KR20060037652A - Display device and driving method thereof - Google Patents

Abstract

The present invention provides an image display device including a barrier driven to display a stereoscopic image as well as a plain image.

An image display apparatus according to the present invention includes a display panel displaying an input first image or a second image, and a barrier disposed in front of the display panel. The barrier is alternately arranged with a blocking region through which light is transmitted or blocked and a transmission region through which light is transmitted, based on an image displayed on the display panel, and the blocking region is formed of a liquid crystal having a memory function for a molecular array state.

Stereoscopic image, binocular parallax, barrier, memory function

Description

Image display device and driving method thereof

1 is a view schematically showing a stereoscopic image display apparatus using a conventional barrier method.

2 is a diagram schematically illustrating a configuration of an image display apparatus 100 according to a first embodiment of the present invention.

3 is a graph showing a voltage applied to the ITO 133 of the barrier 130 by the barrier driver 140 when a stereoscopic image is displayed on the LCD 110.

4 is a diagram schematically illustrating a configuration of an image display apparatus 200 according to a second embodiment of the present invention.

FIG. 5 is a graph showing a voltage applied from the barrier driver 240 to the ITO 233 of the barrier 230 when a stereoscopic image is displayed on the LCD 210.

The present invention relates to an image display device and a driving method thereof, and more particularly, to an image display device and method for displaying a stereoscopic image using a liquid crystal display panel and a liquid crystal barrier using a color field sequential method.

In general, there are physiological and empirical factors in which a person feels a three-dimensional effect, and in three-dimensional image display technology, a three-dimensional effect of an object is generally determined by using a binocular parallax, which is the biggest factor that recognizes a three-dimensional effect at a short distance. Will feel.

As a method of viewing a stereoscopic image, there are largely a method of wearing glasses and a glasses-free method of not wearing glasses.

The way of wearing glasses is the anaglyph method using blue and red sunglasses on both eyes, the polarization method using polarized glasses with different polarization directions, and the time-divided screen is periodically repeated and synchronized with this cycle. There is a time-division method of wearing glasses with an electronic shutter. However, the method of wearing glasses has problems such as inconvenience of wearing glasses and trouble in observing an object other than an image while wearing glasses. Therefore, in recent years, researches on how not to wear glasses have been actively conducted.

Representatives known as a glasses-free method that do not wear glasses include a lenticular method in which a lenticular lens plate in which a cylindrical lens array is vertically arranged in front of the display panel, and a left and right eye using a barrier. There is a barrier method that separates an image to produce a stereoscopic effect.

1 is a view schematically showing a stereoscopic image display apparatus using a conventional barrier method.                         

As shown in FIG. 1, the stereoscopic image display apparatus 10 includes a display panel 13 and a barrier 11.

A barrier 11 formed by repeatedly arranging the opaque regions 11-1 and the transparent regions 11-2 is disposed on the front surface of the display panel 13. The display panel 13 is composed of a right eye correspondence pixel 13-1 seen by the right eye and a left eye correspondence pixel 13-2 shown by the left eye.

The observer sees an image displayed on the display panel 13 through the transparent region 11-2 of the barrier 11, and the left eye 15 and the right eye 14 of the observer see the same transparent region 11-2. Even if it passes, the different areas of the display panel 13 are viewed. That is, the observer makes the left eye and the right eye see the image displayed on the pixels of the adjacent areas through the transparent area 11-2, so that the viewer feels the three-dimensional effect. In this way, the left eye image is displayed in the left eye region of the display panel, the right eye image is displayed in the right eye region, and the observer views the left eye image and the right eye image at the same time through the slit of the barrier.

The display device using such a barrier method has not been widely used as a display device because it is mainly used as a display device for stereoscopic images. Therefore, in order to use a barrier type display device widely, a barrier capable of displaying both a plain image and a stereoscopic image is urgently required.

An object of the present invention for solving the above problems is to provide an image display device including a barrier driven to display not only a stereoscopic image but also a flat image.

Another object of the present invention is to provide an image display device including a barrier that can be driven with a small power.

