An electrical connector includes an insulative connector housing including a longitudinal body portion and first and second pairs of opposing end portions. The body portion has a plurality of contact openings extending therein in an insertion direction for supporting a plurality of electrical contact terminals. The first and second pairs of opposing end portions extend from opposing ends of the body portion in the insertion direction. At least one end portion in each pair of opposing end portions includes a ridge extending in the insertion direction for guiding a cover latch along a side surface of the ridge and guiding a strain relief latch along an opposing side surface of the ridge. The ridge has an inclined top surface for resiliently deflecting a cover latch and an inclined side surface for resiliently deflecting a strain relief latch. The ridge has an end portion for latching onto a cover latch and a strain relief latch.

A connector for installation on a printed circuit board a contacting part has which includes at least two contact elements, each of which can be connected, on the connection side, to an individual conductor and, on the plug-in side, to a conductive track of the printed circuit board, wherein the connector a connection part which encloses the individual conductors and, in the region of each individual conductor, has a recess, into each of which a contact element engages for the electrical connection between individual conductor and contact element. The contacting part is formed in an injection molding process, wherein at least two contact elements having an insulation-displacement connector are inserted or engaged in the contacting part or are directly encapsulated, and the connection part is formed in an injection molding process, wherein at least two individual conductors, each having a cable sheath, are thus placed in an injection molding tool and are encapsulated.

An apparatus and method for crosstalk compensation in a jack of a modular communications connector includes a flexible printed circuit board connected to jack contacts and to connections to a network cable. The flexible printed circuit board includes conductive traces arranged as one or more couplings to provide crosstalk compensation.

An apparatus and a system for an insulation-displacement connection adapted for engagement with a multi-core cable for wiring electrical components operatively associated with a vehicle and a trailer.

A communication plug having a plug body and a plurality of contact pairs at least partially within the plug body, the contact pairs including an inherent asymmetric coupling between individual contacts of one of the contact pairs and other individual contacts of another of the contact pairs. Second asymmetric coupling elements are connected between the individual contacts of one of the contact pairs and the other individual contacts of another of the contact pairs. The second asymmetric coupling elements, when combined with the inherent asymmetric coupling, provide a balanced symmetric coupling between the individual contacts of one of the contact pairs and the other individual contacts of another of the contact pairs.

An electrical connector includes an insulative connector housing including a longitudinal body portion and first and second pairs of opposing end portions. The body portion has a plurality of contact openings extending therein in an insertion direction for supporting a plurality of electrical contact terminals. The first and second pairs of opposing end portions extend from opposing ends of the body portion in the insertion direction. At least one end portion in each pair of opposing end portions includes a ridge extending in the insertion direction for guiding a cover latch along a side surface of the ridge and guiding a strain relief latch along an opposing side surface of the ridge. The ridge has an inclined top surface for resiliently deflecting a cover latch and an inclined side surface for resiliently deflecting a strain relief latch. The ridge has an end portion for latching onto a cover latch and a strain relief latch.

The wearable device for sensing a motion parameter of a user includes a first protection cover, a module connector, a wire connecting member, a circuit board and a plurality of spring connectors. The wire connecting member has a plurality of first electrical contacts. The first protection cover is connected to the module connector. The circuit board has a plurality of second electrical contacts corresponding to the plurality of first electrical contacts. The plurality of spring connectors are electrically connected to the plurality of first electrical contacts and the plurality of second electrical contacts correspondingly to form a plurality of first electrical connections and a plurality of second electrical connections respectively, and are configured between the module connector and the circuit board to form a plurality of first pre-deformations.

Examples herein relate to printed circuit assemblies (PCA's). In one example, a PCA comprises a printed circuit board (PCB) having an elongated cut-out, the cut-out defining a first and a second opposite elongated edges on the PCB, a movable bracket having a standoff established on a surface of the movable bracket, the movable bracket connecting to the first and the second opposite elongated edges and a platform connector established on the PCB.

An electric motor, in particular a radiator fan motor of a motor vehicle, has a stator which is fitted with a rotating-field winding, and a rotor which is mounted such that it can rotate in relation to the stator. A converter electronics system is provided, wherein a number of contact elements for insulation-free or enamel-insulated connection contacts of at least one component of the converter electronics system and/or for enamel-insulated winding ends of the rotating-field winding are mounted on a printed circuit board. The contact elements are in the form of clamping contacts or insulation-displacement terminal contacts.

An electrical contact terminal includes a base portion for positioning and retaining the electrical contact terminal within a connector housing, an insulation displacement connecting portion extending upwardly from the base portion and comprising a pair of spaced apart arms defining an opening therebetween for receiving and making electrical contact with an electrical conductor, and a contact portion extending downwardly from the base portion and configured to float when the electrical contact terminal is retained and positioned within a connector housing. The contact portion includes a first arm, a second arm, and an arcuate base portion. The first arm extends downwardly and includes a first end attached to the base portion and an opposite second end. The second arm extends downwardly and includes a free first end closer to the base portion and an opposite second end farther from the base portion. The second arm is configured to deflect when making electrical contact with a mating contact pin. The arcuate base portion connects the second ends of the first and second arms.