Class / Patent application number | Description | Number of patent applications / Date published |
439607080 | Shield with divider wall separating contacts (includes wall formed by ground contacts) | 45 |
20090298337 | DIFFERENTIAL ELECTRICAL CONNECTOR ASSEMBLY - A differential connector has a plurality of rows. Each row includes a plurality of signal conductors provided as differential pairs. Each signal conductor has a first contact end connectable to a printed circuit board, a second contact end, and an intermediate portion having a first width. For each differential pair, one first contact end lies along a first line parallel to the plurality of rows and the other first contact end lies along a second line parallel to and spaced from the first line. The differential connector further includes a plurality of ground conductors, with each ground conductor corresponding to a differential pair. Each ground conductor has a first contact end connectable to the printed circuit board, a second contact end, and an intermediate portion having a second width that is at least twice the first width. | 12-03-2009 |
20100035470 | HIGH SPEED ELECTRICAL CONNECTOR HAVING IMPROVED HOUSING FOR HARBORING PRELOADED CONTACT - An electrical connector ( | 02-11-2010 |
20100291798 | Connector - A connector with a structure having a tip of a body holding a first contact set is located in an opening formed by a shell member including a shell and a shield cover. A tip of a body holding a second contact set is located in an opening formed by the shell member, and a plurality of receptacles are integrated, a shield plate is placed between the first contact set and the second contact set in parallel with a direction orthogonal to the longitudinal direction of contacts in the two contact sets to reduce crosstalk between the plurality of receptacles. | 11-18-2010 |
20110003509 | HIGH SPEED, HIGH DENSITY ELECTRICAL CONNECTOR - An electrical connector with electrically lossy materials bridging ground members. The lossy conductive members may be formed by filling a settable binder with conductive particles, allowing the partially conductive members to be formed through an insert molding process. Connectors assembled from wafers that contain signal conductors held within an insulative housing may incorporate lossy conductive members by having filled thermal plastic molded onto the insulatative housing. The lossy conductive members may be used in conjunction with magnetically lossy materials. The lossy conductive members reduce ground system do resonance within the connector, thereby increasing the high frequency performance of the connector. | 01-06-2011 |
20110230096 | HIGH BANDWIDTH CONNECTOR - An improved open pin field connector is provided for enhanced performance when carrying high speed signals by selective application of one or more techniques for controlling electrical performance parameters. Lossy material may be positioned adjacent to conductive elements of the connector so as to reduce resonance in pairs of conductive elements and/or to provide a desired characteristic impedance for pairs of differential signal conductors. The lossy material may be shaped and positioned to avoid capacitive coupling that might otherwise increase cross talk. In a right angle connector, the lossy material may have a step-wise increase in thickness to provide comparable loss along longer and shorter conductive elements. Conductive elements may be shaped to balance performance characteristics of pairs selected to carry differential signals regardless of orientation along a row or column. Alternatively, conductive elements may have narrowed regions, covered with lossy portions, for reducing resonance while supporting DC signal propagation. | 09-22-2011 |
20120045935 | SHIELDED ELECTRICAL CONNECTOR - An electrical connector includes a shielding cage, an insulative housing disposed within the shielding cage, at least two rows of terminals secured in the insulative housing and a metal sheet embedded in the insulative housing and disposed between the rows of terminals. An insulative housing defines a mating face and a mounting face perpendicular to the mating face. The metal sheet extends from the mating face to the mounting face and comprises at least one tail extending beyond the mounting face. | 02-23-2012 |
20120214344 | HIGH SPEED, HIGH DENSITY ELECTRICAL CONNECTOR - A broadside coupled connector assembly has two sets of conductors, each separate planes. By providing the same path lengths, there is no skew between the conductors of the differential pair and the impedance of those conductors is identical. The conductor sets are formed by embedding the first set of conductors in an insulated housing having a top surface with channels. The second set of conductors is placed within the channels so that no air gaps form between the two sets of conductors. A second insulated housing is filled over the second set of conductors and into the channels to form a completed wafer. The ends of the first and second sets of conductors and the blades are jogged in both an x- and y-coordinate to reduce crosstalk and improve electrical performance. | 08-23-2012 |
