A module includes a substrate, a component mounted on a top surface that is one principal surface of the substrate, a first shielding film provided on a top surface and a side surface of the component, a sealing resin provided on the top surface of the substrate and seals the component, and a second shielding film provided on a top surface of the sealing resin. A hole is provided on a top surface of the sealing resin, to reach at least a part of the first shielding film. The second shielding film disposed in the hole is brought into contact with the first shielding film at positions facing a top surface and a side surface of the component.

A method for manufacturing a structure for embedding and packaging multiple devices by layer includes preparing a polymer supporting frame, mounting a first device in a first device placement mouth frame to form a first packaging layer, forming a first circuit layer and a second circuit layer, forming a second conductive copper pillar layer and a second sacrificial copper pillar layer, forming a second insulating layer on the first circuit layer, and forming a third insulating layer on the second circuit layer, forming a second device placement mouth frame vertically overlapped with the first device placement mouth frame, mounting a second device and a third device in the second device placement mouth frame to form a second packaging layer, forming a third circuit layer on the second insulating layer. A terminal of the second device and a terminal of the third device are respectively communicated with the third circuit layer.

Embodiments are related to fluidic assembly and, more particularly, to systems and methods for forming physical structures on a substrate.

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.

The present disclosure provides circuits and methods for fabricating circuits. A circuit may include an insulator having a first surface, a second surface, a periphery, a first subset of circuit elements disposed on the first surface, a second subset of circuit elements disposed on the second surface, and at least one conductive sidewall disposed on the periphery, wherein the conductive sidewall electrically couples the first subset of circuit elements to the second subset of circuit elements.

A component built-in board comprises a multi-layer structure comprising a plurality of unit boards stacked therein a plurality of electronic components built in thereto in a stacking direction. The plurality of unit boards include: a first board having a first insulating layer and comprising an opening in which the electronic component is housed; and an intermediate board adjacent to the first board and comprising a first adhesive layer provided on at least a side of the first board of a second insulating layer. The intermediate board includes a first wiring layer formed at a position overlapping in the stacking direction a gap between an inner periphery of the opening and an outer periphery of the electronic component of the first board on a surface on the first board side of the second insulating layer.

The present disclosure relates to a printed circuit board and a method of manufacturing the same. The printed circuit board includes: an insulating layer; a plurality of pads disposed on the insulating layer; and a plurality of insulating walls that are disposed on the insulating layer and cover side surfaces of the plurality of pads, respectively, but are not disposed on upper surfaces of the plurality of pads. The plurality of insulating walls are disposed to be spaced apart from each other on the first insulating layer.

A printed circuit board includes a wiring board including a plurality of insulating layers, a plurality of wiring layers, and a plurality of via layers, a first die embedded in the plurality of insulating layers, a bridge embedded on the first die in the plurality of insulating layers, a second die mounted on the wiring board, and a third die mounted on the wiring board.

A printed circuit board (PCB) includes a substrate including a first insulating layer and first wiring patterns disposed on the first insulating layer, an optical sensing chip including a vertical cavity surface emitting laser (VCSEL) and a photodiode, disposed on the first insulating layer to be in contact with at least one of the first wiring patterns, a transimpedance amplifier (TIA) chip disposed to be spaced apart from the optical sensing chip on the first insulating layer and disposed to be in contact with at least one first wiring pattern, different from the first wiring pattern connected to the optical sensing chip, among the first wiring patterns, and a dielectric layer stacked on the substrate and having a hole exposing the VCSEL and the photodiode of the optical sensing chip. The optical sensing chip and the transimpedance amplifier chip are connected through a wiring pattern disposed on the dielectric layer.

A disclosed circuit arrangement includes a substrate having first bond pads coupled to a pattern of conductors. The first bond pads and the pattern of conductors are disposed on a first surface of the substrate. A first layer of adhesive is directly disposed on the first surface of the substrate and the pattern of conductors and has openings at the first bond pads. An electronic device has opposing first and second surfaces and is attached to the first surface of the substrate by the first surface of the electronic device in contact with the first layer of adhesive. The second surface of the electronic device has second bond pads. Bond wires are connected at the first bond pads through the openings in the first layer of adhesive and connected at the second bond pads.