Patent application number | Description | Published |
20090163084 | Method and System for Reducing Common Mode Signal Generation Within a Plug/Jack Connection - A communication connector is described that includes a plug and a jack, into which the plug is inserted. The plug terminates a length of twisted pair cable. The jack includes a sled to support contacts for connecting to wires within the cable, a rigid circuit board that connects to the contacts, and a flex board that contacts the plug interface contacts. The jack also includes circuitry to compensate for crosstalk between wire pairs of the cable by adding capacitance values within the sled, rigid circuit board and/or flex board between traces carrying signals from the wire pairs so that crosstalk caused by the plug between wire pairs that have signals in phase cancels with crosstalk caused by the plug between signals out of phase, and so that the capacitance values added between each trace are about equal. The compensation is performed to reduce differential to common mode signal conversion. | 06-25-2009 |
20100048040 | High-speed connector with multi-stage compensation - A communication connector uses compensation circuitry to compensate for crosstalk in a network connection. Portions of the compensation circuitry are placed on a flexible circuit board that makes conductive contact with plug interface contacts of the connector. Additional compensation circuitry is provided on a rigid circuit board within the connector. | 02-25-2010 |
20100055969 | Communications connector with multi-stage compensation - A communication connector uses compensation circuitry to compensate for crosstalk in a network connection. Capacitors are connected between specific conducive paths in said communication connector. Inductive stubs are utilized in the compensation circuitry to improve the overall compensation performance. | 03-04-2010 |
20100149709 | POWER OVER ETHERNET TRANSIENT VOLTAGE SUPPRESSION PATCH PANEL - A device for providing transient voltage suppression on a Power over Ethernet system is provided. The device includes a transient voltage suppression module. The transient voltage suppression module includes a circuit module, which includes a circuit board and input and output connectors. One or more transient voltage suppression modules may be mounted to a frame to form a transient voltage suppression patch panel, which, in turn, may be mounted to a rack for use in a telecommunications room. The circuit board combines a frequency-variable impedance connected between conductors in a pair and a voltage-variable impedance connected to the frequency-variable impedance, where the voltage-variable impedance is also connected to a chassis and/or an electrical ground. | 06-17-2010 |
20100197162 | METHOD AND SYSTEM FOR IMPROVING CROSSTALK ATTENUATION WITHIN A PLUG/JACK CONNECTION AND BETWEEN NEARBY PLUG/JACK COMBINATIONS - This application describes a jack for improving crosstalk attenuation. The jack has a housing, a foil at least partially surrounding the housing, a printed circuit board, and at least one pair of insulation displacement contacts and vias. Each pair of insulation contacts and vias are associated with a differential signal. A conductive trace stub is routed on the printed circuit board near the edge of the board in order to at least partially balance the coupling from one of the insulation displacement contacts and vias of a pair to the foil with the other insulation displacement contact and via of the pair. | 08-05-2010 |
20110104933 | Communication Connector with Improved Crosstalk Communication - A communication jack has a housing with a face having a plug receiving aperture. A plurality of conductive path pairs extends from corresponding plug interface contacts located at the plug receiving aperture to corresponding output terminals. A first circuit board is connected to the plug interface contacts and a second circuit board is connected to the plug interface contacts and the output terminals. The first circuit board has a first single stage of crosstalk compensation with opposite polarity of the crosstalk of a plug for a first combination of the conductive path pairs. The second circuit board includes a second single stage of opposite polarity crosstalk compensation for some of the conductive path pairs not compensated on the first circuit board. The stages cancel substantially all of the crosstalk caused by the plug, for the signal operating frequencies, for corresponding combinations of the conductive path pairs. | 05-05-2011 |
20110183547 | Communications Connector with Multi-Stage Compensation - A communication connector uses compensation circuitry to compensate for crosstalk in a network connection. Capacitors are connected between specific conducive paths in said communication connector. Inductive stubs are utilized in the compensation circuitry to improve the overall compensation performance. | 07-28-2011 |
