A semiconductor device has an interposer mounted over a carrier. The interposer includes TSV formed either prior to or after mounting to the carrier. An opening is formed in the interposer. The interposer can have two-level stepped portions with a first vertical conduction path through a first stepped portion and second vertical conduction path through a second stepped portion. A first and second semiconductor die are mounted over the interposer. The second die is disposed within the opening of the interposer. A discrete semiconductor component can be mounted over the interposer. A conductive via can be formed through the second die or encapsulant. An encapsulant is deposited over the first and second die and interposer. A portion of the interposer can be removed to that the encapsulant forms around a side of the semiconductor device. An interconnect structure is formed over the interposer and second die.

A semiconductor device has a first semiconductor die stacked over a second semiconductor die which is mounted to a temporary carrier. A plurality of bumps is formed over an active surface of the first semiconductor die around a perimeter of the second semiconductor die. An encapsulant is deposited over the first and second semiconductor die and carrier. A plurality of conductive vias is formed through the encapsulant around the first and second semiconductor die. A portion of the encapsulant and a portion of a back surface of the first and second semiconductor die is removed. An interconnect structure is formed over the encapsulant and the back surface of the first or second semiconductor die. The interconnect structure is electrically connected to the conductive vias. The carrier is removed. A heat sink or shielding layer can be formed over the encapsulant and first semiconductor die.

A hybrid embedded packaging structure and a manufacturing method thereof are disclosed. The structure includes: a substrate with a first insulating layer, a conductive copper column, a chip-embedded cavity and a first circuit layer; a first electronic device arranged inside the chip-embedded cavity; a second electronic device arranged on a back surface of the first electronic device; a second insulating layer covering and filling the chip-embedded cavity and an upper layer of the substrate, exposing part of the first circuit layer and a back surface of part of the second electronic device or part of the first electronic device; a second circuit layer electrically connected with the conductive copper column and a terminal of the first electronic device; a conducting wire electrically connecting the first circuit layer with a terminal of the second electronic device; and a protection cover arranged on the top surface of the substrate.

In a method of manufacturing a semiconductor device, a semiconductor chip has first and second pads, a passivation film formed such that respective parts of the first and second pads are exposed, a first surface-metal-layer provided on the part of the first pad and a part of the passivation film, and a second surface-metal-layer provided on the part of the second pad and another part of the passivation film. Respective wires are electrically connected to the first and second surface-metal-layers. The semiconductor chip and the respective wires are then sealed with a resin.

An integrated circuit (IC) package includes a molding having a first surface and a second surface, the first surface opposing the second surface. An interconnect is encased in the molding. The interconnect includes pads situated at a periphery of a side of the IC package. A portion of the pads are exposed at the first surface of the molding. A die pad is situated proximal to the second surface of the molding. The die pad has a first surface and a second surface, the first surface opposing the second surface, and the second surface is circumscribed by the second surface of the molding. A die is mounted on the first surface of the die pad. A heat spreader is mounted on the second surface of the molding and the second surface of the die pad. The heat spreader extends between edges of the second surface of the molding.

An integrated circuit (IC) package includes a molding having a first surface and a second surface, the first surface opposing the second surface. An interconnect is encased in the molding. The interconnect includes pads situated at a periphery of a side of the IC package. A portion of the pads are exposed at the first surface of the molding. A die pad is situated proximal to the second surface of the molding. The die pad has a first surface and a second surface, the first surface opposing the second surface, and the second surface is circumscribed by the second surface of the molding. A die is mounted on the first surface of the die pad. A heat spreader is mounted on the second surface of the molding and the second surface of the die pad. The heat spreader extends between edges of the second surface of the molding.