A semiconductor device includes a substrate, a first redistribution layer (RDL) over a first side of the substrate, one or more semiconductor dies over and electrically coupled to the first RDL, and an encapsulant over the first RDL and around the one or more semiconductor dies. The semiconductor device also includes connectors attached to a second side of the substrate opposing the first side, the connectors being electrically coupled to the first RDL. The semiconductor device further includes a polymer layer on the second side of the substrate, the connectors protruding from the polymer layer above a first surface of the polymer layer distal the substrate. A first portion of the polymer layer contacting the connectors has a first thickness, and a second portion of the polymer layer between adjacent connectors has a second thickness smaller than the first thickness.

A package includes a first layer of molding material, a first metallization layer on the first layer of molding material, a second layer of molding material on the first metallization layer and the first layer of molding material, a second metallization layer on the second layer of molding material, through vias within the second layer of molding material, the through vias extending from the first metallization layer to the second metallization layer, integrated passive devices within the second layer of molding material, a redistribution structure electrically on the second metallization layer and the second layer of molding material, the redistribution structure connected to the through vias and the integrated passive devices, and at least one semiconductor device on the redistribution structure, the at least one semiconductor device connected to the redistribution structure.

A package includes a first layer of molding material, a first metallization layer on the first layer of molding material, a second layer of molding material on the first metallization layer and the first layer of molding material, a second metallization layer on the second layer of molding material, through vias within the second layer of molding material, the through vias extending from the first metallization layer to the second metallization layer, integrated passive devices within the second layer of molding material, a redistribution structure electrically on the second metallization layer and the second layer of molding material, the redistribution structure connected to the through vias and the integrated passive devices, and at least one semiconductor device on the redistribution structure, the at least one semiconductor device connected to the redistribution structure.

A method of three-dimensionally integrating elements such as singulated die or wafers and an integrated structure having connected elements such as singulated dies or wafers. Either or both of the die and wafer may have semiconductor devices formed therein. A first element having a first contact structure is bonded to a second element having a second contact structure. First and second contact structures can be exposed at bonding and electrically interconnected as a result of the bonding. A via may be etched and filled after bonding to expose and form an electrical interconnect to interconnected first and second contact structures and provide electrical access to this interconnect from a surface.

The present publication discloses a method for manufacturing a circuit-board structure. In the method, a conductor layer is made, which comprises a conductor foil and a conductor pattern on the surface of the conductor foil. A component is attached to the conductor layer and the conductor layer is thinned, in such a way that the conductor material of the conductor layer is removed from outside the conductor pattern.

A method of three-dimensionally integrating elements such as singulated die or wafers and an integrated structure having connected elements such as singulated dies or wafers. Either or both of the die and wafer may have semiconductor devices formed therein. A first element having a first contact structure is bonded to a second element having a second contact structure. First and second contact structures can be exposed at bonding and electrically interconnected as a result of the bonding. A via may be etched and filled after bonding to expose and form an electrical interconnect to interconnected first and second contact structures and provide electrical access to this interconnect from a surface.

Semiconductor device assemblies with solderless interconnects, and associated systems and methods are disclosed. In one embodiment, a semiconductor device assembly includes a first conductive pillar extending from a semiconductor die and a second conductive pillar extending from a substrate. The first conductive pillar may be connected to the second conductive pillar via an intermediary conductive structure formed between the first and second conductive pillars using an electroless plating solution injected therebetween. The first and second conductive pillars and the intermediary conductive structure may include copper as a common primary component, exclusive of an intermetallic compound (IMC) of a soldering process. A first sidewall surface of the first conductive pillar may be misaligned with respect to a corresponding second sidewall surface of the second conductive pillar. Such interconnects formed without IMC may improve electrical and metallurgical characteristics of the interconnects for the semiconductor device assemblies.

The invention relates to an apparatus for mounting components on a substrate. The apparatus comprises a bond head with a component gripper, a first drive system for moving a carrier over relatively long distances, a second drive system which is attached to the carrier for moving the bond head back and forth between a nominal working position and a stand-by position, a drive attached to the bond head for rotating the component gripper or a rotary drive for rotating the substrate about an axis, at least one substrate camera attached to the carrier and at least one component camera. Either the second drive system is also designed to perform high-precision correction movements with the bond head, or a third drive system is provided to perform high-precision correction movements with the substrate. At least one reference mark is attached to the bond head or the component gripper.

A package includes a first layer of molding material, a first metallization layer on the first layer of molding material, a second layer of molding material on the first metallization layer and the first layer of molding material, a second metallization layer on the second layer of molding material, through vias within the second layer of molding material, the through vias extending from the first metallization layer to the second metallization layer, integrated passive devices within the second layer of molding material, a redistribution structure electrically on the second metallization layer and the second layer of molding material, the redistribution structure connected to the through vias and the integrated passive devices, and at least one semiconductor device on the redistribution structure, the at least one semiconductor device connected to the redistribution structure.

A package includes a first layer of molding material, a first metallization layer on the first layer of molding material, a second layer of molding material on the first metallization layer and the first layer of molding material, a second metallization layer on the second layer of molding material, through vias within the second layer of molding material, the through vias extending from the first metallization layer to the second metallization layer, integrated passive devices within the second layer of molding material, a redistribution structure electrically on the second metallization layer and the second layer of molding material, the redistribution structure connected to the through vias and the integrated passive devices, and at least one semiconductor device on the redistribution structure, the at least one semiconductor device connected to the redistribution structure.