A coaxial cable connector including a body configured to be coupled with a prepared end of a coaxial cable, a post configured to engage the body and an outer conductor of the coaxial cable when the connector is installed on the coaxial cable, a nut rotatingly coupled to the post and having a forward end configured to be threadedly coupled with an interface port, and a sleeve surrounding the nut and extending forward from the nut in a direction opposite to the body. The sleeve has a forward portion that extends beyond the forward end of the nut by a length such that the sleeve is configured to contact an outer surface of the interface port before a center conductor of the coaxial cable contacts the interface port, and the sleeve is configured to align the connector with the port and to prevent the center conductor from contacting any portion of the interface port other than a center conductor contact portion of the interface port.

A connector includes a body having a central bore and a first grounding contact surface, a post disposed within the central bore and having an outwardly projecting flange configured to produce a first portion of a mating interface, and a conductive coupler. The post portion has a tubular sleeve configured to mechanically and electrically engage a prepared end of a coaxial cable. The conductive coupler has an engagement surface at a first end configured to mechanically and electrically engage an interface port, a lip at a second end configured to produce a second portion of the mating interface, and a second grounding contact surface opposing the first grounding contact surface. The first and second portions are configured to slide along the mating interface to rotate about an elongate axis of the connector. The connector includes a conductive ring disposed between the first and second grounding contact surfaces and configured to produce an electrical path between the body and the conductive coupler.

A connector includes a body having a central bore and a first grounding contact surface, a post disposed within the central bore and having an outwardly projecting flange configured to produce a first portion of a mating interface, and a conductive coupler. The post portion has a tubular sleeve configured to mechanically and electrically engage a prepared end of a coaxial cable. The conductive coupler has an engagement surface at a first end configured to mechanically and electrically engage an interface port, a lip at a second end configured to produce a second portion of the mating interface, and a second grounding contact surface opposing the first grounding contact surface. The first and second portions are configured to slide along the mating interface to rotate about an elongate axis of the connector. The connector includes a conductive ring disposed between the first and second grounding contact surfaces and configured to produce an electrical path between the body and the conductive coupler.

A connector includes a body having a central bore and a first grounding contact surface, a post disposed within the central bore and having an outwardly projecting flange configured to produce a first portion of a mating interface, and a conductive coupler. The post portion has a tubular sleeve configured to mechanically and electrically engage a prepared end of a coaxial cable. The conductive coupler has an engagement surface at a first end configured to mechanically and electrically engage an interface port, a lip at a second end configured to produce a second portion of the mating interface, and a second grounding contact surface opposing the first grounding contact surface. The first and second portions are configured to slide along the mating interface to rotate about an elongate axis of the connector. The connector includes a conductive ring disposed between the first and second grounding contact surfaces and configured to produce an electrical path between the body and the conductive coupler.

A cable joint includes a cable joint body, a conductive connector disposed within the cable joint body and electrically connecting a first cable to a second cable, and a first conductive element electrically connecting a first shielding layer of the first cable to a second shielding layer of the second cable. The cable joint body includes a first insulating sleeve and a re-jacketing sleeve at least partly encompassing the first insulating sleeve. The re-jacketing sleeve forms a channel along a longitudinal axis of the first insulating sleeve. The first conductive element is disposed within the channel. The channel is collapsed after heat shrinking the first insulating sleeve and the re-jacketing sleeve.

An electric cable shield contacting device for an electric plug connector, and to an electric plug connector having such a cable shield contacting device, wherein the plug connector has an at least partly hollow cylindrical housing having a contact carrier accommodated therein, and having an end cap that can be screwed onto the latter. The cable shield contacting device has a clamping sleeve and a clamping basket, which are correspondingly hollow-cylindrical and engage partly over each other in order to clamp the shield braid between themselves, having a circumferential stowage space for projecting shield braid in the overlap area. The inner circumferential surface of the clamping basket has multiple projecting shield braid driving elements arranged in the form of a circular ring, which engage in a circumferential annular groove on the outer circumferential surface of the clamping sleeve and thus latch clamping basket and clamping sleeve rotatably in each other.

A securing sleeve for securing a shield of an electric conductor to a shielding contact includes a securing section having a bottom disposed between a pair of wings. The bottom supporting the electric conductor. The wings are spaced apart at a free end of each of the wings distal from the bottom by a slot extending in an axial direction in an open state of the securing sleeve. The wings have a plurality of complementary positive locking element at the free ends that secure the securing sleeve in a circumferential direction in a closed state.

A coupler (100; 100′) between a first coaxial connector and a coaxial cable (10) has a first coaxial connector with an inner conductor (2), at least one hollow cylindrical insulator part (27; 271, 272) and a hollow cylindrical outer conductor (1) and a first spring sleeve (9) for accommodating an outer conductor (11) of the coaxial cable (10), which spring sleeve is connected to the outer conductor (1) of the first coaxial connector. In addition, the coupler (100; 100′) in accordance with the invention has a locking device, which is axially movable relative to a longitudinal axis of the first coaxial connector and is supported on a conically realized outer surface (20) at a distal end of the first spring sleeve (9). The outer conductor (1) of the first coaxial connector is connected to the locking device via a bayonet connection.

A connecting device configured to be installed on a first coaxial cable connector to facilitate connection of the first connector to a second connector and to maintain ground continuity across the connectors. In some embodiments, the connecting device includes a grounding element disposed in a gripping member, the grounding element including one or more projections configured to extend beyond an end of the gripping member to conductively engage an outer surface of the second connector.

A cable retainer insert for a multi-strand cable includes a cable contact portion and a plurality of cable receptacles in the cable contact portion circumferentially spaced from each other. Each of the cable receptacles receives a strand of the multi-strand cable. Each of the cable receptacles has a cable strand insertion opening at a radially outward end and a bottom at an opposite radially inward end. A circle inscribed in each of the cable receptacles and touching the bottom of the cable receptacle extends radially outward beyond the cable strand insertion opening.