| ADC Telecommunications, Inc. Patent applications |
| Patent application number | Title | Published |
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| 20120128311 | WAVELENGTH DIVISION MULTIPLEXING MODULE - A telecommunications module includes an optical wavelength division multiplexer/demultiplexer configured to demultiplex a first optical signal input into the telecommunications module into a plurality of different wavelengths, a fiber optic splitter configured to split a second optical signal input into the telecommunication module into a plurality of optical signals, and a plurality of optical add/drop filters, each of the optical add/drop filters configured to combine one of the optical signals that has been split by the fiber optic splitter and one of the wavelengths that has been demultiplexed by the optical wavelength division multiplexer/demultiplexer into a combination output signal that is output from the telecommunications module. | 05-24-2012 |
| 20120128309 | Lashing Together Multiple Fiber Optic Telecommunications Cables - A lashing assembly lashes together two or more fiber optic telecommunications cables. The lashing assembly comprises at least a first and a second bobbin. As the cables are passed through the first bobbin, twine pays off from the first bobbin and wraps around the cables in a clockwise helix. As the cables are passed through the second bobbin, twine pays off from the second bobbin and wraps around the cables in a counterclockwise helix. In this way, the twine from the first and second bobbins lash the cables together as the cables are passed through the first and second bobbins. | 05-24-2012 |
| 20120121249 | SYSTEMS AND METHODS OF OPTICAL PATH PROTECTION FOR DISTRIBUTED ANTENNA SYSTEMS - Systems and methods for optical path protection for distributed antenna systems are provided. In one embodiment, a system comprises a hub and at least one node located remotely from the hub. The hub is coupled to the node by first and second fiber paths, the first fiber path comprising an uplink fiber and a downlink fiber, the second fiber path comprising an uplink fiber and a downlink fiber. The node is coupled to the downlink fibers of the first and second fiber paths via an optical combiner, and is further coupled to the uplink fibers of the first and second fiber paths via an optical splitter. The node further monitors a signal quality of a downlink optical signal and communicates to the hub information indicative of the signal quality. The hub switches communications between the hub and the node from the first to second fiber path based on the information. | 05-17-2012 |
| 20120111809 | CABLE MANAGEMENT ASSEMBLY, SYSTEM AND METHOD - A cable management assembly, and method related thereto, including a riser panel having an interface portion and a plurality of cable management devices. The interface portion having a plurality of shaped apertures. The cable management devices having attachments that correspond to the shaped apertures to secure the cable management devices to the panel at selected vertical and horizontal locations. The cable management assembly being configured to extend between two adjacent telecommunications racks or to couple to the end of a telecommunications rack. | 05-10-2012 |
| 20120106914 | FIBER OPTIC CABLE PASS-THRU FITTING - A cable pass-thru assembly includes a fiber optic cable and a cable pass-thru fitting. The fiber optic cable includes an optical fiber and a strength member. The cable pass-thru fitting is adapted to receive at least a portion of the fiber optic cable. The cable pass-thru fitting includes a housing assembly and an insert assembly. The housing assembly defines a bore. The insert assembly is adapted for engagement with the housing assembly. At least a portion of the insert assembly is disposed in the bore of the housing assembly. The insert assembly includes a nozzle and a retention member. The nozzle defines a cable passage through which the optical fiber of the fiber optic cable passes. The retention member is engaged with the nozzle so that the strength member is captured between the nozzle and the retention member. | 05-03-2012 |
| 20120106905 | FLAT DROP CABLE - An example fiber optic cable includes an outer jacket having an elongated transverse cross-sectional profile defining a major axis and a minor axis. The transverse cross-sectional profile has a maximum width that extends along the major axis and a maximum thickness that extends along the minor axis. The maximum width of the transverse cross-sectional profile is longer than the maximum thickness of the transverse cross-sectional profile. The outer jacket also defines first and second separate passages that extend through the outer jacket along a lengthwise axis of the outer jacket. The second passage has a transverse cross-sectional profile that is elongated in an orientation extending along the major axis of the outer jacket. The fiber optic cable also includes a plurality of optical fibers positioned within the first passage a tensile strength member positioned within the second passage. | 05-03-2012 |
| 20120106657 | DISTRIBUTED ANTENNA SYSTEM WITH COMBINATION OF BOTH ALL DIGITAL TRANSPORT AND HYBRID DIGITAL/ANALOG TRANPSORT - A communication system includes master host unit, hybrid expansion unit, analog remote antenna unit, and digital remote antenna unit. Master host unit communicates analog signals with at least a first service provider interface using first bands of analog spectrum. Master host unit and hybrid expansion unit communicate first N-bit words of digitized spectrum over first digital link. Hybrid expansion unit converts between first N-bit words and second bands of analog spectrum. Hybrid expansion unit and analog remote antenna unit communicate second bands over analog medium. Analog remote antenna unit transmits and receives first plurality of wireless signals over air interfaces. Master host unit and digital remote antenna unit communicate second N-bit words of digitized spectrum over second digital link. Digital remote antenna unit converts between second N-bit words and third bands of analog spectrum. Digital remote antenna unit transmits and receives second wireless signals over air interfaces. | 05-03-2012 |
| 20120093475 | CABLE MANAGEMENT PANEL WITH SLIDING DRAWER - An optical fiber cable management panel is provided with slideable drawers and structure within the drawers for cable management and/or connection to other devices. Tray inserts drop into the drawers to provide the appropriate management and connection devices. A movable take-up mechanism manages the cable entering and exiting the drawers at side openings. Stackable pivoting storage trays on the tray insert include a detent arrangement for holding each tray in a pivoted access position. The tray inserts further include a front key, and a back tab mounting arrangement for mounting the tray inserts to the drawers, and side radius limiters including notches for extending over raised portions of the drawer. The take-up mechanism includes a U-shaped trough section and cable retention tabs. A control mechanism is provided for controlling movement of the take-up mechanism relative to the drawer. | 04-19-2012 |
| 20120093084 | MODULAR WIRELESS COMMUNICATIONS PLATFORM - A modular wireless communications platform is provided. The modular wireless communications platform has a modular host unit and a modular remote unit in communication with the modular host unit. The modular host unit and remote unit include a serial radio frequency communicator configured to convert serial digital data into RF sampled data and configured to convert RF sampled data into serial digital data. The modular host unit and remote unit also include an interface coupled to the serial radio frequency communicator and configured to allow transfer of the RF sampled data from the serial radio frequency communicator to a digital to analog radio frequency transceiver module. | 04-19-2012 |
| 20120088412 | ELECTRICAL PLUG WITH MAIN CONTACTS AND RETRACTABLE SECONDARY CONTACTS - Aspects of the disclosure related to a plug module including main contacts that connect to conductors of an electrical cable and retractable secondary contacts that connect to a storage component installed on the plug module. The secondary contacts may be releasably latched in the retracted position. The secondary contacts may be biased to the extended position. The storage component may move along with the secondary contacts. | 04-12-2012 |
| 20120087628 | FIBER OPTIC CABLE PASS-THRU FITTING - A cable pass-thru assembly includes a fiber optic cable and a cable pass-thru fitting. The fiber optic cable includes an optical fiber and a strength member. The cable pass-thru fitting is adapted to receive at least a portion of the fiber optic cable. The cable pass-thru fitting includes a fitting assembly having a body defining a thru-bore that extends through the body. The thru-bore includes a tapered portion. The cable pass-thru fitting further includes a cable retention member adapted for engagement with the tapered portion of the body. The cable retention member defines a plurality of through which the strength member of the fiber optic cable is routed. The plurality of grooves is adapted to secure the strength member when the cable retention member is inserted into the thru-bore. | 04-12-2012 |
| 20120084108 | SYSTEMS AND METHODS FOR A WORK FLOW MANAGEMENT APPLICATION SUITE FOR MOBILE COMMUNICATIONS DEVICES - Systems and methods for a work flow management application suite for mobile communications devices are provided. In one embodiment, a method for providing work flow management from a mobile communication unit comprises: initiating a login from the mobile communication unit to a back-end database by transmitting a unique device ID for the mobile communication unit, a username and password to a supervisory server; when the logon is granted, retrieving project information records from the back-end database for one or more projects assigned to the username; and displaying on the mobile communication unit a schedule of project information for the one or more projects based on the project information records, wherein the project information includes a Method of Procedure (MOP) status for each of the one or more projects, the MOP status indicating whether a MOP to perform a work task is currently valid. | 04-05-2012 |
| 20120064770 | OVERVOLTAGE PROTECTION PLUG - An overvoltage protection plug is disclosed. The plug includes a housing forming a body, a handle, and an insertion portion. The plug further includes a circuit board mounted at least partially within the body. A portion of the circuit board protrudes from the housing at the insertion portion and includes metallic connection pads configured for interconnection to a connection block. The plug also includes a gas tube mounted to the circuit board and residing within the housing, the gas tube electrically connected to the metallic connection pads by a plurality of circuit traces on the circuit board. The handle of the housing can extend rearward from a top edge of the housing. The body can include an interior cavity having generally parallel side walls including a thinned region surrounding the gas tube. A circuit connection block assembly is also disclosed. | 03-15-2012 |
| 20120045177 | DUAL INNER DIAMETER FERRULE DEVICE AND METHOD - A fiber optic ferrule includes a body extending from a first end to a second opposite end, with the body including an axial passage extending between the first and second ends. The axial passage includes a first diameter portion having a diameter of at least 125 microns, and a second diameter portion having a diameter of at least 250 microns and less than a diameter of the buffer, the second diameter portion positioned between the first diameter and the second end. The axial passage further defines a tapered shape at the second end extending inward from the second end to the second diameter portion. A hub holds the ferrule. A method of assembling a terminated fiber optic cable is also provided. | 02-23-2012 |
| 20120034798 | HIGH DENSITY COAXIAL SWITCHING JACK - A coaxial switching jack with a pair of coaxial assemblies mounted within a housing having a pair of front openings. The coaxial assemblies each include a center conductor and a shell conductor. The center conductors are connected by a first spring and the shell conductors are connected by a second spring. Insertion of a coaxial cable connector within one of the front openings deflects the springs from the corresponding coaxial assembly and disconnects the center and shell conductors of the two assemblies. The jack may also be configured to provide an electrical connection between the center and shell conductors of the second coaxial assembly if a coaxial cable connector is inserted within the first coaxial assembly. The connection between the center and shell conductors of the second coaxial assembly may allow for selection of a desired electrical impedance. | 02-09-2012 |
| 20120033927 | WAVELENGTH DIVISION MULTIPLEXING MODULE - A telecommunications module includes a main housing portion and a cover, the main housing portion defining a first sidewall, a front wall, a rear wall, a top wall, and a bottom wall, the cover defining a second sidewall when mounted on the main housing portion. An optical component located within the module receives an input signal from a signal input location of the housing and outputs an output signal toward a signal output location on the front wall. The telecommunications module is configured such that the signal input location can be selected to be either on the front wall or the rear wall of the main housing. The cover defines a protrusion extending from the second sidewall toward the main housing portion, the protrusion being selectively breakable to expose a recess on the front wall of the main housing portion that defines a signal input location. | 02-09-2012 |
| 20120032034 | LATERAL STORAGE SPOOL FOR OVERHEAD CABLE PATHWAY - A system including an overhead cable pathway structure and a cable storage device that mounts overhead to the cable pathway structure. The cable storage device including a storage spool and a cable pathway exit having a curved surface that guides excess cable exiting from the overhead cable pathway structure to the spool. | 02-09-2012 |
| 20120027355 | Architecture for a Fiber Optic Network - The present disclosure relates to a fiber optic network architecture that uses outside plant fan-out devices to distribute optical signals between fiber distribution hubs and multi-service terminals. The network architecture can also include collector boxes positioned at selected locations of the network architecture. Additionally, patching systems can be used in facilitating upgrading the capacity of the fiber optic network. | 02-02-2012 |
| 20120027145 | DISTRIBUTED DIGITAL REFERENCE CLOCK - A communication system includes master host unit, hybrid expansion unit, and remote antenna unit. Master host unit communicates analog signals with service provider interfaces. Master host unit and hybrid expansion unit communicate N-bit words of digitized spectrum over communication link. Hybrid expansion unit converts between N-bit words and analog spectrum. Hybrid expansion unit and remote antenna unit communicate analog spectrum over analog communication medium. Remote antenna unit transmits and receives wireless signals over air interfaces. Master host unit includes master clock distribution unit that generates digital master reference clock signal. Master host unit communicates digital master reference clock signal over communication link. Hybrid expansion unit receives digital master reference clock signal from master host unit over communication link and generates analog reference clock signal based on digital master reference clock signal. Hybrid expansion unit sends, and remote antenna unit receives, analog reference clock signal across analog communication medium. | 02-02-2012 |
| 20120023276 | SWITCH-STATE INFORMATION AGGREGATION - One switch-state aggregation technique uses a digital-to-analog converter in combination with an analog-to-digital converter to aggregate the state of a plurality of switches. Another switch-state aggregation technique uses input/output lines of a processor to aggregate the state of a plurality of switches and to communicate data other than the state of the switches. These techniques can be used to aggregate information about whether a plug or other connector is inserted into the ports of a patch panel or other telecommunication or communication assembly, system, or device. | 01-26-2012 |
| 20120020634 | Adapter panel with lateral sliding adapter arrays - An adapter panel arrangement including a chassis and a panel of adapters. The adapters defining open rearward cable connections and open forward cable connections of the panel arrangement. The adapters being arranged in arrays that slide independently of other adapter arrays to provide access to the open rearward and open forward cable connections. | 01-26-2012 |
| 20120020633 | Adapter panel with lateral sliding adapter arrays - An adapter panel arrangement including a chassis and a panel of adapters. The adapters defining rearward cable connections and forward cable connections of the panel arrangement. Openings permitting access to the rearward and forward cable connections of the adapters are provided. The chassis further including a removable rear chassis portion to provide access to cable routing areas within the chassis interior. | 01-26-2012 |
| 20120014655 | FIBER OPTIC MODULE AND SYSTEM INCLUDING REAR CONNECTORS - A telecommunications assembly including a housing and a plurality of modules mounted within the housing. The modules includes a rear face in which is mounted at least one fiber optic connector. Within an interior of the housing are positioned at least one fiber optic adapters. Inserting the module through a front opening of the housing at a mounting location positions the connector of the module for insertion into and mating with the adapter of the housing. The adapters within the interior of the housing are mounted to a removable holder. A method of mounting a telecommunications module within a chassis. | 01-19-2012 |
