The present invention provides a QFN packaging structure and QFN packaging method. The electromagnetic shielding layer as provided on the outer side of the QFN packaging structure by spacing at a certain interval from the leads may cooperate with the base island having the lug boss on the side edge, such that all surfaces of the chip can be electromagnetically shielded and protected while ensuring the insulation between the electromagnetic shielding layer and the leads.

The present invention provides a QFN packaging structure and QFN packaging method. The electromagnetic shielding layer as provided on the outer side of the QFN packaging structure by spacing at a certain interval from the leads may cooperate with the base island having the lug boss on the side edge, such that all surfaces of the chip can be electromagnetically shielded and protected while ensuring the insulation between the electromagnetic shielding layer and the leads.

A semiconductor assembly package is provided. The semiconductor package assembly includes a system-on-chip (SOC) package, a memory package and a heat spreader. The SOC package includes a logic die and a first substrate. The logic die has pads on it. The first substrate is electrically connected to the logic die by the pads. The memory package includes a second substrate and a memory die. The second substrate has a top surface and a bottom surface. The memory die is mounted on the top surface of the second substrate and is electrically connected to the second substrate using bonding wires. The heat spreader is disposed between the SOC package and the memory package, wherein the heat spreader is in contact with a back surface of the logic die away from the pads.

A semiconductor assembly package is provided. The semiconductor package assembly includes a system-on-chip (SOC) package, a memory package and a heat spreader. The SOC package includes a logic die and a first substrate. The logic die has pads on it. The first substrate is electrically connected to the logic die by the pads. The memory package includes a second substrate and a memory die. The second substrate has a top surface and a bottom surface. The memory die is mounted on the top surface of the second substrate and is electrically connected to the second substrate using bonding wires. The heat spreader is disposed between the SOC package and the memory package, wherein the heat spreader is in contact with a back surface of the logic die away from the pads.

Provided is a package-on-package (PoP). The PoP includes a lower package, an upper package on the lower package, an interposer substrate disposed between the lower package and the upper package, and a plurality of balls connecting the interposer substrate to the upper package, in which the lower package includes a first substrate, and a first die and a second die disposed side by side in a horizontal direction, on the first substrate, in which the upper package includes a second substrate, a third die on the second substrate, and a plurality of ball pads disposed on a surface of the second substrate, the interposer substrate comprises on a surface thereof a plurality of ball lands to which a plurality of balls are attached, and at least some of the plurality of ball lands overlap the first die and the second die in a vertical direction that intersects the horizontal direction.

Provided is a package-on-package (PoP). The PoP includes a lower package, an upper package on the lower package, an interposer substrate disposed between the lower package and the upper package, and a plurality of balls connecting the interposer substrate to the upper package, in which the lower package includes a first substrate, and a first die and a second die disposed side by side in a horizontal direction, on the first substrate, in which the upper package includes a second substrate, a third die on the second substrate, and a plurality of ball pads disposed on a surface of the second substrate, the interposer substrate comprises on a surface thereof a plurality of ball lands to which a plurality of balls are attached, and at least some of the plurality of ball lands overlap the first die and the second die in a vertical direction that intersects the horizontal direction.

Provided is a fan-out semiconductor package including a package body having a fan-in region and a fan-out region, the fan-out region surrounding the fan-in region and including a body wiring structure; a fan-in chip structure in the fan-in region, the fan-in chip structure comprising a chip and a chip wiring structure on a top surface of the chip; a first redistribution structure on a bottom surface of the package body and a bottom surface of the fan-in chip structure, the first redistribution structure comprising first redistribution elements extending towards the fan-out region; and a second redistribution structure on a top surface of the package body and a top surface of the chip wiring structure, the second redistribution structure comprising second redistribution elements extending towards the fan-out region.

Provided is a fan-out semiconductor package including a package body having a fan-in region and a fan-out region, the fan-out region surrounding the fan-in region and including a body wiring structure; a fan-in chip structure in the fan-in region, the fan-in chip structure comprising a chip and a chip wiring structure on a top surface of the chip; a first redistribution structure on a bottom surface of the package body and a bottom surface of the fan-in chip structure, the first redistribution structure comprising first redistribution elements extending towards the fan-out region; and a second redistribution structure on a top surface of the package body and a top surface of the chip wiring structure, the second redistribution structure comprising second redistribution elements extending towards the fan-out region.

The invention discloses a semiconductor package structure including a package carrier, at least one electronic component, a packaging layer, a support component and a shielding layer. The electronic component is disposed on a first surface of the package carrier. The packaging layer is disposed on the first surface and covers the electronic component. The support component is embedded in the packaging layer to surround the electronic component. An end surface of the support component is electrically connected to a build-up circuit and electrically grounded. A patterned metal layer of the shielding layer is electrically connected to the support component. The shielding range of the patterned metal layer covers at least electronic component. A shielding space, which covers the electronic component, is formed by the support component and the shielding layer. In addition, a semiconductor EMI shielding component and a method of making a semiconductor package structure are also disclosed.

The invention discloses a semiconductor package structure including a package carrier, at least one electronic component, a packaging layer, a support component and a shielding layer. The electronic component is disposed on a first surface of the package carrier. The packaging layer is disposed on the first surface and covers the electronic component. The support component is embedded in the packaging layer to surround the electronic component. An end surface of the support component is electrically connected to a build-up circuit and electrically grounded. A patterned metal layer of the shielding layer is electrically connected to the support component. The shielding range of the patterned metal layer covers at least electronic component. A shielding space, which covers the electronic component, is formed by the support component and the shielding layer. In addition, a semiconductor EMI shielding component and a method of making a semiconductor package structure are also disclosed.