KR100675933B1 - Thin film transistor liquid crystal display using polarizer film and method for fabricating the same - Google Patents

Abstract

The present invention relates to a thin film transistor liquid crystal display using a polarizer substrate and a method of manufacturing the same, and more particularly, to a thin film transistor liquid crystal display using a polarizer substrate , A lower substrate including a transistor disposed therein, a pixel electrode connected to the transistor, a color filter layer disposed on the pixel electrode, and a lower alignment film covering the color filter layer; An upper polarizer facing the lower substrate; A common electrode disposed on a surface of the upper polarizer plate facing the pixel electrode and including IZO (Indium Zinc Oxide) for preventing damage to the polarizer; An upper alignment layer disposed on a surface of the common electrode facing the pixel electrode; A spacer disposed between the upper alignment layer and the lower alignment layer; And a liquid crystal layer interposed between the upper alignment layer and the lower alignment layer. Therefore, by forming color filters on the TFTs and the pixel electrodes of each pixel on the lower glass substrate at the same time, it is possible to prevent lowering of the aperture ratio reduction contrast caused when two glass substrates are bonded together, and the upper substrate can be manufactured by using a polarizing plate By eliminating the process of attaching the polarizer, the weight of the product can be reduced and the cost can be reduced.

Description

[0001] The present invention relates to a thin film transistor liquid crystal display using a polarizing plate substrate and a manufacturing method thereof,

1 is a conventional thin film transistor liquid crystal display (TFT-LCD).

FIG. 2 illustrates a thin film transistor liquid crystal display using a polarizer plate according to an embodiment of the present invention. FIG.

FIG. 3 illustrates a thin film transistor liquid crystal display using a FFS mode polarizing plate substrate according to another embodiment of the present invention. FIG.

Description of the Related Art

1: lower polarizer plate 2: glass substrate

3: TFT 4: pixel electrode (ITO)

5: Orientation film 6: Common electrode (ITO)

7: Color filter 8: Space

9: liquid crystal 10: upper polarizer plate

11: insulating film 12: common electrode

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thin film transistor liquid crystal display (TFT-LCD) using a polarizing plate, and more particularly, to a thin film transistor liquid crystal display using a polarizing plate that can be used for various modes of LCD and a manufacturing method thereof.

1 shows a conventional thin film transistor liquid crystal display (TFT-LCD). On the lower substrate, TFTs 3 and pixel electrodes (ITO) 4 are formed for each pixel, and R, G, and B color filters 7 and 7 are formed on the upper substrate corresponding to each pixel electrode (ITO) Thereby forming the common electrode ITO 6.

An alignment film 5 is formed between the upper substrate and the lower substrate to align the liquid crystal, and a liquid crystal 9 is injected between the two alignment film substrates. In this state, the glass substrate 2 and the polarizing plates 1 and 10 are bonded to the upper and lower substrates to form an LCD.

In the conventional LCD structure, since the glass substrate 2 and the polarizing plates 1 and 10 are used in duplicate, there are various drawbacks on the product.

The weight of the LCD due to the dual use of the upper and lower glass substrates 2 and the polarizers 1 and 10 increases greatly, which is a limitation in a portable device which must meet the requirement of lightweight thin type.

Secondly, in the manufacturing process, it is necessary to attach the upper and lower polarizing plates 1 and 10 again after the upper and lower glass substrates 2 are attached to each other, thus causing defects and causing a rise in manufacturing cost.

Third, if the alignment between the color filter 7 of the upper substrate and the pixels of the lower substrate do not coincide precisely, the image quality of the LCD may be degraded. That is, if the color filter portion and the pixel portion do not coincide with each other, the contrast may be reduced when the light leakage occurs, and the aperture ratio may be reduced when the light leakage is improved.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art, and an object of the present invention is to provide a color filter on a glass substrate, And a method for manufacturing the thin film transistor liquid crystal display device using the polarizing plate substrate.

Another object of the present invention is to provide a liquid crystal display device capable of improving the misalignment caused when a pixel and a color filter substrate are bonded together, and a polarizer can be used instead of a glass substrate because there is no color filter on the upper substrate. And a method of manufacturing the thin film transistor liquid crystal display device using the polarizing plate substrate.