| 20120012713 | SLIDE ARRANGEMENT FOR CABLE DRAWER - A drawer slide having first and second rails interconnected by a center rail. The center rail includes a spool configured to provide half-speed travel of the center rail relative to the travel of the first rail. The drawer slide is configured for use with a drawer assembly having a drawer and a chassis. The drawer assembly further includes a radius limiter secured to the center rail. The radius limiter travels at half-speed relative to the drawer. The radius limiter also automatically rotates relative to the travel of the drawer. The chassis includes sides including threaded backing plates, and mounting brackets. The mounting brackets include tri-lobed holes for receipt of a reciprocally shaped washer and a fastener for mounting the brackets to the chassis sides. | 01-19-2012 |
| 20120008909 | FIBER ACCESS TERMINAL - A fiber access terminal for mounting to the end of a fiber distribution cable and configured to be extended through a buried conduit. The fiber distribution cable may include a plurality of optical fibers and enters a housing of the terminal through a base. The terminal also includes a plurality of fiber optic connectors or adapters extending through the housing in generally the same direction as the fiber distribution cable for connecting to optical fiber customer drop cables. The terminal includes a cover and the housing defining an interior and the interior includes a cable slack storage arrangement providing bend radius protection for the optical fiber cables within the interior. A method of assembling a fiber access terminal. A fiber access terminal assembly including a pedestal mounting arrangement. | 01-12-2012 |
| 20110318970 | TELECOMMUNICATIONS DEVICE - The present disclosure relates to a telecommunications jack including a housing having a port for receiving a plug. The jack also includes a plurality of contact springs adapted to make electrical contact with the plug when the plug is inserted into the port of the housing, and a plurality of wire termination contacts for terminating wires to the jack. The jack further includes a circuit board that electrically connects the contact springs to the wire termination contacts. The circuit board includes a multi-zone crosstalk compensation arrangement for reducing crosstalk at the jack. | 12-29-2011 |
| 20110318965 | TELECOMMUNICATIONS DEVICE - The present disclosure relates to a telecommunications jack including a housing having a port for receiving a plug. The jack also includes a plurality of contact springs adapted to make electrical contact with the plug when the plug is inserted into the port of the housing, and a plurality of wire termination contacts for terminating wires to the jack. The jack further includes a circuit board that electrically connects the contact springs to the wire termination contacts. The circuit board includes a multi-zone crosstalk compensation arrangement for reducing crosstalk at the jack. | 12-29-2011 |
| 20110317975 | TRANSITION HOUSING AND CAP FOR FIBER BREAKOUT ASSEMBLY - A breakout assembly in accordance with one aspect of the invention includes a housing including a tubular body defining a passage extending from a first end to an opposite second end of the body. An interior surface of the body includes a plurality of longitudinal guides, the interior surface further including a stop. The tubular body defines a plurality of openings extending through the body on opposite sides of the stop. The breakout assembly further includes a cap which is slidably received within the body of the housing, wherein notches within the cap receive the guides of the housing, and wherein the cap is engageable with the stop. The cap defines a plurality of internal openings extending through the cap. A multi-fiber cable can be received within the body from one end, and a plurality of breakout tubings are received within the body of the opposite end. The multi-fiber cable includes a breakout end terminating within the tubular body wherein a plurality of the broken out fibers pass through the cap, and into the breakout tubings. In one preferred embodiment, epoxy is placed within the tubular body, on opposite sides of the cap. | 12-29-2011 |
| 20110317974 | Telecommunications Assembly - A telecommunications assembly includes a chassis defining an interior region and a tray assembly disposed in the interior region. The tray assembly includes a tray and a cable spool assembly. The cable spool assembly is engaged to a base panel of the tray. The cable spool assembly is adapted to rotate relative to the tray. The cable spool assembly includes a hub, a flange engaged to the hub and an adapter module. The flange defines a termination area. The adapter module is engaged to the termination module of the flange. The adapter module is adapted to slide relative to the flange in a direction that is generally parallel to the flange between an extended position and a retracted position. | 12-29-2011 |
| 20110317973 | FIBER OPTIC TERMINATION SYSTEM - A fiber optic telecommunications frame is provided including termination modules positioned on left and right sides of the frame. The frame further includes left and right vertical cable guides. The frame includes a horizontal passage linking the left and right panels and the cable guides. The termination modules hold fiber optic modules with front termination locations. The fiber optic modules can house couplers, such as splitters, combiners, and wave length division multiplexers. A retention mechanism retains each fiber optic module in a partially removed position from the termination module. | 12-29-2011 |
| 20110317348 | WALL-MOUNTABLE MEDIA CONVERTER - In one embodiment, a media converter comprises a power interface that extracts power from a communication medium coupled to the media converter for powering the media converter. In another embodiment, a connector comprises a first media attachment interface to physically attach a first communication medium to the connector and a second media attachment interface to physically attach a second communication medium to the connector. The connector further comprises a mounting interface to physically attach the connector to a structure. The connector communicatively couples the first communication medium and the second communication medium. The connector processes management data communicated over at least one of the first communication medium and the second communication medium. | 12-29-2011 |
| 20110315427 | COMMUNICATION WIRE - The present invention relates to an improved isolated core or insulated conductor with a low dielectric constant and reduced materials costs. Apparatuses and methods of manufacturing the improved isolated core or insulated conductor are also disclosed. | 12-29-2011 |
| 20110311226 | Methods and Systems for Distributing Fiber Optic Telecommunication Services to Local Areas and for Supporting Distributed Antenna Systems - A fiber optic network includes a fiber distribution hub including at least one splitter and a termination field; a plurality of drop terminals optically connected to the fiber distribution hub by a plurality of distribution cables; and a distributed antenna system (DAS). The DAS includes a base station and a plurality of antenna nodes. The base station is optically connected to the fiber distribution hub and the antenna nodes are optically connected to the drop terminals. Example splitters include a passive optical power splitter and a passive optical wavelength splitter. Signals from a central office can be routed through the passive optical power splitter before being routed to subscriber locations optically connected to the drop terminals. Signals from the base station can be routed through the wavelength splitter before being routed to the antenna nodes. | 12-22-2011 |
| 20110311185 | IN-LINE SPLICE WITH INTEGRATED SPLICE HOLDER - A fiber optic cable assembly includes a connector and a fiber optic cable. The connector includes a housing having a first axial end and an oppositely disposed second axial end. A ferrule is disposed in the housing. A plurality of optical fibers is mounted in the ferrule. The fiber optic cable includes an outer jacket defining a fiber passage that extends longitudinally through the outer jacket and a window that extends through the outer jacket and the fiber passage. First and second strength members are oppositely disposed about the fiber passage in the outer jacket. A plurality of optical fibers is disposed in the fiber passage. The optical fibers are joined at splices to the optical fibers of the connector. A splice sleeve is disposed over the splices. The splice sleeve is disposed in the window of the outer jacket. | 12-22-2011 |
| 20110308838 | COMMUNICATION WIRE - The present invention relates to an improved isolated core or insulated conductor with a low dielectric constant and reduced materials costs. Apparatuses and methods of manufacturing the improved isolated core or insulated conductor are also disclosed. | 12-22-2011 |
| 20110308837 | COMMUNICATION WIRE - The present invention relates to an improved isolated core or insulated conductor with a low dielectric constant and reduced materials costs. Apparatuses and methods of manufacturing the improved isolated core or insulated conductor are also disclosed. | 12-22-2011 |
| 20110306380 | SYSTEMS AND METHODS FOR DISTRIBUTED ANTENNA SYSTEM REVERSE PATH SUMMATION USING SIGNAL-TO-NOISE RATIO OPTIMIZATION - Systems and methods for distributed antenna system reverse path summation using signal-to-noise ratio optimization are provided. In one embodiment, a method for reverse path summation for a distributed antenna system comprises: normalizing an uplink noise floor for a plurality of remote antenna units of a distributed antenna system, wherein the uplink noise floor is normalized based on a first remote antenna unit having a lowest noise floor of the plurality of remote antenna units; and scaling an uplink output gain of each of the plurality of remote antenna units by a scaling factor, wherein the scaling factor attenuates the uplink output gain based on a composite maximum host peak power for a host unit coupled to the plurality of remote antenna units. | 12-15-2011 |
| 20110300815 | INTEGRAL LATCH MECHANISMS FOR MOUNTING ELECTRONICS MODULES - In one embodiment, a locking mechanism comprises: a lever-arm-component coupled to a first side of an module and a second side of the module that opposes the first side; the lever-arm-component rotates about a first axis; first and second latching-arm-components including latching-hooks, the first latching-arm-component coupled to the lever-arm-component on the first side and rotating about a second axis that run parallel to and offset from the first axis; the second latching-arm-component coupled to the lever-arm-component on the second side and rotating about the second axis; and a secondary fastener. The first and second axes are oriented in an over-center configuration such that when the lever-arm-component is rotated about the first axis from a first to second position, the second axis will pass through a locking axis and the latching-hooks apply a force against a mechanism of the enclosure that presses the module against a heat sink of the enclosure. | 12-08-2011 |
| 20110300745 | TELECOMMUNICATIONS PATCH PANEL WITH ANGLED CONNECTOR MODULES - A telecommunications patch panel is provided having a plurality of connector modules rotatably mounted to a frame member. Each connector module has a front face and an opposite facing rear face, and each front face includes a plurality of connector jacks. Each rear face includes a plurality of wire termination blocks. The wire termination blocks are electrically connected to the connector jacks. Each connector module is rotatable about a rotation axis relative to the frame member. A lock selectively locks each connector module to the frame member as desired. The connector jacks and the connector modules are arranged in linear arrays perpendicular to the axis of rotation. | 12-08-2011 |
| 20110297629 | HIGH DENSITY PANEL WITH ROTATING TRAY - The present invention relates to a telecommunications termination panel with a tray pivotably mounted within the front opening of a housing. The tray pivots about a hinge located adjacent one of the sides of the housing and includes a raised floor. The raised floor of the tray cooperates with the side adjacent the hinge and a bottom of the housing to define a cable path from a rear cable access port to an opening on the tray adjacent the hinge. The tray includes a plurality of connection locations and cable management structures to direct a telecommunications cable from the cable access port to a rear of the connection locations without violating bend radius rules. The tray may also include a temporary cable holder to assist in pulling cables through the rear opening into the housing. The present invention further relates to a telecommunications equipment rack with a termination panel with such a pivoting tray mounted to the rack. | 12-08-2011 |
| 20110289760 | Attachment of a Connector to a Fiber Optic Cable - This disclosure describes techniques for attaching a connector to a fiber optic cable. As described herein, lengthwise slits are made into the jacket and the buffer tube of a fiber optic cable, thereby exposing interior segments of the optical fibers of the fiber optic cable. A loop is then made in the fiber optic cable at the slits. The ends of the optical fibers can then telescopically slide out the end of the fiber optic cable. When this happens, the exposed interior segments of the optical fibers slide out of the buffer tube and the jacket through the slits, forming a smaller loop within the loop. A connector may then be attached to the exposed ends of the optical fibers. When the fiber optic cable is unlooped, the exposed interior segments of the optical fibers slide back into the buffer tube and jacket. The jacket may then be resealed. | 12-01-2011 |
| 20110287661 | HIGH DENSITY COAXIAL JACK - A coaxial switching jack with a pair of coaxial assemblies mounted within a housing having a pair of front cable connection locations is disclosed. The coaxial assemblies each include a center conductor and an outer shield conductor. The center conductors are connected by a first spring and the shell conductors are connected by a second spring. Insertion of a coaxial cable connector within one of the front cable connection locations deflects the springs from the corresponding coaxial assembly and disconnects the center and shell conductors of the two assemblies. The jack may also be configured to provide an electrical connection between the center and shell conductors of the second coaxial assembly if a coaxial cable connector is inserted within the first coaxial assembly. The connection between the center and shell conductors of the second coaxial assembly may be through a resistor assembly allowing for selection of a desired electrical impedance. | 11-24-2011 |
| 20110286712 | OPTICAL FIBER DISTRIBUTION FRAME WITH OUTSIDE PLANT ENCLOSURE - A fiber optic telecommunications frame is provided including panels having front and rear termination locations, the panels positioned on left and right sides of the frame. The frame includes vertical access for the rear cables. The frame further includes left and right vertical cable guides for the front patch cables. The frame further includes cable storage spools for the patch cables. The frame includes a horizontal passage linking the left and right panels and the cable guides. A portion of the frame defines splice tray holders and a central passage from the splice tray holders to the rear sides of the left and right panels. From a front of each panel, access to a rear of the panel is provided by the hinged panels. Alternatively, the panels can form connector modules with front termination locations and rear connection locations for connecting to the rear cables. The modules can house couplers, such as splitters, combiners, and wave division multiplexers. The termination locations can be located on the same side of the frame as the splice tray holders, or on an opposite side. An enclosure of the frame included hinged or otherwise moveable panels to allow access to the terminations or the splice trays. | 11-24-2011 |
| 20110286708 | Factory Spliced Cable Assembly - A telecommunications cable including a main cable having a central buffer tube enclosed within a cable jacket and a ribbon stack positioned within the buffer tube. The main cable includes a cut region where a slot has been cut through the cable jacket and the buffer tube to provide access to the ribbon stack during manufacture of the telecommunication cable. A tether branches from the main cable at the cut region. The tether includes an optical fiber that is optically coupled to an optical fiber of the ribbon stack. | 11-24-2011 |
| 20110286707 | FLAT DROP CABLE WITH MEDIAL BUMP - An example fiber optic cable includes an outer jacket having an elongated transverse cross-sectional profile defining a bowtie shape. The outer jacket defines at least first and second separate passages that extend through the outer jacket along a lengthwise axis of the outer jacket. The fiber optic cable includes a plurality of optical fibers positioned within the first passage and a tensile strength member positioned within the second passage. The tensile strength member has a highly flexible construction and a transverse cross-sectional profile that is elongated in the orientation extending along the major axis. | 11-24-2011 |
| 20110286154 | MODULAR POWER DISTRIBUTION SYSTEM AND METHODS - A modular power distribution system comprises a chassis; and a backplane including a power input, and a plurality of module connection locations. A plurality of modules are mounted in the chassis, each module mounted to one of the module connection locations. Each module includes: (i) an OR-ing diode; (ii) a circuit protection device; (iii) a microprocessor controlling the circuit protection device; and (iv) a power output connection location. A circuit option switch is located on each module for setting the current limits for each module. A control module is provided connected to the backplane. | 11-24-2011 |
