A chip packaging apparatus and a preparation method thereof are provided, to modulate warpage of a chip, thereby resolving a problem of mismatch between a warpage degree of the chip and a warpage degree of a substrate. The chip packaging apparatus includes a chip, a substrate, and a warpage modulation structure, where a surface that is of the chip and that faces the substrate is electrically connected to the substrate, the warpage modulation structure is disposed on a surface that is of the chip and that is opposite to the substrate, and a coefficient of thermal expansion of the warpage modulation structure is greater than a coefficient of thermal expansion of the chip.

The present disclosure relates to a semiconductor package that may include a package substrate with a first surface and an opposing second surface, a first device coupled to the first surface of the package substrate, a redistribution frame coupled to the second surface of the package substrate, a plurality of solder balls coupled to the second surface of the package substrate, a second device coupled to the redistribution frame, and a printed circuit board coupled to the plurality of solder balls on the second surface of substrate, wherein the redistribution frame coupled with the second device and the plurality of solder balls are positioned between the package substrate and the printed circuit board.

The disclosure provides an electronic device and a manufacturing method thereof. The electronic device includes a substrate, an electronic element, an underfill layer, and a protective structure. The electronic element is disposed on the substrate. At least a portion of the underfill layer is disposed between the substrate and the electronic element. A thickness of the underfill layer is not greater than a height from a surface of the substrate to an upper surface of the electronic element. The protective structure is disposed on the substrate and adjacent to the underfill layer. The electronic device and the manufacturing method thereof of the disclosure may effectively control an area of the underfill layer.

This document discloses techniques, apparatuses, and systems relating to a package substrate for a semiconductor device. A semiconductor device assembly is described that includes a packaged semiconductor device having one or more semiconductor dies coupled to a package-level substrate. The package-level substrate has a first surface at which first contact pads are disposed in a first configuration. The packaged semiconductor device is coupled with an additional package-level substrate that includes a second surface having second contact pads disposed in the first configuration and a third surface having third contact pads disposed in a second configuration different from the first configuration. The additional package-level substrate includes circuitry coupling the second contact pads the third contact pads to provide connectivity at the third contact pads. In doing so, an adaptively compatible semiconductor device may be assembled.

A semiconductor structure and a method of fabricating the semiconductor structure are disclosed. The semiconductor structure includes: a carrying layer, a barrier layer, a solder layer and an adhesive layer. The barrier layer is located on the surface of the carrying layer, and there are openings in the barrier layer. The barrier layer includes multiple sub-barrier layers in a stack. The multiple sub-barrier layers respectively form a plurality of steps in the opening, and the heights of the plurality of steps decrease sequentially in a direction from outside of the opening to inside of the opening. A solder layer and an adhesive layer are located in the opening, and the adhesive layer covers the solder layer.

A semiconductor structure includes a first unit bonded assembly including a first memory die bonded to a first logic die by direct copper to copper bonding, where that the first logic die includes first through-substrate via structures laterally surrounded by first doped semiconductor well guard rings, and a second unit bonded assembly including a second memory die bonded to a second logic die by direct copper to copper bonding. The first unit bonded assembly is bonded to a second unit bonded assembly by solder balls.