Class / Patent application number | Description | Number of patent applications / Date published |
439607340 | With connection of shield to connector contact | 26 |
20090233485 | Electrical Connector System Having Electromagnetic Interference Shield And Latching Features - A connector system may facilitate interconnection between electrical components, such as a printed circuit board and a cable. The connector system may reduce the effect of electromagnetic interference on the transfer of power and data signals between the cable and the printed circuit board. The connector systems may include a cable connector assembly and an electromagnetic shield. The electromagnetic shield may include a body that is configured to receive the connector assembly, thus, providing a shielded channel into which the connector assembly may be inserted. The connector system may includes latches that facilitate having multiple connectors adjacent to one another in close proximity. The cable assembly include pivotally supported latches with vertically staggered handles such that when a pair of connector systems are mounted laterally side-by-side, the adjacent handles can pivot without interfering with each other. | 09-17-2009 |
20100167586 | TELECOMMUNICATIONS CABLE CONNECTOR - A telecommunications connector is provided for establishing a connection between a telecommunications device. The telecommunications cable connector comprises at least one male connector having at least one conductor wrapped in a helical fashion along the entire length of the contact portion of the male connector, at least one female connector having an intermating contact surface compatible with said at least one helically wrapped conductor of the male connector, and at least one shield element for shielding the contact established between said at least one helically wrapped conductor of the male connector and the intermating contact surface of the female connector. | 07-01-2010 |
20110097933 | IMPEDANCE CONTROLLED ELECTRICAL CONNECTOR - A board-mountable connector is provided. The connector includes a shield and an insulative housing with a tongue. Terminals are supported by the housing in two rows and the rows extend from a mating interface to a board mounting interface. The terminals may be mounted to the board via surface mount technology in two rows that are at about 0.4 mm pitch. The two rows of terminals are configured in a signal, signal, ground triangular configuration so as to provide a triangular terminal arrangement that extends from the mating interface to the mounting interface. | 04-28-2011 |
20110143592 | ELECTRIC CONNECTION DEVICE - The invention relates to a connection device comprising a male connector ( | 06-16-2011 |
20110143593 | CONNECTOR ASSEMBLY HAVING GROUNDING MEANS - A connector assembly ( | 06-16-2011 |
20110189892 | MALE CONNECTOR, FEMALE CONNECTOR, AND CONNECTOR - A male connector includes male connector modules placed in tiers and having respective first and second surfaces facing away from each other. The male connector modules each includes interconnection parts for electrical signal transmission on the first surface; a male connector ground part formed on the second surface so as to substantially cover the second surface; male connector contact parts provided at respective first ends of the interconnection parts on the first surface; male connector terminal parts joined to respective second ends of the interconnection parts on the first surface; and a male connector shield part provided on the side on which the male connector is configured to be connected to a female connector to be connected to the male connector ground and project relative to ends of the male connector contact parts in a direction in which the male connector is configured to be connected to the female connector. | 08-04-2011 |
20120184140 | CONNECTOR ASSEMBLY - A connector assembly includes contact modules each having a dielectric frame and contacts held by the dielectric frame. The contacts are arranged along a contact plane within the frame. The dielectric frame includes frame members connected by connecting segments. The frame has windows between the frame members located between adjacent contacts. Holders support corresponding contact modules. The holders are electrically grounded. The holders each have a support wall and tabs that extend outward from the support wall. The contact modules are coupled to the holders such that the tabs are received in the windows to provide shielding within the contact modules. The holders are coupled together such that the contact modules are stacked together with the tabs of at least some of the holders that extend into the contact module held by the adjacent holder and across the contact plane defined by the contact module of the adjacent holder. | 07-19-2012 |
