A semiconductor device has an interposer including a plurality of conductive vias formed through the interposer. A first semiconductor die is disposed over the interposer. A second semiconductor die is disposed over a first substrate. The first semiconductor die and second semiconductor die are power semiconductor devices. The interposer is disposed over the second semiconductor die opposite the first substrate. A second substrate is disposed over the first semiconductor die opposite the interposer. The first substrate and second substrate provide heat dissipation from the first semiconductor die and second semiconductor die from opposite sides of the semiconductor device. A plurality of first and second interconnect pads is formed in a pattern over the first semiconductor die and second semiconductor die. The second interconnect pads have a different area than the first interconnect pads to aid with alignment when stacking the assembly.

A pad structure is formed on an IC die and includes a first conductive layer, a dielectric layer, a second conductive layer and a passivation layer. The first conductive layer is formed on an upper surface of the IC die and having a hollow portion. The dielectric layer covers the first conductive layer. The second conductive layer is formed on the dielectric layer and electrically connected to the first conductive layer. The passivation layer covers the second conductive layer and has an opening exposing the second conductive layer for receiving a bonding wire.

A semiconductor device has an interposer including a plurality of conductive vias formed through the interposer. A first semiconductor die is disposed over the interposer. A second semiconductor die is disposed over a first substrate. The first semiconductor die and second semiconductor die are power semiconductor devices. The interposer is disposed over the second semiconductor die opposite the first substrate. A second substrate is disposed over the first semiconductor die opposite the interposer. The first substrate and second substrate provide heat dissipation from the first semiconductor die and second semiconductor die from opposite sides of the semiconductor device. A plurality of first and second interconnect pads is formed in a pattern over the first semiconductor die and second semiconductor die. The second interconnect pads have a different area than the first interconnect pads to aid with alignment when stacking the assembly.

A semiconductor device has an interposer including a plurality of conductive vias formed through the interposer. A first semiconductor die is disposed over the interposer. A second semiconductor die is disposed over a first substrate. The first semiconductor die and second semiconductor die are power semiconductor devices. The interposer is disposed over the second semiconductor die opposite the first substrate. A second substrate is disposed over the first semiconductor die opposite the interposer. The first substrate and second substrate provide heat dissipation from the first semiconductor die and second semiconductor die from opposite sides of the semiconductor device. A plurality of first and second interconnect pads is formed in a pattern over the first semiconductor die and second semiconductor die. The second interconnect pads have a different area than the first interconnect pads to aid with alignment when stacking the assembly.

A method for manufacturing a semiconductor package structure is provided. A semiconductor substrate comprising a conductive pad is provided, wherein the conductive pad is coupled with a circuitry of the semiconductor substrate. A patterned passivation layer exposing a portion of the conductive pad is formed. An uneven surface of the conductive pad is formed. A photoresist is formed on the semiconductor substrate. The photoresist is exposed under a light beam, wherein the light beam is scattered by the uneven surface. The photoresist is developed to form an opening in the photoresist so as to expose the conductive pad and form a plurality of cavities in the remaining photoresist. A conductive material is formed in the opening and the plurality of cavities.

A semiconductor device has an interposer including a plurality of conductive vias formed through the interposer. A first semiconductor die is disposed over the interposer. A second semiconductor die is disposed over a first substrate. The first semiconductor die and second semiconductor die are power semiconductor devices. The interposer is disposed over the second semiconductor die opposite the first substrate. A second substrate is disposed over the first semiconductor die opposite the interposer. The first substrate and second substrate provide heat dissipation from the first semiconductor die and second semiconductor die from opposite sides of the semiconductor device. A plurality of first and second interconnect pads is formed in a pattern over the first semiconductor die and second semiconductor die. The second interconnect pads have a different area than the first interconnect pads to aid with alignment when stacking the assembly.

A chip package including a substrate having an upper surface, a lower surface, and a sidewall surface that is at the edge of the substrate is provided. The substrate includes a sensor device therein and adjacent to the upper surface thereof. The chip package further includes light-shielding layer disposed over the sidewall surface of the substrate and extends along the edge of the substrate to surround the sensor device. The chip package further includes a cover plate disposed over the upper surface of the substrate and a spacer layer disposed between the substrate and the cover plate. A method of forming the chip package is also provided.

According to one embodiment, a semiconductor device includes lower layer wirings formed on a semiconductor chip, a protection film arranged on the lower layer wirings, an upper layer wiring arranged on the protection film and across a plurality of lower layer wirings, and connected to the lower layer wirings, wherein the upper layer wiring is larger than the lower layer wirings in terms of wiring line width and wiring line thickness, and a stress relaxing portion configured to reduce a stress at an in-corner portion of the upper layer wiring on the protection film, as compared with a case where the in-corner portion is set in 90.

A semiconductor device includes a first substrate, an aluminum pad, a first nickel electrode, a second substrate, a second nickel electrode, and a connection layer. The first substrate includes a wiring therein. The aluminum pad is provided adjacent to a surface layer of the first substrate and is connected to the wiring. A portion of the first nickel electrode extends inwardly of the first substrate and is connected to the aluminum pad. A top surface of the first nickel electrode projects from a surface of the first substrate. A portion of the second nickel electrode extends inwardly of the second substrate. A top surface of the second nickel electrode projects from a surface of the second substrate facing the first substrate. The connection layer comprises an alloy including tin and connects the first nickel electrode and the second nickel electrode.

A semiconductor device has an interposer including a plurality of conductive vias formed through the interposer. A first semiconductor die is disposed over the interposer. A second semiconductor die is disposed over a first substrate. The first semiconductor die and second semiconductor die are power semiconductor devices. The interposer is disposed over the second semiconductor die opposite the first substrate. A second substrate is disposed over the first semiconductor die opposite the interposer. The first substrate and second substrate provide heat dissipation from the first semiconductor die and second semiconductor die from opposite sides of the semiconductor device. A plurality of first and second interconnect pads is formed in a pattern over the first semiconductor die and second semiconductor die. The second interconnect pads have a different area than the first interconnect pads to aid with alignment when stacking the assembly.