Patents by Inventor Terry Lee Cooke
Terry Lee Cooke has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Publication number: 20240111111Abstract: A fiber optic cable assembly includes a fiber optic cable carrying a plurality of optical fibers and a plurality of distribution housings attached to the fiber optic cable at spaced locations along a length of the fiber optic cable. A subset of the plurality of optical fibers carried by the fiber optic cable is terminated at each of the plurality of distribution housings. Each of the plurality of distribution housings includes at least one port interface attached to the respective distribution housing for accessing the subset of optical fibers terminated at the respective distribution housing. The distribution housings are in-line with the cable and have a low-profile for ease of installation. A method of using and making such a fiber optic cable assembly is also disclosed.Type: ApplicationFiled: September 11, 2023Publication date: April 4, 2024Inventors: Terry Lee Cooke, Lars Kristian Nielsen
-
Publication number: 20240061190Abstract: A fiber optic cable includes an outer jacket, a plurality of optical fibers within the outer jacket, and a pull grip at an end of the fiber optic cable for pulling the cable through a pathway during installation of the cable. The pulling of the fiber optic cable through the pathway causes a tensile load to be imposed on the fiber optic cable. To accommodate the tensile load, the fiber optic cable further includes a load distribution member coupled to the pull grip and to the plurality of optical fibers. The load distribution member distributes the tensile load on the fiber optic cable over the plurality of optical fibers such that the plurality of optical fibers collectively provides the tensile strength to support the tensile load during routing of the fiber optic cable through the pathway. In this way, strength members may be omitted from the design of the cable and more optical fibers may fit within existing pathways. A method of making and a method of using such a fiber optic cable is also disclosed.Type: ApplicationFiled: July 26, 2023Publication date: February 22, 2024Inventors: Terry Lee Cooke, Michael Todd Faulkner, Lars Kristian Nielsen, Francisco Luna Pina
-
Publication number: 20230393351Abstract: An interconnect system is provided that involves pre-installing a connector housing an optical connector in an adapter and a ferrule of the same optical connector on a cable. The ferrule terminates one or more groups of optical fibers, and a ferrule push component is also pre-installed on the same group(s) of optical fibers. The connector housing is configured to receive and retain the ferrule and ferrule push component without being removed from the adapter to simultaneously form the optical connector and install the optical connector in the adapter. Embodiments such an interconnect system involving high fiber-count cables and related installation methods involving many optical connections are disclosed.Type: ApplicationFiled: August 24, 2023Publication date: December 7, 2023Inventors: Darrell Childers, Mitchell Cloud, Craig Conrad, Terry Lee Cooke, Jason Higley, Sherrh Clint Reinhardt
-
Publication number: 20230358985Abstract: Fiber optic equipment that supports independently translatable fiber optic modules and/or fiber optic equipment trays containing one or more fiber optic modules is disclosed. In some embodiments, one or more fiber optic modules are disposed in a plurality of independently translatable fiber optic equipment trays which are received in a tray guide system. In this manner, each fiber optic equipment tray is independently translatable within the guide system. One or more fiber optic modules may also be disposed in one or more module guides disposed in the fiber optic equipment trays to allow each fiber optic module to translate independently of other fiber optic modules in the same fiber optic equipment tray. In other embodiments, a plurality of fiber optic modules are disposed in a module guide system disposed in the fiber optic equipment that translate independently of other fiber optic modules disposed within the module guide system.Type: ApplicationFiled: July 19, 2023Publication date: November 9, 2023Inventors: Terry Lee Cooke, David Lee Dean, JR., Juan Miguel Gonzalez Covarrubias, Elmer Mariano Juarez, Tory Allen Klavuhn, Manuel Alejandro Lopez Sanchez, Juan Garcia Martinez
-
Patent number: 11774684Abstract: An interconnect system is provided that involves pre-installing a connector housing an optical connector in an adapter and a ferrule of the same optical connector on a cable. The ferrule terminates one or more groups of optical fibers, and a ferrule push component is also pre-installed on the same group(s) of optical fibers. The connector housing is configured to receive and retain the ferrule and ferrule push component without being removed from the adapter to simultaneously form the optical connector and install the optical connector in the adapter. Embodiments such an interconnect system involving high fiber-count cables and related installation methods involving many optical connections are disclosed.Type: GrantFiled: August 30, 2022Date of Patent: October 3, 2023Assignees: CORNING RESEARCH & DEVELOPMENT CORPORATION, US CONEC LTD.Inventors: Darrell Childers, Mitchell Cloud, Craig Conrad, Terry Lee Cooke, Jason Higley, Sherrh Clint Reinhardt
