Provided is a board-to-board socket, comprising a socket body, a socket terminal, and a socket reinforcing member; said socket body comprises a bottom wall, socket side walls formed by protruding upward from two longitudinal ends of the bottom wall, socket guide parts formed at two lateral ends of the socket body, and an island part; the socket guide part comprises a plug guide part receiving cavity, a longitudinal peripheral wall, and a pair of lateral peripheral walls; the socket reinforcing member comprises a main body part covering surface of the longitudinal peripheral wall, lateral peripheral wall covering parts which extend from two longitudinal sides of the main body part in the lateral direction and cover the lateral peripheral walls, a protection part formed by bending and extending inward from top ends of the lateral peripheral wall covering parts, and an elastic arm part continuously extending from the protection part.

A contact element for an electric vehicle (EV) connector that is configured to connect a charging wire to a connector interface on a vehicle side includes a front part and at least one base. The front part comprises walls having an inner and an outer side that enclose a hollow chamber, which is partly filled with a fluid, and the inner side of the walls are designed having a capillary structure.

A contact element for an electric vehicle (EV) connector that is configured to connect a charging wire to a connector interface on a vehicle side includes a front part and at least one base. The front part comprises walls having an inner and an outer side that enclose a hollow chamber, which is partly filled with a fluid, and the inner side of the walls are designed having a capillary structure.

A board-to-board plug, comprising an insulating seat (20) integral to a metal insert (30), several signal terminals (40) arranged inside the insulating seat (20), and a shielding housing (10) coated outside the insulating seat (20). The insulating seat (20) comprises an engagement end (21) provided with terminal slots (214), terminal blocks (24) formed by extending from the engagement end (21) to the rear direction, and a pair of extension arms (22) formed by extending from both transverse sides of the terminal block (24) to the rear direction. The metal insert (30) comprises a board body portion (31) formed between a pair of extension arms (22), and several grounding terminals (37) bent from the front end of the board body portion (31) and extending into the terminal slots (214). The grounding terminals (37) and the signal terminals (40) are arranged at intervals.

A connector assembly includes a first housing having an indicium imprinted thereon and a movable member movable from a first position configured to render the indicium illegible to an optical scanning device to a second position configured to render the indicium legible to the optical scanning device. The indicium is visible when the movable member is in the first position and when the movable member is in the second position. A method of mating a connector assembly having a movable member and an indicum imprinted thereon is also presented.

A telecommunications component includes an outer housing that includes a badge holder. The badge holder is configured to receive a badge. The badge is configured to be inserted into the badge holder. The badge includes a feature that is identifying of the source of the telecommunications component and the feature is at least one of a logo, a specific color, text information, a barcode, a QR code, and a RFID tag. The badge includes a pair of arms extending from opposing sides to engage with the badge holder of outer housing. The badge includes a securing feature that is configured to secure the badge within the badge holder.

The present disclosure relates to a molded article provided with a resin part formed with a thermoplastic resin composition. The thermoplastic resin composition containing thermoplastic resins and cellulose, wherein at least one of the thermoplastic resins is a resin having in a polymer molecule at least one group selected from a group containing a partial structure of an acid anhydride and a group containing an acylated cellulose structure.

A backplane connector includes a housing and a number of wafers assembled to the housing. Each wafer includes a number of conductive terminals, an insulating frame and a metal shield. The housing includes an insulating housing and a metal shell fixed to the insulating housing. The insulating housing includes a number of slots for positioning the wafers. The metal shell is provided with a mating surface and a number of terminal receiving grooves. The contact portions of the conductive terminals are exposed in the corresponding terminal receiving grooves. The present disclosure improves the structural strength of the backplane connector and reduces the risk of damage the mating surface due to the push or collision of a mating connector.

The present disclosure provides a socket structure including a casing, a main body, a frame and a cover. The casing includes plural lateral walls, a bottom, an opening and an accommodation space. The opening is defined by the lateral walls. The accommodation space is defined by the lateral walls and the bottom and is in communication with the opening. The main body is disposed in the accommodation space and includes a circuit board and a connection port disposed on the circuit board. The frame includes at least one plate and a first extending portion. The plate surrounds the periphery of the opening. The first extending portion is extended from the plate and is connected to one of the lateral walls. The cover covers the opening and includes a through hole. The through hole is configured to allow a plug to pass through and connect to the connection port.

The present disclosure provides a socket structure including a casing, a main body, a frame and a cover. The casing includes plural lateral walls, a bottom, an opening and an accommodation space. The opening is defined by the lateral walls. The accommodation space is defined by the lateral walls and the bottom and is in communication with the opening. The main body is disposed in the accommodation space and includes a circuit board and a connection port disposed on the circuit board. The frame includes at least one plate and a first extending portion. The plate surrounds the periphery of the opening. The first extending portion is extended from the plate and is connected to one of the lateral walls. The cover covers the opening and includes a through hole. The through hole is configured to allow a plug to pass through and connect to the connection port.