According to an aspect of the present invention for solving the above technical problem,

A display panel displaying an input first image or a second image; And

And a blocking area through which light is transmitted or blocked and a transmission area through which light is transmitted are alternately arranged based on an image displayed on the display panel, wherein the blocking area is a memory for a molecular array state. And a barrier made of liquid crystal having a function.

The display device may further include a barrier driver configured to change a molecular arrangement state of the blocking region after any one of the first image and the second image is displayed and immediately before the other one is displayed.

After the first image is displayed, the blocking area blocks light immediately before the second image is displayed, and after the second image is displayed, the blocking area may transmit light just before the first image is displayed. The barrier may be a normal white liquid crystal panel, the first image may be a planar image, and the second image may be a stereoscopic image.

The liquid crystal having the memory function may be at least one of a group consisting of a bistable liquid crystal, a cholesteric liquid crystal, a ferroelectric liquid crystal, and the like.                     

A driving method of an image display device according to another aspect of the present invention is a driving method of an image display device displaying a first image or a second image by using a liquid crystal barrier,

a) displaying the first image;

b) changing the arrangement of liquid crystal molecules of the barrier;

c) displaying the second image;

d) restoring the arrangement state of the liquid crystal molecules of the barrier; And

e) displaying the first image.

Step b) may change the arrangement of the liquid crystal molecules of the first region of the barrier so that the first region blocks light.

The barrier may be a normal white liquid crystal panel, and at least the liquid crystal of the first region may be a liquid crystal having a memory function.

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

2 is a diagram schematically illustrating a configuration of an image display apparatus 100 according to a first embodiment of the present invention. The display device 100 is a flat stereoscopic stereoscopic display device capable of displaying a planar image or a stereoscopic image using a barrier.

In detail, the display device 100 includes an LCD 110, a display panel driver 120 driving the LCD, a barrier 130, and a barrier driver 140.

The LCD 110 displays a planar image or a stereoscopic image. In the present embodiment, a liquid crystal display device is used as a display panel for displaying a planar or stereoscopic image. However, the present invention is not limited to the liquid crystal display device, and any display panel capable of displaying an image can be used.

The display panel driver 120 generates a driving signal including an image data signal so as to be displayed on the LCD 110 by processing an input image input from the outside and outputs the driving signal to the LCD 110. In addition, the display panel driver 120 transmits information on whether the displayed image is a planar image or a stereoscopic image to the barrier driver 140.

The barrier 130 performs transmission or shutting of an image using a molecular array of twisted nematic (TN) liquid crystals. Specifically, the liquid crystal has a molecular arrangement that changes depending on the applied voltage, and thus the birefringence, light visibility, dichroism, and light scattering properties occur depending on the molecular arrangement. This light modulation effect is used to transmit or shut down the image. Accordingly, in the barrier 130, the blocking region 131 and the transmission region 132 having a normal white state are alternately arranged. In addition, when the ITO 133 is provided with the ITO 133 and the voltage is applied to the blocking region 131, the molecular arrangement of the liquid crystal is changed, and the light is blocked without passing through the light.

The barrier driver 140 generates a driving signal for controlling the blocking and opening of the blocking region 131 of the barrier 130 based on the input image. That is, the barrier driver 140 opens the blocking region 131 of the barrier 130 when the flat image is displayed on the LCD 110 so that the flat image displayed on the LCD 110 is the blocking region 131 and the transmissive region. It is driven to pass through 132 to be displayed as it is. In addition, when the stereoscopic image is displayed on the LCD 110, the barrier driver 140 blocks the blocking region 131 so that the image displayed on the LCD 110 passes through only the transmission region 132. That is, when the planar image is displayed on the LCD 110, the barrier driver 140 does not apply a voltage to the ITO 133 of the barrier 130 so that the blocking region 131 maintains the normal white color. The image displayed on the screen passes through both the blocking area 131 and the transmission area 132. When the stereoscopic image is displayed, the barrier driver 140 applies a voltage to the ITO 133 of the barrier 130 to change the liquid crystal molecular arrangement of the blocking region 131 to block the blocking region 131 so that the LCD 110 is blocked. Allow the image displayed on to pass through only the transmission area 132.