| 20110285265 | FIBER DISTRIBUTION HUB WITH DUAL SWING FRAMES - 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. | 11-24-2011 |
| 20110280525 | Splice Enclosure Arrangement for Fiber Optic Cables - An optical fiber cable includes a first cable segment; a second cable segment; and a splice enclosure. The first cable segment can have a different configuration than the second cable segment. The splice enclosure is coupled to the strength member and strength component of the first cable segment and the second cable segment. One example splice enclosure includes a first enclosure body having a first threaded connection region and a second enclosure body having a second threaded connection region. Another example splice enclosure includes a tubular enclosure with two end caps. Cable retention members are positioned within the splice enclosure at fixed axial positions. | 11-17-2011 |
| 20110280521 | FIBER OPTIC CONNECTOR AND METHOD OF APPLYING SAME TO A FIBER OPTIC CABLE - A fiber optic connector includes a shroud, spring, ferrule mount, shrink tube, and ferrule. The connector terminates a fiber optic cable including an optical fiber and a strength member. The ferrule terminates the optical fiber and is mounted to the ferrule mount. The ferrule mount attaches to the strength member and includes an exterior retaining surface and a passage for the optical fiber. The shroud is mounted over the ferrule mount and includes an interior retaining surface. The exterior and the interior retaining surfaces engage to limit distal movement of the shroud relative to the ferrule mount and the attached cable. The spring engages the cable and the shroud and distally urges the shroud relative to the cable. The shrink tube forms a seal between the shroud and the cable and can proximally urge the shroud relative to the ferrule mount. This proximal urging is overcome by the spring. | 11-17-2011 |
| 20110277292 | RESKINNABLE FIBER DISTRIBUTION HUB - The housing of a telecommunications cabinet can be replaced without recabling the internal components by removing a panel arrangement from a cable access region of the cabinet to reveal an open end of the cable access region that is continuous with the open side of the cabinet. The frame is uncoupled from the cabinet and the cabinet is slid away from the internal components. The fiber optic cables pass through the open end of the cable access region and through the open side of the cabinet. | 11-17-2011 |
| 20110274403 | FIBER DISTRIBUTION HUB WITH PASS-THROUGH INTERFACES - A fiber distribution hub includes a chassis mounted to move relative to a cabinet. A termination field is mounted to the chassis. The chassis includes a first location at which a splitter region and a first pass-through region are positioned; and a second location at which a second pass-through region is positioned. The second location is spaced from the first location. Fibers input into adapters at the first pass-through region can be rerouted to act as splitter inputs at the splitter region. | 11-10-2011 |
| 20110272835 | TELECOMMUNICATIONS CABLE JACKET ADAPTED FOR POST-EXTRUSION INSERTION OF OPTICAL FIBER AND METHODS FOR MANUFACTURING THE SAME - The present disclosure relates to a telecommunications cable having a jacket including a feature for allowing post-extrusion insertion of an optical fiber or other signal-transmitting member. The present disclosure also relates to a method for making a telecommunications cable having a jacket including a feature for allowing post-extrusion insertion of an optical fiber or other signal-transmitting member. | 11-10-2011 |
| 20110262146 | FIBER TO THE ANTENNA - A cell site includes a tower, a multi-service terminal mounted to the tower and a base transceiver station in communication with the multi-service terminal. The multi-service terminal includes a housing and a plurality of adapters mounted to the housing. Each of the adapters includes an outer port accessible from outside the housing and an inner port accessible from inside the housing. | 10-27-2011 |
| 20110262100 | FIBER DISTRIBUTION HUB - A method for configuring an enclosure used in a communications network is described. The method may include providing a group of pigtails. The method may further include routing the group of pigtails circumferentially around a subscriber termination field, where the group of pigtails is associated with an optical splitter module used to convey optical signals to a destination, and where the routing is performed in a manner that does not substantially obstruct access to at least one of a group of subscriber terminations that are associated with the subscriber termination field. | 10-27-2011 |
| 20110262098 | Telecommunications Connection Cabinet - A telecommunications cabinet includes a cabinet housing; a fiber optic splitter; a plurality of spools disposed on a cable management surface; a panel oriented at a fixed angle relative to the access opening so that the panel extends laterally and rearwardly between the access opening and the cable management surface; and a plurality of adapters disposed on the panel. | 10-27-2011 |
| 20110262097 | CABLE MANAGEMENT ARRANGEMENT FOR A TELECOMMUNICATIONS CABINET - A telecommunications system including a frame to which telecommunications equipment is mounted. The frame defines a patch panel region and an active equipment region. Patch cords are interconnected between the patch panel region and the active equipment region. The system further includes a slack storage panel that stores patch cord slack. The slack storage panel defines a single cable routing pathway. The patch cords are routed through the slack storage panel such that no portion of the length of each patch cord overlaps itself. In systems including both copper and fiber cables, the copper cables are routed separately from the fiber cables. | 10-27-2011 |
| 20110262084 | FIBER OPTIC CABLE ASSEMBLY AND METHOD OF MAKING THE SAME - A fiber optic cable assembly includes a main fiber optic cable and a pre-connectorized fiber optic cable assembly. Optical fibers of the main fiber optic cable are mass fusion spliced to optical fibers of the pre-connectorized fiber optic cable assembly thereby forming a mass fusion splice. The mass fusion splice is positioned within an outer jacket of the main fiber optic cable. A reinforcing member and a protective transition member are applied to make the fiber optic cable assembly. A method of making the fiber optic cable assembly is also disclosed. | 10-27-2011 |
| 20110262080 | FIBER OPTIC CONNECTOR HOLDER AND METHOD - A fiber optic connector holder is sized to fit within an opening for mounting a fiber optic adapter. The fiber optic connector holder is configured to permit a fiber optic connector with a dust cap positioned about a ferrule and a polished end face of an optical fiber held by the ferrule to be inserted within and releasably held by the connector holder. A system for holding fiber optic connectors includes a fiber optic connector holder mounted within an opening in a bulkhead for mounting a fiber optic adapter. The fiber optic connector holder is configured to receive a fiber optic connector with a dust cap mounted about a ferrule and polished end face of an optical fiber held by the ferrule. A optical fiber connector may be held to a bulkhead when the fiber optic connector includes a dust cap mounted about a ferrule and a polished end face of an optical fiber held by the ferrule. | 10-27-2011 |
| 20110245976 | SYSTEMS AND METHODS FOR RETRACTABLE FAN COOLING OF ELECTRONIC ENCLOSURES - Systems and methods for a retractable fan cooling system for an electronics enclosure are provided. In one embodiment, a system comprises at least one cooling fan coupled to an electronics enclosure having a heat sink; and a fan positioning mechanism coupled to the at least one cooling fan. When a temperature inside the electronics enclosure is less than a first temperature, the positioning mechanism places the at least one cooling fan into a retracted position that does not inhibit a natural convective air flow across the heat sink. When the temperature inside the enclosure is greater than a second temperature, the positioning mechanism places the at least one cooling fan into an engaged position that produces a forced air flow across the heat sink. | 10-06-2011 |
| 20110242735 | FIBER DISTRIBUTION HUB WITH OUTSIDE ACCESSIBLE GROUNDING TERMINALS - The present disclosure relates to a telecommunications distribution hub having a cabinet that defines a primary compartment. The cabinet also includes one or more main doors for accessing the primary compartment. Telecommunications equipment is mounted within the primary compartment. The distribution hub further includes a secondary compartment that can be accessed from an exterior of the cabinet without accessing the primary compartment. A grounding interface is accessible from within the secondary compartment. | 10-06-2011 |
| 20110237182 | AUTOMATIC GAIN CONTROL CONFIGURATION FOR A WIDEBAND DISTRIBUTED ANTENNA SYSTEM - One embodiment is directed to a distributed antenna system in which a setting for automatic gain control functionality in at least one unit included in the system (for example, in a hub unit or a remote unit) is determined by interpolating between two detected levels measured at that unit while the automatic gain control functionality is operating in two respective predetermined configurations and by interpolating between two target levels that are associated with the two respective predetermined configurations. In one example, the intersection of the two resulting interpolations is used to determine the setting for the automatic gain control functionality. | 09-29-2011 |
| 20110237135 | Jack assembly - The present disclosure relates to a jack assembly including a jack mount having a front side and a rear side. A jack of the assembly is adapted to be slidably mounted in a jack receiving region of the jack mount. The jack assembly also includes a plurality of cross-connect contacts, and a rear interface assembly. The rear interface assembly includes a dielectric cover piece and a plurality of rear connectors that project outward from the dielectric cover piece. | 09-29-2011 |
| 20110235986 | OPTICAL FIBER DRAWER WITH CONNECTORIZED STUB CABLE - A drawer panel includes a chassis housing defining a first cable port; and a drawer mounted within the chassis housing. The drawer is configured to slide between an open position and a closed position. A termination region is positioned on the drawer. At least a first stub cable routed to the first cable port of the chassis housing. The first stub cable is terminated by a ruggedized multi-fiber connector. The drawer provides cable management to accommodate a change in slack length when the drawer is open and shut. A fanout device is mounted to the chassis housing with a mounting bracket. | 09-29-2011 |
| 20110235976 | Fiber connector and adapter - Fiberoptic connector and adapter assembly includes a fiberoptic connector received within an adapter. The connector has a cover on the connector housing. The cover pivots between open and closed positions to expose or cover, respectively, a optical fiber contained within the connector. Longitudinal guides of the connector are received cooperating with longitudinal guides of the adapter to direct the connector into the adapter in a prescribed alignment. A cam pin is carried on the adapter to engage a cam pin receiving slot on the cover to urge the cover to the open position as the connector is inserted into the adapter. | 09-29-2011 |
| 20110229103 | OPTICAL CABLE EXIT TROUGH - A cable exit trough is mountable to a lateral trough section either during initial assembly of the cable routing system, or at a later date. The exit trough includes a bracket portion mountable to the top edge of one of the sides of the lateral trough section. Two lead-ins are provided to lead the cable in an upward direction from the lateral trough section to the exit trough. The exit trough includes an exit trough portion extending from the bracket portion upwardly away from the lateral trough section. The exit trough portion includes a convexly curved bottom trough surface, and two convexly curved upstanding sides. The exit trough portion and the lead-ins define a cable pathway from the lateral trough section to an exit point of the exit trough portion which can either lead downwardly relative to the lateral trough section, or horizontally. | 09-22-2011 |
| 20110225797 | OPTICAL CABLE EXIT TROUGH - A cable exit trough is mountable to a lateral trough section either during initial assembly of the cable routing system, or at a later date. The exit trough includes a bracket portion mountable to the top edge of one of the sides of the lateral trough section. Two lead-ins are provided to lead the cable in an upward direction from the lateral trough section to the exit trough. The exit trough includes an exit trough portion extending from the bracket portion upwardly away from the lateral trough section. The exit trough portion includes a convexly curved bottom trough surface, and two convexly curved upstanding sides. The exit trough portion and the lead-ins define a cable pathway from the lateral trough section to an exit point of the exit trough portion which can either lead downwardly relative to the lateral trough section, or horizontally. | 09-22-2011 |
| 20110222830 | WAVELENGTH DIVISION MULTIPLEXING MODULE - A telecommunications assembly includes a chassis and a plurality of optical wavelength division multiplexer/demultiplexer modules mounted within the chassis. Each module includes at least one fiber optic connector. Within an interior of the chassis are positioned at least one fiber optic adapter. Inserting the modules through an opening of the chassis at a mounting location positions the connector of the module for insertion into and mating with the adapter of the chassis. A method of mounting an optical wavelength division multiplexer/demultiplexer module within a telecommunications chassis is also disclosed. | 09-15-2011 |
| 20110222825 | OPTICAL FIBER ASSEMBLY - An optical fiber assembly includes a core. The core includes a central portion and a plurality of fins that extends radially outward from the central portion. The central portion defines a central passage. The central portion and the plurality of fins cooperatively define a plurality of grooves that is helically oriented along a length of the core. A plurality of optical fibers is disposed in the plurality of grooves. A strength member is disposed in the central passage of the core. An outer covering surrounds the core. The outer covering is air permeable. | 09-15-2011 |
| 20110217015 | FIBER DISTRIBUTION HUB WITH CONNECTORIZED STUB CABLES - A fiber distribution hub includes an enclosure; a splitter region; a termination region including a plurality of adapters; at least a first feeder stub cable; and at least a first subscriber stub cable routed into the enclosure. The subscriber cable includes at least two optical fibers that each have a connectorized end inserted into one of the adapters at the termination region. The subscriber cable is terminated at a remote end by a multi-fiber connector. | 09-08-2011 |
| 20110217010 | FIBER OPTIC CABLE ASSEMBLY - A fiber optic cable assembly includes an outer jacket defining a first passage and a second passage disposed adjacent to the first passage. The outer jacket includes a wall disposed between an outer surface of the outer jacket and the first passage. A plurality of optical fibers is disposed in the first passage. A reinforcing member is disposed in the second passage. An access member is disposed in the wall of the outer jacket. | 09-08-2011 |
| 20110206339 | REAR LATCH ARRANGEMENT FOR SLIDING DRAWER - 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. | 08-25-2011 |
| 20110206338 | Cable Routing Devices with Integrated Couplers - A fitting for a cable trough system, the fitting including a bottom wall and side walls extending from at least a first terminal end to a second terminal end and forming a trough therebetween, the side walls being curved in a longitudinal direction, and an end portion formed at each of the first and second terminal ends, the end portion including first and second guiding surfaces defining a space therebetween, and a spring member positioned in the space. The space is sized to receive a terminal end of a trough member of the cable trough system, and wherein the spring member is positioned to engage the terminal end of the trough member to couple the trough member to the fitting. Other cable routing devices can also be used. | 08-25-2011 |
| 20110206337 | Grounding device for fiber storage trays - A cable management panel having a grounding arrangement. The grounding arrangement including a rolling ground strap interconnected to each of a drawer and a chassis of the cable management panel. The rolling ground strap being arranged to include a loop that rolls along the length of the ground strap. | 08-25-2011 |
| 20110206336 | Drawer arrangement with rack and pinion - A cable management panel including chassis, a sliding drawer, and a rack and pinion arrangement. The rack and pinion arrangement including a first length of track located on an interior surface of the chassis, a second length of track provided on a drawer slide, and a gear that engages both the first track and the second track to control the movement of a sliding radius limiter mounted to the drawer. | 08-25-2011 |
| 20110200286 | Ruggedized Fiber Optic/Electrical Connection System - A fiber optic and electrical connection system includes a fiber optic cable, a ruggedized fiber optic connector, a ruggedized fiber optic adapter, and a fiber optic enclosure. The cable includes one or more electrically conducting strength members. The connector, the adapter, and the enclosure each have one or more electrical conductors. The cable is terminated by the connector with the conductors of the connector in electrical communication with the strength members. The conductors of the connector electrically contact the conductors of the adapter when the connector and the adapter are mechanically connected. And, the conductors of the adapter electrically contact the conductors of the enclosure when the adapter is mounted on the enclosure. | 08-18-2011 |
