Patent application number | Description | Published |
20080316940 | METHODS AND SYSTEMS FOR USING MANAGED PORT CIRCUITRY TO MAP CONNECTIONS AMONG STRUCTURED CABLING APPARATUS AND NETWORK DEVICES - A managed port circuit includes a detection circuit that is disposed in a communication channel between a first local port and a second local port and a controller that is coupled to the detection circuit and is operable to configure the detection circuit in a detection configuration in which the first and second local ports are connected to the controller and a second pass through configuration in which the first and second local ports are connected to each other via the communication channel, the controller being further operable to determine when an end device is connected to one of the first and second local ports when the detection circuit is in the detection configuration. | 12-25-2008 |
20100189403 | Telecommunications Patching Systems with High Density Patching Modules - A telecommunications patching system includes: a generally horizontal main panel; a row of front connectors associated with the main panel, each of the front connectors being spaced apart from immediately adjacent front connectors by a gap; and a row of rear connectors associated with the main panel, each of the rear connectors being spaced apart from immediately adjacent rear connectors by a gap. The front connectors are laterally offset from the rear connectors such that each of the gaps between the rear connectors aligns with a respective front connector, and each of the gaps between the front connectors aligns with a respective rear connector. In this configuration, cords or cables connected with the front row of connectors can reside in the gaps between the rear connectors, and cords or cable with the rear connectors can reside in the gaps between the front connectors. This arrangement can provide high port density to the patching system. | 07-29-2010 |
20100210135 | Patch Panel Cable Information Detection Systems and Methods - A communications system includes a plurality of patch panels, wherein each patch panel has a plurality of connector ports on a front surface thereof that are each connected to a respective communication line, and one or more optical couplers/connector ports on a rear surface thereof for linking two or more patch panels together. A cable for linking patch panels includes opposite ends and a respective connector at each end that is configured to be removably secured within a respective coupler/connector port on the rear surface. Each connector has an RFID tag attached thereto. An RF antenna is secured to each patch panel adjacent each respective coupler, and each antenna is configured to activate and read information from a cable RFID tag when a cable connector is secured within a coupler adjacent thereto. | 08-19-2010 |
20100266117 | Network Switch with Integrated Cable Termination Locations - A network switch that can directly receive and connect to telecommunications cables includes: a body; a first panel mounted to the body; a first plurality of ports located in the first panel, each of the first plurality of ports configured to receive a telecommunications cable; a second panel mounted to the body; a second plurality of ports located in the second panel, each of the second plurality of ports configured to receive a patch cord; and electronic circuitry housed in the body for conducting network switching operations, the electronic circuitry being connected with the first plurality of ports and the second plurality of ports. Such a network switch can receive a cable directly, rather than requiring an intermediate patch panel, and therefore can simplify either an interconnect or a cross-connect telecommunications system. | 10-21-2010 |
20110008996 | Dynamic Labeling of Patch Panel Ports - A patch panel for a communications patching system includes a plurality of connector ports. Each connector port is configured to detect insertion and removal of a patch cord. A controller is electrically coupled to the connector ports and monitors patch cord interconnections. An electronic display is positioned adjacent the connector ports and displays port identification information and real-time patch cord connection information for each respective connector port. The displayed patch cord connection information is dynamically updated by the controller as a patch cord is inserted or removed from a respective connector port. | 01-13-2011 |
20120000977 | PATCH PANEL CABLE INFORMATION DETECTION SYSTEMS AND METHODS - A communications system includes a plurality of patch panels, wherein each patch panel has a plurality of connector ports on a front surface thereof that are each connected to a respective communication line, and one or more optical couplers/connector ports on a rear surface thereof for linking two or more patch panels together. A cable for linking patch panels includes opposite ends and a respective connector at each end that is configured to be removably secured within a respective coupler/connector port on the rear surface. Each connector has an RFID tag attached thereto. An RF antenna is secured to each patch panel adjacent each respective coupler, and each antenna is configured to activate and read information from a cable RFID tag when a cable connector is secured within a coupler adjacent thereto. | 01-05-2012 |
20120040539 | Datacommunications Modules, Cable-Connector Assemblies and Components Therefor - A combination includes: (a) a communications module including: a housing; a printed wiring board mounted within the housing; a plurality of RJ-45 jacks mounted on the printed wiring board and accessible from one side of the housing; and a single module connector mounted to the printed wiring board and electrically connected to the RJ-45 jacks, connector being accessible from a second side of the housing; and (b) a cable-connector assembly including: a cable comprising a plurality of subunits, each of the subunits comprising a jacket and a plurality of twisted pairs of conductors positioned within the jacket; and a single cable connector mounted to the printed circuit board and electrically connected to the conductors of the cable subunits. The module connector is attached to the cable connector. | 02-16-2012 |
20130260602 | PATCH PANEL CABLE INFORMATION DETECTION SYSTEMS AND METHODS - A communications system includes a plurality of patch panels, wherein each patch panel has a plurality of connector ports on a front surface thereof that are each connected to a respective communication line, and one or more optical couplers/connector ports on a rear surface thereof for linking two or more patch panels together. A cable for linking patch panels includes opposite ends and a respective connector at each end that is configured to be removably secured within a respective coupler/connector port on the rear surface. Each connector has an RFID tag attached thereto. An RF antenna is secured to each patch panel adjacent each respective coupler, and each antenna is configured to activate and read information from a cable RFID tag when a cable connector is secured within a coupler adjacent thereto. | 10-03-2013 |
20140111346 | Methods of Automatically Recording Patching Changes at Passive Patch Panels and Network Equipment - Methods of executing patching connection changes in a patching field are provided in which an electronic work order is received on a display located at the patching field, the electronic work order specifying the patching connection change. A technician may perform the patching connection change. Then, an electronic message may be sent from the patching field indicating that the patching change has been completed. | 04-24-2014 |
20140211809 | NETWORK SWITCH WITH INTEGRATED CABLE TERMINATION LOCATIONS - A network switch that can directly receive and connect to telecommunications cables includes: a body; a first panel mounted to the body; a first plurality of ports located in the first panel, each of the first plurality of ports configured to receive a telecommunications cable; a second panel mounted to the body; a second plurality of ports located in the second panel, each of the second plurality of ports configured to receive a patch cord; and electronic circuitry housed in the body for conducting network switching operations, the electronic circuitry being connected with the first plurality of ports and the second plurality of ports. Such a network switch can receive a cable directly, rather than requiring an intermediate patch panel, and therefore can simplify either an interconnect or a cross-connect telecommunications system. | 07-31-2014 |