A semiconductor device has a semiconductor chip region which contains a semiconductor chip and a first portion of a passivation film covering the semiconductor chip and a scribe line region which contains a second portion of the passivation film connected to the first portion of the passivation film, a first insulating film protruding from a distal end of the second portion of the passivation film, and at least a part of a first wiring. A first portion of the first insulating film is disposed along the distal end of the second portion of the passivation film, a second portion of the first insulating film protrudes laterally beyond the first portion of the first insulating film, and the first wiring protrudes laterally beyond the second portion of the first insulating film.

The present disclosure provides a device die, a die assembly and an electronic system. The device die includes a package and a plurality of transfer pads disposed on a functional surface of the package. The transfer pads are divided into a plurality of segments electrically isolated from each other. In an adjacent pair of transfer pads, there is only one electrical connection between the transfer pads, comprising one segment in one transfer pad electrically connected to one segment in the other transfer pad. The die assembly includes a pair of device dies stacked in a stepped configuration. The electronic system includes a supporting member having at least one metallic layer, and a plurality of device dies disposed on the supporting member and mechanically and electrically coupled to the metallic layer by a plurality of conductive strings.

The present disclosure provides a device die, a die assembly and an electronic system. The device die includes a package and a plurality of transfer pads disposed on a functional surface of the package. The transfer pads are divided into a plurality of segments electrically isolated from each other. In an adjacent pair of transfer pads, there is only one electrical connection between the transfer pads, comprising one segment in one transfer pad electrically connected to one segment in the other transfer pad. The die assembly includes a pair of device dies stacked in a stepped configuration. The electronic system includes a supporting member having at least one metallic layer, and a plurality of device dies disposed on the supporting member and mechanically and electrically coupled to the metallic layer by a plurality of conductive strings.

An optoelectronic device includes an optical integrated circuit having a first surface and a second surface opposite the first surface. The optical integrated circuit has an optical zone of the first surface of the optical integrated circuit. The device includes an electrically insulating material disposed over the optical integrated circuit, where he electrically insulating material partially covers the first surface so as to expose the optical zone.

An optoelectronic device includes an optical integrated circuit having a first surface and a second surface opposite the first surface. The optical integrated circuit has an optical zone of the first surface of the optical integrated circuit. The device includes an electrically insulating material disposed over the optical integrated circuit, where he electrically insulating material partially covers the first surface so as to expose the optical zone.

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.

Semiconductor devices may include a die including a semiconductor material. The die may include a first active surface including first integrated circuitry on a first side of the die and a second active surface including second integrated circuitry on a second, opposite side of the die. In some embodiments, the die may include two die portions: a first die portion including the first active surface and a second die portion including the second active surface. The first die portion and the second die portion may be joined together with the first active surface facing away from the second active surface.

Semiconductor devices may include a die including a semiconductor material. The die may include a first active surface including first integrated circuitry on a first side of the die and a second active surface including second integrated circuitry on a second, opposite side of the die. In some embodiments, the die may include two die portions: a first die portion including the first active surface and a second die portion including the second active surface. The first die portion and the second die portion may be joined together with the first active surface facing away from the second active surface.

An integrated circuit (IC) die structure comprises a substrate material comprising silicon. Integrated circuitry is over a first side of the substrate material. A composite layer is in direct contact with a second side of the substrate material. The second side is opposite the first side. The composite layer comprises a first constituent material associated with a first linear coefficient of thermal expansion (CTE), and a first thermal conductivity exceeding that of the substrate. The composite layer also comprises a second constituent material associated with a second CTE that is lower than the first, and a second thermal conductivity exceeding that of the substrate.