A wire connection terminal and a welding joint. The novel wire connection terminal includes a terminal substrate (1) provided with a fixing portion for connecting with an electric device and a connecting portion for connecting with a wire (2). The fixing portion is provided with an assembly structure for being assembled with the electric device. The connecting portion is provided with a boss (13) formed by punching the connecting portion for connecting with the wire (2). The wire connection terminal is used for directly welding processing by matching a welding fixture, so as to improve the processing accuracy of the terminal, and avoid brittleness and breakage caused by stress concentration of the terminal.

A vehicle window glass comprises a glass substrate layer, an electrically conductive layer forming a conductive pattern over the glass substrate, a lead-free solder layer on the conductive layer and a metal plate element of an electrical connector on the solder layer. Optionally a coloured ceramic band layer is sintered between the glass substrate layer and the conductive layer. The thickness of the metal plate element is between 0.5 mm and 0.7 mm.

A vehicle window glass comprises a glass substrate layer, an electrically conductive layer forming a conductive pattern over the glass substrate, a lead-free solder layer on the conductive layer and a metal plate element of an electrical connector on the solder layer. Optionally a coloured ceramic band layer is sintered between the glass substrate layer and the conductive layer. The thickness of the metal plate element is between 0.5 mm and 0.7 mm.

The present invention relates to an interface-forming device (x60) and a method for providing an electrically conductive power transmission interface (x30) on the end surface of a power cable (xOO) having at least two separate wires (x02) being electrically conductive, the cable (xOO) further comprising a reactive compound different from the wires (x02) for providing further features to the power cable (xOO). The method comprises the steps of providing an end section of the power cable (xOO), the end section comprising wires (x02) having wire ends, the end section further having the reactive compound, and successively adding electrically conductive particulates (x67A) onto the end section by bringing the conductive particulates being dispersed in a carrier fluid of a different material than the conductive particulates into contact with the end section. Thereby, cable joining and terminations are achieved of a higher quality.

A power semiconductor module has a substrate, with power semiconductor components, and a DC voltage connecting device, which has a first and a second flat conductor connecting element and at least one first metal layer connecting element and at least one second metal layer connecting element, wherein the second flat conductor connecting element is arranged spaced apart in the normal direction of the first flat conductor connecting element from the first flat conductor connecting element, the first flat conductor connecting element is electrically connected by the first metal layer connecting element and the second flat conductor connecting element is electrically connected by the second metal layer connecting element to the metal layer, the first flat conductor connecting element has a flat conductor end section and a flat conductor connection section arranged between the one first metal layer connecting element and the flat conductor end section.

A glass plate module according to the present invention is a glass plate module to which a wire for supplying electric power is capable of being joined and includes a glass plate, a heating wire disposed on the glass plate, and an electricity supply portion that is disposed on the glass plate and supplies electric power to the heating wire. The electricity supply portion is formed using conductive print that contains, as a main component, metal microparticles whose thermal expansion coefficient is larger than that of the glass plate, and the electricity supply portion is thinner than the heating wire.

A piston assembly for a spring-loaded contact, comprising a piston body, arranged to be received into a guiding cylinder of the spring loaded contact, a piston head, with a contacting surface arranged for contacting an external part, a clip arranged to mate with a conductive portion of the spring loaded contact, wherein the piston body comprises a through hole, the clip being arranged into the through hole, and wherein the piston head is attached to the piston body by an ultrasonic welded portion.

An electrical connection terminal and an electrical connection assembly are disclosed. The electrical connection terminal has a base, and a plurality of tabs connected to the base. The plurality of tabs are separated from each other, and each of the plurality of tabs is adapted to mate with a mating terminal in a plug-in manner. In the present invention, the electrical connection terminal adopts a plurality of parallel tabs, so the length of the electrical connection terminal and the current flow path through the electrical connection terminal are reduced. Therefore, the electrical connection terminal of the present invention has low body resistance, less heating and is more suitable for high current applications.

A method of manufacturing an electrical connector includes: contacting an end portion of a center conductor exposed in an end portion of a coaxial cable having the center conductor with a conductive contact; applying ultrasonic vibration to the end portion of the center conductor and the contact to join the end portion of the center conductor and the contact each other; and accommodating the contact in an insulation housing after the end portion of the center conductor and the contact are joined to each other, and covering at least a part of a joint of the end portion of the center conductor and the contact with the insulation housing.

A cable assembly is provided and includes a cable core including a first signal conductor and a second signal conductor separated by at least one insulator. The first and second signal conductor both include exposed segments extending forward from their respective insulator to a conductor end. The cable assembly includes a contact holder extending between a front and a rear. The cable assembly includes a first contact received in the corresponding channel of the contact holder. The first contact has a mating end and a terminating end. The cable assembly includes a first contact and a second contact received in their corresponding channel of the contact holder. The first and second contact have a mating end and a terminating end. The terminating end has a weld edge welded to the conductor end at a butt weld.