A communication connector includes a housing defining a plug receiving space with a circuit board arrangement supported by the housing, which has pairs of communication paths associated with a plurality of contact pads. A spring contact arrangement includes a support/guide and a spring contacts. Each spring contact has a supported/guided portion, an extending end, an intervening pad contact portion contacting a pad, between the supported/guided portion and the extending end, a spring arm portion between the supported/guided portion and the pad contact portion and having a contact portion, with a plug contact surface, between the pad contact portion and the extending end. The plug contact surface is positioned in the plug receiving space in an unmated state. In plug mated state a deflection of the contact portion causes a relative deflection of the spring arm portion.

A cabling system and method for connecting, to a plurality of electronic printed circuit boards, a common electrical cable, a grounding cable, and respective electrical board wires, or power supply cables. The system comprises a bundle of electrical cables, and a plurality of multipolar, insulation-piercing connectors placed in succession along said bundle of cables. Each of the connectors is suitable to receive the common electrical cable, the board cable to be connected to the respective electronic board, and the board cables that must be connected to the successive connectors, and is suitable to transmit to a successive insulation-piercing connector, the common electrical cable and the board cables that must be connected to the successive connectors.

Shielded keystone jack structure is for connection of a plurality of wires of a first cable to be terminated to a second cable. The shielded keystone jack structure includes a front housing, terminal connection unit, wire organizer, cover, and rear housing. The front housing includes a front portion having an opening for insertion of the second cable; and an accommodation portion. The terminal connection unit has wire contacts, piercing terminals, a first guiding element, and first positioning parts. The wire organizer having wire-receiving slots for attachment of the wires thereto, as disposed on the terminal connection unit carried by the front housing, is moved towards the piercing terminals along a path at least defined by the first guiding elements and first positioning parts for termination of the wires when the cover is pivoted to a closed position. The rear housing is used for being attached to the front housing.

A wire cable assembly, such as those used in electric or hybrid electric vehicles, having a plurality of shielded wire cables that are spliced together is presented. The assembly includes a splicing device having a generally planar bus bar formed of a conductive material, wherein the exposed core conductors of the shielded wire cables are welded to the bus bar, thereby electrically interconnecting the exposed core conductors. A conductive sleeve encloses bus bar and interconnects the shield conductors of the shielded wire cables, providing shielding for the exposed core conductors and continuity for the shield conductors. An outer insulator enclosing the conductive sleeve. A method of splicing shielded wire cables using such a device is also presented herein.

A flat electrical cable is described. The cable includes a plurality of equally spaced substantially parallel electrical conductors lying in a same plane and extending along the length of the cable. Each conductor has a same diameter D. The cable further includes a common unitary electrically insulating layer encapsulating the plurality of conductors. The insulating layer includes a plurality of cover portions where each cover portion is concentric with a corresponding conductor and has a radial thickness t. t/D is in a range from about 0.50 to about 1.25.

Provided a connector for establishing an electrical connection between an electrical conductor and a printed circuit board. The connector includes an insulating element which has a plurality of cavities for accommodating contact elements. The printed circuit board can be inserted in the connector via a slot in a connection face of the insulating element and can be connected to the first contact faces of the contact element provided in the connection face. Opposite the first contact face, the contact elements have a second contact face which is provided for the insulation-piercing contacting of the electrical conductor. The arrangement of the contact elements in the insulating element allows a particularly space-saving design of the connector.

An electrical connector for transmitting data signals between the insulated conductors of a first data cable and corresponding insulated conductors of a second data cable, including a first part having a socket shaped to at least partially receive a plug of said first data cable; a second part having a plurality of insulation displacement contact slots shaped to receive end sections of the conductors of the second data cable; and a plurality of electrically conductive contacts including resiliently compressible spring finger contacts extending into the socket for electrical connection with corresponding conductors of the first cable; insulation displacement contacts seated in corresponding insulation displacement contact slots for effecting electrical connection with corresponding conductors of the second data cable; and mid sections extending therebetween, wherein relative movement between the mid sections of the contacts is inhibited by a fastener.

A connector includes a cable tray configured to receive and retain a cable in a stable position and couple with a top cap configured to create an electrical connection with the cable as the top cap is manipulated in a predetermined manner while coupled with the cable tray. An upper surface of the cable tray is configured to receive the cable. The cable tray also includes a finger extending beyond the first end for some distance longitudinally. The finger includes a protrusion that protrudes to some extent in a transverse direction so that a cable-accommodating gap is defined between the protrusion and the first end. The protrusion is configured to bear against the cable and retain the cable in the stable position when the cable is inserted between the protrusion and the first end (before, during and/or after an electrical connection is established).

A connector includes a cable tray configured to receive and retain a cable in a stable position and couple with a top cap configured to create an electrical connection with the cable as the top cap is manipulated in a predetermined manner while coupled with the cable tray. An upper surface of the cable tray is configured to receive the cable. The cable tray also includes a finger extending beyond the first end for some distance longitudinally. The finger includes a protrusion that protrudes to some extent in a transverse direction so that a cable-accommodating gap is defined between the protrusion and the first end. The protrusion is configured to bear against the cable and retain the cable in the stable position when the cable is inserted between the protrusion and the first end (before, during and/or after an electrical connection is established).

A joint connector and a wire harness in which a plurality of conductor portions exposed at ends of a plurality of covered electric wires can be reliably electrically connected to a joint portion of a joint terminal. They include a conductor holding member that has larger holes guiding cover portions of the covered electric wires so as to allow the cover portions abut from a side of one end face into which the covered electric wires are inserted and smaller holes allowing the conductor portions protruding from the cover portions to pass through to another end face.