| 20110188809 | FIBER OPTIC CABLE BUNDLE WITH STAGGERED CONNECTORS - A fiber optic cable bundle includes a first group of fiber optic cables and a second group of fiber optic cables. Each fiber optic cable in the first group includes a first axial end and an oppositely disposed second axial end. The first axial end of each fiber optic cable in the first group includes a connector. Each fiber optic cable in the second group includes a first axial end and an oppositely disposed second axial end. The first axial end of each fiber optic cable in the second group includes a connector. The connectors of the second group are offset from the connectors of the first group by a first axial offset distance. A plurality of binder members is contra-helically served about the first and second groups of fiber optic cables. | 08-04-2011 |
| 20110188383 | SYSTEM AND METHOD FOR ELECTRONICALLY IDENTIFYING CONNECTIONS OF A CROSS-CONNECT SYSTEM - One embodiment is directed to a cross-connect system. The cross-connect system comprises a plurality of termination points configured to establish a plurality of physical information connections and a plurality of physical scanning connections. Each information connection is associated with a respective scanning connection. Each scanning connection is separate from the respective information connection associated with that scanning connection. The system is configured to selectively transmit a respective scanning signal from each termination point over a respective one of the scanning connections. The system is configured to selectively receive a respective scanning signal at each termination point from a respective one of the scanning connections. Connection information is derived from the scanning signals communicated over the scanning connections. | 08-04-2011 |
| 20110181158 | FIBER DISTRIBUTION ENCLOSURE - An optical fiber distribution assembly is disclosed. The assembly includes an enclosure formed by a circular base and a cover joined at a waterproof seal. The base includes openings configured to accept an input cable and an output cable. The assembly also includes an inner body formed by four panel members to define four quadrants. In one example, the inner body is formed by two panel members positioned perpendicularly to one another. Disposed on the inner body are plurality of cable management structures including: radius limiters, splice trays, splitters, terminations, and connector storage holders. | 07-28-2011 |
| 20110176785 | FIBER OPTIC CONNECTOR HOLDER - A fiber optic connector holder including a housing with at least one cavity for receiving a fiber optic connector with a dust cap in place about a terminal end of the connector. The housing may be integrally molded with retaining structures for releasably engaging the fiber optic connector and releasable catches for mounting the housing at a mount location. The presence of a fiber optic connector within a cavity of the housing may prevent the removal of the housing from a mounting location. | 07-21-2011 |
| 20110158599 | FIBER OPTIC ENCLOSURE WITH INTERNAL CABLE SPOOL - A fiber optic enclosure assembly includes a housing having an interior region and a bearing mount disposed in the interior region of the housing. A cable spool is connectedly engaged with the bearing mount such that the cable spool selectively rotates within the housing. A termination module disposed on the cable spool so that the termination module rotates in unison with the cable spool. A method of paying out a fiber optic cable from a fiber optic enclosure includes rotating a cable spool, which has a subscriber cable coiled around a spooling portion of the cable spool, about an axis of a housing of the fiber optic enclosure until a desired length of subscriber cable is paid out. A termination module is disposed on the cable spool. | 06-30-2011 |
| 20110158598 | Methods, Systems and Devices for Providing Fiber-to-the-Desktop - 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. The second fiber optic cable is optically connected to the fiber distribution terminal. The wall box spool rotates about a second axis to allow the second fiber optic cable to be dispensed from the wall box spool. | 06-30-2011 |
| 20110154643 | CABLE SPLINT - A device used to secure a section of cable while one or more fiber is broken out from the cable. The device includes spaced apart clamp assemblies that hold a cable during the splicing process to protect the fairly delicate fibers within the sheathing. The disclosure also relates to a method of splicing using a clamp assembly. | 06-30-2011 |
| 20110150403 | Fiber Optic Cable - 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. | 06-23-2011 |
| 20110150398 | Fiber Optic Cable Assembly - 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. The fiber optic drop cable has a first cable segment that extends from the first end of the fiber optic drop cable to the intermediate location and a second cable segment that extends from the intermediate location to the second end of the fiber optic drop cable. The first cable segment is more robust than the second cable segment and the second cable segment being more flexible than the first cable segment. The present disclosure also relates t methods and arrangements for mechanically attaching fiber optic connectors to drop cables of the type described above. | 06-23-2011 |
| 20110142407 | FIBER OPTIC MODULE - 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. | 06-16-2011 |
| 20110135268 | CABLE PULLING ASSEMBLY - 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. | 06-09-2011 |
| 20110131801 | CONNECTOR REMOVAL TOOL - 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. | 06-09-2011 |
| 20110123166 | UNIVERSAL BRACKET FOR MOUNTING A DROP TERMINAL - The present disclosure relates to a drop terminal mounting system for use in a fiber optic network. The drop terminal mounting system includes a drop terminal having a drop terminal housing to which a plurality of fiber optic adapters are mounted. The fiber optic adapters have exterior ports that are accessible from an exterior of the drop terminal housing. The drop terminal mounting system also includes a bracket having a cradle for receiving the drop terminal. The bracket has features that facilitate mounting the bracket to different types of structures such as poles, strands, or to hand-holes. | 05-26-2011 |
| 20110123165 | FIBER DISTRIBUTION HUB WITH SWING FRAME AND MODULAR TERMINATION PANELS - A fiber distribution system includes one or more fiber distribution hubs (FDHs) that provide an interface at a termination panel between incoming fibers routed from a central office and outgoing fibers routed to network subscribers. Termination modules can be incrementally added to the termination panel. The FDH can include one or more optical splitter modules that split an optical signal into two or more signals. The optical splitter modules can be incrementally added along with one or more storage modules. The subscriber termination panel, optical splitters, and storage modules can be provided on a swing frame. | 05-26-2011 |
| 20110122772 | DELAY MANAGEMENT FOR DISTRIBUTED COMMUNICATIONS NETWORKS - A method for programming the delay for a node in a communication system is disclosed. The node receives a selected delay value and a signal path delay value indicating a delay for signals communicated to the node. The signal path delay comprises an aggregation of transport delays calculated by each node for segments of the communication system between the node and a host node. The method further calculates an additional delay necessary to meet the selected delay value. | 05-26-2011 |
| 20110122549 | MODULAR POWER DISTRIBUTION SYSTEM AND METHODS - A modular power distribution system comprises a chassis and a backplane including a power input, and a plurality of module connection locations. A plurality of modules are mounted in the chassis, each module mounted to one of the module connection locations. Each module includes: (i) a circuit protection device; and (ii) a power output connection location. Bus bars connect front power inputs to the backplane. | 05-26-2011 |
| 20110116758 | Overhead cable termination arrangement - A system including an overhead cable pathway structure and an adapter panel or cable termination device that mounts overhead to the cable pathway structure. The cable termination device including a plurality of adapters and a cable pathway exit having a curved surface that guides cables exiting from the overhead cable pathway structure to the adapters. | 05-19-2011 |
| 20110116748 | MANAGED CONNECTIVITY IN FIBER OPTIC SYSTEMS AND METHODS THEREOF - A fiber optic connector arrangement includes a printed circuit board coupled to a connector housing. The printed circuit board includes a memory storage device that is configured to store physical layer information pertaining to the fiber optic connector arrangement. The printed circuit board also defines contacts that are electrically coupled to the memory storage device to enable the physical layer information to be read from the memory storage device by a media reading interface. A connector assembly includes at least one adapter assembly; a printed circuit board; and a media reading interface. The connector assembly also may include a tactile pressure sensor. The adapter assembly defines at least a first port and a second port that are configured to connect optical fibers of two connector arrangements. One or more connector assemblies can be mounted to a fiber panel system. | 05-19-2011 |
| 20110111686 | Telecommunication cabinet with airflow ducting - A telecommunications cabinet in which active equipment can be mounted. The cabinet including an airflow ducting arrangement located in the interior region of the cabinet. The airflow ducting arrangement accommodating thermal cooling of active equipment having internal side-to-side air cooling arrangements. | 05-12-2011 |
| 20110111646 | FANNING MODULE, FANNING STRIP, AND CABLE MANAGEMENT PANEL - A cable management fanning module includes an elongated base extending in a linear direction defining a longitudinal axis, and having a first end and an opposite second end. A plurality of cable retainers extend from the base, wherein each cable retainer includes a finger extending from the base to a distal end. The first and second ends of the base define an interlocking arrangement having reciprocal shapes, wherein the fanning module is mateable with additional fanning modules on one or both of the first and second ends having a reciprocal shape so as to form a fanning strip. | 05-12-2011 |
| 20110110639 | Slide arrangement for cable drawer - A drawer slide having first and second rails interconnected by a center rail. The center rail includes a spool configured to provide half-speed travel of the center rail relative to the travel of the first rail. The drawer slide is configured for use with a drawer assembly having a drawer and a chassis. The drawer assembly further includes a radius limiter secured to the center rail. The radius limiter travels at half-speed relative to the drawer. The radius limiter also automatically rotates relative to the travel of the drawer. The chassis includes sides including threaded backing plates, and mounting brackets. The mounting brackets include tri-lobed holes for receipt of a reciprocally shaped washer and a fastener for mounting the brackets to the chassis sides. | 05-12-2011 |
| 20110103761 | Fiber Distribution Hub with Internal Cable Spool - A fiber distribution hub (FDH) includes an internal spool for wrapping a fiber optic cable. The internal spool is adapted to rotate within the FDH and thereby pay out or retrieve the fiber optic cable from/to the FDH. A first end of the fiber optic cable can be extended through an entrance location of the FDH and can be further extended beyond the FDH to a connection point. The second end of the fiber optic cable can be connected to a fiber optic adapter within the FDH and can be disconnected from the fiber optic adapter when the internal spool is rotated. The fiber optic cable can be a fiber optic feeder cable. | 05-05-2011 |
| 20110103755 | LOW SHRINK TELECOMMUNICATIONS CABLE AND METHODS FOR MANUFACTURING THE SAME - The present disclosure relates to a telecommunications cable having a layer constructed to resist post-extrusion shrinkage. The layer includes a plurality of discrete shrinkage-reduction members embedded within a base material. The shrinkage-reduction members can be made of a liquid crystal polymer. The disclosure also relates to a method for manufacturing telecommunications cables having layers adapted to resist post-extrusion shrinkage. | 05-05-2011 |
| 20110097053 | Telecommunication rack unit tray - An interface panel that mounts to a telecommunications rack. The interface panel including a splicing arrangement and a splitter module. The interface panel further including a fixed tray to which each of the splicing arrangement and the splitter module mounts. The splicing arrangement and the splitter module each having a sliding mounting arrangement that provides access to the functional splicing and splitting components. | 04-28-2011 |
| 20110092138 | Method of manufacturing ferrule assemblies - A method of manufacturing a ferrule assembly. The method including first and second polishing operations. The first polishing operation including polishing only the end face of a ferrule of an assembly. The second polishing operation including polishing only the optical fiber of the assembly. | 04-21-2011 |
| 20110092100 | MANAGED CONNECTIVITY IN ELECTRICAL SYSTEMS AND METHODS THEREOF - An electrical connector arrangement includes a storage device coupled to a connector housing. The storage device is configured to store physical layer information pertaining to the electrical connector arrangement. The storage device also has contacts that enable the physical layer information to be read from the storage device by a media reading interface. A connector assembly includes at least one receptacle assembly; a printed circuit board; and a media reading interface. | 04-21-2011 |
| 20110091180 | FIBER OPTIC ENCLOSURE WITH TEAR-AWAY SPOOL - A fiber optic enclosure includes a housing and a cable spool assembly disposed on an exterior surface of the housing. The cable spool assembly has a first tear-away end and a second tear-away end. The first and second tear-away ends include at least one area of weakness extending from an inner diameter of the cable spool assembly to an outer diameter of the cable spool assembly. A mounting plate is rotationally engaged with the cable spool assembly such that the cable spool assembly and the housing selectively and unitarily rotate about an axis of the mounting plate. | 04-21-2011 |
| 20110091174 | Flat Drop Cable with Center Strength Member - The present disclosure relates to a fiber optic cable including an outer jacket having an elongated transverse cross-sectional profile defining a major axis and a minor axis. The transverse cross-sectional profile has a maximum width that extends along the major axis and a maximum thickness that extends along the minor axis. The maximum width of the transverse cross-sectional profile is longer than the maximum thickness of the transverse cross-sectional profile. The outer jacket also defines first, second and third separate passages that extend through the outer jacket along a lengthwise axis of the outer jacket. The third passage has a transverse cross-sectional profile that is elongated in an orientation extending along the major axis of the outer jacket. The first, second and third passages are generally aligned along the major axis with the third passage being positioned between the first and second passages. The fiber optic cable also includes a plurality of optical fibers positioned within each of the first and second passages and a tensile strength member positioned within the third passage. The tensile strength member has a transverse cross-sectional profile that is elongated in the orientation extending along the major axis. | 04-21-2011 |
| 20110091170 | FIBER DISTRIBUTION HUB AND CABLE FOR USE THEREWITH - A fiber distribution hub includes a swing frame pivotally mounted to an enclosure. The enclosure defines a cable port and at least a first interface region. The swing frame defines a splitter region, a termination region, and a storage region. Splitter modules can be oriented and positioned so that splitter pigtails extending from each of the splitter modules extend directly downwardly through a vertically extending channel. A cable clamp can be mounted to the enclosure at the cable port to secure one or more cables to the enclosure. | 04-21-2011 |
| 20110083310 | RESKINNABLE FIBER DISTRIBUTION HUB - The housing of a telecommunications cabinet can be replaced without recabling the internal components by removing a panel arrangement from a cable access region of the cabinet to reveal an open end of the cable access region that is continuous with the open side of the cabinet. The frame is uncoupled from the cabinet and the cabinet is slid away from the internal components. The fiber optic cables pass through the open end of the cable access region and through the open side of the cabinet. | 04-14-2011 |
| 20110081124 | FIBER OPTIC SPLITTER MODULE - A telecommunications assembly includes a chassis and a plurality of fiber optic splitter modules mounted within the chassis. Each splitter module includes at least one fiber optic connector. Within an interior of the chassis are positioned at least one fiber optic adapter. Inserting the splitter module through a front opening of the chassis at a mounting location positions the connector of the splitter module for insertion into and mating with the adapter of the chassis. The adapters mounted within the interior of the chassis are integrally formed as part of a removable adapter assembly. A method of mounting a fiber optic splitter module within a telecommunications chassis is also disclosed. | 04-07-2011 |
