Patent application number | Description | Published |
20080203547 | INSERT MOLDED LEADFRAME ASSEMBLY - An insert molded leadframe assembly (IMLA) for an electrical connector is disclosed. The IMLA may include an array of electrically conductive contacts, a dielectric leadframe housing overmolded onto the array of contacts, and a mass disposed within the leadframe housing. The additional mass may shift the IMLA's center of gravity, thereby providing a counterbalance to a non-proportional ball-grid array connector. | 08-28-2008 |
20080207038 | SURFACE-MOUNT CONNECTOR - A preferred embodiment of an electrical connector includes a housing having a body. The body defines a contact-receiving aperture extending therethrough, and a heat-transfer aperture extending therethrough in substantially the same direction as the contact-receiving aperture for facilitating circulation of air through the body. | 08-28-2008 |
20080248693 | SHIELDLESS, HIGH-SPEED ELECTRICAL CONNECTORS - A shieldless, high-speed electrical connector is disclosed. Such a connector may include a first column of electrical contacts comprising a first arrangement of differential signal pairs separated from one another by first ground contacts, and a second column of electrical contacts adjacent to the first column, the second column of electrical contacts comprising a second arrangement of differential signal pairs separated from one another by second ground contacts. The connector may be devoid of electrical shield plates between the first column of electrical contacts and the second column of electrical contacts. The connector may be capable of transferring differential signals at data transfer rates of at least ten gigabits per second through the connector while producing no more than an acceptable level of cross talk on any of the differential signal pairs. | 10-09-2008 |
20080261417 | LOW PROFILE ELECTRICAL CONNECTOR - A right-angle electrical connector is disclosed. The right-angle electrical connector may include an electrically conductive contact and a connector housing that contains the electrically conductive contact. The electrically conductive contact may define a mounting end and a mating end. The connector housing may include a mating portion and a guide portion. The mating portion may receive the mating end of the electrically conductive contact. The mating portion may define a mating plane. The guide portion may be connected to the mating portion and may define a guide plane orthogonal to the mating plane. The guide portion may extend beyond the mating portion. The mating portion may also define a mounting plane. The mounting plane may be orthogonal to the mating plane. The guide portion may define a void between the guide plane and the mounting plane, suitable for receiving a header wall of a complementary connector. | 10-23-2008 |
20090117781 | ELECTRICAL CONNECTOR SYSTEM WITH ORTHOGONAL CONTACT TAILS - Disclosed are electrical connectors and methods of assembling an electrical connector having “standard” (i.e., with electrical contacts having in-line tails), jogged (i.e., with electrical contacts having jogged tails but not connected orthogonally to another connector through a substrate), and/or “orthogonal” (i.e., with electrical contacts having jogged tails that are used in an orthogonal application) leadframe assemblies in the same connector. This provides the flexibility of using some of the available contacts in an orthogonal application and, at the same time, having remaining contacts available for routing on the midplane PCB. Though this could be done using only orthogonal leadframe assemblies, the combination of standard leadframe assemblies with orthogonal leadframe assemblies creates additional spacing between the PCB vias, so that signal traces can be more easily routed on the midplane PCB. | 05-07-2009 |
20090124101 | ELECTRICAL CONNECTOR SYSTEM WITH JOGGED CONTACT TAILS - Connector systems include electrical connectors orthogonally connected to each other through shared through-holes in a midplane. An orthogonal vertical connector includes jogged contacts to offset for or equalize the different length contacts in the right-angle connector to which the vertical connector is connected. A first contact in the right angle connector may mate with a first contact in the vertical connector. A second contact in the right angle connector may mate with a second contact in the vertical connector. The first contact in the right angle connector may be greater in length than the adjacent second contact of the right angle connector. Thus, the second contact of the vertical connector may be jogged by the distance to increase the length of the second contact by the distance. | 05-14-2009 |
