| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 385072000 | Fiber end held in ferrule | 56 |
| 20080260333 | REPLACEMENT OPTICAL CONNECTOR - A first mating unit for engaging a second mating unit of an optical connector is described. The first mating unit includes a connector sleeve, a connector housing connected to one end of the connector sleeve, and a ferrule carrier inserted into the connector sleeve opposite the connector housing. The connector housing is substantially shaped to mate with the second mating unit. The ferrule carrier is removably engaged to the connector sleeve and adapted to connect with an optical fiber cable. | 10-23-2008 |
| 20080273839 | Connectorized nano-engineered optical fibers and methods of forming same - Connectorized nano-engineered optical fibers and method for forming them are disclosed. The methods include heating a mid-span bare fiber portion of the nano-engineered fiber to collapse the airlines therein so as to form an airline-free portion. The fiber is then inserted into a ferrule channel so that the fiber end protrudes beyond the ferrule end face, but with the airline-free portion positioned at the ferrule end face. The fiber is then cleaved at or near the ferrule end face in the airline-free portion, and the new fiber end face polished to create a solid fiber end face that coincides with the ferrule end face. The methods result in at most only minimal changes to the mode field diameter (MFD) and/or to the outer cladding diameter, which is essential in forming a connectorized nano-engineered fiber that can connect to like-size nano-engineered or non-nano-engineered fibers. | 11-06-2008 |
| 20080273840 | INTERFACE CONVERTER FOR SC FIBER OPTIC CONNECTORS - An interface converter is provided for mechanically and optically coupling a fiber optic connector with an adapter port. In a preferred embodiment, the interface converter attaches to an SC fiber optic connector and together form a converted fiber optic connector compatible with the adapter port. In certain embodiments, a retractable release sleeve may be removed from the SC fiber optic connector prior to attaching the interface converter. In certain embodiments, the interface converter may be inserted into the adapter port prior to being attached to the SC fiber optic connector. | 11-06-2008 |
| 20080279508 | Optical connector and method for assembling optical connector - To provide an optical connector that enables the reduction in the number of parts and can be easily attached to an optical cable, a concave portion | 11-13-2008 |
| 20080279509 | Expanded beam, single fiber, fiber optic connector - The expanded beam, single fiber, fiber optic connector includes a lens holder, a lens, and a ferrule. The lens holder retains the lens, and the lens holder accommodates the ferrule. The lens is in optical communication with an optical fiber retained in the ferrule. The lens holder has an outside diameter that is substantially the same as the outside diameter of a ferrule of a physical contact, single fiber, fiber optic connector, such as one of an LC, SC, FC, and ST style or standard fiber optic connectors. | 11-13-2008 |
| 20080310796 | Hardened Female Fiber Optic Connector - A female fiber optic connector includes an outer housing, a single internal male fiber optic connector, and a fiber optic adapter. The outer housing has a first end, which receives a fiber optic cable, positioned opposite from a second end, which defines a connector port for receiving an external male connector. The single internal male fiber optic connector is positioned within the outer housing and includes a ferrule in which a fiber is terminated. The fiber optic adapter is positioned within the outer housing and includes an alignment sleeve, a first end, which receives the single internal male fiber optic connector with the ferrule of the single internal male fiber optic connector positioned within the alignment sleeve, and an opposite second end facing toward the connector port and being configured so that a ferrule of the external male connector fits within the alignment sleeve when inserted in the connector port. | 12-18-2008 |
| 20090080838 | Anti-Wiggle Optical Receptacle - A casing includes a solid sleeve and a split sleeve in combination to provide a connection between a fiber stub and a ferrule containing an optical fiber. The arrangement prevents wiggle of the ferrule, and also does so without the tight tolerances that would otherwise be required in solid sleeve systems. | 03-26-2009 |
