A connector includes a housing provided with an accommodating cavity and a first opening communicating with the accommodating cavity; a circuit board disposed in the accommodating cavity and provided with a first signal connection point; a connection head disposed on the housing and including a second signal connection point for external device connection; and a switch disposed in the first opening, being respectively connected to the first signal connection point and the second signal connection point. The switch is used for controlling the connection or disconnection between the first signal connection point and the second signal connection point. In the above-mentioned manner, the connector and a heavy load may be disconnected by the switch when the connector is pulled out, so that risks of instant ignition and short circuit caused by the connector pulled out may be avoided, and safety accidents may be reduced.

A coaxial connector device includes: a signal contact member; a signal contact member; a ground contact member to which a ground potential is applied; and a conductive member including a rear ground connection portion that is connected to the ground contact member, and a front ground connection portion that is connected to a ground contact portion of a mating connector device. When viewed in a direction of fitting to the mating connector device, the front ground connection portion overlaps at least a part of a signal line including a center conductor of a coaxial cable and the signal contact member, and at least a part of a signal line including a center conductor of a coaxial cable and the signal contact member.

A coaxial connector device includes: a signal contact member; a signal contact member; a ground contact member to which a ground potential is applied; and a conductive member including a rear ground connection portion that is connected to the ground contact member, and a front ground connection portion that is connected to a ground contact portion of a mating connector device. When viewed in a direction of fitting to the mating connector device, the front ground connection portion overlaps at least a part of a signal line including a center conductor of a coaxial cable and the signal contact member, and at least a part of a signal line including a center conductor of a coaxial cable and the signal contact member.

A connector includes a contact connected to a flexible conductor, a housing that is attached to a flexible substrate and retains the contact, and a protection sheet that is constituted of an insulating film having a pressure-sensitive adhesive layer formed on one surface thereof and is disposed between the housing and the flexible substrate such that the pressure-sensitive adhesive layer faces the flexible substrate, the protection sheet being disposed so as to cover at least a front surface part of the flexible substrate on which the flexible conductor is formed, and is adhered to the flexible substrate with the pressure-sensitive adhesive layer, the housing having a flat surface facing the flexible substrate, an adhesive layer bonding the housing to the protection sheet being disposed between the flat surface and the protection sheet.

A wire-end connector and a connector assembly are provided. The connector assembly includes the wire-end connector and a board-end connector. The wire-end connector includes a housing, multiple conductive wires, and multiple conductive terminals. The housing includes an insulating body with multiple apertures disposed therein, an elastic latch arm, and a flange. The flange is arranged along an outer side of a first opening, and two limiting arms are respectively formed at two end portions of the flange that are adjacent to the elastic latch arm. A midline is defined by each of first partition walls along a third direction, the two adjacent midlines are spaced apart from each other by an interval, and each of the intervals is at least twice a width of each of the first partition walls. The conductive terminals are disposed in the apertures, respectively.

A wire-end connector and a connector assembly are provided. The connector assembly includes the wire-end connector and a board-end connector. The wire-end connector includes a housing, multiple conductive wires, and multiple conductive terminals. The housing includes an insulating body with multiple apertures disposed therein, an elastic latch arm, and a flange. The flange is arranged along an outer side of a first opening, and two limiting arms are respectively formed at two end portions of the flange that are adjacent to the elastic latch arm. A midline is defined by each of first partition walls along a third direction, the two adjacent midlines are spaced apart from each other by an interval, and each of the intervals is at least twice a width of each of the first partition walls. The conductive terminals are disposed in the apertures, respectively.

A connector for plugging into a bus bar comprises a housing with a first side wall, a second side wall, and a connecting channel between the first side wall and the second side wall. A plurality of power terminals each having an electrical connection part are provided inside the connecting channel and are adapted to electrically connect with the bus bar. A plurality of grounding terminals are each disposed on the first side wall and the second side wall outside the connecting channel respectively. Each of the grounding terminals have an elastic first finger. An auxiliary support member is provided and supports the first finger.

A connector for plugging into a bus bar comprises a housing with a first side wall, a second side wall, and a connecting channel between the first side wall and the second side wall. A plurality of power terminals each having an electrical connection part are provided inside the connecting channel and are adapted to electrically connect with the bus bar. A plurality of grounding terminals are each disposed on the first side wall and the second side wall outside the connecting channel respectively. Each of the grounding terminals have an elastic first finger. An auxiliary support member is provided and supports the first finger.

An impact-resistant cable connector includes a connector body, and a resilient block having a first surface facing the connector body and separated from the connector body by a first distance, a second surface opposite the first surface, and one or more bores, each of the one or more bores running through both the first surface and the second surface. One or more wires are coupled to the connector body, each respective one of the wires passing through a respective one of the bores. The resilient block is configured to limit bending of the one or more wires about a first axis parallel to the first surface. Such configuration may include spacing the resilient block away from the first surface by a first distance that is less than half the height of the resilient block.

An impact-resistant cable connector includes a connector body, and a resilient block having a first surface facing the connector body and separated from the connector body by a first distance, a second surface opposite the first surface, and one or more bores, each of the one or more bores running through both the first surface and the second surface. One or more wires are coupled to the connector body, each respective one of the wires passing through a respective one of the bores. The resilient block is configured to limit bending of the one or more wires about a first axis parallel to the first surface. Such configuration may include spacing the resilient block away from the first surface by a first distance that is less than half the height of the resilient block.