A connector is provided with a housing into which a terminal fitting is inserted, and a retainer to be mounted into the housing. The retainer includes a rear stop portion for restricting a rearward movement of the terminal fitting and a front stop portion for restricting a forward movement of the terminal fitting.

The present disclosure relates to a cable connector structure, which includes a housing, a tongue plate, a plurality of cables, and a plurality of heat sinks. The housing includes a docking end and a butting end. One side of the housing includes a top surface, and the top surface protrudingly provided with a hollow stage. The tongue plate is arranged in the housing, one end of the tongue plate is provided with a docking area, and the other end of the tongue plate is provided with a welding area. The plurality of heat sinks is arranged on the top surface of the housing, the hollow stage is arranged toward the docking end and the plurality of heat sinks are arranged toward the butting end.

An electrical receptacle connector includes a metallic shell, an insulated housing in the metallic shell, a plurality of terminals at the insulated housing, and a metallic plate. The terminals are arranged in two rows, and the metallic plate is at the insulated housing and between the terminals in the two rows. The metallic plate includes a through hole at a front portion of the tongue portion. The through hole has several through portions and a communication portion between the through portions. By allowing that the communication portion to be in communication with the through portions to form a through hole in an elongated shape, the molding efficiency for forming the tongue portion with the filling of the plastic materials can be increased.

An electrical receptacle connector includes a metallic shell, an insulated housing in the metallic shell, a plurality of terminals at the insulated housing, and a metallic plate at the insulated housing. The terminals include two first terminal groups and two second terminal groups arranged in two rows, and the two rows are respectively arranged on the two faces of a tongue portion of the insulated housing. A length of each contact portion of each second terminal group is greater than a length of each contact portion of each first terminal group. The metallic plate is between the first terminal groups and the second terminal groups. The metallic plate has one or more extension portion between the contact portions of at least two adjacent terminals of one or more of the second terminal groups. The structural strength of the tongue portion can be improved by the extension portion.

An easy-lock connector with unlock structure includes a rubber core, a housing and plural terminals. The rubber core includes a first body, acting parts and terminal grooves in which the terminals are arranged. Each of the action parts includes a first stop body and a third stop body. An opening is formed between the first stop body and the third stop body. The housing includes a second body and pressing parts. When the action parts are pressed by an external force, the action parts will be deformed. Then, a flexible printed circuit board will be unlocked on the first body, and the action parts are stopped by the first stop body and the third stop body to stop continuing to deform. When the action parts are not pressed by the external force, the circuit board is locked on the first body.

An electronic device having a detachable memory is provided with a docking connector, and includes a device body and a memory. The device body has an accommodating slot and a stopping portion provided corresponding to the accommodating slot, and the stopping portion and the accommodating slot jointly form a displacement space in between. The memory is provided with a connector and a protruding stopped portion. When the memory is accommodated in the accommodating slot, the stopped portion is moved along into the displacement space and is stopped by the stopping portion, and the connector is docked with the docking connector. Thus, the memory is provided with an anti-misplugging effect.

An electrical terminal includes a base, a first elastic arm and a second elastic arm formed side by side by extending upwardly from an upper end of the base, and a protruding portion. The first elastic arm has a mating portion, and the second elastic arm has a contact portion. The protruding portion protrudes and extends from a first side of the first elastic arm, and the first side of the first elastic arm is adjacent to the second elastic arm. A lower surface of the protruding portion has a contact surface overlapping with the contact portion in a vertical direction, such that the contact portion upwardly abuts the contact surface. When the chip module presses downwardly on the electrical terminal, the contact portion can move on the contact surface, such that the chip module does not need to press downwardly on the contact portion with a relatively large pressure.

A connector comprises a housing and a plurality of contacts retained in the housing. Each of the contacts extends in a longitudinal direction and has a retained portion, a contacting portion disposed in front of the retained portion in the longitudinal direction, and a connecting portion disposed behind the retained portion in the longitudinal direction. Each of the contacting portion and the connecting portion are shifted with respect to the retained portion in a vertical direction perpendicular to the longitudinal direction. The housing is in contact with the retained portion of each of the contacts from both above and below in the vertical direction and from both right and left in a lateral direction perpendicular to the vertical direction and the longitudinal direction.

An electrical connector has an insulating body which comprises a housing and a tongue; a plurality of conductive terminals, each conductive terminal has a mating portion and a soldering portion; a metal inner shell which surrounds to form a first frame, the first frame is fixed on the insulating body and surrounds a rear portion of the tongue to form a mating cavity; a metal outer shell which surrounds to form a second frame, the second frame encircles an outside of the first frame, a plurality of soldering legs extend out from two sides of the metal outer shell; and an insulating outer shell which is engaged with the metal outer shell integrally, a rear portion of the insulating outer shell is formed with a receiving cavity; the metal inner shell is correspondingly inserted in the receiving cavity, the insulating outer shell surrounds a front portion of the tongue and forms an insertion opening, the insertion opening is integrally communicated with the mating cavity along a front-rear direction. The present disclosure can increase the overall structure strength and facilitate the smooth insertion of another mating connector.

An electrical connector includes an insulative housing, a plurality of conductive terminals retained in the insulative housing and two grounding members. The insulative housing defines an upper sidewall, a lower sidewall and two end walls connected to both ends of the upper and lower sidewalls to form a mating cavity. Each grounding member defines a body portion fixed to the outside of the insulative housing and a plurality of contacting arms. Each contacting arm defines a connecting portion extending forwardly from the body portion and a contacting portion bent inwardly from the connecting portion, and the upper and lower sidewalls of the insulative housing defines a plurality of channels and a plurality of ribs, the contacting portion of the grounding member protrudes into the mating cavity and the connecting portion abuts against the top surface of the rib to form a certain pre-pressure to the contacting arm.