20130017721 | ELECTRICAL CONNECTOR ASSEMBLY FOR INTERCONNECTING AN ELECTRONIC MODULE AND AN ELECTRICAL COMPONENT - An electrical connector assembly including an interposer having a side surface and an array of electrical contacts exposed along the side surface. The electrical contacts are located within a contact region that extends along the side surface. The electrical contacts are configured to engage an electronic module mounted over the contact region. The connector assembly also includes a shield wall that is attached to and extends along the side surface. The shield wall separates the contact region into shielded sub-regions. The shield wall includes a conductive material and is electrically coupled to the interposer. At least one electrical contact is located within each shielded sub-region. The shield wall extends between adjacent electrical contacts to shield the adjacent electrical contacts from electromagnetic interference. | 01-17-2013 |
20130115814 | ELECTRICAL CONNECTOR ASSEMBLY HAVING HIGH SPEED SIGNAL PAIRS - An electrical connector includes a connector housing and first and second differential contacts. A contact cavity is defined between opposed sides and opposed endwalls. First support members and second support members extend from the opposed sides into the contact cavity. Each of first support members is shorter than each of the second support members. The first and second differential contacts define a differential pair retained within the contact cavity. The first and second differential contacts are retained between two of the first support members. At least a portion of the first and second differential contacts extends past a level of the first support members. The portion(s) of the first and second differential contacts that extends past the level of first support members is exposed to air. | 05-09-2013 |
20130323970 | CABLE ASSEMBLY WITH IMPROVED TERMINAL STRUCTURE - A cable assembly comprises: an insulative housing and a terminal module assembled to a rear end of the insulative housing. The terminal module comprises a plurality of pairs of differential signal terminals and a plurality of grounding terminals arranged long a widthwise direction thereof Each of terminal defining a mating portion, a body portion and a soldering portion. Mating portions of the signal and grounding terminals are located on a row, body portions and soldering portions of the signal and grounding terminals are located on two rows. There are at least one grounding terminal is intervened between two pairs of differential signal terminals to totally space apart the body portions and soldering portions of two adjacent pairs of differential signal terminals located on two rows. | 12-05-2013 |
20140220820 | CENTER CONDUCTOR WITH SURROUNDING SHIELD AND EDGE CARD CONNECTOR WITH SAME - An edge card connector includes a connector housing; a plurality of center conductors disposed in the connector housing, spaced apart from one another, and arranged to make contact with a surface of an edge card when the edge card is inserted into the edge card connector; and a plurality of shields disposed in the connector housing, surrounding three sides of a corresponding one of the plurality of center conductors, and arranged to make contact with the surface of the edge card when the edge card is inserted into the edge card connector. | 08-07-2014 |
20140235103 | ELECTRONIC INTERCONNECT DEVICES HAVING CONDUCTIVE VIAS - An electronic interconnect device includes a substrate having a first surface and a second surface. The substrate has a plurality of openings extending between the first and second surfaces. Each opening has a conductive outer via, an insulative barrier and a conductive inner via. The outer via, insulative barrier and inner via are concentric within the opening such that the insulating barrier is disposed between the conductive inner via and the conductive outer via. The conductive inner via is configured to receive a conductor to be inserted therein. | 08-21-2014 |
20150031240 | ELECTRICAL CONNECTOR WITH TWO GROUND BARS CONNECTING EACH OTHER - An electrical connector includes an insulating housing and a plurality of contacts. The contacts include a plurality of signal contacts arranged in differential signal pairs and a plurality of ground contacts. Differential signal pairs are separated by signal contacts. A first ground bar connects each ground contact to form a first electrical connection. A second ground bar connects each ground contact to form a second electrical connection. The first ground bar is electrically connected to the second ground bar through at least a bridge. | 01-29-2015 |
