A semiconductor device includes a circuit substrate, a semiconductor package, and a metallic cover. The semiconductor package is disposed on the circuit substrate. The metallic cover is disposed over the semiconductor package and over the circuit substrate. The metallic cover comprises a lid and outer flanges. The lid overlies the semiconductor package. The outer flanges are disposed at edges of the lid, are connected with the lid, extend from the lid towards the circuit substrate, and face side surfaces of the semiconductor package. The lid has a first region that is located over the semiconductor package and is thicker than a second region that is located outside a footprint of the semiconductor package.

A semiconductor package device includes a substrate, an electronic component, and a thermal conductive layer. The electronic component is disposed on the substrate and includes a first surface facing away from the substrate. The thermal conductive layer is disposed above the first surface of the electronic component. The thermal conductive layer includes a plurality of portions spaced apart from each other.

This application discloses a chip package assembly, an electronic device, and a preparation method of a chip package assembly. The chip package assembly includes a package substrate, a chip, and a heat dissipation part. The package substrate includes an upper conductive layer, a lower conductive layer, and a conductive part connected between the upper conductive layer and the lower conductive layer. The chip includes a front electrode and a back electrode that are disposed opposite each other, the chip is embedded in the package substrate, the conductive part surrounds the chip, the front electrode is connected to the lower conductive layer, and the back electrode is connected to the upper conductive layer. The heat dissipation part is connected to a surface of the upper conductive layer that is away from the chip. The upper conductive layer, the lower conductive layer, and the conductive part each conduct heat.

A heat dissipation substrate structure having a non-rectangular heat dissipation layer is provided. The heat dissipation substrate structure having the non-rectangular heat dissipation layer includes a heat dissipation substrate and the non-rectangular heat dissipation layer. The non-rectangular heat dissipation layer is disposed on the heat dissipation substrate, and has one or more positioning features located at one corner of a brazing area of the non-rectangular heat dissipation layer, so as to position a component for subsequent brazing. The non-rectangular heat dissipation layer has one or a plurality of heat dissipation pins that extend from one or more sides of the brazing area of the non-rectangular heat dissipation layer.

A cold plate having a copper base plate and a plurality of fins on the copper base plate. The fins are porous and made by 3D printing a copper-silver alloy on the copper base plate. Alternatively, the fins can be 3D printed and then adhered to the copper base plate with a brazing material. The copper base plate is placed on electronics to be cooled, such as a chip package, using a thermal interface material. An optional manifold can be placed on the copper base plate for circulating a coolant across the fins.

A semiconductor device has a substrate and first and second electrical component disposed over the substrate. A first metal bar is disposed over the substrate between the first electrical component and second electrical component. The first metal bar is formed by disposing a mask over a carrier. An opening is formed in the mask and a metal layer is sputtered over the mask. The mask is removed to leave the metal layer within the opening as the first metal bar. The first metal bar can be stored in a tape-and-reel.

A bonding structure includes: a plurality of carbon nanotubes; a first bonded member, and a first metal sintered compact bonding first end portions of the plurality of carbon nanotubes and the first bonded member, wherein the first metal sintered compact enters spaces between the first end portions of the plurality of carbon nanotubes, and bonds to the plurality of carbon nanotubes while covering side faces and end faces of the first end portions of the plurality of carbon nanotubes.

A package assembly includes a package substrate, a package lid located on the package substrate and including a plate portion, an outer foot extending from the plate portion, and an inner foot having a height greater than or equal to a height of the outer foot, extending from the plate portion and including a first inner foot corner portion located inside a first corner of the outer foot, and an adhesive that adheres the outer foot to the package substrate and adheres the inner foot to the package substrate.

A cold plate apparatus that has an outlet plenum leading to an outlet opening includes an outlet transition that connects the outlet opening to the outlet plenum. The outlet transition defines a smoothly curving flow path from a direction along a long dimension of the outlet plenum, which is parallel to a plane defined by the outlet opening, to a direction along a centerline of the outlet opening, which is at an angle from the plane defined by the outlet opening. The outlet transition provides a smooth variation of cross-sectional area from the outlet plenum to the outlet opening.

A vapor chamber includes a working fluid in an internal space formed between a first metal sheet and a second metal sheet, in which the first metal sheet includes a recessed channel, at least one projecting part, and at least one flow channel groove. The recessed channel is provided at an inner surface of the first metal sheet, the projecting part projects from the inner surface of the first metal sheet toward an inner surface of the second metal sheet, and a top face of the projecting part abuts the inner surface of the second metal sheet. The flow channel groove has a bottom groove part, a side face groove part and a top face groove part. The bottom groove part is provided at a bottom face of the recessed channel, the side face groove part is provided at a side face of the projecting part, and is connected to the bottom groove part, and the top face groove part is provided at the top face of the projecting part, and is connected to the side face groove part.