An integrated circuit package structure includes a circuit board, an integrated circuit die and a conductive stair structure. The circuit has an upper surface. The integrated circuit die is located on the upper surface of the circuit board. The conductive stair structure is located on the upper surface of the circuit board. The conductive stair structure includes steps along a first direction substantially perpendicular to the upper surface of the circuit board. The steps have different heights relative to the upper surface of the circuit board.

Antenna modules employing three-dimensional (3D) build-up on mold package to support efficient integration of radio-frequency (RF) circuitry, and related fabrication methods. The antenna module includes a RF transceiver whose circuitry is split over multiple semiconductor dies (“dies”) so different semiconductor devices can be formed in different semiconductor structures. The antenna module is provided as a 3D build-up on mold package to reduce lengths of die-to-die (D2D) interconnections between circuits in different dies. First and second die packages that include respective first and second dies encapsulated in respective first and second mold layers are coupled to each other in a vertical direction in a 3D stacked arrangement with active faces of the first and second dies facing each other to provide a reduced distance between the active faces of the first and second dies. An antenna is stacked on the second die package to provide an antenna(s) for the antenna module.

A semiconductor package includes a package substrate, first and second bumps on a lower surface of the package substrate, a semiconductor chip on an upper surface of the package substrate, first and second connection patterns on the upper surface of the package substrate, a molding on the upper surface of the package substrate and covering the semiconductor chip, a warpage control layer on the molding, an upper insulating layer on the warpage control layer, a first opening passing through the upper insulating layer and exposing an upper surface of the warpage control layer, a second opening overlapping the first opening in a top view, the second opening passing through the warpage control layer and exposing the first connection pattern, and a third opening passing through the upper insulating layer and exposing the second connection pattern.

A semiconductor device structure, for example a 3D structure, and a method for fabricating a semiconductor device. As non-limiting examples, various aspects of this disclosure provide various semiconductor package structures, and methods for manufacturing thereof, that comprise interposer, interlayer, and/or heat dissipater configurations that provide for low cost, increased manufacturability, and high reliability.

A substrate having an electronic component embedded therein includes a core structure including a first insulating body and core wiring layers and having a cavity penetrating through a portion of the first insulating body, an electronic component disposed in the cavity, an insulating material covering at least a portion of each of the core structure and the electronic component and disposed in at least a portion of the cavity, a wiring layer disposed on the insulating material, and a build-up structure disposed on the insulating material and including a second insulating body and a build-up wiring layer. A material of the first insulating body has a coefficient of thermal expansion (CTE) less than a CTE of the second insulating body, and the insulating material has a CTE less than a CTE of a material of the second insulating body.

A stack package and a method of manufacturing the stack package are provided. The method includes: attaching a first semiconductor device onto a first surface of a first package substrate; attaching a molding resin material layer onto a first surface of a second package substrate; arranging the first surface of the first package substrate and the first surface of the second package substrate to face each other; compressing the first package substrate and the second package substrate while reflowing the molding resin material layer; and hardening the reflowed molding resin material layer.

A semiconductor device package includes a first substrate, a second substrate, a conductive structure, a first solder and a second solder. The second substrate is disposed over the first substrate. The conductive structure is disposed between the first substrate and the second substrate. The conductive structure includes a first wetting portion, a second wetting portion, and a non-wetting portion disposed between the first wetting portion and the second wetting portion. The first solder covers the first wetting portion and connects the conductive structure to the first substrate. The second solder covers the second wetting portion and connects the conductive structure to the second substrate. The first solder is spaced apart from the second solder by the non-wetting portion.

A printed circuit board includes: a first insulating layer; a first cavity disposed in one surface of the first insulating layer; a plurality of protrusion portions spaced apart from each other in the first cavity; and a first wiring layer embedded in the one surface of the first insulating layer.

The present disclosure provides a semiconductor structure including a first substrate having a first surface, a first semiconductor device package disposed on the first surface of the first substrate, and a second semiconductor device package disposed on the first surface of the first substrate. The first semiconductor device package and the second semiconductor device package have a first signal transmission path through the first substrate and a second signal transmission path insulated from the first substrate. The present disclosure also provides an electronic device.

Packaging structure includes a first packaging component and a second packaging component arranged in the first packaging component. The packaging component includes a first substrate, a first redistribution layer, a first electronic component, and a first packaging body. The first redistribution layer is arranged on the first substrate. The first electronic component is arranged on the first redistribution layer and electrically coupled to the first redistribution layer. The first packaging body is arranged on the first substrate and covers the first electronic component. The second packaging component includes a second substrate, a second redistribution layer, a second electronic component, and a second packaging body. The redistribution layer is arranged on the second substrate and electrically coupled to the first redistribution layer. The second electronic component is arranged on the second redistribution layer and electrically coupled to the second redistribution layer. The second packaging body covers the second electronic component.