| 20090080839 | OPTICAL CONNECTOR, OPTICAL FIBER WITH CONNECTOR, OPTICAL FIBER CONNECTING DEVICE, AND OPTICAL FIBER CONNECTION METHOD - A plug-type optical connector is provided with a ferrule and an aligning sleeve member. The aligning sleeve member receives a portion of the ferrule including an abutting end face inside a bore to prevent staining and damage and uses a movable shutter to prevent light emitted through the ferrule from leaking to the outside. The socket type optical connector is provided with a ferrule and a holding section. The optical connector is not provided with an aligning sleeve member and further can hold a coated optical fiber by a holding section behind the ferrule by a radius of curvature of at least a prescribed minimum radius of curvature. Optical loss in the coated optical fiber can be reduced while effectively reducing the external dimensions in the direction of extension of the ferrule at the time of use. An optical fiber connecting device that includes a combination of a pair of optical connectors is also provided to be suitably applied to an optical transmission line laid indoors. | 03-26-2009 |
| 20090087147 | Strain-relief assemblies and methods for a field-installable fiber optic connector - A strain-relief assembly for a field-installable fiber optic connector is disclosed, wherein the assembly includes a ferrule holder, an intermediate sleeve, and a crimp sleeve. The ferrule holder back section holds a buffered section of a fiber optic cable, while the ferrule holder front end holds a ferrule and a splice assembly. A stub fiber is held within the ferrule and the splice assembly so as to interface with a section of field optical fiber protruding from the buffered section. The intermediate sleeve engages and generally surrounds a portion of the ferrule holder back section and thus surrounds a portion of the buffered layer. An intermediate sleeve handler may be used to handle the intermediate sleeve and attached the intermediate sleeve to the ferrule holder back section. Stress-relief strands from the fiber optic cable are flared around the outer surface of the intermediate sleeve. A crimp sleeve is placed over the intermediate sleeve to hold the ends of the stress-relief strands in place. The crimp sleeve is then crimped, which fixes the strand ends in place and also fixes the intermediate sleeve in place on the ferrule back section. | 04-02-2009 |
| 20090136183 | COUPLING FOR OPTICAL-FIBER CONNECTORS - A coupling ( | 05-28-2009 |
| 20090148104 | Hardened Fiber Optic Connection System - A fiber optic connector and a fiber optic adapter are disclosed that are manually connectable and disconnectable with each other by a slideable latching means. The fiber optic connector includes an end defining a plug portion. The plug portion holds a ferrule and also directly engages a port on the fiber optic adapter. The plug portion includes a protrusion which also forms a latch catch. The port of the fiber optic adapter includes a flexible retention latch within a slot. The slot engages the protrusion and thus rotationally aligns the fiber optic connector and adapter. The flexible retention latch snaps into and out of the latch catch when the plug portion of the fiber optic connector is slid into and out of the port of the fiber optic adapter thus providing the slideable latching means. Angled retaining surfaces are provided on the retention latch and the latch catch that engage each other. Angles defining the angled retaining surfaces are chosen to provide desired holding and release characteristics. A sealing means and a threaded connection means are also provided between the fiber optic adapter and connector. | 06-11-2009 |
| 20090162016 | HARDENED FIBER OPTIC CONNECTOR - The present disclosure relates to a fiber optic connector for use with a fiber optic adapter. The fiber optic connector includes a connector housing having an end defining a plug portion. A ferrule assembly is mounted at least partially within the connector housing. The ferrule assembly includes a ferrule located at the plug portion of the connector housing. A sealing member is mounted about an exterior of the connector housing for providing a seal between the connector housing and the adapter. The fiber optic connector further includes first and second separate retaining mechanism for retaining the fiber optic connector within the fiber optic adapter. | 06-25-2009 |
| 20090324175 | EXPANDED BEAM OPTICAL FIBRE CONNECTOR - The present invention relates to an optical connector for use in a fibre optic communications system, and particularly an expanded beam optical connector ( | 12-31-2009 |
