WO2020107505A1 - Display driving method and liquid crystal display device - Google Patents

Abstract

A display driving method, comprising the following steps: providing a liquid crystal display panel (10) which comprises multiple sub-pixels (31, 32, 33) arranged in an array, and setting every two adjacent sub-pixels of the same color in the liquid crystal display panel (10) as one display unit (20); obtaining the original gray scale values of the display units (20); processing the original gray scale values of the display units (20) to generate first display gray scale values and second display gray scale values of the display units (20), the first display gray scale values being larger than the second display gray scale values; respectively driving two sub-pixels in the display units (20) to display by the first display gray scale values and the second display gray scale values of the display units (20), and enabling one of any two adjacent sub-pixels in the liquid crystal display panel (10) to be driven by the first display gray scale value of the display unit (20) corresponding to said one and the other one to be driven by the second display gray scale value of the display unit (20) corresponding to said other one. Also provided is a liquid crystal display device. Hence, the chroma angle of visibility of the liquid crystal display panel is improved.

Description

Display driving method and liquid crystal display device Technical field

The present invention relates to the field of display technology, in particular to a display driving method and a liquid crystal display device.

Background technique

Liquid crystal display (Liquid Crystal Display, LCD) has many advantages such as thin body, power saving, no radiation, etc., and has been widely used. Such as: LCD TVs, mobile phones, personal digital assistants (PDAs), digital cameras, computer screens or laptop screens, etc., dominate the field of flat panel displays.

Most of the liquid crystal displays on the existing market are backlight type liquid crystal displays, which include a liquid crystal display panel and a backlight module. The working principle of the liquid crystal display panel is based on the thin film transistor array substrate (Thin Film Transistor Array Substrate, TFT Array Substrate) and the color filter substrate (Color Filter, CF) is filled with liquid crystal molecules, and a driving voltage is applied to the two substrates to control the rotation direction of the liquid crystal molecules, so as to refract the light of the backlight module to generate a picture.

Due to the optical anisotropy of liquid crystal molecules, the existing liquid crystal display panel has a problem that the chromaticity and viewing angle are narrow, which affects people's viewing experience under a large viewing angle. In order to achieve a narrow viewing angle for improving the chromaticity of the liquid crystal display panel, the prior art proposes a multi-domain pixel structure. The multi-domain pixel structure is to subdivide each sub-pixel into smaller areas (domains), so that the The liquid crystal will be in different directions, typically a four-domain structure, that is, the pixel electrode of a sub-pixel is made into a "meter" shape, so that the pixel electrode is divided into four areas, and when driving, the liquid crystal in each area will be in a different direction Further, the four-domain structure is improved, and an eight-domain structure is also proposed, that is, the pixel electrode of a sub-pixel is first divided into a main region pixel electrode (Main) and a sub-region pixel electrode (Sub), the main region pixel electrode and The sub-region pixel electrodes are all "meter" shaped electrodes, and the driving voltage applied to the main-region pixel electrode and the sub-region pixel electrode is in a certain ratio, so that eight domains are formed in one sub-pixel, compared with the four-domain structure. Further enhance the perspective.

Although the liquid crystal display panel with the eight-domain structure sub-pixel has a significantly improved chromaticity and viewing angle compared to the liquid crystal display panel with the four-domain structure sub-pixel, Switching (IPS) mode LCD panel and organic light-emitting diode (Organic Compared with Light-Emitting Diode (OLED) display panels, the viewing angle of chroma is still very low, which affects people's viewing experience under large viewing angles.

technical problem

An object of the present invention is to provide a display driving method, which can improve the chroma viewing angle of the liquid crystal display panel and improve the viewing experience of the liquid crystal display panel under a large viewing angle.

The object of the present invention is also to provide a liquid crystal display device, which can improve the chroma viewing angle of the liquid crystal display panel and improve the viewing experience of the liquid crystal display panel under a large viewing angle.

Technical solution

To achieve the above object, the present invention provides a display driving method, including the following steps:

Step S1: Provide a liquid crystal display panel, the liquid crystal display panel includes a plurality of sub-pixels arranged in an array, and set each adjacent two sub-pixels of the same color in the liquid crystal display panel as a display unit;

Step S2: Obtain the original grayscale value of each display unit;

Step S3: Process the original grayscale values of each display unit to generate a first display grayscale value and a second display grayscale value of each display unit, where the first display grayscale value is greater than the second display grayscale value;

Step S4: Drive two sub-pixels in each display unit to display with the first display gray-scale value and the second display gray-scale value of each display unit, and make any two adjacent sub-pixels in the liquid crystal display panel One is driven by the first display grayscale value of its corresponding display unit, and the other is driven by the second display grayscale value of its corresponding display unit.

