A functional contactor is provided. A functional contactor according to an exemplary embodiment of the present invention comprises; a clip-shaped conductor having elasticity which is in electrical contact with a conductor of an electronic device; a functional element which is electrically connected to the clip-shaped conductor in series via a solder and comprises a first electrode and a second electrode respectively provided on the entire upper and lower surfaces thereof; and an arrangement guide which is formed to surround at least a part of the clip-shaped conductor on the upper surface of the functional element so as to arrange the position of the clip-shaped conductor and is made of nonconductive resin.

The invention relates to an electric contact assembly for electrically contacting a printed circuit board or the like, comprising an installation ring (3) with an opening (3a), said installation ring (3) being designed to be fixed to the printed circuit board (11), and comprising a press-in pin (2) with a first zone (21) and a second zone (22), wherein the first zone (21) has a greater degree of mechanical flexibility than the second zone (22), and the first zone (21) is designed to be connected to another electronic component. The second zone (22) is assembled in the opening (3a) of the installation ring (3) by means of a first interference fit (4).

A contact pad is provided. The contact pad may be a strip-shaped component and forms at least one opening. A circuit device is also provided. The circuit device has a circuit board, at least one contact pad as mentioned above, and a cable. The contact pad is mounted on the circuit board as a connecting spot. The cable has at least one wire. The wire is mounted on the contact pad and covers the opening of the contact pad. An interval is formed in the opening and between the circuit board and the wire. With such structure, a capacitance formed between the wire and the circuit board may be the smallest and the impedance value may be the largest. Besides, the capacitance value can be adjusted via changing the material inside the interval or an area of the contact pad or the opening.

A welder containing a weld part, a clamp and a number of tools that is for welding metal wires end-to-end to one another. The tools have a tool indicator that is either in complete or in non-complete condition, and can be processing tools used to finish the weld or testing tools allowing testing the weld once finished. Before starting the welding the first metal wire is held in the clamp. By that action all tool indicators are set to the non-complete condition. When a processing tool has been used, its processing tool indicator is set to complete. When the weld has passed the specification of a testing tool, the testing tool indicator is set to complete. When each processing and testing tool indicator is set to complete the clamp will open. In this case it is sure that the operator has done all necessary steps and checks on the weld.

Ultrasonic welding device having a sonotrode (28) and an anvil (26), in which a flat part and at least one joining part are arranged between the sonotrode (28) and the anvil (26) during ultrasonic welding, and wherein a fastening element is held in a positively locking manner between the flat part and the joining part, and a damping element (22) that presses on the fastening element (8a) is provided, which is pressed on the fastening element in such a way that a relative movement between the fastening element and the flat part and/or the joining part is restricted during ultrasonic welding.

Provided are a coil device that considerably reduces the man-hours and the cost for manufacturing, and a motor-driven valve and a solenoid valve including such a coil device. The terminal end of the magnet wire is fixed to a conducting terminal by swaging and/or fusing at a distal-end binding part for binding the terminal end of the magnet wire.

A power distribution unit including an elongate housing and a power input penetrating said elongate housing. The power input can comprise a ground buss wire, a neutral buss wire and at least one line buss wire. A plurality of electrical outlets can be disposed along the housing. Each electrical outlet can comprise a receptacle and a plurality of spaced apart outlet pins protruding from the receptacle. The plurality of outlet pins can include a ground outlet pin receiving the ground buss wire, a neutral outlet pin receiving the neutral buss wire, and a line outlet pin receiving the line buss wire.

The connection structure connecting a core wire exposed, on the end side of a covered electric wire with an insulating covering portion covering the outer periphery of the core wire, from the insulating covering portion to a bus bar. On the end side of the covered electric wire, an auxiliary terminal including an electric wire grasping portion which grasps the insulating covering portion of the covered electric wire and a core wire protecting portion provided so as to extend from one end of the electric wire grasping portion is attached. The core wire protecting portion includes a base on which the insulating covering portion is placed and welded pieces which are provided so as to extend from the base and disposed near the core wire exposed from the insulating covering portion, and the welded pieces are welded to one face of the bus bar along with the exposed core wire.

A method for producing a current conducting device, a junction box for a vehicle battery, and a motor vehicle having a corresponding junction box. In the method, multiple busbars are positioned in a predetermined location in relation to one another and then enclosed using an electrically insulating plastic cladding. In this case, a respective opening of the plastic cladding is left open in a respective connection region, in each of which at least two of the busbars meet one another. The busbars are then welded to one another in a respective region of the opening.

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.