Abstract: Methods are provided for validating the continuity of one or more optical fibers upon which a fiber optic connector is mounted. Typically, the fiber optic connector is mounted upon an optical field fiber by actuating a cam mechanism to secure the optical field fiber in position relative to an optical fiber stub. If subsequent testing indicates that the continuity of the optical field fiber and the optical fiber stub is unacceptable, the cam mechanism can be deactuated, the optical field fiber can be repositioned and the cam mechanism can be reactuated without having to remove and replace the fiber optic connector.

Abstract: This invention provides a method of marking a fiber optic indicia on the surface of a fiber optic component and the fiber optic component produced thereby. The fiber optic indicia is represented as a predetermined pattern marked on the fiber optic component and is associated with data about at least one of an optical characteristic and a product characteristic. According to a preferred embodiment, the fiber optic indicia is marked on a chamfered surface of a ferrule. The fiber optic indicia may include at least one alphanumerical character, a symbol, or combinations thereof. The method comprises establishing the predetermined pattern of the fiber optic indicia, providing a fiber optic component for marking, preparing a predetermined portion of a surface of the fiber optic component for marking, and marking the predetermined portion in accordance with the predetermined pattern of the fiber optic indicia.

Abstract: A retractable optical fiber assembly includes a housing, a spool rotatably disposed within the housing and an optical waveguide reeled onto the spool. The optical waveguide has a central length of unjacketed optical fiber and shorter end lengths of jacketed optical fiber terminating in optical connectors. The optical waveguide is reeled onto the spool such that the end lengths of jacketed optical fiber are extracted off the spool and retracted onto the spool in the same direction. The spool is biased in a first rotational direction relative to the housing by a torsion spring that exerts a retracting force on the jacketed optical fiber. A mechanical stop is also provided to prevent rotation of the spool in a second rotational direction opposite the first rotational direction. In an exemplary embodiment, the assembly is a test fiber box for use with optical test equipment to test an optical network.

Abstract: Metal oxide varistors (MOVs) are employed in surge protection devices, such as overvoltage protection devices, between signal lines and ground to reduce the capacitance and the capacitive imbalance introduced by the overvoltage protector, thereby improving higher frequency transmissions, such as xDSL communications, over a twisted-pair telecommunications network. The MOVs can be stacked electrically in series to reduce the capacitance of each MOV and to reduce the variability, tolerance or spread of the capacitance between MOVs. Asymmetrical MOVs with electrodes having different surface areas can also be used to reduce capacitance and to reduce capacitive imbalance between MOVs. Furthermore, Asymmetrical MOVs, as well as MOVs with electrodes having the same surface area, can be stacked electrically in series. Such series stacked, asymmetrical, and series stacked asymmetrical MOVs can be used in parallel with a gas discharge tube to form, for example, a station protector for use at a customer premises.

Abstract: A housing for a distributed filter removably mounts to a wall plate between the wall plate and a wall-mount telephone without the use of a tool. The housing includes a base and a cover attached to the base that together define a cavity. A filter circuit for filtering voice signals is disposed within the cavity. A phone jack and at least one auxiliary jack are also disposed in the cavity and accessible through the cover. In one embodiment, viewing windows are formed through the cover to permit an installer to view the mounting studs on the wall plate during installation. A slide lock is also provided to secure the housing to the wall plate. In another embodiment, a push-button lock is provided to secure the housing to the wall plate. The push-button is forced outwardly during installation when a mounting stud engages a slot formed in the base and is subsequently depressed to secure the housing to the wall plate.

Abstract: A high density fiber optic distribution frame includes a frame assembly, one or more left-hand connector module housings mounted on the frame assembly, one or more right-hand connector module housings mounted on the frame assembly and an Interbay Storage Unit (IBU) positioned on the frame assembly medially between the left-hand connector module housings and the right-hand connector module housings. Each connector module housing includes one or more connector modules having one or more adapters for interconnecting optical fibers between connector modules on the distribution frame or on an adjacent distribution frame in a communications network. The distribution frame is compatible with existing fiber optic connector housings, maintains the minimum bend radius of the optical fibers transitioned on the frame between connector modules, and reduces the length of a single length jumper employed on the frame.

Abstract: A terminating device for interconnecting service provider wiring with subscriber wiring includes a base, a customer bridge, a removable cover and insulation displacement contacts for terminating the service provider wiring and the subscriber wiring. The insulation displacement contacts for the subscriber wiring are housed within the customer bridge and terminate the subscriber wiring by moving an actuating arm from a disconnected position to a connected position. The insulation displacement contacts for the service provider wiring terminate the service provider wiring by moving a stuffer from a disconnected position to a connected position. The cover includes a locking slide having a movable clasp for deterring unauthorized access to the customer bridge, while permitting authorized access. A plug on the cover and a jack on the base each have a resilient seal that telescope together to effectively seal test contacts located within the jack when the plug is inserted into the jack.

Abstract: A high density fiber optic distribution frame includes a frame assembly, one or more left-hand connector module housings mounted on the frame assembly, one or more right-hand connector module housings mounted on the frame assembly and an Interbay Storage Unit (IBU) positioned on the frame assembly medially between the left-hand connector module housings and the right-hand connector module housings. Each connector module housing includes a mounting frame and at least one connector module having at least one fiber optic adapter for interconnecting optical fibers between connector modules on the distribution frame. The connector module is movable between a stowed position wherein the fiber optic adapter is not accessible and a deployed position wherein the fiber optic adapter is accessible. The distribution frame maintains the minimum bend radius of the optical fiber transitioned between connector modules, and reduces the length of a single length jumper employed on the frame.