-
Patent number: 11774697Abstract: A fiber optic cable assembly comprises: a cable jacket; distinct groups of optical fibers carried within the cable jacket and extending beyond a first end of the cable jacket; a furcation body positioned on the first end of the cable jacket such that the distinct groups of optical fibers have respective fiber end sections extending beyond the furcation body; and a pulling grip assembly protecting the fiber end sections. The pulling grip assembly includes a pulling band releasably secured to the cable jacket by a clamp, and is configured to withstand significant tensile loads despite being easily removable.Type: GrantFiled: November 8, 2021Date of Patent: October 3, 2023Assignee: Corning Research & Development CorporationInventors: Terry Lee Cooke, Sherrh Clint Reinhardt
-
Patent number: 11754796Abstract: Fiber optic equipment that supports independently translatable fiber optic modules and/or fiber optic equipment trays containing one or more fiber optic modules is disclosed. In some embodiments, one or more fiber optic modules are disposed in a plurality of independently translatable fiber optic equipment trays which are received in a tray guide system. In this manner, each fiber optic equipment tray is independently translatable within the guide system. One or more fiber optic modules may also be disposed in one or more module guides disposed in the fiber optic equipment trays to allow each fiber optic module to translate independently of other fiber optic modules in the same fiber optic equipment tray. In other embodiments, a plurality of fiber optic modules are disposed in a module guide system disposed in the fiber optic equipment that translate independently of other fiber optic modules disposed within the module guide system.Type: GrantFiled: October 12, 2021Date of Patent: September 12, 2023Assignee: Corning Optical Communications LLCInventors: Terry Lee Cooke, David Lee Dean, Jr., Juan Miguel Gonzalez Covarrubias, Elmer Mariano Juarez, Tory Allen Klavuhn, Manuel Alejandro Lopez Sanchez, Juan Garcia Martinez
-
Publication number: 20230282391Abstract: Disclosed herein is a system and method of measuring for manufacture and deployment of distribution cable assemblies. The measurement includes a distribution cable ruler having at least one similar feature as a distribution cable of a distribution cable assembly. The at least one similar feature comprising at least one of an outer diameter, a bend radius, or a rigidity. The distribution cable ruler includes measurement indicia to facilitate measurement of a distribution length of the distribution cable of the distribution cable assembly. The method includes positioning a distribution cable ruler in a path intended for a distribution cable assembly. The method further includes measuring a distribution cable length of the distribution cable ruler using measurement indicia of the distribution cable ruler.Type: ApplicationFiled: May 15, 2023Publication date: September 7, 2023Inventors: Terry Lee Cooke, Michael Todd Faulkner, Lars Kristian Nielsen
-
Publication number: 20230204890Abstract: High-connection density and bandwidth fiber optic apparatuses and related equipment and methods are disclosed. In certain embodiments, fiber optic apparatuses are provided and comprise a chassis defining one or more U space fiber optic equipment units. At least one of the one or more U space fiber optic equipment units may be configured to support particular fiber optic connection densities and bandwidths in a given 1-U space. The fiber optic connection densities and bandwidths may be supported by one or more fiber optic components, including but not limited to fiber optic adapters and fiber optic connectors, including but not limited to simplex, duplex, and other multi-fiber fiber optic components. The fiber optic components may also be disposed in fiber optic modules, fiber optic patch panels, or other types of fiber optic equipment.Type: ApplicationFiled: February 20, 2023Publication date: June 29, 2023Inventors: Terry Lee Cooke, David Lee Dean, JR., Harley Joseph Staber, Kevin Lee Strause, Alan William Ugolini
-
Patent number: 11609396Abstract: High-connection density and bandwidth fiber optic apparatuses and related equipment and methods are disclosed. In certain embodiments, fiber optic apparatuses are provided and comprise a chassis defining one or more U space fiber optic equipment units. At least one of the one or more U space fiber optic equipment units may be configured to support particular fiber optic connection densities and bandwidths in a given 1-U space. The fiber optic connection densities and bandwidths may be supported by one or more fiber optic components, including but not limited to fiber optic adapters and fiber optic connectors, including but not limited to simplex, duplex, and other multi-fiber fiber optic components. The fiber optic components may also be disposed in fiber optic modules, fiber optic patch panels, or other types of fiber optic equipment.Type: GrantFiled: August 2, 2021Date of Patent: March 21, 2023Assignee: Corning Optical Communications LLCInventors: Terry Lee Cooke, David Lee Dean, Jr., Harley Joseph Staber, Kevin Lee Strause, Alan William Ugolini