According to another aspect of the present invention, there is provided a liquid crystal display device including a lower polarizer disposed on a lower surface of an insulating substrate, pixels arranged on an upper surface facing the lower surface of the insulating substrate, A lower substrate including a pixel electrode, a color filter layer disposed on the pixel electrode, and a lower alignment film covering the color filter layer; An upper polarizer facing the lower substrate; A common electrode disposed on a surface of the upper polarizer plate facing the pixel electrode and including IZO (Indium Zinc Oxide) for preventing damage to the polarizer; An upper alignment layer disposed on a surface of the common electrode facing the pixel electrode; A spacer disposed between the upper alignment layer and the lower alignment layer; And a liquid crystal layer interposed between the upper alignment layer and the lower alignment layer.
The present invention provides a liquid crystal display device including a lower polarizer disposed on a lower surface of an insulating substrate, pixels arranged on an upper surface facing the lower surface of the insulating substrate, transistors arranged in each pixel, common electrodes connected to the transistors, A lower substrate including a slit-shaped pixel electrode, a color filter layer disposed on the pixel electrode, and a lower alignment film covering the color filter layer; An upper polarizer facing the lower substrate; An upper alignment layer disposed on a surface of the upper polarizer opposite to the pixel electrode; A spacer disposed between the upper alignment layer and the lower alignment layer; And a liquid crystal layer interposed between the upper alignment layer and the lower alignment layer .
The present invention provides a liquid crystal display device including a lower polarizer disposed on a lower surface of an insulating substrate, a pixel disposed on an upper surface facing the lower surface of the insulating substrate, a transistor disposed in each pixel, a pixel electrode connected to the transistor, Forming a lower substrate including a lower color filter layer and a lower alignment layer ; Forming a common electrode including IZO (Indium Zinc Oxide) on the upper polarizer facing the lower substrate to prevent damage to the polarizer; Forming an upper alignment layer on a surface of the common electrode facing the pixel electrode; Disposing a spacer between the upper alignment film and the lower alignment film; And disposing a liquid crystal layer between the upper alignment layer and the lower alignment layer. The present invention also provides a method of manufacturing a thin film transistor liquid crystal display using the polarizing plate.
The present invention provides a liquid crystal display device including a lower polarizer disposed on a lower surface of an insulating substrate, pixels arranged on an upper surface facing the lower surface of the insulating substrate, transistors arranged in each pixel, common electrodes connected to the transistors, pixel electrodes disposed slit-shaped, viewing of preparing a lower substrate including a color filter layer and the lower alignment film covering the color filter layer disposed on the pixel electrode, and the upper polarizing plate facing the lower substrate facing the pixel electrode Forming an upper alignment layer on the surface; Disposing a spacer between the upper alignment film and the lower alignment film; And disposing a liquid crystal layer between the upper alignment layer and the lower alignment layer . The present invention also provides a method of manufacturing a thin film transistor liquid crystal display using the polarizing plate.

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 Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a thin film transistor liquid crystal display (TFT-LCD) using a polarizing plate according to an embodiment of the present invention.

2, a liquid crystal display device using a polarizing plate and a method of manufacturing the same according to the present invention includes a TFT 3 and a pixel electrode (transparent electrode: ITO ) 4 are formed.

An R, G, and B color filters 7 are formed on each pixel through a mask process to form a color on the TFT 3 and the pixel electrode 4, and then an alignment film (not shown) for aligning the liquid crystal 9 5).

Then, a transparent electrode (common electrode) 6 and an orientation film 5 are sequentially formed on the lower surface of the upper polarizer 10 . Here, the transparent electrode may be made of a material such as IZO (In-Zn-Oxide) or ITO (Indium Tin Oxide). When the transparent electrode is formed on the polarizer of the polarizing plate (moisture protection layer + polarizer), the polarizing property of the polarizing plate can be protected from moisture, so that the characteristics of the polarizing plate can be kept constant. Here, the directions of the two polarizing plates are perpendicular to each other or horizontally arranged according to the operation mode of the liquid crystal.
On the other hand, in the present embodiment, the polarizing plate 10 needs to have sufficient mechanical strength because it functions as an upper substrate, and the polarizing plate 10 has to have a sufficient thickness so that the polarizing plate 10 has sufficient mechanical strength . In the present invention, the thickness of the polarizing plate 10 is a design element, and the thickness of the polarizing plate 10 can be found through an experiment or the like to find an optimal thickness.
Even if the thickness of the polarizing plate 10 is gradually increased to secure the mechanical strength of the polarizing plate 10 as described above, the common electrode 6 is formed on the polarizing plate 10 and the alignment film 5 The polarizing plate 10 is sufficiently supported and transported so as to prevent the polarizing plate 10 from being warped or bent so that the polarizing plate 10 is fixed by a method such as vacuum adsorption, The common electrode 6 and the alignment film 5 can be formed on the substrate 10.
In this state, in order to maintain a gap between the lower substrate and the upper substrate, a space (8) is dispersed to bond the two substrates, the liquid crystal (9) is injected through the injection port, LCD is manufactured.

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In the present invention, by forming the color filter 7 on the pixel electrode 4, the loss of the aperture ratio caused when the two glass substrates are bonded together can be suppressed to the utmost, and by using the polarizing plate as the upper substrate, It is possible to eliminate the process of attaching the polarizer, and at the same time, the cost can be reduced by not using the upper glass substrate.

