Coaxial connector junctions include a first coaxial connector that has a first center conductor extension and a first outer conductor extension and a second coaxial connector that is mated with the first coaxial connector, the second coaxial connector including a second center conductor extension and a second outer conductor extension. A communications path between the first outer conductor extension and the second outer conductor extension includes a first capacitively coupled outer conductor communications path and a second galvanically coupled outer conductor communications path.

Coaxial connector junctions include a first coaxial connector that has a first center conductor extension and a first outer conductor extension and a second coaxial connector that is mated with the first coaxial connector, the second coaxial connector including a second center conductor extension and a second outer conductor extension. A communications path between the first outer conductor extension and the second outer conductor extension includes a first capacitively coupled outer conductor communications path and a second galvanically coupled outer conductor communications path.

Coaxial connector junctions include a first coaxial connector that has a first center conductor extension and a first outer conductor extension and a second coaxial connector that is mated with the first coaxial connector, the second coaxial connector including a second center conductor extension and a second outer conductor extension. A communications path between the first outer conductor extension and the second outer conductor extension includes a first capacitively coupled outer conductor communications path and a second galvanically coupled outer conductor communications path.

Coaxial connector junctions include a first coaxial connector that has a first center conductor extension and a first outer conductor extension and a second coaxial connector that is mated with the first coaxial connector, the second coaxial connector including a second center conductor extension and a second outer conductor extension. A communications path between the first outer conductor extension and the second outer conductor extension includes a first capacitively coupled outer conductor communications path and a second galvanically coupled outer conductor communications path.

Communications jacks include a housing having a plug aperture that is configured to receive a mating RJ-45 plug along a longitudinal axis and eight jackwire contacts that are arranged as four differential pairs of jackwire contacts, each of the jackwire contacts including a plug contact region that extends into the plug aperture. A first of the jackwire contacts is configured to engage a longitudinally extending surface of a first blade of a mating RJ-45 plug when the mating RJ-45 plug is fully received within the plug aperture.

Communications jacks include a housing having a plug aperture that is configured to receive a mating RJ-45 plug along a longitudinal axis and eight jackwire contacts that are arranged as four differential pairs of jackwire contacts, each of the jackwire contacts including a plug contact region that extends into the plug aperture. A first of the jackwire contacts is configured to engage a longitudinally extending surface of a first blade of a mating RJ-45 plug when the mating RJ-45 plug is fully received within the plug aperture.

A connector insert comprising conductive wire and a plurality of layers of conductive and non-conductive elastomers, and methods of fabrication thereof.

An electrical connector for transmitting data signals between the insulated conductors of a first data cable and corresponding insulated conductors of a second data cable, including a first part having a socket shaped to at least partially receive a plug of said first data cable; a second part having a plurality of insulation displacement contact slots shaped to receive end sections of the conductors of the second data cable; and a plurality of electrically conductive contacts including resiliently compressible spring finger contacts extending into the socket for electrical connection with corresponding conductors of the first cable; insulation displacement contacts seated in corresponding insulation displacement contact slots for effecting electrical connection with corresponding conductors of the second data cable; and mid sections extending therebetween, wherein relative movement between the mid sections of the contacts is inhibited by a fastener.

An electrical connector for transmitting data signals between the insulated conductors of a first data cable and corresponding insulated conductors of a second data cable, including a first part having a socket shaped to at least partially receive a plug of said first data cable; a second part having a plurality of insulation displacement contact slots shaped to receive end sections of the conductors of the second data cable; and a plurality of electrically conductive contacts including resiliently compressible spring finger contacts extending into the socket for electrical connection with corresponding conductors of the first cable; insulation displacement contacts seated in corresponding insulation displacement contact slots for effecting electrical connection with corresponding conductors of the second data cable; and mid sections extending therebetween, wherein relative movement between the mid sections of the contacts is inhibited by a fastener.

A plug connector includes a plug body having a terminating end terminated to an electrical component and a mating end mated with a mating electrical connector. The plug body has first and second outer sides. The plug body has pockets between the first and second outer sides. A plug shroud extends from the plug body at the terminating end that is configured to be coupled to the electrical component. A contact array is held by the plug body and includes signal and ground contacts. The signal and ground contacts are exposed along the first and second outer sides. At least some of the ground contacts are aligned with corresponding pockets. Resonance-control lossy inserts are provided in corresponding pockets adjacent corresponding ground contacts. The lossy inserts are manufactured from lossy material capable of absorbing electrical resonance propagating through the plug body.