A semiconductor package provided herein includes a first semiconductor die, a second semiconductor die and an insulating encapsulation. The second semiconductor die is stacked on the first semiconductor die. The insulating encapsulation laterally surrounds the first semiconductor die and the second semiconductor die in a one-piece form, and has a first sidewall and a second sidewall respectively adjacent to the first semiconductor die and the second semiconductor die. The first sidewall keeps a lateral distance from the second sidewall.

A semiconductor package includes a lower redistribution layer including an insulating pattern having an opening and a via in the opening; a first semiconductor chip including a chip pad, a passivation layer, and a pad bump connected to the chip pad; and a first encapsulant on the lower redistribution layer and the first semiconductor chip. The opening defines a lower surface and a side surface of the pad bump, and the via is in physical contact with the lower surface and the side surface of the pad bump.

A package includes a redistribution structure, a die package on a first side of the redistribution structure including a first die connected to a second die by metal-to-metal bonding and dielectric-to-dielectric bonding, a dielectric material over the first die and the second die and surrounding the first die, and a first through via extending through the dielectric material and connected to the first die and a first via of the redistribution structure, a semiconductor device on the first side of the redistribution structure includes a conductive connector, wherein a second via of the redistribution structure contacts the conductive connector of the semiconductor device, a first molding material on the redistribution structure and surrounding the die package and the semiconductor device, and a package through via extending through the first molding material to contact a third via of the redistribution structure.

A package includes a redistribution structure, a die package on a first side of the redistribution structure including a first die connected to a second die by metal-to-metal bonding and dielectric-to-dielectric bonding, a dielectric material over the first die and the second die and surrounding the first die, and a first through via extending through the dielectric material and connected to the first die and a first via of the redistribution structure, a semiconductor device on the first side of the redistribution structure includes a conductive connector, wherein a second via of the redistribution structure contacts the conductive connector of the semiconductor device, a first molding material on the redistribution structure and surrounding the die package and the semiconductor device, and a package through via extending through the first molding material to contact a third via of the redistribution structure.

A semiconductor package including a semiconductor chip, a redistribution layer structure disposed under the semiconductor chip, a bump pad disposed under the redistribution layer structure and having an upper structure of a first width and a lower structure of a second width less than the first width, a metal seed layer disposed along a lower surface of the upper structure and a side surface of the lower structure, an insulating layer surrounding the redistribution layer structure and the bump pad, and a bump structure disposed under the bump pad. A first undercut is disposed at one end of the metal seed layer that contacts the upper structure, and a second undercut is disposed at an other end of the metal seed layer that contacts the lower structure.

A semiconductor substrate having a through-silicon via with an air gap interposed between the through-silicon via and the semiconductor substrate is provided. An opening is formed partially through the semiconductor substrate. The opening is first lined with a first liner and then the opening is filled with a conductive material. A backside of the semiconductor substrate is thinned to expose the first liner, which is subsequently removed and a second liner formed with a low-k or extra low-k dielectric is formed in its place.

A package includes a redistribution structure, a die package on a first side of the redistribution structure including a first die connected to a second die by metal-to-metal bonding and dielectric-to-dielectric bonding, a dielectric material over the first die and the second die and surrounding the first die, and a first through via extending through the dielectric material and connected to the first die and a first via of the redistribution structure, a semiconductor device on the first side of the redistribution structure includes a conductive connector, wherein a second via of the redistribution structure contacts the conductive connector of the semiconductor device, a first molding material on the redistribution structure and surrounding the die package and the semiconductor device, and a package through via extending through the first molding material to contact a third via of the redistribution structure.

A package includes a redistribution structure, a die package on a first side of the redistribution structure including a first die connected to a second die by metal-to-metal bonding and dielectric-to-dielectric bonding, a dielectric material over the first die and the second die and surrounding the first die, and a first through via extending through the dielectric material and connected to the first die and a first via of the redistribution structure, a semiconductor device on the first side of the redistribution structure includes a conductive connector, wherein a second via of the redistribution structure contacts the conductive connector of the semiconductor device, a first molding material on the redistribution structure and surrounding the die package and the semiconductor device, and a package through via extending through the first molding material to contact a third via of the redistribution structure.

Processing forms an integrated circuit structure having first and second layers on opposite sides of an insulator, and an interconnect structure extending through the insulator between the first layer and the second layer. The interconnect structure is formed in an opening extending through the insulator between the first layer and the second layer and has an electrical conductor in the opening extending between the first layer and the second layer and a thermally conductive electrical insulator liner along sidewalls of the opening extending between the first layer and the second layer. The electrical conductor is positioned to conduct electrical signals between the first layer and the second layer, and the thermally conductive electrical insulator liner is positioned to transfer heat between the first layer and the second layer.

A chip structure is provided. The chip structure includes a substrate. The chip structure includes a first conductive line over the substrate. The chip structure includes an insulating layer over the substrate and the first conductive line. The chip structure includes a conductive pillar over the insulating layer. The conductive pillar is formed in one piece, the conductive pillar has a lower surface, a protruding connecting portion, and a protruding locking portion, the protruding connecting portion protrudes from the lower surface and passes through the insulating layer and is in direct contact with the first conductive line, the protruding locking portion protrudes from the lower surface and is embedded in the insulating layer. The chip structure includes a solder bump on the conductive pillar. The solder bump is in direct contact with the conductive pillar.