A semiconductor package includes a redistribution structure including an insulating layer and a redistribution layer on the insulating layer, and having a first surface and a second surface opposing the first surface, and an under-bump metal (UBM) structure including an UBM pad protruding from the first surface of the redistribution structure, and an UBM via penetrating through the insulating layer and connecting the redistribution layer and the UBM pad. A lower surface of the UBM via has a first area in contact with the UBM pad, and a second area having a step configuration relative to the first area and that extends outwardly of the first area.

A semiconductor device includes a first die, a second die on the first die, and a third die on the second die, the second die being interposed between the first die and the third die. The first die includes a first substrate and a first interconnect structure on an active side of the first substrate. The second die includes a second substrate, a second interconnect structure on a backside of the second substrate, and a power distribution network (PDN) structure on the second interconnect structure such that the second interconnect structure is interposed between the PDN structure and the second substrate.

An electronic package can include a substrate, a first die and a second die. The first die can include a first thickness and the second die can include a second thickness. The first and second dies can be coupled to the substrate. A mold can be disposed on the substrate and cover the first die and the second die. The mold can include a planar upper surface. A first via, having a first length, can be extended between the first die and the planar upper surface. A second via, having a second length, can be extended between the second die and the planar upper surface. In some examples, a third die can be communicatively coupled to the first die using the first via and the second die using the second via.

A semiconductor package includes: a redistribution layer including a plurality of redistribution insulating layers, a plurality of redistribution line patterns that constitute lower wiring layers, and a plurality of redistribution vias that are connected to some of the plurality of redistribution line patterns while penetrating at least one of the plurality of redistribution insulating layers; at least one semiconductor chip arranged on the redistribution layer; an expanded layer surrounding the at least one semiconductor chip on the redistribution layer; and a cover wiring layer including at least one base insulating layer, a plurality of wiring patterns that constitute upper wiring layers, and a plurality of conductive vias that are connected to some of the plurality of wiring patterns while penetrating the at least one base insulating layer.

A semiconductor device has an electronic component assembly with a substrate and a plurality of electrical components disposed over the substrate. A conductive post is formed over the substrate. A molding compound sheet is disposed over the electrical component assembly. A carrier including a first electrical circuit pattern is disposed over the molding compound sheet. The carrier is pressed against the molding compound sheet to dispose a first encapsulant over and around the electrical component assembly and embed the first electrical circuit pattern in the first encapsulant. A shielding layer can be formed over the electrical components assembly. The carrier is removed to expose the first electrical circuit pattern. A second encapsulant is deposited over the first encapsulant and the first electrical circuit pattern. A second electrical circuit pattern is formed over the second encapsulant. A semiconductor package is disposed over the first electrical circuit pattern.

A package that includes a second redistribution portion, a die coupled to the second redistribution portion, an encapsulation layer encapsulating the die, and a first redistribution portion coupled to the second redistribution portion. The first redistribution portion is located laterally to the die. The first redistribution portion is located over the second redistribution portion. The first redistribution portion and the second redistribution portion are configured to provide one or more electrical paths for the die.

A device comprising a first package and a second package coupled to the first package. The first package includes a first substrate, at least one gradient interconnect structure coupled to the first substrate, and a first integrated device coupled to the first substrate. The second package includes a second substrate and a second integrated device coupled to the second substrate. The second substrate is coupled to the at least one gradient interconnect structure.

A method of forming a semiconductor device includes forming a first interconnect structure over a carrier; forming a thermal dissipation block over the carrier; forming metal posts over the first interconnect structure; attaching a first integrated circuit die over the first interconnect structure and the thermal dissipation block; removing the carrier; attaching a semiconductor package to the first interconnect structure and the thermal dissipation block using first electrical connectors and thermal dissipation connectors; and forming external electrical connectors, the external electrical connectors being configured to transmit each external electrical connection into the semiconductor device, the thermal dissipation block being electrically isolated from each external electrical connection.

A method of forming a semiconductor package includes attaching a first package component to a first carrier; attaching a second package component to the first carrier, the second package component laterally displaced from the first package component; attaching a third package component to the first package component, the third package component being electrically connected to the first package component; removing the first carrier from the first package component and the second package component; after removing the first carrier, performing a first circuit probe test on the second package component to obtain first test data of the second package component; and comparing the first test data of the second package component with prior data of the second package component.

A semiconductor package includes a first semiconductor chip including a first surface and a second surface, and including a first active layer on a portion adjacent to the first surface; a first redistribution structure on the first surface of the first semiconductor chip, wherein the first redistribution structure includes a first area and a second area next to the first area; a second semiconductor chip mounted in the first area of the first redistribution structure, including a third surface, which faces the first surface, and a fourth surface, and including a second active layer on a portion adjacent to the third surface; a conductive post mounted in the second area of the first redistribution structure; a molding layer at least partially surrounding the second semiconductor chip and the conductive post on the first redistribution structure; and a second redistribution structure disposed on the molding layer and connected to the conductive post.