A microelectronic device is formed to include an embedded die substrate on an interposer; where the embedded die substrate is formed with no more than a single layer of transverse routing traces. In the device, all additional routing may be allocated to the interposer to which the embedded die substrate is attached. The embedded die substrate may be formed with a planarized dielectric formed over an initial metallization layer supporting the embedded die.

According to one embodiment, a semiconductor device includes a first chip, and a second chip bonded to the first chip. The first chip includes: a substrate; a transistor provided on the substrate; a plurality of first wirings provided above the transistor; and a plurality of first pads provided above the first wirings. The second chip includes: a plurality of second pads coupled to the plurality of first pads, respectively; a plurality of second wirings provided above the second pads; and a memory cell array provided above the second wirings. The first wiring, the first pad, the second pad, and the second wiring are coupled to one another in series to form a first pattern.

A package structure includes a redistribution layer (RDL) structure, a die, and an encapsulant. The die is attached to the RDL structure through an adhesive layer. The encapsulant is disposed on the RDL structure and laterally encapsulates the die and the adhesive layer. The encapsulant includes a protruding part extending into the RDL structure and having a bottom surface in contact with the RDL structure.

A semiconductor package structure includes a substrate, a first redistribution layer, a second redistribution layer, a bridge structure, a first semiconductor component, and a second semiconductor component. The first redistribution layer is over the substrate. The second redistribution layer is over the first redistribution layer. The bridge structure is between the first redistribution layer and the second redistribution layer, wherein the bridge structure includes an active device. The first semiconductor component and the second semiconductor component are located over the second redistribution layer, wherein the first semiconductor component is electrically coupled to the second semiconductor component through the second redistribution layer and the bridge structure.

A semiconductor package includes a redistribution layer, a semiconductor chip on the redistribution layer, and a molding layer covering a sidewall of the semiconductor chip and a top surface and a sidewall of the redistribution layer. The sidewall of the redistribution layer is inclined with respect to a bottom surface of the redistribution layer, and a sidewall of the molding layer is spaced apart from the sidewall of the redistribution layer.

An electronics package includes a support substrate, an electrical component having a first surface coupled to a first surface of the support substrate, and an insulating structure coupled to the first surface of the support substrate and sidewalls of the electrical component. The insulating structure has a sloped outer surface. A conductive layer encapsulates the electrical component and the sloped outer surface of the insulating structure. A first wiring layer is formed on a second surface of the support substrate. The first wiring layer is coupled to the conductive layer through at least one via in the support substrate.

A package structure includes a redistribution layer (RDL) structure, a die, and an encapsulant. The die is attached to the RDL structure through an adhesive layer. The encapsulant is disposed on the RDL structure and laterally encapsulates the die and the adhesive layer. The encapsulant includes a protruding part extending into the RDL structure and having a bottom surface in contact with the RDL structure.

An electronic device may include a semiconductor die. The electronic device may include a first routing layer. The first routing layer may be coupled to the semiconductor die. A first plurality of routing traces may be in electrical communication with the semiconductor die. The first plurality of routing traces may be positioned within a first routing footprint. The first routing footprint may have a width greater than a width of the semiconductor die. A second routing layer may be coupled to the first routing layer. A second plurality of routing traces may be in electrical communication with the first plurality of routing traces. The second plurality of routing traces may be positioned within a second routing footprint. The second routing footprint may have a width greater than the width of the first routing footprint.

A package structure and a method of manufacturing the same are provided. The package structure includes a die, a RDL structure, an encapsulant and a conductive terminal. The die is on a redistribution layer (RDL) structure. The RDL structure comprises a polymer layer and a RDL in the polymer layer. The encapsulant is on the RDL structure and laterally aside the die. The encapsulant comprises a body part and an extending part underlying the body part. The conductive terminal is electrically connected to the RDL structure and the die. The body part of the encapsulant encapsulates sidewalls of the die. The extending part of the encapsulant extends into the polymer layer.

The present disclosure provides a semiconductor package structure. The semiconductor package structure includes a first die, at least a second die, an RDL disposed over the second die, a molding encapsulating the first die and the second die, a plurality of first conductors disposed in the molding, and a plurality of second conductors disposed in the second die. The first die has a first side and a second side opposite to the first side. The second die has a third side facing the first side of the first die and a fourth side opposite to the third side. The RDL is disposed on the fourth side of the second die. The first die is electrically connected to the RDL through the plurality of first conductors, and the second die is electrically connected to the RDL through the plurality of second conductors.