Class / Patent application number | Description | Number of patent applications / Date published |
385086000 | Structure rearward of optical fiber end face to secure additional fiber or cable layers | 32 |
20080226237 | SINGLE BOOT FOR DUPLEX FIBER OPTIC CONNECTORS - An apparatus for holding a first fiber optic connector and a second fiber optic connector includes a housing configured to secure the first fiber optic connector and the second fiber optic connector at a first end and a strain relief boot connected to a second end of the housing. The housing and the strain relief boot are configured to form a passageway to receive a fiber optic cable that is connected to both the first fiber optic connector and the second fiber optic connector. | 09-18-2008 |
20080247711 | Attachment structure allowing movement and protection of a tether of a cable assembly - A cable assembly comprising a fiber optic cable and one or more attachment points to allow one or more tethers to optically connect to optical fibers within the cable. The cable assembly may be used as a drop cable for extending optical connections to a plurality of points. An attachment structure is provided for maintaining the tether to the cable to prevent damage to the tether. The attachment structure provides a loose attachment to allow the tether to move relative to the distribution cable, so the tether can move in a generally translational movement, is able to slightly twist, and to have limited lateral movement during coiling, installation, and removal of the cable assembly. This loose attachment structure may prevent damage to the tether due to forces being placed on the cable, such as during coiling or uncoiling of the cable. In one exemplary embodiment, the attachment structure is attached to the cable and receives the tether. In another exemplary embodiment, the attachment structure include a protective covering. In another embodiment, both are employed in combination. | 10-09-2008 |
20080253719 | FIELD TERMINATABLE FIBER OPTIC CONNECTOR ASSEMBLY - A fiber optic connector assembly includes a connector and a carrier. The connector, defining a longitudinal bore extending through the connector and having a first end region and a second end region, includes a ferrule assembly, having an optical fiber extending through the connector, at least partially disposed in the longitudinal bore at the first end region, a tube, defining a passage and having a first end portion disposed in the longitudinal bore at the second end region and a second end region, and a spring disposed in the bore between the ferrule assembly and the tube. The carrier includes a cable end and a connector end engaged with the connector, a termination region disposed between the connector end and the cable end, a fiber support region disposed between the connector end and the termination region, and a take-up region disposed between the connector end and the fiber support region. | 10-16-2008 |
20090196555 | FLEXIBLY BENDED BOOT FOR OPTICAL FIBER CONNECTOR - A boot for an optical fiber connector according to the present invention is provided. The boot includes a hollow cylindrical body and a protrusion portion integrally formed on the hollow cylindrical body. In addition, a member with the property of plasticity is axially embedded in the protrusion portion so that the boot has the property of plasticity. | 08-06-2009 |
20100247041 | Retrofittable Bend Strain Relief With A Latching Ring - A bend limiting system (strain relief ( | 09-30-2010 |
20110200286 | Ruggedized Fiber Optic/Electrical Connection System - A fiber optic and electrical connection system includes a fiber optic cable, a ruggedized fiber optic connector, a ruggedized fiber optic adapter, and a fiber optic enclosure. The cable includes one or more electrically conducting strength members. The connector, the adapter, and the enclosure each have one or more electrical conductors. The cable is terminated by the connector with the conductors of the connector in electrical communication with the strength members. The conductors of the connector electrically contact the conductors of the adapter when the connector and the adapter are mechanically connected. And, the conductors of the adapter electrically contact the conductors of the enclosure when the adapter is mounted on the enclosure. | 08-18-2011 |
20130094816 | FLEXIBLY BENDED BOOT FOR OPTICAL FIBER CONNECTOR - A boot for an optical fiber connector according to the present invention is provided. The boot includes a hollow cylindrical body defining an axial direction, a protrusion portion formed on the cylindrical body, and a member with the property of plasticity disposed in the protrusion portion, wherein the member has at least one protrusion formed thereon The at least one protrusion sticks in the protrusion portion formed on the cylindrical body. | 04-18-2013 |