| 20110067452 | MINI DROP TERMINAL - A terminal for mounting to a fiber distribution cable includes a housing having a base and a cover. The cover is connectedly engaged with the base. The terminal further includes a plurality of adapters disposed on the cover. A fiber routing tray having a top panel and a bottom panel is disposed in an interior cavity. The fiber routing tray includes a storage space defined between the top and bottom panels for storing a length of optical fiber. A method for installing a terminal includes providing a terminal having a housing defining an interior cavity. A cable is pulled from the interior cavity of the housing. The cable is spliced to a fiber distribution cable with a splice. The cable is inserted back into the interior cavity. A spliced end of the cable, a spliced end of the fiber distribution cable and the splice are inserted in a retention device. | 03-24-2011 |
| 20110065323 | JACK WITH MODULAR MOUNTING SLEEVE - A housing for a coaxial jack including an opening for receiving the jack, the opening including a guide for preventing rotation of the jack within the opening. The housing also includes a stop to limit sliding of the jack within the opening and a flange extending from an outer surface. An outer face opposite the flange includes a ridge and a groove. A housing for coaxial jacks includes a pair of openings for receiving jacks. Each opening includes a guide to prevent rotation and a stop to limit sliding of the jack within the opening. | 03-17-2011 |
| 20110064372 | FIBER DISTRIBUTION HUB WITH SWING FRAME AND WRAP-AROUND DOORS - A fiber distribution hub (FDH) provides an interface between an incoming fiber and a plurality of outgoing fibers. The FDH includes a cabinet, at least one door pivotably mounted to the cabinet, and a frame pivotably mounted within the cabinet. The doors wrap around the sides and the front of the cabinet to provide access to both the front and sides of the frame when the doors are open. The frame can pivot out of the cabinet through the open doors to enable access to the rear of the cabinet and the rear side of the frame. The frame includes a termination region and a splitter region. The frame can include a storage region and/or a pass-through region. | 03-17-2011 |
| 20110058786 | FIBER OPTIC SPLITTER MODULE - A telecommunications assembly including a housing and a plurality of modules mounted within the housing. The modules includes a rear face in which is mounted at least one fiber optic connector. Within an interior of the housing are positioned at least one fiber optic adapters. Inserting the module through a front opening of the housing at a mounting location positions the connector of the module for insertion into and mating with the adapter of the housing. The adapters within the interior of the housing are integrally formed as part of a removable adapter assembly. A method of mounting a telecommunications module within a chassis. | 03-10-2011 |
| 20110058785 | PEDESTAL TERMINAL WITH SWING FRAME - A pedestal terminal includes a frame mounted to a base and a cover configured to mount to the base. The frame including a support frame and a swing frame pivotally mounted to the support frame. A splitter module mounting location is positioned on the frame. The splitter module mounting location is adapted to mount a splitter arrangement including splitter pigtails to the frame. A first termination field includes a plurality of fiber optic adapters, each being configured to couple one of the splitter pigtails to a distribution cable. A second termination field includes a plurality of fiber optic adapters, each being configured to couple one of the splitter pigtails to a drop cable. A pivoting cover arrangement can be mounted to a top of the support frame to inhibit contact between the splitter arrangement and the cover when the cover is mounted to or removed from the base. | 03-10-2011 |
| 20110058784 | Optical fiber distribution frame with outside plant enclosure - A fiber optic telecommunications frame is provided including panels having front and rear termination locations, the panels positioned on left and right sides of the frame. The frame includes vertical access for the rear cables. The frame further includes left and right vertical cable guides for the front patch cables. The frame further includes cable storage spools for the patch cables. The frame includes a horizontal passage linking the left and right panels and the cable guides. A portion of the frame defines splice tray holders and a central passage from the splice tray holders to the rear sides of the left and right panels. From a front of each panel, access to a rear of the panel is provided by the hinged panels. Alternatively, the panels can form connector modules with front termination locations and rear connection locations for connecting to the rear cables. The modules can house couplers, such as splitters, combiners, and wave division multiplexers. The termination locations can be located on the same side of the frame as the splice tray holders, or on an opposite side. An enclosure of the frame included hinged or otherwise moveable panels to allow access to the terminations or the splice trays. | 03-10-2011 |
| 20110056895 | PASS-THROUGH TROUGH - A telecommunications system includes a rack, telecommunications equipment mounted to the rack, and a cross-through trough extending between a front and a rear of the rack. The cross-through trough includes a sliding shuttle for pulling cables between the front and the rear. The sliding shuttle includes a cable clip for releasably holding one or more cables during movement between the front and the rear. The cross-through trough can be one rack unit (RU) in height, if desired. | 03-10-2011 |
| 20110051709 | SELECTIVELY MANAGING MOBILE STATION SUBSCRIPTIONS BETWEEN FULLY USED ZONES AND SEGMENTED ZONES - A base station receives a connection request from a mobile station. A scheduling module determines whether the fully used and/or segmented zones of the base station are oversubscribed. If the fully used zone is oversubscribed while the segmented zone is not, the mobile station having the largest CINR difference between the zones is assigned to the segmented zone. If the segmented zone is oversubscribed while the fully used zone is not, the mobile station having the smallest CINR difference between the zones is assigned to the fully used zone. If neither zone is oversubscribed and the segmented zone allows modulation/coding more spectrally efficient than the fully used zone, the requesting mobile station is assigned to the segmented zone. If neither zone is oversubscribed and the segmented zone does not allow modulation/coding more spectrally efficient than the fully used zone, the requesting mobile station is assigned to the fully used zone. | 03-03-2011 |
| 20110051673 | SELECTIVELY ASSIGNING MOBILE STATIONS TO SEGMENTED ZONES - A base station includes a transceiver, memory, and processor. The transceiver communicates with mobile stations. The memory stores a database of threshold CINR values. The processor implements a scheduling module. The transceiver receives a request to connect from a mobile station. The scheduling module obtains actual CINR and RSSI values for the mobile station. The scheduling module compares the actual CINR value with a threshold CINR value retrieved from the database based on the actual RSSI value. When the actual CINR value is greater than the threshold CINR value for the actual RSSI value, the scheduling module assigns the mobile station one or more subcarriers from a fully used zone of subcarriers. When the actual CINR value is not greater than the threshold CINR value for the actual RSSI value, the scheduling module assigns the mobile station one or more subcarriers from a segmented zone of subcarriers. | 03-03-2011 |
| 20110048767 | Twisted Pairs Cable with Tape Arrangement - A multi-pair cable having a plurality of twisted conductor pairs and a tape arrangement. The tape arrangement providing a dielectric barrier between the twisted conductor pairs and a jacket of the multi-pair cable. The tape arrangement further defining at least two separate twisted pair regions in which the twisted conductor pairs lie. | 03-03-2011 |
| 20110044599 | RAPID UNIVERSAL RACK MOUNT ENCLOSURE - A cable enclosure assembly includes an enclosure, a cable spool and a length of fiber optic cable. The enclosure defines an interior region, a first opening and a second opening aligned with the first opening. The first and second openings provide access to the interior region. The cable spool is disposed in the interior region of the enclosure and is rotatably engaged with the enclosure. The cable spool includes a drum and a flange engaged to the drum. The flange has an outer peripheral side, a cable management portion and an adapter bulkhead portion. The adapter bulkhead portion extends outwardly from the cable management portion and forms a portion of the outer peripheral side. The length of the fiber optic cable is dispose about the drum of the cable spool. | 02-24-2011 |
| 20110044590 | FIELD TERMINATABLE FIBER OPTIC CONNECTOR ASSEMBLY - A fiber optic connector assembly includes a connector and a carrier. The connector, defining a longitudinal bore extending through the connector and having a first end region and a second end region, includes a ferrule assembly, having an optical fiber extending through the connector, at least partially disposed in the longitudinal bore at the first end region, a tube, defining a passage and having a first end portion disposed in the longitudinal bore at the second end region and a second end region, and a spring disposed in the bore between the ferrule assembly and the tube. The carrier includes a cable end and a connector end engaged with the connector, a termination region disposed between the connector end and the cable end, a fiber support region disposed between the connector end and the termination region, and a take-up region disposed between the connector end and the fiber support region. | 02-24-2011 |
| 20110044020 | Cable management arrangement for a telecommunications cabinet - A telecommunications system including a frame to which telecommunications equipment is mounted. The frame defines a patch panel region and an active equipment region. Patch cords are interconnected between the patch panel region and the active equipment region. The system further includes a slack storage panel that stores patch cord slack. The slack storage panel defines a single cable routing pathway. The patch cords are routed through the slack storage panel such that no portion of the length of each patch cord overlaps itself. In systems including both copper and fiber cables, the copper cables are routed separately from the fiber cables. | 02-24-2011 |
| 20110038591 | FIBER OPTIC TERMINATION SYSTEM WITH RETENTION MECHANISM - A fiber optic telecommunications frame is provided including termination modules positioned on left and right sides of the frame. The frame further includes left and right vertical cable guides. The frame includes a horizontal passage linking the left and right panels and the cable guides. The termination modules hold fiber optic modules with front termination locations. The fiber optic modules can house couplers, such as splitters, combiners, and wave length division multiplexers. A retention mechanism retains each fiber optic module in a partially removed position from the termination module. | 02-17-2011 |
| 20110038113 | Conversion module and chassis arrangement, and related methods - A telecommunications arrangement including a chassis, at least one power supply, and a plurality of conversion modules that provide an electrical-to-optical or optical-to-electrical signal conversion. The chassis includes a separate back plane made up of individual back panels. The back panels are attached to the chassis by a tab and swell latch. The conversion modules include a printed circuit board, an input/output arrangement of connectors, and a radius limiter mounted to the printed circuit board. | 02-17-2011 |
| 20110034087 | HORIZONTALLY ALIGNED JACK MOUNTS WITH VERTICALLY STAGGERED JACK BORES - The present disclosure relates to a jack assembly including a jack mount having a front side and a rear side. A jack of the assembly is adapted to be slidably mounted in a jack receiving region of the jack mount. The jack assembly also includes a plurality of cross-connect contacts, and a rear interface assembly. The rear interface assembly includes a dielectric cover piece and a plurality of rear connectors that project outward from the dielectric cover piece. | 02-10-2011 |
| 20110033164 | TELECOMMUNICATIONS CONNECTION CABINET - A telecommunications connection cabinet includes a termination region, a fiber optic splitter mounting location, and a predetermined connector storage region positioned within an interior of a housing. The termination region includes telecommunications adapters, each telecommunications adapter being configured for coupling together two fiber optic connectors such that an optical interconnection is made between the two fiber optic connectors. The connector storage region is spaced from the termination region. The storage region defines openings allotted to removably mount connector storage housings at the connector storage region. | 02-10-2011 |
| 20110033158 | FIBER OPTIC CONNECTOR HOLDER AND METHOD - A fiber optic connector holder is sized to fit within an opening for mounting a fiber optic adapter. The fiber optic connector holder is configured to permit a fiber optic connector with a dust cap positioned about a ferrule and a polished end face of an optical fiber held by the ferrule to be inserted within and releasably held by the connector holder. A system for holding fiber optic connectors includes a fiber optic connector holder mounted within an opening in a bulkhead for mounting a fiber optic adapter. The fiber optic connector holder is configured to receive a fiber optic connector with a dust cap mounted about a ferrule and polished end face of an optical fiber held by the ferrule. A optical fiber connector may be held to a bulkhead when the fiber optic connector includes a dust cap mounted about a ferrule and a polished end face of an optical fiber held by the ferrule. | 02-10-2011 |
| 20110026886 | Multi-Fiber Loop Back Plug - The present disclosure relates to a loop back plug including a ferrule having a distal side and a proximal side. The ferrule defines a plurality of openings that extend through the ferrule from the distal side to the proximal side. The openings are arranged in first and second parallel rows. The loop back plug also includes a plurality of loop back optical fibers each having first and second end portions secured within the openings of the ferrule. At least some of the loop back optical fibers are looped between the openings of the first and second rows with their first end portions secured within the openings of the first row and their second end portions secured within the openings of the second row. | 02-03-2011 |
| 20110024182 | CARTRIDGE FOR USE IN RADIO FREQUENCY SYSTEMS - An apparatus including a conductive sleeve including an outer-conductive surface and an inner passageway that extends from a first end at least partially to a second end. The passageway is adapted to receive and shield a device that provides at least one of a radio frequency path and an electrical current path. | 02-03-2011 |
| 20110019966 | FIBER DISTRIBUTION DEVICE - A fiber distribution device includes a swing frame chassis pivotally mounted to a support structure. At least a first optical splitter module is mounted to the swing frame chassis. Pigtails having connectorized ends are carried by the swing frame chassis and have portions that are routed generally vertically on the swing frame chassis. An optical termination field includes fiber optic adapters carried by the swing frame chassis. The fiber optic adapters are configured to receive the connectorized ends of the pigtails. | 01-27-2011 |
| 20110019965 | TELECOMMUNICATIONS CABINET WITH CONNECTOR STORAGE - A housing including a plurality of openings for receiving fiber optic connectors and protecting the polished end face of the connectors from damage while the connectors are stored within a telecommunications connection cabinet. A module with a plurality of optical fiber cables connected to a first optical fiber cable and terminated by a fiber optic connector. Each of the connectors are inserted within openings in a connector holder for storage and protection until the cables need to be connected to a customer equipment cable. | 01-27-2011 |
| 20110013876 | Fiber Optic Dust Cap and Connector for Terminating Multi-Fiber Optical Cables - A dust cap is adapted to cover an end of a fiber optic connector that includes a release sleeve. The dust cap includes a sleeve with an open end and a closed end, at least one resilient latch, a connector stop, and a sealing face. The dust cap is installed on the fiber optic connector by placing the open end of the sleeve over the end of the fiber optic connector. The resilient latch retains the dust cap on the fiber optic connector by latching to a second end of the release sleeve. The sealing face of the dust cap is adapted to abut a first end of the release sleeve, and the connector stop is adapted to abut a connector body of the fiber optic connector when the dust cap is fully installed. | 01-20-2011 |
| 20110013875 | FIBER OPTIC ENCLOSURE WITH ADAPTER BULKHEAD POSITIONED BENEATH PIVOTAL SPLICE TRAY - A fiber optic enclosure includes an enclosure and a tray stack. The enclosure includes a base and a cover connected to the base. The base and the cover cooperate to define an interior region. The tray stack is disposed in the interior region of the enclosure. The tray stack includes a plurality of trays and a tray mounting plate. The tray mounting plate has a mounting portion and an adapter bulkhead portion. The mounting portion is adapted to receive the plurality of trays. The adapter bulkhead portion is adapted to receive a fiber optic adapter. | 01-20-2011 |
