A semiconductor package includes: semiconductor chips being offset-stacked to expose edge regions adjacent to first side surfaces; chip pads disposed in each of the edge regions of the semiconductor chips, the chip pads including a plurality of first chip pads arranged in a first column and a plurality of second chip pads arranged in a second column; a horizontal common interconnector having one end connected to the second chip pad of a semiconductor chip of the semiconductor chips, and another end connected to the first chip pad of another semiconductor chip; and a vertical common interconnector having one end connected to the second chip pad of the uppermost semiconductor chip, which is electrically connected to the first chip pad of the uppermost semiconductor chip connected to the horizontal common interconnector.

A semiconductor package includes: semiconductor chips being offset-stacked to expose edge regions adjacent to first side surfaces; chip pads disposed in each of the edge regions of the semiconductor chips, the chip pads including a plurality of first chip pads arranged in a first column and a plurality of second chip pads arranged in a second column; a horizontal common interconnector having one end connected to the second chip pad of a semiconductor chip of the semiconductor chips, and another end connected to the first chip pad of another semiconductor chip; and a vertical common interconnector having one end connected to the second chip pad of the uppermost semiconductor chip, which is electrically connected to the first chip pad of the uppermost semiconductor chip connected to the horizontal common interconnector.

The present invention provides a die bonding material containing the following component (A) and a solvent and having a refractive index (nD) at 25° C. of 1.41 to 1.43 and a thixotropic index of 2 or more, a light-emitting device including an adhesive member derived from the die bonding material, and a method for producing the light-emitting device. The die bonding material of the present invention is preferably used for fixing a light emitting element at a predetermined position. Component (A): a curable polysilsesquioxane compound having a repeating unit represented by the following formula (a-1) and satisfying predetermined requirements related to .sup.29Si-NMR and mass average molecular weight (Mw)
R.sup.1-D-SiO.sub.3/2  (a-1) [wherein R.sup.1 represents a fluoroalkyl group represented by a compositional formula: C.sub.mH.sub.(2m−n+1)F.sub.n; m represents an integer of 1 to 10, and n represents an integer of 2 to (2m+1); and D represents a linking group (excluding an alkylene group) for connecting R.sup.1 and Si, or a single bond].

The present invention provides a die bonding material containing the following component (A) and a solvent and having a refractive index (nD) at 25° C. of 1.41 to 1.43 and a thixotropic index of 2 or more, a light-emitting device including an adhesive member derived from the die bonding material, and a method for producing the light-emitting device. The die bonding material of the present invention is preferably used for fixing a light emitting element at a predetermined position. Component (A): a curable polysilsesquioxane compound having a repeating unit represented by the following formula (a-1) and satisfying predetermined requirements related to .sup.29Si-NMR and mass average molecular weight (Mw)
R.sup.1-D-SiO.sub.3/2  (a-1) [wherein R.sup.1 represents a fluoroalkyl group represented by a compositional formula: C.sub.mH.sub.(2m−n+1)F.sub.n; m represents an integer of 1 to 10, and n represents an integer of 2 to (2m+1); and D represents a linking group (excluding an alkylene group) for connecting R.sup.1 and Si, or a single bond].

Package on package (PoP) devices and methods of packaging semiconductor dies are disclosed. A PoP device includes a first packaged die and a second packaged die coupled to the first packaged die. Metal stud bumps are disposed between the first packaged die and the second packaged die. The metal stud bumps include a bump region and a tail region coupled to the bump region. The metal stud bumps are embedded in solder joints.

Package on package (PoP) devices and methods of packaging semiconductor dies are disclosed. A PoP device includes a first packaged die and a second packaged die coupled to the first packaged die. Metal stud bumps are disposed between the first packaged die and the second packaged die. The metal stud bumps include a bump region and a tail region coupled to the bump region. The metal stud bumps are embedded in solder joints.

Systems, methods, and devices for 3D packaging. In some embodiments, a semiconductor package includes a first die and a second die. The first die includes a first bonding pad on a top of the first die and near a first edge of the first die. The second die includes a second bonding pad on a top of the second die and near a second edge of the second die. A pillar is located on the second bonding pad. The first die is mounted on top of the second die such that the first edge is parallel to the second edge and offset from the second edge such that the pillar is exposed. A wire is bonded to a bonding surface of the pillar and bonded to a bonding surface of the first bonding pad.

Systems, methods, and devices for 3D packaging. In some embodiments, a semiconductor package includes a first die and a second die. The first die includes a first bonding pad on a top of the first die and near a first edge of the first die. The second die includes a second bonding pad on a top of the second die and near a second edge of the second die. A pillar is located on the second bonding pad. The first die is mounted on top of the second die such that the first edge is parallel to the second edge and offset from the second edge such that the pillar is exposed. A wire is bonded to a bonding surface of the pillar and bonded to a bonding surface of the first bonding pad.

A semiconductor package includes a package substrate including an insulating layer having an upper surface and a lower surface and provided with a first region which is recessed to a first depth from the upper surface toward the lower surface, a redistribution wiring buried in the insulating layer, a chip connection pad on a bottom surface of the recessed first region and connected to the redistribution wiring, and a wire connection pad on the upper surface of the insulating layer and connected to the redistribution wiring, a first semiconductor chip overlapping, in a top-down view of the semiconductor package, the recessed first region of the insulating layer and comprising a first chip pad connected to the chip connection pad of the package substrate, and a second semiconductor chip on the first semiconductor chip and connected to the wire connection pad of the package substrate through a conductive wire.

A semiconductor package includes a package substrate including an insulating layer having an upper surface and a lower surface and provided with a first region which is recessed to a first depth from the upper surface toward the lower surface, a redistribution wiring buried in the insulating layer, a chip connection pad on a bottom surface of the recessed first region and connected to the redistribution wiring, and a wire connection pad on the upper surface of the insulating layer and connected to the redistribution wiring, a first semiconductor chip overlapping, in a top-down view of the semiconductor package, the recessed first region of the insulating layer and comprising a first chip pad connected to the chip connection pad of the package substrate, and a second semiconductor chip on the first semiconductor chip and connected to the wire connection pad of the package substrate through a conductive wire.