20140023327 | RUGGEDIZED FIBER OPTIC/ELECTRICAL CONNECTION SYSTEM - A fiber optic and electrical connection system includes a fiber optic cable, a ruggedized fiber optic connector, a ruggedized fiber optic adapter, and a fiber optic enclosure. The cable includes one or more electrically conducting strength members. The connector, the adapter, and the enclosure each have one or more electrical conductors. The cable is terminated by the connector with the conductors of the connector in electrical communication with the strength members. The conductors of the connector electrically contact the conductors of the adapter when the connector and the adapter are mechanically connected. And, the conductors of the adapter electrically contact the conductors of the enclosure when the adapter is mounted on the enclosure. | 01-23-2014 |
20140140664 | OPTICAL FIBER / ELECTRICAL COMPOSITE CABLE ASSEMBLY WITH SEALED BREAKOUT KIT - A cable breakout kit has a cable portion, an inner wall portion and a furcation portion with at least one fiber port. The cable portion and the furcation portion are dimensioned to couple with one another, enclosing a furcation area. The inner wall portion is coupled to the furcation portion and a fiber bundle of the cable, enclosing a fiber area within the furcation area; the fiber area is coupled to the at least one fiber port. An assembly including a cable with a fiber and an electrical conductor utilizes a transition housing to pass the fiber and conductor to respective furcation tubes, isolated from one another. | 05-22-2014 |
20150036982 | TAPER STRAIN RELIEF BOOT FOR FERRULE FLEX CONNECTORS - A fiber optic connector including a connector body including a distal end and a proximal end. The distal end forming a plug end of the connector body and an optical fiber routed through the connector body. The optical fiber having an end face accessible at the plug end of the connector body and a strain relief boot that mounts at the proximal end of the connector body. The strain relief boot defines a longitudinal axis that extends through the strain relief boot between distal and proximal ends of the strain relief boot. The strain relief boot includes an interior surface that defines a fiber passage through which the optical fiber is routed; the fiber passage extends along the longitudinal axis of the boot. The strain relief boot includes an exterior surface that defines a tapered exterior shape that tapers inwardly toward the longitudinal axis as the tapered exterior shape extends in a proximal direction along the longitudinal axis. The interior surface of the strain relief boot defines a flared interior shape co-extensive along the longitudinal axis with at least a portion of the tapered exterior shape. The flared interior shape of the fiber passage flaring outwardly from the longitudinal axis as the flared interior shape extends in the proximal direction along the longitudinal axis. | 02-05-2015 |
20150063761 | TEST SYSTEM FOR CHECKING A SPLICE CONNECTION BETWEEN A FIBER OPTIC CONNECTOR AND ONE OR MORE OPTICAL FIBERS - A test system for checking a splice connection between a fiber optic connector and one or more optical fibers includes a body, an adapter movable relative to the body between a first position and second position, and an optical power delivery system. The adapter has a first connector receiving area configured to interface with a first type of fiber optic connector and a second connector receiving area configured to interface with a second type of fiber optic connector. The optical power delivery system is configured to deliver light energy to the first connector receiving area when the adapter is in the first position and the second connector receiving area when the adapter is in the second position. Related methods and installation tools incorporating such test systems are also disclosed. | 03-05-2015 |
20150117822 | OPTICAL FIBER CONNECTOR - An optical connector for terminating an optical fiber comprises a housing configured to mate with a receptacle and a collar body disposed in the housing. The collar body includes a ferrule securely disposed in an opening of the collar body, the ferrule including a housing portion to receive a gripping device to grip an optical fiber. A backbone retains the collar body within the housing and includes a fiber jacket clamping portion to clamp a jacket portion of the optical fiber. A boot is attachable to a portion of the backbone, wherein the boot actuates the fiber jacket clamping portion of the backbone upon attachment of the boot to the backbone. | 04-30-2015 |
20150338584 | FIBER OPTICAL CABLE ASSEMBLY WITH SEALED COUPLING MECHANISM - A sealing enclosure for a connector on a terminated end of a cable includes an inner housing and an outer housing. In a first embodiment, the inner housing is permanently affixed and sealed to a section of the cable adjacent to the connector. The outer housing slides over the inner housing and has attachment features at a forward end of the outer housing for attaching to an enclosure surrounding a port for the connector. In a second embodiment, the outer housing has a sealing member attached to an inner circumference thereof, wherein when the outer housing is slid forward along the inner housing, the sealing member engages an outer surface of the inner housing to seal the outer housing to the inner housing. | 11-26-2015 |
