A MEMS device package comprising a first die of semiconductor material including a contact pad and a second die of semiconductor material stacked on the first die. The second die is smaller than the first die. The second die includes a contact pad, and a conductive wire is coupled between the contact pad of the first die and a contact pad of the second die. A mold compound is on the second die and the first die. A vertical connection structure is on the contact pad of the second die. The vertical connection structure extends through the mold compound.

In an embodiment, a device includes: a first device including: an integrated circuit device having a first connector; a first photosensitive adhesive layer on the integrated circuit device; and a first conductive layer on the first connector, the first photosensitive adhesive layer surrounding the first conductive layer; a second device including: an interposer having a second connector; a second photosensitive adhesive layer on the interposer, the second photosensitive adhesive layer physically connected to the first photosensitive adhesive layer; and a second conductive layer on the second connector, the second photosensitive adhesive layer surrounding the second conductive layer; and a conductive connector bonding the first and second conductive layers, the conductive connector surrounded by an air gap.

A semiconductor package includes an interposer chip having a frontside, a backside, and a corner area on the backside defined by a first corner edge and a second corner edge of the interposer chip. A die is bonded to the frontside of the interposer chip. At least one dam structure is formed on the corner area of the backside of the interposer chip. The dam structure includes an edge aligned to at least one the first corner edge and the second corner edge of the interposer chip.

A semiconductor package includes semiconductor bridge, first and second multilayered structures, first encapsulant, and a pair of semiconductor dies. Semiconductor dies of the pair include semiconductor substrate and conductive pads disposed at front surface of semiconductor substrate. Semiconductor bridge electrically interconnects the pair of semiconductor dies. First multilayered structure is disposed on rear surface of one semiconductor die. Second multilayered structure is disposed on rear surface of the other semiconductor die. First encapsulant laterally wraps first multilayered structure, second multilayered structure and the pair of semiconductor dies. Each one of first multilayered structure and second multilayered structure includes a top metal layer, a bottom metal layer, and an intermetallic layer. Each one of first multilayered structure and second multilayered structure has surface coplanar with surface of first encapsulant. The top metal layers, the bottom metal layers, and the intermetallic layers are in contact with the first encapsulant

A manufacturing method of a semiconductor package includes the following steps. A chip is provided. The chip has an active surface and a rear surface opposite to the active surface. The chip includes conductive pads disposed at the active surface. A first solder-containing alloy layer is formed on the rear surface of the chip. A second solder-containing alloy layer is formed on a surface and at a location where the chip is to be attached. The chip is mounted to the surface and the first solder-containing alloy layer is aligned with the second solder-containing alloy layer. A reflow step is performed on the first and second solder-containing alloy layers to form a joint alloy layer between the chip and the surface.

Semiconductor devices are provided in which a first semiconductor device is bonded to a second semiconductor device. The bonding may occur at a gate level, a gate contact level, a first metallization layer, a middle metallization layer, or a top metallization layer of either the first semiconductor device or the second semiconductor device.

A semiconductor product in the form of a stack chip package and a method of manufacturing the same, where a plurality of semiconductor chips are stacked one on another so as to enable the exchange of electrical signals between the semiconductor chips, and where a conductive layer is included for inputting and outputting signals to and from individual chips. A stack chip package having a compact size may, for example, be manufactured by stacking, on a first semiconductor chip, a second semiconductor chip having a smaller surface area by means of interconnection structures so as to enable the exchange of electrical signals between the first and second semiconductor chips, and by using a conductive layer for inputting and outputting signals to and from individual semiconductor chips, in lieu of a thick substrate. Furthermore, heat dissipation effects can be enhanced by the addition of a heat dissipation unit.

In an embodiment, a device includes: a first device including: an integrated circuit device having a first connector; a first photosensitive adhesive layer on the integrated circuit device; and a first conductive layer on the first connector, the first photosensitive adhesive layer surrounding the first conductive layer; a second device including: an interposer having a second connector; a second photosensitive adhesive layer on the interposer, the second photosensitive adhesive layer physically connected to the first photosensitive adhesive layer; and a second conductive layer on the second connector, the second photosensitive adhesive layer surrounding the second conductive layer; and a conductive connector bonding the first and second conductive layers, the conductive connector surrounded by an air gap.

A package structure includes at least one semiconductor die, an insulating encapsulant, an isolation layer and a redistribution layer. The at least one first semiconductor die has a semiconductor substrate and a conductive post disposed on the semiconductor substrate. The insulating encapsulant is partially encapsulating the first semiconductor die, wherein the conductive post has a first portion surrounded by the insulating encapsulant and a second portion that protrudes out from the insulating encapsulant. The isolation layer is disposed on the insulating encapsulant and surrounding the second portion of the conductive post. The redistribution layer is disposed on the first semiconductor die and the isolation layer, wherein the redistribution layer is electrically connected to the conductive post of the first semiconductor die.

A semiconductor package and a manufacturing method thereof are provided. The semiconductor package includes a first chip, a second chip, self-aligned structures, a bridge structure, and an insulating encapsulant. The first chip has a first rear surface opposite to a first active surface. The second chip is disposed beside the first chip and has a second rear surface opposite to a second active surface. The self-aligned structures are disposed on the first rear surface of the first chip and the second rear surface of the second chip. The bridge structure is electrically connected to the first chip and the second chip. The insulating encapsulant covers at least the side surfaces of the first and second chips, a side surface of the semiconductor substrate, and the side surfaces of the self-aligned structures.