The plurality of sub-pixels include: a plurality of first sub-pixels, a plurality of second sub-pixels and a plurality of third sub-pixels, the first sub-pixels, the second sub-pixels and the third sub-pixels have different colors; they are located in the same The sub-pixels of the row are alternately and repeatedly arranged in the order of the first sub-pixel, the second sub-pixel, and the third sub-pixel, and the colors of the sub-pixels in the same column are the same; each display unit includes two sub-pixels arranged continuously in the column .

Each sub-pixel is an eight-domain structure sub-pixel.

Let N be a positive integer. In the 4N-3th row and the 4Nth subpixel, every four consecutively arranged subpixels are a group, and the polarity of the driving voltage of each subpixel in the same group is positive-negative-negative -positive;

In the 4N-2th row and the 4N-1th subpixel, every four consecutively arranged subpixels are a group, and the polarity of the driving voltage of each subpixel in the same group is negative-positive-positive-negative.

The sum of the first display grayscale value and the second display grayscale value of each display unit is equal to twice the original grayscale value of the display unit.

The present invention also provides a liquid crystal display device, including: an acquisition unit, a processing unit connected to the acquisition unit, a driving unit connected to the processing unit, and a liquid crystal display panel connected to the driving unit;

The liquid crystal display panel includes a plurality of sub-pixels arranged in an array, and each adjacent two sub-pixels of the same color are a display unit;

The obtaining unit is used to obtain the original grayscale value of each display unit;

The processing unit is used to process the original grayscale value of each display unit to generate a first display grayscale value and a second display grayscale value of each display unit, the first display grayscale value is greater than the second display grayscale Order value

The driving unit is used to drive two sub-pixels in each display unit to display with the first display gray scale value and the second display gray scale value of each display unit, and to make any two adjacent two of the liquid crystal display panel One of the sub-pixels is driven by the first display gray scale value of its corresponding display unit, and the other is driven by the second display gray scale value of its corresponding display unit.

The plurality of sub-pixels include: a plurality of first sub-pixels, a plurality of second sub-pixels and a plurality of third sub-pixels, the first sub-pixels, the second sub-pixels and the third sub-pixels have different colors; they are located in the same The sub-pixels of the row are alternately and repeatedly arranged in the order of the first sub-pixel, the second sub-pixel, and the third sub-pixel, and the colors of the sub-pixels in the same column are the same; each display unit includes two sub-pixels arranged continuously in the column direction .

Each sub-pixel is an eight-domain structure sub-pixel.

Let N be a positive integer. In the 4N-3th row and the 4Nth subpixel, every four consecutively arranged subpixels are a group, and the polarity of the driving voltage of each subpixel in the same group is positive-negative-negative -positive;

In the 4N-2th row and the 4N-1th subpixel, every four consecutively arranged subpixels are a group, and the polarity of the driving voltage of each subpixel in the same group is negative-positive-positive-negative.

The sum of the first display grayscale value and the second display grayscale value of each display unit is equal to twice the original grayscale value of the display unit.

Beneficial effect

Beneficial effect of the present invention: The present invention provides a display driving method, including the following steps: Step S1, providing a liquid crystal display panel including a plurality of sub-pixels arranged in an array, setting the liquid crystal display panel Each two adjacent sub-pixels with the same color are a display unit; Step S2: Obtain the original grayscale value of each display unit; Step S3: Process the original grayscale value of each display unit to generate the first A display gray scale value and a second display gray scale value, the first display gray scale value is greater than the second display gray scale value; Step S4, the first display gray scale value and the second display gray scale value of each display unit Driving two sub-pixels in each display unit separately for display, and causing one of any two adjacent sub-pixels in the liquid crystal display panel to be driven by the first display gray scale value of its corresponding display unit, and the other by its The second display gray scale value drive of the corresponding display unit can improve the chromaticity and viewing angle of the liquid crystal display panel, and improve the viewing experience of the liquid crystal display panel under a large viewing angle. The invention also provides a liquid crystal display device, which can improve the chroma viewing angle of the liquid crystal display panel and improve the viewing experience of the liquid crystal display panel under a large viewing angle.

BRIEF DESCRIPTION

In order to further understand the features and technical content of the present invention, please refer to the following detailed description and drawings of the present invention. However, the drawings are provided for reference and explanation only, and are not intended to limit the present invention.

