Patents Assigned to Corning Cable Systems LLC
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Patent number: 8909012Abstract: A hybrid cable includes a guide in the center of the cable, elements stranded side-by-side with one another around the guide, fiber optic elements including optical fibers, a metal armor, and a polymeric jacket of the cable surrounding the metal armor. The elements stranded side-by-side with one another around the guide include electrical-conductor elements, which themselves include stranded metal wires insulated in a jacket of the electrical-conductor elements. The electrical-conductor elements are round and have the same diameter as one another. Furthermore, the electrical-conductor elements are each within the range of 10 American wire gauge (AWG) to 1\0 AWG. The fiber optic elements may be included in or integrated with the group of elements stranded side-by-side with one another around the guide. The metal armor surrounds the elements stranded side-by-side with one another around the guide, and serves as a grounding conductor and an electro-magnetic interference shield.Type: GrantFiled: March 6, 2013Date of Patent: December 9, 2014Assignee: Corning Cable Systems LLCInventors: James Arthur Register, III, David Henry Smith
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Publication number: 20140348478Abstract: An optical subassembly includes an optical device assembly including an active device and an optical fiber cable operably connected to the active device that sends optical signals to the active device and receives optical signals from the active device. A carrier module has a cable receiving space that receives the optical fiber cable therein. The carrier module includes a device support structure that supports the active device for placement on a mating surface during controlled manufacturing.Type: ApplicationFiled: May 24, 2013Publication date: November 27, 2014Applicant: Corning Cable Systems LLCInventors: Micah Colen Isenhour, Dennis Michael Knecht, Christopher Paul Lewallen, James Phillip Luther, Timothy James Orsley
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Patent number: 8891926Abstract: Methods of reducing and/or avoiding fiber ordering during preparations of a multi-fiber, fiber optic cable to provide a connectorized multi-fiber, fiber optic cable system, and related fiber optic cables and assemblies are also disclosed. The embodiments disclosed herein allow for a section of a multi-fiber, fiber optic cable to be prepared to form two or more connectorized fiber optic cables as part of a multi-fiber cable system without requiring specific fiber ordering in the fiber optic connectors. The natural ordering of the optical fibers in the fiber optic cable is fixed in place in at least one section of the fiber optic cable before the optical fibers are cut to form adjacent fiber optic connectors in the cable system. Thus, the fiber ordering between adjacent fiber optic connectors in the cable system will be the same even though the fiber ordering of the optical fibers was random during cable preparations.Type: GrantFiled: December 19, 2011Date of Patent: November 18, 2014Assignee: Corning Cable Systems LLCInventors: Jeffery A. DeMeritt, Micah C. Isenhour, Dennis M. Knecht, James P. Luther, James S. Sutherland
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Publication number: 20140331779Abstract: A strain-sensing cable is provided. The strain sensing cable includes a jacket, a first optical fiber and a second optical fiber. The first optical fiber is located within the jacket and is configured to experience a strain applied to the cable and the temperature of the cable. The second optical fiber is located within the jacket and is isolated from the strain applied to the cable and is configured to experience temperature of the cable.Type: ApplicationFiled: May 10, 2013Publication date: November 13, 2014Applicant: Corning Cable Systems LLCInventors: William Carl Hurley, David Alan Seddon
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Patent number: 8886000Abstract: A hybrid cable includes a cable jacket and elements stranded within the cable jacket. The elements include greater-capacity electrical-conductor elements and sub-assembly elements. The greater-capacity electrical-conductor elements include a metallic conductor jacketed in a polymer, each within the range of 10 American wire gauge (AWG) to 1\0 AWG. The sub-assembly elements include stranded combinations of sub-elements, where the sub-elements include at least one of polymeric tubes comprising optical fibers and lesser-capacity electrical-conductor elements, each having a lesser current-carrying capacity than 10 AWG. The sub-elements are stranded with respect to one another and additionally stranded as part of sub-assembly elements with respect to other elements.Type: GrantFiled: February 6, 2013Date of Patent: November 11, 2014Assignee: Corning Cable Systems LLCInventors: James Arthur Register, III, David Henry Smith
