A wiring module is configured to attach to a power storage element group of an arranged plurality of power storage elements, each one of the power storage elements including an electrode terminal, including a bus bar that connects to the electrode terminal; a circuit board on which a conductive path is formed; and a relay member that connects the bus bar and the circuit board, wherein the relay member includes a bus bar connection portion that connects to the bus bar and a board connection portion that connects to the conductive path of the circuit board, the relay member includes a connection portion with a plate-like shape that joins the bus bar connection portion and the board connection portion and extends in a direction intersecting an arrangement direction of the plurality of power storage elements, and the connection portion includes a first deformation portion capable of deforming in the arrangement direction.

3D electrical integration is provided by connecting several component carriers to a single substrate using contacts at the edges of the component carriers making contact to a 2D contact array (e.g., a ball grid array or the like) on the substrate. The resulting integration of components on the component carriers is 3D, thereby providing much higher integration density than in 2D approaches.

A circuit module may include a circuit board and an overmold. The circuit board may have a first surface from which an electronic component extends and a second surface opposite the first surface. The circuit board may be characterized by a width across the circuit board. The circuit board may include a tie-bar residual extending from a sidewall of the circuit board beyond the width across the circuit board. The overmold may at least partially encapsulate the first surface of the circuit board and the second surface of the circuit board. The overmold may extend laterally beyond the width of the circuit board along a length of the circuit board. The overmold may define a region about the tie-bar residual characterized by a first recessed height with respect to the first surface and a second recessed height with respect to the second surface. The overmold may define a notch within the region recessed from an outer edge of the overmold.

Power amplifier assemblies and components are disclosed. According to some embodiments, a power amplifier assembly (10) is provided that includes a power amplifier (12) having a gate lead (14) with a gate contact surface, a drain lead (13) with a drain contact surface and a source contact surface (15) having a length and width. An extended heat slug (11) is mounted against the source contact surface to conduct heat away (18) from the surface and to extend the electrical path of the source. The extended heat slug has at least a length that is greater than the length of the source contact surface.

Provided is a double-sided plastic package power supply product, including a PCB, a plastic package body, electric contacts and pins, wherein the electric contact is connected to the pin and the PCB; the pin includes a plastic body and a metal body; the metal body is embedded in the plastic body; the plastic body is used to limit the metal body; and one end of the metal body is connected to the electric contact, and the other end of the metal body is used as a plug pin. A metal terminal is connected to a PCB substrate and wrapped in the plastic package body, and the surface of the portions of the metal terminal that protrude from the PCB substrate can be exposed on the surface of the product by means of cutting or thinning so as to form the electric contacts.

An optoelectronic device and a method for producing an optoelectronic device are disclosed. An embodiment of an optoelectronic device includes a carrier, an electrically conductive layer arranged on the carrier, at least one semiconductor chip comprising an active layer for generating electromagnetic radiation, wherein the semiconductor chip is electrically conductively and mechanically connected with the carrier via the electrically conductive layer. The device further comprises a holder, wherein a surface of the carrier remote from the semiconductor chip is arranged on the holder, wherein the carrier is mechanically connected with the holder by at least one fastening element and is fastened to the holder, wherein the fastening element passes completely through the carrier, and wherein the semiconductor chip is electrically conductively connected to the holder by the fastening element.

An electrical board-to-board connector including a flexible cable assembly having a low profile or dimensionally reduced configuration. The connector body of a cable assembly may be widened to provide the structural rigidity sufficient to support an array of solder lead connections. Other support elements may be omitted from the cable assembly, which results in a reduced height dimension. The flexible cable assembly may also include a cowling used to retain the cable assembly against a circuit board. The cowling may also be configured to reduce the dimensions or dimensional footprint of the connection.

Circuit assemblies can be electrically interconnected by providing a circuit assembly having a top surface, a bottom surface, and a perimeter edge connecting the top and bottom surfaces, the perimeter edge being formed of insulative material and having a plurality of conductive features embedded in and exposed on the surface of the edge. The conductive features are arranged in contact sets, and each contact set is separated from adjacent contact sets by a portion of the perimeter edge that is free of conductive features. Each contact set includes conductive features that together form a distributed electrical connection to a single node. The insulative material is selectively removed to form recesses adjacent the conductive features exposing additional surface contact areas along lateral portions of the conductive features in the recesses.

The present invention provides a speaker box having an upper cover, a lower cover mated with the upper cover to form an accommodation space and a speaker unit accommodated in the accommodation space. The speaker box also includes an elastic piece electrically connected to the speaker unit and a flexible circuit board electrically connected to the elastic piece. One end of the elastic piece is connected to the speaker unit and the other end is bent and extended to the extension part. The flexible circuit board is connected to the elastic piece on the extension part and extends out of the accommodation space. The speaker box provided by the present invention can smoothly draw out the flexible circuit board to the position of the feed point, thereby effectively ensuring the communication between the flexible circuit board and the external circuit.

A circuit board for use in a modular electrical connector. The circuit board has a first surface and an oppositely facing second surface. Signal pathways are provided on the first surface. The signal pathways have signal pathway ends abutting a mounting end of the circuit board. First ground pathways are provided on the first surface. The first ground pathways are positioned adjacent at least one of the signal pathways. The first ground pathways have first ground pathway ends abutting the mounting end of the circuit board. One or more second ground pathways are provided on the second surface. The one or more second ground pathways have second ground pathway ends abutting the mounting end of the circuit board. The positioning of the signal pathway ends, the first ground pathway ends and the second ground pathway ends abutting the mounting end reduces crosstalk between signal pairs.