Variable coupler fiberoptic sensor and sensing apparatus using the sensor
First Claim
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1. Fiberoptic sensing apparatus, comprising:
- a fiberoptic coupler in which a plurality of optical fibers are joined through a fused coupling region, said optical fibers including at least one input optical fiber and a plurality of output optical fibers, said fiberoptic coupler distributing light incident to said input optical fiber among said plurality of output optical fibers;
said coupler being supported in a configuration such that at least a portion of said coupling region is curved, disposed substantially in a plane, and can be deflected transversely to said plane to change the light distribution among said output fibers with said coupling region being under substantially no tension.
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Abstract
A variable coupler fiberoptic sensor utilizes a coupler having a fused coupling region that can be deflected to change the light distribution to a plurality of output fibers without putting the coupling region under tension. A compact, rugged, and highly sensitive sensor design is achieved by use of a coupler having a fused coupling region arranged substantially in a U-shape to allow the input and output fiberoptic leads to extend from the same side of the sensor structure.
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Citations
16 Claims
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1. Fiberoptic sensing apparatus, comprising:
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a fiberoptic coupler in which a plurality of optical fibers are joined through a fused coupling region, said optical fibers including at least one input optical fiber and a plurality of output optical fibers, said fiberoptic coupler distributing light incident to said input optical fiber among said plurality of output optical fibers;
said coupler being supported in a configuration such that at least a portion of said coupling region is curved, disposed substantially in a plane, and can be deflected transversely to said plane to change the light distribution among said output fibers with said coupling region being under substantially no tension. - View Dependent Claims (2, 3, 4)
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5. Fiberoptic sensing apparatus, comprising:
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a fiberoptic coupler in which a plurality of optical fibers are joined through a fused coupling region, said optical fibers including at least one input optical fiber and a plurality of output optical fibers, said fiberoptic coupler distributing light incident to said input optical fiber among said plurality of output optical fibers;
said coupler being supported in a configuration such that said fused coupling region has substantially a U-shape of which at least a portion can be deflected to change the light distribution among said output optical fibers; and
wherein said coupling region lies substantially in a plane and said portion of said coupling region can be deflected transversely to said plane to change the light distribution among said output optical fibers. - View Dependent Claims (6, 7, 8)
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9. Fiberoptic sensing apparatus, comprising:
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a fiberoptic coupler in which a plurality of optical fibers are joined through a fused coupling region, said optical fibers including at least one input optical fiber and a plurality of output optical fibers, said fiberoptic coupler distributing light incident to said input optical fiber among said plurality of output optical fibers;
said coupler being supported in a configuration such that at least a portion of said coupling region is curved and can be deflected to change the light distribution among said output fibers with said coupling region being under substantially no tension; and
a fluid column cooperative with a deflection member disposed to deflect said portion of said coupling region. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
a transducer coupled to said fluid column, said transducer converting pressure fluctuations from an external source into pressure changes in said fluid column, causing said deflection member to deflect said portion of said coupling region.
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11. The apparatus of claim 10, wherein said transducer is disposed at a first end of said fluid column, and said deflection member being disposed at a second end of said fluid column.
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12. The apparatus of claim 9, wherein said fluid column is a liquid column.
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13. The apparatus of claim 9, further comprising:
a device optically coupled to said output optical fibers to detect the change of light distribution.
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14. The apparatus of claim 13, further comprising:
a display connected to an output of said device.
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15. The apparatus of claim 9, wherein said portion of said coupling region lies substantially in a plane and can be deflected transversely to said plane by said deflection member.
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16. The apparatus of claim 15, wherein said portion of said coupling region is substantially U-shaped.
Specification
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Current AssigneeEmpirical Technologies Corporation
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Original AssigneeEmpirical Technologies Corporation
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InventorsGerdt, David, Adkins, Charles, Baruch, Martin C.
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Primary Examiner(s)Kang, Juliana K.
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Application NumberUS10/247,738Publication NumberTime in Patent Office830 DaysField of Search385/12, 385/13, 385/31, 385/32, 385/39, 385/43, 385/46, 385/95, 385/96, 600/403, 600/500, 600/509, 600/536US Class Current385/12CPC Class CodesA61B 5/021 Measuring pressure in heart...
