A method for transferring an electronic device includes steps as follows. A flexible carrier is provided and has a surface with a plurality of electronic devices disposed thereon. A target substrate is provided corresponding to the surface of the flexible carrier. A pin is provided, and a pin end thereof presses on another surface of the flexible carrier without the electronic devices disposed thereon, so that the flexible carrier is deformed, causing at least one of the electronic devices to move toward the target substrate and to be in contact with the target substrate. A beam is provided to transmit at least a portion of the pin and emitted from the pin end to melt a solder. The electronic device is fixed on the target substrate by soldering. The pin is moved to restore the flexible carrier to its original shape, allowing the electronic device fixed by soldering to separate from the carrier.

The present invention discloses a modularized circuit for isolated circuit, wherein the isolated circuit includes at least two circuit components connecting in parallel and/or series, the circuit components, according to a circuit connection configuration, weld corresponding pins of the components directly, forming an integrated module in accordance with a desired connection method of the circuit, and saving circuit boards and wires; the circuit components are designed as a parallelepiped, and a plurality of bonding pads are arranged on part of an area on a surface of the parallelepiped. Due to constructing a circuit unit by welding connections in a way of building blocks, welding directly between components in a 3D space, comparing to the circuits limited in a circuit board plane as a PCB, it owns a wider design space.

The present invention discloses a modularized circuit for isolated circuit, wherein the isolated circuit includes at least two circuit components connecting in parallel and/or series, the circuit components, according to a circuit connection configuration, weld corresponding pins of the components directly, forming an integrated module in accordance with a desired connection method of the circuit, and saving circuit boards and wires; the circuit components are designed as a parallelepiped, and a plurality of bonding pads are arranged on part of an area on a surface of the parallelepiped. Due to constructing a circuit unit by welding connections in a way of building blocks, welding directly between components in a 3D space, comparing to the circuits limited in a circuit board plane as a PCB, it owns a wider design space.

A method for transferring an electronic device includes steps as follows. A flexible carrier is provided and has a surface with a plurality of electronic devices disposed thereon. A target substrate is provided corresponding to the surface of the flexible carrier. A pin is provided, and a pin end thereof presses on another surface of the flexible carrier without the electronic devices disposed thereon, so that the flexible carrier is deformed, causing at least one of the electronic devices to move toward the target substrate and to be in contact with the target substrate. A beam is provided to transmit at least a portion of the pin and emitted from the pin end to melt a solder. The electronic device is fixed on the target substrate by soldering. The pin is moved to restore the flexible carrier to its original shape, allowing the electronic device fixed by soldering to separate from the carrier.

A method of processing a wafer includes a plasma activation processing step of performing plasma processing on at least either one surface of a first wafer or one surface of a second wafer to activate the surface, a bonded wafer forming step of forming a bonded wafer by provisionally joining the first wafer and the second wafer, a modified layer forming step of forming modified layers in an annular pattern inside the first wafer by applying a laser beam of a wavelength having transmissivity for the first wafer, an outer peripheral region removal step of removing an outer peripheral region of the first wafer by applying an external force, an anneal processing step of performing anneal processing to increase joint strength of the bonded wafer, and a grinding step of grinding the first wafer to thin it to a finish thickness.

The present invention discloses a modularized circuit for isolated circuit, wherein the isolated circuit includes at least two circuit components connecting in parallel and/or series, the circuit components, according to a circuit connection configuration, weld corresponding pins of the components directly, forming an integrated module in accordance with a desired connection method of the circuit, and saving circuit boards and wires; the circuit components are designed as a parallelepiped, and a plurality of bonding pads are arranged on part of an area on a surface of the parallelepiped. Due to constructing a circuit unit by welding connections in a way of building blocks, welding directly between components in a 3D space, comparing to the circuits limited in a circuit board plane as a PCB, it owns a wider design space.

Provided is a method of manufacturing a semiconductor package, the method including: providing a first semiconductor die on a stage; bonding a second semiconductor die to the first semiconductor die to each other; applying heat to a surface of the second semiconductor die, which is opposite to a bonding interface of the first semiconductor die and the second semiconductor die; and measuring a temperature change on the surface of the second semiconductor die to which the heat is applied to inspect a state of the bonding interface.

A method for transferring an electronic device includes steps as follows. A flexible carrier having a first surface on which the electronic device to be transferred is disposed and a second surface, a target substrate, a target substrate, and a light-transmissible pin having a pressing end are provided. The flexible carrier is spaced from the target substrate with the first surface thereof facing the target substrate. The flexible carrier is deformed by exerting the pin to press the second surface with the pressing end thereof at a position corresponding to the electronic device until the electronic device is in contact with the target substrate. An energy beam emitted from a light source standing outside the pin and then traveling through the pin and going out from the pressing end to bond the electronic device onto the target substrate is applied. The pin is released from pressing the flexible carrier.

A method of processing a wafer includes a plasma activation processing step of performing plasma processing on at least either one surface of a first wafer or one surface of a second wafer to activate the surface, a bonded wafer forming step of forming a bonded wafer by provisionally joining the first wafer and the second wafer, a modified layer forming step of forming modified layers in an annular pattern inside the first wafer by applying a laser beam of a wavelength having transmissivity for the first wafer, an outer peripheral region removal step of removing an outer peripheral region of the first wafer by applying an external force, an anneal processing step of performing anneal processing to increase joint strength of the bonded wafer, and a grinding step of grinding the first wafer to thin it to a finish thickness.

The present invention discloses a modularized circuit for isolated circuit, wherein the isolated circuit includes at least two circuit components connecting in parallel and/or series, the circuit components, according to a circuit connection configuration, weld corresponding pins of the components directly, forming an integrated module in accordance with a desired connection method of the circuit, and saving circuit boards and wires; the circuit components are designed as a parallelepiped, and a plurality of bonding pads are arranged on part of an area on a surface of the parallelepiped. Due to constructing a circuit unit by welding connections in a way of building blocks, welding directly between components in a 3D space, comparing to the circuits limited in a circuit board plane as a PCB, it owns a wider design space.