| 20110013871 | Cable Attachment System for a Fiber Optic Connector - A cable attachment system is disclosed for attaching a fiber optic connector to a fiber optic cable. In particular, strength members of the fiber optic cable are crimped between a crimp sleeve and a cable anchor, and the cable anchor is anchored to the fiber optic connector. An end of the crimp sleeve is adapted to receive an end of a jacket of the fiber optic cable. An end of the cable anchor includes a nipple adapted for insertion into the end of the jacket. An end portion of the jacket is crimped between an intermediate portion of the crimp sleeve and the nipple of the cable anchor. A support portion of the crimp sleeve, positioned between the end and the intermediate portion of crimp sleeve, supports a transitioning portion of the jacket beyond the end of the cable anchor. | 01-20-2011 |
| 20110002687 | SYSTEMS AND METHODS OF OPTICAL PATH PROTECTION FOR DISTRIBUTED ANTENNA SYSTEMS - Systems and methods for optical path protection for distributed antenna systems are provided. In one embodiment, a method is provided. The method comprises receiving an electrical uplink radio frequency signal; generating an uplink optical signal derived from the electrical uplink radio frequency signal; splitting the uplink optical signal for transmission on a primary uplink optical fiber and a secondary uplink optical fiber; combining any downlink optical signal received on a primary downlink optical communication medium and any downlink optical signal received on a second downlink optical communication medium in order to output a downlink optical signal; and generating a downlink radio frequency signal derived from the downlink optical signal. | 01-06-2011 |
| 20110002591 | Compact Blind Mateable Optical Splitter - A splitter assembly may include an adapter housing configured to support an adapter to receive an optical signal from an incoming optical fiber. The splitter assembly may include a splitter module configured to couple to the adapter via a connector to receive the optical signal associated with the incoming fiber, and to make the optical signal available to an output fiber via an optical splitter. | 01-06-2011 |
| 20100330955 | PRIVATE CELLULAR SYSTEM WITH AUTO-REGISTRATION FUNCTIONALITY - In one embodiment, a private cellular system provides private cellular service and public cellular service using licensed frequency spectrum associated with a public land mobile network (PLMN). The system is configured to have a predetermined phone number that a subscriber who is using the public cellular service via the private cellular system and who is not registered to use the private cellular service provided by the system can call in order to register to use the private cellular service provided by the system and, in response thereto, the system captures a subscriber identity number associated with the subscriber and assigns a private telephone number to the subscriber that is used in connection with providing private cellular service. Another embodiment is directed to a method of enabling a prepaid hybrid subscriber to make a call using a private cellular system while outside of a coverage area associated with the private cellular system. Another embodiment is directed to a private cellular network comprising a plurality of private cellular systems to provide private cellular service and public cellular service using licensed frequency spectrum associated with a public land mobile network (PLMN). In that embodiment, a gateway function in each of the plurality of private cellular systems is configured to make the private cellular network appear, to the PLMN, as though it is implemented using only a single private cellular system. | 12-30-2010 |
| 20100329625 | FIBER DROP TERMINAL - A drop terminal mounting system includes a fiber drop terminal having a housing and a base attached to the housing. The housing includes an outer surface containing a plurality of receptacles and cooperatively defines an inner cavity with the base. The drop terminal mounting system further includes a bracket having a first fastening region and a second fastening region adapted to secure the drop terminal to the bracket. | 12-30-2010 |
| 20100329623 | LOW PROFILE FIBER DISTRIBUTION HUB - Certain embodiments of a fiber distribution hub include a swing frame pivotally mounted within an enclosure having a low profile. For example, the enclosure can have a depth of less than about nine inches. Termination modules can be mounted to the swing frame and oriented to slide at least partially in a front-to-rear direction to facilitate access to connectors plugged into the termination modules. Splitter modules and connector storage regions can be provided within the enclosure. | 12-30-2010 |
| 20100329610 | CONNECTOR ENCLOSURE - A connector enclosure for enclosing a cable assembly includes a main body that has a first body portion and a second body portion. The first body portion is adapted for selective releasable engagement with the second body portion. Each of the first and second body portions defines a cavity having a first connector portion and a second connector portion. The cavity of each of the first and second body portions cooperatively defines a passage through the main body. The passage is configured to retain a cable assembly. | 12-30-2010 |
| 20100322584 | CABLE PULLING ASSEMBLY - A cable pulling assembly includes an enclosure that is adapted for enclosing an end of a fiber optic cable. The enclosure includes a first member that defines a first cavity. The first cavity is adapted to receive a portion of the end of the fiber optic cable. The enclosure further includes a second member that is selectively engaged to the first member. The second member defines a second cavity. The second member is structurally identical to the first member. The enclosure is adapted to transfer a tensile force applied to the enclosure to the strength layer of the fiber optic cable. | 12-23-2010 |
| 20100322577 | Modules including multiple rows of adapters for high density optical fiber distribution frame - A fiber optic telecommunications frame is provided including termination modules positioned on left and right sides of the frame. The frame further includes left and right vertical cable guides. The frame includes a horizontal passage linking the left and right panels and the cable guides. The termination modules hold fiber optic modules with front termination locations. The fiber optic modules can house couplers, such as splitters, combiners, and wave length division multiplexers. A retention mechanism retains each fiber optic module in a partially removed position from the termination module. An adapter retainer may be removably mounted within an open front of the fiber optic modules, and a fiber optic module may include a plurality of rows of adapters. | 12-23-2010 |
| 20100322568 | MECHANICAL INTERFACE BETWEEN A FIBER OPTIC CABLE AND A FIBER OPTIC CONNECTOR - A fiber optic connector and cable assembly is disclosed herein. The fiber optic connector and cable assembly includes a cable having at least one optical fiber, a jacket surrounding the optical fiber and at least one strength member for reinforcing the fiber optic cable. The fiber optic connector and cable assembly also includes a fiber optic connector having a main connector body having a distal end and a proximal end. The fiber optic connector also includes a ferrule supporting an end portion of the optical fiber. The ferrule is mounted at the distal end of the main connector body. The fiber optic connector further includes a spring for biasing the ferrule in a distal direction and a spring push for retaining the spring within the main connector body. The spring push is mounted at the proximal end of the main connector body. The spring push includes a main body and a stub that projects proximally outwardly from the main body. A crimp band is provided for securing the fiber optic cable to the fiber optic connector. The crimp band includes a first portion crimped down on the stub. The strength member is secured between the first portion of the crimp band and the stub. The crimp band also includes a second portion crimped down on the jacket of the fiber optic cable. The crimp band further includes an inner surface having gripping structures for gripping the strength member and/or the jacket. | 12-23-2010 |
| 20100322567 | FIBER OPTIC CONNECTOR AND METHOD - A fiber optic connector including a ferrule surrounding an optical fiber and a hub engaging the ferrule. The hub includes a front portion having first and second opposing surfaces and first and second tapered regions extending from the first and second opposing surfaces to a front face. A housing includes an anti-rotation seat configured to engage the first and second opposing surfaces, the anti-rotation seat including parallel first and second contact lines positioned at a front of the anti-rotation seat. A spring within a chamber of the housing biases the ferrule through a bore in the front of the housing. The first tapered region of the hub engages the first contact line and the second tapered region engages the second contact line when the hub and ferrule are in a first rotational position so that the optical fiber is maintained at a known orientation with respect to the connector. | 12-23-2010 |
| 20100316347 | CABLE PULLING ASSEMBLY - A cable pulling assembly includes an enclosure that is adapted for enclosing a connector of a fiber optic cable. The enclosure includes a body having a base portion and a cover portion. The base portion includes a first axial end and a second axial end and defines a first connector cavity. The first connector cavity is adapted to receive a portion of the connector of the fiber optic cable. The cover portion includes a first axial end and an oppositely disposed second axial end. The second axial end is engaged to the second axial end of the base portion at a hinge. The cover portion defines a second connector cavity that is adapted to receive a remaining portion of the connector. The enclosure defines a hole that extends through the base and cover portions. The hole is adapted to receive a pulling member. | 12-16-2010 |
| 20100316346 | Universal cable management panel - A cable management panel including a chassis and a drawer. The chassis defining rear and side openings for cable entry and exit. The drawer having a front panel that may include angled adapters. The drawer having an open rear that accommodates cables entering from the rear openings of the chassis, and that accommodates the addition of a rear wall. The cable management panel being adaptable to provide a variety of cable routing configurations to accommodate a user's particular cable routing needs. | 12-16-2010 |
| 20100315800 | Vertical cable management system with ribcage structure - A cable management system is provided including a rack for holding telecommunications equipment, and a ribcage cable support member along a vertical side of the rack. The ribcage cable support member includes a plurality of forwardly and rearwardly extending ribs. The ribs each include cable retention tabs. A plurality of spools are provided for cable storage on the ribcage cable support member. Holes through the ribcage cable support member allow access between the front and rear portions. An additional rack may be positioned on an opposite side of the ribcage cable support member to the first rack, and two columns of ribs are provided. | 12-16-2010 |
| 20100314340 | Cable management assembly, system and method - A cable management assembly, and method related thereto, including a riser panel having an interface portion and a plurality of cable management devices. The interface portion having a plurality of shaped apertures. The cable management devices having attachments that correspond to the shaped apertures to secure the cable management devices to the panel at selected vertical and horizontal locations. The cable management assembly being configured to extend between two adjacent telecommunications racks or to couple to the end of a telecommunications rack. | 12-16-2010 |
| 20100313454 | CABLE LABEL AND METHODS - The present disclosure provides an improved label and method of manufacturing a label that is of the type that can be folded onto itself over an object to be labeled. The improved label is configured to avoid wrinkles and exposed adhesive portions during use. | 12-16-2010 |
| 20100310224 | FIBER OPTIC ENCLOSURE WITH INTERNAL CABLE SPOOL - A fiber optic enclosure assembly includes a housing having an interior region and a bearing mount disposed in the interior region of the housing. A cable spool is connectedly engaged with the bearing mount such that the cable spool selectively rotates within the housing. A termination module disposed on the cable spool so that the termination module rotates in unison with the cable spool. A method of paying out a fiber optic cable from a fiber optic enclosure includes rotating a cable spool, which has a subscriber cable coiled around a spooling portion of the cable spool, about an axis of a housing of the fiber optic enclosure until a desired length of subscriber cable is paid out. A termination module is disposed on the cable spool. | 12-09-2010 |
| 20100303433 | DROP TERMINAL WITH ANCHOR BLOCK FOR RETAINING A STUB CABLE - The drop terminal includes a plurality of fiber optic adapters having outer connector ports that are accessible from outside the drop terminal. The drop terminal receives a fiber optic cable having a plurality of optical fibers. Fiber optic connectors are positioned at the ends of the optical fibers. The fiber optic connectors are inserted into inner connector ports of the fiber optic adapters. The drop terminal also includes an anchor block for securing the fiber optic cable to a main housing of the drop terminal. The anchor block can be secured to the main housing of the drop terminal by a mechanical interlock. The drop terminal may also include a transparent interior shield or liner that retains fibers in position within the drop terminal during assembly of the drop terminal. | 12-02-2010 |
| 20100301502 | METHOD OF DIRECTLY MOLDING FERRULE ON FIBER OPTIC CABLE - A method of directly molding a fiber optic ferrule on an end of a fiber optic cable is disclosed. The method preferably includes stripping a cable jacket and/or a buffer layer from optical fibers of the fiber optic cable and trimming the optical fibers with a laser thereby creating trimmed ends on the optical fibers. The optical fibers and preferably a pin assembly are held near the end of the fiber optic cable by an optical fiber and pin locator. The optical fiber and pin locator can statically or dynamically hold and position the optical fibers and pin assembly. After the optical fibers and/or the pin assembly are positioned, a fixture is attached to the trimmed ends of the optical fibers and/or the pin assembly thereby preserving their relative position to each other. After the fixture is attached, the optical fiber and pin locator is removed, and the end of the fiber optic cable with the attached fixture is placed into a mold cavity. A molding material is injected into the mold cavity thereby overmolding a substantial portion of the end of the fiber optic cable and thereby creating a molded body of the fiber optic ferrule. After molding, the fixture is removed. The fixture preferably includes a thin film that is hardened on the trimmed ends of the optical fibers while the optical fiber and pin locator is attached. | 12-02-2010 |
| 20100296779 | INTERFACE CONVERTER FOR SC FIBER OPTIC CONNECTORS - An interface converter is provided for mechanically and optically coupling a fiber optic connector with an adapter port. In a preferred embodiment, the interface converter attaches to an SC fiber optic connector and together form a converted fiber optic connector compatible with the adapter port. In certain embodiments, a retractable release sleeve may be removed from the SC fiber optic connector prior to attaching the interface converter. In certain embodiments, the interface converter may be inserted into the adapter port prior to being attached to the SC fiber optic connector. | 11-25-2010 |
| 20100296458 | METHOD OF INSERTING CDMA BEACON PILOTS IN OUTPUT OF DISTRIBUTED REMOTE ANTENNA NODES - A communication system to feed remote antenna nodes with simulcast traffic and non-simulcast beacons is provided. The communication system includes a host radio frequency (RF) digitizer, a delay buffer, a summing circuit, and a framer/serializer. The host RF digitizer receives CDMA base station signals for simulcast CDMA-traffic-bearing channels and to output digital samples. The delay buffer is communicatively coupled to receive the samples output from a beacon pilot generator and to output digitally delayed CDMA-digital-beacon-pilot samples having different pseudo-noise offsets. The summing circuit adds the CDMA-digital-beacon-pilot samples having different pseudo-noise offsets to the digital samples received from the host RF digitizer to form composite simulcast-plus-uniquely-offset-beacon-pilot CDMA samples. The framer/serializer is communicatively coupled to receive the composite simulcast-plus-uniquely-offset-beacon-pilot CDMA samples, and to route the composite simulcast-plus-uniquely-offset-beacon-pilot CDMA samples to an associated remote antenna node. | 11-25-2010 |
| 20100290753 | FIBER DISTRIBUTION HUB - A fiber distribution system includes one or more fiber distribution hubs (FDHs) that provide interface at a splice panel and/or a termination panel between incoming fibers routed from a central office and outgoing fibers routed to network subscribers. Splice trays, termination modules, splitter modules, and storage modules can be incrementally added to the FDH. The termination modules, optical splitters, and storage modules can be provided on a swing frame chassis within the FDH cabinet. | 11-18-2010 |
| 20100290746 | DROP CABLE PASS-THRU FITTING - A cable pass-thru assembly includes a fiber optic cable and a pass-thru fitting. The fiber optic cable includes an optical fiber and a strength member. The pass-thru fitting is adapted to receive the fiber optic cable. The pass-thru fitting includes an outer sleeve and an inner sleeve. The outer sleeve includes a thru-bore. The inner sleeve is disposed in the thru-bore of the outer sleeve. The strength member is compressed between the inner sleeve and the outer sleeve. A method for inserting a fiber optic cable in a pass-thru fitting includes inserting a fiber optic cable through a thru-bore of an outer sleeve and a bore of an inner sleeve. A strength member of the fiber optic cable is wrapped about the inner sleeve. The outer sleeve is advanced over the inner sleeve so that the strength member is compressed between the outer sleeve and the inner sleeve. | 11-18-2010 |