| 20100034503 | KEYED FIBRE OPTIC CONNECTOR - A keyed connector system for providing selective interconnection between a receptacle socket and a connector plug terminating an optic fibre, the connector plug adapted for insertion into the receptacle socket. The keying system comprises a raised boss configured to one of a plurality of predefined boss keying geometries and a cavity configured to one of a plurality of predefined cavity keying geometries. The boss is either in one of the receptacle socket or on a forward end of the connector plug and the cavity is formed in the other of the receptacle socket or the forward end of the connector plug. At least one of the predefined boss keying geometries matches at least one of the predefined cavity keying geometries. When the boss keying geometry matches the cavity keying geometry, the boss can be inserted into the cavity thereby interconnecting the connector plug with the receptacle socket. | 02-11-2010 |
| 20100150503 | MALE CONTACT FOR OPTICAL FIBER - The invention relates to a male contact for an optical fibre ( | 06-17-2010 |
| 20100220960 | OPTICAL CONNECTOR, METHOD OF ATTACHING THE OPTICAL CONNECTOR TO COATED OPTICAL FIBER, AND OPTICAL CONNECTION MEMBER - An optical connector in which works of attaching an incorporated optical fiber to a ferrule, removing a coating of the tip end side of a coated optical fiber, and attaching an optical connector to the coated optical fiber can be made more efficient, and the transmission characteristics can be prevented from being lowered in the optical connector, and a method of attaching the optical connector to a coated optical fiber are provided. | 09-02-2010 |
| 20100247039 | OPTICAL CONNECTOR AND METHOD OF ASSEMBLING THE SAME - It is an object to obtain an optical connector capable of executing an assembling work safely and easily without causing a problem, for example, a breakage of an end face of a short optical fiber provided in a ferrule when assembling a site optical fiber, and a method of assembling the optical connector. | 09-30-2010 |
| 20100247040 | FERRULE CONNECTING STRUCTURE - A ferrule connecting structure for optically connecting a pair of fibers which are provided in a pair of ferrules, respectively, the ferrule connecting structure comprises: a first holding portion which holds the pair of ferrules; an peripheral portion which is provided on the pair of ferrules and which includes a plurality of groove portions; a second holding portion which is fit in the groove portion so as to hold the ferrule in a particular rotating position about an axis of the optical fiber; a third holding portion which is detachably attached to the first holding portion so as to press the first holding portion in a direction intersecting with the axis; and a fourth holding portion which presses the pair of ferrules in a direction in which the end faces of the pair of ferrules are opposed to each other. | 09-30-2010 |
| 20100272397 | OPTICAL CONNECTOR - Provided is an optical connector in which a through-hole of a housing is opened in a side surface of the housing and a ferrule can be mounted to the housing from an opening portion formed in the side surface of the housing. Thus, it is unnecessary to constitute the housing by a plurality of components. Consequently, reduction in the numbers of components and assembly steps and reduction in cost can be achieved. | 10-28-2010 |
| 20100296779 | INTERFACE CONVERTER FOR SC FIBER OPTIC CONNECTORS - An interface converter is provided for mechanically and optically coupling a fiber optic connector with an adapter port. In a preferred embodiment, the interface converter attaches to an SC fiber optic connector and together form a converted fiber optic connector compatible with the adapter port. In certain embodiments, a retractable release sleeve may be removed from the SC fiber optic connector prior to attaching the interface converter. In certain embodiments, the interface converter may be inserted into the adapter port prior to being attached to the SC fiber optic connector. | 11-25-2010 |
| 20100303419 | FIBER END FACE VOID CLOSING METHOD, A CONNECTORIZED OPTICAL FIBER ASSEMBLY, AND METHOD OF FORMING SAME - A method for closing the holes on the end face of a nano-engineered fiber having a core, a cladding with non-periodically disposed voids, and at least one of a coating and a buffer, comprises the steps of:
| 12-02-2010 |
| 20100310212 | OPTICAL CONNECTOR STRUCTURE - An optical connector structure (C) includes: an optical fiber ( | 12-09-2010 |
| 20100322565 | Structure for optical connector ferrule and method for making - A ferrule structure for an optical connector includes a central member disposed in the ferrule. The central member is configured so that an exterior dimension of the central member can change between a smaller size and a larger size. A plurality of optical fibers are disposed in the ferrule externally to the central member. A method for assembling an optical connector ferrule includes providing a central member, wherein the central member is configured so that an exterior dimension of the central member can change between a smaller size and a larger size. The method further includes placing an axial load on the central member to cause the exterior dimension to assume the smaller size. The central member is disposed in the ferrule. A plurality of optical fibers are disposed in the ferrule, external to the central member. The axial load is removed from the central member. | 12-23-2010 |
