A device is provided for interconnecting cables having a core strand and at least one layer of strands coaxially surrounding the core strand comprises a central tightening member; first and second cylindrical segments having an opening for insertion of an end of a cable and being tightenably connected to the tightening member. An inner conical member is arranged within each cylindrical segment, having a central bore arranged for insertion of an end of the core strand and further having an outer sloping surface on which a layer of strands coaxially surrounding the core strand may be positioned. A cylindrical end piece is arranged within each cylindrical segment, having a central bore arranged for insertion of the cable and further having an inner sloping surface on which a layer of strands coaxially surrounding the core strand may be positioned.

A coupler for a coaxial cable connector includes a coupler including an internally internal portion and an extension portion extending forwardly from the internal portion; and a grounding cage slidingly coupled with the coupler. An inner surface of the extension portion includes an annular groove, the grounding cage includes a rear ring portion disposed in the annular groove and configured to slide in the annular groove, and a forward portion of the grounding cage is configured to extend forwardly beyond a forward end of the coupler.

A nut assembly for a coaxial cable connector includes a nut configured to engage an interface port and a cap encircling the nut. The nut includes an internal threaded portion configured to engage external threads of the interface port and at least one resilient finger extending in an axial direction from the internal threaded portion toward a forward end of the nut. The forward end includes a tooth extending radially inward, the tooth is configured to contact a surface of a thread of the external threads when the nut is coupled to the interface port, and the tooth is configured to provide ground continuity between the nut and the interface port before the internal threaded portion of the nut is coupled with the external threads. The internal threaded portion and the external threads are configured to provide a retention force between the nut and the interface port.

A coaxial cable-connector assembly includes a coaxial cable, a coaxial connector, and a rear body. The coaxial cable includes: an inner conductor; a dielectric layer circumferentially surrounding the inner conductor; an outer conductor circumferentially surrounding the dielectric layer, the outer conductor having an inner surface and an outer surface; and a jacket circumferentially surrounding the outer conductor. The coaxial connector includes: an inner contact electrically connected with the inner conductor; an outer connector body spaced apart from and circumferentially surrounding the inner contact, the outer connector body including a first securing feature; and a dielectric spacer interposed between the inner contact and the outer body. The rear body has a main section and a front collet with forwardly-extending fingers, the fingers engaging the outer surface of the outer conductor of the cable, the fingers including a second securing feature, wherein the second securing feature engages the first securing feature to maintain the outer connector body and the rear body in position on the cable.

A fiber optic cable assembly includes a fiber strand having a length extending proximally along an axis and terminating distally at a termination, and a ferrule proximate the termination, wherein the ferrule is frangible, configured to shear along the length of the fiber strand, inboard of the termination.

A connector includes a body having a cable receiving end configured to receive the end of the coaxial cable, a coupler configured to be coupled with and to rotate relative to the body, and a compression ring including a forward sleeve portion and a rearward outer ring portion attached to one another by a plurality of tabs. The forward sleeve portion is configured to be coupled to the cable receiving end of the body, and the plurality of tabs are configured to shear so as to separate the rearward outer ring portion from the forward sleeve portion when a desired force is met as the compression ring is moved relative to the body. The rearward outer ring includes an inner opening when separated from the forward sleeve portion, the separated rearward outer ring is configured to be slidingly moved relative to the body and the coupler, and the inner opening is configured to fit over the coupler such that the rearward outer ring is configured to be a torque assist member.

A connector suitable for being mounted on a coaxial cable comprising at least one metal braid layer surrounding inner parts of the cable and an outer insulating layer surrounding said at least one metal braid layer and a silicone sleeve arranged around the outer insulating layer wherein the connector comprises a ferrule to be arranged in electrical contact with said at least one metal braid layer, wherein said outer insulating layer of the cable is arranged to be stripped away for the length of said electrical contact, a base arranged cylindrically around said ferrule, and a collar arranged at least partially within said base and comprising a body configurable around the ferrule; wherein the body of the collar has a first outer diameter substantially the same as the diameter of the outer insulating layer of the coaxial cable; and the silicone sleeve is arranged, upon mounting the coaxial cable to the connector, between the base and the body of the collar for applying a pressure force to said at least one metal braid layer of the coaxial cable guided to an outer surface of the collar.

A coaxial cable connector comprises an inner sleeve comprising a first and second outer flange; metal inner sleeve comprising a second inner ring having a ring portion and plurality of elastic portions and a first inner ring having a second inner flange and plurality of wings; an outer sleeve comprising a fourth inner flange and engaging bump; and a nut comprising a first inner flange and threaded portion adapted to engage with an electronic device. One end of the plurality of elastic portions is connected with the ring portion and the other end comprises a fifth outer flange. One end of the plurality of wings is connected to the second inner flange and the other end to the ring portion. When the outer sleeve moves toward the nut, the engaging bump presses and enables the fifth outer flange to move toward the outer surface of the inner sleeve.

An electrical connector that comprises an outer conductive shell supporting at least one signal contact therein and that includes a front end for mating with a mating connector and a back end opposite the front end for electrically connecting to a printed circuit board or a coaxial cable. A primary ground connection is located either inside or outside of the outer conductive shell. The primary ground connection is configured to electrically engage the mating connector with the printed circuit board or with the coaxial cable. A secondary ground connection is located either inside or outside of the outer conductive shell. The secondary ground connection is configured to electrically engage the mating connector with the printed circuit board or with the coaxial cable.

An RF Connector and grounding device therefor comprises a driver, a contact ring and a spring clamp having a split ring washer disposed therebetween. The split ring washer interposes the driver on one side of the washer and the contact ring on the other side thereof and defines an aperture for receiving a prepared end of a coaxial cable. The washer is connected to one side of an annular ring while a shouldered flange is disposed on the opposing side of the ring. Upon delivering a compressive clamping force to a compression cap, the split ring washer is captured between adjacent peaks or corrugations of the outer conductor.