20150031241 | TERMINAL SET OF ELECTRICAL CONNECTOR - A terminal set of an electrical connector includes signal terminal duos and ground terminal duos. The signal terminal duos have two signal terminals. The signal terminals are spaced apart transversely. The ground terminal duos have two ground terminals. The signal terminal duos are disposed between the ground terminals. The ground terminals are each spaced apart transversely from an adjacent one of the signal terminals. The ground terminals are each larger than and hide transversely an adjacent one of the signal terminals. The terminal set functions as a shield for precluding crosstalk from taking place between terminals and precluding resonance from taking place between terminals. | 01-29-2015 |
20150038012 | CONNECTOR - The invention provides a connector including a body of insulating material and first, second, and third signal terminals. The terminals are arranged in a line along a first direction in the body. The third signal terminal is located between the first and second signal terminals. A frequency of a signal transmitted by the third signal terminal is about one hundredth or lower of a frequency of each signal transmitted by the first and second signal terminals. | 02-05-2015 |
20160072231 | ELECTRICAL CONNECTOR HAVING A GROUNDING LATTICE - Electrical connector including a connector housing having a front side that faces along a mating axis and contact passages that open to the front side. The contact passages are configured to receive corresponding ground shields of a system connector during a mating operation. The electrical connector also includes signal contacts that are coupled to the connector housing and configured to engage corresponding contacts of the system connector. The electrical connector also includes a grounding lattice that is held by the connector housing. The grounding lattice includes a support frame and lattice springs that are interconnected by the support frame. The support frame extends generally transverse to the mating axis. The lattice springs are positioned to engage the ground shields of the system connector as the ground shields are inserted into the corresponding contact passages of the connector housing. | 03-10-2016 |
20160118751 | HEADER TRANSITION CONNECTOR FOR AN ELECTRICAL CONNECTOR SYSTEM - A header transition connector includes a header housing having a separating wall separating a first cavity from a second cavity. Header signal contacts are held by the header housing. The header signal contacts are arranged in pairs carrying differential signals. The header signal contacts have first mating ends in the first cavity for mating with a first receptacle connector. The header signal contacts have second mating ends in the second cavity for mating with a second receptacle connector. Header ground shields are held by the header housing. The header ground shields have first mating ends in the first cavity for mating with the first receptacle connector. The header ground shields have second mating ends in the second cavity for mating with the second receptacle connector. At least a group of the header ground shields are electrically commoned with each other within the header housing. | 04-28-2016 |
20160190747 | CONNECTOR WITH TUNED CHANNEL - A connector is provided that includes a housing and the housing supports a plurality of wafers. Each wafer supports a terminal and adjacent signal wafers are configured so as to provide broad-side coupled terminals. A pair of signal terminals can be surrounded on both sides by ground terminals that offer shielding so as to help isolate one signal pair from another signal pair. The geometry of the wafers can be adjusted so as to provide a tuned transmission channel. The resultant tuned transmission channel can be configured to provide desirable performance at high signaling frequencies of 12-16 GHz or even higher signaling frequencies such as 20 GHz. | 06-30-2016 |
439607090 | For mounting on PCB | 27 |
20090318025 | SHIELD CONNECTOR - A shield connector includes a housing that has a metal terminal, a conductive inner shield shell that contains the housing, and a conductive outer shield shell that contains the inner shield shell. The inner shield shell includes a first shell body in a tubular shape for covering an outer face of the housing. The outer shield shell includes a second shell body in a tubular shape, and a fixing portion which fixes the inner shield shell. The fixing portion has an annular wall which is formed inside of the second shell body along in a circumferential direction of the second shell body. An inner face of the annular wall is tightly face-contacted on an outer face of the first shell body of the inner shield shell over an entire circumference of the outer face of the first shell body. | 12-24-2009 |
