Abstract: There is provided fiber optic hardware and hardware components adapted to provide a desired amount of fiber optic connectivity and/or functionality for a desired amount of volume, materials, etc. The fiber optic hardware components include, but are not limited to multiports, local convergence points (LCPs), particularly LCPs for multiple dwelling units or similar applications, network interface devices, equipment frames, and fiber distribution hubs. Certain fiber optic hardware components are adapted to accommodate microstructured optical fiber or other bend performance optical fiber.

Abstract: There is provided fiber optic hardware and hardware components adapted to provide a desired amount of fiber optic connectivity and/or functionality for a desired amount of volume, materials, etc. The fiber optic hardware components include, but are not limited to multiports, local convergence points (LCPs), particularly LCPs for multiple dwelling units or similar applications, network interface devices, equipment frames, and fiber distribution hubs. Certain fiber optic hardware components are adapted to accommodate microstructured optical fiber or other bend performance optical fiber.

Abstract: An optical fiber distribution cabinet includes at least three separate, vertically arranged areas of optical fiber functionality; namely a coupler module storage compartment, a fiber slack storage compartment, and a fiber connection compartment with the fiber slack storage compartment disposed laterally between the coupler module storage compartment and the fiber connection compartment. A plurality of pre-connectorized (pigtail or jumper) coupler module output fibers are routed from the coupler module storage compartment through the fiber slack storage compartment to the fiber connection compartment and interconnected with corresponding optical fibers of one or more pre-connectorized distribution cables. At least one coupler module input fiber is spliced directly to an optical fiber of a feeder cable.

Abstract: There is provided a fiber distribution hub with a panel assembly that includes one or more selectively removable parking devices. The parking devices are adapted to selectively receive one or more connectors of fiber optic cables within the fiber distribution hub. The panel assembly includes a parking area that defines a plurality of slots into which the parking devices are inserted. Once a parking device has been removed from the slot, a splitter module can be inserted into the slot previously occupied by the parking device. Therefore, the size of the housing of the fiber distribution hub can be reduced because the parking area can also be used for splitter mounting.

Abstract: A connector housing for a communications network includes a housing assembly having a front panel, a rear panel, a first side panel, a second side panel, a bottom panel, and a top panel. In one configuration, the connector housing includes a jumper management panel that is rotatable into at least two different positions relative to the top panel of the housing assembly. In another configuration, the connector housing has a splice shelf assembly. The splice shelf assembly is attached to the housing assembly and rotatable about a vertical axis relative to the housing assembly. Another configuration of the connector housing has at least one cable entry plate that is removably attached to a side panel of the housing assembly. Additionally, one strain relief assembly has a furcation plug of a cable assembly that is attachable to a mounting rail for securing the same.

Abstract: A connector housing includes a housing assembly and a tray assembly. The tray assembly being slidably mounted relative to the housing assembly and having a first position within the housing assembly so that the tray assembly is fully inserted within the housing assembly in a stored position. The tray assembly also has a first position beyond an interior of the housing assembly. In the first position, a first portion of a tray of the tray assembly is rotatable relative to a second portion of the tray at a hingeable section of the tray, thereby allowing easier access to components, connections, and/or cables on the tray. In another embodiment, the tray assembly is slidable into a rearward position beyond the interior of the housing assembly.

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.