KR100747290B1 - Residual image reduction apparatus and method thereof of liquid crystal display - Google Patents

Abstract

An afterimage reduction apparatus and a method of a liquid crystal display device for reducing an afterimage of a liquid crystal display device by up-converting the frequency of an input frame are provided. The afterimage reduction device of the liquid crystal display includes a frame storage unit which stores an input frame; A frame frequency converter configured to up-convert the input frame frequency of the input frame with reference to the input frame of the frame storage unit, and output an output frame at the up-converted output frame frequency; And a frame modification unit configured to deform the output frame of the frame frequency converter and output the modified frame, wherein the input frame is composed of two or more modified frames.

LCD, frame frequency, afterimage, motion blur

Description

Device and method for reducing afterimage of liquid crystal display {Device and metheod for reducing Motion Blur in Liquid Crystal Display}

FIG. 1 illustrates a motion blur in response to a slow reaction speed of a liquid crystal in a liquid crystal display.

2 shows a conventional method of increasing the frame frequency to improve afterimage phenomenon.

3 shows a conventional method of increasing a frame frequency by inserting a black screen.

4 shows a conventional method of raising the frame frequency using a motion vector.

5 illustrates a method of increasing frame frequency by using a modified frame according to an embodiment of the present invention.

6 illustrates a specific example of FIG. 5.

7 is a configuration diagram of an afterimage reduction device of a liquid crystal display according to an exemplary embodiment of the present invention.

8 is a block diagram of an afterimage reduction device of a liquid crystal display according to another exemplary embodiment of the present invention.

The present invention relates to an afterimage reduction device of a liquid crystal display and a method thereof.
Liquid crystal display (LCD) is a liquid crystal (liquid crystal) liquid crystal (liquid crystal) is a state in which the liquid crystal (Liquid Crystal) is arranged in a regular state like a crystal, using the property that the molecular arrangement changes by an external electric field It is made of a display device.

Liquid crystals have a slow rotation with respect to an input signal, so if data voltage changes quickly in a fast moving image signal, the pixel is not driven normally. Leaves afterimages. When displaying an image having such a fast movement, the liquid crystal does not keep up with the response speed is called a motion blur.

FIG. 1A illustrates a response of a liquid crystal to a voltage of an input signal. As shown in FIG. 1A, it can be seen that the response of the input signal to the voltage input is late, which is an inherent characteristic of the liquid crystal. FIG. 1C illustrates that when the image of FIG. 1B is moved by 12 pixels per frame, the display is distorted due to the late response time of the liquid crystal.

In the prior art, there is a method of increasing the frame frequency as a method for reducing the afterimage phenomenon caused by the late response time of the liquid crystal.

FIG. 2 (a) generally shows the amount of afterimage phenomenon when driving the frame frequency at 60 Hz. When the image moves, the human eye follows the image, so that the cumulative value of light perceived by the human retina with respect to the boundary of the image is not clear as shown in FIG.

As a method for reducing such an afterimage phenomenon, a 120 kHz driving method is used, doubling the frame frequency as shown in FIG. Driving at a frame frequency of 120 kHz indicates 120 frames, not 60 frames per second.

When driving at the frame frequency of 120 Hz shown in FIG. 2B, the boundary of the image becomes relatively clear as compared with FIG. 2A, and the afterimage shape is reduced.

The way to reduce the afterimage phenomenon by increasing the frame frequency is to insert a new frame between the existing 60kHz frame.

Conventionally, a method of increasing the frame frequency includes (1) inserting a black screen into a new frame or (2) creating a new frame using a motion vector (direction and amount of change) in a new frame. There is something to make.

3 is a diagram illustrating a method of inserting a black screen into a new frame.

Figure 3 (a) shows a frame when driven at a frame frequency of 60 Hz, Figure 3 (b) is driven at a frame frequency of 120 kHz, a black screen on a newly added frame (Black Data) The frame in the case of inserting is shown.

As such, the method of creating and adding a black screen has an advantage of being easy to implement and of removing an afterimage phenomenon, but since the human eye recognizes the cumulative value of light, the overall brightness is lowered by 30% or more. There are disadvantages.

4 illustrates a method of creating and adding a new frame using a motion vector.

FIG. 4 (a) shows a frame when driven at a frame frequency of 60 Hz, and FIG. 4 (b) measures a motion vector of an incoming video sequentially, predicts the next video, and displays a virtual video. Create and insert between existing frames.

