The present technology relates to a semiconductor device, a manufacturing method, and a solid-state imaging device which are capable of suppressing a decrease in bonding strength and preventing a poor electrical connection or peeling when two substrates are bonded to each other. Provided is a semiconductor device, including: a first substrate including a first electrode including a metal; and a second substrate bonded to the first substrate and including a second electrode including a metal. An acute-angled concavo-convex portion is formed on a side surface of a groove in which the first electrode is formed and a side surface of a groove in which the second electrode metal-bonded to the first electrode is formed. The present technology can be, for example, applied to a solid-state imaging device such as a CMOS image sensor.

Embodiments disclosed herein include electronic packages and methods of fabricating electronic packages. In an embodiment, an electronic package comprises an interposer, where a cavity passes through the interposer, and a nested component in the cavity. In an embodiment, the electronic package further comprises a die coupled to the interposer by a first interconnect and coupled to the nested component by a second interconnect. In an embodiment, the first and second interconnects comprise a first bump, a bump pad over the first bump, and a second bump over the bump pad.

Embodiments of molded packages and corresponding methods of manufacture are provided. In an embodiment of a molded package, the molded package includes a laser-activatable mold compound having a plurality of laser-activated regions which are plated with an electrically conductive material to form metal pads and/or metal traces at a first side of the laser-activatable mold compound. A semiconductor die embedded in the laser-activatable mold compound has a plurality of die pads. An interconnect electrically connects the plurality of die pads of the semiconductor die to the metal pads and/or metal traces at the first side of the laser-activatable mold compound.

A method of manufacture of an integrated circuit system includes: providing a semiconductor wafer with a bond pad; attaching a detachable carrier to the semiconductor wafer, the detachable carrier including a carrier frame portion and a terminal structure; removing the carrier frame portion with the terminal structure attached to the semiconductor wafer; and forming an encapsulation encapsulating the semiconductor wafer, the bond pad, and the terminal structure.

A method of manufacture of an integrated circuit system includes: providing a semiconductor wafer with a bond pad; attaching a detachable carrier to the semiconductor wafer, the detachable carrier including a carrier frame portion and a terminal structure; removing the carrier frame portion with the terminal structure attached to the semiconductor wafer; and forming an encapsulation encapsulating the semiconductor wafer, the bond pad, and the terminal structure.

A method for manufacturing a semiconductor device includes forming a first metal layer above a substrate of a semiconductor chip, forming a nickel layer on the first metal layer, performing a first cleaning treatment on the nickel layer with diluted hydrochloric acid having a concentration of less than 1% by weight, forming a gold layer on the nickel layer, and connecting a bonding wire to a surface of the gold layer.

A method for manufacturing a semiconductor device includes forming a first metal layer above a substrate of a semiconductor chip, forming a nickel layer on the first metal layer, performing a first cleaning treatment on the nickel layer with diluted hydrochloric acid having a concentration of less than 1% by weight, forming a gold layer on the nickel layer, and connecting a bonding wire to a surface of the gold layer.

The present technology relates to a semiconductor device, a manufacturing method, and a solid-state imaging device which are capable of suppressing a decrease in bonding strength and preventing a poor electrical connection or peeling when two substrates are bonded to each other. Provided is a semiconductor device, including: a first substrate including a first electrode including a metal; and a second substrate bonded to the first substrate and including a second electrode including a metal. An acute-angled concavo-convex portion is formed on a side surface of a groove in which the first electrode is formed and a side surface of a groove in which the second electrode metal-bonded to the first electrode is formed. The present technology can be, for example, applied to a solid-state imaging device such as a CMOS image sensor.

The present invention discloses a package structure for reducing warpage of plastic package wafer, including an adapter board, a chip mounted on the adapter board, and a first plastic package layer covering the chip, through-silicon-vias are disposed on the adapter board, the first and second surfaces of the adapter board are respectively provided with external connection solder balls and/or external connection solder pads electrically connected with the through-silicon-vias. The process of manufacturing the package structure includes: after the first surface process of the adapter board is completed, bonding the first carrier on its first surface, then cutting the first carrier to expose the chip-mounting area, and then carrying out subsequent processes such as chip mounting, and finally cutting and removing the first carrier to complete the package.

Embodiments disclosed herein include electronic packages and methods of fabricating electronic packages. In an embodiment, an electronic package comprises an interposer, where a cavity passes through the interposer, and a nested component in the cavity. In an embodiment, the electronic package further comprises a die coupled to the interposer by a first interconnect and coupled to the nested component by a second interconnect. In an embodiment, the first and second interconnects comprise a first bump, a bump pad over the first bump, and a second bump over the bump pad.