In the drawings,

1 is a driving schematic diagram of the display driving method of the present invention;

2 is a schematic diagram of the polarity of the display driving method of the present invention;

3 is a flowchart of the display driving method of the present invention;

4 is a schematic diagram of a liquid crystal display device of the present invention.

Embodiments of the invention

In order to further elaborate on the technical means adopted by the present invention and its effects, the following will be described in detail with reference to the preferred embodiments of the present invention and the accompanying drawings.

Please refer to the picture 3 The present invention provides a display driving method, including the following steps:

step S1 、Provide an LCD panel 10 , The LCD panel 10 Including a plurality of sub-pixels arranged in an array, setting the liquid crystal display panel 10 Every adjacent 2 A sub-pixel with the same color is a display unit 20 .

Specifically, as shown 1 As shown, in a preferred embodiment of the present invention, the liquid crystal display panel 10 The multiple sub-pixels in include: multiple first sub-pixels 31 , Multiple second sub-pixels 32 And multiple third sub-pixels 33 , The first subpixel 31 , The second sub-pixel 32 And the third sub-pixel 33 Of different colors; each sub-pixel in the same row according to the first sub-pixel 31 , The second sub-pixel 32 And the third sub-pixel 33 The order of the pixels is alternately repeated, and the colors of the sub-pixels in the same column are the same, where each adjacent two sub-pixels in a column of sub-pixels are a display unit 20 , For example, the first subpixel in the first column and first row 411 And the first subpixel in the first column and second row 411 Together form a display unit, the second sub-pixel located in the first row of the second column 412 And the second subpixel located in the second row and second row 412 Together constitute a display unit, the third sub-pixel located in the first row of the third column 413 And the third sub-pixel in the second row of the third column 413 Together form a display unit, the first sub-pixels in the first column and third row 411 And the first subpixel in the first column and the fourth row 411 Together form a display unit, the second sub-pixels in the second column and third row 412 And the second subpixel located in the second column and the fourth row 412 Together form a display unit, the third sub-pixel located in the third column and third row 413 And the third subpixel in the third column and fourth row 413 Together form a display unit, and so on; the same display unit 401 The sub-pixels in display the same color.

Preferably, the first sub-pixel 31 , The second sub-pixel 32 And the third sub-pixel 33 Display blue, green and red respectively.

Specifically, in a preferred embodiment of the present invention, the liquid crystal display panel 10 Each of the sub-pixels in the eight-domain structure is a sub-pixel with an eight-domain structure, and each sub-pixel of the eight-domain structure includes a primary area pixel electrode and a secondary area pixel electrode. A zigzag electrode, four domains are formed by the "meter" zigzag electrode, combined with the difference in driving voltage applied to the pixel electrode in the main region and the pixel electrode in the subregion, so that eight domains are formed in each sub-pixel, and each domain corresponds to The liquid crystals of all of them fall down in different directions, which can improve the chromaticity and viewing angle of the liquid crystal display panel.

Specifically, the liquid crystal display panel 10 Also includes multiple parallel data lines arranged at intervals twenty one And multiple parallel scan lines twenty two , The data line twenty one And scan lines twenty two Insulation cross, each data line twenty one A row of sub-pixels is electrically connected to each scan line twenty two A row of sub-pixels is electrically connected.

step S2 、Get each display unit 20 The original grayscale value of.

Specifically, in the first embodiment of the present invention, each display unit is 401 Provide a raw grayscale data, for example, in an embodiment of the present invention to each display unit through an external circuit 401 Provide one 100 Grayscale raw grayscale data.

step S3 、For each display unit 20 The original grayscale values of 20 A first display gray scale value and a second display gray scale value, the first display gray scale value is greater than the second display gray scale value.

Specifically, the steps S3 For each display unit 20 When processing the original grayscale value, set each display unit 20 The sum of the first display gray scale value and the second display gray scale value is equal to the display unit 20 Of the original grayscale value 2 Times, for example corresponding steps S2 middle 100 Gray scale, forming a 150 Grayscale sum 50 Grayscale.

Specifically, the steps S3 The specific numerical values of the first displayed gray scale value and the second displayed gray scale value can be searched through a preset lookup table, or can be calculated through a preset processing function.

step S4 , With each display unit 20 The first display gray scale value and the second display gray scale value respectively drive each display unit 20 Two sub-pixels in the display, and the liquid crystal display panel 10 One of any two adjacent sub-pixels in the 20 The first display grayscale value is driven, the other is driven by its corresponding display unit 20 The second display is grayscale value driven.

