There is provided a solid-state imaging device capable of reducing the number of wiring layers and achieving downsizing with flexible layout designing. The solid-state imaging device includes a first semiconductor chip including a first electrode pad, first wiring connected to a first electrode pad through a first via, and a logic circuit, which are formed therein, and a second semiconductor chip connected to the first semiconductor chip and including a second electrode pad, second wiring connected to the second electrode pad through a second via, and a pixel array, which are formed therein. The first electrode pad and the second electrode pad are bonded as being shifted from each other on a bonding surface of the first semiconductor chip and the second semiconductor chip. A total length of the shifted and bonded first and second electrode pads in an extending-direction of the wiring having a longer pitch of the first and second wiring is twice or more of an extending-direction length of the wiring having the longer pith.

There is provided a solid-state imaging device capable of reducing the number of wiring layers and achieving downsizing with flexible layout designing. The solid-state imaging device includes a first semiconductor chip including a first electrode pad, first wiring connected to a first electrode pad through a first via, and a logic circuit, which are formed therein, and a second semiconductor chip connected to the first semiconductor chip and including a second electrode pad, second wiring connected to the second electrode pad through a second via, and a pixel array, which are formed therein. The first electrode pad and the second electrode pad are bonded as being shifted from each other on a bonding surface of the first semiconductor chip and the second semiconductor chip. A total length of the shifted and bonded first and second electrode pads in an extending-direction of the wiring having a longer pitch of the first and second wiring is twice or more of an extending-direction length of the wiring having the longer pith.

An integrated circuit (IC) package includes a first die with a first surface overlaying a substrate. The first die includes a first metal pad at a second surface opposing the first surface. The IC package also includes a dielectric layer having a first surface contacting the second surface of the first die. The IC package further includes a second die with a surface that contacts a second surface of the dielectric layer. The second die includes a second metal pad aligned with the first metal pad of the first die. A plane perpendicular to the second surface of the first die intersects the first metal pad and the second metal pad.

A method of forming semiconductor structure includes attaching backsides of top dies to a front side of a bottom wafer, the bottom wafer comprising a plurality of bottom dies; forming first conductive pillars on the front side of the bottom wafer adjacent to the top dies; forming a first dielectric material on the front side of the bottom wafer around the top dies and around the first conductive pillars; and dicing the bottom wafer to form a plurality of structures, each of the plurality of structures comprising at least one of the top dies and at least one of the bottom dies.

A method of forming semiconductor structure includes attaching backsides of top dies to a front side of a bottom wafer, the bottom wafer comprising a plurality of bottom dies; forming first conductive pillars on the front side of the bottom wafer adjacent to the top dies; forming a first dielectric material on the front side of the bottom wafer around the top dies and around the first conductive pillars; and dicing the bottom wafer to form a plurality of structures, each of the plurality of structures comprising at least one of the top dies and at least one of the bottom dies.

A light-emitting diode (LED) chip includes a semiconductor epitaxial structure, an insulating substrate, a first metal layer, and a second metal layer. The semiconductor epitaxial structure includes a first semiconductor epitaxial layer, a second semiconductor epitaxial layer, and a light-emitting layer interposed between the first semiconductor epitaxial layer and the second semiconductor epitaxial layer. The insulating substrate has two opposite surfaces, and the first and second metal layers are respectively disposed on the two surfaces of the insulating substrate. An LED device and an LED lamp including the LED chip are also disclosed.

A light-emitting diode (LED) chip includes a semiconductor epitaxial structure, an insulating substrate, a first metal layer, and a second metal layer. The semiconductor epitaxial structure includes a first semiconductor epitaxial layer, a second semiconductor epitaxial layer, and a light-emitting layer interposed between the first semiconductor epitaxial layer and the second semiconductor epitaxial layer. The insulating substrate has two opposite surfaces, and the first and second metal layers are respectively disposed on the two surfaces of the insulating substrate. An LED device and an LED lamp including the LED chip are also disclosed.

A method includes forming a first device die, which includes depositing a first dielectric layer, and forming a first metal pad in the first dielectric layer. The first metal pad includes a recess. The method further includes forming a second device die including a second dielectric layer and a second metal pad in the second dielectric layer. The first device die is bonded to the second device die, with the first dielectric layer being bonded to the second dielectric layer, and the first metal pad being bonded to the second metal pad.

A method includes forming a first device die, which includes depositing a first dielectric layer, and forming a first metal pad in the first dielectric layer. The first metal pad includes a recess. The method further includes forming a second device die including a second dielectric layer and a second metal pad in the second dielectric layer. The first device die is bonded to the second device die, with the first dielectric layer being bonded to the second dielectric layer, and the first metal pad being bonded to the second metal pad.

A structure includes a first die and a second die. The first die includes a first bonding layer having a first plurality of bond pads disposed therein and a first seal ring disposed in the first bonding layer. The first bonding layer extends over the first seal ring. The second die includes a second bonding layer having a second plurality of bond pads disposed therein. The first plurality of bond pads is bonded to the second plurality of bond pads. The first bonding layer is bonded to the second bonding layer. An area interposed between the first seal ring and the second bonding layer is free of bond pads.