An electrical connector is adapted to be retained in a non-conducting housing and electrically connecting a first component to a second component spaced from one another. The connector includes a first end having a first contact portion for electrically communicating with the first component. A second end of the connector has a second contact portion for electrically communicating with the second component. The second end has a cantilevered beam adapted to flex at a knee portion to bias the second contact portion against an electrical contact surface of the second component. An attachment portion is disposed between the first and second ends. The attachment portion includes an engagement portion providing an interference fit with a mating groove of the housing in which the connector is retained.

An electrical connector assembly includes a board end connector and a wire end connector. The board end connector includes a board end connector shell and a board end connector body. The wire end connector includes a wire end case and a tongue plate. At least one guide piece is extended from one of the board end connector shell and the wire end case, and a remaining one of the board end connector shell and the wire end case is provided with at least one guide slot for creating a butt joint with the guide piece. The electrical connector assembly of the present disclosure utilizes the space of the board end to the maximum extent, solves the problem that the CPU occupies the space of the board end due to the increased size of the heat dissipation module, and can realize high-speed data transmission.

An electrical connector includes an outer cover and a number of conductive terminals. The outer cover includes a mating surface. Each conductive terminal includes a first extension portion and a mating portion connected to the first extension portion. The mating portion extends toward the mating surface in a mating direction. Each conductive terminal further includes a curved portion connected to the first extension portion. The curved portion has at least one deformable curved structure along a first direction parallel to the mating direction. The deformable curved structure is configured to provide elastic force to the mating portion.

A connector is provided that includes a terminal for which, taking a plate width direction of a first retained portion as a first plate width direction, a plate thickness direction of a second retained portion faces in a direction intersecting with a flat plane perpendicular to the first plate width direction, and that is easy to manufacture and is applicable to high speed transmission.

The present disclosure provides, in one aspect, an autonomous cleaning robot including a body, a drive operable to move the body across a floor surface, and a circuit board mounted below an upper surface of the body of the autonomous cleaning robot. The autonomous cleaning robot also includes one or more electrical contacts, a base of each electrical contact being mounted on the circuit board and a contact tip of each electrical contact being configured to protrude through a corresponding opening in the upper surface, wherein each electrical contact comprises a double curved structure to allow the electrical contact to be vertically flexible. The autonomous cleaning robot also includes a hinged lid including one or more contact pads, the one or more contact pads being configured to contact corresponding electrical contacts protruding through the upper surface as the lid is opened or closed.

An electrical assembly includes a circuit board, a shunt busbar; a connector including a first conductive resilient member and a second conductive resilient member, and a controller. The first conductive resilient member and the second conductive resilient member may be disposed substantially between the circuit board and the shunt busbar. The first conductive resilient member and the second conductive resilient member may electrically connect the controller with the shunt busbar.

The present invention relates to a cavity filter including: an RF signal connecting portion spaced apart, by a predetermined distance, from an outer member having an electrode pad provided on a surface thereof; and a terminal portion configured to electrically connect the electrode pad of the outer member and the RF signal connecting portion so as to absorb assembly tolerance existing at the predetermined distance and to prevent disconnection of the electric flow between the electrode pad and the RF signal connecting portion, wherein a part of the terminal portion, positioned between the electrode pad and the RF signal connecting portion, is elastically deformed to absorb assembly tolerance existing in a terminal insertion port. Therefore, the cavity filter can efficiently absorb assembly tolerance which occurs through assembly design, and prevent disconnection of an electric flow, thereby preventing degradation in performance of an antenna device.

An electrical contact is provided for connecting together substrates. The electrical contact has a longitudinal axis and includes first and second structures that are connected together to prevent relative movement between each other. The first structure extends along the longitudinal axis and has a rigid construction. The second structure includes a spring portion and a mounting portion. The spring portion is resiliently deflectable in the direction of the longitudinal axis. The mounting portion is adapted for securement to one of the substrates. A press-fit portion is provided that extends along the longitudinal axis and is adapted for press-fit insertion into a hole of the other one of the substrates. The press-fit portion may be part of the first structure or the second structure. In addition, the first structure may be composed of metal or plastic.

A personal care device, such as an electric toothbrush, has a handle having a longitudinal axis and a treatment head connected to a carrier. The carrier extends within the handle and is mounted at the handle for pivoting motion around a pivot axis against a restoring spring force. A drive unit, such as a linear actuator, is mounted on the carrier, and at least one electrical connector is arranged between the handle and the carrier to convey electrical energy from an energy source fixedly mounted with respect to the handle to the drive unit. The electrical connector can be realized as an elastic metal sheet element having a spring constant for providing at least a part of the restoring spring force.

A coaxial connecting member (1) for transmitting radio-frequency signals between a first and a second circuit board (2, 3) includes an inner conductor (4), an outer conductor (5) and an insulating member (6) arranged between the inner conductor (4) and the outer conductor (5). The inner conductor (4) and/or the outer conductor (5) comprise a first and a second end section (7, 8) to interconnect the inner conductor (4) to the first and the second circuit board (2, 3). The first and the second end section (7, 8) are interconnected to each other by at least one elastically deformable transversal section (9) to compensate axial and/or lateral misalignment of the first and the second circuit board (2, 3) with respect to each other.