TWI413092B - Driving method for liquid crystal display and generating method for three dimensional gamma table - Google Patents

Abstract

A driving method for a liquid crystal display and a generating method for a three dimensional gamma table are disclosed. The driving method for a liquid crystal display includes follow steps. First, an input video source is judged to a two dimensional input video signal or a three dimensional input video signal. When the input video source is the two dimensional input video signal, the two dimensional input video signal changes to a two dimensional output video signal according to a two dimensional gamma table so as to display a two dimensional image. When the input video source is the three dimensional input video signal, the three dimensional input video signal changes to a three dimensional output video signal according to a three dimensional gamma table so as to display a three dimensional image. The two dimensional gamma table is produced by a gamma curve of a display panel, and the gamma curve is consisted of a remaining part and an abandoning part. The three dimensional gamma table is produced by the remaining part.

Description

Driving method of liquid crystal display and method for generating three-dimensional gamma table

The invention relates to a driving method of a liquid crystal display and a method for generating a three-dimensional gamma table, and particularly relates to a driving method of a liquid crystal display and a method for generating a three-dimensional gamma table, which reduce the overall gray-scale reaction time.

3D display technology is considered the new generation of display technology. The human brain can use the parallax of the two eyes to judge the sense of distance of the object. The parallax of the two eyes refers to a horizontal displacement between the left eye and the right eye of the viewer, so that when viewing the object, the viewing angle is slightly different, resulting in two eyes. The received images are also slightly different. The development of three-dimensional display technology is to develop a stereoscopic three-dimensional liquid crystal display and an auto-stereoscopic three-dimensional liquid crystal display by accepting the concept of different images by the left eye and the right eye, respectively.

The grayscale response time of the liquid crystal display will seriously affect the visual effect of the three-dimensional image. The gray-scale reaction time refers to the time it takes for the liquid crystal molecules to rotate to the desired position when switching from one gray scale value to another gray scale value. However, the overall gray-scale reaction time of the conventional liquid crystal display is too long, which easily causes the left-eye image and the right-eye image to interfere with each other (3D crosstalk) and seriously affects the visual effect of the three-dimensional image.

The invention relates to a driving method of a liquid crystal display and a method for generating a three-dimensional gamma table, which can reduce the overall gray-scale reaction time of the liquid crystal display by deleting a part of the gray scale in the three-dimensional gamma table, and further Improve the phenomenon that the left eye image and the right eye image interfere with each other (3D crosstalk) to improve the visual effect of the three-dimensional image.

According to the present invention, a driving method of a liquid crystal display is proposed. The driving method of the liquid crystal display comprises: determining whether the input video source is a two-dimensional input video signal or a three-dimensional input video signal; when the input signal source is a two-dimensional input video signal, converting the two-dimensional input video signal into two-dimensional according to the two-dimensional gamma table Outputting a video signal output and displaying a two-dimensional image according to a two-dimensional output video signal. The two-dimensional gamma table is generated according to a gamma curve of the liquid crystal panel, and the gamma curve is composed of a reserved portion and a discarded portion; and when input The video source is a three-dimensional input video signal, and the three-dimensional input video signal is converted into a three-dimensional output video signal output according to the three-dimensional gamma table, and the three-dimensional image is displayed according to the three-dimensional output video signal, and the three-dimensional gamma table is generated only according to the reserved portion.

According to the present invention, a method of generating a three-dimensional gamma table is proposed. The method for generating the three-dimensional gamma table comprises: selecting a gray level threshold; dividing the gamma curve of the liquid crystal panel into a reserved portion and a discarded portion according to the gray level threshold, and the gamma curve is used to generate a two-dimensional gamma table (Gamma Table); and generate a three-dimensional gamma table based only on the reserved portion.

