A semiconductor package includes: a package substrate, a first stack structure disposed on the package substrate, the first stack structure including first semiconductor chips stacked and connected to each other by bonding wires, a second stack structure disposed on the first stack structure, and including second semiconductor chips stacked, the second stack structure having an overhang region protruding beyond an uppermost first semiconductor chip of the first stack structure among the first semiconductor chips, an adhesive member covering a lower surface of the second stack structure and adhered to a portion of upper surfaces of the first stack structure, and an encapsulant disposed on the package substrate and covering the first stack structure and the second stack structure, wherein at least a portion of the bonding wires are buried in the die adhesive film in the overhang region to support the second stack structure.

Semiconductor die assemblies with decomposable materials, and associated methods and systems are disclosed. In an embodiment, a semiconductor die assembly includes a memory controller die carrying one or more memory dies attached to its first side. The semiconductor die assembly also includes a biodegradable structure attached to its second side opposite to the first side. The biodegradable structure includes a conductive material and an insulating material, both of which are biodegradable and disintegrate in a wet process. The biodegradable structure can be configured to couple the memory controller die with an interface die. In this manner, when the biodegradable structure disintegrates (e.g., dissolve) in the wet process, the memory controller carrying the memory dies can be separated from the interface die to reclaim the memory controller with the memory dies and the interface die.

A memory module, includes a module substrate and at least one semiconductor package on the module substrate that includes a package substrate having a lower surface and an upper surface. First and second groups of lower pads are on the lower surface, and upper pads are on the upper surface and are electrically connected to the lower pads of the first group. A chip structure is on the upper surface of the package substrate and is electrically connected to the upper pads. First connection bumps connect the lower pads of the first group to the module substrate, and second connection bumps connect the lower pads of the second group to the module substrate. The first connection bumps have a first maximum width at a first distance from the package substrate, and the second connection bumps have a second maximum width at a second, shorter distance from the package substrate.

A semiconductor package, includes: a first semiconductor chip including first connection pads on the first front surface, and through electrodes extending perpendicularly to the first rear surface and electrically connected to at least a portion of the first connection pads; a second semiconductor chip including second connection pads on the second front surface, and on the first rear surface so that the second rear surface faces the first semiconductor chip; a dielectric layer on the second semiconductor chip; first conductive structures in the dielectric layer, and connecting the through electrodes of a first group and the second connection pads; second conductive structures in the dielectric layer, and having first and second ends, the first ends connected to the through electrodes of a second group and at least a portion of the second ends thereof being exposed from the dielectric layer; at least one third semiconductor chip including third connection pads on the third front surface, and on the dielectric layer so that the third rear surface faces the second semiconductor chip; conductive wires connecting the second conductive structures and the third connection pads.

A bonded structure is disclosed. The bonded structure can include an interconnect structure. The bonded structure can also include a first die directly bonded to the interconnect structure. The bonded structure can also include a second die mounted to the interconnect structure. The second die is spaced apart from the first die laterally along an upper surface of the interconnect structure. The second die is electrically connected with the first die at least partially through the interconnect structure. The bonded structure can further include a dielectric layer that is disposed over the upper surface of the interconnect structure between the first die and the second die.

A power semiconductor device includes a semiconductor structure comprising an active region, an encapsulation material on the semiconductor structure, and a plurality of adhesion features in or on the semiconductor structure along an interface with the encapsulation material. The interface is laterally between the active region and at least one edge of the semiconductor structure. Related devices and fabrication methods are also discussed.

Bonded die structures and methods of fabricating bonded die structures including improved positioning of the dies used to form the structures. Improved positioning may be achieved by providing non-linear alignment features around the periphery of the dies that may facilitate accurate positioning of the dies with respect to one or more alignment marks on the target structures on which the dies are placed. The non-linear alignment features may include features formed in the peripheral edges of the dies, such as indent portions extending inwardly from the peripheral edges of the dies and/or outward bulge portions extending outwardly from the peripheral edges of the dies. Alternatively, or in addition, the non-linear alignment features may be features formed in a seal ring structure of the dies. The non-linear alignment features may improve the accuracy of the positioning of the dies relative to alignment mark(s) on the target structures using optical detection systems.

A semiconductor package comprises a package substrate, a first semiconductor chip comprising a semiconductor substrate, a wiring structure on the semiconductor substrate, a connection pad at an uppermost part of the wiring structure, and a protective layer on a side surface of the connection pad, a crack reduction layer on the connection pad and the protective layer and a mold layer on the crack reduction layer, wherein a coefficient of thermal expansion of the crack reduction layer is lower than a coefficient of thermal expansion of the semiconductor substrate.

A semiconductor package includes a base chip including a semiconductor body and a through-electrode structure penetrating through the semiconductor body and having a protrusion portion protruding upwardly of the semiconductor body, an insulating pattern on a side surface and an upper surface of the base chip, a chip stack on the base chip and the insulating pattern, and an encapsulant on the insulating pattern and covering at least a portion of the chip stack. The insulating pattern includes a first insulating portion on a side surface of the semiconductor body, and a second insulating portion on an upper surface of the semiconductor body and covering a side surface of the protrusion portion of the through-electrode structure. The insulating pattern includes an inorganic insulating material, and the encapsulant includes an organic insulating material.

A sensor package structure includes a substrate, a sensor chip disposed on the substrate, a plurality of first metal wires, a plurality of second metal wires, a ring-shaped supporting layer formed on the sensor chip, and a light-permeable sheet. The first metal wires and the second metal wires are connected to the substrate and the sensor chip. Each edge of a top surface of the sensor chip is provided with at least one of the second metal wires adjacent thereto. Each of the second metal wires has a highest endpoint that is higher than a highest endpoint of any one of the first metal wires with respect to the substrate, and the light-permeable sheet is disposed on the ring-shaped supporting layer and abuts against the highest endpoints of the second metal wires, such that the first metal wires are not in contact with the light-permeable sheet.