whereby at least some of said optical radiation is reflected by said layer back along said medium to its said second end, said third wavelength range substantially non-overlapping said first and second wavelength ranges, means provided at said second end of said medium for transmitting along said medium to said sensor radiation within said second wavelength range but not said first wavelength range, thereby causing temperature dependent radiation within said first wavelength range to be transmitted back to said second end from said luminescent material, means provided at said second end of said medium for detecting a level of said reflected radiation in the third wavelength range, thereby measuring a displacement of said reflective layer, whereby the displacement of the reflecting layer or the force or pressure applied to said sensor may be determined, and means provided at said second end of said medium for detecting a level of said luminescent material emitted radiation in the first wavelength range, whereby temperature may be measured by said sensor simultaneously with a measurement of force or pressure. - View Dependent Claims (15, 16, 17, 18)
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19. A system for optically measuring at least first and second parameters, comprising:
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a length of an optical fiber transmission medium having first and second ends, a sensor carried by said first end of said medium, said sensor including; a quantity of a solid, substantially optically transparent elastomeric material having a convex surface extending away from said first medium end and characterized by changing its curvature in response to being compressed an amount proportional to force directed against it, a flexible layer of optical radiation reflective material attached to a first portion of said convex surface that is in optical communication with said medium through its said first end, whereby the shape of said layer provides an indication of said first parameter, thereby leaving a second portion of said convex surface in optical communication with said medium through its said first end surrounding said reflective material, and means positioned on at least some of said second convex surface portion for providing an optical indication of said second parameter, means provided at said second end of said medium for transmitting optical radiation along the length of said medium to said reflective layer, whereby an amount of said optical radiation proportional to said first parameter is reflected by said layer back along said medium to its said second end, means provided at said second end of said medium for detecting a level of said reflected radiation, thereby providing an optical signal proportional to said first parameter, and means provided at said second end of said medium for optically communicating with said second parameter optical indication means in a manner to provide an optical signal proportional to said second parameter. - View Dependent Claims (20, 21, 22)
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23. A sensor carried by an end of at least one optical fiber, said sensor comprising:
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a quantity of substantially optically transparent elastomeric material having a non-planar surface extending away from said one medium end and characterized by changing its curvature in response to being compressed by force directed against it, and a flexible layer of optical radiation reflective material attached to at least a portion of said non-planar surface in a position that is in optical communication with said medium through its said one end, whereby an optically detectable shape of the reflective material changes as a force is applied to said sensor, wherein the reflective material layer includes a solid area positioned to occupy only a portion of the field of view of said optical fiber through its said end, and wherein a quantity of material characterized by exhibiting a detectable optical change as a function of temperature is positioned as part of said sensor in another non-overlapping portion of said field of view. - View Dependent Claims (24, 25)
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26. A three parameter sensor carried by an end of a single optical fiber having a central longitudinal axis, said sensor comprising:
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a substantially transparent elastomeric optical element attached to said fiber end and having a convex shaped surface extending away from said fiber end but being in optical communication therewith, a continuous flexible layer of optical radiation reflective material attached to a portion of said surface, whereby an optically detectable shape of the reflective material changes as a force is applied to compress said elastomeric element, thereby to sense a first parameter, a layer of material characterized by exhibiting a detectable optical change as a function of temperature attached to at least a portion of said surface adjacent said reflective material, thereby to sense a second parameter, and a layer of infrared radiation absorbing material positioned over at least said temperature detecting material layer and in thermal contact therewith, thereby allowing determination of a third parameter.
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27. A measuring system, comprising:
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a length of an optical fiber transmission medium having first and second ends, said medium consisting of a single optical fiber, a sensor attached to said first end of said medium, said sensor including a quantity of substantially optically transparent elastomeric material having a convexly shaped surface extending away from said first medium end and characterized by changing its curvature in response to being compressed by force directed against it, and a flexible layer of optically reflecting material attached to at least a portion of said convex surface in a position that is in optical communication with said medium through its said one end, said optically reflective material including luminescent material characterized by changing at least one detectable optical characteristic in proportion to its temperature means provided at said second end of said medium for transmitting optical radiation along the length of said medium against said reflective layer, whereby at least some of said optical radiation is reflected by said layer back along said medium to its said second end, and means provided at said second end of said medium for detecting a level of said reflected radiation, thereby measuring a displacement of said reflective layer, whereby the force or pressure applied to said sensor may be determined.