In order to better understand the above and other aspects of the present invention, the preferred embodiments are described below, and in conjunction with the drawings, the detailed description is as follows:

In order to improve the gray scale reaction time of the liquid crystal display as a whole, the following embodiment proposes a driving method of a liquid crystal display and a method of generating a three-dimensional gamma table. The driving method of the liquid crystal display comprises the following steps: determining whether the input video source is a two-dimensional input video signal or a three-dimensional input video signal. When the input signal source is a two-dimensional input video signal, the two-dimensional input video signal is converted into a two-dimensional output video signal output according to the two-dimensional gamma table, and the two-dimensional image is displayed according to the two-dimensional output video signal. The two-dimensional gamma table is generated according to the gamma curve of the liquid crystal panel, and the gamma curve is composed of a reserved portion and a discarded portion. When the input video source is a three-dimensional input video signal, the three-dimensional input video signal is converted into a three-dimensional output video signal output according to the three-dimensional gamma table, and the three-dimensional image is displayed according to the three-dimensional output video signal. The 3D gamma table is only generated based on the reserved portion.

The method for generating a three-dimensional gamma table includes the following steps: First, selecting a gray level threshold. Then, the gamma curve of the liquid crystal panel is divided into a reserved portion and a discarded portion according to the gray limit threshold, and the gamma curve is used to generate a two-dimensional gamma table. Then, a three-dimensional gamma table is generated based only on the reserved portion. The embodiments are described in detail below.

Please refer to FIG. 1 , which is a partial gray-to-gray response time measurement table of a Twisted Nematic (TN) liquid crystal panel. Different grayscale switching systems correspond to different grayscale reaction times. For example, when the twist-aligned liquid crystal panel is switched from gray scale 0 to gray scale 64, the gray scale reaction time requires 1.5 milliseconds (ms), and when the twisted alignment liquid crystal panel is switched from gray scale 0 to gray scale 96, The grayscale reaction time takes 2.77 milliseconds. By measuring the gray-scale reaction time corresponding to the gray-scale switching of the twisted-arranged liquid crystal panel, it can be found that the gray-scale reaction time is the slowest when the twist-aligned liquid crystal panel is switched from the low gray scale to the high gray scale.

If the gray-scale switching between gray scales 0, 32, 64, 96, 128, 160, 192, 224, and 225 in the twist-aligned liquid crystal panel is calculated, the gray-scale reaction time of the entire twist-aligned liquid crystal panel is found to be 2.37 on average. millisecond. However, if the gray scale above the gray scale 204 is discarded first and then the gray scale switching between the gray scales 0, 32, 64, 96, 128, 160 and 192 in the twisted alignment liquid crystal panel is recalculated, the twisted alignment liquid crystal can be found. The overall gray-scale reaction time of the panel is reduced to 1.93 milliseconds. Therefore, in the following embodiments, when displaying the three-dimensional image, a part of the high gray scale value is discarded in the three-dimensional gamma table to improve the gray-scale reaction time of the entire twist-aligned liquid crystal panel, thereby effectively improving the image sticking problem of the three-dimensional image. In addition, when switching from a high gray scale to a low gray scale in a Vertical Alignment (VA) liquid crystal panel, the gray scale reaction time is the slowest. Therefore, in the following embodiments, when displaying the three-dimensional image, some low gray scale values in the three-dimensional gamma table can be discarded to improve the gray-scale reaction time of the vertical alignment type liquid crystal panel as a whole, thereby effectively improving the image sticking problem of the three-dimensional image.

Please refer to FIG. 2 and FIG. 3 at the same time, FIG. 2 is a schematic diagram showing a gamma curve, and FIG. 3 is a flow chart showing a method for generating a three-dimensional gamma table. The method of generating a three-dimensional gamma table includes the following steps: First, as shown in step 310, the gray level threshold Gth is selected. The gray-scale threshold Gth is determined by the gray-scale reaction time of the liquid crystal panel. For example, if the gray-scale reaction time of the liquid crystal panel is as shown in FIG. 1, the gray-scale threshold Gth is, for example, the gray scale 204 described above. Next, as shown in step 320, the gamma curve 20 is divided into a reserved portion 20a and a discarded portion 20b according to the gray level threshold Gth, and the gamma curve 20 is used to generate a two-dimensional gamma table. Then, as shown in step 330, a three-dimensional gamma table is generated based only on the reserved portion 20a. When the liquid crystal panel is a twisted liquid crystal panel, since the three-dimensional gamma table needs to discard a part of the high grayscale value, the grayscale value corresponding to the discarded portion 20b is greater than the grayscale value corresponding to the reserved portion 20a. In contrast, when the liquid crystal panel is a vertical alignment type liquid crystal panel, since the three-dimensional gamma table needs to discard some low gray scale values, the gray scale value corresponding to the remaining portion is larger than the gray scale value corresponding to the discarded portion. Taking the twisted-arranged liquid crystal panel as an example, if the gray-scale threshold Gth is the gray scale 204 described above, the output gray-scale value of the three-dimensional gamma table will be in the gray-scale interval of the gray scale 0 to the gray scale 204. The input grayscale value of the three-dimensional gamma table will still maintain the grayscale interval between grayscale 0 and grayscale 255.

