An RF connector is provided. The connector includes a first socket member. The first socket member includes a conductive sleeve and end cap. The conductive sleeve includes a top portion, a bottom portion, and a plurality of springs connecting the top portion and the bottom portion. A base inside the conductive sleeve includes a first matching hole configured to match to a first conductive pin of a first plug member. The end cap includes a base and a lip. In a first position, the top portion of the conductive sleeve contacts the base of the end cap and is partially enclosed by the lip of the end cap. The end cap prevents the removal of the conductive sleeve in the first position.

An electrical connector includes a housing having a bottom and a wall bounding an opening adjacent the bottom, and a shell configured to encircle an outer surface of the wall. The shell may include: first shell corners configured to conform with first housing corners of the housing, second shell corners configured to be spaced apart from second housing corners of the housing in a first direction, a plurality of first portions configured to conform with the outer surface of the wall, and a plurality of second portions configured to be spaced apart from the outer surface of the wall. The first and second shell corners have a height greater than a maximum height of the housing. Such a connector may be miniaturized, yet provide for robust operation and resist unintentional demating as a result of twisting forces on a plug inserted into the connector.

A device for Ethernet connector repair that includes: a sleeve adapted for placement over an Ethernet connector; a lip extending from the sleeve; a clip on a distal end of the lip along a top surface of the lip, where clip is adapted to replace a missing clip on the Ethernet connector; and a clamp, where the clamp secures the sleeve to a cable of the Ethernet connector. The clamp preferably includes a first side and a second side that enables the clamp to toggle between a first position and a second position. The first position is adapted for placement over the cable and the second position is adapted for securing the sleeve to the cable, where first position is an open position and the second position is a closed position.

The present invention provides a connector includes a housing having a fitting opening for the object to be connected, signal contacts retained in the housing in parallel disposition, a pressure member capable of pressing the signal contacts, and power source contacts. The power source contacts are retained besides the signal contacts, have a thickness dimension larger than that of the signal contacts and are to be pressed by the pressure member together with the signal contacts. The power source contacts include a power source contact with a fixation function, having not only the power source connection function but also a function of temporally fixing the object to be connected at a correct insertion position with respect to the signal contacts as well as a function of clamping and fixing the object to be connected in a state of being pressed by the pressure member.

The present disclosure provides an electrical connector. The electrical connector includes an insulating body and one or more reinforcing members. The insulating body comprises a pair of side portions which extend in a longitudinal direction, and a pair of tower portions which are connected to respective ends of the pair of side portions. The pair of side portions and the pair of tower portions form a longitudinal card slot. The ends of the card slot extend into the pair of tower portions respectively. A reinforcing member may be arranged in a tower portion. When an electronic card is inserted into the card slot, the one or more reinforcing members can maintain the shape of the tower portions and prevent deformation or cracking of the tower portions when the electronic card is impacted by an external force.

A distribution automation device for receiving a plug connector includes a housing having a socket at least partially receiving the plug connector. The socket has a locking feature engaging a complementary locking feature of the plug connector. The locking feature and the housing are formed integrally with one another as a monolithic unit.

An electrical connector includes a housing having a mating end, a rear end opposite the mating end, and an exterior wall extending at least partially between the mating end and the rear end. The exterior wall includes a cavity with a latch held on the housing at least partially received in the cavity and a latch actuator at least partially received in the cavity. The latch actuator has first and second release mechanisms. The first release mechanism includes a pull tab being linearly movable within the cavity during a pull release operation, and the second release mechanism includes a push button being movable within the cavity during a push release operation for interacting with the latch to release the latch during the push release operation.

A plug connector includes an insulating housing, and a terminal surrounding the insulating housing. The insulating housing has a fastening portion. Two opposite sides of a top of the fastening portion protrude upward and are arched outward to form two fastening pieces. A fastening slot is formed among a lateral wall, an inner wall and a bottom wall of the terminal. Two portions of a top surface of the lateral wall protrude upward to form two insertion portions. The fastening portion is fastened in the fastening slot. One of the two insertion portions is located between one side of one of the two fastening pieces and one side of the other fastening piece. The other insertion portion is located between the other side of the one of the two fastening pieces and the other side of the other fastening piece.

A method for latching an electrical connector includes aligning a connector with an inlet. A first surface of the connector is within a first distance of a second surface of the inlet. A puller arm of the connector is extended into the inlet to a second distance from the second surface of the inlet. The puller arm includes a gripping element configured to apply a first compressive force against the inlet. The puller arm is retracted relative to the connector while applying the first compressive force against the inlet. The puller arm remains in the inlet at the second distance, thereby inserting a first electrode of the connector into the inlet to connect the first electrode with a second electrode of the inlet. The first electrode transfers power to the second electrode from a high-power supply.

The invention relates to a device for connecting a lighting unit driver (3) to a voltage supply, having a plug (1) comprising: an electric connection terminal (12) for a current supply cable; a housing (11) for receiving the electric connection terminal (12); a plug element (14) on one side of the housing (11) for producing a plug connection, wherein the plug element (14) is electrically connected to the electric connection terminal (12); and a corresponding plug element (2) which is formed directly on a housing (4) of the lighting unit driver (3) and corresponds to the plug element (14) in order to allow a form-fitting and electrically conductive plug connection between the plug element (14) of the plug (1) and the corresponding plug element (2).