A circuit substrate includes a core substrate having cavity penetrating through the core substrate, a metal block accommodated in the cavity of the core substrate, a first build-up layer including an insulating layer and laminated on first side of the core substrate such that the first build-up layer is covering the cavity on the first side of the core substrate, and a second build-up layer including an insulating layer and laminated on second side of the core substrate such that the second build-up layer is covering the cavity on the second side of the core substrate, and a filling resin filling gap formed between the cavity and block positioned in the cavity of the core substrate. The block has roughened surfaces such that the roughened surfaces are in contact with the insulating layers in the first and second build-up layers on the first and second sides of the core substrate.

A through-hole electrode substrate includes a substrate including a through-hole extending from a first aperture of a first surface to a second aperture of a second surface, an area of the second aperture being larger than that of the first aperture, the through-hole having a minimum aperture part between the first aperture and the second aperture, wherein an area of the minimum aperture part in a planar view is smallest among a plurality of areas of the through-hole in a planar view, a filler arranged within the 10 through-hole, and at least one gas discharge member contacting the filler exposed to one of the first surface and the second surface.

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 multilayer wiring board has a high degree of freedom of wiring design and can realize high-density wiring, and a method to simply manufacture the multilayer wiring board. A core substrate with two or more wiring layers provided thereon through an electrical insulating layer. The core substrate has a plurality of throughholes filled with an electroconductive material, and the front side and back side of the core substrate have been electrically conducted to each other by the electroconductive material. The throughholes have an opening diameter in the range of 10 to 100 m. An insulation layer and an electroconductive material diffusion barrier layer are also provided, and the electroconductive material is filled into the throughholes through the insulation layer. A first wiring layer provided through an electrical insulating layer on the core substrate is connected to the electroconductive material filled into the throughhole through via.

The present invention is to provide a wiring board which can prevent whitening. The wiring board is made of a fiber reinforced resin plate, and has a through hole and a whitening prevention portion. The whitening prevention portion is made only with matrix resin forming the fiber reinforced resin plate, and is integrally formed in the fiber reinforced resin plate. Furthermore, the whitening prevention portion is arranged around the through hole.

A multilayer wiring board has a high degree of freedom of wiring design and can realize high-density wiring, and a method to simply manufacture the multilayer wiring board. A core substrate with two or more wiring layers provided thereon through an electrical insulating layer. The core substrate has a plurality of throughholes filled with an electroconductive material, and the front side and back side of the core substrate have been electrically conducted to each other by the electroconductive material. The throughholes have an opening diameter in the range of 10 to 100 m. An insulation layer and an electroconductive material diffusion barrier layer are also provided, and the electroconductive material is filled into the throughholes through the insulation layer. A first wiring layer provided through an electrical insulating layer on the core substrate is connected to the electroconductive material filled into the throughhole through via.

A circuit board includes a first thermally conductive structure comprising a cavity or a recess portion. At least a portion of the first thermally conductive structure is inserted into an insulating part. An electronic device comprising a portion thereof inserted in the cavity or the recess portion.

A heat dissipation printed circuit board includes a metal core, lower and upper insulating layers, first lower and first upper circuit patterns, and second lower and second upper circuit patterns. The lower and upper insulating layers are disposed at a lower side and an upper side of the metal core, respectively. The first lower and first upper circuit patterns are disposed at a lower side of the lower insulating layer and at an upper side of the upper insulating layer, respectively. The second lower and second upper circuit patterns are disposed at a lower side of the first lower circuit pattern and at an upper side of the first upper circuit pattern, respectively. An etching portion in the first lower circuit pattern is filled with the lower insulating layer and an etching portion in the first upper circuit pattern is filled with the upper insulating layer.

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 is a module substrate including an inductor that can be made thinner and smaller. A module substrate according to an aspect of the present invention includes a substrate member having a mounting surface on which electronic components are mounted, a magnetic core disposed within the substrate member, and a conductor coil provided in the substrate member and wound around the magnetic core. The module substrate has a configuration in which an inductor is built into the substrate member, which makes it possible to make the overall module substrate smaller and thinner.