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 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.

A semiconductor device includes a substrate having a bonding area and a pad area, a first inter-metal dielectric (IMD) layer on the substrate, a metal interconnection in the first IMD layer, a first pad on the bonding area and connected to the metal interconnection, and a second pad on the pad area and connected to the metal interconnection. Preferably, the first pad includes a first portion connecting the metal interconnection and a second portion on the first portion, and the second pad includes a third portion connecting the metal interconnection and a fourth portion on the third portion, in which top surfaces of the second portion and the fourth portion are coplanar.

A semiconductor package includes a first semiconductor die, a second semiconductor die, an insulating encapsulation, and a plurality of conductive pillars. The second semiconductor die is located on and electrically communicates to the first semiconductor die through joints therebetween. The insulating encapsulation encapsulates the first semiconductor die and the second semiconductor die and covers the joints. The plurality of conductive pillars is next to and electrically connected to the first semiconductor die and the second semiconductor die, and is covered by the insulating encapsulation.

A semiconductor package includes a first semiconductor die, a second semiconductor die, an insulating encapsulation, and a plurality of conductive pillars. The second semiconductor die is located on and electrically communicates to the first semiconductor die through joints therebetween. The insulating encapsulation encapsulates the first semiconductor die and the second semiconductor die and covers the joints. The plurality of conductive pillars is next to and electrically connected to the first semiconductor die and the second semiconductor die, and is covered by the insulating encapsulation.

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.

A semiconductor package according to some examples of the disclosure may include a substrate having a bridge embedded in the substrate, a first and second die coupled to the substrate, and a plurality of electrically conductive bridge interconnects in the substrate coupling the bridge to the first and second die. The plurality of electrically conductive bridge interconnects may have a first bridge contact layer directly coupled to the bridge, a first solder layer on the first bridge contact layer, a second bridge contact layer on the first solder layer, a second solder layer on the second bridge contact layer, and a die contact directly coupled to one of the first and second die where the plurality of electrically conductive bridge interconnects are embedded in the substrate.

A semiconductor device has a first substrate and a first electrical component disposed over the first substrate. A first support frame is disposed over the first substrate. The first support frame has a horizontal support channel extending across the first substrate and a vertical support brace extending from the horizontal support channel to the first substrate. The first support frame can have a vertical shielding partition extending from the horizontal support channel to the first substrate. An encapsulant is deposited over the first electrical component and first substrate and around the first support frame. A second electrical component is disposed over the first electrical component. A second substrate is disposed over the first support frame. A second electrical component is disposed over the second substrate. A third substrate is disposed over the second substrate. A second support frame is disposed over the second substrate.

A semiconductor package includes a first semiconductor die, a second semiconductor die, an insulating encapsulation, and a plurality of conductive pillars. The second semiconductor die is located on and electrically communicates to the first semiconductor die through joints therebetween. The insulating encapsulation encapsulates the first semiconductor die and the second semiconductor die and covers the joints. The plurality of conductive pillars is next to and electrically connected to the first semiconductor die and the second semiconductor die, and is covered by the insulating encapsulation.

An electronic device includes a via-array substrate, an outer layer, and an alignment substrate. The via-array substrate has a plurality of first vias. The outer layer has a plurality of second vias and is disposed on a side of the via-array substrate. The first vias are greater in distribution density or quantity than the second vias. A part of the first vias is electrically connected to the second vias, and another part of the first vias is electrically floating. The alignment substrate includes a core layer disposed on the outer layer, a plurality of conductive traces, a plurality of interconnecting pads, and a plurality of alignment mark pads. The conductive traces are disposed in the core layer. The interconnecting pads and the alignment mark pads are disposed on a surface of the core layer located away from the outer layer. A part of the conductive traces electrically connects a part of the interconnecting pads and a part of the first vias. A pattern of each of the alignment mark pads is different from a pattern of each of the interconnecting pads.