However, this method has a disadvantage in that a perfect implementation of all images is difficult.

An object of the present invention is to provide an afterimage reduction apparatus and method of a liquid crystal display device in which the overall brightness is maintained while increasing the frame frequency.

Another object of the present invention is to provide an afterimage reduction apparatus and method of a liquid crystal display device capable of perfectly spherical shape for all images while increasing the frame frequency.

It is still another object of the present invention to provide an afterimage reduction apparatus and method for a liquid crystal display device capable of modifying a deformation value with a degree of freedom for deformation of a frame while increasing a frame frequency, thereby allowing gamma correction or brightness adjustment by adjusting a deformation value. have.

According to another aspect of the present invention, there is provided an afterimage reduction device of a liquid crystal display, including: a frame storage unit configured to store an input frame; A frame frequency converter configured to up-convert an input frame frequency of the input frame with reference to the input frame of the frame storage unit, and output an output frame at an up-converted output frame frequency; And deforming the output frame of the frame frequency converter and outputting a deformed frame, wherein the input frame comprises a combination of two or more of the deformed frames.

The apparatus may further include an output unit configured to output the modified frame at the output frame frequency.

Here, the frame frequency converter is configured to output the output frame frequency by doubling the input frame frequency twice.

Here, the afterimage reduction apparatus of the liquid crystal display receives an nth input frame and generates an mth transform frame and an m + 1th transform frame in the frame deformation unit, and the mth transform frame and the m + 1th transform frame. Combining the frames is characterized in that the n-th input frame.

Herein, when the input frame frequency is 50 Hz or 60 Hz, the frame frequency converter is configured to output the output frame frequency at 100 Hz or 120 Hz by doubling the input frame frequency by twice.

The frame deformer may include a lookup table for converting the input frame into the deformed frame.

The frame deformer may include gamma correction data for converting the input frame into the deformed frame.

On the other hand, the afterimage reduction apparatus of the liquid crystal display according to the present invention, the frame deformation unit for deforming the input frame, and outputs the modified frame; A frame storage unit which stores the deformed frame; A frame frequency converter configured to up-convert an input frame frequency of the input frame with reference to the modified frame of the frame storage unit, and output the modified frame at an up-converted output frame frequency; The input frame is characterized by consisting of two or more of the modified frame.

Here, the frame frequency converter may output the output frame frequency by doubling the input frame frequency twice.

Here, the afterimage reduction apparatus of the liquid crystal display receives an nth input frame and generates an mth modified frame and an m + 1th modified frame in the frame deformation unit, and the mth modified frame and the m + 1th modified frame. When synthesized is characterized in that the n-th input frame.

Herein, when the input frame frequency is 50 Hz or 60 Hz, the frame frequency converter is configured to output the output frame frequency at 100 Hz or 120 Hz by doubling the input frame frequency by twice.

The frame deformer may include a lookup table for converting the input frame into the deformed frame.

The frame deformer may include gamma correction data for converting the input frame into the deformed frame.

On the other hand, in the afterimage reduction method of the liquid crystal display according to the present invention, in the afterimage reduction method of the liquid crystal display device, the frame frequency is up-converted to deform the input frame into two or more modified deformation frames, and the two or more deformations. The sum of the modified frames is the input frame.

The modified frame is characterized in that the input frame is deformed by a lookup table for modifying the input frame.

The modified frame is characterized in that the input frame is deformed by gamma correction data for modifying the input frame.

Hereinafter, an afterimage reduction apparatus and a method of a liquid crystal display according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

(1) Reduction method of afterimage of liquid crystal display device

According to an exemplary embodiment of the present invention, in order to reduce an afterimage shape caused by a late response time of a liquid crystal in a liquid crystal display, an input frame frequency of an input input frame is increased, and a frame according to an existing input frame frequency is deformed. The present invention relates to a method for reducing the afterimage of a liquid crystal display device in which the input frame frequency is up-converted to deform the frame data when the input frame frequency is synthesized with the inserted frame.

Increasing the input frame frequency increases the number of frames processed per unit time by twice or three times the input frame frequency.

In the embodiment of the present invention, when the input frame frequency is 60 kHz by doubling the frame frequency, the frame frequency is driven by 120 kHz by doubling it. If the input frame frequency is 50 kHz, the frame frequency is increased to 100 kHz.

When the input frame frequency is doubled, the input frame is output as two frames. In other words, one input frame is generated with two output frames.

