A terminal assembly is disclosed. The terminal assembly comprises a main body having a welding platform and a first electrical conductive member having a connection terminal. According to the present invention, a welded structure is formed between the main body and the first electrical conductive member by making the connection terminal be welded on the welding platform. Briefly speaking, when utilizing this terminal assembly to make two electrical nodes be electrically connected to each other, one electrical conductive end of the main body and the first electrical conductive member are firstly connected to the two electrical nodes, respectively. Next, a welding process is applied to the welding platform and the connection terminal, such that an electrical connection is therefore established between the two electrical nodes.

A method of manufacturing a female terminal includes: (i) cutting a portion located at a side of one end of a tubular member into an L-shape when viewed from a direction intersecting with an axial direction of the tubular member to form an electric wire connection portion at the side of the one end of the tubular member and form as a terminal contact portion a portion remaining in a tubular shape at a side of the other end of the tubular member; and (ii) electrically connecting a core wire exposed from an end of an electric wire to the electric wire connection portion.

A method for manufacturing a wiring system includes providing an electric cable having an electric conductor and a contact element with a termination portion, and removing a cable insulation in a first sub-portion of the electric cable. The cable insulation remains on the electric conductor in a second sub-portion of the electric cable offset from the first sub-portion. The electric conductor is welded at the first sub-portion to a termination surface of the termination portion. The first sub-portion is pressed against the termination portion and compressed during welding. A holding device encompasses the second sub-portion at least partially. The holding device supports the second sub-portion at least during the welding and compressing of the first sub-portion and maintains a position of the second sub-portion.

The present disclosure is for an electrical connector assembly for a vehicle, among other apparatuses known in the art utilizing electrical connectors. The electrical connector assembly is comprised of a connector body and a terminal coupled to the connector body. The electrical connector assembly also comprises a wire harness having a lead. A connector is coupled to the lead and to the terminal, and the connector establishes an electrical connection between the lead and the terminal. The connector and the terminal each have a portion that forms one end of a poka-yoke connection. The connector and the terminal are welded to secure and maintain the respective electrical connection.

A connection structure for an electric wire includes an electric wire that has a conductor and an outer sheath covering the conductor; a bonding member that is made of a conductive metal material and is attached to the electric wire and; and a busbar that is made of a conductive metal material and on which the bonding member is overlapped and ultrasonically bonded with the conductor interposed between the busbar and the bonding member. The bonding member includes a crimping portion for crimping and fixing the electric wire.

A power socket includes a power socket body extending between a first end and a second end and having a tube being tubular shaped along at least a portion of the power socket body. The power socket includes a power pin termination at the first end and a cable termination at the second end. The power pin termination includes a socket configured to receive a mating end of a power pin and a spring band contact received in the socket having a plurality of mating interfaces. A first edge of the power socket body is rolled inward to form a retaining lip to retain the spring band contact in the socket. The cable termination includes a deformation terminated to an end of a cable conductor of a cable to electrically connect the power socket to the cable. The deformation transforms the tube from a tubular to a deformed shape.

A cable assembly includes a plug receiver, a conductor interface, a metal shell encasing the conductor interface and a portion of a cable of the cable assembly, a metal foil that wraps conformably around an exterior of the metal shell, wherein the metal foil covers substantially all of the exterior of the metal shell and extends beyond the metal shell onto a cable shielding layer. The cable assembly further includes a solder layer disposed about the metal foil, wherein the solder layer bonds and electrically couples the first foil portion to itself, the second foil portion to cable shielding at the location on the plurality of conductors that is proximate to the conductor interface, and the third foil portion to the plug receiver. The cable assembly further includes an electrically insulating layer that encases the metal shell, the metal foil, and the solder layer.

An electrical terminal includes a base portion having a base portion outer surface, a base portion inner surface, and two securing tabs extending from an edge of the base portion. The electrical terminal also an attachment portion having an attachment portion outer surface an attachment portion inner surface. The base portion inner surface is proximate the attachment portion inner surface and wherein the two securing tabs overlay the attachment portion outer surface. The electrical terminal may be especially well suited for making an electrical connection to components disposed on a glass surface. A method for forming such a terminal is also presented.

A clamping system for an ultrasonic welding apparatus configured to clamp a contact element in the ultrasonic welding apparatus is presented. The contact element has a flat elongate shape and a welding region, a clamping region, and a contacting region arranged along a longitudinal axis. The clamping system includes two clamping units mechanically connected to the ultrasonic welding apparatus which are arranged spaced apart from one another and are moveable toward one another. Each clamping unit defines a clamping finger which is movable to extend over the clamping region. Each clamping finger has a clamping face that is configured to press on a surface of the clamping region that is located opposite an anvil of the ultrasonic welding apparatus while in a clamped state.

A method for producing an electrical line arrangement with an electrical conductor and an electrical contact element to be connected thereto includes preparation of the exposed conductor, affixing of a casing open on its two front sides up to the exposed conductor, and forming of a first firmly bonded connection between the exposed conductor and an interior perimeter section of the casing by friction stir welding, by introducing a reaming tool from one front side into the casing and rotating the tool relative to the casing and to the conductor. Additionally, the method includes forming of a second firmly bonded connection between the casing and the contact element.