The present invention relates to a temperature sensor (1) for an engine of a vehicle, comprising: a casing (1) containing a circuit board (14) and traversed by at least one pair (2) of wires (3) provided with terminals (8), the terminal (8) being made up of a portion (804) crimped onto a conductor (5) arranged in the casing (1), a connector (101) comprising at least one metal insert (10) ensuring the electrical connection with the circuit board (14), where the casing comprises at least one flange (9) for holding the terminals (8), the terminals (8) being folded.

An electrical connector for a multi-wire electrical cable includes at least two cable-side electrical contact elements, including associated terminals to each of which is to be connected a wire of the electrical cable, and at least two output-side electrical contact elements, from each of which projects an electrical connector element by which an electrical connection is establishable to a mating connector. A carrier body is disposed between the cable-side electrical contact elements and the output-side electrical contact elements. The cable-side electrical contact elements, the output-side electrical contact elements and the carrier body are disposed in a spaced-apart relationship to each other, and the cable-side and output-side contact elements are electrically connected to each other via an electrical device disposed on the carrier body.

An electrical connector for a multi-wire electrical cable includes at least two cable-side electrical contact elements, including associated terminals to each of which is to be connected a wire of the electrical cable, and at least two output-side electrical contact elements, from each of which projects an electrical connector element by which an electrical connection is establishable to a mating connector. A carrier body is disposed between the cable-side electrical contact elements and the output-side electrical contact elements. The cable-side electrical contact elements, the output-side electrical contact elements and the carrier body are disposed in a spaced-apart relationship to each other, and the cable-side and output-side contact elements are electrically connected to each other via an electrical device disposed on the carrier body.

A power semiconductor module has a substrate, load and auxiliary connector elements, and a plastic body, which preferably is a housing or a housing frame and which has a channel. The channel being for the arrangement of a compensating portion of a press-fit contact element. The press-fit contact element has a press-fit portion, a compensating portion and a foot portion, the compensating portion being elastic in a longitudinal direction of the press-fit contact element and having at least two O-shaped sub-portions arranged in succession in the longitudinal direction and having a constriction arranged between two sub-portions.

A power semiconductor module has a substrate, load and auxiliary connector elements, and a plastic body, which preferably is a housing or a housing frame and which has a channel. The channel being for the arrangement of a compensating portion of a press-fit contact element. The press-fit contact element has a press-fit portion, a compensating portion and a foot portion, the compensating portion being elastic in a longitudinal direction of the press-fit contact element and having at least two O-shaped sub-portions arranged in succession in the longitudinal direction and having a constriction arranged between two sub-portions.

A power semiconductor module has a substrate, load and auxiliary connector elements, and a plastic body, which preferably is a housing or a housing frame and which has a channel. The channel being for the arrangement of a compensating portion of a press-fit contact element. The press-fit contact element has a press-fit portion, a compensating portion and a foot portion, the compensating portion being elastic in a longitudinal direction of the press-fit contact element and having at least two O-shaped sub-portions arranged in succession in the longitudinal direction and having a constriction arranged between two sub-portions.

A power semiconductor module has a substrate, load and auxiliary connector elements, and a plastic body, which preferably is a housing or a housing frame and which has a channel. The channel being for the arrangement of a compensating portion of a press-fit contact element. The press-fit contact element has a press-fit portion, a compensating portion and a foot portion, the compensating portion being elastic in a longitudinal direction of the press-fit contact element and having at least two O-shaped sub-portions arranged in succession in the longitudinal direction and having a constriction arranged between two sub-portions.

A quick demountable high-reliability radio-frequency coaxial connector including a front shell and a rear protective jacket, a cavity of the front shell is internally provided with a front insulator and a central conductor, a first locating hole of a central axial position of the front insulator, the center of the front end of the central conductor is provided with a front protrusion, the front protrusion is arranged towards the first locating hole, a penetration hole is formed in a central part of the axial tail of the central conductor, the axial tail is a necking conical structure, the inner diameter of the outer end of the necking conical structure is smaller than that of an inner conductor of a cable, and meanwhile, the inner diameter of the inner end of the necking conical structure is larger than that of the inner conductor of the cable.

A quick demountable high-reliability radio-frequency coaxial connector including a front shell and a rear protective jacket, a cavity of the front shell is internally provided with a front insulator and a central conductor, a first locating hole of a central axial position of the front insulator, the center of the front end of the central conductor is provided with a front protrusion, the front protrusion is arranged towards the first locating hole, a penetration hole is formed in a central part of the axial tail of the central conductor, the axial tail is a necking conical structure, the inner diameter of the outer end of the necking conical structure is smaller than that of an inner conductor of a cable, and meanwhile, the inner diameter of the inner end of the necking conical structure is larger than that of the inner conductor of the cable.

A quick demountable high-reliability radio-frequency coaxial connector including a front shell and a rear protective jacket, a cavity of the front shell is internally provided with a front insulator and a central conductor, a first locating hole of a central axial position of the front insulator, the center of the front end of the central conductor is provided with a front protrusion, the front protrusion is arranged towards the first locating hole, a penetration hole is formed in a central part of the axial tail of the central conductor, the axial tail is a necking conical structure, the inner diameter of the outer end of the necking conical structure is smaller than that of an inner conductor of a cable, and meanwhile, the inner diameter of the inner end of the necking conical structure is larger than that of the inner conductor of the cable.