| 20110008003 | OPTICAL CONNECTOR - An optical connector, which is capable of enhancing fittability into a cabinet, or the like on account of compactification and also avoiding problems of an increase of bend loss, a breakage, etc. of an optical fiber, can be provided. | 01-13-2011 |
| 20110026884 | RELAY OPTICAL CONNECTOR - In a relay optical connector | 02-03-2011 |
| 20110033155 | OPTICAL/ELECTRICAL COMPOSITE CONNECTOR AND MANUFACTURING METHOD THEREOF - In an optical/electrical composite connector including a male connector and a female connector, the male connector includes a ferrule provided at an end portion of an optical fiber on a side of the male connector which is connected to the female connector, and an electrode terminal. The female connector includes a core to transmit an optical signal, a cladding to cover the core, an electric wiring provided on an outer wall surface of the cladding, a sleeve in which the ferrule is fitted, the sleeve provided at an end portion of the cladding on a side of the female connector which is connected to the male connector, and a lens provided in the sleeve. When the ferrule and the sleeve are fitted together, the electrode terminal and the electric wiring are electrically connected and the optical fiber and the core are optically connected through the lens. | 02-10-2011 |
| 20110091159 | Push-Pull Fiber Optic Connectors and Methods for Making the Same - Push-pull fiber optic connectors and cable assemblies having a latch that is actuated by a cam surface are disclosed. The fiber optic connectors include a ferrule and a housing having the latch. A shroud fits over a portion of the housing and allows the craft to grab the shroud and push the shroud and hence the fiber optic connector into a suitable adapter or the like. Likewise, the craft can grab the shroud and pull on the same to remove the fiber optic connector out of the adapter or the like. The cam surface is disposed on a decoupling member, wherein the decoupling member is attached to the shroud so the components can move together. Methods of making the push-pull fiber optic connector are also disclosed. | 04-21-2011 |
| 20110217007 | OPTICAL CONNECTOR KIT - The present disclosure relates generally to an optical connector kit including parts constituting an optical connector. Certain embodiments relate to an optical connector kit having an optical fiber with a ferrule, a plurality of connector units, and a storage case including an upper and lower housing. | 09-08-2011 |
| 20110222818 | OPTICAL WAVEGUIDE FOR OPTICAL CONNECTOR, OPTICAL CONNECTOR USING SAME, AND METHOD OF MANUFACTURING OPTICAL WAVEGUIDE FOR OPTICAL CONNECTOR - Disclosed is inexpensive optical waveguide for an optical connector which is accurately positioned across the width of cores when inserted in and fixed in an optical waveguide fixing through hole of a ferrule to provide low optical coupling loss when connected, an optical connector using the same, and a method of manufacturing the same. An optical waveguide for an optical connector includes cores, an under cladding layer, and an over cladding layer. The strip-shaped optical waveguide has a longitudinal end portion configured to be fixed in a predetermined through hole provided in a ferrule of an optical connector. The cores are formed on the under cladding layer by a photolithographic method. The over cladding layer is formed with respect to the positions of the cores or positioning alignment marks by a photolithographic method. The over cladding layer covers the cores, and the under cladding layer including crosswise end surfaces thereof. | 09-15-2011 |
| 20120033917 | SMALL-FORM-FACTOR FIBER OPTIC INTERFACE DEVICES WITH AN INTERNAL LENS - Small-form-factor fiber optic interface devices with an internal lens are disclosed. The fiber optic interface devices have a ferrule with a bore that supports an optical waveguide. The lens is on or adjacent the ferrule front end and is aligned with the bore. A first planar surface is provided on or adjacent the lens. The first planar surface interfaces with a second planar surface of a second fiber optic interface device to form a fiber optic interface assembly having a liquid-displacing interface when the first and second fiber optic interface devices are engaged. | 02-09-2012 |
