Compressible layer for fiber optic cable
First Claim
Patent Images
1. A layered fiber optic cable for being placed in a conduit, the fiber optic cable comprising:
- at least one strand of optical fiber forming an axial core of the fiber optic cable;
at least one layer of strengthening material surrounding the at least one strand of optical fiber;
a jacket encompassing the at least one strand of optical fiber and the at least one layer of strengthening material; and
at least one compressible layer of material encompassing the at least one strand of optical fiber, wherein the compressible layer of material is configured to compress the at least one strand of optical fiber in response to an application of force due to freezing of water surrounding the fiber optic cable, such that, for a maximum amount of freezing water capable of forming between the conduit and the layered fiber optic cable, the thickness and the compressible characteristics of the compressible layer of material being selected to cause the compressible layer of material to minimize displacement of the at least one strand of optical fiber in response to the application of force.
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Abstract
A layered fiber optic cable having a compressible layer for protecting the fiber optic core from damaging displacement due to force from the freezing of trapped ambient water. As ambient water within a protective conduit freezes, the water expands, applying a force on the fiber optic cable within the conduit. The compressible layer absorbs the expansion of the freezing water by compressing, therefore minimizing displacement of the fiber optic core and resulting signal degradation.
225 Citations
20 Claims
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1. A layered fiber optic cable for being placed in a conduit, the fiber optic cable comprising:
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at least one strand of optical fiber forming an axial core of the fiber optic cable; at least one layer of strengthening material surrounding the at least one strand of optical fiber; a jacket encompassing the at least one strand of optical fiber and the at least one layer of strengthening material; and at least one compressible layer of material encompassing the at least one strand of optical fiber, wherein the compressible layer of material is configured to compress the at least one strand of optical fiber in response to an application of force due to freezing of water surrounding the fiber optic cable, such that, for a maximum amount of freezing water capable of forming between the conduit and the layered fiber optic cable, the thickness and the compressible characteristics of the compressible layer of material being selected to cause the compressible layer of material to minimize displacement of the at least one strand of optical fiber in response to the application of force. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for forming a layered fiber optic cable configured to be placed in a conduit, the method comprising:
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providing at least one strand of optical fiber such that the at least one strand forms an axial core of the cable; providing at least one layer of strengthening material around the at least one strand of optical fiber; providing at least one compressible layer of material around the at least one strand of optical fiber, wherein the compressible layer of material is configured to compresses the at least one strand of optical fiber in response to an application of force due to freezing of water surrounding the fiber optic cable, such that, for a maximum amount of freezing water capable of forming between the conduit and the layered fiber optic cable, the thickness and the compressible characteristics of the compressible layer of material being selected to cause the compressible layer of material to minimize displacement of the at least one strand of optical fiber in response to the application of force; and providing a jacket around all of the layers of the fiber optic cable. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. A layered fiber optic cable configured to be placed in a conduit, the cable comprising:
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at least one strand of optical fiber forming an axial core of the fiber optic cable; a fiber coating layer surrounding the at least one strand of optical fiber; a plastic overcoat layer surrounding the fiber coating layer; an aramid yarn layer surrounding the plastic overcoat layer; a compressible layer of material surrounding the aramid yarn layer, wherein the compressible layer of material is configured to compress the at least one strand of optical in response to an application of force due to freezing of water surrounding the fiber optic cable, such that, for a maximum amount of freezing water capable of forming between the conduit and the layered fiber optic cable, the thickness and the compressible characteristics of the compressible layer of material being selected to cause the compressible layer of material to minimize displacement of the at least one strand of optical fiber in response to the application of force; and a jacket encompassing all layers of the fiber optic cable. - View Dependent Claims (18, 19, 20)
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Specification