20120315791 | CONNECTOR HAVING A CAM OPERATING PORTION WHICH PRESSES A CONNECTION OBJECT WITH BEING ROTATED - Provided is a connector including a plug and a receptacle which are adapted to be fitted together. The plug includes a plate-like or sheet-like connection object, a ground shell which is disposed on one surface side of the connection object so as to be spaced apart therefrom, and a guide covering front end portions of the connection object and the ground shell. The receptacle includes contacts and an actuator having a cam operating portion which is made of a material different from that of the ground shell. When the actuator is operated in a state where the plug and the receptacle are fitted together, the cam operating portion is rotated on the ground shell to press the connection object onto the contacts. | 12-13-2012 |
20130017724 | EMI-PREVENTING SOCKET AND MANUFACTURING METHOD THEREOFAANM LIU; GangAACI ShanghaiAACO CNAAGP LIU; Gang Shanghai CN - A manufacturing method for an EMI-preventing socket comprises the following steps of: providing an EMI-preventing element and a plurality of pins that include a ground pin; connecting a connecting portion of the EMI-preventing element to the ground pin; providing a mold; placing the EMI-preventing element, the ground pin and the other pins in the mold in such a manner that the EMI-preventing element surrounds the pins; and providing a molding material into the mold to wrap the pins, and a joint of the connection portion of the EMI-preventing element and the ground pin to form a socket body of the EMI-preventing socket. Parts of the EMI-preventing element and one ends of the pins are exposed out of the socket body of the EMI-preventing socket. An EMI-preventing socket made by the manufacturing method is also disclosed. | 01-17-2013 |
20130065439 | CONNECTOR STRUCTURE - A connector structure includes an enclosure; a plurality of ground units arranged in the enclosure and respectively including a carrier plate and a plurality of ground terminals electrically connected to one another and associated with the carrier plate; a plurality of signal units arranged in the enclosure side by side to locate between any two adjacent ones of the ground units, and the signal units respectively including a carrier plate and a plurality of signal terminals associated with the carrier plate; and a ground connecting member connected to the carrier plates of the ground units and the signal units. With these arrangements, the connector has simple structure and can be easily assembled for use, and the ground units are connected to the ground connecting member to thereby effectively prevent electromagnetic interference during signal transmission and ensure increased transmission rate. | 03-14-2013 |
20130065440 | CONNECTOR STRUCTURE - A connector structure includes an enclosure; a plurality of ground units arranged in the enclosure and respectively including a plate portion and a plurality of ground terminals electrically connected to one another and associated with the plate portion; a plurality of signal units arranged in the enclosure side by side to locate between the ground units, and respectively including a plate portion and a plurality of signal terminals associated with the plate portion; a ground connecting member connected to the plate portions of the ground units and the signal units; and a circuit board located at a bottom of the enclosure for engaging with the ground and signal terminals. With these arrangements, the connector has simple structure and can be easily assembled for use, and the ground units are connected to the ground connecting member to thereby effectively prevent electromagnetic interference during signal transmission and ensure increased transmission rate. | 03-14-2013 |
20130065441 | CONNECTOR STRUCTURE - A connector structure includes an enclosure; a plurality of ground units arranged in the enclosure and respectively including a carrier plate and a plurality of ground terminals electrically connected to one another and associated with the carrier plate; a plurality of signal units arranged in the enclosure side by side to locate between any two adjacent ones of the ground units, and the signal units respectively including a carrier plate and a plurality of signal terminals associated with the carrier plate; and a ground connecting member connected to the carrier plates of the ground units and the signal units. With these arrangements, the connector has simple structure and can be easily assembled for use, and the ground units are connected to the ground connecting member to thereby effectively prevent electromagnetic interference during signal transmission and ensure increased transmission rate. | 03-14-2013 |
20130149902 | BOARD-MOUNTED CONNECTOR - An object is to provide a board-mounted connector which has an assembly fitting opening provided on the attachment surface side of an external shield shell onto a circuit board such that a housing assembly can be fit from the assembly fitting opening into the external shield shell, and is capable of improving the ease of assembling the housing assembly. In a board-mounted connector | 06-13-2013 |
