A semiconductor package includes a semiconductor substrate forming a cavity and a redistribution layer on a first side of the semiconductor substrate, the redistribution layer forming die contacts within the cavity and a set of terminals for the semiconductor package opposite the semiconductor substrate. The redistribution layer electrically connects one or more of the die contacts to the set of terminals. The semiconductor package further includes a semiconductor die including die terminals within the cavity with the die terminals electrically coupled to the die contacts within the cavity.

A coreless component carrier includes (a) a stack with at least one electrically conductive layer structure and at least one electrically insulating layer structure; and (b) a component embedded in the stack. At least one electrically insulating layer structure includes a reinforced layer structure, which is arranged at an outer main surface of the stack. Further described is a method for manufacturing such a coreless component carrier and preferably simultaneously a further coreless component carrier of the same type.

A semiconductor package includes a package substrate that includes an interior laminate layer, a first metallization layer disposed below the interior laminate layer, and a second metallization layer disposed above the interior laminate layer, a first semiconductor die that includes a first load terminal disposed on a first surface of the first semiconductor die and a second load terminal disposed on a second surface of the first semiconductor die that is opposite from the first surface of the first semiconductor die, and a liner of dielectric material on the first semiconductor die, wherein the first semiconductor die is embedded within the interior laminate layer such that the first surface of the first semiconductor die faces the second metallization layer, and wherein the liner of dielectric material is disposed on a corner of the first semiconductor die that is between the first and second load terminals of the first semiconductor die.

A package structure, including a conductive element, multiple dies, a dielectric body, a circuit layer and a patterned insulating layer, is provided. The multiple dies are disposed on the conductive element. A portion of the conductive element surrounds the multiple dies. The dielectric body covers the multiple dies. The circuit layer is disposed on the dielectric body. The circuit layer is electrically connected to the multiple dies. The patterned insulating layer covers the circuit layer. A portion of the patterned insulating layer is disposed between the dies that are adjacent. A manufacturing method of a package structure is also provided.

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 device and a method for detecting a defect in a semiconductor device are provided. The semiconductor device includes a packaging structure. The packaging structure includes a redistribution layer and a detecting component disposed in the redistribution layer. The semiconductor device further includes a cooling plate over the packaging structure and a fixing component penetrating through the packaging structure and the cooling plate. The packaging structure and the cooling plate are fixed by the fixing component. The detecting component is in a chain configuration having a ring shaped structure circling around the fixing component.

A semiconductor package includes a first connection structure, a first semiconductor chip on an upper surface of the first connection structure, a first molding layer on the upper surface of the first connection structure and surrounding the first semiconductor chip, a first bond pad on the first semiconductor chip, a first bond insulation layer on the first semiconductor chip and the first molding layer and surrounding the first bond pad, a second bond pad directly contacting the first bond pad, a second bond insulation layer surrounding the second bond pad; and a second semiconductor chip on the second bond pad and the second bond insulation layer.

In an embodiment, a structure includes: a processor device including logic devices; a first memory device directly face-to-face bonded to the processor device by metal-to-metal bonds and by dielectric-to-dielectric bonds; a first dielectric layer laterally surrounding the first memory device; a redistribution structure over the first dielectric layer and the first memory device, the redistribution structure including metallization patterns; and first conductive vias extending through the first dielectric layer, the first conductive vias connecting the metallization patterns of the redistribution structure to the processor device.

An integrated circuit (IC) package with an embedded heat spreader in a redistribution layer (RDL) is provided. IC packaging facilitates a high density package for ICs, including monolithic microwave integrated circuits (MMICs). However, IC packaging may result in reduced heat removal from an IC, decreasing radio frequency (RF) circuit performance. In an exemplary aspect, an IC package is provided which incorporates an embedded heat spreader within a dielectric layer of an RDL coupled to an IC die. The embedded heat spreader provides efficient heat transfer, robust RF performance, and operation through millimeter wave (mmW) frequencies, all in a miniature low-cost, low-profile surface mountable (SM) package.

A semiconductor package structure is provided. The semiconductor package structure includes a redistribution layer (RDL) structure formed on a non-active surface of a semiconductor die. An antenna structure includes a first antenna element formed in the RDL structure, a first insulating layer covering the RDL structure, a second insulating layer formed on the first insulating layer, and a second antenna element formed on and in direct contact with the second insulating layer.