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28. A sensor, comprising:
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a length of a single optical fiber, a solid quantity of substantially optically transparent elastomeric material attached to one end of said optical fiber length and having a convex surface extending away from said one fiber end and characterized by changing its curvature in response to being compressed by force directed against it, and a flexible layer of optical radiation reflective material attached to at least a portion of said convex surface in a position that is in optical communication with said optical fiber through its said one end, whereby an optically detectable shape of the reflective material changes as a force is applied to said sensor, said optically reflective material including luminescent material characterized by changing at least one detectable optical characteristic in proportion to its temperature. - View Dependent Claims (29)
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30. A multi-parameter sensor, comprising:
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a length of a single optical fiber having first and second ends, a flexible layer of optical radiation reflective material, a resilient element holding said reflective layer in optical communication with the first fiber end in a manner that said reflective layer is normally in a curved shape while allowing the reflective layer to flatten an amount proportional to the amount of force applied to the resilient element, thereby to affect the degree of optical coupling between the reflective layer and said fiber, whereby a determination of a first parameter related to the amount of such force may be made from the amount of light reflected from the reflective layer to the second fiber end, and a quantity of material characterized by exhibiting a detectable optical change as a function of temperature positioned in optical communication with said fiber through said first end, thereby allowing a determination from the second fiber end of sensor temperature as a second parameter. - View Dependent Claims (31, 32, 33)
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34. A multi-parameter measuring system, comprising:
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a length of an optical fiber transmission medium having first and second ends, a multi-parameter sensor attached to said medium first end, said sensor including; resilient means carrying a layer of flexible optically reflecting material for controlling the degree of curvature thereof in response to an external force being applied to the sensor, thereby to cause a degree of optical coupling between the reflecting layer and said medium to be controlled as an indication of a first parameter, and a quantity of luminescent material positioned in optical communication with said medium, said luminescent material being characterized by emitting, when excited by optical radiation in a first wavelength range, optical radiation in a second wavelength range that has a detectable characteristic that is dependent upon temperature of the luminescent material, said first and second optical wavelength ranges being substantially non-overlapping, means provided at said second medium end for transmitting optical radiation within a third wavelength range along the length of said medium against said reflective layer, whereby an amount of said optical radiation proportional to the curvature of the reflective layer is reflected back along said medium to its said second end, said third optical wavelength range being substantially non-overlapping with said first and second wavelength ranges, means provided at said second medium end for measuring a level of said reflected radiation, thereby measuring a quantity proportional to the curvature of said reflective layer, whereby said first parameter may be determined, means provided at said second medium end for transmitting optical radiation within said first wavelength range along the length of said medium against said luminescent material, whereby optical radiation within the second wavelength range is emitted back along said medium to its said second end, and means provided at said second medium end for measuring the temperature dependent detectable characteristic of said second wavelength range emitted radiation, whereby the temperature of the sensor may be determined as a second parameter. - View Dependent Claims (35, 36, 37, 38, 39)
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40. A system for measuring displacement, force or pressure, comprising:
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a length of an optical fiber transmission medium having first and second ends, a sensor attached to said medium first end, said sensor including resilient means carrying a layer of flexible optically reflecting material for controlling the degree of curvature thereof in response to an amount of displacement that results from an external force being applied to the sensor, thereby to cause a degree of optical coupling between the reflecting layer and said medium to be dependent upon the amount of such displacement, said sensor additionally including a means responsive to interrogating optical radiation for providing an optical signal proportional to temperature, and wherein the system additionally comprises means provided at said second medium end for detecting said temperature proportional optical signal and providing a measure of the temperature of the sensor, means provided at said second medium end for transmitting optical radiation along the length of said medium against said reflective layer, whereby an amount of said optical radiation proportional to the amount of displacement of the reflective layer is reflected back along said medium to its said second end, means provided at said second medium end for measuring a level of said reflected radiation, thereby measuring a quantity proportional to the amount of displacement of said reflective layer, and means responsive to the level of reflected radiation for determining any of the displacement of the reflective layer or force pressure applied to said sensor. - View Dependent Claims (41, 42)
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43. A method of measuring at least temperature and pressure within a human body, comprising the steps of:
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implanting within said body a sensor and a length of optical fiber to which the sensor is attached at one end, said sensor including; resilient means carrying a layer of flexible optically reflecting material for controlling the degree of curvature thereof in response to external pressure, thereby to cause a degree of optical coupling between the reflecting layer and said fiber to be dependent upon the amount of such pressure, and a quantity of luminescent material positioned in optical communication with said medium, said luminescent material being characterized by emitting, when excited by optical radiation in a first wavelength range, optical radiation in a second wavelength range that has a detectable characteristic that is dependent upon temperature of the material, said first and second optical wavelength ranges being substantially non-overlapping, directing along the optical from outside of the body optical radiation within a third wavelength range that is substantially non-overlapping with said first and second wavelength ranges, wherein at least a portion of said third wavelength range radiation is reflected back along the optical fiber from the reflecting material layer of the sensor, directing along the optical fiber from outside of the body optical radiation within said first wavelength range, wherein optical radiation in the second wavelength range is emitted back along the optical fiber, and detecting the optical radiation within the second and third wavelength ranges, thereby to determine quantities that are proportional to the temperature and pressure, respectively, within the body at the location of the sensor. - View Dependent Claims (44)
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Specification