20130189878 | CABLE-TO-BOARD CONNECTOR - A cable-to-board connector includes a plug connector and a receptacle connector. The plug connector includes a plug housing, a plurality of plug terminals disposed in the plug housing, and a plug shielding shell surrounding the plug housing. At least two buckling blocks protrude oppositely from two outer surfaces of two opposite sides of the plug shielding shell. The receptacle connector includes a receptacle housing, a plurality of receptacle terminals disposed in the receptacle housing, and a receptacle shielding shell defining a receptacle accommodating space therein. The receptacle housing is inserted in a front of the receptacle accommodating space. Each side of the receptacle shielding shell defines at least one second buckling hole. A rear inner periphery of the receptacle shielding shell is attached to a front outer periphery of the plug shielding shell with the buckling blocks being buckled in the second buckling holes. | 07-25-2013 |
20130210273 | CABLE CONNECTOR ASSEMBLY HAVING AN IMPROVED SHELL CONTACTING A GROUNDING PAD OF AN INTERNAL PRINTED CIRCUIT BOARD - A cable connector assembly ( | 08-15-2013 |
20140073183 | PLUG CONNECTOR MODULES - A plug connector module that includes a metal frame having a base portion, an insertion end and a cavity that extends from the base portion into the insertion end. The insertion end is configured to be inserted into a cavity of a corresponding receptacle connector. A substrate extends through the base portion of the frame and into the insertion end. A first plurality of external contacts is positioned in a first opening and a second plurality of contacts positioned within a second opening. One or more electronic components is coupled to the substrate, and a first encapsulant that covers and environmentally seals the one or more electronic components. A second encapsulant covers and environmentally seals a metal shield and at least a portion of a leg that extends from the shield. | 03-13-2014 |
20140120770 | ELECTRICAL CONNECTOR SYSTEMS - An electrical connector system includes a backplane connector having a housing, signal contacts held by the housing and shield plates held by the housing. The housing includes a front and a rear. The housing includes signal channels extending along mating axes thereof between the front and the rear. The signal channels receive corresponding signal contacts. The housing includes slots that receive the shield plates. The signal contacts extend along the mating axes and are arranged in pairs carrying differential signals. The shield plates are electrically conductive and extend generally parallel to the mating axes between corresponding pairs of signal contacts to entirely peripherally surround the pairs of signal contacts to provide electrical shielding for the pairs of signal contacts. | 05-01-2014 |
20140187086 | ELECTRICAL CONNECTOR WITH SHIELDING PLATE THEREOF - An electrical connector includes a metallic shell defining a mating cavity opening forwards, a terminal module assembly received in the metallic shell, and a shielding plate being located between an upper surface and a lower surface of the terminal module assembly. The terminal module assembly defines a front region exposed in the mating cavity to function as a mating tongue. The terminal module assembly defines an insulator associated with a plurality of contacts with corresponding contacting sections exposed upon opposite upper and lower faces of the mating tongue, the contacts are categorized with differential pairs and grounding contacts. The shielding plate defines a main plate and grounding fingers split from the main plate to directly touch with corresponding grounding contacts. The shielding plate is embedded with the terminal module assembly and the grounding fingers of the shielding plate are fixed with the insulator of the terminal assembly. | 07-03-2014 |
20140295705 | CROSSTALK-PROOF RECEPTACLE CONNECTOR - A crosstalk-proof receptacle connector has multiple insulative boards, multiple sets of terminals, multiple sets of shielding plates and an outer casing. The insulative boards are arranged abreast. The sets of the terminals are mounted respectively in the insulative boards. The terminals of each set are classified into signal terminals and grounding terminals. Each set of the shielding plates is mounted on one of two opposite sides of a corresponding insulative board. The shielding plates of each set are spaced apart without contacting one another. Each shielding plate has multiple folding sections capable of interrupting signal noise. The outer casing covers the insulative boards to combine the insulative boards. The sets of the shielding plates decrease signal interference of the receptacle connector and improve signal transmission efficiency and stability. | 10-02-2014 |
