Semiconductor package includes a pair of dies, a redistribution structure, and a conductive plate. Each die includes a contact pad. Redistribution structure is disposed on the pair of dies, and electrically connects the pair of dies. Redistribution structure includes an innermost dielectric layer, an outermost dielectric layer, and a redistribution conductive layer. Innermost dielectric layer is closer to the pair of dies. Redistribution conductive layer extends between the innermost dielectric layer and the outermost dielectric layer. Outermost dielectric layer is furthest from the pair of dies. Conductive plate is electrically connected to the contact pads of the pair of dies. Conductive plate extends over the outermost dielectric layer of the redistribution structure and over the pair of dies. Vertical projection of the conductive plate falls on spans of the dies of the pair of dies.

An electronic device includes: a first insulating layer; a first metal bump disposed on the first insulating layer; a second insulating layer disposed on the first metal bump; a metal layer, wherein the first insulating layer is disposed between the second insulating layer and the metal layer; a second metal bump disposed between the metal layer and the first insulating layer, wherein the second metal bump electrically connects to the first metal bump; a third insulating layer disposed between the second metal bump and the first insulating layer, wherein the third insulating layer includes an opening exposing a portion of the second metal bump; and a fourth insulating layer disposed between the third insulating layer and the first insulating layer, wherein a portion of the fourth insulating layer extends and is disposed in the opening to contact the second metal bump.

A semiconductor package includes a semiconductor chip on a redistribution substrate and including a body, a chip pad on the body, and a pillar on the chip pad, a connection substrate including base layers and a lower pad on a bottom surface of a lowermost one of the base layers, a first passivation layer between the semiconductor chip and the redistribution substrate, and a dielectric layer between the redistribution substrate and the connection substrate. The first passivation layer and the dielectric layer include different materials from each other. A bottom surface of the pillar, a bottom surface of the first passivation layer, a bottom surface of a molding layer, a bottom surface of the lower pad, and a bottom surface of the dielectric layer are coplanar with each other.

A package structure is provided, which includes a redistribution structure, an interposer substrate disposed over the redistribution structure, a first semiconductor die disposed between the redistribution structure and the interposer substrate, a second semiconductor die partially overlapping the first semiconductor die in a direction perpendicular to a surface of the redistribution structure, and a first protective layer surrounding the first semiconductor die.

A structure including stacked substrates, a first semiconductor die, a second semiconductor die, and an insulating encapsulation is provided. The first semiconductor die is disposed over the stacked substrates. The second semiconductor die is stacked over the first semiconductor die. The insulating encapsulation includes a first encapsulation portion encapsulating the first semiconductor die and a second encapsulation portion encapsulating the second semiconductor die.

A package structure includes a first dielectric layer disposed on a first patterned circuit layer, a first conductive via in the first dielectric layer and electrically connected to the first patterned circuit layer, a circuit layer on the first dielectric layer, a second dielectric layer on the first dielectric layer and covering the circuit layer, a second patterned circuit layer on the second dielectric layer and including conductive features, a chip on the conductive features, and a molding layer disposed on the second dielectric layer and encapsulating the chip. The circuit layer includes a plurality of portions separated from each other and including a first portion and a second portion. The number of pads corresponding to the first portion is different from that of pads corresponding to the second portion. An orthographic projection of each portion overlaps orthographic projections of at least two of the conductive features.

A package structure includes a die, an encapsulant laterally encapsulating the die, a warpage control material disposed over the die, and a protection material disposed over the encapsulant and around the warpage control material. A coefficient of thermal expansion of the protection material is less than a coefficient of thermal expansion of the encapsulant.

A method of manufacturing a package structure at least includes the following steps. An encapsulant laterally is formed to encapsulate the die and the plurality of through vias. A plurality of first connectors are formed to electrically connect to first surfaces of the plurality of through vias. A warpage control material is formed over the die, wherein the warpage control material is disposed to cover an entire surface of the die. A protection material is formed over the encapsulant and around the plurality of first connectors and the warpage control material. A coefficient of thermal expansion of the protection material is less than a coefficient of thermal expansion of the encapsulant.

Embodiments include packages and methods for forming packages which include interposers having a substrate made of a dielectric material. The interposers may also include a redistribution structure over the substrate which includes metallization patterns which are stitched together in a patterning process which includes multiple lateral overlapping patterning exposures.

A semiconductor device includes a dielectric interposer, a first RDL, a second RDL, and a plurality of conductive structures. The dielectric interposer has a first surface and a second surface opposite to the first surface. The first RDL is disposed over the first surface of the dielectric interposer. The second RDL is disposed over the second surface of the dielectric interposer. The conductive structures are disposed through the dielectric interposer and directly contact the dielectric interposer. The conductive structures are electrically connected to the first RDL and the second RDL. Each of the conductive structures has a tapered profile. A minimum width of each of the conductive structures is proximal to the first RDL, and a maximum width of each of the conductive structures is proximal to the second RDL.