20110237136 | Method and System For Reducing Internal Crosstalk and Common Mode Signal Generation Within a Plug/Jack Combination - A communication connector is described that includes a plug and a jack, into which the plug is inserted. The plug terminates a length of twisted pair cable. The jack includes a sled to support contacts for connecting to wires within the cable, a rigid circuit board that connects to the contacts, and a flex board that contacts the plug interface contacts. The jack also includes circuitry to compensate for crosstalk between wire pairs of the cable by adding capacitance values within the sled, rigid circuit board and/or flex board between traces carrying signals from the wire pairs so that crosstalk caused by the plug between wire pairs that have signals in phase cancels with crosstalk caused by the plug between signals out of phase, and so that the capacitance values added between each trace are about equal. The compensation is performed to reduce differential to common mode signal conversion. | 09-29-2011 |
20110250791 | High Data Rate Electrical Connector and Cable Assembly - An electrical connector has a first shell, an opposing second shell and a circuit board between the first shell and the second shell. The circuit board has a first side and an opposing second side and includes a plurality of differential pair conductive traces on each side. A first drain wire termination device is provided on the first side and includes at least one separator between at least one of the differential pair conductive traces on the first side and another of the differential pair conductive traces on the first side. A second drain wire termination device is connected to the second side and includes at least one separator between at least one of the differential pair conductive traces on the second side and another of the differential pair conductive traces on the second side. | 10-13-2011 |
20110275247 | COMMUNICATION CONNECTOR WITH IMPROVED CROSSTALK CONNECTION - A communication jack has a housing with a face having a plug receiving aperture. A plurality of conductive path pairs extends from corresponding plug interface contacts located at the plug receiving aperture to corresponding output terminals. A first circuit board is connected to the plug interface contacts and a second circuit board is connected to the plug interface contacts and the output terminals. The first circuit board has a first single stage of crosstalk compensation with opposite polarity of the crosstalk of a plug for a first combination of the conductive path pairs. The second circuit board includes a second single stage of opposite polarity crosstalk compensation for some of the conductive path pairs not compensated on the first circuit board. The stages cancel substantially all of the crosstalk caused by the plug, for the signal operating frequencies, for corresponding combinations of the conductive path pairs. | 11-10-2011 |
20120156932 | Method and System for Reducing Internal Crosstalk and Common Mode Signal Generation Within a Plug/Jack Combination - A communication connector is described that includes a plug and a jack, into which the plug is inserted. The plug terminates a length of twisted pair cable. The jack includes a sled to support contacts for connecting to wires within the cable, a rigid circuit board that connects to the contacts, and a flex board that contacts the plug interface contacts. The jack also includes circuitry to compensate for crosstalk between wire pairs of the cable by adding capacitance values within the sled, rigid circuit board and/or flex board between traces carrying signals from the wire pairs so that crosstalk caused by the plug between wire pairs that have signals in phase cancels with crosstalk caused by the plug between signals out of phase, and so that the capacitance values added between each trace are about equal. The compensation is performed to reduce differential to common mode signal conversion. | 06-21-2012 |
20120184154 | Method and System for Improving Crosstalk Attenuation Within a Plug/Jack Connection and Between Nearby Plug/Jack Combinations - This application describes a jack for improving crosstalk attenuation. The jack has a housing, a foil at least partially surrounding the housing, a printed circuit board, and at least one pair of insulation displacement contacts and vias. Each pair of insulation contacts and vias are associated with a differential signal. A conductive trace stub is routed on the printed circuit board near the edge of the board proximate to the foil in order to at least partially balance the coupling from one of the insulation displacement contacts and vias of a pair to the foil with the other insulation displacement contact and via of the pair by electrically connecting the trace stub to the via that is further from the foil. | 07-19-2012 |
20120190240 | High-Speed Connector with Multi-Stage Compensation - A communication connector uses compensation circuitry to compensate for crosstalk in a network connection. Portions of the compensation circuitry are placed on a flexible circuit board that makes conductive contact with plug interface contacts of the connector. Additional compensation circuitry is provided on a rigid circuit board within the connector. | 07-26-2012 |
