A semiconductor package includes a package board, at least one semiconductor chip disposed on the package board, a molding member disposed on the package board and at least partially surrounding the at least one semiconductor chip, and a heat dissipation member disposed on the at least one semiconductor chip and the molding member. The molding member has first region in which a plurality of uneven structures are disposed, and a second region spaced apart from an external region by the plurality of uneven structures. The plurality of uneven structures protrude to a predetermined height away from the semiconductor chip, the molding member, and the heat dissipation member, and may be formed as a part of the head dissipation member, or formed separately.

A method of manufacturing a semiconductor package includes: hybrid-bonding a semiconductor chip, including a through-silicon via, to an upper surface of a semiconductor wafer, wet-etching a surface of the semiconductor chip to expose the through-silicon via, covering the exposed through-silicon via with a material, including an organic resin and an inorganic filler, to form an encapsulation layer, removing an upper surface of the encapsulation layer to expose the through-silicon via, and forming a redistribution structure electrically connected to the through-silicon via.

A semiconductor package includes: a first wiring structure including a first wiring layer, and a second wiring layer disposed on the first wiring layer, and connected to a first connecting structure placed disposed on the first wiring layer; a first semiconductor chip disposed on the first wiring structure and connected to the first wiring structure through a first connecting pad disposed on a first side of the first semiconductor chip; a second wiring structure disposed on the first semiconductor chip; and an insulating member disposed between the first and second wiring structures, wherein the first wiring structure further includes a first signal pattern that is electrically connected to the first connecting pad, and the first signal pattern redistributes the first connecting pad to the first connecting structure via the insulating member.

A semiconductor package includes a package substrate, a semiconductor chip, connection pins and a molding member. The package substrate includes wiring patterns provided respectively in insulation layers, and has insertion holes extending from an upper surface of the package substrate in a thickness direction that expose portions of the wiring patterns in different insulation layers. The semiconductor chip is disposed on the package substrate, and has a first surface on which chip pads are formed. The connection pins are provided on the chip pads, respectively, and extend through corresponding ones of the insertion holes and electrically connect to the portions of the wiring patterns, respectively, that are exposed by the insertion holes. The molding member is provided on the package substrate to cover the semiconductor chip.

According to an embodiment, a semiconductor memory device includes a plurality of control gate electrodes, a semiconductor layer, and a charge accumulation layer. The plurality of control gate electrodes are provided as a stack above a substrate. The semiconductor layer has as its longitudinal direction a direction perpendicular to the substrate, and faces the plurality of control gate electrodes. The charge accumulation layer is positioned between the control gate electrode and the semiconductor layer. A lower end of the charge accumulation layer is positioned more upwardly than a lower end of a lowermost layer-positioned one of the control gate electrodes.

A memory device includes a cell wafer having a first pad on one surface thereof; and a peripheral wafer bonded to the one surface of the cell wafer, and having a second pad coupled to the first pad. The cell wafer includes a memory cell array; first and second bit lines coupled to the memory cell array; and a bit line selection circuit configured to couple one of the first and second bit lines to the first pad. The peripheral wafer includes a page buffer low-voltage circuit including a first page buffer low-voltage unit corresponding to the first bit line and a second page buffer low-voltage unit corresponding to the second bit line; and a page buffer high-voltage circuit configured to couple one of the first and second page buffer low-voltage units to the second pad.

Disclosed is a semiconductor package comprising a substrate that includes a plurality of substrate pads on a top surface of the substrate, a first semiconductor chip on the substrate, a second semiconductor chip on the first semiconductor chip, and a plurality of first bonding wires on a top surface of the first semiconductor chip and coupled to the substrate pads. The first semiconductor chip includes a first lower signal pad, a second lower signal pad laterally spaced apart from the first lower signal pad, and a lower signal redistribution pattern electrically connected to the first lower signal pad and the second lower signal pad. One of the first bonding wires is coupled to the first lower signal pad. Any of the first bonding wires is not on a top surface of the second lower signal pad.

A semiconductor package includes a wiring structure that includes a first insulating layer and a first conductive pattern inside the first insulating layer, a first semiconductor chip disposed on the wiring structure, an interposer that includes a second insulating layer, a second conductive pattern inside the second insulating layer, and a recess that includes a first sidewall formed on a first surface of the interposer that faces the first semiconductor chip and a first bottom surface connected with the first sidewall, where the recess exposes at least a portion of the second insulating layer, a first element bonded to the interposer and that faces the first semiconductor chip inside the recess, and a mold layer that covers the first semiconductor chip and the first element.

A semiconductor assembly includes a first die and a second die. The semiconductor assembly also includes a film on die (FOD) layer configured to attach the first die to the second die. The FOD layer is disposed on a first surface of the first die. The FOD layer includes a first portion comprising a first die attach film (DAF) disposed on an inner region of the first surface. The FOD layer also includes a second portion that includes a second DAF disposed on a peripheral region of the first surface surrounding the inner region. The second DAF includes a different material than the first DAF.

A semiconductor package includes a first base plate, first semiconductor structure, second base plate and filling layer. The first base plate has a first surface including first and second signal transmission regions. The first semiconductor structure located on the first surface is electrically connected to the first signal transmission region. The second base plate located on the first base plate includes a base and a first interconnection surface. The first interconnection surface is away from the first surface. The first interconnection surface has first and second interconnection regions communicated with each other. The first interconnection region is electrically connected to the second signal transmission region. The filling layer seals the first semiconductor structure, second base plate and first surface. The first interconnection region is not sealed, and the second interconnection region is. There is a preset height between a top surface of the filling layer and the first interconnection region.