20090149041 | Orthogonal Backplane Connector - An orthogonal backplane connector systems having midplane footprints that provide for continuity of impedance and signal integrity through the midplane and allow for the same connector to be coupled to either side of the midplane. This design creates an orthogonal interconnect without taking up unnecessary PCB real estate. The midplane circuit board may include a first differential signal pair of electrically conductive vias disposed in a first direction, and a second differential signal pair of electrically conductive vias disposed in a second direction that is generally orthogonal to the first direction. The first and second differential signal pair of electrically conductive vias are electrically connected through the midplane circuit board. Each pair may be associated with and be located in between ground vias. A ground via that is large relative to the signal vias may be provided. The second signal vias may comprise a shared signal via, receiving a contact from respective connectors connected to each side of the midplane circuit board. The second signal vias may comprise partial signal vias, extending from one or more sides partially into the midplane circuit board. The signal pairs may be offset from a via array centerline formed by the ground vias to correspond with mating ends of signal contacts of an electrical connector that likewise jog away from a centerline of a respective contact column of the connector. | 06-11-2009 |
20090159314 | SHIELDLESS, HIGH-SPEED, LOW-CROSS-TALK ELECTRICAL CONNECTOR - An electrical connector may include a first connector with electrically-conductive contacts. The contacts may have blade-shaped mating ends, and may be arranged in a centerline. The electrical connector may include a second connector with electrically-conductive receptacle contacts, which may also be arranged in a centerline. The connectors may be mated such that the mating portion of a first contact in the second connector may physically contact of a corresponding blade-shaped mating end of a contact in the first connector. | 06-25-2009 |
20090170351 | Electrical Connector Adapted To Isolate Mating Forces - Disclosed is an electrical connector assembly adapted to isolate shock forces during mating. Such an electrical connector assembly may include a first electrical connector, a second electrical connector, and a first guide module. The second electrical connector may be adapted to mate with the first electrical connector. The first guide module may be located adjacent to the first electrical connector and may include an opening for receiving a first guide post. There may be no direct mechanical attachment between the first electrical connector and the first guide module. Such an arrangement, may isolate the first electrical connector from any forces created by the mating of the guide post with the opening of the guide module. | 07-02-2009 |
20090203238 | SHARED HOLE ORTHOGONAL FOOTPRINTS - Disclosed are an electrical connector and a method for providing transmit and receive electrical signal contacts to reduce or minimize total crosstalk. Such methods may be particularly suitable for connectors having larger near-end crosstalk aggressors than far-end crosstalk aggressors. The electrical signal contacts may be subdivided on a substrate, such as a midplane PCB, and through the opposing connectors, such that the transmitting contacts are all on one side of the connector and the receiving contacts are on the other side of the connector, with a buffer between them. The buffer may comprise a plurality of “dummy” or “buffer” contacts, which may be unassigned or devoid of electrical connectivity. This is one step beyond the primary assignment of contacts as single-ended or differential signal contacts. The contacts themselves may also receive a secondary assignment according to their desired transmitting, receiving, or buffering function. | 08-13-2009 |
20090221165 | CROSS TALK REDUCTION FOR HIGH SPEED ELECTRICAL CONNECTORS - Example electrical connectors are provided including a plurality of electrical contacts configured to communicate between electrical devices. The plurality of electrical contacts includes a plurality of ground contacts. A ground coupling assembly is configured to electrically connect ground contacts of an electrical connector to adjust a performance characteristic of the electrical connector as desired. | 09-03-2009 |
20100291806 | Shieldless, High-Speed, Low-Cross-Talk Electrical Connector - An electrical connector may include a first connector with electrically-conductive contacts. The contacts may have blade-shaped mating ends, and may be arranged in a centerline. The electrical connector may include a second connector with electrically-conductive receptacle contacts, which may also be arranged in a centerline. The connectors may be mated such that the mating portion of a first contact in the second connector may physically contact of a corresponding blade-shaped mating end of a contact in the first connector. | 11-18-2010 |
