Patent application number | Description | Published |
20100035459 | CONNECTOR ASSEMBLY WITH ELECTROMAGNETIC INTERFERENCE CONTACTS - A connector assembly is configured to mate with a receptacle assembly. The receptacle assembly includes a mating connector within an interior chamber of the receptacle assembly. The interior chamber is defined by an inner surface of the receptacle assembly that is electrically connected to an electrical ground. The connector assembly includes a housing and a latch. The housing includes a mating end configured to be inserted into the interior chamber of the receptacle assembly to mate with the mating connector. The latch includes a securing protrusion and a spring finger. The securing protrusion is configured to mechanically engage the aperture of the inner surface to secure the housing with respect to the receptacle assembly. The spring finger is shaped to electrically engage the inner surface of the receptacle assembly when the connector assembly mates with the receptacle assembly such that the latch is electrically connected to the electrical ground. | 02-11-2010 |
20120021641 | MOUNTING PLATE FOR MOUNTING AN ELECTRICAL CONNECTOR TO A CIRCUIT BOARD - An electrical connector is provided including a housing. A mounting plate is provided having a mounting surface configured to be mechanically coupled to a circuit board. An opening extends through the mounting plate. The opening has an interior contour shaped to slidably receive a post of the housing as the mounting plate is loaded onto the post until the mounting plate rests on a plate surface of the housing. An engagement feature is provided on the mounting plate. The engagement feature secures the mounting plate to the housing. The engagement feature displaces a plate securing portion formed on the housing to secure the mounting plate to the housing with an interference fit. | 01-26-2012 |
20120264336 | ELECTRICAL CONNECTORS AND RECEPTACLE ASSEMBLIES HAVING RETENTION INSERTS - An electrical connector including a connector housing having opposite mating and loading faces and a mating axis extending therebetween. The connector housing has interior walls that oppose each other with a contact cavity therebetween. The electrical connector also includes a retention insert that is sized and shaped to be advanced through the loading face and positioned within the contact cavity. The retention insert has an outer engagement surface. The electrical connector also includes first and second rows of mating contacts that are separated by the retention insert. The contact cavity has a component-receiving region that exists between the first and second rows of mating contacts and is accessible through the mating face. The mating contacts of the first and second rows are oriented to extend lengthwise along the mating axis and are held between the engagement surface of the retention insert and respective interior walls. | 10-18-2012 |
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 |
20130115824 | MULTIPLE COMMUNICATION PROTOCOL ELECTRICAL CONNECTOR ASSEMBLY - An electrical connector is configured to mate with at least one mating connector to electrically connect a first electrical component to a second electrical component. The electrical connector includes a first connector and a second connector housing. The first connector housing includes a plurality of first contacts. The first connector housing is associated with a first communication protocol. The second connector housing includes a plurality of second contacts, and is associated with a second communication protocol that is separate and distinct from the first communication protocol. The first and second connector housings are integrally connected to one another. | 05-09-2013 |
20130140070 | SYSTEM FOR CONNECTING ELECTRICAL CABLES TO A PRINTED CIRCUIT BOARD - An electrical communication system includes a printed circuit board (PCB) having first and second ground plates and a plurality of signal vias and a plurality of ground vias extending between and through the first and second ground plates. Each of the plurality of signal vias are electrically connected to a respective conductive trace on a surface of the PCB. Cables connect to the PCB at a right angle, with a connector attached to an opposite side of the PCB. Each cable has two signal wires and a ground wire extending therefrom. The two signal wires define a differential pair. The signal wires are symmetrical with respect to the ground wire. Each of the signal wires electrically connects to a respective one of the plurality of signal vias. The ground wire connects to one of the plurality of ground vias. The cables are offset with respect to one another on the first and second ground plates and within the PCB. | 06-06-2013 |
20130337667 | ELECTRICAL CONNECTOR HAVING GROUNDING MATERIAL - An electrical connector is provided having a housing. Contact modules are positioned within the housing. The contact modules each have a dielectric body holding at least one conductive lead. The at least one conductive lead extends between a mating end and a mounting end. The mating end is configured to be electrically connected to an electrical component. The mounting end is configured to be electrically connected to a circuit board. Ground plates are positioned within the housing between corresponding contact modules. The contact modules and the ground plates form a contact assembly held by the housing. A conductive elastomeric material extends through the contact modules and engages the ground plates to electrically interconnect the ground plates. | 12-19-2013 |
20150223349 | PLUGGABLE MODULE - A pluggable module is provided for being pluggably received within a receptacle assembly. The pluggable module includes a circuit board configured to be terminated to a cable, and a housing extending a length from a plug end to a cable end. The housing includes complementary first and second shells that are mated together along a mating axis such that the first and second shells define an interior chamber of the housing. The circuit board is held within the interior chamber such that the circuit board is exposed at the plug end. The first and second shells includes respective first and second openings that extend into the respective first and second shells along respective first and second central axes that each extend non-parallel to the mating axis. The first and second openings are at least partially aligned. A spring pin extends within the first and second openings to hold the first and second shells together. A first segment of the spring pin extends within the first opening of the first shell and a second segment of the spring pin extends within the second opening of the second shell. | 08-06-2015 |