Patent ID: 6424389
Filing Date: 2002-07-23
Classification: G02F,H01L

Abstract:
A method for fabricating a liquid crystal display device, comprising steps of:a first step for forming a first metal layer on a substrate and patterning the first metal layer into a plurality of scanning signal lines using a photolithographic treatment; a second step for forming a first insulating film and a semiconductor layer consecutively in this order without a photolithographic treatment on the substrate so as to cover the plurality of scanning signal lines thereby, and then forming a second metal layer on the semiconductor layer; a third step for patterning the second metal layer into a plurality of data lines and a plurality of source electrodes using a photolithographic treatment so that the plurality of data lines extend in a transverse direction to extension directions of the plurality of scanning signal lines and each of the plurality of source electrodes confronts one of the data lines on one of the plurality of the scanning signal lines; a fourth step for etching the semiconductor layer using a photoresist layer as a mask, wherein the photoresist layer is patterned to be wider than each of the source electrodes at its end portion for etching the semiconductor layer to provide an overhang portion which extends further from each of the source electrodes, and wherein the portion of the semiconductor layer underneath each of the data lines is retracted from each of the data lines; a fifth step for forming a second insulating film on the data lines, the source electrodes, and the first insulating film; a sixth step for forming a plurality of openings through the second insulating film at portions thereof located on the respective source electrodes using a photolithographic treatment, each of the plurality of openings exposing one of the source electrodes; a seventh step for forming an oxide conductor film on the second insulating film so that the oxide conductor film contacts with each of the source electrodes in each of the plurality of openings; and an eighth step for patterning the oxide conductor film into a plurality of pixel electrodes, each of which is connected to one of the source electrodes using a photolithographic treatment.