It should be noted that each display unit is driven by the first display gray scale value and the second display gray scale value respectively 20 The two sub-pixels in the display can make the same display unit 20 The two sub-pixels in the two have different bright and dark states, so that the liquid crystal in the area corresponding to the two sub-pixels is deflected in different directions, and after the two sub-pixels are combined, the display unit 20 The brightness is the same as using the original grayscale data, which can enrich the orientation of the liquid crystal molecules without changing the display brightness of the display screen, thereby improving the chroma viewing angle of the LCD panel and improving the viewing of the LCD panel at a large viewing angle Experience.

Further, the steps S4 In driving, the polarity distribution of the driving voltage of each sub-pixel in the liquid crystal display panel is also set, specifically, the polarity distribution of each sub-pixel in the liquid crystal display panel is set to 1+2line The distribution form of 2 As shown, suppose N Is a positive integer 4N-3 Line and section 4N In the sub-pixels, each 4 A group of consecutively arranged sub-pixels, the polarity of the driving voltage of each sub-pixel of the same group is in turn positive ‑ negative ‑ negative ‑ Positive 4N-2 Line and section 4N-1 In the sub-pixels, each 4 A group of consecutively arranged sub-pixels, the polarity of the driving voltage of each sub-pixel of the same group is in turn negative ‑ positive ‑ positive ‑ Negative, the combination of the polarity distribution and the above-mentioned driving method can avoid the display defects such as shaking of the head or flickering of the picture during the driving process, and ensure the driving effect.

Therefore, in the present invention, the sub-pixels of the eight-domain structure are combined with the above-mentioned driving method, and simultaneously combined 1+2line The polar distribution can fully enhance the chromaticity and viewing angle of the LCD panel, improve the viewing experience of the LCD panel at a large viewing angle, and avoid display defects such as shaking the head or flickering during the driving process to ensure the driving effect.

Please refer to the picture 4 The present invention also provides a liquid crystal display device, including: an acquisition unit 100 , And the acquisition unit 100 Connected processing unit 200 , And the processing unit 200 Connected drive unit 300 And with the drive unit 300 Connected LCD panel 10 ;

The liquid crystal display panel 10 Including multiple sub-pixels arranged in an array, each adjacent 2 A sub-pixel with the same color is a display unit 20 ;

The acquisition unit 100 Used to obtain each display unit 20 The original grayscale value of

The processing unit 200 For each display unit 20 The original grayscale values of 20 A first display gray scale value and a second display gray scale value, the first display gray scale value is greater than the second display gray scale value;

The drive unit 300 Used for each display unit 20 The first display gray scale value and the second display gray scale value respectively drive two sub-pixels in each display unit to display, and make the liquid crystal display panel 10 One of any two adjacent sub-pixels in the 20 The first display grayscale value is driven, the other is driven by its corresponding display unit 20 The second display is grayscale value driven.

Specifically, as shown 1 As shown, in a preferred embodiment of the present invention, the liquid crystal display panel 10 The multiple sub-pixels in include: multiple first sub-pixels 31 , Multiple second sub-pixels 32 And multiple third sub-pixels 33 , The first subpixel 31 , The second sub-pixel 32 And the third sub-pixel 33 Of different colors; each sub-pixel in the same row according to the first sub-pixel 31 , The second sub-pixel 32 And the third sub-pixel 33 The order of the pixels is alternately repeated, and the colors of the sub-pixels in the same column are the same, where each adjacent two sub-pixels in a column of sub-pixels are a display unit 20 , For example, the first subpixel in the first column and first row 411 And the first subpixel in the first column and second row 411 Together form a display unit, the second sub-pixel located in the first row of the second column 412 And the second subpixel located in the second row and second row 412 Together constitute a display unit, the third sub-pixel located in the first row of the third column 413 And the third sub-pixel in the second row of the third column 413 Together form a display unit, the first sub-pixels in the first column and third row 411 And the first subpixel in the first column and the fourth row 411 Together form a display unit, the second sub-pixels in the second column and third row 412 And the second subpixel located in the second column and the fourth row 412 Together form a display unit, the third sub-pixel located in the third column and third row 413 And the third subpixel in the third column and fourth row 413 Together form a display unit, and so on; the same display unit 401 The sub-pixels in display the same color.

Preferably, the first sub-pixel 31 , The second sub-pixel 32 And the third sub-pixel 33 Display blue, green and red respectively.

