In some examples, a system comprises a first component having a first surface, a first set of nanoparticles coupled to the first surface, and a first set of nanowires extending from the first set of nanoparticles. The system also comprises a second component having a second surface, a second set of nanoparticles coupled to the second surface, and a second set of nanowires extending from the second set of nanoparticles. The system further includes an adhesive positioned between the first and second surfaces. The first and second sets of nanowires are positioned within the adhesive.

The present disclosure provides a semiconductor packaging method and a semiconductor package device. The semiconductor packaging method includes providing a chip, where the chip includes a chip substrate having a front surface and a back surface, where the front surface includes a photosensitive region; soldering pads disposed at the front surface of the chip substrate surrounding the photosensitive region; a metal part formed on a side of each soldering pad facing away from the chip substrate; and a transparent protective layer formed on the front surface of the chip substrate, where a first end of the metal part is exposed by protruding over a surface of the transparent protective layer. The method further includes electrically connecting the first end of the metal part to a circuit board using a conductive connection part, such that the chip is electrically connected to the circuit board.

The present disclosure provides a semiconductor packaging method and a semiconductor package device. The semiconductor packaging method includes providing a chip, where the chip includes a chip substrate having a front surface and a back surface, where the front surface includes a photosensitive region; soldering pads disposed at the front surface of the chip substrate surrounding the photosensitive region; a metal part formed on a side of each soldering pad facing away from the chip substrate; and a transparent protective layer formed on the front surface of the chip substrate, where a first end of the metal part is exposed by protruding over a surface of the transparent protective layer. The method further includes electrically connecting the first end of the metal part to a circuit board using a conductive connection part, such that the chip is electrically connected to the circuit board.

The present disclosure provides a semiconductor packaging method and a semiconductor package device. The method includes providing a chip, where the chip includes a chip substrate having a front surface and a back surface; soldering pads disposed at the front surface of a chip substrate surrounding the photosensitive region; a metal part formed on a side of each soldering pad facing away from the chip substrate; and a transparent protective layer formed on the front surface of the chip substrate. A first end of the metal part away from a corresponding soldering pad is in coplanar with the transparent protective layer; and the first end of the metal part is not covered by the transparent protective layer. The method further includes electrically connecting the first end of the metal part to a circuit board using a conductive connection part to electrically connect the chip with the circuit board.

The present disclosure provides a semiconductor packaging method and a semiconductor package device. The method includes providing a chip, where the chip includes a chip substrate having a front surface and a back surface; soldering pads disposed at the front surface of a chip substrate surrounding the photosensitive region; a metal part formed on a side of each soldering pad facing away from the chip substrate; and a transparent protective layer formed on the front surface of the chip substrate. A first end of the metal part away from a corresponding soldering pad is in coplanar with the transparent protective layer; and the first end of the metal part is not covered by the transparent protective layer. The method further includes electrically connecting the first end of the metal part to a circuit board using a conductive connection part to electrically connect the chip with the circuit board.

Implementations of a clip may include a first copper layer directly bonded to a first side of a ceramic layer, a second copper layer directly bonded to a second side of the ceramic layer, the second side of the ceramic layer opposite the first side of the ceramic layer, and a plurality of channels partially etched into a thickness of the second copper layer.

Disclosed embodiments relate to a semiconductor device. A semiconductor device is fabricated by attachment of a first chip to a first surface of a pad of a leadframe. Each of one or more terminals of the first chip is connected to a respective lead of the leadframe. The first chip and the first surface of the pad are then encapsulated in a packaging material, while leaving an opposite second surface of the pad exposed. A second chip is attached to a recessed portion of the second surface of the pad so that at least one terminal of the second chip is substantially coplanar with an un-recessed portion of the second surface. In one embodiment, a third chip is also attached to the recessed portion of the second surface so that at least one terminal of the third chip is substantially coplanar with the un-recessed portion of the second surface.

Disclosed embodiments relate to a semiconductor device. A semiconductor device is fabricated by attachment of a first chip to a first surface of a pad of a leadframe. Each of one or more terminals of the first chip is connected to a respective lead of the leadframe. The first chip and the first surface of the pad are then encapsulated in a packaging material, while leaving an opposite second surface of the pad exposed. A second chip is attached to a recessed portion of the second surface of the pad so that at least one terminal of the second chip is substantially coplanar with an un-recessed portion of the second surface. In one embodiment, a third chip is also attached to the recessed portion of the second surface so that at least one terminal of the third chip is substantially coplanar with the un-recessed portion of the second surface.

In some examples, a system comprises a first component having a first surface, a first set of nanoparticles coupled to the first surface, and a first set of nanowires extending from the first set of nanoparticles. The system also comprises a second component having a second surface, a second set of nanoparticles coupled to the second surface, and a second set of nanowires extending from the second set of nanoparticles. The system further includes an adhesive positioned between the first and second surfaces. The first and second sets of nanowires are positioned within the adhesive.

In some examples, a system comprises a first component having a first surface, a first set of nanoparticles coupled to the first surface, and a first set of nanowires extending from the first set of nanoparticles. The system also comprises a second component having a second surface, a second set of nanoparticles coupled to the second surface, and a second set of nanowires extending from the second set of nanoparticles. The system further includes an adhesive positioned between the first and second surfaces. The first and second sets of nanowires are positioned within the adhesive.