Abstract: The present disclosure relates to a fiber optic network including a fiber distribution hub having a cabinet, an optical splitter within the cabinet, a hub termination region within the cabinet, a signal input location and an output cable connection location. The fiber optic network also includes a fiber distribution terminal including a terminal housing, a terminal termination region and a terminal spool. The fiber optic network further includes a wall box having a wall box enclosure, a fiber optic adapter positioned at the wall box enclosure and a wall box spool. A first fiber optic cable is wrapped around the terminal spool. The first fiber optic cable interconnects the fiber distribution terminal to the output cable connection location of the fiber distribution hub. The terminal spool rotates about a first axis to allow the first fiber optic cable to be dispensed from the terminal spool. A second fiber optic cable is wrapped around the wall box spool.

Abstract: Certain example embodiments of a splice enclosure include a housing defining an opening for allowing a trunk cable to be passed through the housing. The splice enclosure also includes a splice tray stack pivotally mounted within the housing and a cable management tray that mounts within the housing beneath the splice tray stack. The management tray includes cable retention and/or securement arrangements for mechanically securing the cables to the splice enclosure.

Abstract: The present invention relates to an electronic signal switching module with connectors on a first side for connecting with a variety of devices and sources and with jacks for receiving patch cords on a second side. The switching modules include two position switches in the circuitry connecting the jacks with the connectors which allow the module to be configured as a straight-through patching module, a fully normal module with paired jacks or a half normal module with paired jacks. One alternative of the invention utilizes card edge connectors on the first side. Another aspect of the invention involves a chassis for holding a plurality of switching modules adjacent to and electronically connected with a plurality of connecting modules. The switching modules may also include designation lenses adjacent to the jacks for holding indicia.

Abstract: A latch and handle arrangement for a panel that provides a number of functions. The arrangement including a lever arm that functions as both a handle and a latch release in some panel and frame embodiments. The lever arm also functioning as a fastener cover in other panel and frame embodiments.

Abstract: The present disclosure relates to a drop cable assembly including a fiber optic drop cable having a length that extends from a first end of the fiber optic drop cable to an opposite second end of the fiber optic drop cable. The fiber optic drop cable also includes an intermediate location located between the first and second ends of the fiber optic drop cable. The drop cable assembly also includes a first fiber optic connector mounted at the first end of the fiber optic drop cable and a second fiber optic connector mounted at the second end of the fiber optic drop cable. The drop cable assembly further includes an optical fiber that extends continuously without splicing along the length of the fiber optic drop cable from the first fiber optic connector to the second fiber optic connector.

Abstract: The invention relates to a distributor connection module (1) comprising a housing (2) in which at least one printed circuit board (3) with function elements (30) is arranged, input contacts (20) and output contacts (21) for connecting cores, wherein the input and output contacts (20, 21) are accessible from the front (V) of the distributor connection module (1) and are or can be electrically connected to one another by means of the printed circuit board (3), wherein the input and output contacts (20, 21) are arranged on a separate second printed circuit board (6), wherein the separate second printed circuit board (6) has an interface for connection to the first printed circuit board (3) with the function elements (30), which interface is designed in the form of a disconnecting plug (9) with disconnecting contacts (23), wherein electrical connections are fed from the input and output contacts (20, 21) to the disconnecting contacts (23), wherein one input contact (20) is connected to one output contact (21) in

Abstract: A fiber optic cable assembly includes an optical fiber, a strength layer surrounding the optical fiber and an outer jacket surrounding the strength layer. The outer jacket includes a base material having a Shore D Hardness of at least 85 and liquid crystal polymer embedded in the base material. The liquid crystal polymer constitutes less than 2% of the outer jacket by weight.

Abstract: The present disclosure relates to a telecommunications distribution cabinet having a cabinet housing in which a first swing frame and a second swing frame are pivotably mounted.

Abstract: A fiber optic module includes a housing defining an interior region. A bulkhead assembly is in engagement with the housing. The bulkhead assembly includes a plurality of input adapter ports, a plurality of output adapter ports, and a plurality of monitor ports. A high-density planar lightwave circuit chip is disposed in the interior region of the housing and includes a plurality of optical splitters.