Specifically, in a preferred embodiment of the present invention, the liquid crystal display panel 10 Each of the sub-pixels in the eight-domain structure is a sub-pixel with an eight-domain structure, and each sub-pixel of the eight-domain structure includes a primary area pixel electrode and a secondary area pixel electrode. A zigzag electrode, four domains are formed by the "meter" zigzag electrode, combined with the difference in driving voltage applied to the pixel electrode in the main region and the pixel electrode in the subregion, so that eight domains are formed in each sub-pixel, and each domain corresponds to The liquid crystals of all of them fall down in different directions, which can improve the chromaticity and viewing angle of the liquid crystal display panel.

Specifically, the liquid crystal display panel 10 Also includes multiple parallel data lines arranged at intervals twenty one And multiple parallel scan lines twenty two , The data line twenty one And scan lines twenty two Insulation cross, each data line twenty one A row of sub-pixels is electrically connected to each scan line twenty two A row of sub-pixels is electrically connected.

Further, in the first embodiment of the present invention, each display unit 401 Provide a raw grayscale data, for example, in an embodiment of the present invention to each display unit through an external circuit 401 Provide one 100 Grayscale raw grayscale data.

Specifically, the processing unit 200 For each display unit 20 When processing the original grayscale value, set each display unit 20 The sum of the first display gray scale value and the second display gray scale value is equal to the display unit 20 Of the original grayscale value 2 Times, for example corresponding steps S2 middle 100 Gray scale, forming a 150 Grayscale sum 50 Grayscale.

Specifically, the processing unit 200 The specific numerical values of the first displayed gray scale value and the second displayed gray scale value can be searched through a preset look-up table or can be calculated through a preset processing function.

It should be noted that each display unit is driven by the first display gray scale value and the second display gray scale value respectively 20 The two sub-pixels in the display can make the same display unit 20 The two sub-pixels in the two have different bright and dark states, so that the liquid crystal in the area corresponding to the two sub-pixels is deflected in different directions, and after the two sub-pixels are combined, the display unit 20 The brightness is the same as using the original grayscale data, which can enrich the orientation of the liquid crystal molecules without changing the display brightness of the display screen, thereby improving the chroma viewing angle of the LCD panel and improving the viewing of the LCD panel at a large viewing angle Experience.

Further, the driving unit 300 When driving, the LCD panel 10 The polarity distribution of the driving voltage of each sub-pixel is set, specifically, the liquid crystal display panel is set 10 The polar distribution of each sub-pixel in is 1+2line The distribution form of 2 As shown, suppose N Is a positive integer 4N-3 Line and section 4N In the sub-pixels, each 4 A group of consecutively arranged sub-pixels, the polarity of the driving voltage of each sub-pixel of the same group is in turn positive ‑ negative ‑ negative ‑ Positive 4N-2 Line and section 4N-1 In the sub-pixels, each 4 A group of consecutively arranged sub-pixels, the polarity of the driving voltage of each sub-pixel of the same group is in turn negative ‑ positive ‑ positive ‑ Negatively, the combination of the polarity distribution and the above-mentioned driving method can avoid display defects such as shaking of the head or flickering of the picture during driving, and further ensure the display effect.

Therefore, in the present invention, the sub-pixels of the eight-domain structure are matched with the above-mentioned driving structure, and simultaneously combined 1+2line The polar distribution can fully enhance the chromaticity and viewing angle of the LCD panel, improve the viewing experience of the LCD panel at a large viewing angle, and avoid display defects such as shaking the head or flickering during the driving process to ensure the driving effect.

In summary, the present invention provides a display driving method, including the following steps: S1 Provide a liquid crystal display panel, the liquid crystal display panel includes a plurality of sub-pixels arranged in an array, set each adjacent in the liquid crystal display panel 2 A sub-pixel with the same color is a display unit; steps S2 、Get the original gray level value of each display unit; Steps S3 Processing the original grayscale values of each display unit to generate a first display grayscale value and a second display grayscale value of each display unit, the first display grayscale value being greater than the second display grayscale value; step S4 , Driving the two sub-pixels in each display unit for display with the first display gray-scale value and the second display gray-scale value of each display unit, and making one of any two adjacent sub-pixels in the liquid crystal display panel Driven by the first display grayscale value of its corresponding display unit, and driven by the second display grayscale value of its corresponding display unit, can improve the chromaticity viewing angle of the liquid crystal display panel and improve the liquid crystal display panel at a large viewing angle Under the viewing experience. The invention also provides a liquid crystal display device, which can improve the chroma viewing angle of the liquid crystal display panel and improve the viewing experience of the liquid crystal display panel under a large viewing angle.