| 20100290741 | Hardened Fiber Optic Connection System - 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. A sealing means and a threaded connection means are also provided between the fiber optic adapter and connector. | 11-18-2010 |
| 20100284662 | FIBER DROP TERMINAL - A drop terminal mounting system includes a fiber drop terminal having a housing and a base attached to the housing. The housing includes an outer surface containing a plurality of receptacles and cooperatively defines an inner cavity with the base. The drop terminal mounting system further includes a bracket having a first fastening region and a second fastening region adapted to secure the drop terminal to the bracket. | 11-11-2010 |
| 20100278498 | WAVELENGTH DIVISION MULTIPLEXING MODULE - A telecommunications module includes a main housing portion and a cover, the main housing portion defining a first sidewall, a front wall, a rear wall, a top wall, and a bottom wall, the cover defining a second sidewall when mounted on the main housing portion. An optical component located within the module receives an input signal from a signal input location of the housing and outputs an output signal toward a signal output location on the front wall. The telecommunications module is configured such that the signal input location can be selected to be either on the front wall or the rear wall of the main housing. The cover defines a protrusion extending from the second sidewall toward the main housing portion, the protrusion being selectively breakable to expose a recess on the front wall of the main housing portion that defines a signal input location. | 11-04-2010 |
| 20100278493 | Flat Drop Cable - The present disclosure relates to a fiber optic cable including an outer jacket having an elongated transverse cross-sectional profile defining a major axis and a minor axis. The transverse cross-sectional profile has a maximum width that extends along the major axis and a maximum thickness that extends along the minor axis. The maximum width of the transverse cross-sectional profile is longer than the maximum thickness of the transverse cross-sectional profile. The outer jacket also defines first and second separate passages that extend through the outer jacket along a lengthwise axis of the outer jacket. The second passage has a transverse cross-sectional profile that is elongated in an orientation extending along the major axis of the outer jacket. The fiber optic cable also includes a plurality of optical fibers positioned within the first passage a tensile strength member positioned within the second passage. The tensile strength member has a highly flexible construction and a transverse cross-sectional profile that is elongated in the orientation extending along the major axis. | 11-04-2010 |
| 20100272409 | Cable management system with twist latch - A cable management assembly, and methods related thereto, including a panel having a plurality of discrete openings, including first shaped apertures and second shaped apertures. The assembly further including cable management devices having low-profile mounting arrangements. The low-profile mounting arrangements being configured to mount the cable management devices at selected locations on the panel. | 10-28-2010 |
| 20100272401 | Field Termination Kit - A field termination kit includes an optical fiber preparation device for preparing an end of an optical fiber, an optical inspection device for inspecting the end of the optical fiber, and a termination assembly for terminating the end of the optical fiber. A method of using a field termination kit includes rotating an end of a first optical fiber about a center of an abrasive portion of an optical fiber preparation tool. The end is pressed against an adhesive portion of the optical fiber preparation tool to clean contaminants from the end. The end is inserted into an inner passage of an optical fiber inspection device for viewing. The end is inserted into a termination assembly. The end is terminated to an end of a second optical fiber in a termination region of the termination assembly. | 10-28-2010 |
| 20100266256 | Fiber Retainer for Cable Trough Member - Systems and methods for the management and routing of telecommunication cables include cable trough members. Generally, the trough members include a plurality of retainer members coupled to sidewalls of the trough members. The retainer members assist in maintaining cables within an interior of the trough members. | 10-21-2010 |
| 20100266255 | Cable exit trough with cover - A cable exit trough with pivoting cover. The cover having a cover plate and a pivot plate hingedly mounted thereto for easy access to the trough. The exit trough may define an insert aperture for receiving modular cable management inserts. The modular insert providing an additional cable management device such as a curved guidewall. The cable management device may alternatively be fixed to the cable exit trough. Removable snap-mounted flanges may also be included in the exit trough. | 10-21-2010 |
| 20100266254 | SPLICE TRAY HOLDER - A splice tray holder includes a body with a first portion, a second portion, and a front surface. A retention portion is disposed on an outer periphery of each of the first and second portions and defines a receiving groove having an inner surface that faces toward the front surface of the body. A spring portion is disposed on each of the first and second portions, wherein the spring portion is adapted to provide a biasing force in a direction from the front surface of the body toward the inner surface of the receiving groove. | 10-21-2010 |
| 20100266253 | Rear latch arrangement for sliding drawer - 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. | 10-21-2010 |
| 20100266244 | Hardened Fiber Optic Connector Compatible with Hardened and Non-Hardened Fiber Optic Adapters - A fiber optic connector is disclosed for use with both a hardened fiber optic adapter and a non-hardened fiber optic adapter. The connector includes a connector housing having an end defining a plug portion. The plug portion includes first and second sets of retaining features for retaining the connector. The first and second retaining feature sets retain the connector within the hardened and unhardened adapters respectively. A threaded member can be included on the connector to threadingly engage and connect the connector to the hardened adapter. A sliding lock can be included on the connector to lock the connector to the non-hardened adapter when slid into a locking position. The sliding lock can be mounted to the threaded member. The sliding lock can include protrusions that engage and lock the non-hardened adapter when in the locking position thereby locking the non-hardened adapter to the connector. The sliding lock can include a positioning latch to maintain it in the locking position. The positioning latch can maintain the locking position by engaging the first set of retaining features on the plug portion. | 10-21-2010 |
| 20100266242 | Hardened Fiber Optic Connection System with Multiple Configurations - A fiber optic connection system includes a ruggedized fiber optic adapter and a ruggedized fiber optic connector and can further include a standard fiber optic connector (e.g., an SC connector), a pre-existing ruggedized fiber optic adapter, a first converter for converting the standard fiber optic connector to be compatible with the ruggedized fiber optic adapter, a second converter for converting the ruggedized fiber optic connector to be compatible with the pre-existing ruggedized fiber optic adapter, and a standard fiber optic adapter (e.g., an SC adapter). The ruggedized fiber optic connector is compatible with the ruggedized fiber optic adapter and with the standard fiber optic adapter. To retain the various connectors within the various adapters, various retention members and features (e.g. threaded retention members and latches) can be included in the fiber optic connection system. The first converter includes a converter housing that is sized to fit over a connector body of the standard fiber optic connector and retention shoulders of the connector body engage the converter housing. | 10-21-2010 |
| 20100266237 | Adapter block including connector storage - A fixture includes an adapter array with movable adapter modules and a storage panel. A housing of a connector holder includes a plurality of openings for receiving fiber optic connectors and protecting the polished end face of the connectors from damage while the connectors are stored within the storage panel. Each of the connectors are inserted within the openings in the connector holder for storage and protection until the cables need to be connected to a customer equipment cable in the adapter array. The fixture is used in a cabinet including fiber optic splitters. Offset vertical fingers are provided on the fixture for cable management. | 10-21-2010 |
| 20100263902 | Offset Slotting for Cable Trough Member - Systems and methods for the management and routing of telecommunication cables include cable trough members. Generally, the trough members include a plurality of slots formed in the sidewalls of the trough members. These slots form a tortuous path as the slots extend along the sidewalls from a first end to a second open end at an end of the sidewalls. | 10-21-2010 |
| 20100260290 | SMOOTH MODULATION SWITCHING - A transmitter comprises a channel encoder to encode data bits; a modulator to modulate the encoded data bits, wherein the modulator selects one of a first modulation scheme and a second modulation scheme for each of a plurality of time slots; wherein, for each time slot, the channel encoder: includes a prefix and a suffix at the beginning and end, respectively, of the encoded data bits corresponding to the respective time slot, the prefix and the suffix being selected based on the selected modulation scheme for the respective time slot; and passes the prefix, the encoded data bits, and the suffix to the modulator; wherein, for each time slot, the modulator: modulates the prefix, the encoded data bits, and the suffix received from the channel encoder according to the selected modulation scheme for the respective time slot; and applies a window function to the prefix and the suffix. | 10-14-2010 |
| 20100260281 | JOINT CHANNEL ESTIMATION AND MODULATION DETECTION - A receiver comprises a demodulator to estimate channel impulse response and timing synchronization information for the received signal and to select a modulation technique for demodulating the received signal; and a channel decoder to produce a binary sequence from the received signal demodulated according to the selected modulation technique; wherein the demodulator: demodulates the received signal according to a first modulation technique and a second modulation technique to produce a first demodulated signal and a second demodulated signal, respectively; calculates a minimum distance between a first reconstructed signal including the training sequence and the first demodulated signal to estimate the channel impulse response and timing synchronization information; calculates a minimum distance between a second reconstructed signal including the training sequence and the second demodulated signal to estimate the channel impulse response and timing synchronization information; compares the minimum distance corresponding to the first demodulated signal with the minimum distance corresponding to the second demodulated signal; and selects the modulation technique, from among the first and second modulation techniques, that corresponds to the smaller minimum distance. | 10-14-2010 |
| 20100248530 | Threaded connector and patch cord having a threaded connector - A patch cord including a connector attached to an end of a multi-pair cable. The connector including a threaded arrangement that engages a jacket of the multi-pair cable to secure the connector relative to the end of the multi-pair cable. | 09-30-2010 |
| 20100240251 | METHODS AND SYSTEMS FOR POSITIONING CONNECTORS TO MINIMIZE ALIEN CROSSTALK - The present invention relates to methods and systems for minimizing alien crosstalk between connectors. Specifically, the methods and systems relate to isolation and compensation techniques for minimizing alien crosstalk between connectors for use with high-speed data cabling. A frame can be configured to receive a number of connectors. Shield structures may be positioned to isolate at least a subset of the connectors from one another. The connectors can be positioned to move at least a subset of the connectors away from alignment with a common plane. A signal compensator may be configured to adjust a data signal to compensate for alien crosstalk. The connectors are configured to efficiently and accurately propagate high-speed data signals by, among other functions, minimizing alien crosstalk. | 09-23-2010 |
| 20100232596 | Splitter Card with Integral Test Access - A splitter card having integral test access devices. The splitter card allows test access to be readily provided at any location where splitter cards are typically mounted (e.g., a splitter chassis). | 09-16-2010 |
| 20100226654 | Methods, Systems and Devices for Integrating Wireless Technology into a Fiber Optic Network - The present disclosure relates to a fiber optic network configuration having an optical network terminal located at a subscriber location. The fiber optic network configuration also includes a drop terminal located outside the subscriber location and a wireless transceiver located outside the subscriber location. The fiber optic network further includes a cabling arrangement including a first signal line that extends from the drop terminal to the optical network terminal, a second signal line that extends from the optical network terminal to the wireless transceiver, and a power line that extends from the optical network terminal to the wireless transceiver. | 09-09-2010 |
| 20100226615 | FIBER DISTRIBUTION HUB - A method for configuring an enclosure used in a communications network is described. The method may include providing a group of pigtails. The method may further include routing the group of pigtails circumferentially around a subscriber termination field, where the group of pigtails is associated with an optical splitter module used to convey optical signals to a destination, and where the routing is performed in a manner that does not substantially obstruct access to at least one of a group of subscriber terminations that are associated with the subscriber termination field. | 09-09-2010 |
| 20100226296 | RANGE EXTENSION FOR TIME DIVISION DUPLEX SYSTEMS - A method of scheduling time division duplex frames at a base station in a time division duplex system is provided. The method includes determining if the round-trip propagation delay between the base station and a communicatively coupled subscriber station is greater than the difference between the base station turn-around time and the minimum allowed subscriber station turn-around time, and modifying time slots in a time division duplex frame being sent to the subscriber station over a communication link to extend the range of signals sent from the base station. | 09-09-2010 |
| 20100215331 | FIBER OPTIC CABLE CLAMP - A fiber optic cable clamp is provided. The fiber optic cable clamp includes a sheath grip member and a strength member clamp maintained at a constant axial location with respect to the sheath grip member. The fiber optic cable clamp also includes a cable fiber separator connected to the sheath grip member, the cable fiber separator including a plurality of cable fiber openings and attached to the strength member clamp. The fiber optic cable clamp, when mounted to a fiber optic cable, maintains the relative axial locations of a cable sheath and cable strength member along a fiber optic cable. | 08-26-2010 |
| 20100215049 | INTER-NETWORKING DEVICES FOR USE WITH PHYSICAL LAYER INFORMATION - One exemplary embodiment is directed to an inter-networking device that performs at least one inter-networking function using physical layer information about the network of which the device is a part. Another exemplary embodiment is directed to capturing physical layer information about physical communication media that is attached to an inter-networking device. Another exemplary embodiment is directed to a technique for generating a spanning tree and/or forwarding database information for a plurality of switches in a network at a central location. The spanning tree and/or forwarding database information is generated at the central location using information including physical layer information about devices and physical communication media in the network. Another exemplary embodiment is directed to an ETHERNET physical layer device having integrated support for capturing physical layer information about the physical communication media connected to the ETHERNET physical layer device. | 08-26-2010 |
| 20100215028 | PROVIDING WIRELESS COVERAGE INTO SUBSTANTIALLY CLOSED ENVIRONMENTS - A communication system includes a master host unit, communication links, a remote server unit, an analog communication medium, and remote units. The master host unit communicates analog signals with service provider interfaces using a first set of bands of analog spectrum. The master host unit communicates digitized spectrum in N-bit words across communication links and converts between the first set of bands and N-bit words. The remote server unit communicates N-bit words with the master host unit across communication links and converts between N-bit words and a second set of bands of analog spectrum. The remote server unit communicates the second set of bands with the remote units across the analog communication medium. Each remote unit frequency converts the second set of bands to a third set of bands of analog spectrum and transmits and receives wireless signals, associated with service provider interfaces, over air interfaces. | 08-26-2010 |
