A package-on-package (PoP) semiconductor package includes an upper package and a lower package. The lower package includes a first semiconductor device in a first area, a second semiconductor device in a second area, and a command-and-address vertical interconnection, a data input-output vertical interconnection, and a memory management vertical interconnection adjacent to the first area.

A semiconductor device package and a method for manufacturing the semiconductor device package are provided. The electronic device includes a first carrier having a first surface, an interposer disposed over the first surface of the first carrier, wherein the interposer has a first thickness and a second thickness in a direction substantially perpendicular to the first surface of the first carrier; and a plurality of electrical connections between the first carrier and the interposer and configured to compensate a difference between the first thickness and the second thickness of the interposer.

A semiconductor device with redistribution layers formed utilizing dummy substrates is disclosed and may include forming a first redistribution layer on a first dummy substrate, forming a second redistribution layer on a second dummy substrate, electrically connecting a semiconductor die to the first redistribution layer, electrically connecting the first redistribution layer to the second redistribution layer, and removing the dummy substrates. The first redistribution layer may be electrically connected to the second redistribution layer utilizing a conductive pillar. An encapsulant material may be formed between the first and second redistribution layers. Side portions of one of the first and second redistribution layers may be covered with encapsulant. A surface of the semiconductor die may be in contact with the second redistribution layer. The dummy substrates may be in panel form. One of the dummy substrates may be in panel form and the other in unit form.

A semiconductor package structure includes a semiconductor chip on a package substrate; a lower connection bump on the package substrate; and an interposer substrate on the lower connection bump on the package substrate and an upper surface of the semiconductor chip. The semiconductor package structure includes an upper connection bump on a lower surface of the interposer substrate; and a support structure on a lower surface of the interposer substrate, spaced apart from the upper connection bump to provide support between the package substrate and the interposer substrate. The upper connection bump and the lower connection bump constitute a connection bump structure, and the support structure includes a metal core ball and a ball cover layer surrounding the metal core ball, wherein the ball cover layer is formed to gradually decrease in thickness in a direction from the interposer substrate to the package substrate cross-section.

A semiconductor device package includes a substrate and an antenna module. The substrate has a first surface and a second surface opposite to the first surface. The antenna module is disposed on the first surface of the substrate with a gap. The antenna module has a support and an antenna layer. The support has a first surface facing away from the substrate and a second surface facing the substrate. The antenna layer is disposed on the first surface of the support. The antenna layer has a first antenna pattern and a first dielectric layer.

A semiconductor device has a substrate and a first electrical component disposed over a first surface of the substrate. An RF antenna interposer is disposed over the substrate with the first electrical component connected to a first antenna disposed on a surface of the antenna interposer. An area of the antenna interposer is substantially the same as an area of the substrate. The first antenna disposed on the surface of the antenna interposer has a plurality of islands of conductive material. Alternatively, the first antenna disposed on the surface of the antenna interposer has a spiral shape of conductive material. A second antenna can be disposed on the surface of the antenna interposer connected to a second electrical component disposed over the substrate. A second electrical component can be disposed over a second surface of the substrate opposite the first surface of the substrate.

A device may include a first package and a second package where the first package has a warped shape. First connectors attached to a redistribution structure of the first package include a spacer embedded therein. Second connectors attached to the redistribution structure are fee from the spacer, the spacer of the first connectors keeping a minimum distance between the first package and the second package during attaching the first package to the second package.

A device comprising a first package and a second package coupled to the first package through a first plurality of solder interconnects. The first package includes a first substrate comprising at least one first dielectric layer and a first plurality of interconnects, and a first integrated device coupled to the first substrate. The second package includes a second substrate comprising at least one second dielectric layer and a second plurality of interconnects, a second integrated device coupled to a first surface of the second substrate, a third integrated device coupled to the first surface of the second substrate through a second plurality of solder interconnects and a first plurality of channel interconnects coupled to the first surface of the second substrate, wherein the first plurality of channel interconnects is located between solder interconnects from the second plurality of solder interconnects.

A memory is disclosed that includes a logic die having first and second memory interface circuits. A first memory die is stacked with the logic die, and includes first and second memory arrays. The first memory array couples to the first memory interface circuit. The second memory array couples to the second interface circuit. A second memory die is stacked with the logic die and the first memory die. The second memory die includes third and fourth memory arrays. The third memory array couples to the first memory interface circuit. The fourth memory array couples to the second memory interface circuit. Accesses to the first and third memory arrays are carried out independently from accesses to the second and fourth memory arrays.

A semiconductor device is disclosed. The semiconductor device comprises a redistribution structure, a processor die, and a metal post. The metal post has a first end, and a second end. The metal post is connected to the redistribution structure at the first end. The first end has a first width. The second end has a second width. The metal post has a waist width. The first width is greater than the waist width. The second width is greater than the waist width. The metal post has a side surface. The side surface is inwardly curved or outwardly curved.