Pressure wave fiber optic transducer cable
First Claim
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1. A pressure sensor comprising:
- elongate optical fiber means for affording the transmission of light over an extended length,means for supporting said optical fiber means along length and for minimizing the stress applied to said optical fiber means that is not associated with the pressures to be sensed,at least two ridges extending in substantially parallel fashion along the length of said supporting means and said optical fiber is helically wound about said support means in contact with said ridges; and
said at least two ridges are spaced from one another and said optical fiber forms a helical angle with said ridges such that the distance between adjacent contacts of the optical fiber and said ridges satisfies the relationship;
##EQU6## where A=arc length between contacts ##EQU7## Rm =radius of core α
=lay angle;
said ridges introducing a controlled microbending of said optic means at predetermined locations chosen to increase sensor sensitivity therealong upon the application of external pressure waves, so as to introduce modal coupling within the light energy being transmitted through said optical fiber means, which coupling corresponds to the intensity and duration of such pressure waves as are to be sensed, anda protective jacket around and in contact with said optical fiber means, said protective jacket being constructed from a material affording a transmission of pressure therethrough.
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Abstract
A distributed microbending sensor cable is described comprising a core structure having discontinuities or ridges on its surface which ridges extend longitudinally of the core. An optical fiber is wrapped helically about the core in contact with the ridges with the adjacent contact points in one embodiment being a distance apart which is the distortion wave length of the selected optical fiber.
In a modification of the sensor cable the distance Λ between adjacent contact points is varied along the length of the sensor to impart a weighted characteristic to the sensor response.
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Citations
6 Claims
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1. A pressure sensor comprising:
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elongate optical fiber means for affording the transmission of light over an extended length, means for supporting said optical fiber means along length and for minimizing the stress applied to said optical fiber means that is not associated with the pressures to be sensed, at least two ridges extending in substantially parallel fashion along the length of said supporting means and said optical fiber is helically wound about said support means in contact with said ridges; and said at least two ridges are spaced from one another and said optical fiber forms a helical angle with said ridges such that the distance between adjacent contacts of the optical fiber and said ridges satisfies the relationship;
##EQU6## where A=arc length between contacts ##EQU7## Rm =radius of core α
=lay angle;said ridges introducing a controlled microbending of said optic means at predetermined locations chosen to increase sensor sensitivity therealong upon the application of external pressure waves, so as to introduce modal coupling within the light energy being transmitted through said optical fiber means, which coupling corresponds to the intensity and duration of such pressure waves as are to be sensed, and a protective jacket around and in contact with said optical fiber means, said protective jacket being constructed from a material affording a transmission of pressure therethrough. - View Dependent Claims (2, 3)
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4. A pressure sensor comprising:
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an elongated support of substantially circular cross-section;
an optical fiber helically wound about the elongated support;means for introducing a controlled microbending comprising at least two ridges extending in substantially parallel fashion along the surface of said support; and wherein the distance between adjacent contacts of the optical fiber and said ridges satisfies the relationship;
##EQU8## where A=arc length between contacts ##EQU9## Rm =radius of core α
=lay angle; andsaid ridges introducing a controlled microbending of said optic fiber at predetermined locations therealong upon the application of external pressure waves, so as to introduce modal coupling within the light energy being transmitted through said optical fiber which coupling corresponds to the intensity and duration of such pressure waves; and a protective jacket around and in contact with said optical fiber means, said protective jacket being constructed from a material affording a transmission of pressure therethrough. - View Dependent Claims (5, 6)
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Specification
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Current AssigneeSchlumberger Technology Corporation (SLB)
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Original AssigneeSchlumberger Technology Corporation (SLB)
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InventorsWood, Lowell T., Hall, Robert L.
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Primary Examiner(s)Moskowitz, Nelson
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Application NumberUS06/517,129Time in Patent Office694 DaysField of Search367/149, 367/154, 367/178, 367/169, 455/605, 455/612, 455/614, 350/96.15, 350/96.29, 73/406, 73/655, 250/227US Class Current367/169CPC Class CodesG01H 9/004 using fibre optic sensors l...G01L 11/025 using a pressure-sensitive ...