| 20120082416 | OPTICAL CONNECTOR, CONNECTOR ADAPTER, OPTICAL FIBER LINE, AND OPTICAL COMMUNICATION SYSTEM - There are provided an optical connector having one or more protruding portions protruding and one or more recessed portions depressed relative to a reference plane corresponding to a reference face of a coupling of a standard optical connector in a connecting end face of a coupling into which a housing receiving a ferrule is inserted, a connector adapter to which the optical connector can be inserted and coupled, an optical fiber line using the optical connector and the connector adapter to connect optical fibers, and an optical communication system. | 04-05-2012 |
| 20120128304 | MATING OF OPTICAL FIBERS HAVING ANGLED END FACES - A method for mating optical fibers, a fiber optic connector, and a fiber optic subassembly are provided in which mating fibers have angled end faces joined by index matching fluid, but in which the angled end faces of the fibers are positioned relative to one another in rotationally misaligned relationship. Applicants discovered unexpectedly that optical fibers can be spliced, to provide satisfactory optical connections, without the need for matched cleaves, and without the need for precise rotational alignment of the cleaves, provided that angled end faces are provided on both the launch and receive fibers and that index matching gel is provided between the angled end faces. Thus, the fibers are mated in positions other than in the precise rotationally aligned position previously believed essential to adequate optical performance. Angled end faces may be positioned less than 165 degrees out of phase. | 05-24-2012 |
| 20120141071 | OPTICAL CONNECTOR - In accordance with the invention, the end faces of polymer optical waveguides are coated with a film that is harder than the waveguides themselves, but still sufficiently compliant to fill in scratches, gouges and other non-planarities in the end faces of the waveguides. Even further, using a single continuous sheet of the film to protect the end faces of a plurality of polymer waveguides in a connector also helps make the effective mating surfaces of all of the waveguides coplanar (i.e., longitudinally coextensive). Furthermore, if the film becomes scratched, it can be stripped off and replaced without the need to replace the waveguides or the entire connector. | 06-07-2012 |
| 20120141072 | OPTICAL CONNECTOR AND OPTICAL CONNECTOR SYSTEM - An optical connector has a pair of coil springs ( | 06-07-2012 |
| 20120155808 | FIBER OPTIC CONNECTORS - Fiber optic connectors for use in connecting and aligning two optical fibers. In one example embodiment, a fiber optic connector includes a body, a cylindrical split sleeve at least partially positioned within the body, and a shell at least partially positioned within the body and surrounding the split sleeve. The body defines an internal port and an external port. The split sleeve defines a slot along the length of the split sleeve and has first and second open ends. The first end is configured to receive and grip a ferrule of an internal optical fiber and the second end is configured to receive and grip a ferrule of an external optical fiber. The portion of the shell surrounding the first end has a greater inside clearance than the portion of the shell surrounding the second end. | 06-21-2012 |
| 20120275748 | OPTICAL CONNECTOR - The present invention relates to an optical connector including, a ferrule within which an integrated optical fiber is fixed, a clamp portion disposed at a rear of the ferrule, the clamp portion comprising: a base component and a lid component facing the based component, where the base component and the lid component together are configured to clamp an end portion of the integrated optical fiber and an end portion of a naked optical fiber abutting the end portion of the integrated optical fiber, and a naked optical fiber guide portion disposed at a rear of the clamp portion, where the naked optical fiber guide portion comprises a through hole through which the naked optical fiber can be inserted, and that guides the naked optical fiber to the clamp portion by the through hole. | 11-01-2012 |
| 20120301082 | OPTICAL CONNECTOR THAT COMPENSATES FOR LONGITUDINAL SHIFTING OF OPTIAL FIBER CORE RELATIVE TO A HOUSING OF THE CONNECTOR, AND A METHOD - An optical connector is provided having a housing with a cavity formed therein through which an optical fiber passes. Within the cavity, a slightly bent, unjacketed portion of the core of the optical fiber is disposed. If conditions are such that pistoning of the core begins to occur, the slightly bent, unjacketed portion of the core straightens, thereby causing the end of the core to remain substantially flush with the end of the ferrule of the connector housing. In this way, the pistoning effect at the end of the fiber is prevented and optical losses associated with the occurrence of the pistoning effect are avoided. | 11-29-2012 |
