Apparatuses and methods are described. This apparatus includes a bridge die having first contacts on a die surface being in a molding layer of a reconstituted wafer. The reconstituted wafer has a wafer surface including a layer surface of the molding layer and the die surface. A redistribution layer on the wafer surface includes electrically conductive and dielectric layers to provide conductive routing and conductors. The conductors extend away from the die surface and are respectively coupled to the first contacts at bottom ends thereof. At least second and third IC dies respectively having second contacts on corresponding die surfaces thereof are interconnected to the bridge die and the redistribution layer. A first portion of the second contacts are interconnected to top ends of the conductors opposite the bottom ends thereof in part for alignment of the at least second and third IC dies to the bridge die.

A semiconductor device includes a wiring board, a semiconductor chip, and a connecting member provided between a surface of the wiring board and a functional surface of the semiconductor chip. The connecting member extends a distance between the wiring board surface and the functional surface. A sealing material seals a gap space between the wiring board and the semiconductor chip. An electrode is formed at the wiring board surface and arranged outside of an outer periphery of the sealing material. A lateral distance between an outer periphery of the semiconductor chip and the outer periphery of the sealing material is between 0.1 mm and a lateral distance from the outer periphery of the semiconductor chip to the electrode.

A semiconductor device may include first and second conductor plates opposed to each other via first and second semiconductor chips, a first conductor spacer interposed between the first semiconductor chip and the second conductor plate, a second conductor spacer interposed between the second semiconductor chip and the second conductor plate, and an encapsulant provided between the first and second conductor plates. A lower surface of the second conductor plate may include a first joint area where the first conductor spacer is joined, a second joint area where the second conductor spacer is joined, an adhesion area to which the encapsulant adheres, and a separation area from which the encapsulant is separated. The adhesion area may surround the first joint area, the second joint area, and the separation area. The separation area may be located between the first and the second joint areas.

Described examples include a substrate made of a first material and having a surface. First and second nozzles respectively dispense a first solvent paste including electrically conductive nanoparticles and a second solvent paste including non-conductive nanoparticles, while moving over the surface of the substrate. The first and second nozzles additively deposit a uniform layer including sequential and contiguous zones, alternating between the first solvent paste and the second solvent paste. Energy is applied to sinter together the nanoparticles and diffuse the nanoparticles into the substrate. The sintered nanoparticles form a layer composed of an alternating sequence of electrically conductive zones contiguous with electrically non-conductive zones.

A performance of a semiconductor device is improved. The semiconductor device according to one embodiment includes a wire that is bonded to one bonding surface at a plurality of parts in an opening formed in an insulating film of a semiconductor chip. The semiconductor device includes also a sealer that seals the semiconductor chip and the wire so that the sealer is in contact with the bonding surface. An area of a part of the bonding surface, the part not overlapping the wire, is small.

Apparatuses and methods are described. This apparatus includes a bridge die having first contacts on a die surface being in a molding layer of a reconstituted wafer. The reconstituted wafer has a wafer surface including a layer surface of the molding layer and the die surface. A redistribution layer on the wafer surface includes electrically conductive and dielectric layers to provide conductive routing and conductors. The conductors extend away from the die surface and are respectively coupled to the first contacts at bottom ends thereof. At least second and third IC dies respectively having second contacts on corresponding die surfaces thereof are interconnected to the bridge die and the redistribution layer. A first portion of the second contacts are interconnected to top ends of the conductors opposite the bottom ends thereof in part for alignment of the at least second and third IC dies to the bridge die.

A semiconductor package including an organic interposer includes: first and second semiconductor chips each having active surfaces having connection pads disposed thereon; the organic interposer disposed on the active surfaces of the first and second semiconductor chips and including a wiring layer electrically connected to the connection pads; barrier layers disposed onside surfaces of the first and second semiconductor chips; and an encapsulant encapsulating at least portions of the first and second semiconductor chips.

According to various aspects and embodiments, a support structure for packaging an electronic device is provided. In one example, a packaged electronic device includes a substrate, at least one electronic device disposed on the substrate, an encapsulation structure disposed on the substrate and having a wall that forms a perimeter around the at least one electronic device, and at least one support structure formed from a photosensitive polymer and disposed adjacent the wall of the encapsulation structure. The at least one support structure has a configuration that provides at least one of increased adhesion and mechanical strength to the encapsulation structure.

A semiconductor device includes a wiring board, a semiconductor chip, and a connecting member provided between a surface of the wiring board and a functional surface of the semiconductor chip. The connecting member extends a distance between the wiring board surface and the functional surface. A sealing material seals a gap space between the wiring board and the semiconductor chip. An electrode is formed at the wiring board surface and arranged outside of an outer periphery of the sealing material. A lateral distance between an outer periphery of the semiconductor chip and the outer periphery of the sealing material is between 0.1 mm and a lateral distance from the outer periphery of the semiconductor chip to the electrode.

A semiconductor device package and a method of manufacturing a semiconductor device package are provided. The semiconductor device package includes a carrier, a first component, a second component, and a protective element. The first component and the second component are arranged side by side in a first direction over the carrier. The protective element is disposed over a top surface of the carrier and extending from space under the first component toward a space under the second component. The protective element includes a first portion and a second portion protruded oppositely from edges of the first component by different distances, and the first portion and the second portion are arranged in a second direction angled with the first direction.