Patent ID: 7648850
Filing Date: 2010-01-19
Classification: H01L

Abstract:
1. A method for producing a semiconductor chip, adapted to produce many semiconductor chips, each of which has a semiconductor circuit disposed on a face thereof and a die bonding film stuck to a back thereof, from a semiconductor wafer in which many rectangular regions are defined on a face of the semiconductor wafer by streets arranged in a lattice pattern, and the semiconductor circuit is disposed in each of the rectangular regions, the method comprising: a groove formation step of cutting the face of the semiconductor wafer along the streets to form grooves of a predetermined depth along the streets; a protective film sticking step of sticking a protective film to the face of the semiconductor wafer, where the grooves have been formed, after the groove formation step; a division step of grinding a back of the semiconductor wafer after the protective film sticking step to render a thickness of the semiconductor wafer equal to or smaller than a depth of the groove, thereby dividing the rectangular regions individually; a die bonding film/holding film sticking step of sticking a die bonding film and a holding film, in this order, to the ground back of the semiconductor wafer after the division step, the holding film larger than the semiconductor wafer being used so that the holding film stuck extends out beyond a peripheral edge of the semiconductor wafer; a protective film peeling step of peeling the protective film from the face of the semiconductor wafer after the die bonding film/holding film sticking step; a spacing increasing step of stretching the holding film after the protective film peeling step to increase spacing between the individually divided rectangular regions; a die bonding film cutting step of irradiating the die bonding film with a laser beam from a face side of the semiconductor wafer through a clearance between the rectangular regions after the spacing increasing step to cut the die bonding film along the clearance between the rectangular regions; and a pickup step of picking up each of the rectangular regions, each of which has the semiconductor circuit formed on a face thereof and the die bonding film stuck to a back thereof, from the holding film after the die bonding film cutting step, wherein a ring frame having a larger inner diameter than an outer diameter of the semiconductor wafer is secured to a peripheral edge portion of one surface of the holding film and, wherein, in the spacing increasing step, the ring frame is relatively moved downwardly with respect to the semiconductor wafer located on a table, such that the holding film and the die bonding film are stretched radially.