A connector assembly includes a shielding cover and a socket connector. The shielding cover includes a cover body, a compartment frame disposed at the cover body, and two insertion channels jointly defined by the cover body and the compartment frame and separated by the compartment frame in an up-down direction. The socket connector is disposed at a rear segment of the shielding cover, and includes two socket housings arranged in the up-down direction and respectively disposed at the two insertion channels, and a plurality of socket terminals. The compartment frame has a support structure located at a rear segment and providing support between the two socket housings. The support structure includes an upper support plate, a lower support plate, and a support block disposed between the upper support plate and the lower support plate.

A connection body comprises a body having upper and lower surfaces, a first path and a second path. The first path has a first wired portion configured to be connected to a first core wire of a cable structure and a first terminal portion coupled to the first wired portion by a first coupling portion. The first wired portion, the first terminal portion and the first coupling portion are formed on the upper surface of the body. The second path has a second wired portion configured to be connected to a second core wire of the cable structure and a second terminal portion coupled to the second wired portion by a second coupling portion. The second wired portion is formed on the upper surface of the body. The second terminal portion is formed on the lower surface of the body.

A USB wireless dongle includes a main body and an adaptor, the adaptor includes a first mounting enclosure and a first USB plug. The first mounting enclosure defines a receiving cavity for a circuit board. An end of the first mounting enclosure adjacent to the first USB plug defines a through hole. The first USB plug includes a button and a contacting board. The contacting board is electrically connected to the circuit board. An elastic piece abuts the button, the button being fitted in the through hole. The button can be pressed to deform the elastic piece to enable the button to separate from the through hole and thereby the first USB plug can be disassembled from the first mounting enclosure to be replaced with another USB plug.

A connector system (1) includes a connector (10) that detachably mates with a mating connector (20) mounted on an external circuit board (30), and an abutting member (40) fixed to the external circuit board (30). The connector (10) includes a circuit board (200) that connects to an external device via a signal line (300); an electrically conductive first shell (110) through which a terminal portion (201) of the circuit board (200) is inserted and that is electrically connected to the external circuit board (30) via the mating connector (20); and an electrically conductive second shell (120) that covers at least a portion of a target region that is a region, of one main surface (205) of the circuit board (200), other than the terminal portion (201). The abutting member (40) presses at least a portion of the connector (10) toward the external circuit board (30).

The present invention provides a USB plug, and tends to provide a USB plug with better integrity, simple structure and practicability, the key point of the technical solution of the present invention is that a USB plug body includes an upper housing, a lower housing and circuit boards disposed in the upper housing and the lower housing, the USB plug further includes a plug portion including an extending plate integrally connected with the lower housing, a contact pad structure integrally connected with the circuit board and abutting the extending plate, and a metal housing sleeved outside the extending plate and the contact pad structure, and the present invention is applied to the technical field of USB plugs.

The present disclosure relates generally to a plug and an electronic device. The plug includes a terminal and a connecting portion electrically connected to the terminal. The terminal is used to insert into a socket of an electronic equipment, and the connecting portion is used to magnetically connect with a peripheral female connector for charging and/or data transmission. The plug further includes a first chip and a PCB board disposed at an end of the terminal close to the connecting portion. The terminal and the first chip are electrically connected to the PCB board. The connecting portion includes a conductive structure electrically connected to the PCB board. An accommodating space for accommodating the first chip is defined between the conductive structure and the PCB board, which improves the space utilization rate of the plug. The electronic device of the present disclosure has the same beneficial effects as the plug.

A contact comprising: (a) a contact housing, said contact housing being narrower than a cavity of a connector such that said contact housing is laterally movable within said cavity; (b) an optical interface for receiving a ferrule of a mating connector contact; (c) optoelectrical circuitry optically connected to said optical interface, wherein said optical interface and said optoelectrical circuitry are held rigidly in relation to each other within said contact housing; and (d) an electrical interface electrically connected to said optoelectrical circuitry and configured for electrical connection to a circuit board, wherein said electrical interface comprising at least a flexible cable to provide compliance between said optoelectrical circuitry and said circuit board.

The invention relates to contactless plug connectors and contactless plug connector systems for electromagnetically connecting a correspondrng mating plug connector. In order to allow for an electromagnetic connection, the invention suggest providing at least one antenna element arranged within the mating end of the contactless plug connector to transmit and/or to receive radio waves modulated with a predetennined carrier frequency, a transmitting/receiving circuit for modulating an inputted baseband input signal onto the predeteimined carrier frequency and transmitting the modulated baseband input signal and/or for demodulating a received radio wave into a baseband output signal. In particular, the contactless plug connector and contactless plug connector system include a securing element for securing the mating end of the contactless plug connector at close proximity to a corresponding mating end of the mating connector such that an electromagnetic connection can be established with the corresponding mating connector.

A method and apparatus for a lighting assembly for a vehicle can include a housing assembly and a set of adaptors. Vehicles today are often limited to specific wiring harnesses or connection types based upon manufacturer. Each adaptor of the set of adaptors can include a different connection type. The adaptors are interchangeably connectable to the housing assembly in order to vary the connection type based upon the specific wiring harness or connection type of the particular vehicle.

A connector is adapted to be attached to a case of an electronic device unit. The connector includes a connector assembly adapted to be accommodated in the case through an opening provided in the case, an escutcheon adapted to be attached to the case to close the opening, and an elastic member arranged at a position to be interposed between the connector assembly and the escutcheon when the escutcheon is attached to the case in a state in which the connector assembly is accommodated in the case. The connector assembly includes a terminal, a housing holding the terminal, and a circuit board connected to the terminal. The elastic member is configured to bias the connector assembly toward the case such that the circuit board is pressed against the case to position the connector assembly with respect to the case.