A method of manufacturing a component carrier includes (i) forming a stack having at least one electrically conductive layer structure and/or at least one electrically insulating layer structure; (ii) assembling a component to the stack; and (iii) forming a thermally conductive tongue having an embedded portion embedded in the stack and having an exposed portion protruding beyond the stack, where a first width of the tongue in the embedded portion is different from a second width of the tongue in the exposed portion. A corresponding component carrier includes analogous features.

A cable connection apparatus, a connection assembly, and a method for manufacturing the connection assembly are provided. The cable connection apparatus includes: a back plate and a connection member. The back plate includes a plate body and a ground layer. The plate body defines a through hole and a plurality of shielding holes. The plurality of shielding holes are defined at a periphery of the through hole. The ground layer is arranged on each of two opposite sides of the plate body and is connected to each of the plurality of shielding holes. The connection member abuts against or connects to a surface of a side of the back plate arranged with the ground layer. The connection member is arranged with a signal pin, and the signal pin is received in the through hole.

The disclosure provides a bonding structure of a lateral side of a display panel, including an array substrate, a color filter, an inner circuit, and a lateral circuit. By defining a through hole in a gate insulating layer, a second metal layer may be directly connected to a first metal layer, thereby reducing layers flaked off from a glass when a lateral side of the glass is edged.

A substrate assembly includes at least one printed circuit (PC) substrate. Each PC substrate includes a PC top surface and a PC bottom surface spaced from each other and an edge that runs at least partially about a periphery of the PC substrate between the PC top surface and the PC bottom surface. The edge includes or defines on a facet or edge surface of the edge at least one projection that extends transverse or normal to the facet or edge surface. The projection includes a projection top surface and a projection bottom surface spaced from each other and the projection can include or be made of conductive material.

A printed circuit board includes a first transmission line provided on an insulating base, a first ground conductor, a notch portion that exposes a part of the first ground conductor, a conductor provided in the notch portion and electrically connected to the first ground conductor, and a first electrode exposed on a main surface of the insulating base facing a flexible board and electrically connected to the first transmission line. The flexible board includes a second transmission line provided on an insulating sheet, a second ground conductor, a second electrode exposed on a main surface of the insulating sheet facing the printed circuit board and connected to the second transmission line, and a third electrode exposed on the main surface of the insulating sheet and connected to the second ground conductor. The conductor and the third electrode are connected by solder.

Semiconductor assemblies including thermal layers and associated systems and methods are disclosed herein. In some embodiments, the semiconductor assemblies comprise one or more semiconductor devices over a substrate. The substrate includes a thermal layer configured to transfer thermal energy along a lateral plane and across the substrate. The thermal energy is transferred along a non-lateral direction from the semiconductor device to the graphene layer using one or more thermal connectors.

An electrical component is configured to allow electrical cables to be mounted directly to a package substrate, such that electrical traces of the package substrate directly place the electrical cables in electrical communication with an integrated circuit that is mounted to the package substrate without passing through any separable interfaces of an electrical connector.

An electronic device is provided. The electronic device includes a flexible circuit board and a conductive adhesive material. The flexible circuit board includes a first conductive layer, an adhesive layer, and a cover layer. The first conductive layer has a top surface, a bottom surface parallel to the top surface and a first side connected between the top surface and bottom surface. The adhesive layer is disposed on the top surface of the first conductive layer. The cover layer is disposed on the adhesive layer. The conductive adhesive material is disposed on the first conductive layer. In addition, the conductive adhesive material is in contact with the first side.

A circuit board including: a first board material layer having a first planar surface and a first sidewall surface perpendicular to the first planar surface; a first conductive layer on the first planar surface; a second board material layer stacked on the first board material layer and having a second planar surface and a second sidewall surface perpendicular to the second planar surface; a second conductive layer on the second planar surface; and a plating on the first sidewall surface and the second sidewall surface and electrically connecting the first conductive layer and the second conductive layer.

A module substrate for a semiconductor module including a wiring substrate having an upper surface and a lower surface opposite to each other and including a wiring formed therein, the wiring substrate having at least one through groove in at least one sidewall and extending in a thickness direction, and a through-groove test terminal including at least one contact pad, a surface of the contact pad being exposed from an inner wall of the through-groove, the contact pad being spaced apart from a vertical plane extending from the sidewall of the wiring substrate may be provided.