An electronic device includes a main printed circuit board (PCB) assembly comprising a bottom PCB and a semiconductor package mounted on an upper surface of the bottom PCB. The semiconductor package includes a substrate and a semiconductor die mounted on a top surface of the substrate. The semiconductor die and the top surface of the substrate are encapsulated by a molding compound. A top PCB is mounted on the semiconductor package through first connecting elements.

A chip package structure is provided. The chip package structure includes a wiring structure. The chip package structure includes a first chip structure over the wiring structure. The chip package structure includes a first molding layer surrounding the first chip structure. The chip package structure includes a second chip structure over the first chip structure and the first molding layer. The chip package structure includes a second molding layer surrounding the second chip structure and over the first chip structure and the first molding layer. The chip package structure includes a third chip structure over the second chip structure and the second molding layer. The chip package structure includes a third molding layer surrounding the third chip structure and over the second chip structure and the second molding layer. The chip package structure includes a fourth molding layer surrounding the second molding layer and the third molding layer.

A chip package structure is provided. The chip package structure includes a wiring structure. The chip package structure includes a first chip structure over the wiring structure. The chip package structure includes a first molding layer surrounding the first chip structure. The chip package structure includes a second chip structure over the first chip structure and the first molding layer. The chip package structure includes a second molding layer surrounding the second chip structure and over the first chip structure and the first molding layer. The chip package structure includes a third chip structure over the second chip structure and the second molding layer. The chip package structure includes a third molding layer surrounding the third chip structure and over the second chip structure and the second molding layer. The chip package structure includes a fourth molding layer surrounding the second molding layer and the third molding layer.

A semiconductor package structure includes a first bottom electrical connector, an interposer over the first bottom electrical connector, and a first top electrical connector over the first top via structures. The interposer includes first bottom via structures in contact with the first bottom electrical connector. The interposer also includes a first trace of a first redistribution layer structure over the first bottom via structures. The interposer also includes first via structures over the first redistribution layer. The interposer also includes a first trace of a second redistribution layer structure over the first via structures. The interposer also includes second via structures over the second redistribution layer structure. The first bottom via structures, the first via structures, and the second via structures are separated from each other in a top view.

In one example, a semiconductor device can comprise a substrate, a device stack, first and second internal interconnects, and an encapsulant. The substrate can comprise a first and second substrate sides opposite each other, a substrate outer sidewall between the first substrate side and the second substrate side, and a substrate inner sidewall defining a cavity between the first substrate side and the second substrate side. The device stack can be in the cavity and can comprise a first electronic device, and a second electronic device stacked on the first electronic device. The first internal interconnect can be coupled to the substrate and the device stack. The encapsulant can cover the substrate inner sidewall and the device stack and can fill the cavity. Other examples and related methods are disclosed herein.

In one example, a semiconductor device comprises a main substrate comprising a first side and a main conductive structure, and a first component module over the first side of the main substrate. The first component module comprises a first electronic component and a first module encapsulant contacting a lateral side of the first electronic component. The semiconductor device further comprises a second component module over the first side of the main substrate. The second component module comprises a second electronic component and a second module encapsulant contacting a lateral side of the second electronic component. The semiconductor device further comprises a main encapsulant over a first side of the main substrate and between the first component module and the second component module. Other examples and related methods are also disclosed herein.

The present application provides a semiconductor package and a manufacturing method for the semiconductor package. The semiconductor package includes a package substrate, a first semiconductor die, a second semiconductor die, a first encapsulant and a second encapsulant. The package substrate has a first side and a second side facing away from the first side, and the second side has a concave recessed from a planar portion of the second side. The first semiconductor die is attached to the first side of the package substrate. The second semiconductor die is attached to a recessed surface of the concave. The first encapsulant covers the first side of the package substrate and encapsulates the first semiconductor die. The second encapsulant fills up the concave and encapsulates the second semiconductor die.

A method for forming a package structure may comprise applying a die and vias on a carrier having an adhesive layer and forming a molded substrate over the carrier and around the vias, and the ends of the vias and mounts on the die exposed. The vias may be in via chips with one or more dielectric layers separating the vias. The via chips 104 may be formed separately from the carrier. The dielectric layer of the via chips may separate the vias from, and comprise a material different than, the molded substrate. An RDL having RDL contact pads and conductive lines may be formed on the molded substrate. A second structure having at least one die may be mounted on the opposite side of the molded substrate, the die on the second structure in electrical communication with at least one RDL contact pad.

The present disclosure provides a semiconductor package structure and a method of manufacturing the same. The semiconductor package structure includes a substrate, a first electronic component, an interlayer, a third electronic component and an encapsulant. The first electronic component is disposed on the substrate. The first electronic component has an upper surface and a lateral surface and a first edge between the upper surface and the lateral surface. The interlayer is on the upper surface of the first electronic component. The third electronic component is attached to the upper surface of the first electronic component via the interlayer. The encapsulant encapsulates the first electronic component and the interlayer. The interlayer does not contact the lateral surface of the first electronic component.

A method includes bonding a first and a second device die to a third device die, forming a plurality of gap-filling layers extending between the first and the second device dies, and performing a first etching process to etch a first dielectric layer in the plurality of gap-filling layers to form an opening. A first etch stop layer in the plurality of gap-filling layers is used to stop the first etching process. The opening is then extended through the first etch stop layer. A second etching process is performed to extend the opening through a second dielectric layer underlying the first etch stop layer. The second etching process stops on a second etch stop layer in the plurality of gap-filling layers. The method further includes extending the opening through the second etch stop layer, and filling the opening with a conductive material to form a through-via.