A connector is provided with a plurality of terminal fittings (10), a holding member (20) configured such that the plurality of terminal fittings (10) are arranged in parallel therein, a circuit board (90) to which the plurality of terminal fittings (10) are connected, and a housing (50) for holding the holding member (20). The connector is manufactured by successively performing an arranging step of arranging the plurality of terminal fittings (10) in parallel in the holding member (20), a reflow step of reflow-connecting the plurality of terminal fittings (10) to the circuit board (90) and a holding step of holding the holding member (20) in the housing (50).

A receptacle connector having a plurality of airflow holes positioned to avoid heat buildup inside a receptacle shell, preventing deformation to the housing of a short, high density connector during solder reflow. The airflow holes may be in a bent portion joining a top face and rear face of the shell. The receptacle connector may be mounted to a substrate, such as a printed circuit board, leaving a gap between the connector and the substrate, forming an airflow passage between the substrate and the receptacle connector, enabling heated air to reach mounting portions of terminals of the connector during soldering, but reducing heat buildup within the shell. The passage, alone or in combination with a cutout in a face of the shell, may expose terminal contacts of the receptacle connector to provide for easy inspection and rework of the solder joints between the terminal contacts and the substrate.

An electrical connector includes an insulative housing with a plurality of passageways extending through opposite upper and lower surfaces thereof, and a plurality of contacts retained in the corresponding passageways, respectively. The contact includes a main body, a spring arm extending from an upper end of the main body with a contacting section at a free end region thereof, and a tab extending upwardly from the main body for assembling the contact into the corresponding passageway. An auxiliary part extends from a side edge of the main body at an angle with a solder pad at the bottom end for securing a solder ball thereto. The tab is dimensioned to allow a fixture to grasp thereon for applying a downward force thereto during downwardly inserting the contact into the passageway, and is optionally adapted to be removed when the contact is moved to almost the final position.

A cable connection board includes a signal layer disposed inside a board, a first layer and a second layer disposed inside the board with the signal layer being interposed therebetween, a cable coupled to the board so as to extend to a first surface of the board, a first solder joint portion that joins an outer conductor included in the cable and the first layer to each other, and a second solder joint portion that joins a front end of an inner conductor included in the cable and the signal layer to each other in the board.

A mounting cable includes: a coaxial cable including: a core wire made of a conductive material; an internal insulator covering an outer periphery of the core wire; a shield covering an outer periphery of the internal insulator; and a jacket covering an outer periphery of the shield with an insulator, the coaxial cable having one end portion on which the core wire, the internal insulator and the shield are exposed; a cable fixing unit that fixes one end portion of the exposed core wire and has a connection surface on which an end face of the core wire is exposed; and a conductor having one end electrically and mechanically connected to the exposed shield and having the other end fixed to the cable fixing unit. An end portion of the conductor is exposed on the connection surface of the cable fixing unit.

A connection element for an electronic component assembly includes a support, a first contact pad, and a second contact pad. The first contact pad and the second contact pad are electrically connected. A first contact conductor has a first conductor surface electrically connected to the first contact pad at a first section, and is configured to form a welded connection in a second section of the first conductor surface, and/or on the second conductor surface. The invention also relates to an electronic component assembly which includes such a connection element, and which has at least one component welded to the contact conductor.

A device for detecting a connector mounting failure includes a detection unit and a connection member that interconnects the detection unit and a connector device. The connection member includes a connection connector inserted into and seated in the connector device, and a connection line unit that interconnects the connection connector and the detection unit. The connection line unit also delivers a detection value of the connection connector to the detection unit.

An electrical connector includes a plurality of connector units each having a base, a first pin, a second pin, and a soldering pad. The connector units may be linked together to form an array of connector units by a plurality of bridges that connect the bases of successive connector units. The bases of the connector units may be embedded in a plastic carrier material. The bridges and the portions of the bases to which the bridges connect may be positioned in the carrier unit such that they may be cut away from the rest of the electrical connector. The soldering pads and soldering ports of the first pins are configured to be soldered to a printed circuit board, resulting in two rows of electrically independent pins soldered to a single printed circuit board. A housing may be used to isolate the circuit board from forces applied to the pins.

A core wire of a coaxial cable is easily placed and soldered onto a conductive joint portion. Conductive joint portions 2 are formed at a predetermined interval on a substrate 1. A solder resist portion 5 is formed on each side of the conductive joint portion 2. A core wire 41 of a coaxial cable 4 is housed between two of the solder resist portions 5. A core wire 41 is placed on an upper surface 2a of the conductive joint portion 2. In this state, the core wire 41 is, by solder 3, connected to the upper surface 2a of the conductive joint portion 2.

An arrangement for connecting electrical connections, in particular through a housing, for a device for driving a compressor with a connection arrangement with at least one electrically conductive connecting element and at least one contact device, fixed in a PCB, for mounting the connecting element in an axial direction. The contact device exhibits at least one spring contact element with elastically de-formable lamellar contact springs that are in electrically conductive contact with the connecting element. Furthermore, the invention relates to a method for mounting the arrangement for connecting electrical connections, a device for driving a compressor of a vaporous fluid, in particular an electric motor, with the arrangement and a use of the device according to the invention.