A receptacle coupler includes a coupler contact assembly having upper and lower contacts each having a front mating beam configured to mate with a front module circuit board and a rear mating beam configured to mate with a rear module circuit board with an intermediate portion therebetween. The coupler contact assembly includes a contact holder holding the upper and lower contacts. The receptacle coupler includes a coupler housing having a contact chamber receiving the coupler contact assembly and front and rear receptacles configured to receive the module circuit boards. The coupler housing holds the coupler contact assembly with the front mating beams in the front receptacle for mating with the front module circuit board and the rear mating beams in the rear receptacle for mating with the rear module circuit board.

An electrical connector includes an insulating body with multiple accommodating slots, and multiple terminals accommodated in the accommodating slots. Each terminal has an elastic arm, a floating contact portion and a conducting portion. The elastic arm and the floating contact portion are provided at an interval. One end of the elastic arm is connected with the floating contact portion through an insulating block. When each terminal is mated with a first electronic component and a second electronic component, the conducting portion is electrically connected to the first electronic component, the floating contact portion is electrically connected to the second electronic component, the elastic arm provides an elastic force such that the floating contact portion moves downward, and the floating contact portion and the conducting portion are directly electrically connected.

A bridge element (3) for establishing an electrical connection and at least one mechanical connection between an actuator (1) and a bridge element (3) for a transmission control unit of a transmission includes first electrical contacts (5a, 6a) and second electrical contacts (5b, 6b), which are connected to the first electrical contacts (5a, 6a) with electrical conductors (5, 6), and at least first mechanical connecting elements (7, 8) proximate the first electrical contacts (5a, 6a).

A cable termination that provides low signal distortion even at high frequencies. Conductive elements of the cable are fused to edges of signal conductors in a cable connector or other component terminating the cable. For terminating a differential pair, the conductive elements of the cable may be terminated to opposing edges of a pair of signal conductors in the cable termination. The conductive elements may be shaped such that the spacing between signal paths passing through the conductive elements of the cable and into the signal conductors of the cable termination is uniform.

The construction of a medical device having a disposable element is disclosed. Detachable elements comprising a body having a retention feature, an electrical contactor, and sensors are also disclosed. Further disclosed are detachable elements comprising a body having a hole and a retention pocket, an electrical contactor, and a printed circuit board assembly (PCB) in contact with the innermost surface of the body that forms the retention pocket. Further disclosed are detachable elements comprising a body having an opening and a printed film comprising conductive elements, where the conductive elements comprise a sensor configured to be aligned with the opening to expose the sensor. Further disclosed are reusable components having matching retention features.

Disclosed is a connector assembly. The connector assembly comprises a first connector and a second connector, wherein the first connector comprises a first base body, a first ground terminal and a first shielding piece, the first ground terminal and the first shielding piece are both arranged on the first base body, and the first ground terminal is electrically connected to the first shielding piece; and the second connector comprises a second base body, a second ground terminal and a second shielding piece, the second ground terminal and the second shielding piece are both arranged on the second base body, the second ground terminal is electrically connected to the second shielding piece, and the second ground terminal is electrically connected to the first ground terminal.

A fan connector structure is applicable to a system circuit board having a circuit board-end connector provided thereon and includes a fan having a fan frame main body and a fan-end connector projected from an outer side of the fan frame main body. The fan-end connector and the fan frame main body can be selectively integrally or non-integrally formed with each other. The fan-end connector is correspondingly connectable to the circuit board-end connector, so as to realize the purpose of automated and quick assembling of the fan to the system circuit board with less labor and time cost.

It is aimed to provide a connector device excellent in the reliability of a connecting operation. A connector device is provided with a first housing (11) to be mounted on a first circuit board (Pa), a plurality of mounting terminals (13) to be mounted into the first housing (11) and connected to the first circuit board (Pa), a plurality of movable terminals (40) individually rockable with the plurality of mounting terminals (13) as fulcrums and to be individually connected to a plurality of mating terminals (36), and a coupling member (60) formed such that the plurality of movable terminals (40) are passed therethrough.

A connector that enables electronic assemblies to be efficiently configured for any of multiple power requirements. The connector may have a mating interface, which may mate with a power supply, a mounting interface for attaching the connector to a PCB and a power tap off interface. The power tap off interface enables distribution of a portion of the power received through the mating interface to remote locations on the PCB. Terminals with portions at each of the mating interface, mounting interface and power tap off interface may be formed from subassemblies, with conductors of one terminal subassembly engaging conductors of another subassembly. One subassembly may have conductors with mating contact portions at one end and a body portion with holes at the other end. Another subassembly may have conductors with tails passing through and engaging the holes in the body portion of the other.

Devices and methods for a sealed electrical connector are described herein. Some embodiments include a spring connecting a first PCB to a second PCB, wherein the spring includes a first end portion in contact with the first PCB, a second end portion in contact with the second PCB, and a middle portion extending between the first end portion and the second end portion, a spacer surrounding the middle portion of the spring, a first seal seated in a first groove of the spacer and in contact with the first PCB, and a second seal seated in a second groove of the spacer and in contact with the second PCB.