Abstract: Systems, equipment and methods for automatically tracking cable connections and for identifying work area devices and related methods of operating communications networks are provided. In one embodiment, a method of automatically identifying an end device that is connected to a local area network, the method comprising: transmitting a first control signal over a control channel that runs from a first connector port on a patch panel of the local area network to an integrated circuit chip mounted on the end device through at least a communications cable, a second connector port and a patch cord; receiving a second control signal from the integrated circuit chip over the control channel in response to the first signal, the second signal including identifying information for the end device.

Abstract: Systems, equipment and methods for automatically tracking cable connections and for identifying work area devices and related methods of operating communications networks are provided. In one embodiment, a method of automatically identifying an end device that is connected to a local area network, the method comprising: transmitting a first control signal over a control channel that runs from a first connector port on a patch panel of the local area network to an integrated circuit chip mounted on the end device through at least a communications cable, a second connector port and a patch cord; receiving a second control signal from the integrated circuit chip over the control channel in response to the first signal, the second signal including identifying information for the end device.

Abstract: A telecommunications patching system having point-to-point tracing capabilities includes: a plurality of end devices; at least one rack structure; a plurality of patch panels mounted to each rack structure; a plurality of connector ports disposed on each of the patch panels; a plurality of patch cords for selectively interconnecting different pairs of connector ports; a plurality of cables for selectively interconnecting the connector ports on the patch panels with respective end devices; tracing modules associated with said connector ports and end devices that monitor connectivity of the connector ports and end devices; and a display associated with the tracing modules configured to display the connectivity of a circuit comprising one or more of the connector ports and one or more of the end devices.

Abstract: Methods for collecting information regarding a remote connector port that is connected to a patch panel connector port by a communications cable that has at least one data communications channel and a separate control channel are provided in which a first conductor of the separate control channel of the communications cable is biased to power an integrated circuit chip that is associated with the remote connector port. A first signal is transmitted over the separate control channel of the communications cable to the integrated circuit chip associated with the remote connector port. A second signal is received from the integrated circuit chip over the separate control channel of the communications cable in response to the first signal. The second signal includes information regarding the remote connector port.

Abstract: A telecommunications patching system includes a patch panel comprising a plurality of connector ports and a plurality of patch cords configured to selectively interconnect pairs of the connector ports. Each patch cord has opposite ends and a respective connector secured to each end that is configured to be removably secured within a connector port. The connectors of a respective patch cord have the same unique identifier associated therewith. A first sensor is located at each connector port and detects when a patch cord connector is inserted within, and removed from, a respective connector port. A second sensor is located at each connector port and reads the identifier of a patch cord connector inserted within a respective connector port. The first and second sensors are in communication with a controller that monitors and logs patch cord interconnections with the connector ports.

Abstract: Communications patching system and methods utilizing common-mode channel communications are provided for identifying patch panel ports to which a backbone cable is connected in a communications patching system, for identifying a patch panel port to which a horizontal cable terminating at a telecommunications outlet is connected in a communications patching system, and for identifying the physical location of first and second connectors of a patch cord in a communications patching system having multiple patching zones.

Abstract: A telecommunications patching system having point-to-point tracing capabilities includes: a plurality of end devices; at least one rack structure; a plurality of patch panels mounted to each rack structure; a plurality of connector ports disposed on each of the patch panels; a plurality of patch cords for selectively interconnecting different pairs of connector ports; a plurality of cables for selectively interconnecting the connector ports on the patch panels with respective end devices; tracing modules associated with said connector ports and end devices that monitor connectivity of the connector ports and end devices; and a display associated with the tracing modules configured to display the connectivity of a circuit comprising one or more of the connector ports and one or more of the end devices.

Abstract: Communications patching systems may include one or more patch panels, each of which has plurality of connector ports. A plurality of antennas are provided. Each antenna may be associated with a specific connector port. A radio frequency identification (“RFID”) transceiver and a controller are also provided. A switching circuit is coupled between an output of the RFID transceiver and the plurality of antennas. This switching circuit includes a plurality of switches that are configured to selectively couple one of the plurality of antennas to the output of the RFID transceiver under the control of the controller.

Abstract: Methods of determining patch cord connectivity information include receiving, at each of a plurality of RFID readers, a signal from an RFID tag that is associated with a first patch cord and then, identifying the one of a plurality of connector ports that the first patch cord is connected to based at least in part on respective strengths of the signals received at each of the plurality of RFID readers. RFID triangulation systems and methods of calibrating such systems are also provided.

Abstract: Communications patching system and methods utilizing common-mode channel communications are provided for identifying patch panel ports to which a backbone cable is connected in a communications patching system, for identifying a patch panel port to which a horizontal cable terminating at a telecommunications outlet is connected in a communications patching system, and for identifying the physical location of first and second connectors of a patch cord in a communications patching system having multiple patching zones.

Abstract: Patch panels are provided that include a mounting frame and a plurality of MPO-to-MPO couplers that are mounted on the mounting frame. Each MPO-to-MPO coupler includes a first connector port that is accessible from the front side of the patch panel and a second connector port that is accessible from the rear side of the patch panel. The patch panels also include a first set of antennas, where each antenna from the first set of antennas is adjacent the first connector port of a respective one of the MPO-to-MPO couplers and a second set of antennas, where each antenna from the second set of antennas is adjacent the second connector port of a respective one of the MPO-to-MPO couplers.

