A floating die package including a cavity formed through sublimation of a sacrificial die encapsulant and sublimation or separation of die attach materials after molding assembly. A pinhole vent in the molding structure is provided as a sublimation path to allow gases to escape, whereby the die or die stack is released from the substrate and suspended in the cavity by the bond wires only.

A floating die package including a cavity formed through sublimation of a sacrificial die encapsulant and sublimation or separation of die attach materials after molding assembly. A pinhole vent in the molding structure is provided as a sublimation path to allow gases to escape, whereby the die or die stack is released from the substrate and suspended in the cavity by the bond wires only.

In a general aspect, an electronic device assembly can include a dielectric substrate having a first surface and a second surface opposite the first surface and a leadframe including: a first leadframe portion including a first plurality of signal leads; and a second leadframe portion including a second plurality of signal leads. The substrate can be coupled with a subset of the first plurality of signal leads and a subset of the second plurality of signal leads. Signal leads of the first plurality of signal leads, other than the subset of the first plurality of signal leads, can be spaced from the dielectric substrate. Signal leads of the second plurality of signal leads, other than the subset of the second plurality of signal leads, can be spaced from the dielectric substrate. The assembly can further include first and second semiconductor die that are electrically coupled with the substrate and the leadframe portions.

In a general aspect, an electronic device assembly can include a dielectric substrate having a first surface and a second surface opposite the first surface and a leadframe including: a first leadframe portion including a first plurality of signal leads; and a second leadframe portion including a second plurality of signal leads. The substrate can be coupled with a subset of the first plurality of signal leads and a subset of the second plurality of signal leads. Signal leads of the first plurality of signal leads, other than the subset of the first plurality of signal leads, can be spaced from the dielectric substrate. Signal leads of the second plurality of signal leads, other than the subset of the second plurality of signal leads, can be spaced from the dielectric substrate. The assembly can further include first and second semiconductor die that are electrically coupled with the substrate and the leadframe portions.

The present disclosure provides a package structure, including a mounting pad having a mounting surface, a semiconductor chip disposed on the mounting surface of the mounting pad, wherein the semiconductor chip includes: a first surface perpendicular to a thickness direction of the semiconductor chip, a second surface opposite to the first surface and facing the mounting surface, and a third surface connecting the first surface and the second surface, a magnetic device disposed in the semiconductor chip, a first magnetic field shielding at least partially surrounding the third surface, a second magnetic field shielding, including a top surface facing the second surface of the semiconductor chip, and a molding surrounding the semiconductor chip, wherein the entire top surface of the second magnetic field shielding is in direct contact with the molding.

The present disclosure provides a package structure, including a mounting pad having a mounting surface, a semiconductor chip disposed on the mounting surface of the mounting pad, wherein the semiconductor chip includes: a first surface perpendicular to a thickness direction of the semiconductor chip, a second surface opposite to the first surface and facing the mounting surface, and a third surface connecting the first surface and the second surface, a magnetic device disposed in the semiconductor chip, a first magnetic field shielding at least partially surrounding the third surface, a second magnetic field shielding, including a top surface facing the second surface of the semiconductor chip, and a molding surrounding the semiconductor chip, wherein the entire top surface of the second magnetic field shielding is in direct contact with the molding.

A semiconductor substrate has a bond pad. The bond pad includes a layer of an aluminum alloy having a chemical composition including at least 0.3% by weight of at least one of Zn, Mg, Sc, Zr, Ti, Ag and/or Mn, with the balance being at least Al and incidental impurities.

A package structure and a manufacturing method thereof are provided. The package structure includes a substrate having a first surface and a second surface opposite to each other, a die electrically coupled to the substrate, an encapsulant disposed over the first surface of the substrate to encapsulate the die, at least one first conductive terminal and at least one second conductive terminal. The at least one first conductive terminal and the at least one second conductive terminal are disposed on the second surface of the substrate. The at least one second conductive terminal is electrically connected to the die through the substrate. The at least one first conductive terminal is overlapped with the die in a direction perpendicular to the second surface of the substrate. A first area of the at least one first conductive terminal is larger than a second area of the at least one second conductive terminal.

Provided is a wire bonding apparatus for electrically connecting an electrode and an aluminum alloy wire to each other by wire bonding. The apparatus includes a wire feeding device which feeds the wire. The wire has a diameter not less than 500 m and not greater than 600 m. The apparatus includes a heating device heats the wire to a temperature that is not lower than 50 C. and not higher than 100 C. The apparatus further includes a pressure device which presses the wire against the electrode. The apparatus further includes an ultrasonic wave generating device which generates an ultrasonic vibration that is applied to the wire that is pressed by the pressure device.

Provided is a wire bonding apparatus for electrically connecting an electrode and an aluminum alloy wire to each other by wire bonding. The apparatus includes a wire feeding device which feeds the wire. The wire has a diameter not less than 500 m and not greater than 600 m. The apparatus includes a heating device heats the wire to a temperature that is not lower than 50 C. and not higher than 100 C. The apparatus further includes a pressure device which presses the wire against the electrode. The apparatus further includes an ultrasonic wave generating device which generates an ultrasonic vibration that is applied to the wire that is pressed by the pressure device.