The present invention is a connector for connecting an electrical cable having cladding to an aperture in an electrical panel. The assembled connector has a spring, a shell, and a insulator along a longitudinal axis. The spring has a base from which two insertion tabs extend coaxial with the axis and two clad blocking tabs extending perpendicular from the two insertion tabs to prevent over-insertion of the cladding into the connector. The insertion tabs of the spring have hook latches extending past the insulator that lock the connector in the panel, and the base of the spring has a hole to receive the cable where clamping tabs clampably lock the cable in the connector.

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.

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.

An electrical plug connector for a cable has a compression sleeve and a stop element that is axially adjacent to and connected to the compression sleeve. The compression sleeve has an inner lateral surface thread that is screwable to an outer lateral surface thread of an outer conductor of the cable. The outer conductor is clampable between the compression sleeve and an axial end region of the stop element, and in an assembled state, a longitudinal axis of the compression sleeve, is tilted relative to a longitudinal axis of the stop element; or b) a normal vector of a plane spanned by an edge between an end face and an inner lateral surface of the stop element is rotated by orientation angle (.sub.A) relative to the longitudinal axis of the compression sleeve; or c) the edge has a helical course in a longitudinal axis direction of the plug connector.

Disclosed herein is a connector assembly for attachment to a corrugated coaxial cable. The assembly includes: a rearward outer body, to be received over a portion of the corrugated coaxial cable, comprising a recessed area; and a locking ferrule, to be inserted into the rearward outer body, comprising a plurality of ridges. At least one of the plurality of ridges is configured for engagement with the corrugated outer conductor. The connector assembly further comprises a foot portion positionable within the recessed area such that upon coupling of the rearward outer body with the locking ferrule, the corrugated outer conductor is locked in position.

An electrical connector for an electrical cable having a contact element for connection to an electrical conductor of the electrical cable. The electrical connector has an integrated cleaning tool for the electrical conductor. The cleaning tool is arranged along a feed direction for the electrical cable on the cable side upstream of the contact element. It is provided that the cleaning tool is designed to remove or at least retain particles, residues of a sheathing and/or contaminants adhering to the electrical conductor before the electrical conductor contacts the contact element of the electrical connector arranged downstream in the feed direction within the scope of a connector assembly process.

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.

In an aspect, a connection adapter is provided for connecting an earthing line to a metal protective hose, where the adapter includes an electrically conductive substantially hollow cylindrical body having an end face with a pass-through opening therein for passage of electrical conductors and the earthing line therethrough, and a receiving shoe connected to the end face, which is configured to seat the earthing line. The cylindrical body includes a plurality of inwardly facing tabs and is sized to fit over the metal protective hose. The tabs are configured to contact and slide over and the metal protective hose.

Provided is a manufacturing method for an aluminum coaxial cable provided with a coaxial connector, which includes a coaxial cable including an inner conductor having a predetermined length, an insulating portion covering the outside of the inner conductor in a longitudinal direction of the inner conductor, an outer conductor covering the outside of the insulating portion in the longitudinal direction of the inner conductor, a jacket portion covering the outside of the outer conductor in the longitudinal direction of the inner conductor, and a connection pin provided with an insertion groove to which the end of the inner conductor is inserted; and a coaxial connector including a connector main portion which has the other side opened so that the outer conductor end is inserted and has an installation groove in which the inner portion is hollow, and a clamp portion provided outside the connector main portion. The manufacturing method for an aluminum coaxial cable provided with a coaxial connector includes: removing the jacket portion to a first predetermined length so that the outer conductor is exposed to the outside; removing the outer conductor and the insulating portion to a second predetermined length so that the inner conductor is exposed to the outside while the outer conductor is exposed to a third predetermined length; applying a flux to the exposed inner conductor end; pre-fixing the inner conductor end applied with the flux which is inserted to the insertion hole of the connection pin after injecting a predetermined amount of lead to the insertion hole of the connection pin; and coupling the inner conductor and the connection pin by supplying a high frequency to a portion where the inner conductor and the connection pin are coupled to each other.

A coaxial bias T-connector includes: first and second coaxial cables; a rear body electrically connected to the first cable outer conductor; a first inner contact positioned within the rear body and electrically connected with the first inner conductor; a front body connected with the rear body and including a forward portion; a second inner contact positioned within the front body and electrically connected with the first inner contact; a spring basket including a plurality of spring fingers and electrically connected with the forward portion of the front body and electrically isolated from the second inner contact, the forward portion of the front body, the spring fingers and the second inner contact forming a 4.3/10 interface; a third inner contact electrically connected with the second cable inner conductor; and a coaxial fitting electrically connected with the front body and with the second cable outer conductor. The third inner contact is in electrical connection with the second inner contact.