In particular, by reducing the weight of LCD products, it is possible to secure product competitiveness in portable LCDs.

3 is a thin film transistor liquid crystal display (TFT-LCD) using a FFS (Fringe Field Switching) mode polarizing plate substrate according to another embodiment of the present invention. On the lower glass substrate, a TFT and a slit-type transparent electrode for a pixel and a common electrode are formed with an insulating film interposed therebetween.

2, an R, G, and B color filters 7 are formed on the TFT and the slit-type transparent electrodes for the pixels through a mask operation to form a color, To form an alignment film 5 for alignment of the liquid crystal 9.

Then, an alignment film 5 is formed on the upper substrate. That is, an FFS (Fringe Field Switching) or IPS (In-Plane-Switching) mode LCD does not require an upper electrode because an electrode is not formed on an upper substrate but an electrode is formed only on a lower substrate to operate a liquid crystal. The directions of the two polarizing plates are perpendicular to each other or horizontally arranged according to the operation mode of the liquid crystal.

In this state, a spacer 8 is scattered to maintain a gap between the lower substrate and the upper substrate, and the two substrates are bonded together, and the liquid crystal is injected and sealed through the injection port to manufacture an LCD.

Therefore, a color filter is simultaneously formed on the TFTs and the pixel electrodes of the respective pixels on the lower glass substrate, thereby preventing lowering of the aperture ratio and lowering of the contrast ratio caused when the two glass substrates are bonded together. By eliminating the process of attaching the polarizer, the weight of LCD can be reduced and the cost can be reduced.

As described above, the thin film transistor liquid crystal display (TFT-LCD) using the polarizing plate substrate according to the present invention has a color filter formed on the pixel electrode, so that the aperture ratio loss occurring when the two glass substrates are bonded together is maximized And the upper polarizer substrate can be removed by using the polarizer as an upper substrate. It is possible to achieve cost reduction by not using the upper glass substrate.

In addition, by reducing the weight of the product, the competitiveness of the product in the portable LCD can be ensured, and deterioration of the aperture ratio and contrast due to coincidence of the two substrates can be prevented and the image quality can be improved.

Claims (6)

A lower polarizer disposed on a lower surface of the insulating substrate, a pixel disposed on an upper surface facing the lower surface of the insulating substrate, a transistor disposed in each pixel, a pixel electrode connected to the transistor, A lower substrate including a filter layer and a lower alignment film covering the color filter layer; An upper polarizer plate facing the lower substrate; A common electrode disposed on a surface of the upper polarizer plate facing the pixel electrode and including IZO (Indium Zinc Oxide) for preventing damage to the upper polarizer substrate; An upper alignment layer disposed on a surface of the common electrode facing the pixel electrode; A spacer disposed between the upper alignment layer and the lower alignment layer; And And a liquid crystal layer interposed between the upper alignment layer and the lower alignment layer. A lower polarizer disposed on a lower surface of the insulating substrate, a pixel disposed on an upper surface opposite to the lower surface of the insulating substrate, a transistor disposed in each pixel, a common electrode connected to the transistor, A lower substrate including a slit-shaped pixel electrode, a color filter layer disposed on the pixel electrode, and a lower alignment film covering the color filter layer; An upper polarizer plate facing the lower substrate; An upper alignment layer disposed on a surface of the upper polarizer plate facing the pixel electrode; A spacer disposed between the upper alignment layer and the lower alignment layer; And And a liquid crystal layer interposed between the upper alignment layer and the lower alignment layer. A lower polarizer disposed on a lower surface of the insulating substrate, a pixel disposed on an upper surface facing the lower surface of the insulating substrate, a transistor disposed in each pixel, a pixel electrode connected to the transistor, A step of producing a lower substrate including a filter layer and a lower alignment layer ; Forming a common electrode including an IZO (Indium Zinc Oxide) on the upper surface of the upper polarizer plate facing the lower substrate to prevent damage to the upper polarizer substrate; Forming an upper alignment layer on a surface of the common electrode facing the pixel electrode; Disposing a spacer between the upper alignment film and the lower alignment film; And And disposing a liquid crystal layer between the upper alignment layer and the lower alignment layer. A lower polarizer disposed on a lower surface of the insulating substrate, a pixel disposed on an upper surface opposite to the lower surface of the insulating substrate, a transistor disposed in each pixel, a common electrode connected to the transistor, Fabricating a lower substrate including a slit-shaped pixel electrode, a color filter layer disposed on the pixel electrode, and a lower alignment layer covering the color filter layer ; Forming an upper alignment layer on a surface of the upper polarizer plate facing the lower substrate, the upper alignment layer facing the pixel electrode; Disposing a spacer between the upper alignment film and the lower alignment film; And And disposing a liquid crystal layer between the upper alignment layer and the lower alignment layer . delete delete

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