A cable connector that can, when an external force in a curling-up direction acts on a cable inserted in an insulator in a state where an actuator is in a closed position, prevent the cable from disconnecting from the insulator in the curling-up direction without deformation or breakage of the connector. A cable connector includes: an insulator (20) into which a sheet-like cable (70) is removably insertable; a contact (30) supported by the insulator; a rotatable actuator (40); and a fixed metal fitting (55) fixed to the insulator. The fixed metal fitting includes a cable press piece (61) extending from a part of the fixed metal fitting and facing the cable. The cable press piece is plate-like. The insulator includes a facing portion (28a) facing a tip part of the cable press piece from a side opposite to the cable at least when the actuator is in the closed position.

Embodiments of the disclosure are directed to a linear edge connector assembly for connecting to a substrate diving board of a mother board. The linear edge connector assembly can include an electrical interface to electrically connect the contacts on the diving board to one or more conducts of a cable bundle. The linear edge connector assembly can also include a retaining force mechanism. The retaining force mechanism can include a torsional spring, a spring loaded hooking mechanism, or a spring loaded cam and lever. In some embodiments, the linear edge connector can include a notch to receive a latch connected to a bolster plate on the mother board.

Embodiments of the present disclosure are directed to a linear edge connector assembly and corresponding bolster plate features for receiving and securing a linear edge connector assembly. Embodiments of the disclosure are directed to a linear edge connector assembly that includes a grooved and indented receiver that can receive a spring loaded ball on the bolster plate. In embodiments, the linear edge connector assembly can include a magnetic element to create a magnetic attraction to magnetic elements on the bolster plate, such as a press-fit ball or a U-shaped hardstop. In some embodiments, the linear edge connector assembly includes a screw or push pin that can be received by a receiver on the bolster plate. The receiver can include a thread or friction fit receiver.

An electrical connector includes: an insulative housing having a base portion and a tongue portion extending forwardly from the base portion; a number of terminals retained in the insulative housing; a shielding shell attached to the insulative housing to form a receiving space; a metal shell for mounting on a printed circuit board, the metal shell being affixed to the shielding shell; and an insulative shell insert-molded with the metal shell and enclosing the shielding shell.

A connector is disclosed. The connector comprises a case having a top case and a bottom case and a partition plate disposed between the top case and the bottom case separating an inside space of the case into a plurality of receiving chambers. The bottom case has a first slot. The partition plate has a first side edge facing the bottom case and a first elastic hook formed on the first side edge. The first elastic hook is inserted into and elastically engages the first slot to connect the partition plate to the bottom case.

A card edge connector includes an insulative housing defining a card receiving slot extending along a longitudinal direction, a plurality of terminals retained in the housing and by two sides of the card receiving slot in a transverse direction perpendicular to the longitudinal direction, and a metallic guiding member retained to the housing at the end of the card receiving slot. The metallic guiding member includes a main body extending in a vertical direction perpendicular to both the longitudinal direction and the transverse direction, and a curved resilient guiding section upwardly extending from a top end of the main body. The housing forms a constraining wall at the end with a step structure so as to allow the guiding section of the guiding member to be freely support upon the step structure to function as a constrained beam during confrontation with the inserted card module.

An electronics housing assembly includes a first housing portion and a second housing portion removably connected to the first housing portion to define an interior space that contains electronics components. A first group of the electronics components is connected to the first housing portion and a second group of the electronics components is connected to the second housing portion. A connector alignment and retention panel is connected to the first housing portion. The connector alignment and retention panel includes a connector support platform with a first connector mounting location. A first electrical connector that is part of the first group of the electronics components is operatively engaged with the first connector mounting location of the panel such that the first electrical connector is mounted on the panel and located in a select position relative to the first housing portion. A first corresponding electrical connector that is part of the second group of said electronics components is operatively secured to the second housing portion and is operatively engaged with the first electrical connector mounted on the panel.

A harness component (1) includes a plurality of terminals (2), a housing (3) and a plurality of electric wires (4). The plurality of terminals (2) each have a rod-shaped rod terminal portion (21) connected to a circuit board (11), and a bent terminal portion (22) formed by bending a conductive plate. The housing (3) has a plurality of through-holes (31) and a plurality of terminal storage holes (32). The rod terminal portions (21) of the respective terminals (2) pass through the through-holes (31). The bent terminal portions (22) are arranged in the respective terminal storage holes (32). The terminal storage holes (32) are connected to the through-holes (31) and each have an opening (321) on the side opposite to the corresponding through-hole (31). Each of the electric wires (4) is inserted into the terminal storage hole (32) from the corresponding openings (321). Each of the electric wires (4) is fastened to the corresponding bent terminal portion (22).

An electronics housing assembly includes a first housing portion and a second housing portion removably connected to the first housing portion to define an interior space that contains electronics components. A first group of the electronics components is connected to the first housing portion and a second group of the electronics components is connected to the second housing portion. A connector alignment and retention panel is connected to the first housing portion. The connector alignment and retention panel includes a connector support platform with a first connector mounting location. A first electrical connector that is part of the first group of the electronics components is operatively engaged with the first connector mounting location of the panel such that the first electrical connector is mounted on the panel and located in a select position relative to the first housing portion. A first corresponding electrical connector that is part of the second group of said electronics components is operatively secured to the second housing portion and is operatively engaged with the first electrical connector mounted on the panel.

A wireless transmission device is provided. The wireless transmission device includes a body, a connection cable electrically connected to the body, and at least one fixing member. The body includes a slot and a first fixing base. The connection cable includes a plug and a second fixing base. The plug matches the slot, and the second fixing base and the first fixing base are opposite to each other in a vertical manner. The at least one fixing member is inserted into the first fixing base and the second fixing base to fix the plug in the slot. The present invention increases the coupling stability between the body and the connection cable, stabilizes signal transmission, reduces maintenance cost, and provides an integrated appearance.