A spring-loaded interconnect includes a forward interconnect subassembly and a rearward interconnect subassembly with a flexible cable extending between each subassembly. The flexible cable includes a plurality of curved sections, and a plurality of substantially straight sections integral with the plurality of curved sections. The plurality of curved sections and the plurality of substantially straight sections are pre-configured within the spring-loaded interconnect such that the flexible cable and a spring compress, relax, and axially travel a predetermined distance when at least one external load is applied to at least one end of the spring-loaded interconnect.

Resonance between outer conductors is prevented. A connector includes: a plurality of shield terminals each having an inner conductor surrounded by an outer conductor; and a resonance restriction member that restricts resonance between the shield terminals by connecting the outer conductors to each other and holding the outer conductors at the same potential. Resonance between the shield terminals can be prevented by preventing a potential difference from being generated between the outer conductors.

A contact member includes, an outer conductor including a mating interface section that includes a front end of the outer conductor, a termination section including a rear end of the outer conductor, and a middle section therebetween joining the mating interface and termination sections; an inner conductor received in the mating interface section; and a protective insulator including a main portion received in the mating interface section of the outer conductor and supporting the inner conductor and including an end portion configured for closed entry mating. The end portion has an end face extending outside of the front end of the outer conductor.

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.

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.

A cable connector that may include a first coupler portion, a second coupler portion that may be configured to be coupled with the first coupler portion, an outer conductor engager portion that may be supported in at least a portion of the first coupler portion, and a retaining portion that may be configured to be received by the outer conductor engager portion. The first coupler portion may be configured to receive a cable, the retaining portion may comprise an engagement portion, and the retaining portion may be configured to engage the outer conductor engager portion and the retaining portion may be configured to engage the first portion so as to retain the outer conductor engager portion in the first coupler portion to restrain the outer conductor engager portion from separating from the first coupler portion before the second coupler portion is coupled to the first coupler portion and electrically connect the outer conductor engager portion to the first coupler portion so as to provide an electrical path from the cable to the first coupler portion during operation of the connector.

An assembly for covering at least a portion of a connector portion and at least a portion of a cable includes: a temperature sensitive portion; and a cord portion. The temperature sensitive portion is configured to have a pre-shrink length prior to being heated and a post-shrink length after being heated; wherein the post-shrink length is smaller than the pre-shrink length; the cord portion is configured to have a length after the temperature sensitive portion is heated that is greater than the post-shrink length of the temperature sensitive portion; and a difference between the post-shrink length of the temperature sensitive portion and the length of the cord portion after the heating permits a user to remove the temperature sensitive portion from a connector portion and a cable without using a sharp tool and thereby avoid cutting the connector portion or the cable when removing the temperature sensitive portion.

An assembly for covering at least a portion of a connector portion and at least a portion of a cable includes: a temperature sensitive portion; and a cord portion. The temperature sensitive portion is configured to have a pre-shrink length prior to being heated and a post-shrink length after being heated; wherein the post-shrink length is smaller than the pre-shrink length; the cord portion is configured to have a length after the temperature sensitive portion is heated that is greater than the post-shrink length of the temperature sensitive portion; and a difference between the post-shrink length of the temperature sensitive portion and the length of the cord portion after the heating permits a user to remove the temperature sensitive portion from a connector portion and a cable without using a sharp tool and thereby avoid cutting the connector portion or the cable when removing the temperature sensitive portion.

Cable connector installation tools are provided. In one aspect, a tool includes removable nubs configured to set trim distances from the end of a cable to a blade in the tool. In another aspect, a tool includes jaws configured to force end connector components together, one of which being temporarily engaged by an interface nub.

A strain relief facility for a coaxial cable that is connectable to an electronics unit via an associated plug, includes two half-shells forming a receiver for the coaxial cable and the associated plug, and a fastening facility to fasten the strain relief facility to the electronics unit, and to fasten the half-shells to one another. The receiver has at least one cable section to receive the coaxial cable and a plug section to receive the plug.