Disclosed are a connector and a manufacturing method thereof. The connector includes a female housing, one or more first female terminals installed in the female housing, a plurality of second female terminals installed side by side with the first female terminals in the female housing and connected to wires, a first terminal holder having a plurality of terminal grooves to allow the one or more first female terminals to be selectively coupled thereto, the first terminal holder being fastened to the female housing in a state in which the first female terminals are coupled, and a bus bar installed in the first terminal holder to allow one of the one or more first female terminals installed in the plurality of terminal grooves and the second female terminals to be connected thereto.

A high-speed connector assembly, a socket connector and a grounding plate are disclosed in the present invention. The grounding plate disposes multiple grounding arms and multiple shielding pieces, which are arranged in a serpentine pattern for surrounding front mating portions of each pair of differential signal socket terminals to be in a U-shaped state, thereby providing electromagnetic shielding. The grounding plate further disposes multiple spring fingers, which can be used to connect adjacent grounding plates for forming a common grounding path, and further reducing signal crosstalk of adjacent differential pairs. The grounding plate of the present invention can further contact with a corresponding shielding shell of a plug connector to form a complete grounding path, and ensure more stable and reliable signal transmission quality.

An electric terminal housing includes a terminal cavity. The terminal cavity extends along a cavity axis from an insertion end to a mate end. The terminal cavity is adapted to hold an electric terminal. The terminal housing includes a terminal lock. The terminal lock includes a resilient arm that extends from the housing into the terminal cavity. The terminal lock includes a rib that extends from the arm toward the cavity axis.

A high-current connector is provided, comprising an insulating body which has at least one contact carrier having at least one contact chamber, which has at least two through-openings on the plug-in side, and at least two electrically conductive plug-in contacts which are arranged parallel to one another in the contact chamber and each have a cable connection region at a first end and a plug-in region opposite at a second end, the plug-in regions of the plug-in contacts being guided through one of the through-openings each of the contact chamber. The high-current plug connector also has an electrically conductive connection element which is inserted into the contact chamber and which has at least two contact receptacles, into each of which one of the plug-in contacts is inserted interlockingly and frictionally by its plug-in region, and the at least two plug-in contacts are electrically conductively connected to one another by the connection element.

A locking pin driving mechanism includes a motor, a preceding gear, a round gear, a feed screw and a slider. The feed screw is coaxially fixed to the round gear. A locking pin is mounted in the slider. A center axis of the locking pin and a center axis of the feed screw are each disposed in parallel with a center axis of a vehicle inlet. An interaxial distance between the center axis of the vehicle inlet and the center axis of the feed screw is set to be larger than an interaxial distance between the center axis of the vehicle inlet and the center axis of the locking pin.

An actuator device includes a locking displaceable element and a manual operation element that are displaceably disposed in a fixed portion. The locking displaceable element is displaceable to locked/unlocked positions. The manual operation element engages with the locking displaceable element and displaces the locking displaceable element to lock/unlocked positions via manual operation. The fixed portion includes locking displaceable element stoppers and manual operation element stoppers. The locking displaceable element includes locking displaceable element stopper abutment surfaces. The manual operation element includes manual operation element stopper abutment surfaces. When the manual operation element is operated, the manual operation element stopper abutment surfaces abut against the manual operation element stoppers by to stop displacement of the manual operation element before the locking displaceable element stopper abutment surfaces abutting against the locking displaceable element stoppers.

A housing includes a housing main body provided with a terminal holding portion including a terminal accommodating chamber configured to accommodate a terminal, a retainer assembled to the terminal holding portion of the housing main body, and an annular seal member mounted to a tubular seal mounting portion formed on an assembly side to the retainer in the housing main body. The retainer includes an engaging piece protruding in a direction of assembling to the housing main body, The engaging piece is inserted into an inner side of the seal mounting portion and abuts on an inner surface of the seal mounting portion.

A joint connector, including: a connector housing; a joint terminal; a terminal holder; and a lock arm that is formed in an outer peripheral wall of the connector housing, in which a rear end portion of the terminal holder is provided with convex portions that protrude rearward from a rearmost end edge of the connector housing in a proper assembled state of the terminal holder with respect to the connector housing.

In a terminal accommodating chamber provided in a housing of a connector, a terminal to which an electric wire is connected is accommodated. The terminal is held by the engagement between a locking face of a lance molded in a terminal accommodating chamber and a locking target face provided in a box portion of the terminal. The locking target face is provided in a front ceiling plate molded by notching a ceiling plate of the box portion in a width direction to reach a facing plate outer face. The locking face and the locking target face are engaged with each other within a range wider than a facing plate inner face width of the facing plate.

A connector applied to a wire harness includes a housing housing a terminal, a front holder assembled to an end portion in an axial direction of the housing, and a restriction member assembled to the housing. One of the housing and the front holder has a latch claw portion that latches the housing and the front holder. The other of the housing and the front holder has a latch arm portion extending along the axial direction and latched to the latch claw portion. The restriction member has a restriction piece that is located adjacent to the latch arm portion that is in a state of being latched to the latch claw portion, the restriction piece restricting displacement of the latch arm portion toward a latch release side.