Abstract: A telecommunications patching system includes a patch panel comprising a plurality of connector ports and a plurality of patch cords configured to selectively interconnect pairs of the connector ports. Each patch cord has opposite ends and a respective connector secured to each end that is configured to be removably secured within a connector port. The connectors of a respective patch cord have the same unique identifier associated therewith. A first sensor is located at each connector port and detects when a patch cord connector is inserted within, and removed from, a respective connector port. A second sensor is located at each connector port and reads the identifier of a patch cord connector inserted within a respective connector port. The first and second sensors are in communication with a controller that monitors and logs patch cord interconnections with the connector ports.

Abstract: A telecommunications patching system includes a patch panel comprising a plurality of connector ports and a plurality of patch cords configured to selectively interconnect pairs of the connector ports. Each patch cord has opposite ends and a respective connector secured to each end that is configured to be removably secured within a connector port. The connectors of a respective patch cord have the same unique identifier associated therewith. A first sensor is located at each connector port and detects when a patch cord connector is inserted within, and removed from, a respective connector port. A second sensor is located at each connector port and reads the identifier of a patch cord connector inserted within a respective connector port. The first and second sensors are in communication with a controller that monitors and logs patch cord interconnections with the connector ports.

Abstract: Methods for collecting information regarding a remote connector port that is connected to a patch panel connector port by a communications cable that has at least one data communications channel and a separate control channel are provided in which a first conductor of the separate control channel of the communications cable is biased to power an integrated circuit chip that is associated with the remote connector port. A first signal is transmitted over the separate control channel of the communications cable to the integrated circuit chip associated with the remote connector port. A second signal is received from the integrated circuit chip over the separate control channel of the communications cable in response to the first signal. The second signal includes information regarding the remote connector port.

Abstract: A modular rack controller for an intelligent patching system includes a base unit comprising a processor and memory that monitor and log patch cord connectivity in the patching system, and a separate display unit comprising a user interface. The base unit and display unit are in electrical communication with each other via a patch cord, and the display unit displays patch cord connectivity information monitored by the base unit. The rack controller may include a separate Ethernet interface unit that allows the rack controller to communicate with other rack controllers. A mounting bracket having front and rear sides is mounted to a patch panel rack. The display unit is secured to the front side of the mounting bracket and the base unit is secured to the rear side of the mounting bracket. The mounting bracket may have a hinge that pivots the display unit relative to a patch panel rack.

Abstract: An RFID tag includes an accelerometer that is configured to determine an orientation of the RFID tag and to generate an orientation signal associated with the RFID tag orientation when the RFID tag is energized. The accelerometer may be a single axis accelerometer that is configured to determine the orientation of the RFID tag relative to earth. A patch cord for a communications patching system includes a cable and a connector secured to an end of the cable. An RFID tag is secured to the connector and includes an identifier stored therewithin. The RFID tag emits the identifier when energized by via an RFID transceiver. In addition, the REID tag includes an accelerometer that is configured to determine an orientation of the RFID tag and to generate an orientation signal associated with the RFID tag orientation when the RFID tag is energized.

Abstract: Methods of determining patch cord connectivity information include receiving, at each of a plurality of RFID readers, a signal from an RFID tag that is associated with a first patch cord and then, identifying the one of a plurality of connector ports that the first patch cord is connected to based at least in part on respective strengths of the signals received at each of the plurality of RFID readers. RFID triangulation systems and methods of calibrating such systems are also provided.

Abstract: Communications patching system and methods utilizing common-mode channel communications are provided for identifying patch panel ports to which a backbone cable is connected in a communications patching system, for identifying a patch panel port to which a horizontal cable terminating at a telecommunications outlet is connected in a communications patching system, and for identifying the physical location of first and second connectors of a patch cord in a communications patching system having multiple patching zones.

Abstract: A telecommunications patching system includes a patch panel having a plurality of connector ports, and having an RFID reader and RF antennas associated with the connector ports. A plurality of patch cords are configured to selectively interconnect pairs of the connector ports. Each patch cord has opposite ends and a respective connector secured to each end that is configured to be removably secured within a connector port. Each connector of a respective patch cord includes an RFID tag. The RFID tags for a respective patch cord have the same unique identifier stored therewithin. The RF antenna associated with a connector port emits RF signals that cause a patch cord connector RFID tag to transmit its identifier. Each RF antenna detects the transmitted identifier of a patch cord connector RFID tag when the respective patch cord connector is inserted within, and removed from, a respective one of the connector ports.

Abstract: A telecommunications patching system having point-to-point tracing capabilities includes: a plurality of end devices; at least one rack structure; a plurality of patch panels mounted to each rack structure; a plurality of connector ports disposed on each of the patch panels; a plurality of patch cords for selectively interconnecting different pairs of connector ports; a plurality of cables for selectively interconnecting the connector ports on the patch panels with respective end devices; tracing modules associated with said connector ports and end devices that monitor connectivity of the connector ports and end devices; and a display associated with the tracing modules configured to display the connectivity of a circuit comprising one or more of the connector ports and one or more of the end devices.