A contact apparatus having at least one conductive, elastic, structured contact unit that may assume a first state and a second state and may be brought by supplying energy, such as pressure, from the first state into the second state, is provided for a particularly rapid and simple electrical contacting with a ground potential of cable shields of electrical cables with different diameters. The contact unit is configured so that, in the first state, the contract unit has a preparation for detachably inserting a plurality of electrical cables, and that, in the second state, the contract unit fixes the cables and establishes an electrical contact with the cable shields of the cables.

A coaxial cable connector includes a connector body having a longitudinal axis passing through first and second opposed body ends, a connector center conductor for transporting a signal through the connector, and a coil spring that is coiled about the longitudinal axis. The second body end is for engaging a male coaxial cable connector, and the coil spring urges an electromagnetic shield to protrude from the second body end.

A coaxial cable connector includes a metal sleeve, a metal clamping sleeve, a coupling sleeve and an elastic ring. The metal sleeve jackets an insulation layer of a coaxial cable and is coupled to a metal fence layer of the coaxial cable when the coaxial cable connector jackets the coaxial cable. The metal clamping sleeve jackets a first end portion of the metal sleeve for tightly clamping the coaxial cable. The coupling sleeve is detachably connected to a device connector and rotatably jackets a second end portion of the metal sleeve. The elastic ring is disposed in the coupling sleeve and fixedly jackets the second end portion. The elastic ring has a thick portion at least partially protruding from the second end portion relative to the metal sleeve and an abutting structure extending toward the first end portion axially for pushing the coupling sleeve against the metal clamping sleeve tightly.

A connector for a coaxial cable includes a coupler portion configured to engage an interface port, a housing portion having a forward end configured to be disposed at least partially within the coupler portion, and an outer conductor engager portion made of a conductive material disposed within the housing portion. The housing portion includes a rearward end configured to receive the coaxial cable and is configured to move axially relative to a post that engages the outer conductor of the cable. An interior surface of the housing portion is configured to compress an insert of the post when the housing portion is moved axially relative to the post such that the outer conductor is compressed radially inward against an exterior surface of the insert of the post.

A connector is provided and includes an alignment plate defining major and minor apertures, a capture plate and a pin plate. The capture plate includes an outer body defining an opening, an inner body traversing the opening and first elastic elements extending from the inner body to generate first biases. The capture plate is securable to the alignment plate to position the inner body between the major apertures. The pin plate defines intermediate apertures and includes pins and second elastic elements to generate second biases opposing the first biases. The pin plate is interposable between the alignment and capture plates whereby the intermediate and major apertures align and the pins extend through the minor apertures.

A connector includes, in one embodiment, a first component, a coupling element configured to engage the first component, and a second component configured to engage the first component. The second component, in one embodiment, is configured to produce a spring, pushing or biasing force.

A connector assembly that includes a receptacle with inner and outer shells which have a front end for mating with a mating connector and a back end configured to connect to a printed circuit board. Receptacle primary and secondary ground connections are located on one of the shells. A plug with an outer shell that supports a pin contact to mate with the socket contact. The outer shell of the plug has a front end for mating with the front end of the receptacle and a back end that is configured to connect to a coaxial cable. Plug primary and secondary ground connections are located on the outer shell. When the receptacle and plug are mated, the primary ground connections form a primary grounding path through the assembly and the secondary ground connections form a secondary grounding path through the assembly, thereby electrically connecting the plug with the board.

A coaxial connector and a coaxial cable forming a cable assembly. The coaxial connector includes a cable entry side for entry of the coaxial cable and an opposite coupling side for coupling with the coaxial counter connector along the connector axis. The coaxial connector includes an inner contact element electrically connected with an inner conductor of the coaxial cable; an outer contact element electrically connected with an outer conductor of the coaxial cable; a dielectric connector element radially arranged between the inner contact element and the outer contact element; a connector housing arranged around the outer contact element; wherein the inner contact element is axially locked against the dielectric connector element and the dielectric connector element is axially locked against the connector housing such that the coaxial cable is strain relieved in an axial direction with respect to the connector housing.

A connector or adaptive connector includes a first subassembly and a second subassembly with each subassembly including a center conductor and terminating at one end in a termination portion forming a connector portion. The subassemblies interface with each other to slide with respect to each other. A spring acts on each of the subassemblies to bias the subassemblies to slide away from each other and a sleeve contains the subassemblies and spring, the sleeve securing at least one of the subassemblies while allowing movement of the other of the subassemblies in the sleeve for varying the length of the connector. Each subassembly center conductor includes a respective portion of an electrical contact that cooperate to form a center conductor for the connector. The portions of the electrical contact are configured to slide relative to each other when the connector varies in length for maintaining an electrical signal path through the connector.

A coaxial cable connector includes a shoe that is movable in a sidewall of a body of the connector and/or a continuity bus.