KR100719921B1 - Multi-domain Vertical Orientation Mode Liquid Crystal Display - Google Patents

Abstract

The present invention discloses a multi-domain vertical alignment mode liquid crystal display in which a plurality of domains for adjusting the viewing angle are selectively driven. In the multi-vertical alignment mode liquid crystal display device according to the present invention, the lower substrate and the upper substrate are bonded to each other under the intervening liquid crystal layer, and the sub-pixels and the sub-pixels are formed by gate lines and data lines arranged perpendicularly to the lower substrate. Domain regions within the subpixels are partitioned, and each of the subpixels has slits and protrusions for vertical alignment of the liquid crystal, and the slits and protrusions have different directions for each domain region partitioned within one subpixel so as to improve a viewing angle. Are arranged such that multiple domains are formed, and in each of the domains, thin film transistors for switching each are formed, and at the first stage to which the gate signal of each gate line is applied, for selectively activating the thin film transistors formed in each domain. Switching elements are installed and formed in one subpixel And it characterized in that a number of domains to be selectively driven.

Description

Multi domain vertical alignment mode LCD

1 is a view for explaining the arrangement of the projections and slits in the multi-domain vertical alignment mode liquid crystal display according to the present invention.

2 is a view for explaining a pixel structure of a multi-domain vertical alignment mode liquid crystal display according to the present invention;

3 is a view for explaining a driving method of a multi-domain vertical alignment mode liquid crystal display according to the present invention;

Explanation of symbols on the main parts of the drawings

1: lower substrate 2: slit

3: upper substrate 4: protrusion

10: liquid crystal layer 22a, 22b: gate signal line

24: data signal lines 26a, 26b: pixel electrodes

TFT1, TFT2: Thin Film Transistor SP: Subpixel

The present invention relates to a liquid crystal display device, and more particularly, to a multi-domain vertical alignment mode liquid crystal display device in which a plurality of domains for adjusting the viewing angle are selectively driven.

Vertical alignment (VA) mode liquid crystal display has been proposed to improve the low viewing angle and response speed characteristics of a twist nematic mode liquid crystal display.

Although not shown, the VA mode liquid crystal display forms a protrusion for vertically aligning liquid crystals having negative dielectric anisotropy, and the long axis direction of the liquid crystal is perpendicular to the lower and upper substrate directions before the electric field is applied. It is oriented and drives in Normally Black (NB) mode, where light from the backlight does not pass through the panel. When an electric field is applied, liquid crystals oriented perpendicular to the lower substrate and the upper substrate are arranged perpendicular to the direction of the electric field applied to the substrate, whereby the light of the backlight passes through the panel.

However, the VA mode liquid crystal display device has refractive index anisotropy in relation to that the liquid crystal is rod-shaped, whereby the screen images are different from each other depending on the viewing angle. For example, before the electric field is formed, the liquid crystals are all lined up perpendicularly to the substrate, so that the liquid crystals are completely dark at the front of the screen, but light leaks from the side to degrade the image quality.

Accordingly, various structures for improving the viewing angle of VA mode liquid crystal display devices by aligning liquid crystals in two or four directions by distorting the electric field have been proposed. For example, a multi-domain VA (hereinafter referred to as MVA) mode liquid crystal display has been proposed. The MVA mode liquid crystal display device realizes a wide viewing angle by forming multiple domains by changing the direction of the projections so that the directions of the liquid crystals are also different from each other.

By the way, the proposed MVA mode liquid crystal display device is useful for a large display device requiring a wide viewing angle, but in a mobile display device requiring personal supplementation such as banking or payment, it is necessary to adjust the viewing angle.

Therefore, a liquid crystal display device having a variable viewing angle capable of adjusting the viewing angle has been proposed in Korean Patent Laid-Open Publication No. 2004-00056668 and Korean Patent Laid-Open Publication No. 2004-0052121.

However, although not shown and described, the liquid crystal display devices disclosed in the above publications form a separate liquid crystal layer above or below the lower substrate and the upper substrate formed for the screen display, so that they serve as a light collecting plate or a compensation film. Since the liquid crystal layer is controlled by switching each liquid crystal layer independently, it is necessary to form a liquid crystal layer using another substrate above or below the previously formed liquid crystal layer. There are various problems such as the load and the amount of transmitted light is small.

