Abstract: A fiber splice cassette includes a main chassis, a removable cover, splice sleeve holders, and four cable clamp boots. The main chassis forms a cavity having a plurality of cable organizing tabs for cable management. Splice sleeve holders are located in the cavity of the main chassis, each of the splice sleeve holders being selectively removable from a corresponding splice sleeve holder nest and being configured for specific splicing capabilities while maintaining the structural strength of the holders. The splice sleeve holder nests may be selectively and removably attached to an interior surface of the fiber cable enclosure via a variety of means to allow the splice sleeve holder nests to be easily rotated, relocated, or accessed for maintenance.

Abstract: An electrically conductive assembly includes a connector; a rack mount panel including a plurality of integrally formed cutouts, the rack mount panel being formed from an electrically conductive material; an intermediate modular adapter that is sized and configured for selective engaged receipt within a corresponding one of the plurality of integrally formed cutouts; the intermediate modular adapter including a plurality of integrally formed openings each being sized for engaged receipt of the connector; the intermediate modular adapter being plated with an electrically conductive material; and wherein selective engagement of the connector in one of the plurality of integrally formed openings on the intermediate modular adapter creates an electrical connection between the connector, the rack mount panel, and the intermediate modular adapter.

Abstract: A telecommunications patching system is provided having a panel and at least one cassette movably received in the panel. The cassette receives a plurality of telecommunication connector jacks. Each jack has a front cavity adapted to receive a patch cord plug having a patch cord cable extending therefrom. The cassette has first and second ends. A tab extends from and is attached to the first end of the cassette such that the cassette may readily be moved to different positions in the panel. The tab includes a first cable guide.

Abstract: A fiber optic cable connectivity assembly for managing fiber optic interconnections includes a cabinet having an outer facing surface and an inner facing surface surrounding an interior cavity: an adapter bracket that is selectively positionable between a raised position and a lowered position, and the adapter bracket being configured for selective connection with at least one adapter component; a first mounting connector and an oppositely disposed second mounting connector each being secured to the inner facing surface of the cabinet, and each of the first and second oppositely disposed mounting connectors including a plurality of protruding components extending therefrom; and a first extension arm and an oppositely disposed second extension arm each being secured to the adapter bracket, and each of the first and second oppositely disposed extension arms defining a plurality of L-shaped cutout sections each being correspondingly aligned for engaged receipt of one of the plurality of protruding components to

Abstract: A telecommunications patching system is provided having a panel and at least one cassette movably received in the panel. The cassette receives a plurality of telecommunication connector jacks. Each jack has a front cavity adapted to receive a patch cord plug having a patch cord cable extending therefrom. The cassette has first and second ends. A tab extends from and is attached to the first end of the cassette such that the cassette may readily be moved to different positions in the panel. The tab includes a first cable guide.

Abstract: A fiber optic cable connectivity assembly for managing fiber optic interconnections includes a cabinet having an outer facing surface and an inner facing surface surrounding an interior cavity: an adapter bracket that is selectively positionable between a raised position and a lowered position, and the adapter bracket being configured for selective connection with at least one adapter component; a first mounting connector and an oppositely disposed second mounting connector each being secured to the inner facing surface of the cabinet, and each of the first and second oppositely disposed mounting connectors including a plurality of protruding components extending therefrom; and a first extension arm and an oppositely disposed second extension arm each being secured to the adapter bracket, and each of the first and second oppositely disposed extension arms defining a plurality of L-shaped cutout sections each being correspondingly aligned for engaged receipt of one of the plurality of protruding components to

Abstract: A telecommunications patching system is provided having a panel and at least one cassette movably received in the panel. The cassette receives a plurality of telecommunication jacks. The panel and cassettes are oriented horizontally. Each jack includes a front cavity adapted to receive a patch cord plug having a patch cord cable extending therefrom. The cassette has first and second ends. A cable management tab extends from the first end of the cassette so that the cassette may be readily moved to different positions in the panel.

Abstract: An apparatus for enhancing wireless communications to and from a building is provided. A first antenna associated with the building for sending and receiving wireless signals to and from a wireless signal transponder located remote from the building and a signal path interface are provided. A first signal path is located between the first antenna and the signal path interface. The building includes a wiring system. At least a second signal path is located between the signal path interface and the wiring system. At least a portion of the wiring system is a second antenna for sending and receiving wireless signals to and from wireless devices located within the building.

Abstract: An electrical equipment cabinet encloses a rack supporting equipment and cables connected to the electrical equipment. The rack and the cabinet define a gap between the rack and at least one side wall of the cabinet. The cabinet includes a thermal barrier fitting within the gap and defining a channel for cables. The thermal barrier includes a bracket connecting to the cabinet a channel side wall extending from the bracket, and a hinged panel connected to the channel side wall. The equipment cabinet may utilize a plurality of the thermal barriers to eliminate warm air bypass routes within the cabinet that deteriorate the cooling effect of air blowing across the equipment from front to back of the cabinet. Temperatures sensors and fens may be incorporated into the cabinet for additional temperature control. The thermal barriers and the control system may be part of a kit used retrofit existing cabinets.

Abstract: A wireless distribution secured cabling system includes faceplates, each of which contains an antenna or other radiating element and an active amplifier, which serves as a bi-directional repeater for the wireless communication system. The system further includes a patch panel or distribution module which connects multiple cables, which may be either twisted pair or coaxial, to amplifier, acting as a power divider and/or an impedance matching device. An antenna, which may be mounted either outside of a building structure or inside the building structure, provides communications between the structured cabling system and a service provider base station.

