A connector (20) for a coaxial cable (10). The cable comprises an outer conductor (11), an inner conductor (12) and an insulating medium (13) located between the outer and the inner conductors, wherein the connector comprises a connector front body (21) and a connector rear body (22) inserted therein; the connector front body comprises a hollow shell (30); the connector rear body comprises a flare ring (50), a slot finger and a lock nut (70) which are inserted into the shell, wherein the flare ring at one end thereof rests against a shoulder (37) in the shell, the slot finger is mounted on the flare ring, and the lock nut is mounted on the slot finger and engages the inner surface of the shell; the flare ring is provided with adjacent the first incline (54) and the first plane (55), and the slot finger is provided with adjacent the second incline (67) and the second plane (66), wherein the first incline is used for insertion between the outer conductor and the insulating medium of the coaxial cable, and the first incline and the first plane respectively cooperate with the second incline and the second plane, so as to simultaneously flare and crush the outer conductor of the coaxial cable. The cable connector can gain excellent third order intermodulation performance and high frequency transmission performance.

A strain relief for a coaxial cable and coaxial connector interconnection is provided as an injection moldable polymer material surrounding the interconnection. The injection moldable material fills a solder pre-form cavity between an outer conductor of the coaxial cable and an inner diameter of a bore of the connector body, strengthening and environmentally sealing the interconnection. Where the outer conductor is corrugated, the polymer material may be provided covering an exposed portion of the corrugations and/or filling portions of a corrugation trough between an outer jacket and the outer diameter of the outer conductor.

An adapter for mating with a receptacle comprises a cylindrical outer conductor, a columnar center conductor disposed in the outer conductor, and an insulator disposed between the outer conductor and the center conductor. The outer conductor has a recess in an inner wall at a first end of the outer conductor. The insulator electrically isolates the outer conductor from the center conductor.

A coaxial cable-connector assembly comprising: (a) a coaxial cable; (b) a coaxial connector; (c) a rear body; and (d) a coupling nut. The coaxial cable comprises: an inner conductor; a dielectric layer circumferentially surrounding the inner conductor; an outer conductor circumferentially surrounding the dielectric layer; and a jacket circumferentially surrounding the outer conductor. The coaxial connector comprises: an inner contact electrically connected with the inner conductor; an outer body spaced apart from and circumferentially surrounding the inner contact; and a dielectric spacer interposed between the inner contact and the outer body. The rear body has a main section, a rear collet extending rearwardly from the main section, and a front engagement structure that coordinates with the outer body to engage the outer conductor. The nut has a threaded section and a tapered inner surface. Engagement of the nut with a threaded section on one of the rear body and the outer body advances the nut forwardly so that the tapered inner surface of the nut deflects the rear collet to engage the cable jacket.

A cable-connector assembly includes: a coaxial connector having an outer connector body with a solder bore; a coaxial cable having an inner conductor and an outer conductor, the outer conductor seated within the solder bore; and a PIM block comprising an annular seat and a generally cylindrical flange extending from an outer periphery of the annular seat along a longitudinal axis of the annular seat. A leading edge of the outer conductor of the cable is inserted within the flange of the PIM block. An outer diameter of the outer conductor is coupled to an inner diameter of the solder bore via a solder joint.

A connector assembly including a connector body with a spring clip including a first free end for engaging a side wall of an electrical box upon installation. During insertion of the connector body the first free end is deformed so as to permit further insertion. Once the connector body is fully inserted, the spring clip cooperates with a lug on the connector body to hold the connector assembly onto the electrical box.

A connector for mechanically and electrically coupler a coaxial cable to a port which minimizes the component parts to enhance reliability and reduce cost without sacrificing performance. The connector includes a sleeve operative to engage the outer conductor of the coaxial cable while a coupler is configured to effect relative displacement of the coaxial cable and interface port. The sleeve and coupler each include aligned bores for receiving the coaxial cable which presents a center conductor pin and a collapsible outer conductor toward the interface port. As the coaxial cable is axially displaced toward the port, the center conductor pin engages a socket of the port while an annular compression surface of the port simultaneously engages an annular outer conductor edge of the port, collapsing the outer conductor against the port to enhance electrical conductivity and RF performance.

An RF connector having an integral weather protection system for protecting the connector from water, ice, salt, debris and other foreign damage. The connector comprises a Weather Protection (WP) assembly circumscribing a connector body, which, in turn, sealably mounts to a coaxial cable. The WP assembly comprises a housing, a compliant sealing ring and a biasing element. The WP housing sealably mounts over an end of the connector body and defines an aperture at an opposite end thereof to receive the coaxial cable and facilitate axial translation of the housing relative to the connector body. The compliant sealing ring has an inwardly facing sealing surface which defines a diameter dimension. And, the biasing element is reconfigurable from an expanded to a collapsed state in response to axial displacement of the housing relative to the connector body. Operationally, the biasing element engages the compliant ring to expand the diameter dimension of the biasing element around a portion an interface port, and closes over a sealing surface of the interface port to seal the compliant ring against the sealing surface.

A fitting for use with a cable contained in a corrugated metal tubing, the fitting including an adaptor having an internal, longitudinal passage to receive the cable; a body coupled to the adaptor; an internal seal positioned between the adaptor and the body, the internal seal radially disposed about the cable; a nut coupled to the body; and a sealing member positioned between the nut and the body, the sealing member for placement in a valley of the corrugated metal tubing to compress a portion of the corrugated metal tubing between the sealing member and the body.

A method of forming a joint between a coaxial cable and, a coaxial connector includes the steps of: preparing a cable having an inner conductor, a dielectric, a corrugated outer conductor surrounding the dielectric layer, and a jacket such that an end of the inner conductor is exposed, an end of the outer conductor is exposed arid is flattened to form a ring devoid of corrugations, and a portion of the dielectric layer is cored out to form a solder chamber between the inner conductor and the ring of the outer conductor; preparing an assembly comprising a coaxial connector comprising an inner contact, a dielectric spacer, and an outer conductor body having a tail, with a solder preform encircling the tail; inserting the tail and solder preform into the solder chamber; and melting the solder preform to create a joint between the ring and the tail.