A receptacle connector includes an insulative housing defining a base and a mating tongue extending from the base, the mating tongue defining a thicken step structure around a root thereof adjacent to the base; two rows of contacts disposed in the insulating housing with contacting sections exposed upon the mating tongue and mount tails out of the base; and a shielding plate embedded within the insulative housing and disposed between the two rows of contacts. The shielding plate defines a pair of locking sides for locking with an internal latch of a corresponding plug and the locking sides protruding beyond corresponding lateral sides of the mating tongue. The insulative housing and the shielding plate are integrally formed via an insert molding process while at least one row of the contacts are configured to be forwardly assembled to corresponding passageways in the insulating housing.

A male connector includes a male body and a male conductor. The male body includes an outer face including a first curved surface and a housing space on an inner side of the first curved surface of the male body. The male conductor is provided inside the housing space and includes a functional part. The functional part is a male communication antenna, a male power-transmission antenna, or a male power-reception antenna. A female connector includes a female body and a female conductor. The female body includes a connection hole, an inner wall surface of the connection hole, the inner wall surface including a first curved surface, a housing space on an outer side of the first curved surface of the connection hole of the female body. The female conductor is provided inside the housing space and includes a functional part. The functional part is a female communication antenna, a female power-reception antenna, or a female power-transmission antenna.

An apparatus and method for crosstalk compensation in a jack of a modular communications connector includes a flexible printed circuit board connected to jack contacts and to connections to a network cable. The flexible printed circuit board includes conductive traces arranged as one or more couplings to provide crosstalk compensation.

A connector has a case, a circuit board, a thermal diffusing unit, and a first heat sink. The circuit board is mounted in the case and has a heating source. The thermal diffusing unit abuts the inner surface of the case and the heating source of the circuit board. A heat transfer coefficient of the thermal diffusing unit is larger than a heat transfer coefficient of the case. The first heat sink abuts the thermal diffusing unit and is exposed from the case. A heat transfer coefficient of the first heat sink is larger than the heat transfer coefficient of the case. By the first heat sink abutting the thermal diffusing unit and exposed from the case, and the heat transfer coefficients of both the thermal diffusing unit and the first heat sink being larger than that of the case, the heat dissipation efficiency is improved.

A cable assembly comprises a male connector plug, a circuit board and a cable. The circuit board has a first surface conductive layer and a second surface conductive layer that each include a plurality of front side pads and a plurality of rear side pads. The front side pads comprise four front side power pads soldered to four power terminals. The rear side pads comprise one rear side power pad and a soldering area of the rear side power pad is larger than a soldering area of the front side power pad. The circuit board is further at least provided with a first middle conductive layer positioned between the first surface conductive layer and the second surface conductive layer and a plurality of vias extending between layers.

A cable connector assembly comprises a cable and an electrical connector electrically connected with the cable, the electrical connector includes a mating member, a PCB connected with the mating member, a metal shell enclosing the PCB, and an outer case covering the metal shell, the PCB includes a front end, a rear end and a middle portion connecting with the front end and the rear end; wherein the light emitting element is mounted on the middle portion of the PCB, the metal shell includes a front portion, a rear portion, and a connecting portion connecting the front portion and the rear portion, the connecting portion defines a groove, a distance between a bottom of the groove and the PCB is equal to or smaller than a height of the light emitting element, and the outer case has a light-transmissive portion to pass light emitted by the light emitting element.

An electrical connector arrangement includes a storage device coupled to a connector housing. The storage device is configured to store physical layer information pertaining to the electrical connector arrangement. The storage device also has contacts that enable the physical layer information to be read from the storage device by a media reading interface. A connector assembly includes at least one receptacle assembly; a printed circuit board; and a media reading interface.

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 first, second, third, fourth, fifth, sixth, seventh and eighth 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 first, second, third, fourth, fifth, sixth, seventh and eighth 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.

A connector includes a modular connector including: a connector body; a substrate positioned in the connector body; wire termination contacts electrically coupled to the substrate; connector contacts electrically coupled to the substrate; the substrate including traces that electrically connect each of the wire contacts to a respective one of the connector contacts; a lacing cap subassembly including: a lacing cap having a plurality of wire receiving slots; a lacing cap body coupled to the lacing cap; a lacing cap door hingedly coupled to the lacing cap body, the lacing cap door moveable between an open and closed position.

A non-reversible plug connector for providing power to a host device. The non-reversible plug connector includes a connector having a plurality of contacts, the plurality of contacts configured to make electrical contact with at least some pins within a receptacle connector of the host device. The non-reversible plug connector also includes control circuitry operatively coupled to at least some of the plurality of contacts. The control circuitry is configured to receive a checksum from the host device, verify whether the checksum is correct and when the checksum is correct, powering the host device.