Patent ID: 7732264

Claim:
A fabrication method of a thin film transistor (TFT) array substrate, comprising: forming a first conductive layer on a substrate; performing a first mask process to pattern the first conductive layer, thereby forming a contact pad, a gate line, a gate electrode and a lower electrode of a capacitor; forming a stack covering the substrate, the contact pad, the gate line, the gate electrode and the lower electrode of the capacitor, wherein the stack includes a gate dielectric layer, a semiconductor layer and an ohmic contact layer; performing a second mask process to pattern the stack, thereby exposing the substrate and forming a first opening exposing the contact pad; forming a first transparent conductive layer covering the substrate, the stack and the exposed contact pad; forming a second conductive layer covering the first transparent conductive layer; performing a third mask process to form a data line perpendicular to the gate line, source and drain regions overlying the gate electrode, a pixel electrode in a pixel area of the substrate, an upper electrode of the capacitor overlying the lower electrode of the capacitor, a contact pad electrode overlying the contact pad, and a second opening exposing the semiconductor layer and separating the source and drain regions, wherein the drain region is electrically connected to the pixel electrode, the source region is electrically connected to the data line, and the upper electrode of the capacitor is electrically connected to the pixel electrode, wherein the third mask process comprises: forming a photo-resist layer overlying the second conductive layer; patterning the photo-resist layer using a half-tone mask, thereby forming a first photo-resist pattern overlying the pixel area, the lower electrode of the capacitor and the contact pad of the substrate, and forming a second photo-resist pattern overlying the gate electrode and a predetermined region whereby a data is to be formed, wherein the second photo-resist pattern has a thickness larger than that of the first photo-resist pattern, and has a fifth opening overlying the gate electrode that exposes the second conductive layer; removing the second conductive layer, the transparent conductive layers and the ohmic contact layer within the fifth opening, thereby forming the second opening exposing the semiconductor layer; removing the first photo-resist pattern and a portion of the second photo-resist pattern; and removing the second conductive layer overlying the contact pad, the pixel area and the lower electrode of the capacitor with the residual portion of the second photo-resist pattern serving as a mask; forming a passivation layer covering the overall substrate; and performing a laser ablation process to pattern the passivation layer, thereby forming third and fourth openings exposing a portion of the first transparent conductive layer.