Please refer to FIG. 4 and FIG. 5 at the same time. FIG. 4 is a partial schematic view showing a liquid crystal display, and FIG. 5 is a flow chart showing a driving method of the liquid crystal display. The liquid crystal display 4 includes a timing controller 41, a data driver 42, and a liquid crystal panel 43. The timing controller includes a storage unit 412 and a processing unit 414. The storage unit 412 is configured to store the two-dimensional gamma table 44 and the three-dimensional gamma table 45. The two-dimensional gamma table 44 is generated according to the gamma curve of the liquid crystal panel 43, and the gamma curve of the liquid crystal panel 43 is, for example, the gamma curve composed of the reserved portion 20a and the discarded portion 20b as shown in FIG. 20. The three-dimensional gamma table 45 is generated only by the remaining portion 20a, and the method for generating the three-dimensional gamma table 45 has been illustrated in the foregoing third figure, and will not be further described herein.

The driving method of the liquid crystal display 40 includes the following steps: First, as shown in step 510, the processing unit 414 determines that the input video source Sin is a two-dimensional input video signal or a three-dimensional input video signal. When the input video source Sin is a two-dimensional input video signal, as shown in step 520. In step 520, the processing unit 414 converts the two-dimensional input video signal into a two-dimensional output video signal to the data driver 42 according to the two-dimensional gamma table 44, and drives the liquid crystal according to the two-dimensional output video signal output pixel voltage by the data driver 42. The panel 43 displays a two-dimensional image.

Conversely, when the input signal source Sin is a three-dimensional input video signal, as shown in step 530. In step 530, the processing unit 414 converts the three-dimensional input video signal into a three-dimensional output video signal according to the three-dimensional gamma table 45, and outputs the data to the data driver 42. The data driver 42 drives the liquid crystal panel 43 to display the three-dimensional image according to the three-dimensional output video signal output pixel voltage. .

Further, the two-dimensional gamma table 44 records the correspondence between the input grayscale value and the output grayscale value. The three-dimensional gamma table 45 similarly records the correspondence between the input grayscale value and the output grayscale value. Since the two-dimensional gamma table 44 is generated according to the complete gamma curve, the input grayscale value and the output grayscale value of the two-dimensional gamma table are in the same first grayscale interval, and the first grayscale interval is, for example, It is grayscale 0 to grayscale 255. In contrast, since the three-dimensional gamma table 45 is generated only according to a partial gamma curve, the output gray scale value of the three-dimensional gamma table 45 falls within a second gray-scale interval smaller than the first gray-scale interval, and the second gray The interval is, for example, a gray scale 0 to a gray scale 204. The input grayscale value of the three-dimensional gamma table 45 will remain in the first grayscale interval.

Since the second grayscale interval is smaller than the first grayscale interval, after the processing unit 414 receives the three-dimensional input video signal, the input grayscale value in the three-dimensional input video signal is substantially scaled down according to the three-dimensional gamma table 45. Generates an output grayscale value output in the three-dimensional output video signal. For example, the highest gray level in the aforementioned reserved portion 20a is the gray level 204, and the highest gray level in the gamma curve 20 is the gray level 255. Therefore, the output gray scale value and the input gray scale value in the three-dimensional gamma table 45 will be substantially in a proportional relationship of 1:0.8. When the input grayscale value in the three-dimensional input video signal is equal to 100, the processing unit 414 finds the output grayscale value in the three-dimensional output video signal equal to 80 according to the three-dimensional gamma table 45, and outputs the output grayscale value to the data driver. 42.

