A semiconductor package includes a lower package with a lower substrate and a lower semiconductor chip. A heat dissipation part is provided adjacent to a side of the lower package and covers a portion of the lower semiconductor chip, and an upper package is on the lower package and is laterally spaced apart from the heat dissipation part.

The present disclosure provides a semiconductor structure including a first substrate having a first surface, a first semiconductor device package disposed on the first surface of the first substrate, and a second semiconductor device package disposed on the first surface of the first substrate. The first semiconductor device package and the second semiconductor device package have a first signal transmission path through the first substrate and a second signal transmission path insulated from the first substrate. The present disclosure also provides an electronic device.

The present disclosure relates to methods and apparatus for forming a thin-form-factor semiconductor package. In one embodiment, a glass or silicon substrate is structured by micro-blasting or laser ablation to form structures for formation of interconnections therethrough. The substrate is thereafter utilized as a frame for forming a semiconductor package with embedded dies therein.

A printed circuit board (PCB) system includes an integrated circuit (IC) package having a main IC chip that is electrically coupled to a top surface of a package substrate. A first printed circuit board (PCB) is electrically coupled to first contact structures on a bottom surface of the package substrate. A heat dissipation member is coupled to the main IC chip. A memory module is configured to electrically couple, via an interposer, with second contact structures on a top surface of the package substrate while the heat dissipation member dissipates heat from the main IC chip away from one or more memory IC chips on the memory module. The interposer is configured to electrically couple the second contact structures of the IC package with the memory module while the heat dissipation member dissipates heat from the main IC chip away from the one or more memory IC chips.

The present invention provides a packaging structure and a manufacturing method thereof. The packaging structure includes a lower package, an upper package and a first redistribution stack layer disposed between the lower package and the upper package, wherein the first redistribution stack layer is electrically connected to the lower package and the upper package; the lower package includes a prefabricated substrate and a first plastic packaging layer surrounding the periphery of the prefabricated substrate; and the minimum line width/line spacing of the first redistribution stack layer is less than the minimum line width/line spacing of the prefabricated substrate. The lower package includes the prefabricated substrate and the first redistribution stack layer is disposed above the prefabricated substrate and has the minimum line width/line spacing less than that of the prefabricated substrate, so that more chips and/or device packages are integrated in the packaging structure.

A semiconductor package includes a base film, a semiconductor die on the base film, metal studs on the semiconductor die, shielding pillars on the base film and around the semiconductor die, a first molding compound encapsulating the semiconductor die, the metal studs, and the shielding pillars, a first re-distribution structure on the first molding compound, a second molding compound on the first re-distribution structure, through-mold-vias in the second molding compound, and a second re-distribution structure on the second molding compound and electrically connected to the through-mold-vias. The second re-distribution structure comprises an antenna.

A semiconductor device package includes a first substrate, a second substrate, and a first electronic component between the first substrate and the second substrate. The first electronic component has a first surface facing the first substrate and a second surface facing the second substrate. The semiconductor device package also includes a first electrical contact disposed on the first surface of the first electronic component and electrically connecting the first surface of the first electronic component with the first substrate. The semiconductor device package also includes a second electrical contact disposed on the second surface of the first electronic component and electrically connecting the second surface of the first electronic component with the second substrate. A method of manufacturing a semiconductor device package is also disclosed.

An electronic device includes a substrate, an outer layer, a conductive line layer, and a switchable circuit chip. The substrate has a plurality of having a plurality of first vias. The outer layer is disposed on a side of the substrate and has a plurality of second vias. The first vias have a larger distribution density or quantity than the second vias, so that a part of the first vias are electrically connected to the second vias, and another part of the first vias are electrically floating. The conductive line layer is disposed on the outer layer and has a plurality of conductive traces. The conductive traces are electrically connected to the second vias. The switchable circuit chip is electrically connected to the first vias. The conductive traces are electrically connected to the switchable circuit chip. The switchable circuit chip is configured for controlling an electrical connecting relationship between the conductive traces and the first vias and an electrical connecting relationship among the conductive traces.

A semiconductor chip module includes a PCB including first and second faces; a buffer on the first face; a first chip on the first face, and including a first connection terminal and a second connection terminal, a first signal being provided to the first connection terminal, and a second signal being provided to the second connection terminal; a second chip on the second face, and including a third connection terminal to which the first signal is provided, and a fourth connection terminal to which the second signal is provided. The first connection terminal and the third connection terminal receive the first signal from the buffer at the same time. The first connection terminal be is closer to the buffer as compared with the second connection terminal. The third connection terminal is closer to the buffer as compared with the fourth connection terminal.

A semiconductor package includes an interposer, a die and a first encapsulant. The die is bonded to the interposer, the die has a protective layer thereon, wherein the protective layer and the interposer are disposed on opposite sides of the die, and the protective layer is not extended beyond an outer sidewall of the die. The first encapsulant is disposed aside the die and the protective layer.