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 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 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 fan-out semiconductor package includes a first connection member having a through-hole, first and second semiconductor chips disposed in the through-hole, an encapsulant encapsulating at least portions of the first connection member, the first semiconductor chip, and the second semiconductor chip, and a second connection member disposed on the first connection member and on active surfaces of the first semiconductor chip and the second semiconductor chip. A redistribution layer of the second connection member is respectively connected to both the first and second connection pads through first and second conductors, and the second conductor has a height greater than that of the first conductor.

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 has a plurality of semiconductor die. A substrate is provided with bumps disposed over the substrate. A first prefabricated insulating film is disposed between the semiconductor die and substrate. An interconnect structure is formed over the semiconductor die and first prefabricated insulating film. The bumps include a copper core encapsulated within copper plating. The first prefabricated insulating film includes glass cloth, glass fiber, or glass fillers. The substrate includes a conductive layer formed in the substrate and coupled to the bumps. The semiconductor die is disposed between the bumps of the substrate. The bumps and the semiconductor die are embedded within the first prefabricated insulating film. A portion of the first prefabricated insulating film is removed to expose the bumps. The bumps electrically connect the substrate to the interconnect structure.

Alternative surfaces for conductive pad layers of silicon bridges for semiconductor packages, and the resulting silicon bridges and semiconductor packages, are described. In an example, a semiconductor structure includes a substrate having a lower insulating layer disposed thereon. The substrate has a perimeter. A metallization structure is disposed on the lower insulating layer. The metallization structure includes conductive routing disposed in a dielectric material stack. First and second pluralities of conductive pads are disposed in a plane above the metallization structure. Conductive routing of the metallization structure electrically connects the first plurality of conductive pads with the second plurality of conductive pads. An upper insulating layer is disposed on the first and second pluralities of conductive pads. The upper insulating layer has a perimeter substantially the same as the perimeter of the substrate.

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 package structure includes a first patterned conductive layer including a first conductive pad, a second conductive pad and a first conductive trace disposed between the first conductive pad and the second first conductive pad. The first conductive pad defines a recess. The semiconductor package structure further includes a second patterned conductive layer including a third conductive pad. The semiconductor package structure further includes a first stud bump electrically connecting the first conductive pad of the first patterned conductive layer to the third conductive pad of the second patterned conductive layer. The semiconductor package structure further includes a first encapsulation layer disposed between the first patterned conductive layer and the second patterned conductive layer.

Electronic device packages utilizing a stiffener coupled to a substrate with a magnetic lossy bonding layer to attenuate or absorb electromagnetic signals such as radio frequency interference (RFI) along with related systems and method are disclosed.