A detaping machine is adapted for removing a tape from a frame, the tape includes a wafer mounting area and a periphery area surrounding the wafer mounting area. The detaping machine includes a carrier and a detaping module. The carrier is for supporting the tape and the frame. The detaping module includes an elastic pressing device and a detaping head, wherein the periphery area of the tape is adapted to be pressed by the elastic pressing device, and the wafer mounting area of the tape is adapted to be pressed by the detaping head. A detaping method is further provided.

A system for disassembling a display device includes a supporting part facing a window and supporting at least a portion of the window. A window fixing part is disposed on the supporting part and is configured to fix a position of the window with respect to the supporting part. A display panel stopper is positioned above the supporting part and is spaced apart from the supporting part by a predetermined distance. A window pressurizing part is configured to apply pressure to the second region of the window along a first orthogonal to an upper surface of the supporting part. A separating stick is movable along a second direction which intersects the first direction. The separating stick is configured to be inserted between the window and a display panel adhered to the window.

Systems and methods for releasing semiconductor dies during pick and place operations are disclosed. In one embodiment, a system for handling semiconductor dies comprises a support member positioned to carry at least one semiconductor die releasably attached to a support substrate. The system further includes a picking device having a pick head coupleable to a vacuum source and positioned to releasably attach to the semiconductor die at a pick station. The system still further includes a cooling member coupleable to a cold fluid source and configured to direct a cold fluid supplied by the cold fluid source toward the support substrate at the pick station. The cold fluid cools a die attach region of the substrate where the semiconductor die is attached to the substrate to facilitate removal of the semiconductor die.

The object of the invention is a flat file which is suitable for lifting off films from intermediate layers.

An object of the present invention is to make it possible to easily remove a carrier film when removing the carrier film from a gasket body in a carrier-film-equipped gasket, which includes a combination of a rubber-only type gasket body and a resinous carrier film that retains the gasket body, even if the gasket body is adhered to the carrier film. To fulfill the object, a step for peeling, against an adhesive force, the carrier film from the gasket body in a state in which the gasket body is fixed to a base, is carried out. As a preliminary step of the peeling step, the gasket body is pressed from the carrier film side by a pressing device thereby to decrease the adhesion area between the gasket body and the carrier film, and the peeling step is carried out in a state in which the adhesion area has been decreased.

A process is disclosed for using two polymeric bonding material layers to bond a device wafer and carrier wafer in a way that allows debonding to occur between the two layers under low-force conditions at room temperature. Optionally, a third layer is included at the interface between the two layers of polymeric bonding material to facilitate the debonding at this interface. This process can potentially improve bond line stability during backside processing of temporarily bonded wafers, simplify the preparation of bonded wafers by eliminating the need for specialized release layers, and reduce wafer cleaning time and chemical consumption after debonding.

In various embodiments, an assembly for handling a semiconductor die is provided. The assembly may include a carrier with a surface. The assembly may also include an adhesive tape fixed to the surface of the carrier. The adhesive tape may be configured to adhere to the semiconductor die. The adhesive tape may include adhesive, the adhesion of which can be reduced by means of electromagnetic waves. The assembly may further include an electromagnetic source configured to apply electromagnetic waves to the adhesive tape to reduce adhesion of the adhesive tape to the semiconductor die. The assembly may additionally include a die pick-up component configured to pick up the semiconductor die from the adhesive tape.

Systems and methods for releasing semiconductor dies during pick and place operations are disclosed. In one embodiment, a system for handling semiconductor dies comprises a support member positioned to carry at least one semiconductor die releasably attached to a support substrate. The system further includes a picking device having a pick head coupleable to a vacuum source and positioned to releasably attach to the semiconductor die at a pick station. The system still further includes a cooling member coupleable to a cold fluid source and configured to direct a cold fluid supplied by the cold fluid source toward the support substrate at the pick station. The cold fluid cools a die attach region of the substrate where the semiconductor die is attached to the substrate to facilitate removal of the semiconductor die.

A system for disassembling a display device includes a supporting part facing a window and supporting at least a portion of the window. A window fixing part is disposed on the supporting part and is configured to fix a position of the window with respect to the supporting part. A display panel stopper is positioned above the supporting part and is spaced apart from the supporting part by a predetermined distance. A window pressurizing part is configured to apply pressure to the second region of the window along a first orthogonal to an upper surface of the supporting part. A separating stick is movable along a second direction which intersects the first direction. The separating stick is configured to be inserted between the window and a display panel adhered to the window.

A system and method for peeling a semiconductor chip from a tape using a multistage ejector is disclosed. A housing in the multistage ejector houses a plural sets of tape removing contacts. A pick and place unit is moved slowly to have contact with the chip. A vacuum source is utilized for generating vacuum to suck the tape. Plural sets of contacts such as inner, middle and outer contacts are independently or together moved below the tape at various stages by utilizing their respective actuation mechanism. A controller can independently control the movements of each contact to effectively remove or loosen the tape from the chip. A pick and place unit can then pick up the chip easily without any damage to chip.