20100022130 | ELECTRICAL CONNECTOR - An electrical connector includes a header connector and a socket connector configured to mate with the header connector. The header connector includes a plurality of signal pins and may include a plurality of shield blades. The socket connector includes a plurality of conductive paths, each conductive path being coupled to a signal contact, and may include a plurality of first shields. The plurality of signal pins and the plurality of conductive paths and signal contacts are configured to form a plurality of transmission lines. The plurality of shield blades or the plurality of first shields are configured to be electrically grounded and provide interrupted shielding of the plurality of transmission lines when the header connector and the socket connector are in a mated configuration. | 01-28-2010 |
20100041275 | Matched-Impedance Connector Footprints - Disclosed are methodologies for defining matched-impedance footprints on a substrate such as a printed circuit board, for example, that is adapted to receive an electrical component having an arrangement of terminal leads. Such a footprint may include an arrangement of electrically-conductive pads and an arrangement of electrically-conductive vias. The via arrangement may differ from the pad arrangement. The vias may be arranged to increase routing density, while limiting cross-talk and providing for matched impedance between the component and the substrate. The via arrangement may be altered to achieve a desired routing density on a layer of the board. Increasing the routing density may decrease the number of board layers, which tends to decrease capacitance and thereby increase impedance. Ground vias and signal vias may be arranged with respect to one another in such a manner as to affect impedance. Thus, the via arrangement may be altered to achieve an impedance that matches the impedance of the component. The via arrangement may be also be altered to limit cross-talk among neighboring signal conductors. Thus, the via arrangement may be defined to balance the impedance, cross-talk, and routing density requirements of the system. | 02-18-2010 |
20100227503 | ELECTRICAL CONNECTOR WITH IMPROVED SHIELDING PLATES AND GROUNDING MEMBER - An electrical connector includes an insulative housing, a number of signal contacts, a number of shielding plates and a grounding member touching the shielding plates so that the shielding plates are jointly connected with each other. The shielding plates are assembled to the insulative housing and disposed between the signal contacts of adjacent columns. Each shielding plate includes a tab projecting into a base of the insulative housing. No mounting tail for establishing connection between the shielding plates and a circuit board is set on any of the shielding plates. Instead, the grounding member comprises a number of mounting tails for being connected to the circuit board so as to establish electrical connection between the shielding plates and the circuit board. | 09-09-2010 |
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 |
20120202380 | PLUG-IN CONNECTION HAVING SHIELDING - The invention relates to a plug-in connection having shielding, in particular a multi-pin, multi-row plug-in connection comprising a male multipoint connector and a female multipoint connector, the plug-in connection comprising signal contacts, which are arranged in a contact pattern of differential pairs and which form a contact group together with an L-shaped shielding element that surrounds the signal contacts, the contact groups being arranged in rows and columns and adjacent contact groups in adjacent columns being offset from each other by a specifiable length dimension in the longitudinal direction of the columns, the plug-in connection being characterized in that the specified length dimension corresponds to approximately half the distance of two adjacent contact groups in a column. | 08-09-2012 |
20130017722 | GROUNDING STRUCTURES FOR HEADER AND RECEPTACLE ASSEMBLIESAANM DAVIS; WAYNE SAMUELAACI HARRISBURGAAST PAAACO USAAGP DAVIS; WAYNE SAMUEL HARRISBURG PA US - A header assembly includes a header housing configured for mating with a receptacle assembly. The header housing has a base wall. Header signal contacts are coupled to the base wall. The header signal contacts are configured to be terminated to a circuit board. The header signal contacts are configured to be terminated to corresponding receptacle signal contacts of the receptacle assembly. Header shields are coupled to the base wall. The header shields at least partially surround, and provide electrical shielding for, corresponding header signal contacts. The header shields have walls and mating tabs that extend from corresponding walls. The mating tabs are configured to engage corresponding ground shields of the receptacle assembly. | 01-17-2013 |
20130122745 | LOW-PROFILE RIGHT-ANGLE ELECTRICAL CONNECTOR ASSEMBLY - A low-profile, right angle connector assembly comprises six cable connectors and six board-mount connectors housed within a PCIe bracket and EMI shell. The PCIe bracket and EMI shell are braced to a low profile PCIe card. Each board-mount connector is designed to receive a cable connector and allows for the transmission and processing of high-speed data with lower latency. A removable latch mounted on the cable connectors helps ensure the cable connectors remain physically connected to the board-mount connectors. The removable latch may be replaced as needed for breakage and wear and tear. | 05-16-2013 |
