A socket electrically connects a first electric component and a second electric component, including: a base part in which a through hole extending through the base part from a top surface to a bottom surface in a vertical direction is formed; a contact pin inserted to the through hole such that a pin lower end is exposed from the bottom surface, and configured such that, when in use, a pin upper end makes contact with the first electric component; and a sheet member including a through electrode extending therethrough in the vertical direction, disposed at the base part in a state where the sheet member faces the bottom surface, and configured such that, when in use, an upper end of the through electrode makes contact with the pin lower end and a lower end of the through electrode makes contact with the second electric component.

Provided is a data signal transmission connector configured to electrically connect a first electronic component and a second electronic component includes a first base frame and a second base frame having a structure which are mirror-symmetrical, the first base frame and the second base frame being disposed to face each other and to be spaced apart from each other.

A plug connector provides an electrical connection to a conductor track connection of a printed circuit board. The plug connector has a first printed circuit board with a conductor track connection and a plugging region for plugging the printed circuit board into the plug connector. The plugging region extends parallel to the first printed circuit board. A contact element and/or a spring element is provided in the plug connector. The plugging region and the contact element and/or the spring element are arranged in such a way that, in a plugged state of the plug connector, the printed circuit board which is plugged into the plugging region is arranged parallel to the printed circuit board and the conductor track connection is arranged opposite the conductor track connection. An electrical connection of the conductor track connection to the conductor track connection is provided by the contact element and/or the spring element.

An interposer configured for connecting offset arrays of signal pads on parallel surfaces. Contacts of the interposer have mating portions with multiple beams. One of the beams makes contact with a pad on a first of the surfaces and is deflected when the surfaces are pressed together with the interposer between them. A second of the beams is positioned so that the first beam presses into that second beam as the first beam deflects. The second beam may contact a central location on the first beam. An electrical path through the contact from a pad on the first surface to a pad on the second surface may be shorter when the first beam is pressed into the second beam than through the first beam alone. A shorter path may improve signal integrity. Moreover, the spring force of the contact may be set by the second beam.

An electrical connector assembly includes a first electrical connector and a second electrical connector. The first electrical connector includes a first insulative housing having a receiving room, a number of conductive terminals affixed to the first insulative housing, and a metal shell enclosing the first insulative housing. The insulative housing defines a top wall and a bottom wall separated from the top wall. The conductive terminals are arranged in an upper row and a lower row. The second electrical connector includes a second insulative housing having a tongue portion extending forwardly and a number of mating terminals disposed on the tongue portion. The first electrical connector is located in an electrical device. The tongue portion of the second electrical connector is received in the receiving room of the first insulative housing. The tongue portion is sandwiched between the top wall and the bottom wall.

An IC socket includes: a socket main body having an accommodating part for accommodating an IC package; a socket cover having a one-side end portion pivotally supported by the socket main body, and the other-side end portion which is located opposite to the one-side end portion and lockable to the socket main body; and a heat dissipating member mounted on the socket cover and caused to press the IC package. The socket cover includes a metal plate extending from the one-side end portion to the other-side end portion so that the thickness direction of the metal plate is parallel to the direction in which the socket cover faces the accommodating part when the other-side end portion is locked to the socket main body. The metal plate has a depression formed by bending the metal plate.

A vehicular camera includes a front housing portion, a first circuit board having an imager, a second circuit board in board-to-board electrical connection with the first circuit board, and a rear housing portion having a connector for electrically connecting to an electrical connection of a wire harness of a vehicle. The rear housing portion when joined with the front housing portion forms a camera housing. The connector of the rear housing portion includes a multi-pin connector having at least three terminals that, with the rear housing portion joined with the front housing portion, electrically connect to respective terminals of the electrical connector at the second circuit board. The connector includes an electrically conductive metallic clamping element that engages a metallic shield element at the electrical connector at the second circuit board to establish a ground path from the connector of the rear housing portion to the second circuit board.

There is described an edge assembly for attaching to flexible substrates. An example assembly may comprise at least a first edge component and a compression retainer component. The first edge component may include at least one conductor to mate with one or more conductors on a surface of a flexible substrate after the first edge component is affixed to an edge of the flexible substrate by the compression retainer component. The edge assembly may also comprise a second edge component, wherein the flexible substrate may be compressed between the first and second edge components and held in place by the compression retainer component. The first edge component may further comprise an extension, including the at least one conductor, that may be used to convey power from a power source to the flexible substrate. The extension is accessible from outside the flexible substrate via a port in the compression retainer component.

In various embodiments, a chip card module is provided. The chip card module includes a chip card module contact array having six contact pads that are arranged in two rows having three contact pads each in accordance with ISO 7816, and three additional contact pads that are arranged between the two rows. Each additional contact pad is electrically conductively connected to a respective associated contact pad from a row from the two rows.

An electrical contact pad for electrically contacting a connector includes a first region having a first length in a longitudinal direction, and a second region having a second length in the longitudinal direction that is greater than the first length. The first region is arranged to contact a first arm of the connector and the second region is arranged to contact a second arm of the connector. The first length being smaller than the second length results in an increase in the impedance of the electrical contact pad as compared to typical contact pads which tend to correspond to low impedance regions.