Patent ID: 7666760
Filing Date: 2010-02-23
Classification: H01L

Abstract:
1. A method of dividing a wafer, provided in its face-side surface with a plurality of streets in a grid pattern and provided with devices in a plurality of regions demarcated by said plurality of streets, along said plurality of streets, said method comprising: a protective tape adhering step of adhering a protective tape to said wafer's face-side surface; a denatured layer forming step in which the protective tape side of said wafer with said protective tape adhered to its face-side surface is held on a chuck table of a laser beam machining apparatus, with the wafer's back-side surface on the upper side, and said wafer is irradiated from its back side with a laser beam having such a wavelength as to be transmitted through said wafer, along said plurality of streets, so as to form a denatured layer in the inside of said wafer along said plurality of streets; a first feeding step in which, after said denatured layer forming step is carried out, the whole area of said wafer's back-side surface is suction held by a wafer feeding unit for feeding said wafer while holding said wafer by suction, and the protective tape side of said wafer is mounted on a support table of a tape adhering unit, with the wafer's back-side surface on the upper side; a dicing tape adhering step of adhering a dicing tape to said back-side surface of said wafer mounted on said support table of said tape adhering unit and to an annular frame disposed to surround said wafer; a wafer reversing step in which, after said dicing tape adhering step is carried out, the whole area of said wafer's back-side surface is suction held through said dicing tape and said annular frame is also suction held, by use of a wafer reversing unit for reversing said wafer and said annular frame while holding them by suction, and said wafer and said annular frame thus held are reversed face side back so that said protective tape adhered to said wafer's face-side surface is located on the upper side; a second feeding step in which, after said wafer reversing step is carried out, the whole area of said wafer's face-side surface is suction held through said protective tape and said annular frame is also suction held, by use of a wafer and frame feeding unit for feeding said wafer and said annular frame while holding them by suction, and said annular frame is mounted on an annular frame holding member of a tape expanding unit and the dicing tape side of said wafer is mounted on a wafer holding table of said tape expanding unit, with said protective tape adhered to said wafer's face-side surface being on the upper side; a protective tape peeling step in which said annular frame mounted on said frame holding member of said tape expanding unit is fixed, said wafer mounted on said wafer holding table is suction held through said dicing tape, and said protective tape adhered to said wafer's face-side surface is peeled off; and a wafer dividing step in which, after said protective tape peeling step is carried out, said suction holding of said wafer by said wafer holding table is released, and said dicing tape is expanded, whereby said wafer is divided along said plurality of streets along which said denatured layer has been formed, into the individual devices.