3 is a graph showing a voltage applied to the ITO 133 of the barrier 130 by the barrier driver 140 when a stereoscopic image is displayed on the LCD 110.

While the stereoscopic image is displayed, the inverted voltages V _in and -V _in are continuously applied to the ITO 133 of the blocking region 131 as shown in FIG. 3. According to the first embodiment, since the barrier 130 uses TN liquid crystal, a frequency of 100 Hz or more is applied to the ITO 133 in order to change the liquid crystal molecular array of the blocking region 131 so that light does not pass. Voltage must be applied continuously. Accordingly, the image display apparatus 100 according to the first embodiment has a problem that power consumed while displaying a stereoscopic image is inevitably increased.

Next, an image display device according to a second exemplary embodiment of the present invention will be described with reference to FIGS. 4 and 5.

The second embodiment of the present invention differs from the first embodiment in that it includes a barrier using a liquid crystal having a memory function to reduce power consumption.

4 is a diagram schematically illustrating a configuration of an image display apparatus 200 according to a second embodiment of the present invention.

In detail, the display device 200 includes an LCD 210, a display panel driver 220 for driving the LCD 210, a barrier 230, and a barrier driver 240.

The LCD 210 displays a planar image or a stereoscopic image.

The display panel driver 220 generates a driving signal including an image data signal so as to be displayed on the LCD 210 by processing an input image input from the outside and outputs the driving signal to the LCD 210. In addition, the display panel driver 220 transmits information on whether the displayed image is a planar image or a stereoscopic image to the barrier driver 240.

The barrier 230 performs transmission or blocking of an image by using a molecular array of a liquid crystal having a memory function instead of the TN liquid crystal. Here, the liquid crystal having a memory function refers to a liquid crystal that maintains the molecular array state as it is after applying a voltage to convert the molecular arrangement state of the liquid crystal until a predetermined voltage is applied again. Such liquid crystals include bistable liquid crystals, cholesteric liquid crystals, ferroelectric liquid crystals, and the like. The barrier 230 is alternately arranged with a blocking region 231 and a transmission region 232 having a normal white state. In addition, the ITO 233 is provided in the blocking region 231, and when a voltage is applied to the ITO 233, the molecular arrangement of the liquid crystal is changed and the light is blocked without passing through the ITO 233.

The barrier driver 240 generates a driving signal for controlling the blocking and opening of the blocking region 231 of the barrier 230 based on the input image. That is, the barrier driver 240 opens the blocking area 231 of the barrier 230 when the flat image is displayed on the LCD 210 so that the flat image displayed on the LCD 210 is the blocking area 231 and the transmissive area. Drive through display 232 as it is. In addition, when the stereoscopic image is displayed on the LCD 210, the barrier driver 240 blocks the blocking region 231 so that the image displayed on the LCD 210 passes through the transmission region 232. That is, when the planar image is displayed on the LCD 210, the barrier driver 240 does not apply a voltage to the ITO 233 of the barrier 230 so that the blocking region 231 maintains the normal white color. The image displayed on the screen passes through both the blocking area 231 and the transmitting area 232. After the planar image is displayed and before the stereoscopic image is displayed, the barrier driver 240 applies a predetermined conversion voltage to the ITO 233 of the barrier 230 to change the liquid crystal molecular array of the blocking region 231 to display the blocking region ( By blocking 231, the image displayed on the LCD 210 passes through only the transmission region 232. In addition, a predetermined reset voltage is applied to the ITO 233 of the barrier 230 after the stereoscopic image is displayed, and the liquid crystal molecular array of the blocking region 231 is returned to the original normal white.

FIG. 5 is a graph showing a voltage applied from the barrier driver 240 to the ITO 233 of the barrier 230 when a stereoscopic image is displayed on the LCD 210.

