The invention relates to a direct plug-in connector (1) for establishing an electric connection between a conductor (30) and a metallized through opening (40) of a printed circuit board (50). The direct plug-in connector (1) has a fastening element (4) and a contact (2) with at least one first contact arm (3a). The first contact arm (3a) is configured for the electric connection of the conductor (30) to the metallized through opening (40). The fastening element (4) can assume a fastening position and a release position, the fastening element (4) being configured to fasten the direct plug-in connector (1) to the metallized through opening (40) in the fastening position.

An electrical connection device includes a first connector and a second connector. The first connector includes an insulative body and a plurality of first terminals provided to the insulative body, the insulative body has an insertion groove, a first insertion opening which is communicated with the insertion groove and toward a first direction, a second insertion opening which is communicated with the insertion groove and toward a second direction and a stopping block which is positioned between the first insertion opening and the second insertion opening, the stopping block has a first stopping face which faces the first direction and a second stopping face which faces the second direction. The second connector includes an insulative housing and a plurality of second terminals provided to the insulative housing, the insulative housing has a mating portion and a contacting surface, when the second connector is mated with the first connector along the first direction, the mating portion is inserted into the insertion groove from the first insertion opening, and the contacting surface is stopped by the first stopping face of the stopping block, when the second connector is mated with the first connector along the second direction, the mating portion is inserted into the insertion groove from the second insertion opening, and the contacting surface is stopped by the second stopping face of the stopping block.

An electrical connector assembly includes an electrical connector and a metal casing. The electrical connector includes an insulating body and a number of conductive terminals. The insulating body includes a slot. Each conductive terminal includes an abutting portion. The metal casing includes a receiving cavity. When a mating connector is inserted into the receiving cavity and has not yet made contact with the conductive terminals of the electrical connector, a better shielding effect can be achieved. Some of the abutting portions are adapted for electrically connecting with a circuit board, and some of the abutting portions of the conductive terminals are connected with a cable. The metal casing includes a hook portion locking with a lock surface of the circuit board. Therefore, the metal casing can be prevented from detaching from the circuit board in case an external force is applied to pull the cable.

A connector includes: a terminal part including a terminal fitting and a housing; and a first end part and a second end part configured to be arranged on the substrate in an arrangement direction. The terminal part includes a first locking portion provided in the housing and configured to be locked to adjacent parts on both sides in the arrangement direction. Each of the first end part and the second end part includes: a fixing portion configured to be fixed to the substrate; and a second locking portion configured to be locked to the first locking portion of an adjacent terminal part in the arrangement direction. The first end part, the terminal part, and the second end part are connected while being arranged in this order on the substrate.

An electrical circuit board plug contact device includes an electrical circuit board contact element and an electrical plug contact element formed separately from the electrical circuit board contact element. The electrical plug contact element is laterally offset with respect to the electrical circuit board contact element and an electrically conductive connection is provided between the electrical circuit board contact element and the electrical plug contact element.

A high voltage side hold-down includes a flat-plate shaped reinforcing plate part, a solder leg projecting downward from the reinforcing plate part, and a hold-down elastic piece supported like a cantilever beam by the reinforcing plate part. The hold-down elastic piece includes an elastic piece body, a contact part projecting upward beyond a CPU board opposed surface, and a displacement restriction part for restricting upward displacement of the contact part, sequentially from the base to the end of the hold-down elastic piece. A housing is formed in such a way that the contact part does not come into contact with the housing when the contact part is displaced downward and no longer projects upward beyond the CPU board opposed surface.

A connector is mounted on an input-output board. The connector is interposed between the input-output board and a CPU board, and thereby a plurality of pads of the input-output board and a plurality of pads of the CPU board are respectively electrically connected. The connector includes a rectangular flat-plate housing having a first positioning hole and a second positioning hole, and at least one contact row held on the housing. The first positioning hole is formed at a first housing corner part of the housing. The second positioning hole is formed at a fourth housing corner part, which is at a diagonal position with respect to the first housing corner part, of the housing.

A printed circuit board plug-in connection is provided for transmitting the highest possible currents between a printed circuit board and an electrical cable, the printed circuit board plug-in connection being manufactured as simply and economically as possible. For this purpose, a plug-in connection having a slotted pin contact is proposed. Said pin contact is arranged in an insulating body and can be inserted directly into a passage contact opening of a printed circuit board in order to establish electrical contact. The insulating body has detent arms, which releasably engage in detent openings of the printed circuit board in a locking manner at the same time. By means of dovetail connections, several insulating bodies can be fastened to each other, i.e., can be cascaded with each other. A strain relief element can also be fastened to an insulating body by means of the dovetail connection in order to provide strain relief for individual conductors of the cable.

A connector includes mounting tabs that are extended relative to traditional mounting tabs. On a back side of the printed circuit board (PCB), the mounting tabs connect to a back plate. The mounting tabs extend through the PCB and connect with the back plate, which provides improved structural integrity. Depending on the connector, the use of the mounting tabs can use existing mounting holes for the connector and remove the need for additional mounting holes.

A socket structure is provided and includes a circuit board, an insulating base, a pin and a conductive component. The insulating base is disposed on the circuit board and includes a first side and a second side opposite to each other. The pin is disposed between the first side and the second side. The conductive component is connected between the circuit board and the insulating base and includes a first arm, a second arm and a connecting part. The first arm and the second arm are connected to each other through the connecting part. The first arm is fixed on the second side of the insulating base and connected to the pin and includes a first fixing end connected to the circuit board. The second arm includes a second fixing end connected to the circuit board.