摘要:
Embodiments of the invention relate to an array substrate, a manufacturing method thereof and a display device comprising the array substrate. The array substrate comprises a gate line and a data line which define a pixel region, the pixel region comprises a thin film transistor region and an electrode pattern region, a gate electrode, a gate insulation layer, an active layer, a source electrode, a drain electrode and a passivation layer are formed in the thin film transistor region, the gate insulation layer, a pixel electrode, the passivation layer and a common electrode are formed in the electrode pattern region, and the common electrode and the pixel electrode form a multi-dimensional electric field. A color resin layer is formed between the gate insulation layer and the pixel electrode.
摘要:
Disclosed is a method for manufacturing an array substrate of an FFS type TFT-LCD, comprising the steps of: forming a first transparent conductive film, a first metal film and an impurity-doped semiconductor film on a transparent substrate sequentially, and then patterning the stack of the films to form patterns including source electrodes, drain electrodes, data lines and pixel electrodes; forming a semiconductor film and patterning it to form a pattern of the impurity-doped semiconductor layer and a pattern of the semiconductor layer including TFT channels; forming an insulating film and a second metal film, and patterning the stack of the films to form patterns including connection holes of the data lines in a PAD region, gate lines, gate electrodes and common electrode lines; forming a second transparent conductive film, and patterning it to form patterns including the common electrode.
摘要:
Disclosed is a method for manufacturing an array substrate of an FFS type TFT-LCD, comprising the steps of: forming a first transparent conductive film, a first metal film and an impurity-doped semiconductor film on a transparent substrate sequentially, and then patterning the stack of the films to form patterns including source electrodes, drain electrodes, data lines and pixel electrodes; forming a semiconductor film and patterning it to form a pattern of the impurity-doped semiconductor layer and a pattern of the semiconductor layer including TFT channels; forming an insulating film and a second metal film, and patterning the stack of the films to form patterns including connection holes of the data lines in a PAD region, gate lines, gate electrodes and common electrode lines; forming a second transparent conductive film, and patterning it to form patterns including the common electrode.
摘要:
A method for fabricating a thin film pattern and a method for fabricating an array substrate are provided. The method for fabricating a thin film pattern comprises: forming a first film and a second film sequentially; applying a layer of photoresist on the second film; forming a photoresist pattern comprising a totally left region, a partially left region and a totally removed region; performing a first wet etching on the second film in the totally removed region; performing a first dry etching on the first film in the totally removed region to form a first pattern, and etching the photoresist layer to remove the photoresist in the partially left region to expose the second film in the partially left region; performing a second wet etching on the second film in the partially left region; performing a second dry etching to form a second pattern; and removing the residual photoresist.
摘要:
A method for manufacturing an array substrate of liquid crystal display is performed with the following steps: providing a substrate having gate lines, a gate insulating layer and an active layer pattern formed thereon in this order; depositing a first transparent conductive layer and a source/drain metal layer in this order on the substrate; forming a photoresist layer on the source/drain metal layer through a triple-tone mask; performing a wet-etching process on the source/drain metal layer and the first transparent conductive layer exposed from the photoresist layer; performing a first ashing process on the photoresist layer and performing a dry-etching process on the source/drain metal layer, the first transparent conductive layer and the active layer pattern exposed by the first ashing process; performing a second ashing process on the photoresist layer and performing a wet-etching process on the source/drain metal layer exposed by the second ashing process; and removing the remaining photoresist layer. According to the invention, the over-etching on the TFT channel region can be reduced and the display quality of the liquid crystal display can be ensured.
摘要:
An embodiment of the disclosed technology provides a method of manufacturing an array substrate, comprising: a first mask process of forming an inorganic material protrusion on a base substrate; a second mask process of forming a reflective region pattern, a gate line, a gate electrode branched from the gate line, and a common electrode; a third mask process of forming an active island and a data line formed and forming a source electrode connected to the data line and a drain electrode on the active island and a channel; a fourth mask process of forming an insulation material layer, treating the insulation material layer to form a planarization layer, and forming a through hole above the drain electrode; and a fifth mask process of forming a pixel electrode and connected to the drain electrode via the through hole in a reflective region.
摘要:
A manufacturing method for an array substrate with a fringe field switching (FFS) type thin film transistor (TFT) liquid crystal display (LCD) includes the following steps. A pattern of a gate line (1), a gate electrode, a common electrode (6) and a common electrode line (5) is formed by patterning a first transparent conductive film and a first metal film formed successively on a transparent substrate. Contact holes of the gate line in the pad area and a semiconductor pattern are formed through a patterning process after a gate insulator film, and a semiconductor film and a doped semiconductor film are formed successively. A second metal film is deposited and patterned. A second transparent conductive film is deposited and a lift-off process is performed. And then, a pattern of a source electrode, a drain electrode, a TFT channel and a pixel electrode (4) is formed by etching the exposed second metal film and the doped semiconductor film.
摘要:
The present invention discloses a method for manufacturing thin film structure, which comprises the following steps: providing a substrate having a first recess and a second recess formed therein with the first recess being deeper than the second recess; depositing a first material layer and a second material layer of different thicknesses successively on the substrate; and grinding the substrate so that a flat upper surface is formed and the first material layer and the second material layer are remained in the first recess while only the first material layer is remained in the second recess. The present invention also discloses a method for manufacturing fringe field switching type liquid crystal display array substrate. With the present invention, it is possible to make the upper surface flat while forming patterns on two layers of thin films respectively by using a single mask.
摘要:
The present invention relates to a thin film transistor array substrate comprising a gate line and a data line that are separated by an insulting layer and intersecting each other to define a pixel, wherein a data auxiliary line is disposed adjacent to an intersection portion between the data line and the gate line, and both ends of the data auxiliary line are on two sides of the intersection portion and connected with the data lines, respectively.
摘要:
A manufacturing method for an array substrate with a fringe field switching (FFS) type thin film transistor (TFT) liquid crystal display (LCD) includes the following steps. A pattern of a gate line (1), a gate electrode, a common electrode (6) and a common electrode line (5) is formed by patterning a first transparent conductive film and a first metal film formed successively on a transparent substrate. Contact holes of the gate line in the pad area and a semiconductor pattern are formed through a patterning process after a gate insulator film, and a semiconductor film and a doped semiconductor film are formed successively. A second metal film is deposited and patterned. A second transparent conductive film is deposited and a lift-off process is performed. And then, a pattern of a source electrode, a drain electrode, a TFT channel and a pixel electrode (4) is formed by etching the exposed second metal film and the doped semiconductor film.