| 20100211697 | MANAGED CONNECTIVITY DEVICES, SYSTEMS, AND METHODS - One exemplary embodiment is directed to an end node that includes functionality to read information stored on or in a segment of physical communication media that is attached to the end node and to communicate the read information over a network (for example, to an aggregation point). Another exemplary embodiment is directed a wall outlet that includes functionality to read information stored on or in a segment of physical communication media connected to it and communicate at least a portion of the information read from the segment of physical communication media to an aggregation point. Another exemplary embodiment is directed a wall outlet that includes a switch and functionality to read information stored on or in a segment of physical communication media connected to it and to communicate at least a portion of the information read from the segment of physical communication media to an aggregation point. | 08-19-2010 |
| 20100211665 | NETWORK MANAGEMENT SYSTEMS FOR USE WITH PHYSICAL LAYER INFORMATION - One exemplary embodiment is directed to a network management system that uses physical layer information in performing a network management function. Another exemplary embodiment is directed to a method of tracking channel compliance using physical layer information. | 08-19-2010 |
| 20100211664 | AGGREGATION OF PHYSICAL LAYER INFORMATION RELATED TO A NETWORK - An exemplary system includes a plurality of connector assemblies. Each of the connector assemblies includes a plurality of ports. Each of the connector assemblies is configured to read information stored on or in physical communication media that is connected to the ports of the respective connector assembly. An aggregation point is communicatively coupled to the plurality of connector assemblies. The aggregation point is configured to automatically discover the connector assemblies and cause each of the connector assemblies to send to the aggregation point at least some of the information read from the physical communication media that is connected to its ports. The aggregation point is configured to store at least some of the information sent by the connector assemblies to the aggregation point. The aggregation point can also be configured to provide at least some of the information it stores to at least one other device via the network. | 08-19-2010 |
| 20100209066 | FIBER DISTRIBUTION HUB WITH DUAL SWING FRAMES - 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. | 08-19-2010 |
| 20100208777 | DISTRIBUTED ANTENNA SYSTEM USING GIGABIT ETHERNET PHYSICAL LAYER DEVICE - One embodiment is directed to a distributed antenna system for distributing radio frequency signals within a coverage area. The system comprises a first unit and a second unit that is communicatively coupled to the first unit using a gigabit ETHERNET compatible communication medium. The first unit and the second unit include respective non-ETHERNET compatible media control devices and respective ETHERNET compatible physical layer devices. The first unit receives radio frequency signals and generates a digital representation of the radio frequency signals. The first unit transmits at least a portion of the digital representation of the radio frequency signals to the second unit over the gigabit ETHERNET compatible communication medium. The second unit reconstructs analog radio frequency signals from the received digital representation of the radio frequency signals for radiation within the coverage area. | 08-19-2010 |
| 20100202744 | Cable management panel with sliding drawer and methods - An optical fiber cable management panel includes drawer assemblies, each including a drawer slidable within a chassis. The drawer assemblies are secured together by a bracket that includes an interlock arrangement with the chassis. Such an interlock arrangement includes a non-threaded stud engaging a hole. Radius limiters may be part of the drawer assembly and include a cable entry aperture have a closed perimeter and a flared cable guide surface around most of, and preferably all of, the closed perimeter to allow for the entry of cables from all directions. A control mechanism controls movement of the radius limiter relative to the drawer assembly. The control mechanism includes a rotating member that has an axis of rotation transverse to the slidable motion of the radius limiter and normal to the radius limiter. | 08-12-2010 |
| 20100202356 | BACKFIRE DISTRIBUTED ANTENNA SYSTEM (DAS) WITH DELAYED TRANSPORT - A distributed antenna system (DAS) is provided, comprising a host unit and a plurality of remote placed to define a common coverage area. Each of the plurality of remote units is communicatively coupled to the host unit, points at least partially towards the common coverage area, and simulcasts data from the host unit. | 08-12-2010 |
| 20100195968 | Cable management panel with sliding drawer - An optical fiber cable management panel is provided with slideable drawers and structure within the drawers for cable management and/or connection to other devices. Tray inserts drop into the drawers to provide the appropriate management and connection devices. A movable take-up mechanism manages the cable entering and exiting the drawers at side openings. Stackable pivoting storage trays on the tray insert include a detent arrangement for holding each tray in a pivoted access position. The tray inserts further include a front key, and a back tab mounting arrangement for mounting the tray inserts to the drawers, and side radius limiters including notches for extending over raised portions of the drawer. The take-up mechanism includes a U-shaped trough section and cable retention tabs. A control mechanism is provided for controlling movement of the take-up mechanism relative to the drawer. | 08-05-2010 |
| 20100195958 | Fiber connector and adapter - Fiberoptic connector and adapter assembly includes a fiberoptic connector received within an adapter. The connector has a cover on the connector housing. The cover pivots between open and closed positions to expose or cover, respectively, a optical fiber contained within the connector. Longitudinal guides of the connector are received cooperating with longitudinal guides of the adapter to direct the connector into the adapter in a prescribed alignment. A cam pin is carried on the adapter to engage a cam pin receiving slot on the cover to urge the cover to the open position as the connector is inserted into the adapter. | 08-05-2010 |
| 20100195298 | Telecommunications Chassis and Card - A chassis and associated telecommunication circuit card are disclosed. The chassis has heat dissipation structures and may accommodate a high density of the circuitry cards. Embodiments may include one surface with one or more ridges for rigidity and ventilation and fin slots for receiving circuit card guide fins. Embodiments may include a surface with knockouts for receiving circuit card guides. Embodiments may also include multiple bracket hole patterns for mounting brackets for different racks or for a single multi-rack bracket having more than one mounting hole pattern. The circuit card includes conductor structures such as multiple board layers with paired and segregated conductors. The circuit card also includes some components positioned to cooperate with the ventilation structures of the chassis and includes some components chosen for low-power consumption or reduced flammability. | 08-05-2010 |
| 20100193450 | Cable management assembly, system and method - A cable management assembly, and method related thereto, including a panel having an interface portion. The interface portion having a plurality of discrete openings, including first and second shaped apertures. The assembly further including cable management devices having securing structure including a flexible tab and a locating element. The securing structure being configured to mount the cable management devices at selected vertical and horizontal locations on the panel. The cable management assembly being configured to mount between two adjacent telecommunication racks or to an end of a telecommunication rack. | 08-05-2010 |
| 20100190519 | METHOD AND APPARATUS FOR MUTING A DIGITAL LINK IN A DISTRIBUTED ANTENNA SYSTEM - System and methods for muting a digital link in a distributed antenna system are provided. In one embodiment, a device for processing signals a distributed antenna system (DAS) is provided. The device comprises: a first signal path for transporting digital data signals; a controller for monitoring events affecting the first signal path; and a muting module coupled to the controller, wherein the muting module controls muting of a signal power of the first signal path as directed by the controller. The muting module applies a hard clamping to mute the signal power of the first signal path when the controller identifies an unplanned event. The muting module applies a ramp to mute the signal power of the first signal path when the controller identified a planned event. | 07-29-2010 |
| 20100189404 | FIBER OPTIC ENCLOSURE - A fiber optic enclosure includes an enclosure having a base and a cover connected to the base. The base and the cover cooperate to define an interior region. The enclosure includes a tray mount disposed in the interior region. A plurality of fiber optic cable ports is mounted to the enclosure. A tray stack is mounted within the interior region of the enclosure. The tray stack includes a tray mounting plate assembly that is pivotally connected to the tray mount of the enclosure. The tray mounting plate assembly includes a tray mounting plate and a detent that engages the tray mount to selectively retain the tray stack in an opening position and a closed position. The tray stack further includes a plurality of trays mounted to the tray mounting plate. | 07-29-2010 |
| 20100189170 | METHOD AND APPARATUS FOR DIGITALLY EQUALIZING A SIGNAL IN A DISTRIBUTED ANTENNA SYSTEM - Systems and methods for digitally equalizing a signal in a distributed antenna system are provided. In one embodiment, a signal processing device within a distributed antenna system comprises a signal path within a signal processing board, the signal path having an uncompensated distortion function of G(ω) with a system response represented by y(n); and a compensator coupled to the signal path, the compensator having a finite impulse response (FIR) filter with an impulse response function represented by H(ω), the compensator having an FIR filter parameter vector {right arrow over (h)} determined from an estimated system response y(n) of the signal path to an input comb signal x(n), wherein y(n) is estimated from interpolated measured output responses of the signal path to a plurality of frequency sweep signal test inputs. | 07-29-2010 |
| 20100184428 | LOCAL ROAMING NUMBER SERVER - Another embodiment is directed to a wireless network. The wireless network comprises a visitor location register to store information about wireless devices that are located in a coverage area associated with the wireless network and a switching center to establish calls with wireless devices located in the coverage area associated with the wireless network. The wireless network further comprises a home location register to store information about subscribers for whom the wireless network is their home network and an operations and support subsystem that is configured to receive information indicative of location update events. The wireless network further comprises a local roaming server coupled to the operations and support subsystem to receive at least a portion of the information indicative of the location update events. The local roaming server is configured to do the following after a visitor enters the coverage area associated with the wireless network and successfully performs a location update: store an address associated with the visitor location register that is servicing the visitor and act as a home location register in connection with providing local roaming number service to the visitor using a local roaming number assigned to the visitor. | 07-22-2010 |
| 20100183264 | Hardened Fiber Optic Housing and Cable Assembly - A female fiber optic connector includes an outer housing, a single internal male fiber optic connector, and a fiber optic adapter. The outer housing has a first end, which receives a fiber optic cable, positioned opposite from a second end, which defines a connector port for receiving an external male connector. The single internal male fiber optic connector is positioned within the outer housing and includes a ferrule in which a fiber is terminated. The fiber optic adapter is positioned within the outer housing and includes an alignment sleeve, a first end, which receives the single internal male fiber optic connector with the ferrule of the single internal male fiber optic connector positioned within the alignment sleeve, and an opposite second end facing toward the connector port and being configured so that a ferrule of the external male connector fits within the alignment sleeve when inserted in the connector port. | 07-22-2010 |
| 20100181093 | Cable with Jacket Including a Spacer - A multi-pair cable having a jacket, including a spacer integrally formed in the jacket. The spacer extends helically about the central axis of the cable. The spacer includes an inner projection that projects radially inward and an outer projection that projects radially outward from the main wall of the jacket. The jacket with the spacer reduces the occurrence of alien crosstalk between adjacent cables. | 07-22-2010 |
| 20100178936 | SYSTEMS AND METHODS FOR MOBILE PHONE LOCATION WITH DIGITAL DISTRIBUTED ANTENNA SYSTEMS - Methods and systems for mobile phone location within a digital distributed antenna system (DAS) are provided. In one embodiment, a method comprises: receiving a request for location services from a subscriber unit located within a digital DAS, the digital DAS including a first partition of bandwidth for transporting digitized RF signals of one or more modulated signals and a second partition of bandwidth for an Ethernet pipe transporting IP formatted data; routing the request for location services to a subscriber locator center; instructing locator receivers within a geographical area of the digital DAS to listen for a signal from the subscriber unit; listening for the signal at a first locator receiver; when the signal is observed, recording a time the signal was received and generating subscriber unit ranging data; and transmitting subscriber unit ranging data back to the subscriber locator center in an IP formatted message via the Ethernet pipe. | 07-15-2010 |
| 20100178914 | SYSTEM AND METHOD OF DELIVERING CONTENT FROM A WIRELESS COMMUNICATION UNIT - In one embodiment, a wireless communication unit is provided. The wireless communication unit comprises a transceiver operable to transmit to and receive wireless signals from one or more wireless devices in a service area of the wireless communication unit; a controller operable to manage operation of the transceiver and to obtain and store connection information for each of the one or more wireless devices; and a cache operable to store location-based data associated with the service area of the wireless communication unit. The controller is further operable to push location-based data from the cache to at least a subset of the one or more wireless devices using the stored connection information for the subset of the one or more wireless devices. | 07-15-2010 |
| 20100177760 | SYSTEMS AND METHODS FOR IMPROVED DIGITAL RF TRANSPORT IN DISTRIBUTED ANTENNA SYSTEMS - Systems and methods for improved digital RF transport in a DAS are provided. In one embodiment, a transceiver comprises: a receive path circuit including an RF reception interface coupled to an ADC, the ADC receiving a down-converted analog RF spectrum from the RF reception interface and producing a digitized RF spectrum at an input sampling rate; a logic device receiving the digitized RF spectrum and producing a first set of baseband data samples at a first sampling rate, corresponding to a first spectral region of the analog RF spectrum and a second set of baseband data samples at a second sampling rate, corresponding to a second spectral region of the analog RF spectrum. The logic device maps the first set and second sets of baseband data samples to a respective first set and second set of timeslots of a serial data stream transport frame. | 07-15-2010 |
| 20100177759 | SYSTEMS AND METHODS FOR IP COMMUNICATION OVER A DISTRIBUTED ANTENNA SYSTEM TRANSPORT - Systems and methods for IP communication over a distributed antenna system transport are provided. In one embodiment, a method for providing Ethernet connectivity over a distributed antenna system comprises receiving internet protocol (IP) formatted data from an internet protocol device coupled to a remote unit of a distributed antenna system; sampling wireless radio frequency (RF) signals received at the remote unit to produce digitized RF samples; generating a serial data stream for output to a host unit of the distributed antenna system, the serial data stream further comprising a multiple-timeslot communication frame providing a first partition of bandwidth for transporting the digitized RF samples and a second partition of bandwidth for implementing an Ethernet pipe for transporting the IP formatted data. | 07-15-2010 |
| 20100177751 | SYSTEM AND METHOD OF DELIVERING CONTENT OVER A LOCAL WIRELESS SYSTEM - A local wireless system comprises a plurality of wireless communication units to transmit to and receive wireless signals from one or more wireless devices and a soft switch coupled to the plurality of wireless communication units to obtain connection information for each of the one or more wireless devices. The soft switch comprises a memory to store the connection information and location-based data associated with a service area of the plurality of wireless communication units; and a gateway to process non-real-time data requests and provide an interface to a packet network. The soft switch is operable to push the location-based data from the memory to at least a subset of the one or more wireless devices using the connection information stored in the memory. | 07-15-2010 |