-
Publication number: 20230003949Abstract: An interconnect system is provided that involves pre-installing a connector housing an optical connector in an adapter and a ferrule of the same optical connector on a cable. The ferrule terminates one or more groups of optical fibers, and a ferrule push component is also pre-installed on the same group(s) of optical fibers. The connector housing is configured to receive and retain the ferrule and ferrule push component without being removed from the adapter to simultaneously form the optical connector and install the optical connector in the adapter. Embodiments such an interconnect system involving high fiber-count cables and related installation methods involving many optical connections are disclosed.Type: ApplicationFiled: August 30, 2022Publication date: January 5, 2023Inventors: Darrell Childers, Mitchell Cloud, Craig Conrad, Terry Lee Cooke, Jason Higley, Sherth Clint Reinhardt
-
Publication number: 20220404574Abstract: Disclosed herein are preconnectorized cable assemblies and methods of making by cable segmentation. One method includes making cable assemblies by adding jacket segments around a cable bundle including a plurality of cable units having at least one optical fiber, and then attaching the plurality of jacket segments together. Another method includes making cable assemblies by inserting jacket segments between base jacket portions. The method includes circumferentially cutting a ring cut in a base jacket surrounding a cable bundle having a plurality of subunit cables with at least one optical fiber. An insert jacket segment is then positioned around the cable bundle and inserted within an access window in the base jacket. The insert jacket segment is joined along a longitudinal slit and ends of the insert jacket segment are attached to the base jacket. A subunit cable of the cable bundle extends through the first side opening.Type: ApplicationFiled: August 23, 2022Publication date: December 22, 2022Inventors: Terry Lee Cooke, Michael Todd Faulkner, Lars Kristian Nielsen
-
Publication number: 20220357542Abstract: Disclosed herein are preconnectorized cable assemblies and methods of making using a pull string. One embodiment of the disclosure relates to a method of manufacturing a distribution cable assembly using a pull string fed through a jacket of a distribution cable. Subunit cables are attached to the pull string through openings in the jacket of the distribution cable, and then pulled, via the pull string, through the jacket until drawn through a distribution end opening of the jacket. Another embodiment relates to a distribution cable assembly including junction shells covering side openings in the jacket. The junction shell includes a first half shell attached to a second half shell by a fastener. The first half shell includes stops proximate ends of a side opening to fix the junction shell along an axis of the jacket.Type: ApplicationFiled: July 25, 2022Publication date: November 10, 2022Inventors: Terry Lee Cooke, Michael Todd Faulkner, Christopher Shawn Houser, Lars Kristian Nielsen
-
Patent number: 11474307Abstract: An interconnect system is provided that involves pre-installing a connector housing an optical connector in an adapter and a ferrule of the same optical connector on a cable. The ferrule terminates one or more groups of optical fibers, and a ferrule push component is also pre-installed on the same group(s) of optical fibers. The connector housing is configured to receive and retain the ferrule and ferrule push component without being removed from the adapter to simultaneously form the optical connector and install the optical connector in the adapter. Embodiments such an interconnect system involving high fiber-count cables and related installation methods involving many optical connections are disclosed.Type: GrantFiled: April 12, 2021Date of Patent: October 18, 2022Assignees: Corning Research & Development Corporation, US Conec LTD.Inventors: Darrell Childers, Mitchell Cloud, Craig Conrad, Terry Lee Cooke, Jason Higley, Sherrh Clint Reinhardt
-
Patent number: 11347013Abstract: An interconnect system for a building includes a pre-terminated trunk cable assembly that has different groups of optical fibers carried by subunits and terminated by ferrules. The interconnect system also includes trays for managing interconnections with the ferrules. A plurality of adapters are disposed on each tray and arranged in a direction along a longitudinal axis of the tray. The adapters may be oriented at an angle relative to the longitudinal axis to facilitate routing of the optical fibers. At least one tray mount receiver may also be provided on each tray to cooperate with a tray mount that can secure a select subunit to the tray.Type: GrantFiled: September 15, 2020Date of Patent: May 31, 2022Assignee: Corning Research & Development CorporationInventors: Terry Lee Cooke, Karyne Poissant Prevratil, Sherrh Clint Reinhardt, Diana Rodriguez, Marcus Ray Sullivan
