The technology of this application relates to a connector assembly including a metal housing, a conducting piece, a wire, and a shield layer. The metal housing includes a shield cavity. The conducting piece is accommodated in the shield cavity. The wire is partially located in the shield cavity and is electrically connected to one end of the conducting piece. The shield layer is wrapped around the wire. At least two electrical connecting parts are disposed on an outer surface of the shield layer. The at least two electrical connecting parts face different directions and are respectively electrically connected to parts, of the metal housing, that the at least two electrical connecting parts face, to reduce impact of crosstalk of the connector assembly. The connector assembly is intended to reduce impact of crosstalk of the connector assembly, to provide the connector assembly and the electronic device that meet an application requirement of 112 Gbps.

The technology of this application relates to a connector assembly including a metal housing, a conducting piece, a wire, and a shield layer. The metal housing includes a shield cavity. The conducting piece is accommodated in the shield cavity. The wire is partially located in the shield cavity and is electrically connected to one end of the conducting piece. The shield layer is wrapped around the wire. At least two electrical connecting parts are disposed on an outer surface of the shield layer. The at least two electrical connecting parts face different directions and are respectively electrically connected to parts, of the metal housing, that the at least two electrical connecting parts face, to reduce impact of crosstalk of the connector assembly. The connector assembly is intended to reduce impact of crosstalk of the connector assembly, to provide the connector assembly and the electronic device that meet an application requirement of 112 Gbps.

The disclosure relates to electronics of an electric motor of a motor vehicle, having a connection unit that is placed in electrical contact with a circuit board and attached thereto. The connection unit has a number of leadframes that are stabilized with respect to one another. The connection unit at least partly forms a connector socket for a mating connector, and the connection unit at least partly forms a contact point for an electromagnet of the electric motor.

A wafer test device and methods of assembling a wafer test device involve a first laminate structure, and a second laminate structure arranged to interface with a microcircuit of the wafer. The wafer test device includes a compliant layer between the first laminate structure and the second laminate structure. The compliant layer includes an elastomer that exhibits compliance within a limited range of movement.

A wafer test device and methods of assembling a wafer test device involve a first laminate structure, and a second laminate structure arranged to interface with a microcircuit of the wafer. The wafer test device includes a compliant layer between the first laminate structure and the second laminate structure. The compliant layer includes an elastomer that exhibits compliance within a limited range of movement.

The present disclosure provides an electrical connector comprising an insulating body, a terminal component, and a fixing component. The insulating body comprises a mating slot. The terminal component is disposed in the mating slot. The terminal component comprises a pair of first terminal members and a pair of second terminal members. The pair of first terminal members are disposed between the pair of second terminal members. Each of the first terminal members comprises a plurality of first elastic contacting parts and a cable connecting part. Each of the second terminal members comprises a plurality of second elastic contacting parts. The plurality of second elastic contacting parts correspondingly abut against the plurality of first elastic contacting parts. The fixing component fixes the pair of the first terminal members and the pair of the second terminal members. A cable is directly connected to each of the cable connecting parts.

A method of assembling a water-in-fuel sensor assembly. The method includes an initial step of providing a housing that has a recess, at least one pin located within the housing, a circuit board, and at least one terminal configured for engaging the at least one pin. The method also includes forming a board-mounting subassembly by coupling the at least one terminal to the circuit board. The method also includes positioning the board-mounting subassembly within the housing by engaging the at least one terminal with the at least one pin such that the board-mounting subassembly is disposed within the recess of the housing.

A split housing connector assembly provides integrated terminal position assurance and an independent secondary lock and includes a nosepiece and a rear housing. In a pre-lock configuration, a plurality of wire terminal bays are aligned to allow insertion of wire terminals and wherein in a locked configuration the rear housing is displaced relative to the nosepiece offsetting the wire terminal bays and blocking removal of the wire terminals. The rear housing engages the nosepiece along a cam track to guide relative movement during assembly.

A split housing connector assembly provides integrated terminal position assurance and an independent secondary lock and includes a nosepiece and a rear housing. In a pre-lock configuration, a plurality of wire terminal bays are aligned to allow insertion of wire terminals and wherein in a locked configuration the rear housing is displaced relative to the nosepiece offsetting the wire terminal bays and blocking removal of the wire terminals. The rear housing engages the nosepiece along a cam track to guide relative movement during assembly.

A connector arrangement includes a plug nose body; a printed circuit board positioned within a cavity of the plug nose body; and a plug cover that mounts to the plug nose body to enclose the printed circuit board within the cavity. The printed circuit board includes a storage device configured to store information pertaining to the electrical segment of communications media. The plug cover defines a plurality of slotted openings through which the second contacts are exposed. A connector assembly includes a jack module and a media reading interface configured to receive the plug. A patch panel includes multiple jack modules and multiple media reading interfaces.