Abstract: A network interface device includes an enclosure that houses active electronics for accommodating twisted-pair telephone wires and coaxial cable. The housing has a base that connects to a building wall. A shield locates within the housing, the shield having a platform and a perimeter wall that extends around the platform. A printed circuit board mounts within the shield between the base and the platform. The shield is hinged to the base so that it may be readily removed with the printed circuit board if repair is needed. A subscriber bridge module mounts on the platform. The subscriber bridge module has subscriber line termination points on one side that electrically connect with the subscriber lines. The subscriber bridge module also has telephone jacks electrically connected between the subscriber termination points and the provider line. This provides a demarcation between the subscriber lines and the provider line.

Abstract: An outdoor cabinet interconnects an optical fiber of a feeder cable with at least two optical fibers of a distribution cable at a local convergence point in an optical network. The cabinet defines an interior compartment comprising a feeder cable side having a feeder cable entry port and a feeder cable slack storage area, a distribution cable side having a distribution cable entry port and a distribution cable slack storage area, at least one splice tray and at least one coupler module. A feeder pigtail is routed from the splice tray and connected to an adapter provided on the coupler module. At least two distribution pigtails are routed from the splice tray and connected to adapters provided on the coupler module. The coupler module splits an optical signal carried on the optical fiber of the feeder cable into optical signals carried on the optical fibers of the distribution cable.

Abstract: The method and apparatus of the present invention is capable of precisely determining the orientation of the axis of the guide pin hole defined by a multifiber ferrule. Since the axis of the guide pin hole has a direct relationship to the alignment of the optical fibers, the method and apparatus can also precisely determine the end face angle of the ferrule based upon the axis of the guide pin hole without reference to external features of the ferrule. A measurement pin is initially positioned in a guide pin hole such that a first end of the measurement pin is disposed proximate the end face of the ferrule. The reference plane defined by the first end of the measurement pin is then measured, such as by an interferometer. Based upon the reference plane and the predetermined angle between the reference plane and the axis of the guide pin hole, the method and apparatus can precisely determine the orientation of the axis of the guide pin hole.

Abstract: A closure interconnects at least one optical fiber of a feeder cable with two or more optical fibers of a distribution cable at a local convergence point in an optical network. The closure includes a frame defining a longitudinal axis and a plurality of mounting surfaces. The closure further includes a fiber coupling area adjacent one of the mounting surfaces and a fiber management area adjacent another one of the mounting surfaces. The fiber coupling area includes at least one coupler module for splitting an optical signal carried on the optical fiber of the feeder cable into different optical signals carried on the two or more optical fibers of the distribution cable. The optical fibers of the distribution cable may be pre-connectorized drop cables, connectorized pigtails that are field terminated to fanout connectors, or optical fibers that are field terminated by mechanically splicing the optical fibers to drop cables.

Abstract: A closure interconnects at least one optical fiber of a feeder cable with two or more optical fibers of a distribution cable at a local convergence point in an optical network. The base of the closure defines a fiber storage and fiber management area adjacent one of the end caps and a fiber coupling area adjacent the other end cap. The fiber coupling area includes one or more coupler modules for splitting an optical signal carried on the optical fiber of the feeder cable into different optical signals carried on the two or more optical fibers of the distribution cable. The optical fiber of the feeder cable is spliced to an input optical fiber of a connectorized pigtail and then split into two or more output optical fibers of connectorized pigtails. The output optical fibers of the pigtails are then spliced to optical fibers of the distribution cable.

Abstract: A ferrule is provided that includes a ferrule body defining a longitudinally extending groove that can serve as an alignment feature for polishing operations. In this regard, the ferrule body extends longitudinally between opposed front and rear surfaces so that at least the rear surface generally defines a substantially rectangular shape in lateral cross-section. In addition, the ferrule body typically has first and second major sides and first and second minor sides with the first and second major sides being larger than the first and second minor sides. The ferrule body defines the longitudinally extending groove in at least one of the major surfaces. A jig is also provided for engaging the longitudinally extending groove defined by the ferrule body in order to hold the ferrule in an aligned position during polishing operations. In this regard, the jig includes a jig body having an alignment feature for engaging a complimentary alignment feature of the ferrule.

Abstract: A fiber optic NID includes a base defining an interior cavity and a protective cover. A backplate shaped, sized, and configured to be positioned within the internal cavity defines a first fiber management area, a second fiber management area, and a fiber connecting area. The fiber connecting area includes a raised platform having a connection tray, an adapter, and a routing guide positioned on the platform and secured thereto. The connection tray optically joins an optical fiber of a feeder cable from the first fiber management area to a first connector and an optical fiber of a distribution cable from the second fiber management area to a second connector. The first connector and the second connector are routed along the routing guide to the adapter and optically joined to connect the optical fiber of the feeder cable and the optical fiber of the distribution cable.

Abstract: The invention is a universal dumpster adapted for use with both conventional front loading and roll-off refuse collection trucks. A universal dumpster according to this invention includes a floor, a pair of side walls, and a pair of end walls. The floor, side walls and end walls together define an interior compartment for collecting and containing solid waste. Sleeves rotatably mounted to the side walls engage the lifting arms of a front loading truck. At least one of the end walls includes a door that is movable between a first fully closed position and a second fully opened position for depositing solid waste into the dumpster and discharging the solid waste from the dumpster. The rotatable sleeves reduce the forces exerted on the lifting arms of the front loading truck. Accordingly, the capacity of the dumpster may be increased.