20150380861 | WEATHERIZED CONNECTOR BOOT AND CONNECTOR COVER THEREFORE - A weather resistant connector system includes a connector housing having a first open end, a second open end and a first interior space defined within. A boot has a first open end, a second open end and a second interior space defined within. The second open end of the boot is attached to the first open end of the connector housing. At least one engagement element is formed on the connector housing for engaging with a complimentary structure proximate a port. In one aspect, the boot is flexible and bi-stable, having a first at-rest shape and a second at-rest shape, with the first at-rest shape having the first open end of the connector housing located closer to the first open end of the boot, as compared to the second at-rest shape. In another aspect, the boot is flexible and has a first at-rest shape and the boot can be moved to a second, unstable shape, when a manual force is applied thereto. In a third aspect, a cable enters the first open end of the boot and the boot may be slid toward and away from the port along the cable. | 12-31-2015 |
20160041354 | OPTICAL FIBER CABLE - An optical communication cable is provided. The optical communication cable includes an outer cable layer and a plurality of optical fiber bundles surrounded by the outer cable layer. Each optical fiber bundle includes a bundle jacket surrounding a plurality of optical fiber subunits located within the bundle passage. The plurality of optical subunits are wrapped around each other within the bundle passage forming a wrapped pattern. Each optical fiber subunit includes a subunit jacket surrounding a elongate optical fiber located within the subunit passage. The cable jacket, bundle jacket and subunit jacket may be fire resistant, and strength strands of differing lengths may be located in the bundles and the subunits. | 02-11-2016 |
20160116686 | SECURE SC OPTICAL FIBER CONNECTOR AND REMOVAL TOOLS - An optical fiber connector plug having an anti-snag guide to prevent the plug from being caught on corners and edges when an attached cable is being pulled around corners and edges during installation and removal of the optical fiber connector plug. The optical fiber connector plug includes a unique arrangement of different width apertures corresponding to a removal tool having corresponding different width prongs to be received by the apertures to release the optical fiber connector plug from a coupling adapter. | 04-28-2016 |
385087000 | Having at least one layer compressively fixed (e.g., crimp, tightening screws, etc.) | 16 |
20090052845 | Fixing Structure of Optical Cable - A fixing structure of an optical cable, comprising a tubular crimping ring ( | 02-26-2009 |
20090297102 | FIBER OPTIC CABLE FOR CONNECTORIZATION AND METHOD - A fiber optic cable assembly includes a fiber optic cable and a connector assembly. The fiber optic cable includes an optical fiber, having a core surrounded by a cladding, and a jacket, which surrounds the optical fiber. The jacket includes a plurality of reinforcement members integrated into a matrix material of the jacket. The connector assembly includes a rear housing having a connector end that is directly engaged with an end portion of the jacket. A fiber optic cable includes an optical fiber with a core surrounded by a cladding. The fiber optic cable also includes a jacket that surrounds the optical fiber. The jacket includes about 40% to about 70% by weight of a plurality of reinforcement members integrated into a matrix material of the jacket. | 12-03-2009 |
20090310919 | OPTICAL CONNECTOR STOP RING, OPTICAL FIBER CORD WITH OPTICAL CONNECTOR USING THE SAME AND METHOD FOR MANUFACTURING OPTICAL FIBER CORD WITH OPTICAL CONNECTOR - To provide an optical fiber cord with an optical connector of higher flexibility resistance, and the method for manufacturing the same are disclosed. An optical fiber cord with an optical connector, wherein said fiber cord, wherein said the optical connector comprising a stop ring having a through hole formed therein, though which said optical fiber is disposed; a crimping ring being disposed around said optical fiber to crimp said stop ring and said optical fiber cord; a ferrule being disposed at the tip end part of said optical fiber in said optical fiber cord; a spring being disposed around said optical fiber and between said ferrule and said stop ring; a plug frame being engaged with said stop ring; a grip being engaged with said plug frame; wherein said through hole of said stop ring having a stepwisely narrowing part in which a hole diameter is gradually reduced from said crimping part side to said ferrule side. | 12-17-2009 |
