According to this disclosure, a method of manufacturing an electronic device is provided, which includes exposing a top surface of a first electrode of a first electronic component to organic acid, irradiating the top surface of the first electrode exposed to the organic acid with ultraviolet light, and bonding the first electrode and a second electrode of a second electronic component by heating and pressing the first electrode and the second electrode each other.

A fingerprint sensor package and method are provided. The fingerprint sensor package comprises a fingerprint sensor along with a fingerprint sensor surface material and electrical connections from a first side of the fingerprint sensor to a second side of the fingerprint sensor. A high voltage chip is connected to the fingerprint sensor and then the fingerprint sensor package with the high voltage chip are connected to a substrate, wherein the substrate has an opening to accommodate the presence of the high voltage chip.

The present disclosure provides a semiconductor package, including a first device having a first joining surface, a first conductive component at least partially protruding from the first joining surface, a second device having a second joining surface facing the first joining surface, and a second conductive component at least exposing from the second joining surface. The first conductive component and the second conductive component form a joint having a first beak. The first beak points to either the first joining surface or the second joining surface.

The present disclosure provides a semiconductor package, including a first device having a first joining surface, a first conductive component at least partially protruding from the first joining surface, a second device having a second joining surface facing the first joining surface, and a second conductive component at least exposing from the second joining surface. The first conductive component and the second conductive component form a joint having a first beak. The first beak points to either the first joining surface or the second joining surface.

Integrated circuit (IC) package structures, and related devices and methods, are disclosed herein. In some embodiments, an IC package substrate may include: a dielectric layer having a first face and a second face; a metal layer disposed at the first face of the dielectric layer and having a first face and a second face, wherein the second face of the metal layer is disposed between the first face of the metal layer and the second face of the dielectric layer; a package contact at the first face of the metal layer to couple the IC package substrate to a component; and a die contact at the first face of the metal layer to couple a die to the IC package substrate.

Integrated circuit (IC) package structures, and related devices and methods, are disclosed herein. In some embodiments, an IC package substrate may include: a dielectric layer having a first face and a second face; a metal layer disposed at the first face of the dielectric layer and having a first face and a second face, wherein the second face of the metal layer is disposed between the first face of the metal layer and the second face of the dielectric layer; a package contact at the first face of the metal layer to couple the IC package substrate to a component; and a die contact at the first face of the metal layer to couple a die to the IC package substrate.

The present disclosure provides a semiconductor package, including a first device having a first joining surface, a first conductive component at least partially protruding from the first joining surface, a second device having a second joining surface facing the first joining surface, and a second conductive component at least exposing from the second joining surface. The first conductive component and the second conductive component form a joint having a first beak. The first beak points to either the first joining surface or the second joining surface.

The present disclosure provides a semiconductor package, including a first device having a first joining surface, a first conductive component at least partially protruding from the first joining surface, a second device having a second joining surface facing the first joining surface, and a second conductive component at least exposing from the second joining surface. The first conductive component and the second conductive component form a joint having a first beak. The first beak points to either the first joining surface or the second joining surface.

A rework process includes attaching a first bond head to a first semiconductor package. The contact pads of the first semiconductor package are bonded to contact pads of a second semiconductor package by solder joints. The rework process further includes performing a first local heating process to melt the solder joints, removing the first semiconductor package using the first bond head, and removing at least a portion of solder from the contact pads of the second semiconductor package.

The joint reliability in flip chip bonding of a semiconductor device is enhanced. Prior to flip chip bonding, flux 9 is applied to the solder bumps 5a for flip chip bonding over a substrate and reflow/cleaning is carried out and then flip chip bonding is carried out. This makes is possible to thin the oxide film over the surfaces of the solder bumps 5a and make the oxide film uniform. As a result, it is possible to suppress the production of local solder protrusions to reduce the production of solder bridges during flip chip bonding and enhance the joint reliability in the flip chip bonding of the semiconductor device.