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Patent number: 8885999Abstract: Methods of controlling the position of an optical fiber having a minimum bend radius within an optical fiber channel in a fiber optic cable having a small footprint are disclosed. The position of the optical fibers is controlled so that the fiber is not bent at a radius below its minimum bend radius.Type: GrantFiled: March 16, 2011Date of Patent: November 11, 2014Assignee: Corning Cable Systems LLCInventors: Reginald Roberts, James A. Register, III
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Patent number: 8879882Abstract: A variably configurable fiber optic terminal as a local convergence point in a fiber optic network is disclosed. The fiber optic terminal has an enclosure having a base and a cover which define an interior space. A feeder cable having at least one optical fiber and a distribution cable having at least one optical fiber are received into the interior space through a feeder cable port and a distribution cable port, respectively. A movable chassis positions in the interior space and is movable between a first position, a second position and third position. The movable chassis has a splitter holder area, a cassette area and a parking area. A cassette movably positions in the cassette area. A splitter module holder having a splitter module movably positioned therein movably positions in the splitter holder area. The optical fiber of the feeder cable and the optical fiber of the distribution cable are optically connected through the cassette, which also may be through the splitter module.Type: GrantFiled: April 26, 2011Date of Patent: November 4, 2014Assignee: Corning Cable Systems LLCInventors: Mark Edward Conner, William Julius McPhil Giraud, Lee Wayne Nored, Gary Bruce Schnick
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Patent number: 8879881Abstract: A rotatable routing guide assembly for fiber optic cables routed in a fiber optic equipment shelf is disclosed. The assembly comprises a guide portion, an attachment feature and a keyed receiver. The guide portion has a bottom, a top, a deformable first wall, a deformable second wall and a third wall forming a plurality of segments, and is configured to receive fiber optic cables of different sizes by different ones of the plurality of segments. The attachment feature removably attaches the guide portion to the shelf. The attachment feature has a first tab forming a first notch with the guide portion, and a second tab forming a second notch with the guide portion. The keyed receiver is located in the shelf and has a lip extending partially around an interior edge. The lip is received in at least one of the first notch and the second notch and friction fit between at least one of the first tab and the second tab and the guide portion.Type: GrantFiled: November 24, 2010Date of Patent: November 4, 2014Assignee: Corning Cable Systems LLCInventors: Monique L. Cote, Gerald J. Davis, Brent M. Frazier, William J. Giraud, Raymond G. Jay, Brian D. Kingsbury
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Publication number: 20140321812Abstract: Embodiments disclosed herein include pre-terminated fiber optic connector sub-assemblies, and related fiber optic connectors, cables, and methods. In certain embodiments, an optical fiber stub is pre-installed in a ferrule bore of a ferrule of a fiber optic connector sub-assembly, to provide the pre-terminated fiber optic connector sub-assembly. The optical fiber stub can be pre-installed in the ferrule bore prior to termination of the fiber optic connector sub-assembly. Because the pre-terminated optical fiber stub disposed in the ferrule bore is not directly accessible through a ferrule body of the ferrule when a field optical fiber is disposed in the ferrule bore for fusion splicing, the ferrule has properties that allow thermal energy to be directed through the ferrule body into the ferrule bore. In this manner, the optical fiber stub pre-installed in the ferrule bore can be fusion spliced with the field optical fiber to terminate a fiber optic cable.Type: ApplicationFiled: April 26, 2013Publication date: October 30, 2014Applicant: Corning Cable Systems LLCInventors: Anthony Sebastian Bauco, Jeffrey Dean Danley, Robert Bruce Elkins, Steven Joseph Gregorski
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Publication number: 20140321811Abstract: Thermal removal of optical fiber coatings by insertion through heated ferrules to form ferrule assemblies for fiber optic connectors, and related assemblies are disclosed. An optical fiber includes a glass fiber, having a cladding and core, surrounded by a protective coating. By removing the coating at an end portion of the optical fiber, the end portion may be precisely positioned and secured within a ferrule to enable reliable optical communications. The coating may be thermally removed, or substantially thermally removed, by inserting the optical fiber through a rear opening of the ferrule which has been heated above a temperature sufficient to change the coating to a non-solid state. In this manner, the coating may be efficiently removed from the end portion of the optical fiber while being inserted into the ferrule bore of the ferrule to enable efficient forming of a ferrule assembly for a fiber optic connector.Type: ApplicationFiled: April 30, 2013Publication date: October 30, 2014Applicant: Corning Cable Systems LLCInventors: Darrin Max Miller, Dennis Craig Morrison, Kipp David Yeakel
