A package includes a first package component, a second package component over the first package component, and a solder region bonding the first package component to the second package component. At least one ball-height control stud separates the first package component and the second package component from each other, and defines a standoff distance between the first package component and the second package component.

A semiconductor package includes a first semiconductor device and a second semiconductor device. The first semiconductor device includes a first main body, at least one first columnar portion and at least one first conductive layer. The first columnar portion protrudes from a bottom surface of the first main body. The first conductive layer is disposed on a side surface of the first columnar portion. The second semiconductor device includes a second main body, at least one second columnar portion and at least one second conductive layer. The second columnar portion protrudes from a top surface of the second main body. The second conductive layer is disposed on a side surface of the second columnar portion. The first conductive layer is electrically coupled to the second conductive layer.

A semiconductor package includes a first semiconductor device and a second semiconductor device. The first semiconductor device includes a first main body, at least one first columnar portion and at least one first conductive layer. The first columnar portion protrudes from a bottom surface of the first main body. The first conductive layer is disposed on a side surface of the first columnar portion. The second semiconductor device includes a second main body, at least one second columnar portion and at least one second conductive layer. The second columnar portion protrudes from a top surface of the second main body. The second conductive layer is disposed on a side surface of the second columnar portion. The first conductive layer is electrically coupled to the second conductive layer.

The present disclosure provides a semiconductor package, including a semiconductor die and a substrate having a first surface electrically coupled to the semiconductor die and a second surface opposing to the first surface. The first surface includes a core region having a plurality of landing pads and a periphery region surrounding the core region and having a plurality of landing traces. A pitch of the landing pads is from about 55 m to about 280 m. The semiconductor die includes a third surface facing the first surface of the substrate and a fourth surface opposing to the third surface. The third surface includes a plurality of elongated bump positioned correspondingly to the landing pads and the landing traces of the substrate, and the elongated bump includes a long axis and a short axis perpendicular to the long axis on a cross section thereof.

The present disclosure relates to a flip-chip package with a hollow-cavity and reinforced interconnects, and a process for making the same. The disclosed flip-chip package includes a substrate, a reinforcement layer over an upper surface of the substrate, a flip-chip die attached to the upper surface of the substrate by interconnects through the reinforcement layer, an air cavity formed between the substrate and the flip-chip die, and a protective layer encapsulating the flip-chip die and defining a perimeter of the air cavity. Herein, a first portion of each interconnect is encapsulated by the reinforcement layer and a second portion of each interconnect is exposed to the air cavity. The reinforcement layer provides reinforcement to each interconnect.

A package includes a first package component, a second package component over the first package component, and a solder region bonding the first package component to the second package component. At least one ball-height control stud separates the first package component and the second package component from each other, and defines a standoff distance between the first package component and the second package component.

The present disclosure provides a semiconductor package, including a semiconductor die and a substrate having a first surface electrically coupled to the semiconductor die and a second surface opposing to the first surface. The first surface includes a core region having a plurality of landing pads and a periphery region surrounding the core region and having a plurality of landing traces. A pitch of the landing pads is from about 55 m to about 280 m. The semiconductor die includes a third surface facing the first surface of the substrate and a fourth surface opposing to the third surface. The third surface includes a plurality of elongated bump positioned correspondingly to the landing pads and the landing traces of the substrate, and the elongated bump includes a long axis and a short axis perpendicular to the long axis on a cross section thereof.

A package includes a first package component, a second package component over the first package component, and a solder region bonding the first package component to the second package component. At least one ball-height control stud separates the first package component and the second package component from each other, and defines a standoff distance between the first package component and the second package component.

A method of forming a package on package (PoP) structure includes forming a first die package, and bonding an external connector of a second die package to a solder paste layer of the first die package. The forming the first die package includes forming a contact pad over a substrate, attaching a metal ball with a convex surface to the contact pad, and applying a solder paste layer over a distal end of the metal ball and leaving at least a portion of the metal ball without solder paste. The forming the first die package also includes attaching a semiconductor die to the substrate, and forming a molding compound between the semiconductor die and the metal ball, where the solder paste layer has a first portion extending above an upper surface of the molding compound and a second portion extending below the upper surface of the molding compound.

The present disclosure provides a semiconductor package, including a semiconductor die and a substrate having a first surface electrically coupled to the semiconductor die and a second surface opposing to the first surface. The first surface includes a core region having a plurality of landing pads and a periphery region surrounding the core region and having a plurality of landing traces. A pitch of the landing pads is from about 55 m to about 280 m. The semiconductor die includes a third surface facing the first surface of the substrate and a fourth surface opposing to the third surface. The third surface includes a plurality of elongated bump positioned correspondingly to the landing pads and the landing traces of the substrate, and the elongated bump includes a long axis and a short axis perpendicular to the long axis on a cross section thereof.