Patent application number | Description | Published |
20120003871 | ELECTRICAL CONNECTOR FOR AN ELECTRONIC MODULE - An electrical connector is provided for electrically connecting an electronic module to an electrical component. The electrical connector includes an insulator having a module side and an opposite component side. The insulator is configured to extend between the electronic module and the electrical component such that the module side faces the electronic module and the component side faces the electrical component. Electrical contacts are held by the insulator. The electrical contacts include mating segments arranged in an array along the module side of the insulator. The mating segments are configured to mate with mating contacts of the electronic module. The electrical connector further includes a shield having a body that is at least partially electrically conductive. The body of the shield is mounted on the insulator such that the body covers at least a portion of the module side of the insulator. The body of the shield includes an opening defined by at least one interior wall of the body. The opening receives the mating segment of at least one of the electrical contacts therein such that the at least one interior wall extends at least partially around the mating segment of the at least one electrical contact. | 01-05-2012 |
20120184157 | ELECTRICAL CONTACT FOR INTERCONNECT MEMBER - An electrical contact is provided. The electrical contact includes an integrally-formed body having a mating segment, a mounting segment, and a pair of arms interconnect the mating segment and the mounting segment. The arms extend along helical paths for at least some distance as the arms extend from the mating segment to the mounting segment. | 07-19-2012 |
20130084754 | CARD EDGE CONNECTOR - A card edge connector for mating to a flex circuit includes a housing having a front, a top and a bottom. The housing has a slot between the top and the bottom. The slot is open at the front. The slot is configured to receive a flex circuit therein. Upper contacts are held by the housing between the slot and the top. The upper contacts are exposed in the slot for mating with an upper surface of the flex circuit. Lower contacts are held by the housing between the slot and the bottom. The lower contacts are exposed in the slot for mating with a lower surface of the flex circuit. | 04-04-2013 |
20130330960 | INTERCONNECT DEVICE - An interconnect device includes a contact assembly having a carrier holding an array of conductors. Each of the conductors have opposite first and second ends configured to engage corresponding first and second electrical components. The conductors define conductive paths between the first and second ends to electrically interconnect the first and second electrical components. The interconnect device includes a frame defining a receiving space configured to receive the first electrical component therein. The frame includes corner frames having metal spring fingers configured to engage different side edges of the first electrical component to locate the first electrical component in the receiving space. The spring fingers are deflectable and are configured to be spring biased against corresponding side edges of the first electrical component. | 12-12-2013 |
20140017942 | SOCKET CONNECTORS AND METHODS OF ASSEMBLING SOCKET CONNECTORS - A socket connector includes an interconnect assembly having an array of contacts being compressible in a vertical direction and shielding springs surrounding corresponding contacts and being compressible in the vertical direction with the contacts. The shielding springs are electrically grounded and provide electrical shielding for the contacts. | 01-16-2014 |
20140030917 | COAXIAL CABLE ASSEMBLY - A coaxial cable assembly includes a coaxial cable having a terminating end and a conductor being exposed at the terminating end. A cable housing holds the coaxial cable and has a conductor slot receiving the exposed conductor. A cable shield is coupled to the cable housing and provides electrical shielding for the terminating end of the coaxial cable. The cable housing is configured to be coupled to a circuit board such that the exposed conductor directly engages a signal pad of the circuit board for electrical connection thereto. | 01-30-2014 |
20140141632 | ELECTRICAL INTERCONNECT DEVICE - An electrical interconnect device includes an array of conductive elastomeric columns, each of the elastomeric columns extending between a first end and a second end and being internally conductive between the first and second ends. Upper and lower holders cover the array of conductive elastomeric columns. The upper holder has an upper substrate and a plurality of discrete upper pads held by the upper substrate and arranged in a complementary pattern to the array of elastomeric columns. The discrete upper pads cap corresponding first ends of the elastomeric columns. The lower holder has a lower substrate and a plurality of discrete lower pads held by the lower substrate and arranged in a complementary pattern to the array of elastomeric columns. The discrete lower pads cap corresponding second ends of the elastomeric columns. The upper and lower holders support the array of conductive elastomeric columns. | 05-22-2014 |
20140148061 | CONTACTS FOR ELECTRONIC DEVICES - A contact includes an upper contact having a plunger with a tip configured to engage a first electronic component being movable between a retracted position and an extended position. The upper contact has deflecting beams deflected as the plunger is forced into the retracted position and forcing the plunger to return to the extended position when the plunger is released. The contact includes a lower contact having a base beam and a tail extending from the base beam for engaging a second electronic component. The base beam engages and is spring biased against the plunger. The plunger is movable relative to the lower contact. The base beam is biased against and maintains electrical contact with the plunger as the plunger is moved between the extended and retracted positions. | 05-29-2014 |
20140187087 | RF CABLE CONNECTOR - An RF cable connector includes a cable assembly having a plurality of RF cables bundled together and a buss bar coupled to the cable assembly. Each RF cable, which may be a twin axial RF cable, has a pair of signal conductors surrounded by an outer shield. The cable assembly has signal contacts terminated to ends of the signal conductors configured to be terminated to corresponding signal pads of a host circuit board. The buss bar has a base electrically coupled to each of the outer shields to electrically common the outer shields. The buss bar has ground tines extending from the base positioned between signal contacts and configured to be terminated to corresponding ground pads of the host circuit board. | 07-03-2014 |
20140206234 | ELECTRICAL INTERCONNECT DEVICE - An electrical interconnect device includes a substrate and an array of conductive elastomeric columns held by the substrate each having opposite first and second ends and being internally conductive between the first and second ends. A shield is mounted exterior of the first ends of the elastomeric columns. The shield has an insulative carrier holding an array of conductive pads. The conductive pads have inner surfaces and outer surfaces where the inner surfaces of the conductive pads engage the first ends of corresponding elastomeric columns and where the outer surfaces are configured to engage corresponding mating contacts of an electrical component. The outer surfaces of the conductive pads are non-coplanar such that the conductive pads have different heights. Optionally, the conductive pads may have different thicknesses above the carrier. | 07-24-2014 |
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 |