Abstract: A coaxial cable connector assembly including a rear body, a coupler rotatably engaged with the rear body, where the coupler defines an inner channel extending through the coupler between a front portion of the coupler and a rear portion of the coupler, and a nominal portion defining a nominal inner span along the inner channel, and a retainer engaged with the coupler and the rear body, where the retainer couples the coupler to the rear body, where at least one of the retainer and the coupler defines an engagement passage having a non-uniform span, where at least a portion of the engagement passage extends inwardly from the nominal portion of the coupler and is structurally configured to contact an outer conductor of the coaxial cable forming an electrical pathway between the thread of the coupler and the outer conductor of the coaxial cable.

Abstract: A method for coupling a coaxial cable to a coaxial cable connector assembly includes inserting a coaxial cable into a cable channel of a rear body of a coaxial cable connector assembly, where the coaxial cable connector assembly includes an adhesive reservoir positioned at least partially within the cable channel of the rear body, the adhesive reservoir comprising an adhesive and an adhesive reservoir seal material that at least partially encapsulates the adhesive, inserting at least a portion of the coaxial cable into the adhesive reservoir, and exposing the adhesive to electromagnetic energy thereby curing the adhesive, by at least one of directing electromagnetic energy from an energy source on the adhesive, and removing an outer jacket from an outer wall of the rear body.

Abstract: A coaxial connector includes an outer conductor portion including a polymer shell, the polymer shell defining an inner bore extending from a first open end to a second open end opposite the first open end, and a conductive layer positioned on the inner bore of the polymer shell, an outer surface of the polymer shell, or both, where the conductive layer is structurally configured to be electrically coupled to an outer conductor of a coaxial transmission medium, an electrically-insulating intermediate member positioned at least partially within the inner bore of the polymer shell, and an inner conductor portion engaged with the electrically-insulating intermediate member and positioned at least partially within the inner bore of the polymer shell, where the inner conductor portion is configured to be electrically coupled to an inner conductor of the coaxial transmission medium and electrically isolated from the conductive layer of the outer conductor portion.

Abstract: A coaxial cable connector assembly includes a coupler defining an inner channel extending through the coupler and an outer conductor engagement feature extending inwardly from the inner channel, a rear body, positioned rearward of the coupler, defining a cable channel extending through the rear body, and structurally configured to receive the coaxial cable, and an adhesive reservoir positioned at least partially within the cable channel of the rear body, the adhesive reservoir including an adhesive and an adhesive reservoir breakable material that encapsulates the adhesive, where the adhesive reservoir breakable material is structurally configured to fracture upon the application of force exceeding a predetermined threshold, thereby releasing the adhesive from the adhesive reservoir to adhesively couple the coaxial cable to the rear body.

Abstract: A coaxial cable connector assembly includes a coupler, a rear body assembly rotatably engaged with the coupler, the rear body assembly including a stationary retention member defining an stationary retention member inner channel surface and one or more stationary retention member grooves extending inwardly from the stationary retention member inner channel surface, a movable retention member that is movable with respect to the stationary retention member in an axial direction, the movable retention member defining a movable retention member inner channel surface and one or more movable retention member grooves extending inwardly from the movable retention member inner channel surface, the one or more movable retention member grooves defining a movable retention member groove surface, and one or more compression rings positioned at least partially within the one or more stationary retention member grooves.

Abstract: A coaxial cable connector assembly comprising a rear body comprising an outer body member and an inner body member, wherein the rear body is positionable in a disengaged position and an engaged position, and a coupler rotatably engaged with and positioned forward of the rear body, wherein the coupler defines an inner channel extending through the coupler between a front portion of the coupler and a rear portion of the coupler positioned opposite the front portion, a thread at the front portion of the coupler, a nominal portion defining a nominal inner span along the inner channel, and an outer conductor engagement portion that tapers inwardly from the nominal portion that extends forwardly along the inner channel to the front portion of the coupler, wherein the outer conductor engagement portion is structurally configured to contact an outer conductor of the coaxial cable.

Abstract: A method for coupling a coaxial cable to a coaxial cable connector assembly includes inserting a coaxial cable into a cable channel of a rear body of a coaxial cable connector assembly, where the coaxial cable connector assembly includes an adhesive reservoir positioned at least partially within the cable channel of the rear body, the adhesive reservoir comprising an adhesive and an adhesive reservoir seal material that at least partially encapsulates the adhesive, inserting at least a portion of the coaxial cable into the adhesive reservoir, and exposing the adhesive to electromagnetic energy thereby curing the adhesive, by at least one of directing electromagnetic energy from an energy source on the adhesive, and removing an outer jacket from an outer wall of the rear body.

Abstract: A coaxial cable connector assembly including a rear body, a coupler rotatably engaged with the rear body, where the coupler defines an inner channel extending through the coupler between a front portion of the coupler and a rear portion of the coupler, and a nominal portion defining a nominal inner span along the inner channel, and a retainer engaged with the coupler and the rear body, where the retainer couples the coupler to the rear body, where at least one of the retainer and the coupler defines an engagement passage having a non-uniform span, where at least a portion of the engagement passage extends inwardly from the nominal portion of the coupler and is structurally configured to contact an outer conductor of the coaxial cable forming an electrical pathway between the thread of the coupler and the outer conductor of the coaxial cable.

Abstract: A coaxial cable connector assembly includes a coupler defining an inner channel extending through the coupler and an outer conductor engagement feature extending inwardly from the inner channel, a rear body, positioned rearward of the coupler, defining a cable channel extending through the rear body, and structurally configured to receive the coaxial cable, and an adhesive reservoir positioned at least partially within the cable channel of the rear body, the adhesive reservoir including an adhesive and an adhesive reservoir breakable material that encapsulates the adhesive, where the adhesive reservoir breakable material is structurally configured to fracture upon the application of force exceeding a predetermined threshold, thereby releasing the adhesive from the adhesive reservoir to adhesively couple the coaxial cable to the rear body.

Abstract: A coaxial cable connector assembly includes a coupler, a rear body assembly rotatably engaged with the coupler, the rear body assembly including a stationary retention member defining an stationary retention member inner channel surface and one or more stationary retention member grooves extending inwardly from the stationary retention member inner channel surface, a movable retention member that is movable with respect to the stationary retention member in an axial direction, the movable retention member defining a movable retention member inner channel surface and one or more movable retention member grooves extending inwardly from the movable retention member inner channel surface, the one or more movable retention member grooves defining a movable retention member groove surface, and one or more compression rings positioned at least partially within the one or more stationary retention member grooves