A printed circuit board includes: a wiring substrate including a plurality of insulating layers, a plurality of wiring layers, and a plurality of via layers; and a bridge embedded in the wiring substrate and having a plurality of connection pads thereon. An uppermost wiring layer of the plurality of wiring layers includes a plurality of bump pads connected to the plurality of connection pads, and a pitch between at least two adjacent connection pads of the plurality of connection pads is larger than a pitch between at least two adjacent ones of the plurality of bump pads.

A printed circuit board including: a first insulating layer; a first wiring layer disposed on an upper surface of the first insulating layer, and including a first wiring portion and a second wiring portion; and a second insulating layer disposed on the upper surface of the first insulating layer, having a cavity exposing an upper surface of the second wiring portion, and including a first insulating portion covering the first wiring portion and a second insulating portion whose upper surface is exposed from the cavity, wherein one or more gaps are provided between the second wiring portion and the second insulating portion.

A printed circuit board includes a first insulating layer having a through cavity and containing an insulating material. A length between one side surface and the other side surface opposite to the one side surface of the through cavity is greater than a thickness of the first insulating layer, and the first insulating layer includes a recess located in each of an upper edge and a lower edge of the one side surface of the through cavity.

A package circuit structure includes a multilayer circuit board, an electronic component, and an insulating layer. The multilayer circuit board includes a metal portion and an opening. The opening is extending from a first side of the multilayer circuit board toward the second side of the multilayer circuit board facing the first side. A bottom of the opening is sealed by the metal portion. The electronic component is received in the opening and adhered to the metal portion. The electronic component is electrically connected to the multilayer circuit board and encapsulated in the opening by the insulating layer. A method for manufacturing the package circuit structure is also provided.

A printed circuit board can include a substrate layer, a first metal layer disposed over the substrate layer, a core layer disposed over the first metal layer, and a second metal layer disposed over the core layer, where the core layer defines a closed cavity between the first and second metal layers. Optionally, the cavity is filled with air and operates as an antenna.

A printed circuit board includes: a core portion including a cavity in one surface thereof; first and second penetration holes disposed in a bottom surface of the cavity and penetrating through the core portion; an electronic component disposed in the cavity; and an insulating material filling the cavity and each of the first and second penetration holes, wherein a sidewall of the cavity is higher than the electronic component.

A semiconductor integrated circuit device (101) includes a component built-in board (21) in which at least a first core layer (Co21) on which a first electronic component (C21) is mounted, a second core layer (Co22) on which a second electronic component (C22) is mounted, an adhesive layer (Ad21) arranged between the first core layer (Co21) and the second core layer (Co22), and wiring layers (L21-L28) are stacked; a third electronic component (SoC) mounted in a first core layer (Co21) side of the component built-in board (21) and electrically connected to at least one of the first and second electronic components (C21, C22) through the wiring layers (L21 to L28); and an external connection terminal (BE) formed in a second core layer (Co22) side of the component built-in board (21) and electrically connected to at least one of the first and second electronic components (C21, C22).

A method of manufacturing a circuit board is provided. The method includes forming an open substrate, in which the open substrate includes a substrate body having a top surface and a bottom surface; an opening in the substrate body, in which the opening has a first sidewall and a second sidewall opposite to the first sidewall; and at least one first fixing portion and at least one second fixing portion extending from the substrate body toward the opening, in which the first fixing portion and the second fixing portion are respectively protruded from the first sidewall and the second sidewall. A heat dissipation block is inserted in the opening to clamp the heat dissipation block between the first fixing portion and the second fixing portion, in which the heat dissipation block includes the heat dissipation block comprises a ceramic or a composite material.

A circuit board includes a main portion and at least one uneven portion. The main portion is obtained by stacking a plurality of base sheets made of a flexible material in a predetermined direction and subjecting the stacked base sheets to compression bonding. The at least one uneven portion is provided on one of the base sheets. The uneven portion includes a concave portion and a convex portion extending in a direction perpendicular or substantially perpendicular to the predetermined direction. The concave portion is sunken in the predetermined direction. The convex portion protrudes in an opposite direction to the predetermined direction.

A circuit board includes an insulation part, a support layer disposed on the insulation part, a metal case disposed in the insulation part, a heat-exchanging fluid distributed within the enclosed space, and a first porous material distributed within the enclosed space. The metal case is thermally coupled to the support layer and includes a first inner surface, a second inner surface opposite to the first inner surface and positioned between the first inner surface and the support layer, a third inner surface connecting the first inner surface and the second inner surface, and an enclosed space surrounded by the first inner surface, the second inner surface and the third inner surface. The first porous material is disposed on the first inner surface.