A package structure is provided. The package structure includes a redistribution structure and a semiconductor die over the redistribution structure, and bonding elements below the redistribution structure. The semiconductor die has a first sidewall and a second sidewall connected to each other. The bonding elements include a first row of bonding elements and a second row of bonding elements. In a plan view, the second row of bonding elements is arranged between the first row of bonding elements and an extending line of the second sidewall. A minimum distance between the second row of bonding elements and the first sidewall is greater than the minimum distance between the first row of bonding elements and the first sidewall.

A package structure is provided. The package structure includes a redistribution structure and a semiconductor die over the redistribution structure, and bonding elements below the redistribution structure. The semiconductor die has a first sidewall and a second sidewall connected to each other. The bonding elements include a first row of bonding elements and a second row of bonding elements. In a plan view, the second row of bonding elements is arranged between the first row of bonding elements and an extending line of the second sidewall. A minimum distance between the second row of bonding elements and the first sidewall is greater than the minimum distance between the first row of bonding elements and the first sidewall.

Provided is a package structure including a photonic die, an electronic die, a conductive layer, a circuit substrate, and an underfill. The electronic die is bonded on a front side of the photonic die. The conductive layer is disposed on a back side of the photonic die. The conductive layer includes a plurality of conductive pads and a dam structure between the conductive pads and a first sidewall of the photonic die. The circuit substrate is bonded on the back side of the photonic die through a plurality of connectors and the conductive pads. The underfill laterally encapsulates the connectors, the conductive pads, and the dam structure. The underfill at the first sidewall of the photonic die has a first height, the underfill at a second sidewall of the photonic die has a second height, and the first height is lower than the second height.

Provided is a package structure including a photonic die, an electronic die, a conductive layer, a circuit substrate, and an underfill. The electronic die is bonded on a front side of the photonic die. The conductive layer is disposed on a back side of the photonic die. The conductive layer includes a plurality of conductive pads and a dam structure between the conductive pads and a first sidewall of the photonic die. The circuit substrate is bonded on the back side of the photonic die through a plurality of connectors and the conductive pads. The underfill laterally encapsulates the connectors, the conductive pads, and the dam structure. The underfill at the first sidewall of the photonic die has a first height, the underfill at a second sidewall of the photonic die has a second height, and the first height is lower than the second height.

The present application provides a method for preparing a semiconductor package The method includes bonding a bottom device die onto a package substrate; attaching a top device die onto the bottom device die; attaching an additional package substrate onto the top device die; establishing electrical connection between the additional package substrate and the top device die, between the additional package substrate and the package substrate, and between the top device die and the package substrate; and encapsulating the bottom device die, the top device die and the additional package substrate by an encapsulant.

The present application provides a method for preparing a semiconductor package The method includes bonding a bottom device die onto a package substrate; attaching a top device die onto the bottom device die; attaching an additional package substrate onto the top device die; establishing electrical connection between the additional package substrate and the top device die, between the additional package substrate and the package substrate, and between the top device die and the package substrate; and encapsulating the bottom device die, the top device die and the additional package substrate by an encapsulant.

A wiring substrate includes a resin insulating layer, a via conductor formed in the resin insulating layer such that the via conductor is penetrating through the resin insulating layer, a conductor pad formed on the resin insulating layer and connected to the via conductor, a coating insulating layer formed on the resin insulating layer such that the coating insulating layer is covering the conductor pad, and a metal post formed on the conductor pad and protruding from the coating insulating layer. The via conductor is formed such that the via conductor is increased in diameter toward the conductor pad, and the metal post is formed such that the metal post is increased in diameter toward the conductor pad.

A wiring substrate includes a resin insulating layer, a via conductor formed in the resin insulating layer such that the via conductor is penetrating through the resin insulating layer, a conductor pad formed on the resin insulating layer and connected to the via conductor, a coating insulating layer formed on the resin insulating layer such that the coating insulating layer is covering the conductor pad, and a metal post formed on the conductor pad and protruding from the coating insulating layer. The via conductor is formed such that the via conductor is increased in diameter toward the conductor pad, and the metal post is formed such that the metal post is increased in diameter toward the conductor pad.

The present application provides a semiconductor package and a manufacturing method thereof. The semiconductor package includes a package substrate, a bottom device die, a top device die and an additional package substrate. The bottom device die is attached on the package substrate. The top device die is attached on the bottom device die with its active side facing away from the bottom device die. A first portion of die I/Os at the active side of the top device die are electrically connected to the package substrate. The additional package substrate is attached on the active side of the top device die, and electrically connected to the package substrate and a second portion of the die I/Os of the top device die.

The present application provides a semiconductor package and a manufacturing method thereof. The semiconductor package includes a package substrate, a bottom device die, a top device die and an additional package substrate. The bottom device die is attached on the package substrate. The top device die is attached on the bottom device die with its active side facing away from the bottom device die. A first portion of die I/Os at the active side of the top device die are electrically connected to the package substrate. The additional package substrate is attached on the active side of the top device die, and electrically connected to the package substrate and a second portion of the die I/Os of the top device die.