| 20130044981 | MATING OF OPTICAL FIBERS HAVING ANGLED END FACES - A method for mating optical fibers, a fiber optic connector, and a fiber optic subassembly are provided in which mating fibers have angled end faces joined by index matching fluid, but in which the angled end faces of the fibers are positioned relative to one another in rotationally misaligned relationship. Applicants discovered unexpectedly that optical fibers can be spliced, to provide satisfactory optical connections, without the need for matched cleaves, and without the need for precise rotational alignment of the cleaves, provided that angled end faces are provided on both the launch and receive fibers and that index matching gel is provided between the angled end faces. Thus, the fibers are mated in positions other than in the precise rotationally aligned position previously believed essential to adequate optical performance. Angled end faces may be positioned less than 165 degrees out of phase. | 02-21-2013 |
| 20130064509 | OPTICAL FIBER CONNECTOR - An optical fiber connector apparatus may include a ferrule having a hollow through its center. The hollow is sized and shaped to receive an optical fiber such that an end of each of the optical fiber is located at an endface of the ferrule. The endface of the ferrule is partitioned into a first section and a second section. The first section is perpendicular to an axis of the ferrule and the second section is angled with respect to the first section. When the connector is assembled, the ferrule can butt couple to a similarly configured second ferrule such that the perpendicular second portions of the endfaces of the ferrules are physically touching. The angle of the angled portions sets a distance between portions of the endfaces corresponding to endfaces of optical fibers received in the ferrules thereby setting a gap between the fiber endfaces. | 03-14-2013 |
| 20130177278 | ON-SITE HOT-MELT QUICK CONNECTOR FOR OPTICAL FIBERS - An on-site hot-melt quick connector for optical fibers comprises a plug housing, a ferrule, an optical fiber telescopic protective tube, a tail end cover, a pressure welding protective tail handle and a compression ring. A front baffle ring is mounted in the plug housing and a rear baffle ring is mounted in the tail end cover. The ferrule and the optical fiber telescopic protective tube are positioned between the front baffle ring and the rear baffle ring and can move in the axial direction. As the quick connector for optical fibers of the invention has a definite space for movement in the axial direction, the optical fibers themselves can move along with the plugging action during butting, avoiding the bending of the optical fibers caused as they are unable to move, thus guaranteeing the transmission quality of the optical signals. The service life of the quick connector is also guaranteed. | 07-11-2013 |
| 20130183001 | OPTICAL FIBER ALIGNMENT DEVICE AND METHOD - A fiber optic alignment device includes two alignment blocks and two gel blocks. A fiber passage is adapted to receive a first optical fiber through the first end and a second optical fiber through the second end. An intermediate portion is adapted to align the first and the second optical fibers between the first and the second alignment blocks. A first portion of the fiber passage extends between the first alignment block and the first gel block. A second portion of the fiber passage extends between the second alignment block and the second gel block. End portions of the first and the second optical fibers may be cleaned when slid between the alignment blocks and the gel blocks. The fiber passage may include an undulating portion. | 07-18-2013 |
| 20130183002 | SLEEVE FOR OPTICAL CONNECTOR, AND OPTICAL CONNECTOR - A sleeve for an optical connector into which a ferrule arranged to hold an optical fiber is to be inserted, and by which an optical connector in which the sleeve is to be housed can be reduced in size in a direction that the optical connector is fitted into a counterpart optical connector. A sleeve for an optical connector includes a portion having a tube shape, into which a ferrule is to be inserted, and a hook portion at one end of the sleeve, the hook portion protruding in a diameter direction of the tube-shaped portion. | 07-18-2013 |
| 20130195406 | OVERMOLDED FERRULE BOOT AND METHODS FOR MAKING THE SAME - Overmolded ferrule assemblies and methods for making the same are disclosed. Some embodiments include positioning a first plurality of fibers in an alignment fixture in a predetermined arrangement such that a predetermined length of the first plurality of fibers extends beyond an end of the alignment fixture. Similarly, some embodiments include positioning a cover portion of the alignment fixture onto the first plurality of fibers, such that corresponding cover recesses on the cover portion align with the corresponding base recesses on the base portion. One method includes the steps of injecting a flowable material into a port on the alignment fixture, waiting a predetermined time for the flowable material to cure, and after the predetermined time, separating the base portion and the cover portion from the first plurality of fibers and the flowable material to create the overmolded ferrule boot. | 08-01-2013 |
