Abstract: A structure of a latch for an interface card is disclosed. The latch includes a positioning set and a board. The positioning set has a pillar formed at a bottom portion thereof, a protruded frontage with a protruded jointing portion and a connecting portion connected to a limiter, wherein the pillar has a pin positioned at a bottom portion thereof. A first interface card is adapted into the first connector by pressing down the first interface card to be secured by the positioning structure; and a second interface card is adapted into the second connector by pressing down the second interface card to fit the two holes with the jointing portion, and the limiter is covered onto the jointing portion to let the buckling portion of the hole of the limiter support in the hole of the jointing portion to prevent the limiter from coming loose.

Abstract: A structure of an electronic connector that can be plugged by inserting from top-to-down direction is disclosed. The electronic connector has a connector case and a Seat connector. The connector case has a plurality of terminal holes for receiving terminals, and a recession is formed at the center of the connector case. A buckle is formed underneath the recession, and has a protrusion hook. The seat connector case has a plurality of terminal holes for receiving terminals, and buckling troughs corresponding to the buckles on the connector case, and the buckling troughs have a buckling plate extending there-from.

Abstract: A mounting pin and plughole arrangement is disclosed include a plughole formed on a circuit board, and a mounting pin downwardly extending from a frame body and having a shank with two hooked portions for fastening to the plughole to lock the frame body to the circuit board by: inserting the shank of the mounting pin through the center of the plughole and then rotating the mounting pin through an angle to force top locating blocks of the hooked portions into engagement with retaining holes that form a part of the plughole.

Abstract: A structure of a latch for an interface card is provided. The latch has a base plate including a plurality of pins formed on two sides thereof, a horn and a spring portion. The spring portion has a supporting portion with an inclined face at a frontal side thereof, and a wing and a block respectively formed at two sides thereof. The wing and the supporting portion are bent towards opposite sides, and said spring portion has a protrusion.

Abstract: A method of fabricating an antenna connector is provided. The components of the antenna connector are mechanically assembled in an automatically operated workstation to effectively eliminate the labor/time consuming assembly process requiring assembly by hand as in the case of the prior art. The electrical connection between the coaxial cable and the terminal can be ensured and also the coaxial cable can be effectively secured to the housing so that the coaxial cable may not come loose. Thus, it is not only possible to effectively increase the production throughput, but also the reliability of the antenna connector may be effectively promoted.

Abstract: An interface card securing device including a grounding element is disclosed. The grounding element may reduce the interference during high speed signal transmission of the interface card. The grounding element is integrally formed with the securing device as single unit using a plastic injection molding process. Thus, the assembly of the securing device is simplified, and the fabrication cost of the interface card securing device is significantly reduced, and the signal transmission quality is significantly promoted.

Abstract: The present invention provides a cable connector. The cable connector comprises a first metal case, a second metal case, a support base, a terminal base and a cable. The base of the support base is positioned in the first metal case such that the hollow threaded fastener of the support base passes through the through hole of the first metal case. The cable is passed through the hollow threaded fastener of the support base. The second metal case is assembled to the first metal case such that the connecting holes formed on the sidewalls of the second metal case buckle the slots formed on the sidewalls of the first metal case. The protruding blocks of the second metal case are bent toward the first metal case to securely cover the first metal case.

Abstract: The present invention provides a cable connector. The cable connector comprises a first metal case, a second metal case, an isolator base, a support base, a terminal base and a cable. The base of the support base is positioned in the isolator base, and then the isolator base is positioned in the first metal case such that the hollow fastener of the support base passes through the through hole of the first metal case. The cable is passed through the hollow fastener of the support base. The second metal case is assembled to the first metal case such that the connecting holes formed on the sidewalls of the second metal casing correspond to the slots formed on the sidewalls of the first metal case. The protruding blocks of the second metal case are bent toward the first metal case to securely cover the first metal case.