Abstract: An insulator for coaxial cable connectors, the insulator is disposed within a coaxial cable connector and contains an insulator passageway. The insulator has a guide surface at one end. As the prepared end of a coaxial cable is inserted into the insulator passageway, the guide surface engages the dielectric of the cable and radially diverts the conductive foil sheath away from the center conductor of the cable.

Abstract: To ensure stable physical and electrical contact between an exposed outer conductor of a cable and a compression sleeve, which has two sections, where the first section is disposed around the jacket of the cable, while the second section is disposed around the outer conductor of the cable, which is corrugated, and where the shield and the jacket of the cable are mounted in a connector formed by a front nut and a connector body, screwing together of the front nut and connector body will cause the compression sleeve to be clamped tightly to the outer conductor, as a compression ring is disposed around the second section, said compression ring has coned or ramped surfaces on the sleeve, said coned or ramped surfaces being disposed at the free end of the first section and at the transition between the first section and the second section.

Abstract: A connector for transferring high frequency signals comprises a connector body which is clamped together with a compression member, as well as a fastener member which is secured to the connector body. The connector body has a conductive pin with a center conductor seizing area for receiving the center conductor of a coaxial cable. An insulator is located within the connector body, the insulator having an insulator compression area configured to compress radially inwardly against the center conductor seizing area to secure the coaxial cable center conductor within the conductive pin.