A stack type sensor package structure includes a substrate, a semiconductor chip disposed on the substrate, a frame disposed on the substrate and aside the semiconductor chip, a sensor chip disposed on the frame, a plurality of wires electrically connecting the sensor chip and the substrate, a transparent layer being of its position corresponding to the sensor chip, a support maintaining the relative position between the sensor chip and the transparent layer, and a package compound disposed on the substrate and partially covering the frame, the support, and the transparent layer. Thus, through disposing a frame within the stack type sensor package structure, the structural strength of the overall sensor package structure is reinforced, and the stability of the wiring of the sensor chip is effectively increased.

An IC package, comprising a substrate and two or more vertically stacked dies disposed within the substrate, wherein all the edges of the two or more dies are aligned with respect to one another, wherein at least two dies of the two or more vertically stacked dies are coupled directly to one another by at least one wire bonded to the ones of the at least two dies.

A bond-wire system including a wire bond that is deflected above a dielectric ridge at a die edge. The deflected wire bond allows for both a lowered Z-profile and a reduced X-Y footprint. The bond-wire system may include a stacked-die configuration where a stacked die is wire bonded and the stacked-die bond wire is deflected above a dielectric ridge at the stacked die edge.

The semiconductor device includes a semiconductor element, a main lead and a resin package. The semiconductor element includes an obverse surface and a reverse surface spaced apart from each other in a thickness direction. The main lead supports the semiconductor element via the reverse surface of the semiconductor element. The resin package covers the entirety of the semiconductor element. The resin package covers the main lead in such a manner that a part of the main lead is exposed from the resin package. The semiconductor element includes a part that does not overlap the main lead as viewed in the thickness direction.

In examples, a package comprises a semiconductor die having a device side and a bond pad on the device side, a conductive terminal exposed to an exterior of the package, and an electrical fuse. The electrical fuse comprises a conductive ball coupled to the bond pad, and a bond wire coupled to the conductive terminal. The bond wire is stitch-bonded to the conductive ball.

A semiconductor device includes a first device having a first pad; a second device having a second pad; and a bonding wire electrically connecting the first device and the second device to each other via the first pad and the second pad. The bonding wire includes: a first bonding structure provided at a first end of the bonding wire, electrically connected to the first device and includes: a first ball bonding region; and a first stitch bonding region; and a second bonding structure provided at a second end opposite of the first end of the bonding wire and electrically connected to the second device.

A chip package structure including a substrate, a first chip, a frame, a plurality of first conductive connectors, a first encapsulant, and a package is provided. The first chip is disposed on the substrate. The first chip has an active surface and a back surface opposite to the active surface, and the active surface faces the substrate. The frame is disposed on the back surface of the first chip and the frame has a plurality of openings. The first conductive connectors are disposed on the substrate and the first conductive connectors are disposed in correspondence to the openings. The first encapsulant is disposed between the substrate and the frame and encapsulates the first chip. The package is disposed on the frame and is electrically connected to the substrate via the first conductive connectors.

A chip package structure including a substrate, a first chip, a frame, a plurality of first conductive connectors, a first encapsulant, and a package is provided. The first chip is disposed on the substrate. The first chip has an active surface and a back surface opposite to the active surface, and the active surface faces the substrate. The frame is disposed on the back surface of the first chip and the frame has a plurality of openings. The first conductive connectors are disposed on the substrate and the first conductive connectors are disposed in correspondence to the openings. The first encapsulant is disposed between the substrate and the frame and encapsulates the first chip. The package is disposed on the frame and is electrically connected to the substrate via the first conductive connectors.

A multi-chip package includes a package substrate including a first substrate pad, a first group of semiconductor chips stacked on the package substrate, each of the first group of the semiconductor chips including bonding pads, first stud bumps arranged on the bonding pads of the first group of the semiconductor chips except for a lowermost semiconductor chip in the first group, a first conductive wire downwardly extended from the bonding pad of the lowermost semiconductor chip in the first group and connected to the first substrate pad, and a second conductive wire upwardly extended from the bonding pad of the lowermost semiconductor chip in the first group and sequentially connected to the first stud bumps.

An IC package, comprising a substrate and two or more vertically stacked dies disposed within the substrate, wherein all the edges of the two or more dies are aligned with respect to one another, wherein at least two dies of the two or more vertically stacked dies are coupled directly to one another by at least one wire bonded to the ones of the at least two dies.