A semiconductor package including an insulating encapsulation, an integrated circuit component, and conductive elements is provided. The integrated circuit component is encapsulated in the insulating encapsulation, wherein the integrated circuit component has at least one through silicon via protruding from the integrated circuit component. The conductive elements are located on the insulating encapsulation, wherein one of the conductive elements is connected to the at least one through silicon via, and the integrated circuit component is electrically connected to the one of the conductive elements through the at least one through silicon via.

A semiconductor device includes a semiconductor substrate, a dielectric structure, an electrical insulating and thermal conductive layer and a circuit layer. The electrical insulating and thermal conductive layer is disposed over the semiconductor substrate. The dielectric structure is disposed over the electrical insulating and thermal conductive layer, wherein a thermal conductivity of the electrical insulating and thermal conductive layer is substantially greater than a thermal conductivity of the dielectric structure. The circuit layer is disposed in the dielectric structure.

A semiconductor device includes a semiconductor substrate, a dielectric structure, an electrical insulating and thermal conductive layer and a circuit layer. The electrical insulating and thermal conductive layer is disposed over the semiconductor substrate. The dielectric structure is disposed over the electrical insulating and thermal conductive layer, wherein a thermal conductivity of the electrical insulating and thermal conductive layer is substantially greater than a thermal conductivity of the dielectric structure. The circuit layer is disposed in the dielectric structure.

A semiconductor device including an integrated circuit, a dielectric layer, a plurality of connecting terminals and at least one dummy conductor is provided. The integrated circuit has a plurality of connecting pads, and the dielectric layer is disposed thereon and partially exposes the plurality of the connecting pads by a plurality of openings defined therein. The plurality of the connecting terminals is disposed on the plurality of the connecting pads exposed by the plurality of the openings. The at least one dummy conductor is disposed on the dielectric layer and electrically isolated from the integrated circuit. A substantial topology variation is between the plurality of the connecting terminals and the at least one dummy conductor. A semiconductor package having the semiconductor device is also provided.

A semiconductor device including an integrated circuit, a dielectric layer, a plurality of connecting terminals and at least one dummy conductor is provided. The integrated circuit has a plurality of connecting pads, and the dielectric layer is disposed thereon and partially exposes the plurality of the connecting pads by a plurality of openings defined therein. The plurality of the connecting terminals is disposed on the plurality of the connecting pads exposed by the plurality of the openings. The at least one dummy conductor is disposed on the dielectric layer and electrically isolated from the integrated circuit. A substantial topology variation is between the plurality of the connecting terminals and the at least one dummy conductor. A semiconductor package having the semiconductor device is also provided.

A semiconductor package structure includes a first package, a second package over the first package, a plurality of connectors between the first package and the second package and a plurality of baffle structures between the first package and the second package. The second package includes a bonding region and a periphery region surrounding the bonding region. The connectors are disposed in the bonding region to provide electrical connections between the first package and the second package. The baffle structures are disposed in the periphery region and are separated from each other.

A semiconductor package structure includes a first package, a second package over the first package, a plurality of connectors between the first package and the second package and a plurality of baffle structures between the first package and the second package. The second package includes a bonding region and a periphery region surrounding the bonding region. The connectors are disposed in the bonding region to provide electrical connections between the first package and the second package. The baffle structures are disposed in the periphery region and are separated from each other.

A filler-containing film that holds fillers and a fine solid in an insulating resin layer and a predetermined arrangement of the fillers is repeated as viewed in a plan view has a proportion of 300% or less where the proportion is a repeat pitch of the fillers after thermocompression bonding to that before thermocompression bonding during thermocompression bonding under a predetermined thermocompression bonding condition with the filler-containing film held between smooth surfaces. A method of producing the filler-containing film includes the steps of: forming an insulating resin layer on a release substrate; pushing fillers from a surface on a side opposite to the release substrate of the insulating resin layer; and layering the insulating resin layer containing the fillers pushed and another insulating resin layer. This filler-containing film suppresses disorder of arrangement of fillers during thermocompression bonding of the film to an article.

A filler-containing film that holds fillers and a fine solid in an insulating resin layer and a predetermined arrangement of the fillers is repeated as viewed in a plan view has a proportion of 300% or less where the proportion is a repeat pitch of the fillers after thermocompression bonding to that before thermocompression bonding during thermocompression bonding under a predetermined thermocompression bonding condition with the filler-containing film held between smooth surfaces. A method of producing the filler-containing film includes the steps of: forming an insulating resin layer on a release substrate; pushing fillers from a surface on a side opposite to the release substrate of the insulating resin layer; and layering the insulating resin layer containing the fillers pushed and another insulating resin layer. This filler-containing film suppresses disorder of arrangement of fillers during thermocompression bonding of the film to an article.

Disclosed is a semiconductor device including a conductive pattern on a substrate, a passivation layer on the substrate and including an opening that partially exposes the conductive pattern, and a pad structure in the opening of the passivation layer and connected to the conductive pattern. The pad structure includes a first metal layer that fills the opening of the passivation layer and has a width greater than that of the opening, and a second metal layer on the first metal layer. The first metal layer has a first thickness at an outer wall of the first metal layer, a second thickness on a top surface of the passivation layer, and a third thickness on a top surface of the conductive pattern. The second thickness is greater than the first thickness, and the third thickness is greater than the second thickness.