A device may include a first package and a second package where the first package has a warped shape. First connectors attached to a redistribution structure of the first package include a spacer embedded therein. Second connectors attached to the redistribution structure are fee from the spacer, the spacer of the first connectors keeping a minimum distance between the first package and the second package during attaching the first package to the second package.

A semiconductor device has a substrate. A plurality of conductive vias is formed through the substrate. A conductive layer is formed over the substrate. An insulating layer is formed over conductive layer. A portion of the substrate is removed to expose the conductive vias. A plurality of vertical interconnect structures is formed over the substrate. A first semiconductor die is disposed over the substrate. A height of the vertical interconnect structures is less than a height of the first semiconductor die. An encapsulant is deposited over the first semiconductor die and the vertical interconnect structures. A first portion of the encapsulant is removed from over the first semiconductor die while leaving a second portion of the encapsulant over the vertical interconnect structures. The second portion of the encapsulant is removed to expose the vertical interconnect structures. A second semiconductor die is disposed over the first semiconductor die.

A method includes encapsulating a package component in an encapsulating material, with the encapsulating material including a portion directly over the package component. The portion of the encapsulating material is patterned to form an opening revealing a conductive feature in the package component. A redistribution line extends into the opening to contact the conductive feature. An electrical connector is formed over and electrically coupling to the conductive feature.

Printed circuit board (PCB) structures and methods of assembling them are described herein. In some embodiments, a PCB structure may include a first mounting hole; first, second, and third projections radiating from the first mounting hole; and a second mounting hole adjacent to the third projection. The first and second mounting holes located at opposite ends of the third projection. The second mounting hole to cause an electrical coupling of a bottom integrated circuit (IC) module to a connection structure included in a PCB, and the first mounting hole, the first projection, and the second projection to cause positioning of a top IC module above the bottom IC module and electrical coupling of the top IC module to the connection structure.

A package includes a first package including a device die, a molding compound molding the device die therein, a through-via penetrating through the molding compound, and a first plurality of Redistribution Lines (RDLs) and a second plurality of RDLs on opposite sides of the molding compound. The through-via electrically couples one of the first plurality of RDLs to one of the second plurality of RDLs. The package further includes a second package bonded to the first package, a spacer disposed in a gap between the first package and the second package, and a first electrical connector and a second electrical connector on opposite sides of the spacer. The first electrical connector and the second electrically couple the first package to the second package. The spacer is spaced apart from the first electrical connector and the second electrical connector.

Provided is a module which has a package-on-package structure including a redistribution layer and can be easily reduced in height. A module includes an upper module including a substrate, a first component, and a sealing resin layer, and a lower module including an intermediate layer and a redistribution layer. The first component is connected to the redistribution layer with a columnar conductor interposed therebetween and provided in the intermediate layer, and both the first component and a second component are rewired by the redistribution layer. By fixing a resin block containing the second component to a lower surface of the substrate by a fixing conductor, positional deviation of the second component can be prevented. Further, by polishing an upper surface of the resin block, it is possible to improve the flatness.

A method of fabricating a semiconductor package includes providing a lower semiconductor package including a lower package substrate, and a lower dummy ball and a lower solder ball on a top surface of the lower package substrate, providing an upper semiconductor package including an upper package substrate, and an upper dummy ball and an upper solder ball on a bottom surface of the upper package substrate, joining the upper dummy ball to the lower dummy ball at a first temperature to form a solder joint, and joining the upper solder ball to the lower solder ball at a second temperature to form a connection terminal.

A printed circuit board includes a substrate base; a plurality of ball lands arranged on a surface of the substrate base; a cutting position identification mark disposed on a corner of the surface of the substrate base; and at least one alignment mark disposed on the surface of the substrate base to be spaced apart from the ball lands and exposed to the outside, wherein top surfaces of the ball lands and a top surface of the at least one alignment mark are at substantially the same vertical level and the ball lands and the at least one alignment mark include the same material.

An electronic device and a manufacturing method thereof are provided. The method includes at least the following steps. An insulating encapsulant is formed to encapsulate a multi-layered structure and a semiconductor die, where the multi-layered structure includes a first conductor, a diffusion barrier layer on the first conductor, and a metallic layer on the diffusion barrier layer, and the insulating encapsulant at least exposes a portion of the semiconductor die and a portion of the first conductor. A redistribution structure is formed over the insulating encapsulant, the semiconductor die, and the first conductor. The metallic layer is removed to form a recess in the insulating encapsulant. A second conductor is formed in the recess over the diffusion barrier layer, where the first conductor, the diffusion barrier layer, and the second conductor form a conductive structure that is electrically coupled to the semiconductor die through the redistribution structure.

Provided is a method of fabricating a semiconductor package. The method include providing a lower package with an inner solder ball, providing a conductive material on the inner solder ball to form an outer solder ball enclosing the inner solder ball, providing an upper package with an upper solder ball, on the lower package, performing a first process at a first temperature to join the upper solder ball to the outer solder ball, and performing a second process at a second temperature to unite the upper, inner, and outer solder balls into a connection terminal.