20150011122 | SOCKET CONNECTOR WITH SHIELDING STRUCTURE - A socket connector includes an insulative base ( | 01-08-2015 |
20150056857 | ELECTRICAL CONNECTOR - An electrical connector electrically connecting a chip module to a printed circuit board, includes an insulative housing comprising a top surface, a bottom surface opposite to the top surface and a plurality of passageways penetrated from the top surface to the bottom surface, a number of terminals received in the passageways and a number of shielding plates received in the passageways, the terminals includes a number of grounding terminals and a number of signal terminals, the shielding plates located beside the terminals respectively, the insulative housing includes a number of tubers with strip shape protruding from the top surface, upper surface of the tubers are plated with a metal layer and the shielding plate electrically contacts with the metal layer, as well, the grounding terminal electrically contacts with the metal layer. | 02-26-2015 |
20150079843 | Electrical Connector - An electrical connector including a housing having a mating connector receiving passageway. A pair of first differential signal contacts have solder portions and first contact portions positioned in the mating connector receiving passageway. A first ground contact faces the pair of first differential signal contacts. The first ground contact has a solder portion and a pair of first grounding contact portions spaced apart from each other by a gap and positioned in the mating connector receiving passageway. The pair of first grounding contact portions face the first contact portions of the pair of first differential signal contacts. | 03-19-2015 |
20160126678 | ELECTRICAL CONNECTOR HAVING GROUND BUS BAR - An electrical connector includes a housing, signal contacts and ground contacts, and a ground bus bar. The housing has a first side wall and a second side wall that define a socket at the front end of the housing. The socket is configured to receive a mating connector therein. The signal and ground contacts are held in the housing and interspersed along at least one of the first or second side wall. The signal and ground contacts extend into the socket to mate with corresponding mating signal contacts and mating ground contacts, respectively, of the mating connector. The ground bus bar is coupled to the housing at the first side wall of the socket. The ground bus bar includes spring contacts that extend into the socket and are configured to engage corresponding mating ground contacts of the mating connector to electrically common the mating ground contacts. | 05-05-2016 |
20180026410 | ELECTRICAL CONNECTOR | 01-25-2018 |
439607100 | Three or more rows and columns of contact spaces, formed by shield walls | 8 |
20090191755 | Camera module connector with signal contacts retained on a shielding shell - A camera module connector ( | 07-30-2009 |
20100087095 | METHODS AND SYSTEMS FOR MINIMIZING ALIEN CROSSTALK BETWEEN CONNECTORS - The present invention relates to methods and systems for minimizing alien crosstalk between connectors. Specifically, the methods and systems relate to isolation and compensation techniques for minimizing alien crosstalk between connectors for use with high-speed data cabling. A frame can be configured to receive a number of connectors. Shield structures may be positioned to isolate at least a subset of the connectors from one another. The connectors can be positioned to move at least a subset of the connectors away from alignment with a common plane. A signal compensator may be configured to adjust a data signal to compensate for alien crosstalk. The connectors are configured to efficiently and accurately propagate high-speed data signals by, among other functions, minimizing alien crosstalk. | 04-08-2010 |
20130143442 | ELECTRICAL CONNECTOR ASSEMBLY WITH IMPROVED SHIELD AND SHIELD COUPLING - An electrical connector provides shielded signal pathways. The electrical connector includes a shield plate, a first finger that extends from an edge of the shield plate, and a second finger that extends from the edged of the shield and that is adjacent to the first finger. A channel is formed between the first finger and the second finger. A coupling is placed within the channel adjacent the first finger. The coupling includes a contact, a first connecting arm extending from a first end of the contact to a first portion of the first finger, and a second connecting arm extending from a second end of the contact to a second portion of the first finger. The first connecting arm and the second connecting arm provide at least two current paths from the contact to the first finger. | 06-06-2013 |
20140377992 | ELECTRICAL CONNECTOR HAVING IMPROVED SHILEDING MEMBERS - An electrical connector ( | 12-25-2014 |
20150118907 | HIGH SPEED HIGH DENSITY CONNECTOR ASSEMBLY - An electrical connector ( | 04-30-2015 |
