An electrical connector includes a terminal module having a circuit board having first through eighth conductive traces sequentially arranged in a transverse direction and corresponding first through eighth terminals, the third terminal and the sixth terminal being configured for transmitting a pair of differential signals, the fourth terminal and the fifth terminal being configured for transmitting another pair of differential signals, the first through eighth conductive traces being respectively electrically connected to corresponding first through eighth terminals, each of the third conductive trace and the fifth conductive trace including a coupling portion, a size of the coupling portion in the transverse direction is larger than a size of the other part of the corresponding conductive trace in the transverse direction, wherein the coupling portion of the third conductive trace and the coupling portion of the fifth conductive trace overlap in an up and down direction to increase mutual coupling.

A relay circuit board includes: a plurality of first pads arranged in parallel in a first direction; a plurality of second pads arranged in parallel in a second direction; and wirings connecting the plurality of first pads and the plurality of second pads, respectively. The second direction is inclined at a predetermined angle with respect to the first direction, and the predetermined angle is greater than 0 degree and smaller than 90 degrees.

The present disclosure relates to a telecommunications jack including a housing having a port for receiving a plug. The jack also includes a plurality of contact springs adapted to make electrical contact with the plug when the plug is inserted into the port of the housing, and a plurality of wire termination contacts for terminating wires to the jack. The jack further includes a circuit board that electrically connects the contact springs to the wire termination contacts. The circuit board includes a multi-zone crosstalk compensation arrangement for reducing crosstalk at the jack.

The present disclosure relates to a telecommunications jack including a housing having a port for receiving a plug. The jack also includes a plurality of contact springs adapted to make electrical contact with the plug when the plug is inserted into the port of the housing, and a plurality of wire termination contacts for terminating wires to the jack. The jack further includes a circuit board that electrically connects the contact springs to the wire termination contacts. The circuit board includes a multi-zone crosstalk compensation arrangement for reducing crosstalk at the jack.

Disclosed herein are various communications systems allowing for multiple contacts points between plug contacts in a communications plug and plug interface contacts (PICs) in a communications jack. In some disclosed implementations, a communications plug including a first and a second plug contact mated with a communications jack having a first and a second plug PIC may form a plurality of plug/jack interfaces. The plug/jack interfaces may form multiple current paths between the communications plug and the communications jack. When a signal propagates between the communications plug and the communications jack, it may be split in the communications plug between a first current path and a second current path, and recombined in the communications jack after traveling through the plurality of plug/jack interfaces.

Disclosed herein are various communications systems allowing for multiple contacts points between plug contacts in a communications plug and plug interface contacts (PICs) in a communications jack. In some disclosed implementations, a communications plug including a first and a second plug contact mated with a communications jack having a first and a second plug PIC may form a plurality of plug/jack interfaces. The plug/jack interfaces may form multiple current paths between the communications plug and the communications jack. When a signal propagates between the communications plug and the communications jack, it may be split in the communications plug between a first current path and a second current path, and recombined in the communications jack after traveling through the plurality of plug/jack interfaces.

A connector (103) is provided having a plurality of leads generally arranged in columns extending substantially parallel each other in a column direction (C) and being adjacent each other in a row direction (R). At least one first column comprises at least one first pair of single leads (S) substantially parallel each other in a first pair direction (P) to form a first differential pair. In at least a portion of the connector the first pair direction extends at an acute angle (a) to the column direction. Further, an assembly, and a circuit board are provided.

A connector (103) is provided having a plurality of leads generally arranged in columns extending substantially parallel each other in a column direction (C) and being adjacent each other in a row direction (R). At least one first column comprises at least one first pair of single leads (S) substantially parallel each other in a first pair direction (P) to form a first differential pair. In at least a portion of the connector the first pair direction extends at an acute angle (a) to the column direction. Further, an assembly, and a circuit board are provided.

The present invention relates to methods and systems for minimizing alien crosstalk between connectors. Specifically, the methods and systems relate to isolation and compensation techniques for minimizing alien crosstalk between connectors for use with high-speed data cabling. A frame can be configured to receive a number of connectors. Shield structures may be positioned to isolate at least a subset of the connectors from one another. The connectors can be positioned to move at least a subset of the connectors away from alignment with a common plane. A signal compensator may be configured to adjust a data signal to compensate for alien crosstalk. The connectors are configured to efficiently and accurately propagate high-speed data signals by, among other functions, minimizing alien crosstalk.

The present invention relates to methods and systems for minimizing alien crosstalk between connectors. Specifically, the methods and systems relate to isolation and compensation techniques for minimizing alien crosstalk between connectors for use with high-speed data cabling. A frame can be configured to receive a number of connectors. Shield structures may be positioned to isolate at least a subset of the connectors from one another. The connectors can be positioned to move at least a subset of the connectors away from alignment with a common plane. A signal compensator may be configured to adjust a data signal to compensate for alien crosstalk. The connectors are configured to efficiently and accurately propagate high-speed data signals by, among other functions, minimizing alien crosstalk.