A first package is bonded to a first substrate with first external connections and second external connections. The second external connections are formed using materials that are different than the first external connections in order to provide a thermal pathway from the first package. In a particular embodiment the first external connections are solder balls and the second external connections are copper blocks.

In an embodiment a method includes providing the first component part with a partially exposed first insulating layer, a plurality of first through-vias and an exposed first contact layer structured in places and planarized in places, wherein the first through-vias are each laterally enclosed by the first insulating layer, and wherein the first contact layer partially covers the first insulating layer and completely covers the first through-vias; providing the second component part with a partially exposed second insulating layer, a plurality of second through-vias and an exposed second contact layer structured in places and planarized in places, wherein the second through-vias are each laterally enclosed by the second insulating layer, and wherein the second contact layer partially covers the second insulating layer and completely covers the second through-vias and joining the component parts such that the contact layers overlap each other thereby mechanically and electrically connecting the component parts to each other by a direct bonding process at the contact layers.

In one embodiment, a power module device includes a base plate, an electrically insulating ceramic layer on the base plate, and an electrically insulating first insulating layer on the ceramic layer. The first insulating layer includes a prepreg material. An electrically conductive lead frame is disposed on the first insulating layer and electrically insulated therefrom. A power semiconductor device disposed on the lead frame and embedded between the lead frame and a second insulating layer.

A first package is bonded to a first substrate with first external connections and second external connections. The second external connections are formed using materials that are different than the first external connections in order to provide a thermal pathway from the first package. In a particular embodiment the first external connections are solder balls and the second external connections are copper blocks.

Fan-out panel level packages (FOPLPs) comprising warpage control structures and techniques of formation are described. An FOPLP may comprise one or more redistribution layers; a semiconductor die on the one or more redistribution layers; one or more warpage control structures adjacently located next to the semiconductor die; and a mold compound encapsulating the semiconductor die and the one or more warpage control structures on the one or more redistribution layers. The FOPLP can be coupled a board (e.g., a printed circuit board, etc.). The warpage control structures can assist with minimizing or eliminating unwanted warpage, which can occur during or after formation of an FOPLP or a packaged system. In this way, the warpage control structures can assist with reducing costs associated with semiconductor packaging and/or manufacturing of an FOPLP or a packaged system.

Embodiments are related to fluidic assembly and, more particularly, to systems and methods for forming physical structures on a substrate.

A chip arranging method for arranging a plurality of chips on a wafer includes a groove forming step of forming a plurality of intersecting grooves that mark off each of chip placement regions on the front surface side of the wafer, a liquid supplying step of supplying a liquid to the chip placement regions, a chip placing step of placing the chips on the liquid to position the chips in the chip placement regions by the surface tension of the liquid after carrying out the liquid supplying step, and a liquid removing step of removing the liquid to arrange the plurality of chips on the wafer after carrying out the chip placing step.

A method for transferring light emitting elements during manufacture of a display panel includes providing light emitting elements; providing a first electromagnetic plate defining adsorption positions; providing a receiving substrate defining receiving areas; energizing the first electromagnetic plate to magnetically adsorb one of the light emitting elements at each adsorption position; facing the first electromagnetic plate to the receiving substrate; and transferring the light emitting elements to one corresponding receiving area of the receiving substrate.

A first package is bonded to a first substrate with first external connections and second external connections. The second external connections are formed using materials that are different than the first external connections in order to provide a thermal pathway from the first package. In a particular embodiment the first external connections are solder balls and the second external connections are copper blocks.

Fan-out panel level packages (FOPLPs) comprising warpage control structures and techniques of formation are described. An FOPLP may comprise one or more redistribution layers; a semiconductor die on the one or more redistribution layers; one or more warpage control structures adjacently located next to the semiconductor die; and a mold compound encapsulating the semiconductor die and the one or more warpage control structures on the one or more redistribution layers. The FOPLP can be coupled a board (e.g., a printed circuit board, etc.). The warpage control structures can assist with minimizing or eliminating unwanted warpage, which can occur during or after formation of an FOPLP or a packaged system. In this way, the warpage control structures can assist with reducing costs associated with semiconductor packaging and/or manufacturing of an FOPLP or a packaged system.