A method includes bonding a second package component to a first package component, bonding a third package component to the first package component, attaching a dummy die to the first package component, encapsulating the second package component, the third package component, and the dummy die in an encapsulant, and performing a planarization process to level a top surface of the second package component with a top surface of the encapsulant. After the planarization process, an upper portion of the encapsulant overlaps the dummy die. The dummy die is sawed-through to separate the dummy die into a first dummy die portion and a second dummy die portion. The upper portion of the encapsulant is also sawed through.

A semiconductor device is vertically mounted on a medium such as a printed circuit board (PCB). The semiconductor device comprises a block of semiconductor dies, mounted in a vertical stack without offset. Once formed and encapsulated, side grooves may be formed in the device exposing electrical conductors of each die within the device. The electrical conductors exposed in the grooves mount to electrical contacts on the medium to electrically couple the semiconductor device to the medium.

A semiconductor device is vertically mounted on a medium such as a printed circuit board (PCB). The semiconductor device comprises a block of semiconductor dies, mounted in a vertical stack without offset. Once formed and encapsulated, side grooves may be formed in the device exposing electrical conductors of each die within the device. The electrical conductors exposed in the grooves mount to electrical contacts on the medium to electrically couple the semiconductor device to the medium.

A method includes forming a first dielectric layer over a conductive pad, forming a second dielectric layer over the first dielectric layer, and etching the second dielectric layer to form a first opening, with a top surface of the first dielectric layer exposed to the first opening. A template layer is formed to fill the first opening. A second opening is then formed in the template layer and the first dielectric layer, with a top surface of the conductive pad exposed to the second opening. A conductive pillar is formed in the second opening.

A method includes forming a first dielectric layer over a conductive pad, forming a second dielectric layer over the first dielectric layer, and etching the second dielectric layer to form a first opening, with a top surface of the first dielectric layer exposed to the first opening. A template layer is formed to fill the first opening. A second opening is then formed in the template layer and the first dielectric layer, with a top surface of the conductive pad exposed to the second opening. A conductive pillar is formed in the second opening.

A method for fabricating a chip scale package, comprising: providing a wafer; applying a polymer resin on at least part of a first surface of the wafer and to one or more sides of the wafer; and applying a compression mold on at least part of a second surface of the wafer and to one or more sides of the wafer, said first and second surfaces opposing each other.

A method for fabricating a chip scale package, comprising: providing a wafer; applying a polymer resin on at least part of a first surface of the wafer and to one or more sides of the wafer; and applying a compression mold on at least part of a second surface of the wafer and to one or more sides of the wafer, said first and second surfaces opposing each other.

Implementations of a molded image sensor chip scale package may include an image sensor having a first side and a second side. A first cavity wall and a second cavity wall may be coupled to the first side of the image sensor and extend therefrom. The first cavity wall and the second cavity wall may form a cavity over the image sensor. A transparent layer may be coupled to the first cavity wall and the second cavity wall. A redistribution layer (RDL) may be coupled to the second side of the image sensor. At least one interconnect may be directly coupled to the RDL. A mold material may encapsulate a portion of the RDL, a portion of the image sensor, and a side of each cavity wall, and a portion of the transparent layer.

Various embodiments may provide a method of forming an electrical connection structure. The method may include forming a cavity on a front surface of a substrate, the substrate including an electrically conductive pad, by etching through the electrically conductive pad. The method may also include forming one or more dielectric liner layers covering an inner surface of the cavity. The method may further include forming a via hole extending from the cavity by etching through the one or more dielectric liner layers, forming one or more further dielectric liner layers covering an inner surface of the via hole. The method may additionally include depositing a suitable electrically conductive material into the cavity and the via hole to form a conductive via having a first portion in the cavity and a second portion in the via hole, a diameter of the first portion different from a diameter of the second portion.

A semiconductor package provided herein includes a first semiconductor die, a second semiconductor die and an insulating encapsulation. The second semiconductor die is stacked on the first semiconductor die. The insulating encapsulation laterally surrounds the first semiconductor die and the second semiconductor die in a one-piece form, and has a first sidewall and a second sidewall respectively adjacent to the first semiconductor die and the second semiconductor die. The first sidewall keeps a lateral distance from the second sidewall.