20120231664 | COMMUNICATION CONNECTOR WITH IMPROVED CROSSTALK COMPENSATION - A communication jack has a housing with a face having a plug receiving aperture. A plurality of conductive path pairs extends from corresponding plug interface contacts located at the plug receiving aperture to corresponding output terminals. A first circuit board is connected to the plug interface contacts and a second circuit board is connected to the plug interface contacts and the output terminals. The first circuit board has a first single stage of crosstalk compensation with opposite polarity of the crosstalk of a plug for a first combination of the conductive path pairs. The second circuit board includes a second single stage of opposite polarity crosstalk compensation for some of the conductive path pairs not compensated on the first circuit board. The stages cancel substantially all of the crosstalk caused by the plug, for the signal operating frequencies, for corresponding combinations of the conductive path pairs. | 09-13-2012 |
20120244752 | Communication Connector - A communication jack which includes a housing with an aperture for receiving a communication plug, and a circuit board at least partially within the housing. The circuit board includes crosstalk compensation elements. A plurality of plug interface contacts are connected to the circuit board. At least one of the plurality of plug interface contacts includes a contact element layered with at least one spring element. | 09-27-2012 |
20130005178 | High Data Rate Electrical Connector and Cable Asssembly - An electrical connector has a first shell, an opposing second shell and a circuit board between the first shell and the second shell. The circuit board has a first side and an opposing second side and includes a plurality of differential pair conductive traces on each side. A first drain wire termination device is provided on the first side and includes at least one separator between at least one of the differential pair conductive traces on the first side and another of the differential pair conductive traces on the first side. A second drain wire termination device is connected to the second side and includes at least one separator between at least one of the differential pair conductive traces on the second side and another of the differential pair conductive traces on the second side. | 01-03-2013 |
20140073195 | Lead Frame Style Communication Jack - A communication connector including a plurality of conductors each having a plug contact region and an opposing cable conductor termination region. The plurality of conductors are arranged in respective communication pairs. The communication connector includes a coupling zone between a first conductor of a first communication pair and a second conductor of a second communication pair. The coupling zone has at least one first conductive finger connected to the first conductor and at least one second conductive finger connected to the second conductor, each of the first conductive fingers are adjacent to at least one of the second conductive fingers. | 03-13-2014 |
20140148057 | COMMUNICATION JACK HAVING AN INSULATING ELEMENT AND A SPRING ELEMENT - A communication jack which includes a housing with an aperture for receiving a communication plug, and a circuit board at least partially within the housing. The circuit board includes crosstalk compensation elements. A plurality of plug interface contacts are connected to the circuit board. At least one of the plurality of plug interface contacts includes a contact element layered with at least one spring element. | 05-29-2014 |
20140154919 | METHOD AND SYSTEM FOR IMPROVING CROSSTALK ATTENUATION WITHIN A PLUG/JACK CONNECTION AND BETWEEN NEARBY PLUG/JACK COMBINATIONS - This application describes a jack for improving crosstalk attenuation. The jack has a housing, a foil at least partially surrounding the housing, a printed circuit board, and at least one pair of insulation displacement contacts and vias. Each pair of insulation contacts and vias are associated with a differential signal. A conductive trace stub is routed on the printed circuit board near the edge of the board proximate to the foil in order to at least partially balance the coupling from one of the insulation displacement contacts and vias of a pair to the foil with the other insulation displacement contact and via of the pair by electrically connecting the trace stub to the via that is further from the foil. | 06-05-2014 |
20140273660 | CONNECTORS AND SYSTEMS HAVING IMPROVED CROSSTALK PERFORMANCE - Embodiments of the present invention generally relate to the field of electronic communication, and more particularly, to techniques used to compensate for/reduce/or otherwise manipulate crosstalk in communication connectors, and apparatuses and methods which employ such techniques. In an embodiment, the present invention is a communication connector that includes a plurality of signal pairs including at least a first pair and a second pair, a first compensation stage between the first pair and the second pair, and an orthogonal compensation network between the first pair and the second pair. The orthogonal compensation network can be time delayed from the first compensation stage. | 09-18-2014 |