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Patent number: 8873926Abstract: Fiber optic enclosures employing clamping assemblies for strain relief cables and related assemblies and methods are disclosed. The fiber optic enclosures may be part of a fiber optic terminal in a fiber optic network. The fiber optic enclosures may include openings in the walls of the fiber optic enclosure. A cable fitting assembly may be attached to a portion of the wall around an opening to form a passageway for fiber optic cables to enter the fiber optic enclosure. An elongated member may be used to guide the fiber optic cables through the passageway. The elongated member may have a first end and second end. The elongated member may include a clamping assembly at the first end to provide strain relief to the fiber optic cables by clamping strength members of the fiber optic cables.Type: GrantFiled: April 26, 2012Date of Patent: October 28, 2014Assignee: Corning Cable Systems LLCInventors: Hubert Blair Beamon, Terry Dean Cox
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Patent number: 8873967Abstract: An optical interconnection module (100) for connecting to a media converter module (20) as part of a hybrid electrical-optical network (10) is disclosed. The optical interconnection module includes a transmitter connector (136T) having transmit ports (POT(i)) and a receiver connector having receive ports (POR(i)). The optical interconnection module also has transmit/receive ports (POF(i)) that are optically connected via a set (F) of fibers (142) to the transmit and receive ports of the transmitter and receiver connectors using one of two port configurations. Hybrid electrical-optical networks that utilize a trunk cable (60) to connect the media converter module to the optical interconnection module are also disclosed.Type: GrantFiled: October 17, 2008Date of Patent: October 28, 2014Assignee: Corning Cable Systems LLCInventors: Ray S. Barnes, Robert W. Dennis, Alan W. Ugolini
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Patent number: 8867919Abstract: A multi-port accumulator apparatus for a radio-over-fiber (RoF) wireless picocellular system comprising a housing supporting a tail cable port and transponder ports. The tail cable port is optically coupled to the RoF transponder ports to provide for transmission of uplink and downlink optical signals between the tail cable port and each of the transponder ports. The tail cable port is also electrically coupled to provide power to each transponder port. The multi-port accumulator supports RoF transponders, one at each of the transponder ports. Each RoF transponder includes a directional antenna system forming a picocellular coverage sub-area, with the combined sub-areas constituting a picocellular coverage area for the multi-port accumulator. The multi-port accumulator permits quick installation and deployment of large numbers of RoF transponders without individually connecting each RoF transponder to downlink and uplink optical fibers in an optical fiber RF communication link.Type: GrantFiled: January 27, 2012Date of Patent: October 21, 2014Assignee: Corning Cable Systems LLCInventor: Eric Raymond Logan
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Patent number: 8861918Abstract: A fiber optic adapter module and tray. The fiber optic adapter module supports fiber optic adapters for fiber optic connections. The fiber optic adapter module may be included on an extendible tray portion of a fiber optic equipment tray and selectively configured to be tilted when extended for providing enhanced access to the fiber optic adapter module. In one embodiment, an adapter module panel of the fiber optic adapter module that supports fiber optic adapters contains at least two forward facing panel surfaces angled to one another to provide more surface area for supporting a higher density of fiber optic adapters and/or for neat routing and organizing of fiber optic connections. One or more fourth flared panel surfaces may also be included on an end(s) of the adapter module panel to provide sufficient interior space for fiber optic connections adjacent or proximate to sides of the fiber optic equipment tray.Type: GrantFiled: July 31, 2008Date of Patent: October 14, 2014Assignee: Corning Cable Systems LLCInventors: Mariano Perez Vazquez, Juan Miguel Gonzalez, Fernando M Esparza, Cesar E. Valdez, Robert W. Dennis, Alan W. Ugolini
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Patent number: 8858090Abstract: Ferrule holders with an integral lead-in tube employed in fiber optic connector assemblies, and related components, connectors, and methods are disclosed. By integrating the integral lead-in tube as part of the ferrule holder, the integral lead-in tube may be less expensive to manufacture and easier to install. The integral lead-in tube may also be less susceptible to inadvertent removal by friction with a bonding agent syringe or by vibration during shipment. The ferrule holder may include a ferrule holder body and integral lead-in tube. The integral lead-in tube may guide an optical fiber from a rear end of a fiber optic connector to an internal passage of the ferrule holder, where the optical fiber may be further guided to a ferrule for precise alignment. The integral lead-in tube may also protect the optical fiber during installation, shipment, and use in the fiber optic connector.Type: GrantFiled: June 5, 2012Date of Patent: October 14, 2014Assignee: Corning Cable Systems LLCInventors: Charles T. Henke, Louis E. Parkman, III
