A percutaneous connector assembly including a feedthrough assembly having a body and a plurality of electrically conductive feedthroughs extending through the body from a first end toward a second end thereof. A cable assembly having a plurality of conductors arranged side-by-side within a first plane to form a substantially flat portion thereof is included, each conductor being connected to a corresponding feedthrough of the feedthrough assembly and the flat portion extending from the body.

A connection device for connecting a multicore branch line to a flat cable has a connection device housing that allows the flat cable to pass through, and penetration contacts for contacting the flat cable without stripping of the insulation. The penetration contacts are situated in the connection device housing. The connection device also has an electrical disconnection point between the branch line and the flat cable, and at least one seal in the area of at least one opening of the connection device housing for protection from penetration of dust and/or water. The connection device housing is made, at least partially, of plastic, and on its outer side or inner side is coated with a diffusion barrier layer, wherein the diffusion barrier layer includes one or more layers, one of which is a metallic layer.

Provided herein are systems and apparatus for reducing vibration interaction between hard drives. In one implementation, a flexible mount electrical connection comprises a mating connector configured to physically couple with a hard drive connector and a plurality of electrical pins having a connector portion positioned within the mating connector configured to electrically couple with hard drive connector pins positioned within the hard drive connector. Each electrical pin has an extended portion extending away from the mating connector. The extended portion has an attachment portion configured to electrically couple the respective electrical pin to a printed circuit board, and the extended portion has a shape formed therein configured to reduce transmission of vibrations in the connector portion along each axis of a three-dimensional space to the attachment portion.

A connector assembly for voltage monitoring of bus bars electrically connecting adjacent battery cells of a battery module includes a connector having a plurality of terminals configured to be mated with a control module connector associated with the battery module. A multi-wire planar cable extends from the connector. The multi-wire planar cable has a plurality of wires terminated to corresponding terminals and a common jacket for the plurality of wires. The jacket has grooves between adjacent wires for controlled separation of the wires and surrounding jacket portions at a sensor end of the multi-wire planar cable to define separated planar cable segments. The separated planar cable segments are routed to different areas for termination to different voltage sensors associated with corresponding bus bars.

A flexible printed circuit board for coupling to a connector having a plurality of contacts includes a flexible film, a plurality of electrodes disposed on at least one face of the film and configured to come in contact with the contacts of the connector, and one or more slits formed in the film between adjacent electrodes among the plurality of electrodes.

A battery module includes a cell stack formed by stacking a plurality of battery cells; a bus bar frame assembly; and an outer terminal. The bus bar frame assembly includes a bus bar frame and a plurality of bus bars fixed on the bus bar frame and electrically connected to the battery cells, the bus bar frame being configured to cover first and second opposing longitudinal ends of the cell stack, and the outer terminal is connected to the plurality of bus bars. A pair of electrode leads of each of the battery cells are formed at locations offset downwardly from a center of the cell stack in a height direction, and the outer terminal is disposed in the space formed above the electrode leads due to the offsetting of the electrode leads.

Embodiments of this disclosure provide a wiring connector, a flexible printed circuit, a touch panel, and a display device, and the wiring connector includes: a male joint including a first body, first lead terminals arranged on the first body, and two grooves arranged on the first body along an arrangement direction of the first lead terminals; and a female joint including a second body, second lead terminals arranged on the second body, and two clamp structures installed on the second body, wherein the second lead terminals can be socketed respectively with the first lead terminals; and when the second lead terminals are socketed respectively with the first lead terminals, the two clamp structures clamp respectively into the two grooves on the first body.

A semiconductor device assembly that includes a flexible member having a first portion connected to a substrate and a connector attached to a second portion of the flexible member. The connector is electrically connected to the substrate via a conducting layer within the flexible member. The substrate may be a semiconductor device, such as a chip. The connector may be configured to connect the semiconductor device to another semiconductor device assembly or a system board, such as a printed circuit board. A material may encapsulate at least a portion of the substrate of the semiconductor assembly. The semiconductor device assembly may be formed by selectively connecting the flexible member to a first substrate. A second substrate and connector may then be connected to the flexible member. A release layer may be used to release the assembly of the second substrate, flexible member, and connector from the first substrate.

A cable connector assembly includes: a mating portion; a flat cable electrically connecting with the mating portion, the flat cable having plural wires and an outer boot enclosed the wires, the wires including a first wire and a second wire; an inner mold enclosing a part of the mating portion and a part of the flat cable; and a shielding shell enclosed the inner mold, wherein the first wire is a core wire directly enclosed by the outer boot and the second wire comprises a core wire and an insulative layer enclosing the associated core wire.

A connector has a plurality of terminals aligned in a left/right direction, and a housing that configures a space in which a flat cable can be inserted from a front side to a rear side and holds the terminals on an inside of the space. The housing has two locking convex portions positioned on the inside of the space and in the left/right direction of the terminals, protruding toward an upper side from a lower side, and that catch in notches or holes formed in the left and right sides of the cable. Finally, the housing has a biasing member that is positioned on the inside of the space, formed on an upper side of the space, arranged closer to a center in the left/right direction than the two locking convex portions, and that biases the cable inserted in the space toward a lower side of the space.