A method for connecting a ground wire of cable comprises the steps of: receiving a ground wire of the cable, over one or more core signal conductors of the cable, in an open, connection slot or notch of a respective grounding section of a grounding structure; and restraining the ground wire so that the ground wire physically contacts a body of the respective grounding section and forms an electrical ground path with the body of the section.

A plug arrangement having a plug and a cable that is connected thereto and includes at least one inner conductor and an outer conductor surrounding the inner conductor(s); an axial terminal section of the outer conductor is electrically connected to a sleeve portion of an outer conductor housing of the plug, said sleeve portion surrounding the outer conductor; a crimp point comprising a radial constriction of the sleeve portion is located between the axial terminal section of the outer conductor and the axial end of the inner conductor in the longitudinal direction (L) of the cable.

Electrical grounding assemblies for electrically grounding cables in cable closures. A grounding unit of the grounding assembly can serve as a common ground connection to multiple cables. The grounding unit includes mounting features that allow it to be easily mounted and unmounted from a slotted base plate positioned within the cable closure.

A cable connector includes a number of cables and an electrical connector. Each cable includes a core wire, an insulating layer wrapped on the core wire and a shielding layer wrapped on the insulating layer. The electrical connector includes an insulating body, a number of conductive terminals and a shielding shell. Each conductive terminal includes a contact portion for mating with a mating connector and a tail portion connected with the core wire. The cable connector further includes a ground shield mounted to the cables. The ground shield is connected with the shielding layers of the cables, and the ground shield is connected with the shielding shell. Compared with the prior art, the present disclosure improves the shielding performance of the cable connector by providing connecting the ground shield, the shielding layers and the shielding shell together.

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.

An electrical connector has an upper terminal module, a lower terminal module, and a septum between the upper and the lower terminal modules. The upper terminal module includes an upper block and multiple upper conductive terminals partially covered by the upper block and partially exposed. The lower terminal module includes a lower block and multiple lower conductive terminals partially covered by the lower block and partially exposed. The septum is located between the upper and the lower terminal modules; among them, more than one upper conductive terminal and more than one lower conductive terminal are used for grounding, and are in electrical contact with the septum. The grounding structure design can eliminate resonance to optimize high-frequency characteristics.

A crimp ferrule includes an assembly portion assembled on a non-circular internal cross section of a multi-core cable and a diameter compensation portion forming a circular external cross section of the crimp ferrule on the multi-core cable. The assembly portion and the diameter compensation portion are arranged successively in an axial direction of the crimp ferrule.

The present disclosure provides a connector assembly. The connector assembly includes a wire-end connector. The wire-end connector includes a wafer, a shield plate and a twin-ax cable. The wafer includes a frame and a terminal group. The terminal group is supported by the frame. The terminal group includes a signal terminal pair and a ground plate. The ground plate includes a ground terminal on both sides of the signal terminal pair. The shield plate is electrically connected to the ground plate. The shield plate includes an opening that penetrates the shield plate. The twin-ax cable includes a pair of conductors and a ground portion. The pair of conductors extend into the opening of the shield plate and are electrically connected to the signal terminal pair. The ground portion electrically connects at least one of the shield plate and the ground plate.

An industrial connector has a cylindrical metal shield with at least one slot in the rear of the shield for engaging a cable braid. In one embodiment, the shield also has a cable relief cut out of the rear opposite the at least one slot.

A housing of a connector includes a first section and a second section connected to the first section and extending from the first section. The first section has a first dielectric constant. The second section has a second dielectric constant that is less than the first dielectric constant.