An assembly for an electrode connection device of an implant has a continuous receiving unit for a plug, a first connecting element which is arranged in a front region of the receiving unit and has at least two flat lateral surfaces, and a second connecting element, which is arranged in a rear region of the receiving unit. The second connecting element includes at least two flat lateral surfaces. Furthermore, an electrode connection device, an implant, and a method for mounting an electrode connection device all utilize the assembly.

A cable termination assembly configured for mounting to an interior portion of a printed circuit board. The cable termination assembly has a frame shaped to receive a paddle card to which a plurality of cables are terminated. A lid, when closed, may force the paddle card into contact with an interposer, which in turn may be pressed into a printed circuit board on which the cable termination assembly is mounted. Electrical signals may pass between the cables and traces in the printed circuit board via the paddle card and interposer. The termination assembly may be mounted near a processor or other high speed component on the printed circuit board, enabling high speed signals to be coupled with low loss between a periphery of the printed circuit board, or even a location off the printed circuit board, and the high speed component.

A bus bar assembly installed in a frame for fixing a plurality of stacked battery cells is provided. The bus bar assembly may include: a bus bar fixed to the frame; a flexible printed circuit board electrically connected to the bus bar and configured to sense the plurality of battery cells; and a connection terminal having a protrusion formed on one surface of the connection terminal, is the protrusion being configured to pass through the flexible printed circuit board so as to be electrically connected to the flexible printed circuit board, and the connection terminal configured to be electrically connected to the bus bar through the opposite surface of the one surface, the opposite surface being bonded to the bus bar.

A ribbon cable connector is fixed at an end of a ribbon cable. The ribbon cable has a plurality of electrical conductors extending parallel and distanced to one another. The ribbon cable connector includes an insertion slot extending in a plugging direction and receiving the ribbon cable, a plurality of contact element receptacles extending parallel and distanced to one another, a plurality of bulges in the insertion slot extending parallel to one another and aligned with the contact element receptacles, and a clamping device configured to clamp the ribbon cable in the insertion slot. An end of the insertion slot inside of the ribbon cable connector adjoins the contact element receptacles in the plugging direction. The bulges are each separated from one another by a partition wall.

The present invention discloses an electrical connector and an electrical connector assembly. The electrical connector includes a circuit board, a connection port, and an insulating member. The circuit board has a conductive region, located on a surface of the circuit board. The connection port is arranged on the surface of the circuit board, and the connection port is electrically connected to the circuit board. The insulating member is arranged on the circuit board, and surrounds an outer periphery of the connection port. The insulating member includes a metal layer, arranged on an outer surface of the insulating member.

A connector for a flat flexible cable includes a housing and a spring clip disposed in the housing. The housing has a main body and a cover. The cover is movable with respect to the main body between an open position and a closed position. The spring clip is resiliently deflectable by the cover. The spring clip is in a first state with the cover in the open position in which the spring clip abuts a conductor exposed through an insulation material of the flat flexible cable with a first contact force. The spring clip is in a second state with the cover in the closed position in which the spring clip abuts the conductor with a second contact force greater than the first contact force.

An information handling system includes a first z-axis compression connector, a first dual in-line memory module (DIMM), a second z-axis compression connector, a second DIMM, and a printed circuit board. A first side of the first compression connector is affixed to the printed circuit board. A first surface of a first memory circuit board of the first DIMM is affixed to a second side of the compression connector. A first side of the second compression connector is affixed to a second side of the first memory circuit board. A first side of a second memory circuit board of the second DIMM is affixed to a second side of the second compression connector. The first compression connector has a first depth, and the second compression connector has a second depth that is different from the first depth.

A connector for receiving a ribbon cable, to be assembled via a clamping tool, is provided. The connector includes a housing, a cover, and a protection cap. The housing includes an open top and a bottom. The cover is configured to selectively cover the open top of the housing to enclose the ribbon cable within an interior of the housing. The protection cap is configured to cover the bottom of the housing. The protection cap includes a nonplanar surface with a bump, where the clamping tool contacts the cover and the bump to force the cover toward the housing when the connector is assembled.

An electrical connector is provided. The electrical connector may include a body; a terminal portion disposed on the body; and a flexible printed circuit board (FPCB) electrically connected to the terminal portion, wherein the body includes a first part on which the terminal portion is disposed, a second part disposed on one side of the first part in a vertical direction, and a third part disposed on the other side of the first part and coupled to the second part, the FPCB includes a first region and a second region extending from the first region and including a contact point connected to the terminal portion, and the second region is disposed between the first part and the third part in a front-to-rear direction and is fixed to the first part.

An electrical connector is provided. The electrical connector may include a body; a terminal portion disposed on the body; and a flexible printed circuit board (FPCB) electrically connected to the terminal portion, wherein the body includes a first part on which the terminal portion is disposed, a second part disposed on one side of the first part in a vertical direction, and a third part disposed on the other side of the first part and coupled to the second part, the FPCB includes a first region and a second region extending from the first region and including a contact point connected to the terminal portion, and the second region is disposed between the first part and the third part in a front-to-rear direction and is fixed to the first part.