20100330846 | ELECTRICAL POWER CONNECTOR SYSTEM - An electrical power connector comprises a housing having a mounting interface and a mating interface. The mating interface defines a plurality of receptacles spaced apart in more than one direction. A plurality of electrical contacts is supported by the housing. These electrical contacts define respective mounting ends that are configured to electrically connect with an electrical component at the mounting interface, and opposed mating ends. At least one of the electrical contacts defines a common contact beam disposed within at least a select one of the receptacles. This common contact beam is configured to be electrically connected to a pair of adjacent electrical contacts of a mated electrical connector. | 12-30-2010 |
20110097934 | ELECTRICAL CONNECTOR HAVING GROUND PLATES AND GROUND COUPLING BAR - An electrical connector includes a plurality of leadframe assemblies having discrete signal contacts extending through a leadframe housing and defining opposed mating ends and mounting ends. The leadframes lack discrete ground contacts, and instead includes a ground plate having a plurality of mating ends, such that the mating end of at least one signal contact is disposed between a pair of the mating ends of the ground plate. The ground plate further includes a ground coupling bar connected between the pair of mating ends of the ground plate. | 04-28-2011 |
20110159473 | ARRAY OF ELECTRICAL CONNECTORS HAVING OFFSET ELECTRICAL CONNECTORS - An array of electrical connectors is provided having a first plurality of electrical connectors configured to be mounted on a substrate, and a second plurality of electrical connectors configured to be mounted on the substrate at a location adjacent the first plurality of electrical connectors, such that the first plurality of electrical connectors is offset with respect to the second plurality of electrical connectors along an insertion direction. | 06-30-2011 |
20110159710 | ARRAY OF ELECTRICAL CONNECTORS HAVING OFFSET ELECTRICAL CONNECTORS - An array of electrical connectors is provided having a first plurality of electrical connectors configured to be mounted on a substrate, and a second plurality of electrical connectors configured to be mounted on the substrate at a location adjacent the first plurality of electrical connectors, such that the first plurality of electrical connectors is offset with respect to the second plurality of electrical connectors along an insertion direction. | 06-30-2011 |
20120077380 | ELECTRICAL CONNECTOR HAVING COMMONED GROUND SHIELDS - A row-based electrical connector includes a connector housing that supports a plurality of electrical contacts that define broadside coupled differential signal pairs along a row direction. The electrical connector further includes conductive ground shields disposed between adjacent differential signal pairs, and a conductive plate in electrical communication with the ground shields and electrically isolated from the differential signal pairs. | 03-29-2012 |
20120083155 | SHIELDLESS, HIGH-SPEED, LOW-CROSS-TALK ELECTRICAL CONNECTOR - An electrical connector may include a first connector with electrically-conductive contacts. The contacts may have blade-shaped mating ends, and may be arranged in a centerline. The electrical connector may include a second connector with electrically-conductive receptacle contacts, which may also be arranged in a centerline. The connectors may be mated such that the mating portion of a first contact in the second connector may physically contact of a corresponding blade-shaped mating end of a contact in the first connector. | 04-05-2012 |
20120258626 | Housing Insert Contact Protection - An electrical connector housing including a main housing member and at least one protective wafer. The main housing member has a contact locating area. Opposite sides of the contact locating area include slots for receiving opposite end portions of insertable wafers. The at least one protective wafer is configured to be located in the contact locating area and includes opposite end portions adapted to be matingly slid into a pair of the slots. The protective wafer has a top side configured to project above top ends of contacts located in the contact locating area. The protective wafer and the main housing member are sized and shaped to combine to help prevent a user's finger from contacting the top ends of the contacts located in the contact locating area. | 10-11-2012 |
20120258633 | Connector Housing With Alignment Guidance Feature - An electrical connector housing including a contact locating area for locating electrical contacts; and a mating connector area configured to receive portions of a housing of a mating electrical connector. The mating connector area comprises a first wall forming a first area adjacent the contact locating area, and a second wall adjacent the contact locating area forming a second area separated from the contact locating area by the second wall. The first area and the second wall have a substantially same size and shape. | 10-11-2012 |