Abstract: An interface device and method for testing a telecommunication circuit by utilizing a test cord that has a first end that is integrated with the interface device and a second end that terminates with a test connector. Upon insertion of the test connector into a test port of a connectivity block, the interface device may be configured to allow for monitoring of the telecommunication circuit, without disrupting the circuit. Similarly, the interface device may be configured to disrupt the telecommunication circuit and allow a user to examine both sides of the circuit.

Abstract: 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.

Abstract: A method for determining an end of a first period in which signals are communicated in a first direction is provided. The method comprises sampling a signal for a period of time up to at least as long as the longest expected length of the first period to obtain a sampled signal. The sampled signal is integrated to obtain an integrated power curve. A reference line is subtracted from the integrated power curve to obtain a rotated power curve. A peak in the rotated power curve is selected as an end of the first period.

Abstract: A wireless distribution system includes a number of remote units distributed in a coverage area to receive wireless signals and to provide the signals through the distribution system to input ports of a node where the signals are combined, a number of input power monitors operatively connected to one or more of the input ports to determine power levels of signals received at the input ports, variable gain controllers to control signals received at some or all of the input ports, a node to combine a plurality of signals from the plurality of input ports, and a controller to provide control signals to control one or more of the variable gain controllers.

Abstract: In order to provide a bone substitution material which enables mechanical stability and long-term in-vivo biocompatibility which can also be used for guided bone healing, the invention provides a method comprising the steps of providing a starting material comprising a mixture of at least a skeleton substance (20) and at least one functional substance, and building up a skeleton from the skeleton substance, thereby producing a profiled body (30), as well as a profiled body (30) containing a skeleton substance (20) and comprising a porous structure (10) with pores (12, 15) being interconnected with each other.

Abstract: A fiber optic cable assembly includes a fiber optic cable and a cable pulling assembly. The fiber optic cable includes a first end and an oppositely disposed second end. The fiber optic cable further includes an outer jacket and a strength member disposed in the outer jacket. The cable pulling assembly is engaged to the second end of the fiber optic cable. The cable pulling assembly includes an enclosure defining a cavity. The second end of the fiber optic cable is disposed in the cavity. An adhesive is disposed in the cavity. The adhesive secures the strength member of the fiber optic cable to the enclosure.

Abstract: A communication system that comprises at least two links to carry signals, a first communication unit and a second communication unit. The first communication unit comprises at least two ports, each port configured to transmit and receive signals; and a logic unit configured to process the signals transmitted and received by each of the at least two ports in the first communication unit. The second communication unit comprises at least two ports, each port configured to transmit and receive signals and coupled to a respective one of the at least two ports in the first communication unit via a respective one of the at least two links; a programmable logic unit configured to process the signals transmitted and received by each of the at least two ports in the second communication unit; and a processor.

Abstract: The invention relates to a driver assistance system for a motor vehicle, comprising a surroundings sensor and an evaluation unit for the surroundings sensor data, wherein the evaluation unit is provided with data from a positioning device and reduced data from a digital road map.

Abstract: A tool for engaging a telecommunications connector within a slot so that a releasable latch of the connector is released by the tool. The tool may be used to remove a telecommunications connector from a mating opening of a receptacle or may be used to insert a connector within a receptacle.

Abstract: A cable management panel including a chassis, a drawer, and a rear latch arrangement. The rear latch arrangement including a latch having a free tab end. The free tab end engaging the front edge of a top wall of the chassis to prevent inadvertent closing movement of the drawer relative to the chassis.

Abstract: Systems and methods for orthogonal frequency division multiplexing are provided. In one embodiment, a multi-carrier modem comprising: a receiver configured to de-modulate symbols from at least one of a plurality of spectrally overlapping carrier signals; a transmitter configured to modulate symbols onto at least one of a plurality of the spectrally overlapping carrier signals; a processor coupled to the transmitter, wherein the processor outputs data for transmission by the transmitter, wherein the processor applies an inverse Fourier transform to the data transmitted by the transmitter; and a controller programmed to instruct the transmitter to transmit a coarse timing adjustment followed by at least one secondary timing adjustment, wherein the secondary timing adjustment is a fine tuning adjustment with respect to the coarse timing adjustment.