Accordingly, the present invention has been made to solve the above-described problems, and provides an MVA mode liquid crystal display device that can solve the inconvenience caused by having to individually drive each domain formed to implement a wide viewing angle. There is a purpose.

In order to achieve the above object, the present invention, the lower substrate and the upper substrate is formed by the bonding between the liquid crystal layer, the sub-pixel and the sub-pixel by the gate line and the data line arranged perpendicular to the lower substrate Domain regions within pixels are partitioned, and each of the subpixels has slits and protrusions for vertical alignment of the liquid crystal, and the slits and protrusions are divided in different directions for each domain region partitioned within one subpixel so that a viewing angle is improved. Arranged to form multiple domains, wherein each of the domains is formed with a thin film transistor for switching each switch, and a switching for selectively activating the thin film transistors formed in each domain at the first stage to which the gate signal of each gate line is applied. Multiple elements formed in one subpixel An MVA mode liquid crystal display device is characterized in that the domain is selectively driven.

In addition, the present invention, the lower substrate having a slit and the upper substrate having a projection is formed by bonding between the liquid crystal layer, the sub-pixel and the above by a gate line and a data line arranged perpendicular to the lower substrate Domain regions within sub-pixels are partitioned, and each of the sub-pixels has the slits and protrusions for vertical alignment of liquid crystals, and the slits and protrusions are respectively located in the domain regions partitioned within one sub-pixel so that the viewing angle is improved. It is arranged in the / down direction and left / right direction is formed so that two domains are formed, each of the thin film transistor for switching each is formed, the first end of the gate signal of each gate line is applied up / down direction Selectively activate the thin film transistor formed in the domain of the thin film transistor formed in the domain of the left and right direction Provided is an MVA mode liquid crystal display device in which a lock switching element is provided so that two domains formed in one subpixel are selectively driven.

(Example)

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

First, briefly describing the present invention, the present invention allows each of several domains in a subpixel formed to implement a wide viewing angle to be selectively driven. In this case, the present invention can selectively drive a plurality of domains, thereby simplifying the structure and driving of the liquid crystal display device while facilitating adjustment of the viewing angle as compared with the prior art in which several domains must be individually driven. In addition, the conventional problems, such as lower power consumption can be improved.

In detail, FIGS. 1 to 3 are views for explaining the MVA mode liquid crystal display device according to the present invention. Here, the direction of the protrusions or slits formed to implement the wide viewing angle is presently presented in various ways, but in the present invention, for convenience of explanation and understanding, the domains of the protrusions and slits in which the protrusions and slits are formed The case will be described as an example.

1 is a view for explaining the arrangement of the projections and slits in the MVA mode liquid crystal display according to the present invention.

As shown, one sub pixel SP is divided into two regions, and in each region, slits 2 and protrusions 4 are formed to achieve vertical alignment of the liquid crystal. In this case, the slit 2 is formed on the lower substrate 1, and the protrusions 4 are formed on the upper substrate 3, respectively, and the slits 2 and the projections 4 are different from each other. Orientation, for example, in the upper region in the horizontal direction, and in the lower region in the vertical direction to implement two domains to increase the visibility of the up / down direction and left / right direction. In FIG. 1, reference numeral 10, which is not described, denotes a liquid crystal layer.

2 is a view for explaining the pixel structure of the MVA mode liquid crystal display device according to the present invention.

As shown in the drawing, the gate lines 22a and 22b and the data line 24 are vertically intersected to define subpixels and domain regions within the subpixels, and the gate lines 22a and 22b and the data lines ( Thin film transistors TFT1 and TFT2 are formed at each intersection portion between the two transistors 24, and each thin film transistor (TFT1, TFT2) is formed in the subpixel having two domain regions defined by the gate lines 22a and 22b and the data line 24. Pixel electrodes 26a and 26b are formed in contact with TFT1 and TFT2.

In other words, in the MVA mode liquid crystal display of the present invention, one subpixel includes two domains, one for increasing visibility in up / down directions and one for increasing visibility in left and right directions. Two thin film transistors TFT1 and TFT2 are formed in one subpixel to switch each. Accordingly, one subpixel further includes a gate line 22a defining a domain, two gate lines 22a and 22b, two thin film transistors TFT1 and TFT2 and two pixel electrodes 26a and 26b. It includes. The pixel electrodes 26a and 26b of each region of the subpixel divided into two regions are selectively switched by the corresponding thin film transistors TFT1 and TFT2. At this time, each region is formed with a slit and a projection in different directions for each region to form a multi-domain.

