The invention provides a cover plate (10) of a socket outlet for providing electrical power to an electrical appliance. The cover plate comprises one or more holes (11,12) for receiving one or more POF cables (30). The hole has a diameter matching the diameter of the POF cable such that the POF cable is frictionally fixable in the hole when inserted into the hole. Furthermore an optical device is provided that is insertable into the socket outlet. The optical device can receive power from the socket outlet. The optical device comprises one or more holes aligned with the holes in the cover plate for making an optical data connection with the POF cables.

Universal cable installation tools and methods for using the tools. A cable installation tool includes a cable fastening end and an opposite projecting end extending from fastening end. A cable can be temporarily fastened to the cable installation tool using the universal cable fastening end, allowing the cable installation tool and the operably coupled cable to be threaded through a wall opening.

An integral fan-out connector assembly for fiber optic cables includes a connector housing that provides an integrated fan-out housing and connection adapter. The fan-out connector housing may be configured with a variety of cable adapters, and may be installed as a plug and play type solution where it will be ready to accept a feed cable for use when needed.

A fiber optic telecommunications device includes an enclosure defining an interior. A first fiber optic adapter is provided at the enclosure. A spool is provided at an exterior of the enclosure. A fiber optic cable, which includes a first optical fiber, is wrapped around the spool. A first fiber optic connector is mounted at a first end of the first optical fiber. The first end of the first optical fiber is positioned within the interior of the enclosure. The first fiber optic connector is inserted within the first fiber optic adapter. The enclosure and the spool are configured to rotate in unison about a common axis when the fiber optic cable is unwound from the spool.

Novel tools and techniques are provided for implementing FTTx, which might include Fiber-to-the-Home (FTTH), Fiber-to-the-Premises (FTTP), and/or the like. A method might include routing an F1 line(s) from a central office or DSLAM to a fiber distribution hub (FDH) located within a block or neighborhood of customer premises, via at least an apical conduit source slot. From the FDH, an F2 line(s) might be routed, via any combination of various apical conduit components, to a network access point (NAP) servicing one or more customer premises. An F3 line(s) might be distributed, at the NAP and from the F2 line(s), to a network interface device (NID) or optical network terminal (ONT) at each customer premises, via any combination of the apical conduit components, which include channels in at least portions of roadways. In some embodiments, at least one wireless access point is disposed in each of one or more channels.

Drop cable assemblies that can be routed from an outdoor terminal directly to an indoor wall outlet without disruption, and adhered to the interior of a dwelling after removal of the drop cable jacket and utilization of a pre-applied adhesive layer are described. Additionally, telecommunications systems utilizing such assemblies, methods of routing such assemblies and methods of making such assemblies are described.

A glue coating device for laying stealth optical cables, comprising an outer housing and an inner housing sheathed inside the outer housing. A glue chamber is provided inside the inner housing. One end of the outer housing is a mounting end and the other end is a glue injection end by which the device is mounted on a glue injection gun. A glue injection zone is provided at an end surface of the glue injection end and runs through the glue chamber. The glue injection end has a front preprocessor which comprises two separating and guiding sides forming an angle of 120 therebetween and protruding from the outer housing. A cable positioning groove is provided on the end surface of the outer housing. The device is simple in structure, convenient for constructing, and provides quantitative glue injection and has a favorable coating effect.

Installing a fiber distribution system in a building having multiple floors includes routing a feed fiber to a first enclosure located at one of the floors of the building; disposing pre-connectorized ends of distribution fibers within the first enclosure; routing optical ferrules, which terminate second ends of the distribution fibers without connector bodies, through the building via a sheath; accessing the optical ferrules of the distribution fibers at respective floors; attaching connector bodies around the optical ferrules; and disposing the connector bodies within fiber distribution terminals at the appropriate floors.

A telecommunications box includes a base frame, having generally planar outer walls that form an enclosed loop around an interior volume. The outer walls include first and second sidewalls that are parallel to and spaced apart from one another. A flange adjoins front-facing edge sides of the outer walls and extends away from the outer walls in an opposite direction as the interior volume. A first window, which is partially defined by the front-facing edge sides of the outer walls, exposes the interior volume from a front side of the base frame. A second window, which is partially defined by rear-facing edge sides of the outer walls, exposes the interior volume from a rear side of the base frame. The first window occupies the same footprint in a front-facing position that the second window occupies in a rear-facing position that is rotationally reversed from the front-facing position.

A transition for an optical fibre cable through a partition. The optical fibre cable is received inside a shield pipe, which shield pipe is of an electrically conductive material. The shield pipe is received in an axial through opening of the holding means. One end of the shield pipe is received inside a holding means having a sealing function.