| 20140079354 | METHOD FOR PRODUCING OPTICAL CONNECTOR AND OPTICAL CONNECTOR - A method for producing an optical connector includes making only the core jut spherically from an end facet of an optical fiber by arc discharge, the optical fiber having a difference in index of refraction between a core and a clad at 1% to 3% by adding dopant that increases an index of refraction of the core and lowers a melting point of the core, and mounting the optical fiber processed by the arc discharge in a ferrule. | 03-20-2014 |
| 20140105542 | OPTICAL FIBER CONNECTOR AND ASSEMBLY METHOD THEREFOR - Disclosed are an optical fiber connector an assembly method therefor. The connector is used for matching with an optical fiber adapter, and comprises a connector casing, a ceramic ferrule ( | 04-17-2014 |
| 20140199027 | FIBER OPTIC CONNECTOR - A fiber optic connector includes a ferrule. The ferrule includes an inner piece including silica and an outer piece including ceramic. The outer piece surrounds the inner piece and the inner piece extends beyond an end of the outer piece by a distance of at least 10 micrometers. | 07-17-2014 |
| 20140205242 | OPTICAL MODULE ASSEMBLY WITH CONNECTING MECHANISM - An optical module assembly comprises a first optical module and a second optical module engaged with the first optical module. Each of the first and second optical modules comprises a ferrule comprising a first planar surface, a second surface opposite to the first planar surface and at least one connecting mechanism exposed on the second surface of the ferrule, an optical waveguide mounted on the first planar surface of the ferrule, a light guide device coupling to the optical waveguide and disposed on the ferrule, an optical signal transmitted between the first planar surface and the second surface through the light guide device; and wherein the first optical module can be connected with the second optical module by the connecting mechanisms for increasing the transmitting distance of the optical signal. | 07-24-2014 |
| 20140241669 | FEMALE OPTICAL RECEIVING DEVICE AND METHOD - The present document describes a female optical receiving device for connecting a first optical fiber to a second optical fiber. The first optical fiber is substantially centered within a proximal portion of a guidewire tubing. The female optical receiving device comprises a first ferrule or tubing having a longitudinal axis and an inside diameter adapted to an outside diameter of the guidewire tubing, and a second ferrule or tubing having a longitudinal axis and an inside diameter adapted to an outside diameter of the second optical fiber. The longitudinal axis of the first ferrule or tubing is aligned with the longitudinal axis of the second ferrule or tubing. | 08-28-2014 |
| 20140301702 | Optical Connections - Techniques related to optical connectors are described. A ferrule includes an optical pathway for light transmission through the ferrule. In examples, a sub-wavelength grating (SWG) assembly is integrated in the ferrule, aligned with an end of the optical pathway. | 10-09-2014 |
| 20140314379 | HARDENED FIBER OPTIC CONNECTOR - The present disclosure relates to a fiber optic connector for use with a fiber optic adapter. The fiber optic connector includes a connector housing having an end defining a plug portion. A ferrule assembly is mounted at least partially within the connector housing. The ferrule assembly includes a ferrule located at the plug portion of the connector housing. A sealing member is mounted about an exterior of the connector housing for providing a seal between the connector housing and the adapter. The fiber optic connector further includes first and second separate retaining mechanism for retaining the fiber optic connector within the fiber optic adapter. | 10-23-2014 |
| 20140328559 | FERRULE FIXING MEMBER AND FERRULE HOLDING STRUCTURE - A ferrule fixing member for fixing a ferrule to a holding member with a holding hole into which the ferrule is inserted. The ferrule fixing member includes a first plate part and a second plate part configured to face each other while sandwiching an resilient member arranged on an outer periphery of the ferrule in a radial direction thereof, a pressing part configured to press the resilient member such that the ferrule is pressed against a bottom side of the holding hole by a resilient force of the resilient member, a locked part configured to be engaged with a locking part formed in the holding member, and an extending part configured to extend from the second plate part to the locked part. The locking of the locked part and the locking part is released by moving the first plate part and the second plate part close to each other. | 11-06-2014 |