3 is a view for explaining a driving method of the MVA mode liquid crystal display according to the present invention.

As shown, in the MVA mode liquid crystal display according to the present invention, one sub-pixel is composed of two domains: a domain for visibility in up / down direction and a domain for visibility in left / right direction. Thin film transistors TFT1 and TFT2, which are switching elements, are formed in each domain of the sub-pixel for switching. First, when a viewing angle such as up / down / left / right is required, one of the scanning signals is applied through a gate line. Activates both of the thin film transistors TFT1 and TFT2 constituting the sub-pixel of the display to display the screen. Then, if the user wants to reduce the left / right viewing angle, the thin film transistor included in the domain formed for the left / right viewing angle is displayed. If you want to turn off (TFT1) and reduce the upper and lower viewing angles, turn off the TFT (TFT2) included in the domain formed for the upper and lower viewing angles. Thereby.

In this case, separate thin film transistors TFT3 and TFT4 are formed as a switch element at the beginning of the gate line to selectively switch the domain for the upper / lower viewing angle and the domain for the left / right viewing angle. The gate lines of the transistors TFT1 and TFT2 are connected to domains having the same liquid crystal alignment direction so that two domains in the subpixel can be controlled respectively.

In this case, the respective domains formed to improve visibility of the up / down direction and the left / right direction can be selectively driven, and the present invention simplifies the structure and driving of the liquid crystal display device while facilitating adjustment of the viewing angle. You can.

In the above, the present invention has been described taking the case of the domain in which the projections and slits are formed in the up / down direction and the left / right direction for convenience of explanation and understanding, but the projections in various directions other than the up / down and left / right directions. And a slit, in which case, one subpixel constitutes two or more multiple domains, and each domain is provided with a thin film transistor for switching the corresponding domain including a gate line, and each Switching elements are respectively provided at the first stage of the gate signal to which the gate signal is applied to selectively drive the plurality of domains formed in one subpixel by selectively activating the thin film transistors formed in each domain.

As mentioned above, although the present invention has been illustrated and described with reference to specific embodiments, the present invention is not limited thereto, and the following claims are not limited to the scope of the present invention without departing from the spirit and scope of the present invention. It can be easily understood by those skilled in the art that can be modified and modified.

As described above, the present invention allows the domains formed to implement the wide viewing angle to be selectively switched, thereby simplifying the adjustment of the viewing angle and simplifying the structure and driving of the liquid crystal display. Therefore, the present invention can advantageously apply the MVA mode liquid crystal display device of the present invention to a mobile display device or a display device for protecting information or personal privacy in a bank.

Claims (6)

The lower substrate and the upper substrate are bonded to each other under the interposition of the liquid crystal layer, and the subpixels and domain regions within the subpixels are divided by gate lines and data lines arranged perpendicularly to the lower substrate. Slits and protrusions are provided for vertical alignment of the liquid crystal, and the slits and protrusions are arranged in different directions for each domain region partitioned within one subpixel so as to improve a viewing angle, thereby forming multiple domains. Thin film transistors for switching each are formed, and a switching element for selectively activating the thin film transistors formed in each domain is provided at the first stage where the gate signal of each gate line is applied. Is selectively driven A multi-domain vertically aligned mode liquid crystal display device. The liquid crystal display of claim 1, wherein the protrusions and the slits are arranged in up / down directions and left / right directions in one subpixel. The liquid crystal display of claim 1, wherein the protrusion is provided on an upper substrate, and the slit is provided on a lower substrate. delete The lower substrate with slits and the upper substrate with protrusions are bonded to each other under the interposition of the liquid crystal layer, and the subpixels and domain regions in the subpixels are formed by gate lines and data lines arranged perpendicularly to the lower substrate. Each subpixel is provided with the slits and the projections for vertical alignment of the liquid crystal, and the slits and the projections are respectively divided into up / down directions and left / right in a domain region partitioned within one subpixel so that a viewing angle is improved. Thin film transistors are formed to be arranged in the right direction so that two domains are formed, and each of the domains is formed with a thin film transistor for switching each. Switching element to selectively activate the thin film transistor formed in the domain of the left and right direction And a plurality of domains formed in one subpixel to be selectively driven. delete

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