Abstract: A method of forming a 3D package. The method may include joining an interposer to a laminate chip carrier with the solid state diffusion of a first plurality of solder bumps by applying a first selective non-uniform heat and first uniform pressure; joining a top chip to the interposer with the solid state diffusion of a second plurality of solder bumps by applying a second selective non-uniform heat and second uniform pressure; heating the 3D package, the first and second pluralities of solder bumps to a temperature greater than the reflow temperature of the first and second pluralities of solder bumps, where the second plurality of solder bumps achieves the reflow temperature before the first plurality of solder bumps, where the first and second selective non-uniform heats being less that the reflow temperature of the first and second pluralities of solder bumps, respectively.

Abstract: A first area of a first surface of an encapsulated component can be thinned, the component including: a semiconductor chip having an active surface opposite the first surface, and an encapsulant extending outwardly from edges of the semiconductor chip. An entire area of the active surface may be aligned with the first area. After the abrading, a second area of the encapsulated component beyond the first area may have a thickness greater than a thickness of the first area. The second area can be configured to fully support the abraded encapsulated component in a state of the encapsulated component being manipulated by handling equipment.

Abstract: A method of manufacturing a semiconductor device, comprising bonding a first principal surface of a substrate to a supporting substrate through a light-to-heat conversion film, and removing a portion of the light-to-heat conversion film exposed on the supporting substrate. A method of manufacturing a semiconductor device, comprising forming a light-to-heat conversion film on a supporting substrate, bonding a semiconductor substrate to the supporting substrate, so that the light-to-heat conversion film extends outside the semiconductor substrate, performing an anti-contamination treatment on the light-to-heat conversion film, and separating the supporting substrate and the semiconductor substrate from each other.