A package substrate and method of manufacturing a package substrate and a semiconductor device package are provided. The package substrate includes a circuit layer, an optically-cured dielectric layer, a plurality of block layers and a sacrificial layer. The circuit layer includes a plurality of conductive pads. The optically-cured dielectric layer has an upper surface and a lower surface opposite to the upper surface. The optically-cured dielectric layer covers the circuit layer, and first surfaces of the conductive pads are at least partially exposed from the upper surface of the optically-cured dielectric layer. The block layers are respectively disposed on the first surfaces of the conductive pads exposed by the optically-cured dielectric layer. The sacrificial layer is disposed on the optically-cured dielectric layer and covering the block layers.

Semiconductor devices including stacked semiconductor dies and associated systems and methods are disclosed herein. In one embodiment, a semiconductor device includes a first semiconductor die coupled to a package substrate and a second semiconductor die stacked over the first semiconductor die and laterally offset from the first semiconductor die. The second semiconductor die can accordingly include an overhang portion that extends beyond a side of the first semiconductor die and faces the package substrate. In some embodiments, the second semiconductor die includes bond pads at the overhang portion that are electrically coupled to the package substrate via conductive features disposed therebetween. In certain embodiments, the first semiconductor die can include second bond pads electrically coupled to the package substrate via wire bonds.

A package structure includes a plurality of stacked die units and an insulating encapsulant. The plurality of stacked die units is stacked on top of one another, where each of the plurality of stacked die units include a first semiconductor die, a first bonding chip. The first semiconductor die has a plurality of first bonding pads. The first bonding chip is stacked on the first semiconductor die and has a plurality of first bonding structure. The plurality of first bonding structures is bonded to the plurality of first bonding pads through hybrid bonding. The insulating encapsulant is encapsulating the plurality of stacked die units.

A semiconductor package includes a core substrate having a through hole, a first molding member at least partially filling the through hole and covering an upper surface of the core substrate, the first molding member having a cavity within the through hole, a first semiconductor chip on the first molding member on the upper surface of the core substrate, a second semiconductor chip arranged within the cavity, a second molding member on the first molding member and covering the first semiconductor chip, a third molding member filling the cavity and covering the lower surface of the core substrate; first redistribution wirings on the second molding member and electrically connecting first chip pads of the first semiconductor chip and core connection wirings of the core substrate; and second redistribution wirings on the third molding member and electrically connecting second chip pads of the second semiconductor chip and the core connection wirings.

An integrated circuit package can contain a semiconductor die and provide electrical connections between the semiconductor die and additional electronic components. The integrated circuit package can reduce stress placed on the semiconductor die due to movement of the integrated circuit package due to, for example, temperature changes and/or moisture levels. The integrated circuit package can at least partially mechanically isolate the semiconductor die from the integrated circuit package.

A package structure includes a substrate, a first electronic component, a second electronic component, a third electronic component and a connection component. The substrate includes a first surface and a second surface opposite the first surface. The first electronic component is disposed at the substrate and has a first active surface exposed from the second surface of the substrate. The second electronic component includes a second active surface facing the first active surface of the first electronic component. The second active surface of the second electronic component is electrically connected to the first active surface of the first electronic component. The third electronic component includes a third active surface facing the first active face of the first electronic component. The connection component electrically connects the third active surface of the third electronic component to the first active surface of the first electronic component. The connection component has at least two bendings.

Implementations of semiconductor packages may include a die including a first side and a second side opposing the first side, the second side of the die coupled to a layer, a first end of a plurality of wires each bonded to the first side of the die, a mold compound encapsulating the die and the plurality of wires, and a second end of the plurality of wires each directly bonded to one of a plurality of bumps, wherein a surface of the layer is exposed through the mold compound.

A lead frame includes a lead portion having a first surface and a second surface, a connecting bar that has a first surface and a second surface and to which the lead portion is connected, and a raised portion provided on the first surface of the connecting bar. The first surface of the connecting bar is positioned between the first and the second surfaces of the lead portion. The tip of the raised portion is positioned between the first surface of the lead portion and the first surface of the connecting bar.

A method of forming a semiconductor package includes providing a panel, providing one or more metal layers on an upper surface of the panel, forming a die pad and bond pads from the one or more metal layers, the die pad being adjacent to and spaced apart from the bond pads, attaching a die to the die pad, forming electrical connections between the die and the bond pads, encapsulating the die and the electrical connections with an electrically insulating mold compound, removing portions of the panel, and exposing the die pad and the bond pads after encapsulating the die.

A semiconductor device includes a semiconductor element, a conductive layer, terminals, and a sealing resin. The conductive layer, containing metal particles, is in contact with the reverse surface and the side surface of the semiconductor element. The terminals are spaced apart from and electrically connected to the semiconductor element. The sealing resin covers the semiconductor element. The conductive layer has an edge located outside of the semiconductor element as viewed in plan. Each terminal includes a top surface, a bottom surface, an inner side surface held in contact with the sealing resin, and the terminal is formed with a dent portion recessed from the bottom surface and the inner side surface. The conductive layer and the bottom surface of each terminal are exposed from a bottom surface of the sealing resin.