Abstract: An apparatus for enhancing wireless communications to and from a building is provided. A first antenna associated with the building for sending and receiving wireless signals to and from a wireless signal transponder located remote from the building and a signal path interface are provided. A first signal path is located between the first antenna and the signal path interface. The building includes a wiring system. At least a second signal path is located between the signal path interface and the wiring system. At least a portion of the wiring system is a second antenna for sending and receiving wireless signals to and from wireless devices located within the building.

Abstract: A telecommunications connectivity system including a patch panel comprising a plurality of ports, each port including first and second electrical terminals, the first electrical terminal enabling at least one data communications standard not enabled by the second electrical terminal. The telecommunications connectivity system also includes a terminal selection system including a terminal selector that houses an electrical connector. The terminal selector may be installed in one of the ports such that the electrical connector connects to either the first or second electrical terminal, as preselected. The telecommunications connectivity system also includes a wall receptacle system electrically connected to each of the ports, the wall receptacle system including first and second jacks, the first jack enabling at least one data communications standard not enabled by the second jack.

Abstract: A telecommunications connectivity system including a patch panel comprising a plurality of ports, each port including first and second electrical terminals, the first electrical terminal enabling at least one data communications standard not enabled by the second electrical terminal. The telecommunications connectivity system also includes a terminal selection system including a terminal selector that houses an electrical connector. The terminal selector may be installed in one of the ports such that the electrical connector connects to either the first or second electrical terminal, as preselected. The telecommunications connectivity system also includes a wall receptacle system electrically connected to each of the ports, the wall receptacle system including first and second jacks, the first jack enabling at least one data communications standard not enabled by the second jack.

Abstract: A telecommunications connectivity system including a patch panel comprising a plurality of ports, each port including first and second electrical terminals, the first electrical terminal enabling at least one data communications standard not enabled by the second electrical terminal. The telecommunications connectivity system also includes a terminal selection system including a terminal selector that houses an electrical connector. The terminal selector may be installed in one of the ports such that the electrical connector connects to either the first or second electrical terminal, as preselected. The telecommunications connectivity system also includes a wall receptacle system electrically connected to each of the ports, the wall receptacle system including first and second jacks, the first jack enabling at least one data communications standard not enabled by the second jack.

Abstract: A wireless distribution secured cabling system includes faceplates, each of which contains an antenna or other radiating element and an active amplifier, which serves as a bi-directional repeater for the wireless communication system. The system further includes a patch panel or distribution module which connects multiple cables, which may be either twisted pair or coaxial, to amplifier, acting as a power divider and/or an impedance matching device. An antenna, which may be mounted either outside of a building structure or inside the building structure, provides communications between the structured cabling system and a service provider base station.

Abstract: A telecommunications connectivity system including a patch panel comprising a plurality of ports, each port including first and second electrical terminals, the first electrical terminal enabling at least one data communications standard not enabled by the second electrical terminal. The telecommunications connectivity system also includes a terminal selection system including a terminal selector that houses an electrical connector. The terminal selector may be installed in one of the ports such that the electrical connector connects to either the first or second electrical terminal, as preselected. The telecommunications connectivity system also includes a wall receptacle system electrically connected to each of the ports, the wall receptacle system including first and second jacks, the first jack enabling at least one data communications standard not enabled by the second jack.

Abstract: A telecommunications connectivity system including a patch panel comprising a plurality of ports, each port including first and second electrical terminals, the first electrical terminal enabling at least one data communications standard not enabled by the second electrical terminal. The telecommunications connectivity system also includes a terminal selection system including a terminal selector that houses an electrical connector. The terminal selector may be installed in one of the ports such that the electrical connector connects to either the first or second electrical terminal, as preselected. The telecommunications connectivity system also includes a wall receptacle system electrically connected to each of the ports, the wall receptacle system including first and second jacks, the first jack enabling at least one data communications standard not enabled by the second jack.

Abstract: A telecommunications connectivity system including a patch panel comprising a plurality of ports, each port including first and second electrical terminals, the first electrical terminal enabling at least one data communications standard not enabled by the second electrical terminal. The telecommunications connectivity system also includes a terminal selection system including a terminal selector that houses an electrical connector. The terminal selector may be installed in one of the ports such that the electrical connector connects to either the first or second electrical terminal, as preselected. The telecommunications connectivity system also includes a wall receptacle system electrically connected to each of the ports, the wall receptacle system including first and second jacks, the first jack enabling at least one data communications standard not enabled by the second jack.

Abstract: A splice module for use in fiber optic cable alignment and splicing devices is disclosed, having a multi-piece v-groove module and, in one embodiment, a separately disposable electrode module such that in use only the electrode module needs to be replaced after each fiber optic cable splicing operation. The v-groove module comprises three pieces of nonconductive ceramic material held together with an adhesive. The three pieces provide for a precision v-groove for fiber optic cable alignment during mechanical splicing or fusion splicing. The electrode module includes a nonconductive ceramic with plated electrode circuit and an adhesive for mounting in the v-groove module. The electrode module provides the arc for fusing fiber optic cable and is designed to be user replaceable and inexpensive. Also disclosed is a tool and method for the easy user replacement of the electrode module of the present invention.