A semiconductor includes a lower structure, an upper structure on the lower structure, and a connection pattern between the lower structure and the upper structure. The connection pattern is configured to electrically connect the lower structure and the upper structure to each other. The lower structure includes a lower base and a first lower chip on the lower base. The first lower chip includes a chip bonding pad, a pad structure, and a heat sink structure. The connection pattern is connected to the upper structure and extends away from the upper structure to be connected to the pad structure. The pad structure has a thickness greater than a thickness of the chip bonding pad. At least a portion of the heat sink structure is at a same height level as at least a portion of the pad structure.

A semiconductor device includes: a first semiconductor chip having a first pad and a second pad, a depression being formed in the second pad; an organic insulating film provided on the first semiconductor chip, the organic insulating film covering the depression and not covering at least a portion of the first pad; and a redistribution layer having a lower portion connected to the first pad and an upper portion disposed on the organic insulating film.

A semiconductor package includes a package substrate, a lower semiconductor chip on the package substrate, an interposer on the lower semiconductor chip, the interposer including a plurality of pieces spaced apart from each other, an upper semiconductor chip on the interposer, and a molding member covering the lower semiconductor chip and the interposer.

A semiconductor package includes: (1) a package substrate including an upper surface; (2) a semiconductor device disposed adjacent to the upper surface of the package substrate, the semiconductor device including an inactive surface; and (3) an antenna substrate disposed on the inactive surface of the semiconductor device.

A display device includes a substrate, a plurality of pixel electrodes on the substrate and spaced apart from each other, a plurality of light-emitting elements on the plurality of pixel electrodes, respectively, and a common electrode layer on the plurality of light-emitting elements and to which a common voltage is applied. The plurality of light-emitting elements include a first light-emitting element that is configured to emit first light according to a first driving current and a second light-emitting element that is configured to emit second light according to a second driving current. An active layer of the first light-emitting element is the same as an active layer of the second light-emitting element.

A sensor package including a fixed frame, a moveable platform, elastic restoring members and a sensor chip is provided. The moveable platform is moved with respect to the fixed frame, and used to carry the sensor chip. The elastic restoring members are connected between the fixed frame and the moveable platform, and used to restore the moved moveable platform to an original position. The sensor chip is arranged on the elastic restoring members to send detected data via the elastic restoring members.

A sensor package including a fixed frame, a moveable platform, elastic restoring members and a sensor chip is provided. The moveable platform is moved with respect to the fixed frame, and used to carry the sensor chip. The elastic restoring members are connected between the fixed frame and the moveable platform, and used to restore the moved moveable platform to an original position. The sensor chip is arranged on the elastic restoring members to send detected data via the elastic restoring members.

Semiconductor devices having multiple substrates and die stacks, and associated systems and methods, are disclosed herein. In some embodiments, a semiconductor device includes a package substrate, and a first die stack mounted on the package substrate and including a plurality of first memory dies. The device can include a substrate mounted on the first die stack, the substrate including a plurality of routing elements. The device can also include a second die stack mounted on the substrate, the second die stack including a plurality of second memory dies. The device can further include a controller die mounted on the substrate. The controller die can be configured to communicate with the second die stack via the routing elements of the substrate. The device can include a mold material encapsulating the first die stack, the second die stack, the substrate, and the controller die.

A semiconductor package includes a package substrate including a first substrate channel pad and a second substrate channel pad, a chip stack including a plurality of semiconductor chips stacked on the package substrate to be offset in a first direction, wherein first semiconductor chips located on odd layers from among the plurality of semiconductor chips and second semiconductor chips located on even layers from among the plurality of semiconductor chips are offset in a second direction perpendicular to the first direction, each of the first semiconductor chips includes a first chip channel pad, and each of the second semiconductor chips includes a second chip channel pad, first inter-chip connection wires configured to electrically connect the first chip channel pads of the first semiconductor chips to one another, second inter-chip connection wires configured to electrically connect the second chip channel pads of the second semiconductor chips to one another.

Described is a packaged component having a first surface and an opposite second surface. The packaged component may comprise a first element a second element, and a third element. The first element may have a first surface and an opposite second surface. The second element may have a first surface and an opposite second surface. The third element may electrically connect a portion of the first element to a portion of the second element. The second surface of the first element may be adjacent to the second surface of the packaged component, and the second surface of the second element may be adjacent to the second surface of the packaged component.