-
Publication number: 20220163747Abstract: A fiber optic cable assembly comprises: a cable jacket; distinct groups of optical fibers carried within the cable jacket and extending beyond a first end of the cable jacket; a furcation body positioned on the first end of the cable jacket such that the distinct groups of optical fibers have respective fiber end sections extending beyond the furcation body; and a pulling grip assembly protecting the fiber end sections. The pulling grip assembly includes a pulling band releasably secured to the cable jacket by a clamp, and is configured to withstand significant tensile loads despite being easily removable.Type: ApplicationFiled: November 8, 2021Publication date: May 26, 2022Inventors: Terry Lee Cooke, Sherrh Clint Reinhardt
-
Patent number: 11294135Abstract: High-connection density and bandwidth fiber optic apparatuses and related equipment and methods are disclosed. In certain embodiments, fiber optic apparatuses are provided and comprise a chassis defining one or more U space fiber optic equipment units. At least one of the one or more U space fiber optic equipment units may be configured to support particular fiber optic connection densities and bandwidths in a given 1-U space. The fiber optic connection densities and bandwidths may be supported by one or more fiber optic components, including but not limited to fiber optic adapters and fiber optic connectors, including but not limited to simplex, duplex, and other multi-fiber fiber optic components. The fiber optic components may also be disposed in fiber optic modules, fiber optic patch panels, or other types of fiber optic equipment.Type: GrantFiled: November 10, 2021Date of Patent: April 5, 2022Assignee: Corning Optical Communications LLCInventors: Terry Lee Cooke, David Lee Dean, Jr., Harley Joseph Staber, Kevin Lee Strause, Alan William Ugolini
-
Patent number: 11294136Abstract: High-connection density and bandwidth fiber optic apparatuses and related equipment and methods are disclosed. In certain embodiments, fiber optic apparatuses are provided and comprise a chassis defining one or more U space fiber optic equipment units. At least one of the one or more U space fiber optic equipment units may be configured to support particular fiber optic connection densities and bandwidths in a given 1-U space. The fiber optic connection densities and bandwidths may be supported by one or more fiber optic components, including but not limited to fiber optic adapters and fiber optic connectors, including but not limited to simplex, duplex, and other multi-fiber fiber optic components. The fiber optic components may also be disposed in fiber optic modules, fiber optic patch panels, or other types of fiber optic equipment.Type: GrantFiled: November 10, 2021Date of Patent: April 5, 2022Assignee: Corning Optical Communications LLCInventors: Terry Lee Cooke, David Lee Dean, Jr., Harley Joseph Staber, Kevin Lee Strause, Alan William Ugolini
-
Publication number: 20220066115Abstract: High-connection density and bandwidth fiber optic apparatuses and related equipment and methods are disclosed. In certain embodiments, fiber optic apparatuses are provided and comprise a chassis defining one or more U space fiber optic equipment units. At least one of the one or more U space fiber optic equipment units may be configured to support particular fiber optic connection densities and bandwidths in a given 1-U space. The fiber optic connection densities and bandwidths may be supported by one or more fiber optic components, including but not limited to fiber optic adapters and fiber optic connectors, including but not limited to simplex, duplex, and other multi-fiber fiber optic components. The fiber optic components may also be disposed in fiber optic modules, fiber optic patch panels, or other types of fiber optic equipment.Type: ApplicationFiled: November 10, 2021Publication date: March 3, 2022Inventors: Terry Lee Cooke, David Lee Dean, JR., Harley Joseph Staber, Kevin Lee Strause, Alan William Ugolini
-
Publication number: 20220066114Abstract: High-connection density and bandwidth fiber optic apparatuses and related equipment and methods are disclosed. In certain embodiments, fiber optic apparatuses are provided and comprise a chassis defining one or more U space fiber optic equipment units. At least one of the one or more U space fiber optic equipment units may be configured to support particular fiber optic connection densities and bandwidths in a given 1-U space. The fiber optic connection densities and bandwidths may be supported by one or more fiber optic components, including but not limited to fiber optic adapters and fiber optic connectors, including but not limited to simplex, duplex, and other multi-fiber fiber optic components. The fiber optic components may also be disposed in fiber optic modules, fiber optic patch panels, or other types of fiber optic equipment.Type: ApplicationFiled: November 10, 2021Publication date: March 3, 2022Inventors: Terry Lee Cooke, David Lee Dean, JR., Harley Joseph Staber, Kevin Lee Strause, Alan William Ugolini