A contact member includes a base portion including a joint portion solderable to a first conductor; and an elastic contact portion formed continuously to the base portion and including a contact portion contactable with a second conductor. The base portion and the elastic contact portion form an integrated molded body include a metal thin plate having electrical conductivity and spring characteristic. The plate is a clad material including two or more metal layers stacked in a plate thickness direction of the plate, a first layer serving as one surface layer of the two or more stacked metal layers includes a metal member having a spring characteristic, and a second layer serving as another surface layer of the two or more stacked metal layers includes an aluminum member, the joint portion includes the first layer or the first layer that is plated, and the contact portion includes the second layer.

A contact in one aspect of the present disclosure comprises a fixing portion, an elastic contact piece, and a pair of projecting tabs, which are formed as an integrated entity from a metal thin plate. The projecting tabs project from the fixing portion at positions on both sides of the elastic contact piece. A dimension of the elastic contact piece in a width direction, which matches the direction of an interval between the projecting tabs, is a first dimension. The projecting tabs are formed such that each projecting tab is a flat plate having the same thickness as the thin plate. The projecting tabs are arranged such that the thickness directions thereof are the same direction, in locations that have inner surfaces of the projecting tabs facing each other, and an interval between the inner surfaces is a second dimension greater than the first dimension.

An electrical connector device for electrically connecting a light source board and a driver board of an LED light. The electrical connector device includes an input terminal and an output terminal, one end of input terminal is fixed on the driver board of the LED light and electrically connected to the driver board. The output terminal includes a conductive terminal, an elastic clipping portion, and a resistance portion, the conductive terminal includes a conductive pin, the conductive pin is fixed on the light source board and electrically connected to the light source board, the elastic clipping portion and the resistance portion are placed on the conductive terminal, and when assembled, the other end of the input terminal elastically touches one end of the elastic resistance portion and the resistance portion touches the other end of the resistance portion. The electrical connector of LED light owns the advantages of simple structure and high reliability.

Systems and methods for providing screw bosses on a substrate. The substrate can be dimpled. The dimples can then be threaded to accept screw bosses. The dimples can be threaded using a threading die or can have threads cut by self-tapping screw bosses. An adhesive can be applied to the substrate, the bottom of the screw boss, or both. The screw bosses can include standoffs to determine the distance between the bottom of the screw boss and the substrate. The screw bosses can be threaded onto the dimples and can provide threads for attaching items to the substrate. A filler material can be applied to the reverse side of the substrate to fill-in the dimples and present a smooth surface. A decorative or protective layer can be applied over the filler material.

Disclosed herein are devices and methods for a multiple contact probe. The multiple contact probe may include a first contact interface and a second contact interface. The first contact interface may be electrically isolated from the second contact interface. A plunger assembly may be slidably engaged between the first contact interface and the second contact interface. The plunger assembly may be slidable between an extended configuration and a retracted configuration along a longitudinal direction of the plunger assembly. The plunger assembly may include a first electrical contact and a second electrical contact. The first electrical contact may be in electrical contact with the first contact interface and the second electrical contact may be in electrical contact with the second contact interface. A bias element may be engaged with the plunger assembly, for instance, the bias element may be configured to bias the plunger assembly to the extended configuration.

A power transmission device includes a first circuit board, a conductive base, a connection element, a second circuit board, and a fixing element. The conductive base is fixed on the first circuit board. The connection element is disposed on the conductive base. The second circuit board is fixed on the connection element. The fixing element is disposed on the second circuit board, and connected to the conductive base by penetrating through the second circuit board and the connection element. The first circuit board is electrically connected to the second circuit board via the conductive base and the connection element.

In one aspect of the present disclosure, a digital image capturing device (DICD) is disclosed that includes a device body with a printed circuit board (PCB), and an integrated sensor-lens assembly (ISLA) that is configured for releasable connection to the device body. The PCB defines a plurality of openings that extend therethrough and includes a plurality of connector pins that are fixedly positioned within the openings The ISLA includes at least one connective surface that is configured for contact with the connector pins to establish electrical communication between the device body and the ISLA.

The application discloses a large current transmission connector including the pallet assembly and the socket assembly. The pallet assembly includes the pallet and the guide pillar. The socket assembly includes a socket. The socket includes mounting holes and pins. The locking structure is arranged in the mounting hole. The locking structure is used for fixing the guide pillar on the socket and for conveying a current between the pallet assembly and the socket assembly. When the guide pillar and the locking structure are fixed together, the two guide pillars not only play the role of guiding, but also can carry the large current of 50 A. Thus, this connector does not need to set aside a lot of space for mounting the power supply pins. The space of the connector is saved effectively. The miniaturization trend of the connector is met.

A single element connector includes a first cage-like structure configured to receive a wire. The first cage-like structure includes an insert end and a single contact tine coupled to a top wall of the first cage-like structure. The single contact tine extends downward from the top wall to a base of the single element connector and directs a wire inserted into the single element connector to the base of the single element connector.

An electrical connector device that connects a light source board and a driver board of an LED light electrically. The electrical connector device includes a connector board. The connector board is related to the conductive pins. The connector board is fixed on the light source board and connected to the light source board electrically through the conductive pins. The electrical connector device also includes two electrical connector pieces. Each electrical connector piece includes a whole set for the connection portion and the resistance portion. One end of the connection portion is fixed on the connection board. The resistance portion of the electrical connector piece closes to each other to become an elastic clipping portion and includes the bent and fastening structure. After bending, the fastening structure touches the other end of the connection portion to be fixed on the connection board. The electrical connector device owns the advantages of simple structure and easy to be assembled automatically.