Wafer-level (chip-scale) package semiconductor devices are described that have bump assemblies configured to maintain standoff (bump) height. In an implementation, the wafer-level chip-scale package devices include an integrated circuit chip having an array of bump assemblies disposed over the integrated circuit chip. The array of bump assemblies comprises a plurality of first bump assemblies that include solder bumps composed at least substantially of a solder composition (i.e., do not include a core). The array further includes at least one second bump assembly including a solder bump having a core configured to maintain standoff height of the wafer-level package device.

A method for manufacturing a die attach film includes forming a plurality of posts on a support sheet. The method includes forming an adhesive layer between the posts. A thermal conductivity of the adhesive layer is lower than a thermal conductivity of the posts. The method includes removing the support sheet.

A method for manufacturing a die attach film includes forming a plurality of posts on a support sheet. The method includes forming an adhesive layer between the posts. A thermal conductivity of the adhesive layer is lower than a thermal conductivity of the posts. The method includes removing the support sheet.

A semiconductor device, includes: a semiconductor element including an element main surface and an element back surface facing opposite sides in a thickness direction; a wiring part electrically connected to the semiconductor element; an electrode pad electrically connected to the wiring part; a sealing resin configured to cover a part of the semiconductor element; and a first metal layer configured to make contact with the element back surface and exposed from the sealing resin, wherein the semiconductor element overlaps the first metal layer when viewed in the thickness direction.

A semiconductor device includes a first die; a first metal enclosure directly contacting and vertically extending below the first die, wherein the first metal enclosure peripherally encircles a first enclosed space; a second die directly contacting the first metal enclosure opposite the first die; a second metal enclosure directly contacting and vertically extending below the second die, wherein the second metal enclosure peripherally encircles a second enclosed space; and an enclosure connection mechanism directly contacting the first metal enclosure and the second metal enclosure for electrically coupling the first metal enclosure and the second metal enclosure.

A semiconductor package includes a package substrate and a semiconductor chip mounted on the package substrate. The package substrate includes a signal bump land and an anchoring bump land, and the semiconductor chip includes a signal bump and an anchoring bump. The signal bump is bonded to the signal bump land, the anchoring bump is disposed to be adjacent to the anchoring bump land, and a bottom surface of the anchoring bump is located at a level which is lower than a top surface of the anchoring bump land with respect to a surface of the package substrate.

A memory device includes a buffer die including a first bump array and a second bump array spaced apart from each other in a first direction parallel to a lower surface of the buffer die; a first memory die stacked on the buffer die through a plurality of first through silicon vias and including banks; and a second memory die stacked on the first memory die by a plurality of second through silicon vias and including banks, wherein the first bump array is provided for a first channel to communicate between the first and second memory dies and a first processor, wherein the second bump array is provided for a second channel to communicate between the first and second memory dies and a second processor, and wherein the first channel and the second channel are independent of each other such that banks allocated to the first channel are accessed only by the first processor not the second processor through the first channel and banks allocated to the second channel are accessed only by the second processor not the first processor through the second channel.

A semiconductor package and a manufacturing method thereof are provided. The semiconductor package includes a first semiconductor die, an insulating encapsulation laterally encapsulating the first semiconductor die, and a redistribution structure disposed on the first semiconductor die and the insulating encapsulation. The first semiconductor die includes a first contact region and a first non-contact region in proximity to the first contact region. The first semiconductor die includes a first electrical connector disposed on the first contact region and a first dummy conductor disposed on the first non-contact region, and the first electrical connector is electrically connected to a first integrated circuit (IC) component in the first semiconductor die. The first electrical connector is electrically connected to the redistribution structure, and the first dummy conductor is electrically insulated from the first IC component in the first semiconductor die and the redistribution structure.

A semiconductor device structure is provided. The semiconductor device structure includes a substrate, an electrical connection structure extending upwardly from an upper surface of the substrate by a first height, and a contact pad electrically disposed on the upper surface of the substrate. The contact pad has a solder-wettable surface with an area configured to support a solder ball having a second height at least twice the first height. The semiconductor device structure further includes a fuse element with a first end electrically coupled to the electrical connection structure and a second end electrically coupled to the contact pad.

A semiconductor device includes a first die; a second die attached over the first die; a metal enclosure directly contacting and extending between the first die and the second die, wherein the first metal enclosure is continuous and encircles a set of one or more internal interconnects, wherein the first metal enclosure is configured to electrically connect to a first voltage level; and a second metal enclosure directly contacting and extending between the first die and the second die, wherein the second metal enclosure is continuous and encircles the first metal enclosure and is configured to electrically connect to a second voltage level; wherein the first metal enclosure and the second metal enclosure are configured to provide an enclosure capacitance encircling the set of one or more internal interconnects for shielding signals on the set of one or more internal interconnects.