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.

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.

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 comprising a first metallization portion, a first integrated device coupled to the first metallization portion through a first plurality of pillar interconnects, and a first chiplet located between the first integrated device and the first metallization portion. The first chiplet is coupled to the first integrated device through a first plurality of inter pillar interconnects. The first chiplet may include an active chiplet. The first chiplet may include a passive chiplet.

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.

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.

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.

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.

An electronic package includes a first integrated circuit (IC) die arranged in a first orientation, a second IC die arranged in a second orientation inverted relative to the first orientation, at least one upper conductive routing layer extending over the first IC die and second IC die, at least one lower conductive routing layer extending under the first IC die and second IC die, and a mold compound at least partially encapsulating the first IC die and the second IC die.

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.