A housing for a pluggable module may include a first seating protrusion, a second seating protrusion, and a locking protrusion. The first seating protrusion may have a first seating surface facing a first direction. The second seating protrusion may have a second seating surface facing a second direction opposite the first direction. The second seating surface may be positioned parallel to the first seating surface. The second seating protrusion may be offset relative to the first seating surface in a direction parallel and a direction perpendicular to the first seating surface. The locking protrusion may have a locking surface facing the first direction. The locking surface may be positioned parallel to the first seating surface. The locking surface may be offset relative to the first seating surface in the direction perpendicular to the first seating surface.

A circuit arrangement, in particular for an electrically driven motor vehicle

A circuit arrangement (1), in particular for an electrically driven motor vehicle, has at least one bus bar (5) which is connected electrically to a supplier (2) and which is connected to a first consumer (3) at a first transfer point (6) and to a second consumer (4) at a second transfer point (7). Both the first and the second transfer point (6, 7) are formed as flexible contact points.

A socket assembly comprises a base frame formed of a thermally conductive material holding a light emitting diode (LED) package to a support structure, a contact element electrically contacting the LED package, and an isolator PCB. The LED package includes an LED PCB having an LED mounted on the LED PCB. The base frame includes a base mounted to the support structure and mechanically engaging the LED PCB so that the LED package is attached to the support structure with a predetermined holding force. The contact element electrically connects the isolator PCB to the LED PCB. The isolator PCB supplies electrical power to the LED. The isolator PCB has a first surface and a second surface; the second surface is in heat transmitting contact with the base frame and the electronic component is disposed on the first surface of the isolator PCB and electrically connected to the LED.

An electrical connector including a base member and a plurality of first terminals disposed in the base member is provided. Each of the first terminals has an contact segment and an tail segment opposite to each other. The contact segments respectively belong to two different parallel planes, and the tail segments are located on a same plane. The first terminals form a plurality of terminal sets in the tail segments, and each of the terminal sets includes a ground terminal, a pair of super speed differential terminals, and a power terminal which are adjacent to each other and are sequentially arranged.

The present disclosure includes an adjustable circuit board assembly including a circuit board, a header connected to the circuit board, and a matrix connector. The header may be configured for connection with the circuit board via a connection matrix and the matrix connector. A method of manufacturing a circuit board assembly may include providing a circuit board, providing a terminal header having a plurality of terminals, providing a connection matrix to at least one of the circuit board and the terminal header, providing a matrix connector, connecting the terminal header with the circuit board via the matrix connector and the connection matrix, and connecting the plurality of terminals to the circuit board.

Chained terminals include a strip-like carrier and terminals arranged side by side in a longitudinal direction of the carrier. The terminal includes a base portion constituting a part of the carrier and projecting portions respectively connected to the base portion and projecting in opposite directions from both side edges of the carrier. The carrier includes notches at positions distant from the projecting portions at least on one side edge. The terminals are cut off from the carrier along cutting surfaces passing through the notches.

This disclosure provides a method and apparatus for connecting wires and interlocking wires to an electrical component. More specifically, an electrical connector that includes an insulative housing, two electrical contacts, and two interlocking contacts is disclosed. In an embodiment, each electrical contact includes a female end, a press-fit end, and a transition portion. The transition portion is designed such that the first female end and the first press-fit end may be properly aligned depending on the application. The transition portion also provides support and stability to the electrical contacts when they are disposed within the insulative housing. The insulative housing includes four contact recesses. In an embodiment, the electrical connector allows for the safe, efficient, re-usable, and reliable connection for connecting high-voltage wires to a corresponding sensitive electrical component (e.g., a printed circuit board).

Systems, apparatus, and/or processes directed to applying pressure to a socket to alter a shape of the socket to improve a connection between the socket and a substrate, printed circuit board, or other component. The socket may receive one or more chips, may be an interconnect, or may be some other structure that is part of a package. The shape of the socket may be flattened so that a side of the socket may form a high-quality physical and electrical coupling with the substrate.

Described herein are circuit assemblies comprising flexible interconnect circuits and/or other components connected to these circuits. In some examples, conductive elements of different circuits are connected with support structures, such as rivets. Furthermore, conductive elements of the same circuit can be interconnected. In some examples, a conductive element of a circuit is connected to a printed circuit board (or other devices) using a conductor joining structure. Interconnecting different circuits involves stacking these circuits such that the conductive element in one circuit overlaps with the conductive element in another circuit. A support structure protrudes through both conductive elements and any other components positioned in between, such as dielectric and/or adhesive layers. This structure electrically connects the conductive elements and also compresses the conductive elements toward each other. For example, a rivet is used with the rivet heads contacting one or two conductive elements, e.g., directly interfacing their outer-facing sides.

A connector assembly configured for compact, high speed electronic systems. The assembly includes a board connector and a cable connector that may be mated by moving the cable connector in a mating direction perpendicular to a printed circuit board to which the board connector is mounted. The cable and board connectors may latch when mated and may be unlatched and unmated by pulling on a tab at a top of the cable connector in a direction opposite the mating direction. As a result, little clearance is required around the board connector to access the latching components. Such a connector may enable an electronic device with high signal integrity because the connector can be mounted close to an electronic component that processes high speed signals, providing a short, and high integrity signal paths for high speed signals.