Provided is a semiconductor package, including a lower semiconductor chip, a plurality of semiconductor chips that are disposed on the lower semiconductor chip in a first direction perpendicular to a top surface of the lower semiconductor chip, a plurality of nonconductive layers disposed between the plurality of semiconductor chips, a nonconductive pattern that extends from the nonconductive layers and is disposed on lateral surfaces of at least one of the plurality of semiconductor chips, a first mold layer disposed a top surface of the nonconductive pattern, and a second mold layer disposed a lateral surface of the nonconductive pattern and a lateral surface of the first mold layer, wherein the nonconductive pattern and the first mold layer are disposed between the second mold layer and lateral surfaces of the plurality of semiconductor chips.

A package structure and a method of forming the same are provided. The package structure includes a die, an encapsulant, a redistribution layer (RDL) structure, a passive device, and a plurality of dummy items. The encapsulant laterally encapsulates the die. The RDL structure is disposed on the die and the encapsulant. The passive device is disposed on and electrically bonded to the RDL structure. The plurality of dummy items are disposed on the RDL structure and laterally aside the passive device, wherein top surfaces of the plurality of dummy items are higher than a top surface of the passive device.

A package structure and a method of forming the same are provided. The package structure includes a die, an encapsulant, a redistribution layer (RDL) structure, a passive device, and a plurality of dummy items. The encapsulant laterally encapsulates the die. The RDL structure is disposed on the die and the encapsulant. The passive device is disposed on and electrically bonded to the RDL structure. The plurality of dummy items are disposed on the RDL structure and laterally aside the passive device, wherein top surfaces of the plurality of dummy items are higher than a top surface of the passive device.

A method for forming a chip package structure is provided. The method includes forming a dielectric layer over a redistribution structure. The redistribution structure includes a dielectric structure and a plurality of wiring layers in or over the dielectric structure. The method includes forming a first conductive bump structure and a shield bump structure over the dielectric layer. The first conductive bump structure is electrically connected to the wiring layers, and the shield bump structure is electrically insulated from the wiring layers. The method includes bonding a first chip structure to the redistribution structure through the first conductive bump structure. The first chip structure is electrically insulated from the shield bump structure, and the first chip structure extends across a first sidewall of the shield bump structure.

A method for forming a chip package structure is provided. The method includes forming a dielectric layer over a redistribution structure. The redistribution structure includes a dielectric structure and a plurality of wiring layers in or over the dielectric structure. The method includes forming a first conductive bump structure and a shield bump structure over the dielectric layer. The first conductive bump structure is electrically connected to the wiring layers, and the shield bump structure is electrically insulated from the wiring layers. The method includes bonding a first chip structure to the redistribution structure through the first conductive bump structure. The first chip structure is electrically insulated from the shield bump structure, and the first chip structure extends across a first sidewall of the shield bump structure.

In one embodiment, methods for making semiconductor devices are disclosed.

In one embodiment, methods for making semiconductor devices are disclosed.

A semiconductor package includes a package substrate, at least one semiconductor chip mounted on the package substrate, a molding member on the package substrate to cover at least a portion of the semiconductor chip, and a mechanical reinforcing member provided around the semiconductor chip within the molding member and extending in at least one direction.

A semiconductor package includes a package substrate, at least one semiconductor chip mounted on the package substrate, a molding member on the package substrate to cover at least a portion of the semiconductor chip, and a mechanical reinforcing member provided around the semiconductor chip within the molding member and extending in at least one direction.

A semiconductor package according to the inventive concept includes a first semiconductor chip configured to include a first semiconductor device, a first semiconductor substrate, a plurality of through electrodes penetrating the first semiconductor substrate, and a plurality of first chip connection pads arranged on an upper surface of the first semiconductor substrate; a plurality of second semiconductor chips sequentially stacked on an upper surface of the first semiconductor chip and configured to each include a second semiconductor substrate, a second semiconductor device controlled by the first semiconductor chip, and a plurality of second chip connection pads arranged on an upper surface of the second semiconductor substrate; a plurality of bonding wires configured to connect the plurality of first chip connection pads to the plurality of second chip connection pads; and a plurality of external connection terminals arranged on a lower surface of the first semiconductor chip.