An electrical contact is provided for connecting together substrates. The electrical contact has a longitudinal axis and includes first and second structures that are connected together to prevent relative movement between each other. The first structure extends along the longitudinal axis and has a rigid construction. The second structure includes a spring portion and a mounting portion. The spring portion is resiliently deflectable in the direction of the longitudinal axis. The mounting portion is adapted for securement to one of the substrates. A press-fit portion is provided that extends along the longitudinal axis and is adapted for press-fit insertion into a hole of the other one of the substrates. The press-fit portion may be part of the first structure or the second structure. In addition, the first structure may be composed of metal or plastic.

Disclosed is a connector including at least: a printed circuit board including preferentially a plurality of stacked layers; a plurality of connecting pins which are spaced apart from each other and transversally pass through the printed circuit board from a bottom external surface up to an opposite top external surface of the printed circuit board; and an insulating assembly for providing insulation among the plurality of connecting pins, wherein the insulating assembly includes at least one insulator which is configured to be coupled to the printed circuit board and is configured to insulate at least a portion of each connection pin from a corresponding portion of one or more adjacent connecting pins of the plurality of connecting pins.

A voltage regulator module includes a first circuit board assembly, a second circuit board assembly and a magnetic core assembly. The first circuit board assembly includes a first printed circuit board. The second circuit board assembly includes a second printed circuit board, at least one output capacitor, a plurality of ball grid arrays and at least one bonding pad. The second printed circuit board includes a first surface and a second surface. The plurality of ball grid arrays are disposed on the second surface of the second printed circuit board. The at least one bonding pad is arranged beside the first surface of the second printed circuit board. The magnetic core assembly is arranged between the first circuit board assembly and the second circuit board assembly and electrically connected with the at least one bonding pad. The at least one output capacitor is embedded within the second circuit board assembly.

A circuit apparatus includes: a stacked body; and a plurality of terminals. The stacked body includes a plurality of layers. A plurality of holes that extend through the plurality of layers are formed in the stacked body. Each of the plurality of layers includes a connection member that is formed of a conductor. The connection member includes: a plurality of connection portions that are provided at positions corresponding to the plurality of holes; and a joining portion that connects the plurality of connection portions to each other. The plurality of terminals include a plurality of types of terminals that correspond to the plurality of layers. Each of the plurality of types of terminals can be selectively connected to the connection portion of a corresponding one of the plurality of layers by being inserted into a predetermined one of the plurality of holes.

A sensor device includes an electrically conductive body adapted to accommodate a first printed circuit board (PCB) and a second PCB, a flexible electrically conductive device connecting the first PCB and the second PCB, and an electrically conductive spring held between the first PCB and the second PCB by a snap-fit, a form-fit or a press-fit connection. A first portion of the electrically conductive spring is pressed against one of the first PCB and the second PCB and a second portion of the electrically conductive spring is pressed against the electrically conductive body to maintain an electrical connection between the electrically conductive body, the first PCB, and the second PCB.

A connector includes a flat-plate housing made of insulating resin and including a first positioning hole and a second positioning hole, a plurality of contacts held on the housing, and a first hold-down and a second hold-down made of metal and disposed to correspond to a first positioning hole and a second positioning hole, respectively. The housing includes a CPU board opposed surface to be opposed to a CPU board. The first hold-down includes a reinforcing plate part to cover the CPU board opposed surface around the corresponding first positioning hole. The second hold-down includes a reinforcing plate part to cover the CPU board opposed surface around the corresponding second positioning hole.

Example implementations relate to an electrical socket for an electronic packaging assembly, which accepts a modular integrated circuit (IC) on one side and a circuit board on another side. In some examples, the electrical socket has a first body mountable on a first surface of the circuit board and a second body mountable on a second surface of the circuit board. The first body includes a plurality of conductors (wire-terminated contacts), where each first conductor includes a first end to protrude beyond the first surface of the circuit board and a second end to protrude beyond the second surface of the circuit board. The second body includes a plurality of receptacles, where each receptacle is coupled to the second end of a respective first conductor.

A connector includes a rectangular flat-plate housing including a first positioning hole and a second positioning hole, and a contact row and a contact row held on the housing. The housing includes a first pitch side surface and a second pitch side surface on an opposite side of the first pitch side surface. The contact row and the contact row extend from the first pitch side surface to the second pitch side surface. The first positioning hole is disposed between the first pitch side surface and the contact row, and the second positioning hole is disposed between the first pitch side surface and the contact row.

An electrical contact is provided for connecting together substrates. The electrical contact has a longitudinal axis and includes first and second structures that are connected together to prevent relative movement between each other. The first structure extends along the longitudinal axis and has a rigid construction. The second structure includes a spring portion and a mounting portion. The spring portion is resiliently deflectable in the direction of the longitudinal axis. The mounting portion is adapted for securement to one of the substrates. A press-fit portion is provided that extends along the longitudinal axis and is adapted for press-fit insertion into a hole of the other one of the substrates. The press-fit portion may be part of the first structure or the second structure. In addition, the first structure may be composed of metal or plastic.

A substrate connecting structure includes a first substrate, a second substrate facing the first substrate, and a terminal through which electricity is supplied to the first substrate and the second substrate. The terminal has a first substrate connecting part that is connected to the first substrate from a side opposite from the second substrate, and a second substrate connecting part that is provided by splitting from the first substrate connecting part at an intermediate point in the terminal and connected to the second substrate by extending contactlessly through the first substrate from the side opposite from the second substrate toward the second substrate.