| 20140369648 | CONNECTOR FOR MULTIPLE CORE OPTICAL FIBER - A fiber optic plug, suitable for multi-core fiber (MCF), is structured to hold satellite cores of the MCF in a precise angular positions so as to attain suitable alignment with satellite cores of a mating connector. The plug includes features to permit a ferrule holding the MCF to move longitudinally relative to the connector's housing, so that a spring may control a mating force to an abutting ferrule of a mating connector. The ferrule may be held by ferrule barrel having splines projecting away from an outer peripheral surface. The splines may slide longitudinally within notches of the connector housing or a strength member attached to the connector housing. The notches and splines have a tight tolerance, so that the satellite cores remain in a desired, set angular position. | 12-18-2014 |
| 20150071591 | V-GROOVE FERRULE MATING SLEEVE - A ferrule sleeve includes a sleeve body, where the sleeve body is shaped in a V and includes a V-shaped groove that runs a length of a first side of the sleeve body. The ferrule sleeve further includes a sleeve cover, having a flat, rectangular shape, which fits into an opening of the V-shaped groove of the sleeve body. The ferrule sleeve further includes a cover spring that fits into the opening of the V-shaped groove of the sleeve body adjacent the spring cover, wherein the sleeve cover and the cover spring, when a first cylindrical ferrule is inserted within the V-shaped groove act to hold the first cylindrical ferrule within the V-shaped groove and prevent the first cylindrical ferrule from rotating, or from moving in a longitudinal. | 03-12-2015 |
| 20150131944 | CONNECTOR SYSTEM WITH PHYSICAL SECURITY FEATURE - A multifiber connector comprising a rectangular-shaped ferrule having a plurality of fibers, alignment structure positioned on a front face of the ferrule, the alignment structure being at least one of alignment pins and pin-receiving holes, a housing defining a ferrule opening, the ferrule opening sized and shaped to accommodate disposition of the ferrule therein, wherein when disposed within the ferrule opening the ferrule extends forward from a front face of the housing; the housing having an outer periphery, wherein the outer periphery is defined by at least a top wall, a bottom wall, and first and second side walls, each of the side walls defining a recess having a curved surface, each recess positioned at an intermediate point along the height of the first and second side walls, and a key on the outer periphery of the housing on at least one of the top wall and the bottom wall, the key being offset to one side of a centerline bisecting the connector into first and second side portions, wherein the key prevents the multifiber connector from mating with a standard adapter which would otherwise mate with the multifiber connector but for the location of the key. | 05-14-2015 |
| 20160025940 | FERRULES FOR FIBER OPTIC CONNECTORS - A ferrule for a fiber optic connector includes: a main body extending from a first end to a second end, the main body defining a bore extending from the first end to the second end; an end surface at the second end of the main body; and a raised portion on the end surface, the raised portion extending from the second end and surrounding the bore; wherein an optical fiber is configured to be positioned within the bore of the main body; and wherein the end surface is configured to be polished to remove the raised portion. | 01-28-2016 |
| 20160091680 | OPTICAL FEEDTHROUGH CONNECTOR - Configurations are described for creating and using separable optical feedthroughs. These are especially useful in their at least semi-hermetic form when integrated with implantable photomedical devices. One embodiment is directed to a system for operatively coupling an optical output from a light source positioned inside of a sealed housing to an external optical fiber, comprising: a first optical fiber disposed adjacent to the light source and configured to receive at least a portion of the optical output; a second optical fiber operatively coupled to the first optical fiber and configured to capture at least a portion of an output from the first optical fiber; a primary seal operatively coupled to the housing between the light source and the second optical fiber that is at least partially transparent; and a secondary seal positioned between the second optical fiber and the environment. | 03-31-2016 |
