A semiconductor package is provided. The semiconductor package includes: a first stack including a first semiconductor substrate; a through via that penetrates the first semiconductor substrate in a first direction; a second stack that includes a second face facing a first face of the first stack, on the first stack; a first pad that is in contact with the through via, on the first face of the first stack; a second pad including a concave inner side face that defines an insertion recess, the second pad located on the second face of the second stack; and a bump that connects the first pad and the second pad, wherein the bump includes a first upper bump on the first pad, and a first lower bump between the first upper bump and the first pad.

An image sensor includes a stack structure including an active pixel region in which a plurality of pixels are defined, and a pad region arranged on at least one side of the active pixel region. The stack structure includes a first substrate including a photoelectric conversion region and a floating diffusion region in each pixel, a first semiconductor substrate, a first front structure on the first semiconductor substrate, and a pad opening penetrating the first semiconductor substrate in the pad region, a second substrate attached to the first substrate and including a pixel gate electrically connected to the floating diffusion region in each pixel, a third substrate attached to the second substrate and including a logic transistor for driving the plurality of pixels, and a pad having a top surface that is exposed through the pad opening.

A semiconductor package includes a first semiconductor chip having a first substrate, a first insulating layer on the first substrate, and a plurality of first bonding pads on the first insulating layer, and having a flat upper surface by an upper surface of the first insulating layer and upper surfaces of the plurality of first bonding pads; and a second semiconductor chip on the upper surface of the first semiconductor chip and having a second substrate, a second insulating layer below the second substrate and in contact with the first insulating layer, and a plurality of second bonding pads on the second insulating layer and in contact with the first bonding pads, respectively, wherein the first insulating layer includes an insulating interfacial layer in contact with the second insulating layer, embedded in the first insulating layer, and spaced apart from the plurality of first bonding pads.

The semiconductor device may include a substrate, a first insulating layer on a bottom surface of the substrate, an interconnection structure in the first insulating layer, a second insulating layer on a bottom surface of the first insulating layer, and a plurality of lower pads provided in the second insulating layer. Each lower pad may be provided such a width of a top surface thereof is smaller than a width of a bottom surface thereof. The lower pads may include first, second, and third lower pads. In a plan view, the first and third lower pads may be adjacent to center and edge portions of the substrate, respectively, and the second lower pad may be disposed therebetween. A width of a bottom surface of the second lower pad may be smaller than that of the first lower pad and may be larger than that of the third lower pad.

Microelectronic assemblies, and related devices and methods, are disclosed herein. For example, in some embodiments, a microelectronic assembly may include a package substrate having a first surface and an opposing second surface, and a die secured to the package substrate, wherein the die has a first surface and an opposing second surface, the die has first conductive contacts at the first surface and second conductive contacts at the second surface, and the first conductive contacts are coupled to conductive pathways in the package substrate by first non-solder interconnects.

A display includes a pixel electrode disposed on a substrate, a light emitting element disposed on the pixel electrode, a connection electrode disposed on a side surface of the light emitting element, and a common electrode disposed on the light emitting element. The light emitting element includes a first sub light emitting element, a second sub light emitting element disposed on the first sub light emitting element, and a third sub light emitting element disposed on the second sub light emitting element. The connection electrode is disposed on at least one side surface of the first sub light emitting element, the second sub light emitting element, and the third sub light emitting element.

A semiconductor device includes a semiconductor substrate having a first major surface and a second major surface opposite the first major surface, a first layer of dielectric material over the first major surface, and a second layer of dielectric material over the second major surface. The first layer includes a plurality of recesses, and the second layer includes a plurality of protrusions. Each of the plurality of recesses are defined by a shape, and each of the plurality of protrusions are vertically aligned with a corresponding one of the plurality of recesses and are defined by the shape of the corresponding one of the plurality of recesses.

In one embodiment, a semiconductor device includes a lower interconnect layer including a plurality of lower interconnects, and a plurality of lower pads provided on the lower interconnects. The device further includes a plurality of upper pads provided on the lower pads and being in contact with the lower pads, and an upper interconnect layer including a plurality of upper interconnects provided on the upper pads. The lower pads include a plurality of first pads and a plurality of second pads. The upper pads include a plurality of third pads provided on the second pads and a plurality of fourth pads provided on the first pads, a lower face of each third pad is larger in area than a upper face of each second pad, and a lower face of each fourth pad is smaller in area than a upper face of each first pad.

Disclosed herein is a semiconductor IC-embedded substrate that includes insulating layers, conductor layers, and a semiconductor IC embedded in the insulating layers. The insulating layers includes first and second insulating layers. The conductor layers includes a first conductor layer having a first wiring pattern and a second conductor layer having a second wiring pattern. The semiconductor IC includes a rewiring pattern connected in common to power supply pads. The rewiring pattern is connected to the first wiring pattern via a first opening of the first insulating layer. The first wiring pattern is connected to the second wiring pattern via second openings of the second insulating layer. The first opening is greater in area than each of the second openings.

A semiconductor chip includes a chip body including a signal input/output circuit unit, a chip pad unit disposed on one surface of the chip body and including first and second chip pads having different surface areas from each other, and a chip pad selection circuit unit disposed in the chip body and electrically connected to the signal input/output circuit unit and the chip pad unit. The chip pad selection circuit unit is configured to select one chip pad of the first and second chip pads and electrically connect the selected one chip pad to the signal input/output circuit unit.