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.

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 signal transmission cable of the present invention comprises a terminal part electrically connectable to an external device, and a cable including metal wires of eight or more channels that are electrically connectable to the terminal part, the terminal part has a substrate including a plurality of connection parts that are electrically connectable to the external device and connected respectively to the metal wires of the individual channels included in the cable, and the metal wires of the mutually different channels that are adjacently connected at the plurality of connection parts are arranged so as not to be adjacent to each other inside the cable.

A signal transmission cable of the present invention comprises a terminal part electrically connectable to an external device, and a cable including metal wires of eight or more channels that are electrically connectable to the terminal part, the terminal part has a substrate including a plurality of connection parts that are electrically connectable to the external device and connected respectively to the metal wires of the individual channels included in the cable, and the metal wires of the mutually different channels that are adjacently connected at the plurality of connection parts are arranged so as not to be adjacent to each other inside the cable.

A connecting blade includes an insulation board having an adjustment region; and paired differential lines disposed on the insulation board. Each of the paired differential lines has contact points at both ends thereof for connecting to a circuit connecting member. The paired differential lines include a straight pair and a cross pair. The straight pair is formed of two first lines not crossing each other. The cross pair is formed of two second lines having a crossing region where the two second lines cross each other without contacting with each other. The cross pair is arranged so that the cross pair contacts with the adjustment region at least partially. The adjustment region has a specific size and a permittivity so that a signal transmission time lag between the cross pair and the straight pair is reduced.

A connecting blade includes an insulation board having an adjustment region; and paired differential lines disposed on the insulation board. Each of the paired differential lines has contact points at both ends thereof for connecting to a circuit connecting member. The paired differential lines include a straight pair and a cross pair. The straight pair is formed of two first lines not crossing each other. The cross pair is formed of two second lines having a crossing region where the two second lines cross each other without contacting with each other. The cross pair is arranged so that the cross pair contacts with the adjustment region at least partially. The adjustment region has a specific size and a permittivity so that a signal transmission time lag between the cross pair and the straight pair is reduced.

Communications jacks include at least first through third jackwire contacts and a flexible substrate that has a first finger and a second finger. The first jackwire contact and the third jackwire contact are each mounted on the first finger and the second jackwire contact is mounted on the second finger.

Electrical connector including a plurality of mating conductors. Each of the mating conductors extends between an engagement portion and an interior portion. The engagement portions of the mating conductors are configured to engage contacts of the mating connector. The engagement portions are located proximate to one another at a first nodal region. The interior portions are located proximate to one another at a second nodal region. The electrical connector also includes a first open-ended conductor electrically connected to the engagement portion of a first mating conductor of the plurality of mating conductors and extending from the first nodal region. The electrical connector also includes a second open-ended conductor electrically connected to the interior portion of a second mating conductor of the plurality of mating conductors and extending from the second nodal region. The first open-ended conductor is capacitively coupled to the second open-ended conductor.

An inline communications connector is provided that includes a housing and tip and ring contacts that are mounted in the housing. The tip contact includes an input tip socket, an output tip socket and a tip socket connection section that physically and electrically connects the input and output tip sockets. The ring contact includes an input ring socket, an output ring socket and a ring socket connection section that physically and electrically connects the input and output ring sockets. The input tip socket is not collinear with the output tip socket and the input ring socket is not collinear with the output ring socket.