Abstract: An electrical connector includes a dielectric housing with a plurality of filtering modules therein. Each filtering module has a housing and a magnetics assembly including transformer cores with wires wrapped therearound. An array of pins extend from the module housing for connection to the wires. A plurality of tails extend from the module housing for interconnection to a circuit board upon which the connector may be mounted. An interconnection is provided between the pins and tails that may include filtering or other signal modifying circuitry. A circuit member having an enhanced layout is also provided for use in or upon which the connector may be mounted.

Abstract: A connector system is disclosed that includes a first and second connector. The first connector supports a channel terminal that is U-shaped and includes a mating edge. The second connector includes one or more wafers that support terminals arranged in an edge-coupled manner. Ground terminals in the one or more wafers are configured to engage the mating edge of the channel terminal. Each wafer can include a shield mounted on a side of the wafer. If desired, the ground terminal, the channel terminal and the shield can be electrically connected in the mating interface.

Abstract: A low impedance slot fed antenna with a slot and an element configured to resonate is depicted. The orientation of the slot is configured so that a slot current is not opposed to a return current associated with the element. This helps decrease coupling between the slot and the element, which can benefit high Q antennas.

Abstract: A holder assembly includes a cover and a frame that together can support a first and second terminal that can each include a two-way wire trap feature. The terminals can be configured with contacts that are configured to engage pads on a corresponding LED array. One or both of the terminals can also omit the contact and can be mounted so as to be in electrical contact with traces provided on the frame and the traces can be electrically connected to the anode and cathode of the LED array. The frame can further support circuitry that is configured to convert AC to DC.

Abstract: A loop connector comprises first and second connectors. The first connector has a first housing and a pair of first terminals, is configured to be surface-mounted on a top surface of a board, and has a fitting face thereof extending in a direction intersecting the top surface of the board. The second connector has a second housing and a second terminal configured to contact one of the first terminals, is configured to engage the first connector, and has a fitting face thereof extending in a direction intersecting an extending direction of the second terminal. The second housing is provided with a second terminal accommodation-concave portion. The second terminal is provided with a pair of terminal bodies and a connecting portion to connect thereto, the terminal bodies being perpendicular to the connecting portion when the second terminal is press-fit into the second terminal accommodation-concave portion.

Abstract: A flat flexible cable connector (10) has a housing (31) with an insertion opening (33) in its front face. Two lengths of flexible cable (51a, 51b) are placed end to end and are inserted into the opening. The connector has terminals (41) with top and bottom opposing contact portions (43a, 44a) which are aligned with the exposed conductive leads on the two lengths of flexible cables. A moveable actuator (11) applies pressure to the terminal contact portions to effect a reliable connection between the flexible cables.

Abstract: An electrical connector is disclosed for mounting on a printed circuit board. The connector includes a dielectric housing having a mating portion. A plurality of terminals are mounted in the housing and include tail portions extending therefrom. A conductive shell is mounted on the housing at least about the mating portion thereof. A conductive electrostatic discharge plate is mounted about the tail portions creating a predetermined spark gap between the plate and the tail portions to pass a current when a predetermined voltage exists between the plate and the tail portions. A conductive board lock holds the connector to the printed circuit board and is adapted for connection to a ground circuit on the board. The board lock engages the conductive shell and the conductive electrostatic discharge plate to common the shell and the plate with the ground circuit on the printed circuit board.