Generating two output frames uses a method in which two output frames are combined to generate one input frame.

Figure 5 shows a driving method according to this embodiment of the present invention.

Figure 5 (a) shows a conventional drive at a frame frequency of 60 Hz, Figure 5 (b) shows a drive at a frame frequency of 120 kHz according to the present invention.

As shown in FIG. 5, the T-1 frame of FIG. 5A is divided into the T-1 and T-1 / 2 frames of FIG. 5B. The T frame of FIG. 5A is divided into T and T + 1/2 frames of FIG. 5B. The T + 1 frame of FIG. 5A is divided into the T + 1 and T + 1 + 1/2 frames of FIG. 5B.

FIG. 6 illustrates a specific example of FIG. 5, when driven at a frame frequency of 120 Hz according to an embodiment of the present invention, 120 for the n th input frame and the n th input frame at 60 Hz; The relationship between the m th frame and the m + 1 th frame in FIG.

In driving the frame frequency from 60 Hz to 120 Hz, FIG. 6 (a) applies gamma correction (Gamma 2.0) to FIG. 6 (c) which is the nth input frame which is the original input image at 60 Hz. The m-th frame of 120 ms is displayed instead.

The sum of the m + 1th frame of FIG. 6B is the sum of the mth frame of FIG. 6A and the m + 1th frame of FIG. 6B, and the nth frame of FIG. The n-th frame of FIG. 6C is modified to be displayed.

In the conventional case, when the frame frequency is increased, the original frame is transformed into two frames, unlike the original frame being changed using only black data or a motion vector without changing after the original frame is raised. do.

The human eye perceives the cumulative value of light. Accordingly, one input frame is selected such that the sum of two newly generated input frames {FIG. 6 (a) and (b)} equals one input frame {(c) of FIG. 6} as in the embodiment of the present invention. When two frames are modified to generate two frames, even if the frame frequency is increased, the human eye may look like FIG. 6C, which is an image of the original input frame. In the implementation of this method, it is possible to increase the degree of freedom of application using a look up table (LUT).

In the embodiment of the present invention, when the frame is deformed, gamma correction or brightness may be adjusted by adjusting the value of the gamma correction or the LUT.

(2) Residual image reduction device of liquid crystal display device

According to an exemplary embodiment of the present invention, in order to reduce an afterimage shape caused by a late response time of a liquid crystal in a liquid crystal display, the input frame frequency of an input frame input according to the method of reducing the afterimage of the liquid crystal display is increased. In addition, the frame according to the existing input frame frequency is deformed, and when the input frame frequency is upwardly synthesized with the inserted frame, the input frame frequency is up-converted so as to become an image of the input frame. It is about.

7 is a configuration diagram of an afterimage reduction device of a liquid crystal display according to an exemplary embodiment of the present invention.

When the n th frame is input, the n th frame is stored in the frame storage unit 101 and the frame frequency is up-converted with reference to the n th frame stored in the frame storage unit 101.

The frame frequency converter 102 according to an embodiment of the present invention up-converts the input frame frequency of 50 Hz or 60 Hz to a frame frequency of 100 Hz or 120 Hz, respectively, by doubling the frame frequency.

The frame frequency converter 102 generates two m-th frames and an m + 1-th frame at a frame frequency of 120 kHz when one n-th frame is input with a frame frequency of 60 kHz.

The frame deforming unit 103 deforms the frame by using a LUT for deforming the frame of 120 kHz of the frame frequency converter 102. The frame may be modified using gamma correction data or other various forms, and the input frame may be completed by combining the modified frames.

In the frame deformation unit 103 according to an exemplary embodiment of the present invention, gamma correction or brightness may be adjusted by adjusting a gamma correction value or a LUT value when the frame is deformed.

In an embodiment of the present invention, the m th frame is transformed with reference to the LUT m Frame, and the m + 1 th frame is transformed with reference to the LUT m + 1 Frame.

The frame deforming unit 103 deforms the modified m-th frame and the m + 1-th frame to become an input n-th frame.

The output unit 104 outputs the frame converted to the up-converted frame frequency.

8 is a block diagram of an afterimage reduction device of a liquid crystal display according to another exemplary embodiment of the present invention.

When the n-th frame is input, the frame deformation unit 201 deforms the frame.

The frame transform unit 201 receives one n-th frame and generates two m-th frames and an m + 1th frame.

