An electrical connector includes an insulative housing, a number of terminals retained in the insulative housing and a shell surrounding around the insulative housing. The insulative housing includes a base and a mating tongue extending forwardly therefrom. The mating tongue includes two opposite mating faces and two opposite side faces. The shell includes a holding portion and a mating portion. The mating portion of the shell includes two short-walls facing to the two side faces of the mating tongue and at most a long-wall facing to one of the mating faces of the mating tongue so that at least one of the mating faces of the mating tongue could be exposed to exterior in a vertical direction.

The invention relates to a connector (1) for data connections, in particular of the RJ type, with a latch element (6) for securing a connection to a counter-connector. In order to simplify a disconnection of the connector (1) and the counter-connector, even when the connection is secured by the latch connection, the invention provides that the connector (1) is provided with a gripping end (5, 5′) that is adapted to transfer the latch element (6) from its latch position (L) and to disconnect the connector (1) from the counter-connector by a single movement.

A connector configured to operate in two different electrical performance modes. The connector may include a plurality of connector contacts, a plurality of contact pads, and an insulator having an insulating portion adjacent the plurality of contact pads. The insulator is movable between an insulating position and a non-insulating position. When the insulator is in the insulating position, the insulating portion insulates the plurality of contact pads from the plurality of connector contacts and the connector operates in a first one of the electrical performance modes. When the insulator is in the non-insulating position, the plurality of connector contacts contact the plurality of contact pads and the connector operates in a different second one of the electrical performance modes. The connector may be implemented as a plug or an outlet.

A connector configured to operate in two different electrical performance modes. The connector may include a plurality of connector contacts, a plurality of contact pads, and an insulator having an insulating portion adjacent the plurality of contact pads. The insulator is movable between an insulating position and a non-insulating position. When the insulator is in the insulating position, the insulating portion insulates the plurality of contact pads from the plurality of connector contacts and the connector operates in a first one of the electrical performance modes. When the insulator is in the non-insulating position, the plurality of connector contacts contact the plurality of contact pads and the connector operates in a different second one of the electrical performance modes. The connector may be implemented as a plug or an outlet.

Embodiments of the present invention generally relate to communication connectors, and methods of manufacture thereof and their components. In some embodiments, the methods focus on reducing the net effect on electrical performance of communication connectors from variation in manufacturing, where the connectors include multiple stages of capacitive coupling.

Embodiments of the present invention generally relate to communication connectors, and methods of manufacture thereof and their components. In some embodiments, the methods focus on reducing the net effect on electrical performance of communication connectors from variation in manufacturing, where the connectors include multiple stages of capacitive coupling.

A device for detecting a connector mounting failure includes a detection unit and a connection member that interconnects the detection unit and a connector device. The connection member includes a connection connector inserted into and seated in the connector device, and a connection line unit that interconnects the connection connector and the detection unit. The connection line unit also delivers a detection value of the connection connector to the detection unit.

A device for detecting a connector mounting failure includes a detection unit and a connection member that interconnects the detection unit and a connector device. The connection member includes a connection connector inserted into and seated in the connector device, and a connection line unit that interconnects the connection connector and the detection unit. The connection line unit also delivers a detection value of the connection connector to the detection unit.

An object of the present invention is to provide a semiconductor device that can enhance the safety when feeding to a USB device.

Provided is a semiconductor device including: a first power source circuit that generates an output voltage supplied to a USB device coupled to a USB connector; an abnormality detection circuit that determines the state of a supply route of the output voltage generated by the first power source circuit; and a control circuit that controls supply of the output voltage from the first power source circuit to the USB device on the basis of a determination result of the abnormality detection circuit.

An object of the present invention is to provide a semiconductor device that can enhance the safety when feeding to a USB device.

Provided is a semiconductor device including: a first power source circuit that generates an output voltage supplied to a USB device coupled to a USB connector; an abnormality detection circuit that determines the state of a supply route of the output voltage generated by the first power source circuit; and a control circuit that controls supply of the output voltage from the first power source circuit to the USB device on the basis of a determination result of the abnormality detection circuit.