20150118908 | HIGH SPEED HIGH DENSITY CONNECTOR ASSEMBLY - An electrical connector assembly ( | 04-30-2015 |
20150126066 | HIGH SPEED HIGH DENSITY CONNECTOR ASSEMBLY - An electrical connector ( | 05-07-2015 |
20150140861 | HIGH DENSITY CONNECTOR - A connector can be provided that allows for improved route-out including straight-back routing. Signal and ground terminal tails can be arranged in a single row to help facilitate such functionality. Consequentially, a connector with two vertically stacked card slots can be provided that allows for straight back routing of the signal traces in four layers while still providing a compact connector design. | 05-21-2015 |
439607110 | Right angle connection on PCB | 6 |
20100159745 | RECEPTACLE CONNECTOR - A receptacle connector comprises an insulated housing, plural first contact pins, plural second contact pins and a metal casing. The first contact pin complies with a USB 3.0 interface, comprises a contact pin, a connected portion, a second contact pin and an arch and mounts parallel with the first terminal on the insulated housing. The second contact pin complies with a USB 2.0 interface, comprises a protruded end, an elongated portion and a first pin and mounts on the insulated housing. The metal casing mounts around the insulated housing. The receptacle connector transmits data steady at a high transmission rate. | 06-24-2010 |
20100159746 | RECEPTACLE CONNECTOR ASSEMBLY - A receptacle connector assembly comprises an insulative housing, two sets of first contact pins, two sets of second contact pins, a metal contact and a metal shell. The first and the second contact pin respectively comply with specification of USB 3.0 and USB 2.0 and transmit data stability at high transmission rate. | 06-24-2010 |
20100297880 | CONNECTOR - A connector to be connected to a counterpart connector includes a circuit board having a ground layer, an insulating layer, and a first conductive layer successively stacked, the first conductive layer including a signal circuit and a ground circuit; and a second conductive layer electrically connecting the ground circuit and the ground layer, the second conductive layer being provided on a side of the counterpart connector in the ground circuit. | 11-25-2010 |
20130115815 | STACKED CONNECTOR - A stacked connector comprises a dielectric housing comprising a first receptacle and a second receptacle, a first set of differential pairs that each include a plurality of first terminals each having a contact portion extending within the first receptacle and an extension portion, a second set of differential pairs that each include a plurality of second terminals that each have a contact portion extending within the second receptacle and an extension portion, and a shield terminal including a plate portion and two contact portions separately extending within the first receptacle and the second receptacle. The plate portion can separate the extension portions of the terminals of one differential pair from the extension portions of another differential pair. | 05-09-2013 |
20140273627 | DIFFERENTIAL ELECTRICAL CONNECTOR WITH IMPROVED SKEW CONTROL - An improved electrical connector is provided by compensating for skew in signal conductors of a differential pair while ensuring a uniform impedance along the differential pair. Skew is equalized by regions of lower dielectric constant preferentially positioned adjacent the longer conductor of each pair. Impedance along the length of the signal conductor is equalized by a compensation portion in the first conductor that offsets for a change in impedance associated with the change in dielectric constant adjacent the longer conductor. The compensation portion may be a widening in the first conductive element relative to a nominal width of the conductive element. The skew compensation portion may be along a longer edge of the longer conductor and the impedance compensation portion may be along the shorter edge of the longer conductor. | 09-18-2014 |
20150038013 | DIFFERENTIAL SIGNAL CONNECTOR CAPABLE OF REDUCING SKEW BETWEEN A DIFFERENTIAL SIGNAL PAIR - A differential signal connector includes a plurality of pairs of signal contacts, a plurality of ground contacts, and an insulating housing holding the signal contacts and the ground contacts. On a first connection side for connection to a connection partner, the ground contacts are arranged on both sides of each pair of signal contacts so that a contact array of a fixed pitch is formed. On a second connection side for connection to a board, the ground contacts are arranged spaced apart from each other in a first row, while the pairs of signal contacts, which are adjacently arranged on both sides of the ground contact on the first connection side, are arranged so as to be allocated in a second row and a third row located on both sides of the first row so that the pairs of signal contacts are arranged zigzag on the second connection side. | 02-05-2015 |