The frame deforming unit 201 deforms a frame by using an LUT for deforming the input frame. The frame may be modified using gamma correction data or other various forms, and the input frame may be completed by combining the modified frames.

In the frame deformation unit 201 according to an exemplary embodiment of the present invention, gamma correction or brightness may be adjusted by adjusting a gamma correction value or a LUT value when the frame is deformed.

In an embodiment of the present invention, the m th frame is transformed with reference to the LUT m Frame, and the m + 1 th frame is transformed with reference to the LUT m + 1 Frame.

The frame deforming unit 201 deforms the modified m-th frame and the m + 1-th frame to become an input n-th frame.

The m th frame and the m + 1 th frame are stored in the frame storage unit 202.

The frame frequency converter 203 up-converts the frame frequency with reference to the m th frame and the m + 1 th frame stored in the frame storage unit 202.

According to an exemplary embodiment of the present invention, the frame frequency converter 203 up-converts an input frame frequency of 50 Hz or 60 Hz to a frame frequency of 100 Hz or 120 Hz, respectively, by doubling the frame frequency.

The frame frequency converter 203 outputs two m-th frames and an m + 1th frame at a frame frequency of 120 Hz when one n-th frame is input to the frame modification unit with a frame frequency of 60 Hz.

According to the present invention, the afterimage can be effectively reduced without increasing the brightness while increasing the frame frequency.

According to the present invention, afterimages can be reduced while perfectly reproducing an image while increasing the frame frequency.

According to the present invention, it is possible to convert with a degree of freedom for deformation of the frame while increasing the frame frequency, thereby effectively reducing the afterimage, and by such a degree of freedom, there is an effect such as gamma correction or brightness adjustment.

Claims (16)

In the afterimage reduction device of the liquid crystal display device, A frame storage unit which stores an input frame; A frame frequency converter configured to up-convert an input frame frequency of the input frame with reference to the input frame of the frame storage unit, and output an output frame at an up-converted output frame frequency; And deforming the output frame of the frame frequency converter and outputting a deformed frame. And the input frame comprises a combination of two or more of the modified frames. The method of claim 1, And an output unit configured to output the modified frame at the output frame frequency. The method of claim 1, And the frame frequency converter increases the input frame frequency by 2 times and outputs the output frame frequency at the output frame frequency. The method of claim 3, The afterimage reduction device of the liquid crystal display receives an nth input frame and generates an mth modified frame and an m + 1th modified frame in the frame deformation unit. And combining the mth modified frame and the m + 1th modified frame to form the nth input frame. The method of claim 3, When the input frame frequency is 50 kHz or 60 kHz, the frame frequency converter outputs the output frame frequency at 100 kHz or 120 kHz by doubling the input frame frequency twice, respectively. Abatement device. The method of claim 1, The frame deforming unit includes a look-up table for converting the input frame into the deforming frame. The method of claim 1, The frame deformer includes gamma correction data for converting the input frame into the deformed frame. In the afterimage reduction device of the liquid crystal display device, A frame deformer for deforming the input frame and outputting the deformed frame; A frame storage unit which stores the deformed frame; A frame frequency converter configured to up-convert an input frame frequency of the input frame with reference to the modified frame of the frame storage unit, and output the modified frame at an up-converted output frame frequency; And the input frame comprises a combination of two or more of the modified frames. The method of claim 8, And the frame frequency converter increases the input frame frequency by 2 times and outputs the output frame frequency at the output frame frequency. The method of claim 9, The afterimage reduction device of the liquid crystal display receives an nth input frame and generates an mth modified frame and an m + 1th modified frame in the frame deformation unit. And combining the mth modified frame and the m + 1th modified frame to form the nth input frame. The method of claim 9, When the input frame frequency is 50 kHz or 60 kHz, the frame frequency converter outputs the output frame frequency at 100 kHz or 120 kHz by doubling the input frame frequency twice, respectively. Abatement device. The method of claim 8, And the frame deformer comprises a lookup table for converting the input frame into the deformed frame. The method of claim 8, The frame deformer includes gamma correction data for converting the input frame into the deformed frame. In the afterimage reduction method of the liquid crystal display device, Up-convert the frame frequency to transform the input frame into two or more transformed transformed frames, And the sum of the two or more deformed deformed frames is the input frame. The method of claim 14, And the deformation frame is deformed by a look-up table for modifying the input frame. The method of claim 14, And the deformation frame is deformed by gamma correction data for deforming the input frame.

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