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Patent number: 8855456Abstract: Mounting devices for optical devices, and related sub-assemblies, apparatuses, and methods are disclosed. The mounting devices may be employed to secure optical devices that are configured to convert optical signals to electrical signals, or electrical signals to optical signals. The mounting devices may be configured to secure optical devices to an electronics board, such as a printed circuit board (PCB) as an example. To preserve signal integrity, the mounting devices may also be configured to align the optical devices with electrical lead connections on the electronics board. The mounting devices may also be configured to improve grounding of the optical devices to provide and improve radio frequency (RF) shielding to avoid degradation of signal-to-noise (S/N) ratios from RF interference from electronic devices on the electronics board and other nearby electronic devices.Type: GrantFiled: February 27, 2012Date of Patent: October 7, 2014Assignee: Corning Cable Systems LLCInventors: Hubert Blair Beamon, Terry Dean Cox
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Patent number: 8842962Abstract: A strain relief device for a fiber optic cable is disclosed. The strain relief device has a cable fitting having a cable fitting body, a shoulder washer and a compression cap. The cable fitting is positioned on the fiber optic cable. The shoulder washer is installed on a central tube of the fiber optic cable, under strength members of the fiber optic cable and fitted in the cable fitting body. The compression cap is installed over the central tube with the strength members inserted through the compression cap. The strength members are compressed between the shoulder washer and the compression cap. The compression cap provides compressive force between the cable fitting body, the shoulder washer and the compression cap.Type: GrantFiled: January 15, 2013Date of Patent: September 23, 2014Assignee: Corning Cable Systems LLCInventors: Hubert Blair Beamon, Terry Dean Cox
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Patent number: 8842954Abstract: A hybrid cable assembly includes a hybrid cable, tether tubes, and an overmold. The hybrid cable includes both electrical-conductor and fiber-optic elements. The tethers receive a subset of the elements from the hybrid cable at a transition location in the form of a chamber, and the overmold surrounds the transition location. The overmold is elongate, flexible, and has a low profile configured to pass through narrow ducts.Type: GrantFiled: March 13, 2013Date of Patent: September 23, 2014Assignee: Corning Cable Systems LLCInventors: Donald Andrew Burris, Mark Edward Conner, Tory Allen Klavuhn, Lars Kristian Nielsen
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Patent number: 8840318Abstract: A ferrule for optical waveguides includes an exterior of the ferrule, an interior of the ferrule, and a stress-isolation region between the interior of the ferrule and the exterior of the ferrule. The interior of the ferrule has a bore defined therein that is configured to receive an optical waveguide. The material of the stress-isolation region has an elastic modulus that is less than the elastic modulus of material of the interior and exterior of the ferrule, whereby the stress-isolation region limits communication of stresses therebetween.Type: GrantFiled: March 12, 2013Date of Patent: September 23, 2014Assignee: Corning Cable Systems LLCInventors: Adra Smith Baca, Thomas Dale Ketcham, Robert Michael Morena
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Publication number: 20140270626Abstract: Circuit boards employing optical interfaces optically connected to surface-accessible, planar-shaped inter-board optical fiber traces, and related connectors, assemblies, and methods are disclosed. The circuit boards include inter-board optical fiber traces optically connected to optical components interfacing optical signals to electronic signal components in the circuit board. Providing inter-board optical fiber traces protects the optical fiber traces from the environment. To optically interface to the inter-board optical fiber traces, planar-shaped end portions of the inter-board optical fiber traces are provided surface accessible on the circuit board. In this manner, optical interfaces can be optically connected to planar-shaped, end portions of the inter-board optical fibers traces to establish optical connections.Type: ApplicationFiled: March 14, 2013Publication date: September 18, 2014Applicant: Corning Cable Systems LLCInventors: Micah Colen Isenhour, Dennis Michael Knecht, James Phillip Luther