A structure including stacked substrates, a first semiconductor die, a second semiconductor die, and an insulating encapsulation is provided. The first semiconductor die is disposed over the stacked substrates. The second semiconductor die is stacked over the first semiconductor die. The insulating encapsulation includes a first encapsulation portion encapsulating the first semiconductor die and a second encapsulation portion encapsulating the second semiconductor die.

Integrated circuit assemblies can be fabricated on a wafer scale, wherein a base template, having a plurality of openings, may cover a base substrate, such as a die wafer, wherein the base substrate has a plurality of first integrated circuit devices formed therein and wherein at least one second integrated circuit device is electrically attached to a corresponding first integrated circuit device through a respective opening in the base template. Thus, when the base substrate and base template are singulated into individual integrated circuit assemblies, the individual integrated circuit assemblies will each have a first integrated circuit that is edge aligned to a singulated portion of the base template. The singulated portion of the base template can provide an improved thermal path, mechanical strength, and/or electrical paths for the individual integrated circuit assemblies.

A semiconductor package includes: a package substrate, a first stack structure disposed on the package substrate, the first stack structure including first semiconductor chips stacked and connected to each other by bonding wires, a second stack structure disposed on the first stack structure, and including second semiconductor chips stacked, the second stack structure having an overhang region protruding beyond an uppermost first semiconductor chip of the first stack structure among the first semiconductor chips, an adhesive member covering a lower surface of the second stack structure and adhered to a portion of upper surfaces of the first stack structure, and an encapsulant disposed on the package substrate and covering the first stack structure and the second stack structure, wherein at least a portion of the bonding wires are buried in the die adhesive film in the overhang region to support the second stack structure.

A semiconductor package, includes: a first semiconductor chip including first connection pads on the first front surface, and through electrodes extending perpendicularly to the first rear surface and electrically connected to at least a portion of the first connection pads; a second semiconductor chip including second connection pads on the second front surface, and on the first rear surface so that the second rear surface faces the first semiconductor chip; a dielectric layer on the second semiconductor chip; first conductive structures in the dielectric layer, and connecting the through electrodes of a first group and the second connection pads; second conductive structures in the dielectric layer, and having first and second ends, the first ends connected to the through electrodes of a second group and at least a portion of the second ends thereof being exposed from the dielectric layer; at least one third semiconductor chip including third connection pads on the third front surface, and on the dielectric layer so that the third rear surface faces the second semiconductor chip; conductive wires connecting the second conductive structures and the third connection pads.

A semiconductor package includes a redistribution structure, at least one semiconductor device, a heat dissipation component, and an encapsulating material. The at least one semiconductor device is disposed on and electrically connected to the redistribution structure. The heat dissipation component is disposed on the redistribution structure and includes a concave portion for receiving the at least one semiconductor device and an extending portion connected to the concave portion and contacting the redistribution structure, wherein the concave portion contacts the at least one semiconductor device. The encapsulating material is disposed over the redistribution structure, wherein the encapsulating material fills the concave portion and encapsulates the at least one semiconductor device.

A printed circuit board includes a substrate base; a plurality of ball lands arranged on a surface of the substrate base; a cutting position identification mark disposed on a corner of the surface of the substrate base; and at least one alignment mark disposed on the surface of the substrate base to be spaced apart from the ball lands and exposed to the outside, wherein top surfaces of the ball lands and a top surface of the at least one alignment mark are at substantially the same vertical level and the ball lands and the at least one alignment mark include the same material.

A semiconductor package is provided. The semiconductor package includes a semiconductor device bonded to a base through a first conductive structure. The semiconductor device includes a carrier substrate including a conductive trace. A portion of the conductive trace is elongated. The semiconductor device also includes a second conductive structure above the carrier substrate. A portion of the second conductive structure is in contact with the portion of the conductive trace. The semiconductor device further includes a semiconductor body mounted above the conductive trace. The semiconductor body is connected to the second conductive structure.

An electronic package is provided, in which a circuit structure is stacked on a carrier structure having a routing layer via support structures, where electronic elements are disposed on upper and lower sides of the circuit structure and the carrier structure, and the electronic elements and the support structures are encapsulated by a cladding layer, such that the electronic package can effectively increase the packaging density to meet the requirements of multi-functional end products.

According to one embodiment, a method of manufacturing a semiconductor device includes forming a plurality of stacked bodies on a substrate, each of the stacked bodies includes a plurality of semiconductor chips. The method further includes forming a plurality of first wires on the stacked bodies. The first wires connecting the stacked bodies to each other. The method further includes forming a resin layer on the stacked bodies and the first wires, then thinning he resin layer until the first wires are exposed.

A semiconductor package may include a first semiconductor die having a first width; a second semiconductor die on the first semiconductor die, the second semiconductor die having a second width that is smaller than the first width; and a mold layer at least partially covering a side surface of the second semiconductor die, and a top surface of the first semiconductor die, wherein the first semiconductor die comprises at least one first detection pattern, the at least one first detection pattern being on the top surface of the first semiconductor die and in contact with a bottom surface of the mold layer.