20100158450 | Optical connector having an internal clearance at a part to be connected to an optical fiber - In an optical connector including a base housing, a cover housing, and a clamp fixing the cover housing to the base housing, the base housing is provided with a groove for positioning and holding an optical fiber of an optical cable, a first recessed portion continuously formed from the groove, and a second recessed portion continuously formed from the first recessed portion. The first and the second recessed portions have bottom portions different in level from each other to have a stepped portion formed therebetween. The cover housing has a first coating portion for covering the groove and a second coating portion for covering the first and the second recessed portions. The bottom portion of the second recessed portion and the second coating portion presses a coating member of the optical cable to clamp the optical cable. | 06-24-2010 |
20100215323 | METHOD OF ASSEMBLING AN OPTICAL CONNECTOR AND AN OPTICAL CONNECTOR - An optical connector and a method of assembling an optical connector that is capable of avoiding generation of unnecessary tension in the optical fiber cable in which plain fiber portions are optically connected to each other using a splice assembly. The optical connector comprises a connector housing having splice means configured to abut a stripped and cleaved end surface of a plain fiber of an optical fiber cable onto an end of a fiber stub predisposed in the splice means to form an optical connection; and a cable fixing assembly, that includes a cable fixing member and a cable holder, for fixing an outer covering of the optical fiber cable introduced into said connector housing. The cable fixing member, which includes an opposing piece for slidably engaging with a guide section formed on the wall of an end cap of the connector housing, is pressed in from the direction perpendicular to the axis of the optical fiber cable and is mounted on the wall of the end cap. A step section is formed on the sliding surface of the opposing piece to be in sliding contact with the sliding surface of the guide section, for moving the cable fixing member together with the optical fiber cable so as to reduce a distance between the splice means and the cable holder. | 08-26-2010 |
20110013871 | Cable Attachment System for a Fiber Optic Connector - A cable attachment system is disclosed for attaching a fiber optic connector to a fiber optic cable. In particular, strength members of the fiber optic cable are crimped between a crimp sleeve and a cable anchor, and the cable anchor is anchored to the fiber optic connector. An end of the crimp sleeve is adapted to receive an end of a jacket of the fiber optic cable. An end of the cable anchor includes a nipple adapted for insertion into the end of the jacket. An end portion of the jacket is crimped between an intermediate portion of the crimp sleeve and the nipple of the cable anchor. A support portion of the crimp sleeve, positioned between the end and the intermediate portion of crimp sleeve, supports a transitioning portion of the jacket beyond the end of the cable anchor. | 01-20-2011 |
20120328249 | FIBER OPTIC CABLE ASSEMBLIES HAVING A CRIMP BAND DISPOSED ABOUT A CUSHIONING MEMBER ALONG WITH METHODS FOR MAKING THE SAME - The disclosure is directed to cable assemblies having at least one fiber optic connector and methods for making the same. In particular, fiber optic cable assemblies having a crimp band disposed about a cushioning member on a fiber optic cable along with methods for making the same are disclosed. The cable assemblies including the cushioning member are advantageous since they provide a load distribution of the crimp band about the fiber optic cable which may preserve optical performance and/or enable the use of fiber optic cables having smaller diameters. Additionally, the fiber optic cables of the cable assemblies may be sub-units of a larger cable. | 12-27-2012 |
20130272661 | FIBER OPTIC CABLE FOR CONNECTORIZATION AND METHOD - A fiber optic cable assembly includes a fiber optic cable and a connector assembly. The fiber optic cable includes an optical fiber, having a core surrounded by a cladding, and a jacket, which surrounds the optical fiber. The jacket includes a plurality of reinforcement members integrated into a matrix material of the jacket. The connector assembly includes a rear housing having a connector end that is directly engaged with an end portion of the jacket. A fiber optic cable includes an optical fiber with a core surrounded by a cladding. The fiber optic cable also includes a jacket that surrounds the optical fiber. The jacket includes about 40% to about 70% by weight of a plurality of reinforcement members integrated into a matrix material of the jacket. | 10-17-2013 |
