Patent ID: 6653159
Filing Date: 2003-11-25
Classification: G02F,H01L

Abstract:
A method of fabricating a thin film transistor liquid crystal display, the display being fabricated on a substrate, and the substrate comprising at least one transistor area for forming a thin film transistor (TFT) and at least one cross over region, the method comprising the step of:forming a first metal layer on the substrate; patterning the first metal layer for forming a gate electrode in the transistor area and a scan line passing through the cross over region of the substrate; depositing a first isolation layer, a second isolation layer and a semiconductor layer on the substrate to cover the gate electrode and the scan line; forming an etching stop layer on the semiconductor layer, the etching stop layer being positioned above the gate electrode; depositing a doped silicon conductive layer on the semiconductor layer and the etching stop layer; patterning the doped silicon conductive layer, the semiconductor layer and the second isolation layer to remove parts of the doped conductive silicon layer, the semiconductor layer and the second isolation layer positioned (a) except the transistor area and (b) except the cross over region; forming a transparent conductive layer on the substrate; patterning the transparent conductive layer to form at least one auxiliary signal line passing through the transistor area and one pixel electrode, and the auxiliary signal line passing through the cross over region; forming a second metal layer on the substrate; patterning the second metal layer to form a main signal line above the auxiliary signal line, to cover the transistor area and electrically connect to the pixel electrode, and an opening being formed in the second metal layer above the etching stop layer to expose the etching stop layer therein; forming a passivation layer on the substrate; and patterning the passivation layer by removing a part of the passivation layer positioned above the pixel electrode in order to expose the pixel electrode; wherein the doped silicon conductive layer, the semiconductor layer, the second isolation layer, and the first isolation layer are positioned between the auxiliary signal line and the scan line in the cross over region, the main signal line and the auxiliary signal line are overlapped to compose a signal line, and none of the semiconductor layer, the doped silicon conductive layer and the second isolation layer is remained under the auxiliary signal line outside the cross over region.