An electrical connector for grounding a multicore cable having a shield includes a spring terminal engaging the shield and an insulation displacement connection (IDC) terminal terminating a ground wire. The shield is grounded through the electrical connector.

A connector comprises a locator configured to position a cable. The locator has a front-end surface, a first surface and a second surface and is formed with a positioning groove. The first surface and the second surface are located at opposite sides of the locator, respectively, in the upper-lower direction (Z-direction). The positioning groove has a front groove, a rear groove and a coupling groove. The front groove is recessed rearward from the front-end surface and extends from the first surface to the coupling groove along the upper-lower direction. The rear groove is recessed from the second surface along the upper-lower direction and extends rearward from the coupling groove. When the locator positions the cable, the front groove receives a front regulated portion of the cable, and the rear groove receives a rear regulated portion of the cable.

A modular initiator assembly comprising a receptacle and connector combination adapted to shunt the electrical contacts of the initiator as a default condition and to only unshunt the electrical contacts coupled to the initiator when the receptacle and connector establish a fully seated connection.

An electrical connector strip is adapted for structural applications in theater, television and entertainment industries. The connector strip includes an elongated rigid enclosure defining a hollow continuous internal wireway receiving electrical wiring within an interior of the enclosure. At least one outlet pocket is formed in a side wall of the enclosure. A connector adapter plate is located in the outlet pocket and extends within the interior of the enclosure. At least one output connector is carried by the connector adapter plate, and resides within the interior of the enclosure with external access provided through the outlet pocket.

An insulation displacement contact is for piercing through an insulation of a cable or wire in a cutting direction and electrically contacting an electrically conductive core of the cable or wire. The insulation displacement contact includes a contact body having a piercing section for piercing the insulation and a contact slot receiving the core of the cable or wire. The contact slot extends along the cutting direction from the piercing section into the contact body. The contact body has a pair of blades separated by the contact slot. The blades have a pair of attachment slots extending from the piercing section into the blades.

In a first contact of a connector, an insulation-displacement connection portion has two insulation-displacement blades and has a narrow slit and a wide slit. The insulation-displacement blades are different from each other in position in a first direction and correspond to the narrow slit. The insulation-displacement blades are obliquely intersected with the first direction. The narrow slit and the wide slit extend in the front-rear direction. In the first direction, the insulation-displacement blade is located between the narrow slit 362 and the wide slit 364. In a second direction, a middle of the wide slit 364 is different from a middle of the narrow slit 362 in position. When covered wire is pushed into the narrow slit, it is pressed on the insulation-displacement blades at different timings in order.

A terminal block has an insulator housing, at least two busbars and at least four connection elements, there being at least two connection levels in the insulator housing arranged one over the other. Each connection level has a busbar receptacle chamber for receiving a busbar and two mutually opposite conductor connection chambers on ends of chamber for receiving a respective connection element, the chambers being open on an insulator housing first side for busbar assembly in the chambers and wherein the conductor connection chambers are open on a second side of the insulator housing for assembly of the connection elements in the conductor connection chambers. The insulator housing first side is designed at a right angle to the insulator housing second side to give an busbar assembly insertion direction into a chamber at a right angle to a connection element assembly insertion direction into a conductor connection chamber.

A stator for an electric motor, connected to a circuit board, comprising a stator housing in which several winding arrangements consisting of winding wires wound to form coils are arranged. Contact support receptacles are formed on the stator housing, in which, in each case, an insulation displacement contact element is introduced, which establishes an electrical contact between, in each case, a winding arrangement and a jumper wire on the circuit board.

A terminal device includes: a housing having at least one contact cavity; a contact part which is arranged in the at least one contact cavity and into which at least one electrical line can be plugged in order to make electrical contact with the contact part; and at least one busbar which is arranged on the housing, is electrically connected to the contact part, and a busbar portion of which extends along a height line. An end portion adjoins the busbar portion, which end portion extends in art oblique direction at an oblique angle to the height line and can be moved along the height line relative to the contact part.

The invention concerns a connector-type socket comprising:—a body suitable for being connected via a front face to a complementary plug comprising a plurality of insulation-displacement contacts oriented in the same direction;—a separate connection module comprising a plurality of positions each intended to receive one end of a strand of a cable comprising shielding, the module being arranged in such a way as to be inserted into the body so as to bring each strand against the corresponding insulation-displacement contact; the socket being characterised in that the body comprises two separate parallel plates, each plate comprising a row of contacts, each row of contacts being arranged in a plane (P), the planes (P) containing the rows being separate from and parallel to each other such that all the strands of the cable can be connected in a single movement.