20130005160 | Connection Footprint For Electrical Connector With Printed Wiring Board - An electrical connector including a housing; ground contacts; and signal contacts. The signal contacts are differential signal pairs. The electrical connector is a right angle connector. First ends of the ground contacts are in a center row. First ends of a first one of the each differential signal pair are on a first side row at a first side of the center row. First ends of a second one of the differential signal pairs are on a second side row at a second opposite side of the center row. At least one of the first ends of the ground contacts is provided between the first ends of two of the differential signal pairs. An assembly is provided including the electrical connector and a printed circuit board having the electrical connector mounted thereon. The printed circuit board includes through-holes with a shared single antipad one of the differential signal pair. | 01-03-2013 |
20130084744 | STAGGERED MOUNTING ELECTRICAL CONNECTOR - A staggered mounting electrical connector assembly can include a shroud and an electrical connector. The electrical connector can include a connector housing, and the shroud can be configured to be mounted to the connector housing in a staggered fashion. The shroud and the connector housing can include complementary alignment members configured to interface with each other. The alignment members can act to align mounting members defined by the shroud during the process of mounting the shroud and the connector housing to an underlying substrate, such as a printed circuit board. | 04-04-2013 |
20130109246 | ELECTRICAL CONNECTOR WITH REDUCED NORMAL FORCE | 05-02-2013 |
20130183869 | SHIELDLESS, HIGH-SPEED, LOW-CROSS-TALK ELECTRICAL CONNECTOR - An electrical connector may include a first connector with electrically-conductive contacts. The contacts may have blade-shaped mating ends, and may be arranged in a centerline. The electrical connector may include a second connector with electrically-conductive receptacle contacts, which may also be arranged in a centerline. The connectors may be mated such that the mating portion of a first contact in the second connector may physically contact of a corresponding blade-shaped mating end of a contact in the first connector. | 07-18-2013 |
20130196551 | ELECTRICAL CONNECTOR ASSEMBLY HAVING REDUCED STUB LENGTH - An electrical connector includes a dielectric housing and a plurality of electrical contacts carried by the dielectric housing. The electrical contacts can each define a mating portion that is configured to mate with a complementary mating portion of a complementary electrical connector. When the electrical connector is mated with a complementary electrical connector, a plurality of contact surfaces of the mating portions can contact a complementary mating portion, so as to establish an electrical connection between the electrical connector and the complementary electrical connector. | 08-01-2013 |
20130273781 | ELECTRICAL CONNECTOR - Electrical connector assemblies are provided that include electrical connectors having electrical contacts that have receptacle mating ends are provided. The connector housings of the provided electrical connectors include alignment members that are capable of performing staged alignment of components of the electrical connector assemblies. The provided electrical connector assemblies and the electrical connectors provided therein are capable of operating at a data transfer rate of forty gigabits per second with worst case multi-active cross talk that does not exceed a range of about two percent to about four percent. | 10-17-2013 |
20140209370 | PCB HAVING OFFSET DIFFERENTIAL SIGNAL ROUTING - In accordance with the various embodiments disclosed herein, an improved electrical connector footprints, such as printed circuit boards (printed circuit board), is described comprising one or more of, for example, a first linear array containing at least a first anti-pad extending along a first direction, a first electrical signal trace extending along the first direction and spaced from the first linear array along a second direction that is perpendicular to the first direction, a group of ground isolation vias containing at least one electrically conductive ground via arranged along a line extending parallel to the first direction and spaced from the first electrical signal trace along the second direction, and a second linear array containing at least a second anti-pad extending along the first direction spaced from the group of ground isolation vias along the second direction. | 07-31-2014 |
20140209371 | PRINTED CIRCUIT BOARD HAVING ORTHOGONAL SIGNAL ROUTING - In accordance with the various embodiments disclosed herein, electrical connector footprints, such as printed circuit boards, is described comprising one or more of signal traces that each include a first section that extends parallel to the linear array direction and a second section extends in a direction that is different than the linear array direction. | 07-31-2014 |