20140295706 | PLUG CONNECTOR WITH SHIELDING - A plug connector featuring shielding of the signal contacts that are arranged in a contact pattern of differential pairs and that form a contact group together with a shielding element surrounding same. The contact groups are arranged in rows and columns. Each shielding contact includes a shielding element and at least one shielding contact element. Each signal contact includes a blade element and a signal contact element. All shielding contact elements within a row are aligned in a straight line. Each of the signal contact elements of each differential pair are aligned in a straight line that forms a 45° angle with the straight line of the shielding contact elements within the row. An arrangement can be made from two such plug connectors and a circuit board, wherein the two plug connectors are rotated 90° relative to each other. | 10-02-2014 |
20140302712 | CABLE PORTION AND COMMUNICATIONS EQUIPMENT FOR CONNECTING SUBSCRIBER LINES TO A DATABUS LINE - A cable portion comprising a databus line ( | 10-09-2014 |
20140370750 | Radio Frequency Interference Shield - An apparatus is described herein. The apparatus includes a receptacle to receive a plug to couple a peripheral device to a computing device. The apparatus includes a ground contact of a printed circuit board of the computing device. The apparatus includes a shield communicatively coupled to the ground contact, wherein the shield is to reduce radio frequency interference (RFI) from an interface between the plug and the receptacle. | 12-18-2014 |
20150295364 | USB RECEPTACLE - A USB receptacle mateable with a USB plug along a mating direction is disclosed. The USB receptacle comprises a holder member made of insulator, a shell made of conductor, and a detection pin made of conductor which is separated and is different from the shell. The detection pin is made of resiliently-deformable material and is held by the holder member so as not to be in direct contact with the shell. The detection pin includes a first contact portion and a second contact portion. The first contact portion and the second contact portion pinch a part of a plug shell of the USB plug when the USB receptacle is mated with the USB plug. Under a condition where the USB receptacle is not mated with the USB plug, the first contact portion and the second contact portion meet an inequality of “(b−a)10-15-2015 | |
20150340816 | ELECTRONIC DEVICE CONNECTOR - An electronic device connector includes a connector housing that is combined with a case of an electronic device and a terminal fitting that is held by the connector housing. When the connector housing is combined with the case, the terminal fitting is electrically connected to a contact portion of the electronic device. The terminal fitting includes an internal conductor, an external conductor disposed around the internal conductor, and a dielectric disposed between the internal conductor and the external conductor which are concentrically disposed. The internal conductor and the external conductor are integrally provided with spring portions capable of being elastically deformed in contact with the contact portion of the electronic device. | 11-26-2015 |
20160036167 | SIGNAL CONNECTOR FOR HIGH-SPEED TRANSMISSION - Provided is a signal connector including a plug insulator, a first terminal insulator, a second terminal insulator, and a first terminal group and a second terminal group. The first terminal insulator and the second terminal insulator are connected to the plug insulator. The front end and the rear end of the first terminal group extend beyond the first terminal insulator. The front end and the rear end of the second terminal group extend beyond the second terminal insulator. The middle portion of the first terminal group is embedded in the first terminal insulator. The middle portion of the second terminal group is embedded in the second terminal insulator. The first terminal group and the second terminal group each include a plurality of high frequency terminals. The width of the middle portion of each high frequency terminal is smaller than that of the front end of each high frequency terminal. | 02-04-2016 |
20160087378 | ELECTRICAL SOCKET CONNECTOR - An electrical socket connector includes an insulating base, a metal casing, a metal partition plate and plural signal terminals. The insulating base includes a tongue, a metal casing sheathed on insulating base and disposed around the tongue, and the metal partition plate is embedded in the tongue. At least one grounding terminal is extended from the metal partition plate. The signal terminals are embedded in the insulating base and partitioned on both sides of the corresponding metal partition plate respectively. The grounding terminal is extended and passed out of the insulating base and in contact with the metal casing to achieve the grounding effect. | 03-24-2016 |