A method for manufacturing a wiring circuit board that is a double-sided wiring circuit board includes a first step of preparing a laminate and a second step. The laminate includes a metal core layer, insulating layer, and conductor layers. The insulating layer has a region and an opening that are adjacent to each other. The insulating layer has a region including a part facing the region in a thickness direction, and an opening adjacent to the region. The conductor layer includes a wiring portion and a conductive portion. The conductor layer includes a wiring portion and a conductive portion. In the second step, the first and second etching treatments for etching the metal core layer through the openings are carried out to form a via portion having a periphery surrounded by a space, extending between the regions, and connected to the conductive portions.

A circuit board includes a metal substrate, a resin layer, an insulating layer, and a first conductive structure. The metal substrate has a first through hole, and the first through hole has a first width. A portion of the resin layer is disposed in the first through hole. The resin layer has a second through hole. The second through hole has a second width. The insulating layer is disposed on at least one surface of the metal substrate, and a portion of the insulating layer contacts the resin layer. The first conductive structure is disposed in the second through hole. The first conductive structure penetrates through the metal substrate. The first width is greater than the second width. A manufacturing method of the circuit board is also provided.

Provided are a battery apparatus including: a battery pack including a plurality of battery cells; a battery management system (BMS) for managing the plurality of battery cells; a board to which the BMS is mounted, the board including an insulation layer and a conductive layer; a plurality of wires extending from the plurality of battery cells onto the board; a plurality of through-holes formed in the board, the plurality of wires extending through the plurality of through-holes; a plurality of non-conductive areas, each of the plurality of non-conductive areas being formed on an area around a respective one of the plurality of through-holes; and a plurality of soldering parts, each of the plurality of soldering parts being formed on the respective one of the plurality of through-holes.

A wiring board includes: a metal plate having first and second surfaces opposite to each other, and having at least one through-hole penetrating through the first and second surfaces; at least one conductive via respectively disposed in the through-hole and spaced apart from the metal plate; an insulating structure including at least one through-insulating portion disposed between the through-hole and the conductive via, and a first insulating layer and a second insulating layer extending from the through-insulating portion and disposed in first regions surrounding the conductive via, on the first surface and the second surface, respectively; at least one first upper pad disposed on the first insulating layer and electrically connected to the conductive via; at least one first lower pad disposed on the second insulating layer and electrically connected to the conductive via; a second upper pad disposed on the first surface of the metal plate; and a second lower pad disposed on the second surface of the metal plate and electrically connected to the first upper pad through the metal plate.

A substrate comprises: a first insulating layer; a second insulating layer having an elastic modulus that is different from an elastic modulus of the first insulating layer; and a core layer that is sandwiched by the first insulating layer and the second insulating layer, and is more rigid than the first insulating layer and the second insulating layer.

A carrier comprises: a main body made of a material comprising a thermal conductivity of at least 380 W/(m K), wherein the main body comprises a mounting surface for mechanical and thermal connection with a component, wherein the main body comprises a recess which penetrates the main body along a first direction perpendicular to the main extension plane of the main body, an electrically insulating filler is arranged in the recess, which comprises a further recess penetrating the filler along the first direction, an inner wall of the filler surrounding the further recess is provided with an electrically conductive coating to form a via through the main body.

There are provided an insulating film, a printed circuit board including the insulating film, and a method of manufacturing the printed circuit board. The insulating film includes a first insulating material; a second insulating material; and a metal thin film disposed between the first insulating material and the second insulating material.

A printed circuit board for high-power components includes at least two dielectric layers. A thermally-conductive embedded layer is disposed between two of the dielectric layers and includes one or more internal coolant channels. Thermal vias extend from the embedded layer to an exterior surface of at least one of the dielectric layers. At least one of the dielectric layers in the printed circuit board has an exterior surface on which one or more high power components may be mounted. In some implementations, there are at least two dielectric layers on a same side of the embedded layer and high power components may be located inside the printed circuit board between two dielectric layers. Thermal resistance between the high-power components and the embedded layer is decreased in comparison to typical surface-mounted cold plates, resulting in more efficient heat dissipation. In some implementations the embedded layer is also an electrical ground plane.

An interconnection substrate includes: a substrate having a first surface and a second surface opposite the first surface; and a transmission line including two parallel through-hole interconnections that are exposed to the first and second surfaces and are formed inside the substrate. Also, at least one of the two through-hole interconnections includes a narrow portion having a smaller diameter than a diameter of the through-hole interconnection in the first surface and a diameter of the through-hole interconnection in the second surface.

A wiring circuit board includes a metal support layer, a base insulating layer disposed on one side in a thickness direction of the metal support layer, and a conductive layer disposed on one side in the thickness direction of the base insulating layer, and including a first terminal and a ground lead residual portion electrically connected to the first terminal. The base insulating layer has a through hole penetrating in the thickness direction. The ground lead residual portion has an opening continuous so as to surround the through hole.