A package substrate according to an embodiment includes a first substrate; and a first chip mounted on the first substrate; wherein the first substrate includes: a first insulating layer including a first region overlapping the first chip in a vertical direction and a second region other than the first region; and a circuit pattern disposed on the first region and the second region of the first insulating layer; wherein the circuit pattern includes: a pad portion including a first portion disposed on an upper surface of the second region of the first insulating layer, a second portion buried in the first region of the first insulating layer, and a third portion including at least a part buried in the first region of the first insulating layer and connecting between the first portion and the second portion; wherein at least a part of the first chip is disposed in the first region of the first insulating layer; wherein the first region of the first insulating layer surrounds a lower surface and a side surface of the first chip, and wherein the first region and the second region of the first insulating layer are a single insulating layer.

A semiconductor package including a substrate; a semiconductor stack on the substrate; an underfill between the substrate and the semiconductor stack; an insulating layer conformally covering surfaces of the semiconductor stack and the underfill; a chimney on the semiconductor stack; and a molding member surrounding side surfaces of the chimney, wherein the semiconductor stack has a first upper surface that is a first distance from the substrate and a second upper surface that is a second distance from the substrate, the first distance being greater than the second distance, wherein the chimney includes a thermally conductive filler on the first and second upper surfaces of the semiconductor stack, the thermally conductive filler having a flat upper surface; a thermally conductive spacer on the thermally conductive filler; and a protective layer on the thermally conductive spacer, and wherein an upper surface of the thermally conductive spacer is exposed.

Some embodiments relate to a package. The package includes a first substrate, a second substrate, and an interposer frame between the first and second substrates. The first substrate has a first connection pad disposed on a first face thereof, and the second substrate has a second connection pad disposed on a second face thereof. The interposer frame is arranged between the first and second faces and generally separates the first substrate from the second substrate. The interposer frame includes a plurality of through substrate holes (TSHs) which pass entirely through the interposer frame. A TSH is aligned with the first and second connection pads, and solder extends through the TSH to electrically connect the first connection pad to the second connection pad.

A semiconductor package is provided, including a package component and a number of conductive features. The package component has a non-planar surface. The conductive features are formed on the non-planar surface of the package component. The conductive features include a first conductive feature and a second conductive feature respectively arranged in a first position and a second position of the non-planar surface. The height of the first position is less than the height of the second position, and the size of the first conductive feature is smaller than the size of the second conductive feature.

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.

A semiconductor device package and a method of forming the same are provided. The semiconductor device package includes a package substrate having a first surface and a second surface opposite to the first surface. Several integrated devices are bonded to the first surface of the package substrate. A first underfill element is disposed over the first surface and surrounds the integrated devices. A first molding layer is disposed over the first surface and surrounds the integrated devices and the first underfill element. A semiconductor die is bonded to the second surface of the package substrate. A second underfill element is disposed over the second surface and surrounds the semiconductor die. A second molding layer is disposed over the second surface and surrounds the semiconductor die and the second underfill element. Several conductive bumps are disposed over the second surface and adjacent to the second molding layer.

Structures and formation methods of a chip package structure are provided. The chip package structure includes a semiconductor die bonded over an interposer substrate. The chip package structure also includes a warpage release layer structure. The warpage release layer structure includes an organic material layer and an overlying high coefficient of thermal expansion (CTE) material layer with a CTE that is substantially equal to or greater than 9 ppm/° C. The organic material layer is in direct contact with the upper surface of the semiconductor die, and the overlying high CTE material layer covers the upper surface of the semiconductor die.

A semiconductor package includes: a first semiconductor chip; a second semiconductor chip stacked on the first semiconductor chip; an underfill material layer interposed between the first semiconductor chip and the second semiconductor chip; and a first dam structure disposed on the first semiconductor chip. The first dam structure extends along an edge of the second semiconductor chip and includes unit dam structures apart from each other with a slit therebetween. A vertical level of an upper surface of the first dam structure is located between a vertical level of a lower surface of the second semiconductor chip and a vertical level of an upper surface of the second semiconductor chip. A first sidewall of the first dam structure is in contact with the underfill material layer and includes a flat surface parallel to a sidewall of the second semiconductor chip that faces the first sidewall of the first dam structure.

A semiconductor package includes: a package substrate; an interposer disposed on the package substrate; a first semiconductor chip mounted on the interposer; a second semiconductor chip mounted on the interposer adjacent to the first semiconductor chip, the second semiconductor chip having an overhang portion that does not overlap the interposer in a vertical direction; a first underfill disposed between the package substrate and the interposer, the first underfill having a first extension portion extending from a side surface of the interposer; a second underfill disposed between the interposer and the second semiconductor chip, the second underfill having a second extension portion extending to an upper surface of the package substrate along at least a portion of the first extension portion of the first underfill, wherein the second extension portion protrudes from the overhang portion contact the upper surface of the package substrate.

A package structure includes a semiconductor device and an adhesive pattern. The adhesive pattern surrounds the semiconductor device, wherein an angle θ is formed between a sidewall of the semiconductor device and a sidewall of the adhesive pattern, 0°<θ<90° wherein the adhesive layer has a first opening misaligned with a corner of the semiconductor device closest to the first opening.