A semiconductor package including a mounting board, a first semiconductor chip on the mounting board, the first semiconductor chip having a first peripheral area, a second peripheral area, and a central area between the first and second peripheral areas, the central area having penetrating electrodes formed therein, a second semiconductor chip on the first peripheral area, the second semiconductor chip including a second pad on a top surface thereof, a third semiconductor chip on the second peripheral area, the third semiconductor chip including a third pad on a top surface thereof, and conductive wirings extending from the second and third pads, respectively, the conductive wirings electrically connected to the penetrating electrodes, respectively, may be provided.

A semiconductor package including a first semiconductor device, a second semiconductor device, an insulating encapsulant, a redistribution structure and a supporting element is provided. The insulating encapsulant encapsulates the first semiconductor device and the second semiconductor device. The redistribution structure is over the first semiconductor device, the second semiconductor device and the insulating encapsulant. The redistribution structure is electrically connected to the first semiconductor device and the second semiconductor device. The supporting element is embedded in one of the insulating encapsulant and the redistribution structure.

A package includes an interposer, which includes a first substrate free from through-vias therein, redistribution lines over the first substrate, and a first plurality of connectors over and electrically coupled to the redistribution lines. A first die is over and bonded to the first plurality of connectors. The first die includes a second substrate, and through-vias in the second substrate. A second die is over and bonded to the plurality of connectors. The first die and the second die are electrically coupled to each other through the redistribution lines. A second plurality of connectors is over the first die and the second die. The second plurality of connectors is electrically coupled to the first plurality of connectors through the through-vias in the second substrate.

A semiconductor structure includes a semiconductor element and a first bonding structure. The semiconductor element has a first surface and a second surface opposite to the first surface. The first bonding structure is disposed adjacent to the first surface of the semiconductor element, and includes a first electrical connector, a first insulation layer surrounding the first electrical connector and a first conductive layer surrounding the first insulation layer.

A semiconductor device has a first semiconductor die stacked over a second semiconductor die which is mounted to a temporary carrier. A plurality of bumps is formed over an active surface of the first semiconductor die around a perimeter of the second semiconductor die. An encapsulant is deposited over the first and second semiconductor die and carrier. A plurality of conductive vias is formed through the encapsulant around the first and second semiconductor die. A portion of the encapsulant and a portion of a back surface of the first and second semiconductor die is removed. An interconnect structure is formed over the encapsulant and the back surface of the first or second semiconductor die. The interconnect structure is electrically connected to the conductive vias. The carrier is removed. A heat sink or shielding layer can be formed over the encapsulant and first semiconductor die.

The present disclosure relates to a semiconductor package including a first semiconductor chip having a first surface on which first connection pads are disposed, and a second surface on which second connection pads are disposed, and including through-vias connected to the second connection pads; a connection structure disposed on the first surface and including a first redistribution layer; a first redistribution disposed on the second surface; and a second semiconductor chip disposed on the connection structure. The first connection pads are connected to a signal pattern of the first redistribution layer, and the second connection pads are connected to at least one of a power pattern and a ground pattern of the second redistribution layer.

LTCC structure extends between top and bottom surfaces, with at least one cavity being formed within the structure and extending from the top surface inwardly in the direction of the bottom surface. A die is disposed within the cavity a top surface of the die is positioned flush with the top surface of the package, resulted in the shortest length of the wire box connecting the die with the LTCC structure and ultimately reducing the inductance.

A semiconductor package is provided. The semiconductor package comprising a first redistribution structure comprising a first redistribution pattern; a first semiconductor chip on the first redistribution structure, the first semiconductor chip comprising a semiconductor substrate comprising a first surface and a second surface, a first back end of line (BEOL) structure on the first surface of the semiconductor substrate and comprising a first interconnect pattern, and a second BEOL structure on the second surface of the semiconductor substrate and comprising a second interconnect pattern; a molding layer covering a sidewall of the first semiconductor chip; a second redistribution structure on the first semiconductor chip and the molding layer and comprising a second redistribution pattern electrically connected to the second interconnect pattern.

An assembly structure and a method for manufacturing an assembly structure are provided. The assembly structure includes a wiring structure and a semiconductor element. The wiring structure includes at least one dielectric layer and at least one circuit layer in contact with the at least one dielectric layer, and defines an accommodating recess recessed from a top surface of the wiring structure. The wiring structure has a smooth surface extending from the top surface of the wiring structure to a surface of the accommodating recess. The semiconductor element is disposed in the accommodating recess.

A semiconductor package may include a first redistribution layer, a passive device disposed on a top surface of the first redistribution layer, a bridge structure disposed on the top surface of the first redistribution layer and laterally spaced apart from the passive device, a second redistribution layer disposed on and electrically connected to the passive device and the bridge structure, conductive structures disposed between the first redistribution layer and the second redistribution layer and laterally spaced apart from the passive device and the bridge structure, a first semiconductor chip mounted on a top surface of the second redistribution layer, and a second semiconductor chip mounted on the top surface of the second redistribution layer. The conductive structures may include a signal structure and a ground/power structure, which is laterally spaced apart from the signal structure and has a width larger than the signal structure.