The driving method of the liquid crystal display and the method for generating the three-dimensional gamma table are performed by deleting a part of the gray scale in the three-dimensional gamma table to greatly reduce the overall gray-scale reaction time of the liquid crystal display, thereby improving mutual interference between the left-eye image and the right-eye image. (3D crosstalk) phenomenon to improve the visual effect of 3D images.

In conclusion, the present invention has been disclosed in the above preferred embodiments, and is not intended to limit the present invention. A person skilled in the art can make various changes and modifications without departing from the spirit and scope of the invention. Therefore, the scope of the invention is defined by the scope of the appended claims.

4. . . LCD Monitor

20. . . Gamma curve

20a. . . Reserved part

20b. . . Discard part

41. . . Timing controller

42. . . Data driver

43. . . LCD panel

44. . . Two-dimensional gamma table

45. . . Three-dimensional gamma table

310, 320, 330, 510, 520, 530. . . step

412. . . Storage unit

414. . . Processing unit

Sin. . . Input video source

Gth. . . Gray scale threshold

Fig. 1 is a diagram showing a gray to gray response time measurement table of a Twisted Nematic (TN) liquid crystal panel.

Figure 2 is a schematic diagram showing a gamma curve.

Figure 3 is a flow chart showing the method of generating a three-dimensional gamma table.

Figure 4 is a partial schematic view showing a liquid crystal display.

Fig. 5 is a flow chart showing a driving method of the liquid crystal display.

510, 520, 530. . . step

Claims (10)

A method for driving a liquid crystal display, comprising: determining whether an input video source is a two-dimensional input video signal or a three-dimensional input video signal; and when the input signal source is the two-dimensional input video signal, according to a two-dimensional gamma table (Gamma) Converting the two-dimensional input video signal into a two-dimensional output video signal output, and displaying a two-dimensional image according to the two-dimensional output video signal, the two-dimensional gamma table according to a gamma curve of a liquid crystal panel Generating, the gamma curve is composed of a reserved portion and a discarded portion; and when the input video source is the three-dimensional input video signal, converting the three-dimensional input video signal into a three-dimensional output video according to a three-dimensional gamma table The signal is output, and a three-dimensional image is displayed according to the three-dimensional output video signal, and the three-dimensional gamma table is generated only according to the reserved portion. The driving method of claim 1, wherein the output gray scale value of the two-dimensional gamma table is in a first gray scale interval, and the output gray scale value of the three-dimensional gamma table falls in a second a grayscale interval, and the second grayscale interval is smaller than the first grayscale interval. The driving method of claim 1, wherein the output grayscale value of the three-dimensional gamma table is substantially proportional to the input grayscale value of the three-dimensional gamma table. The driving method of claim 1, wherein when the liquid crystal panel is a Twisted Nematic (TN) liquid crystal panel, the grayscale value corresponding to the discarded portion is greater than the reserved portion. Grayscale value. The driving method of claim 1, wherein when the liquid crystal panel is a vertical alignment type (VA) liquid crystal panel, the grayscale value corresponding to the reserved portion is greater than the discarded portion. Grayscale value. A method for generating a three-dimensional gamma table includes: selecting a grayscale threshold; dividing a gamma curve of a liquid crystal panel into a reserved portion and a discarded portion according to the grayscale threshold The gamma curve is used to generate a two-dimensional gamma table; and the three-dimensional gamma table is generated based only on the reserved portion. The method of claim 6, wherein the output gray scale value of the two-dimensional gamma table is between a first gray scale interval, and the output gray scale value of the three-dimensional gamma table is between a second a grayscale interval, and the second grayscale interval is smaller than the first grayscale interval. The method of claim 6, wherein the output grayscale value of the three-dimensional gamma table is substantially proportional to the input grayscale value of the three-dimensional gamma table. The method of claim 6, wherein when the liquid crystal panel is a Twisted Nematic (TN) liquid crystal panel, the grayscale value corresponding to the discarded portion is greater than the reserved portion. Grayscale value. The method of claim 6, wherein when the liquid crystal panel is a vertical alignment type (VA) liquid crystal panel, the grayscale value corresponding to the reserved portion is greater than the discarded portion. Grayscale value.