20140037253 | SEALING ENCLOSURE FOR A CONNECTOR ON A CABLE, SUCH AS A STANDARDIZED FIBER-OPTIC CONNECTOR - The invention relates to a sealing enclosure and a sealing assembly comprising the sealing enclosure and a mating enclosure as well as a method to connect both. The sealing enclosure loosely receives a connector within a connector volume so that the connector, which may be of a standard type used in electronic or optic data transmission, may be displaced within a plug face at the forward end of the connector volume. Thus, the connector may compensate variations in the position of a mating connector with respect to the mating enclosure. Moreover, the sealing enclosure allows to seal off the connector volume and engage the sealing enclosure with a mating enclosure in a single motion. This is affected by having a cable seal interposed between an inner body and an outer body. If the outer body is moved forward to engage the mating connector, the cable seal is squeezed between the cable and the inner body sealing off the connector volume at the rearward end of the inner body. | 02-06-2014 |
20140072265 | MANUFACTURING AND USING FERRULE-LESS MULTI-FIBER CONNECTORS - A connection system includes an optical connector assembly; and an optical plug. The connector assembly includes a stack of gel-groove assemblies and a spring assembly mounted within a housing. Each of the gel-groove assemblies includes a first gel block at a first axial end, a second gel block at a second axial end, and a fiber mating region between the first and second gel blocks. The optical plug including sub-modules over-molded over arrays (e.g., ribbons) of the optical fibers. Each sub-module defines notches for receiving latches of the spring assembly when the optical plug is coupled to the first axial end of the optical adapter. Bare optical fibers extend from the plug, pass through the first axial gel block, and enter the fiber mating region when the plug is coupled to the adapter. | 03-13-2014 |
20140328560 | FIBER OPTIC CABLE CRIMP ASSEMBLIES EMPLOYING INTEGRALLY CONNECTED CABLE STRAIN RELIEF BOOTS, AND RELATED FIBER OPTIC CONNECTORS, CABLES, AND METHODS - Embodiments disclosed herein include fiber optic cable crimp assemblies employing integrally connected cable strain relief boots to provide a single component crimp assembly. Related fiber optic connectors, cables, and methods are also disclosed. A fiber optic cable crimp assembly is employed for securing a fiber optic connector assembly to a fiber optic cable to form a terminated fiber optic connector. The fiber optic cable crimp assembly includes a cable strain relief boot configured to receive an end portion of a fiber optic cable to provide bend and strain relief for the end portion of the fiber optic cable. A fiber optic cable crimp band is integrally connected to the cable strain relief boot. The fiber optic crimp assembly is further configured to secure the end portion of the fiber optic cable to a fiber optic connector assembly. | 11-06-2014 |
20150131945 | CABLE STRAIN RELIEF FOR CABLES, IN PARTICULAR FIBER OPTIC CABLES - The invention relates to a means of cable strain relief ( | 05-14-2015 |
20150301294 | OPTICAL FIBER CONNECTOR ASSEMBLY - A crimp connector is disclosed for enhancing pull-retention of a fiber optic cable in a fiber optic connector assembly housing. The connector has a flange for engaging with the housing and crimp member for engaging with the cable. | 10-22-2015 |
20160047994 | CONNECTOR ASSEMBLIES AND METHODS FOR PROVIDING SEALING AND STRAIN-RELIEF - Connector assemblies and methods are disclosed for providing sealing and strain-relief. In one embodiment, the connector assembly includes a cable assembly having an overmold portion, an inner housing, and a coupling body. The inner housing includes a sealing element for providing sealing from environmental elements and a crank for providing strain-relief for the connector assembly and inhibiting pulling forces on the cable assembly from being transmitted to the connector of the cable assembly. | 02-18-2016 |
20160085040 | FIBER OPTIC CABLE FOR CONNECTORIZATION AND METHOD - A fiber optic cable assembly includes a fiber optic cable and a connector assembly. The fiber optic cable includes an optical fiber, having a core surrounded by a cladding, and a jacket, which surrounds the optical fiber. The jacket includes a plurality of reinforcement members integrated into a matrix material of the jacket. The connector assembly includes a rear housing having a connector end that is directly engaged with an end portion of the jacket. A fiber optic cable includes an optical fiber with a core surrounded by a cladding. The fiber optic cable also includes a jacket that surrounds the optical fiber. The jacket includes about 40% to about 70% by weight of a plurality of reinforcement members integrated into a matrix material of the jacket. | 03-24-2016 |
20160252685 | CONNECTORS FOR MICRO-DUCT TERMINATIONS OF FIBER OPTIC CABLE | 09-01-2016 |