20140345129 | Communication Connector Having a Plurality of Conductors with a Coupling Zone - A communication connector including a plurality of conductors each having a plug contact region and an opposing cable conductor termination region. The plurality of conductors are arranged in respective communication pairs. The communication connector includes a coupling zone between a first conductor of a first communication pair and a second conductor of a second communication pair. The coupling zone has at least one first conductive finger connected to the first conductor and at least one second conductive finger connected to the second conductor, each of the first conductive fingers are adjacent to at least one of the second conductive fingers. | 11-27-2014 |
20150188260 | Method and System for Improved Crosstalk Attenuation Within a Plug/Jack Connection and Between Nearby Plug/Jack Combinations - An RJ45 Communication jack has a housing with a top, bottom, front, and back. A foil is immediately adhered to and partially covers the housing. A top or bottom of the housing is covered by a first portion and a second portion of the foil wherein the first portion and the second portion are separated by a nonconductive gap. The gap extends from the front of the housing to the rear of the housing. | 07-02-2015 |
Patent application number | Description | Published |
20080295562 | DURABLE ENLARGED FORMING TOOL TECHNOLOGY - The invention involves a forming tool for a machine tool. The forming tool can be used, for example, to create various large forms in sheet metal or other workpieces. | 12-04-2008 |
20090019977 | MULTI-DRIVE TOOLING - The invention involves a multi-drive tool for use on a fabricating press having a table with multiple stations. Each station can include a mount opening passing through the table. The multi-drive tool can have a bridge member relating to at least two drive members such that a ram stroke of the press simultaneously moves the drive members or components thereof in a direction toward the workpiece. The invention also involves a die shoe adapted for use on a press. A die-mounting recess configured to receive a die is formed in the top of the die shoe. The invention also provides a fabricating press in combination with a multi-drive tool, as well as methods of fabricating a workpiece. | 01-22-2009 |
20100107832 | ADJUSTABLE PUNCH ASSEMBLIES AND ASSOCIATED ADJUSTMENT METHODS - A punch tool assembly includes an adjustment subassembly coupled to a canister sidewall of the assembly. The adjustment subassembly includes a punch head, which engages a punch holder, or body, of the punch tool, at a threaded interface, so that rotation of the punch head moves the punch body/holder along a central longitudinal axis of the punch tool assembly. The adjustment subassembly further includes a locking member, which is biased with respect to the punch head, in a first position, where the locking member is engaged with a locking feature of an engagement sidewall of the subassembly, to lock the punch head and prevent rotation thereof. The locking member may be released, to unlock the punch head, by applying a force to an externally accessible actuation interface of a release member of the subassembly, for example, to rotate the actuation interface about the central longitudinal axis. | 05-06-2010 |
20110119881 | MULTI-TOOL TECHNOLOGY - A multi-tool having a plurality of tool-receipt openings adapted to receive respective tools. The multi-tool can be used on turret presses, single-station presses, other industrial presses, or other fabrication equipment. | 05-26-2011 |
20130061648 | MULTI-TOOL TECHNOLOGY - A multi-tool having a plurality of tool-receipt openings adapted to receive respective tools. The multi-tool can be used on turret presses, single-station presses, other industrial presses, or other fabrication equipment. | 03-14-2013 |
20130319200 | ADJUSTABLE PUNCH ASSEMBLIES AND ASSOCIATED ADJUSTMENT METHODS - A punch tool assembly includes an adjustment subassembly coupled to a canister sidewall of the assembly. The adjustment subassembly includes a punch head, which engages a punch holder, or body, of the punch tool, at a threaded interface, so that rotation of the punch head moves the punch body/holder along a central longitudinal axis of the punch tool assembly. The adjustment subassembly further includes a locking member, which is biased with respect to the punch head, in a first position, where the locking member is engaged with a locking feature of an engagement sidewall of the subassembly, to lock the punch head and prevent rotation thereof. The locking member may be released, to unlock the punch head, by applying a force to an externally accessible actuation interface of a release member of the subassembly, for example, to rotate the actuation interface about the central longitudinal axis. | 12-05-2013 |