An electrical connector includes at least two electrical connector elements extending side by side along a longitudinal direction, each of the electrical connector elements being connectable to a respective wire of an associated electrical cable. An electrical device is in electrical contact with the respective electrical connector elements. A flexible carrier bears inwardly against the electrical connector elements. The electrical device is mounted on an inner side of the flexible carrier which faces the connector elements.

An electrical connector includes at least two electrical connector elements extending side by side along a longitudinal direction, each of the electrical connector elements being connectable to a respective wire of an associated electrical cable. An electrical device is in electrical contact with the respective electrical connector elements. A flexible carrier bears inwardly against the electrical connector elements. The electrical device is mounted on an inner side of the flexible carrier which faces the connector elements.

An electronic component unit of a wire harness includes a substrate on which an electronic component is mounted, a connector electrically connected to the substrate, and a connector fixing structure. The connector fixing structure includes a pair of notches that are provided facing each other on the substrate in a facing direction; a pair of press fitting plates that are provided on the connector and press-fitted into the respective notches; a positioning rib formed projecting from each of the press fitting plates toward the inside in the facing direction, having a width smaller than the width of the press fitting plates, and brought into contact with the substrate while the press fitting plates are press-fitted into the respective notches; and a deformation acceptable space provided adjacent to the outside of the press fitting plates that are press-fitted into the respective notches, in the facing direction.

A connector (100) is disclosed that includes a housing (2) having a length, a width, a first end wall (15), a second end wall (19), and a plurality of first (17) and second (18) grooves disposed on upper-portion main surface and bottom-portion main surface of a base (2). The grooves receive pluralities of first (70) and second (71) insulated conductors, respectively. A plurality of terminals (16) make contact with the first and second insulated conductors so that the first insulated conductors and the second insulated conductors are electrically connected to each other.

An electrical connector includes at least two electrical connector elements extending side by side along a longitudinal direction, each of the electrical connector elements being connectable to a respective wire of an associated electrical cable. An electrical device is in electrical contact with the respective electrical connector elements. A flexible carrier surrounds the electrical connector elements annularly in cross section, and the electrical device is mounted on an inner side of the flexible carrier which faces the connector elements.

A universal cable system includes a cable, which may include a keyed profile and an optional, integrated pull cable for low-voltage applications in residential and commercial structures, both old and new construction, which may further includes a connector, which does not require individual splicing of the wires from the cable. The connector may be self-crimping or crimped with a tool. During installation of the connector onto the cable, conductors in the connector may be simultaneously spliced to the wires of the cable during crimping.

A connector assembly for voltage monitoring of bus bars electrically connecting adjacent battery cells of a battery module includes a connector having a plurality of terminals configured to be mated with a control module connector associated with the battery module. A multi-wire planar cable extends from the connector. The multi-wire planar cable has a plurality of wires terminated to corresponding terminals and a common jacket for the plurality of wires. The jacket has grooves between adjacent wires for controlled separation of the wires and surrounding jacket portions at a sensor end of the multi-wire planar cable to define separated planar cable segments. The separated planar cable segments are routed to different areas for termination to different voltage sensors associated with corresponding bus bars.

An assembly includes a housing, a flat cable, and a spring terminal, in some configurations. The flat cable may be disposed at least partially in the housing and may include an electrical conductor. The spring terminal may be disposed at least partially in the housing. The spring terminal may include a base, a first wing extending from the base in a first direction, a second wing spaced apart from the first wing, a spring portion extending from the base in a second direction, and a tab extending from the base. The first wing and the second wing may extend through the flat cable such that the spring terminal is electrically connected to the electrical conductor. The spring portion may connect with an external electrical component such that the external electrical component is electrically connected to the electrical conductor.

An electrically adjustable table system includes a table, at least one electric drive for adjusting the table, a voltage supply, a control and a bus system. The at least one drive, the voltage supply and the control are connected to the bus system. The bus system comprises multiple multiwire cable sections, which are electrically connected to one another via insulation displacement connectors.

A thin type lock and unlock connector include a first shell, a second shell and a first insulator, which are buckled and combined with each other by the respective provided first fixing members to form a connector that can be connected to a flexible printed circuit board. The second shell provides a first locking member and a first elastic member to lock the flexible printed circuit board to the connector. When an external force is applied to the first pressing part of the first shell, it acts on the locking member to unlock the flexible printed circuit board that the flexible printed circuit board can be detached from the connector. The first insulator provides an action portion with a slope to be arranged corresponding to the first locking member, to determine the deformation stroke of the first locking member.