As mentioned above, those of ordinary skill in the art can make various other corresponding changes and modifications according to the technical solutions and technical concepts of the present invention, and all such changes and modifications should fall within the protection scope of the claims of the present invention. .

Claims (10)

1. A display driving method includes the following steps:

   Step S1: Provide a liquid crystal display panel, the liquid crystal display panel includes a plurality of sub-pixels arranged in an array, and set each adjacent two sub-pixels of the same color in the liquid crystal display panel as a display unit;

   Step S2: Obtain the original grayscale value of each display unit;

   Step S3: Process the original grayscale values of each display unit to generate a first display grayscale value and a second display grayscale value of each display unit, where the first display grayscale value is greater than the second display grayscale value;

   Step S4: Drive two sub-pixels in each display unit to display with the first display gray-scale value and the second display gray-scale value of each display unit, and make any two adjacent sub-pixels in the liquid crystal display panel One is driven by the first display grayscale value of its corresponding display unit, and the other is driven by the second display grayscale value of its corresponding display unit.
2. The display driving method of claim 1, wherein the plurality of sub-pixels comprises: a plurality of first sub-pixels, a plurality of second sub-pixels, and a plurality of third sub-pixels, the first sub-pixels, the second The colors of the sub-pixels and the third sub-pixel are different; each sub-pixel in the same row is alternately and repeatedly arranged in the order of the first sub-pixel, the second sub-pixel and the third sub-pixel, and the colors of the sub-pixels in the same column are the same; each One display unit includes two sub-pixels arranged continuously in the column direction.
3. The display driving method according to claim 1, wherein each of the sub-pixels is an eight-domain structure sub-pixel.
4. The display driving method according to claim 1, wherein Let N be a positive integer. In the 4N-3th row and the 4Nth subpixel, every four consecutively arranged subpixels are a group, and the polarity of the driving voltage of each subpixel in the same group is positive-negative-negative -positive;

   In the 4N-2th row and the 4N-1th subpixel, every four consecutively arranged subpixels are a group, and the polarity of the driving voltage of each subpixel in the same group is negative-positive-positive-negative.
5. The display driving method of claim 1, wherein the sum of the first display gray scale value and the second display gray scale value of each display unit is equal to twice the original gray scale value of the display unit.
6. A liquid crystal display device includes: an acquisition unit, a processing unit connected to the acquisition unit, a driving unit connected to the processing unit, and a liquid crystal display panel connected to the driving unit;

   The liquid crystal display panel includes a plurality of sub-pixels arranged in an array, and each adjacent two sub-pixels of the same color are a display unit;

   The obtaining unit is used to obtain the original grayscale value of each display unit;

   The processing unit is used to process the original grayscale value of each display unit to generate a first display grayscale value and a second display grayscale value of each display unit, the first display grayscale value is greater than the second display grayscale Order value

   The driving unit is used to drive two sub-pixels in each display unit to display with the first display gray scale value and the second display gray scale value of each display unit, and to make any two adjacent two of the liquid crystal display panel One of the sub-pixels is driven by the first display gray scale value of its corresponding display unit, and the other is driven by the second display gray scale value of its corresponding display unit.
7. The liquid crystal display device according to claim 6, wherein the plurality of sub-pixels include: a plurality of first sub-pixels, a plurality of second sub-pixels and a plurality of third sub-pixels, The colors of the sub-pixels and the third sub-pixel are different; each sub-pixel in the same row is alternately and repeatedly arranged in the order of the first sub-pixel, the second sub-pixel and the third sub-pixel, and the colors of the sub-pixels in the same column are the same; each One display unit includes two sub-pixels arranged continuously in the column direction.
8. The liquid crystal display device according to claim 6, wherein each of the sub-pixels is an eight-domain structure sub-pixel.
9. The liquid crystal display device according to claim 6, wherein N is a positive integer, and in the 4N-3th row and the 4Nth subpixel, every four consecutively arranged subpixels are a group, and each subpixel of the same group The polarity of the driving voltage is positive-negative-negative-positive;

   In the 4N-2th row and the 4N-1th subpixel, every four consecutively arranged subpixels are a group, and the polarity of the driving voltage of each subpixel in the same group is negative-positive-positive-negative.
10. The liquid crystal display device of claim 6, wherein the sum of the first display gray scale value and the second display gray scale value of each display unit is equal to twice the original gray scale value of the display unit.