Patent application number | Description | Published |
20130090010 | Surge Protector Components Having a Plurality of Spark Gap Members Between a Central Conductor and an Outer Housing - A coaxial connector includes a surge protection component including a plurality of elongated members, a body portion that is configured to receive the surge protection component such that the elongated members extend along an outer surface thereof, and a center conductor disposed inside the body portion and spaced apart from the surge protection component so as to create a gap therebetween | 04-11-2013 |
20130111937 | COOLING MODULE FOR MODULAR DATA CENTER AND SYSTEM COMPRISING THE COOLING MODULE AND AT LEAST ONE SERVER MODULE - A cooling module for cooling at least two server modules that are configured to house a plurality of servers, the cooling module including a housing having an interior containing air, an intake into the housing, an outlet from the housing, at least one fan configured to move the air from the intake to the outlet and at least one sprayer configured to spray a mist into the air in the interior for evaporative cooling of the interior. Also a system formed of the cooling module, first and second server modules and a plenum connecting the outlet of the cooling module and intakes of the first and second server modules. | 05-09-2013 |
20130121654 | Miniaturized Optical Fiber Drop Cable - A fiber optic cable includes first and second optical fibers. A fiber section surrounds the fibers and is formed of a first material. First and second strength members are adjacent to the fiber section on opposite sides thereof. A jacket surrounds the first and second strength members and fiber section. The jacket is formed of a second material, stronger than the first material and which does not adhere to the first material. The jacket may be manually torn open to access the fiber section. The fiber section may be manually pinched and stripped cleanly from the fibers. The fiber section acts as a cocoon to protect the fibers when the jacket is opened and cleanly pulls off of the fibers by manual force. | 05-16-2013 |
20130136394 | OPTICAL SWITCH ASSEMBLY FOR DETECTING MOVEMENT - An optical switch assembly includes a first member, a second member movably secured to the first member, and first and second optical cable connectors attached to the first member. The second member is movable between first and second positions relative to the first member. The optical switch assembly also includes an optical cable having opposite first and second ends. The optical cable first end is in optical communication with the first optical cable connector and the optical cable second end is attached to the second member. Movement of the second member to the second position causes the optical cable second end to be in optical communication with the second optical cable connector such that an optical path is established between the first and second optical cable connectors. The establishment of an optical path allows the optical cable to pass an optical signal back to a monitoring station. | 05-30-2013 |
20130141113 | SYSTEMS AND METHODS OF IDENTIFYING CONNECTIONS IN A COMMUNICATIONS PATCHING SYSTEM USING COMMON-MODE CHANNEL SIGNAL TRANSMISSIONS - 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. | 06-06-2013 |
20130149912 | Local Area Networks for Intelligent Patching System Controllers and Related Methods, Controllers and Communications Interfaces - Communications interfaces are provided that include a connector port that has housing that defines a plug aperture and at least first through eighth contacts that extend into the plug aperture. These communications interfaces further include an Ethernet interface (e.g., an Ethernet switch) and a multi-drop communication interface (e.g., an RS-485 transceiver). First through fourth conductive paths are provided that electrically connect the respective first through fourth contacts of the connector port to the Ethernet interface, Fifth and sixth conductive paths are provided that electrically connect the respective fifth and sixth contacts of the connector port to the multi-drop communication interface. | 06-13-2013 |
20130164980 | Assembly and System of Datacommunication Cables and Connectors - A datacommunication interconnection system includes (a) an extension trunk cable-connector assembly and (b) a trunk cable-connector assembly. The extension trunk cable-connector assembly comprises: a first cable including a plurality of first subunits, each of the first subunits comprising a plurality of twisted pairs of conductors; a jack attached to one end of the cable; and a plug attached to an opposite end of the cable. Each of the jack and the plug includes a contact for each of the conductors of the cable. The trunk cable-connector assembly comprises: a second cable including a plurality of second subunits, each of the second subunits comprising a plurality of twisted pairs of conductors; a plug attached to one end of the second cable and connected with the jack of the extension trunk cable; and a plurality of RJ-45 connectors attached to subunits at an opposite end of the second cable. | 06-27-2013 |
20130177280 | Expanded Beam Connector Concepts - A terminus for a fiber optic cable includes a ferrule. In one embodiment, an optical fiber of the cable passes through a central bore of the ferrule and is attached to a lens seated in a conical or cylindrical seat formed in an end surface of the ferrule by an epoxy. In a second embodiment, an optical fiber of the cable passes through the central bore of the ferrule. Next, a cap sleeve with a lens therein is slid over and attached to the ferrule such that the lens abuts or is attached to the optical fiber. In either embodiment, an inspection slot may optionally be formed in the ferrule and/or the cap sleeve to allow a technician to inspect the state of the attachment and/or abutment and/or spacing of the optical fiber and the lens. | 07-11-2013 |
20130195418 | Optical Fiber Module with Mounting Block for Securing an Optical Fiber Connector - An optical fiber module includes a plate having a first side, a second side and at least one through opening, a plurality of connection elements at the first side, and a mounting block at the second side that is configured to secure, relative to the plate, at least one second fiber optic connector which has a longitudinal axis, an end, a wide portion and an end portion between the wide portion and the end. The mounting block includes a channel having an enlarged portion configured to receive the wide portion of the at least one second fiber optic connector, and the channel is configured to permit the insertion of the at least one second fiber optic connector in a direction perpendicular to the longitudinal axis while preventing the removal of the at least one second fiber optic connector in any direction parallel to the longitudinal axis. | 08-01-2013 |
20130201993 | 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. | 08-08-2013 |