A modular jack connector compensates for plug characteristics via a controlled primary compensation in the immediate vicinity of the connector interface. A jack contact assembly is positioned within a jack housing and includes first and second sets of elongate contacts each having a plug contact portion and a signal output portion. Each elongate contact is configured such that their respective plug contact portions are coplanar and a signal path is defined between their plug contact portions and their signal output portions. A flexible circuit board is coupled proximate to the plug contact portions, and configured to provide capacitance compensation between respective contacts engaged thereby, wherein the capacitance compensation is offset from a signal path defined between the plug contact portions and the corresponding signal output portions.

A modular jack connector compensates for plug characteristics via a controlled primary compensation in the immediate vicinity of the connector interface. A jack contact assembly is positioned within a jack housing and includes first and second sets of elongate contacts each having a plug contact portion and a signal output portion. Each elongate contact is configured such that their respective plug contact portions are coplanar and a signal path is defined between their plug contact portions and their signal output portions. A flexible circuit board is coupled proximate to the plug contact portions, and configured to provide capacitance compensation between respective contacts engaged thereby, wherein the capacitance compensation is offset from a signal path defined between the plug contact portions and the corresponding signal output portions.

The present disclosure provides a cable connector assembly. The cable connector assembly includes a housing configured to support a frame. The frame having twin-ax cables and ground conductors insert molded therein. The frame further includes a pocket with a portion of the cables and ground conductors exposed. The cable is dressed so that the inner shielding layer is accessible within the pocket. A conductive fill material is disposed in the pocket that connects the shielding layer to the ground conductors. A printed has circuit board a mating end and a securing end and is secured to the frame and configured to engage electrical terminals of a mating connector. Contact pads are formed on the securing end and the signal conductor of the cable and the ground conductors are respectively soldered to appropriate pads on the circuit board.

The present disclosure provides a cable connector assembly. The cable connector assembly includes a housing configured to support a frame. The frame having twin-ax cables and ground conductors insert molded therein. The frame further includes a pocket with a portion of the cables and ground conductors exposed. The cable is dressed so that the inner shielding layer is accessible within the pocket. A conductive fill material is disposed in the pocket that connects the shielding layer to the ground conductors. A printed has circuit board a mating end and a securing end and is secured to the frame and configured to engage electrical terminals of a mating connector. Contact pads are formed on the securing end and the signal conductor of the cable and the ground conductors are respectively soldered to appropriate pads on the circuit board.

A twisted pair communications device and associated twisted pair communications system are disclosed. One twisted pair communications device includes a plurality of twisted pair connectors each associated with a different twisted pair communication channel, and a multi-channel connector communicatively connected to each of the plurality of twisted pair connectors. The multi-channel connector is configured to transmit and receive communication signals associated with each of the twisted pair communication channels on a multi-channel twisted pair cable and includes a plurality of wire pairs disposed in a plurality of rows within the connector. Fewer than all of the plurality of wire pairs are communicatively connected to twisted pair connectors, and wherein unassociated wire pairs in the multi-channel connector separate at least two groups of wire pairs associated with different twisted pair communication channels.

A twisted pair communications device and associated twisted pair communications system are disclosed. One twisted pair communications device includes a plurality of twisted pair connectors each associated with a different twisted pair communication channel, and a multi-channel connector communicatively connected to each of the plurality of twisted pair connectors. The multi-channel connector is configured to transmit and receive communication signals associated with each of the twisted pair communication channels on a multi-channel twisted pair cable and includes a plurality of wire pairs disposed in a plurality of rows within the connector. Fewer than all of the plurality of wire pairs are communicatively connected to twisted pair connectors, and wherein unassociated wire pairs in the multi-channel connector separate at least two groups of wire pairs associated with different twisted pair communication channels.

An electrical cable connector assembly comprises a receptacle connector mated with a plug/cable connector. The receptacle connector mounted upon an external printed circuit board and includes an insulative housing forming a mating cavity, and a terminal module assembly received within the housing with contacting sections exposed in the mating cavity. The cable connector includes an internal printed circuit board with a contact module fixed at a front end region and a cable having a plurality of wires fixed at a rear end region in a multilevel manner. A die-casting cover encloses the internal printed circuit board with heat dissipation fin structure on an exterior surface.

Telecommunications jacks and methods of their use and construction are described. One telecommunications jack is adapted to receive a plug, and includes a housing defining a port for receiving the plug, as well as consecutively arranged contact springs adapted to make electrical contact with the plug when the plug is inserted into the port of the housing along a first axis. The jack includes wire termination contacts for terminating wires to the jack, and a circuit board arrangement including first and second circuits, the circuit board arrangement including a circuit board moveable in a direction non-parallel with the first axis between first and second positions. In the first position the circuit board electrically connects contact springs to wire termination contacts in a first configuration, and in the second position the circuit board connects contact springs to wire termination contacts in a second configuration.

Telecommunications jacks and methods of their use and construction are described. One telecommunications jack is adapted to receive a plug, and includes a housing defining a port for receiving the plug, as well as consecutively arranged contact springs adapted to make electrical contact with the plug when the plug is inserted into the port of the housing along a first axis. The jack includes wire termination contacts for terminating wires to the jack, and a circuit board arrangement including first and second circuits, the circuit board arrangement including a circuit board moveable in a direction non-parallel with the first axis between first and second positions. In the first position the circuit board electrically connects contact springs to wire termination contacts in a first configuration, and in the second position the circuit board connects contact springs to wire termination contacts in a second configuration.

Embodiments of the present invention relate to the field of telecommunication, and more specifically, to communication connectors such as, for example, shielded plug and jack connectors. In an embodiment, the present invention is a communication jack that includes a housing and a front sled assembly having a plurality of plug interface contacts (PICs), the front sled assembly being moveable along a horizontal plane of the communication jack between a first position and a second position, the first position being different from the second position.