A shield connector includes an inner housing provided with a first terminal receiving chamber and a second terminal receiving chamber which are configured to respectively receive inner terminals attached to ends of a plurality of wires bundled into a shielded electric wire, and a shield terminal incorporating the inner housing therein. The first terminal receiving chamber is provided with an opening which is opened to a side opposite to a side where the second terminal receiving chamber is placed. The opening is opened, from one end of the first terminal receiving chamber at a side of a terminal insertion port of the second terminal receiving chamber through which one of the inner terminals is inserted, to a wall at the other end of the first terminal receiving chamber, so that another one of the inner terminals is received in the first terminal receiving chamber through the opening.

A high voltage vertical disk ferrule, and method for assembling thereof, the ferrule being stamped and having a vertical disk-like structure, which is not necessarily round or does not necessarily have any roundness. The high voltage vertical disk ferrule has an opening residing and traveling over the wire core and/or a wire braided shield, to which an end portion of the wire braided shield is affixed to the ferrule, or between two ferrules, such that a portion of the wire braided shield is flared and substantially perpendicular to the direction along which the wire core extends. The high voltage vertical disk slides over the core insulation, and towards the outer insulation when the wire is pushed. The wire braided shield develops a natural spring force against the ferrule, and causes it to be accordioned, pleated, or folded against itself, and therefore pushes the vertical disk ferrule forward.

A backshell for connecting an overall-shielded harness including shielded cables to a connector, the backshell including a sleeve having a full toothed ring, a first external area for receiving the terminations of the shielding, and a second external area for receiving the overall-shielding of the harness, the backshell further including an attachment ring having a first internal area and arranged so that it can slide over the sleeve up to an abutment position in which it covers the first external area of the sleeve so as to cover the terminations of the shielding. This backshell is designed to make a terminated shielding harness and a connection protected against EM interference between the terminated shielding harness and a connector.

A backshell for connecting an overall-shielded harness including shielded cables to a connector, the backshell including a sleeve having a full toothed ring, a first external area for receiving the terminations of the shielding, and a second external area for receiving the overall-shielding of the harness, the backshell further including an attachment ring having a first internal area and arranged so that it can slide over the sleeve up to an abutment position in which it covers the first external area of the sleeve so as to cover the terminations of the shielding. This backshell is designed to make a terminated shielding harness and a connection protected against EM interference between the terminated shielding harness and a connector.

An Ethernet plug connector for a motor vehicle to be plugged together along a plug-in direction with a mating plug connector. The Ethernet plug connector includes a plug connector housing having at least two contact chambers and a shield plate. A contact element is situated in each contact chamber, a counter contact element being pluggable into each contact element. A line is attached to each contact element at its rear end with respect to the plug-in direction. The lines attached to the contact element are combined in a rear section with respect to the plug-in direction to form an Ethernet cable and are enclosed by a shield conductor, the shield plate enclosing the predominant part of the plug connector housing. The shield plate includes a connector, using which it is electrically connected to the shield conductor of the Ethernet cable.

An Ethernet plug connector for a motor vehicle to be plugged together along a plug-in direction with a mating plug connector. The Ethernet plug connector includes a plug connector housing having at least two contact chambers and a shield plate. A contact element is situated in each contact chamber, a counter contact element being pluggable into each contact element. A line is attached to each contact element at its rear end with respect to the plug-in direction. The lines attached to the contact element are combined in a rear section with respect to the plug-in direction to form an Ethernet cable and are enclosed by a shield conductor, the shield plate enclosing the predominant part of the plug connector housing. The shield plate includes a connector, using which it is electrically connected to the shield conductor of the Ethernet cable.

A terminal module disclosed by this specification is provided with a shielded cable including two coated wires, a conductive shield portion for covering outer peripheries of the two coated wires and a sheath portion for covering an outer periphery of the shield portion, inner conductors to be connected to the coated wires, an insulating terminal accommodating member for accommodating end parts of the coated wires together with the inner conductors, and an outer conductor for accommodating the terminal accommodating member. An axis center β of a shield-side pull-out portion for pulling out the coated wires in the shield portion is radially shifted with respect to axis centers a of inner conductor-side pull-out portions for pulling out the coated wires in the inner conductors. A wire insertion path into which linking portions are insertable is formed in a lower wall of the terminal accommodating member.

A terminal module disclosed by this specification is provided with a shielded cable including two coated wires, a conductive shield portion for covering outer peripheries of the two coated wires and a sheath portion for covering an outer periphery of the shield portion, inner conductors to be connected to the coated wires, an insulating terminal accommodating member for accommodating end parts of the coated wires together with the inner conductors, and an outer conductor for accommodating the terminal accommodating member. An axis center β of a shield-side pull-out portion for pulling out the coated wires in the shield portion is radially shifted with respect to axis centers a of inner conductor-side pull-out portions for pulling out the coated wires in the inner conductors. A wire insertion path into which linking portions are insertable is formed in a lower wall of the terminal accommodating member.

A cable connector assembly includes a connector and a cable electrically connected thereto. The connector includes a metal shell, a metal cage enclosing a rear end of the metal shell, and an outer housing enclosing the metal cage therein. The connector has a front end for inserting into a mating connector and a rear end. The diametrical dimension of the front end is smaller than the diametrical dimension of the rear end. The outer housing includes a front portion extending forwardly beyond the metal cage to prevent the cable connector mistakenly inserted into an unintended receptacle connector.

A retention apparatus for a shielded cable is described. In one embodiment, the apparatus comprises a substrate having a ground; a connector coupled to the substrate; a cable shielded with a conductive material and having an end connectable to the connector to electrically connect with the connector; an electrically conductive material coupled to the ground of the substrate; and a grounding retention mechanism to cause the electrically conductive material to electrically connect the cable to the ground of the substrate by applying a force to the cable shield.