In the image display apparatus 200 according to the second exemplary embodiment of the present invention, when a planar image is displayed on the LCD 210 and converted into a stereoscopic image, the image display apparatus 200 of the barrier region 231 of the barrier 230 as shown in FIG. In order to change the liquid crystal molecular array, a conversion voltage is applied to the ITO 233 for a time t1.                     

Since the barrier 230 uses a liquid crystal having a memory function, once a predetermined conversion voltage is applied to the ITO 233 of the blocking region 231 of the barrier 230, the liquid crystal molecules of the blocking region 231 are applied. It is rearranged according to the converted voltage so that light cannot pass through. In addition, since the liquid crystal has a memory function, once it is rearranged, the arrangement state is memorized and the rearranged state is maintained. Next, when the 3D image is displayed and the planar image is to be displayed again, a predetermined reset voltage is applied to the ITO 233 of the barrier 230 for a time t2 immediately before the data signal of the planar image is applied. The liquid crystal molecular array state of the blocking region 231 of the barrier 230 is returned to the original normal white.

Therefore, according to the second exemplary embodiment of the present invention, the predetermined conversion voltage and the reset voltage are applied for a predetermined time t1 and t2 in order to block or open the blocking region 231 of the barrier 230. Compared with the example, the power consumption can be significantly reduced.

Although the preferred embodiment of the present invention has been described in detail above, the present invention is not limited thereto, and various other changes and modifications are possible. For example, in the embodiment of the present invention, the left eye and the right eye pixels are each composed of one pixel, but the present invention is not limited thereto, and each of the left and right eye pixels may be divided into two subpixels and three or more subpixel units. The shape may also be a stripe type in which the centers of the transparent regions of the barrier coincide with each other in the row direction, or a zigzag type in which the centers of the transparent regions of the barrier do not coincide in the row directions. In addition, the case where the barrier is disposed on the front of the display panel has been described. However, the barrier may be disposed on the rear surface of the display panel because the barrier is disposed on the surface where the image is displayed. Therefore, the scope of the present invention is not limited to the same structure as the embodiments described above, but various modifications and improvements of those skilled in the art using the basic concept of the present invention defined in the claims also belong to the scope of the present invention. .

According to the present invention, the image display device may display a planar image or a stereoscopic image by driving a barrier using liquid crystal.

In addition, by using a barrier made of a liquid crystal having a memory function such as bistable liquid crystal, cholesteric liquid crystal, ferroelectric liquid crystal, and the like, power consumption for barrier driving can be significantly reduced. In addition, power consumption of the entire display device can be reduced.

Claims (9)

In the video display device, A display panel displaying an input first image or a second image; And A blocking area through which light is transmitted or blocked and a transmission area through which light is transmitted are alternately arranged based on an image displayed on the display panel, and the blocking area is a memory for a molecular array state An image display device comprising a barrier made of liquid crystal having a function. The method of claim 1, And a barrier driving unit configured to change a molecular arrangement state of the blocking region after any one of the first image and the second image is displayed, but before the other one is displayed. The method of claim 2, After the first image is displayed, but before the second image is displayed, the blocking area blocks light. And the blocking area transmits light after the second image is displayed and immediately before the first image is displayed. The method of claim 3, And the barrier is a normal white liquid crystal panel. The method of claim 4, wherein The first image is a planar image, and the second image is a stereoscopic image. The method of claim 1, The liquid crystal having the memory function is at least one of a group consisting of a bistable liquid crystal, a cholesteric liquid crystal, a ferroelectric liquid crystal, and the like. A driving method of an image display apparatus displaying a first image or a second image by using a liquid crystal barrier, a) displaying the first image; b) changing the arrangement of liquid crystal molecules of the barrier; c) displaying the second image; d) restoring the arrangement state of the liquid crystal molecules of the barrier; And e) displaying the first image Method of driving a video display device comprising a. The method of claim 7, wherein B) changing the arrangement state of liquid crystal molecules of the first region of the barrier so that the first region blocks light. The method of claim 8, And the barrier is a normal white liquid crystal panel, and at least the liquid crystal in the first region is a liquid crystal having a memory function.

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