WO2020082618A1

WO2020082618A1 - Display panel and liquid crystal display device

Info

Publication number: WO2020082618A1
Application number: PCT/CN2019/070928
Authority: WO
Inventors: 乔红玉; 胡雪; 黄文杰; 吴苗发
Original assignee: 深圳市华星光电技术有限公司
Priority date: 2018-10-23
Filing date: 2019-01-09
Publication date: 2020-04-30
Also published as: CN109215600A

Abstract

A display panel comprising a sub-pixel unit array and a plurality of data lines (30), wherein each data line (30) is connected to the same number of sub-pixels (10) as the number of rows of the sub-pixel unit array, and one sub-pixel (10) in each row of sub-pixels (10) is correspondingly connected to the data line (30); each row of sub-pixels (10) and each column of sub-pixels (10) both comprise first pixels (11) and second pixels (12), and all the sub-pixels (10) connected to each data line (30) are either first pixels (11) or second pixels (12).

Description

Display panel and liquid crystal display device

Technical field

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

Background technique

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 (backlight module) module). The working principle of the LCD panel is on the thin film transistor substrate (Thin Film Transistor Array Substrate, TFT Array Substrate) and the color filter substrate (Color Filter, CF) are filled with liquid crystal molecules, and pixel voltage and common voltage are applied to the two substrates respectively. The electric field formed between the pixel voltage and the common voltage controls the liquid crystal molecules. The direction of rotation to refract the light from the backlight module to produce a picture.

Liquid crystal molecules have a characteristic. If the same voltage is applied to the liquid crystal molecules for a long time, the liquid crystal molecules will be polarized. Even if the voltage is canceled, the liquid crystal molecules will no longer be able to rotate due to the change in the electric field due to the destruction of the characteristics. The display panel must be driven by AC. Currently, the LCD panel supports multiple inversion modes, such as dot inversion mode, row inversion mode, and column inversion mode.

However, in the currently adopted 1 + n line inversion mode, the source driver needs to output a large swing across voltage, which results in a large power consumption.

technical problem

In the existing display panel, the source driver needs to output a large swing voltage, which results in a large power consumption.

Technical solution

A display panel, including:

A sub-pixel unit array, which includes a plurality of sub-pixels distributed in an array;

A source driver for providing driving signals to the sub-pixels;

A data line array, which includes a plurality of data lines electrically connected to the source driver, for receiving the driving signal of the source driver and transmitting it to the sub-pixels;

A scanning line array, which includes a plurality of scanning lines, each of which is connected to a row of sub-pixels;

Each of the data lines is connected with the same number of sub-pixels as the number of rows of the sub-pixel unit array, and each sub-pixel of each row has a sub-pixel corresponding to a data line; The sub-pixels and the sub-pixels of each column include a first pixel and a second pixel, and the data line array provides the polarity of the first driving signal to the first pixel and the second driving to the second pixel The polarities of the signals are opposite, and all the sub-pixels connected to each of the data lines are either the first pixel or the second pixel.

Preferably, in the sub-pixels in each row, a first combination including two of the first pixels and a second combination including two of the second pixels are alternately arranged.

Preferably, in each column of the sub-pixels, a third combination including two of the first pixels and a fourth combination including two of the second pixels are alternately arranged.

Preferably, one of the data lines connects at least the sub-pixel located in the n-th row and m-column, the sub-pixel located in the n + 1-th row and m-column, the sub-pixel located in the n + 2th row and m + 2 column, and located in the n-th +3 rows of m + 2 columns of subpixels, n + 4 rows of m columns of subpixels, n + 5 rows of m columns of subpixels, n is an odd number greater than or equal to 1, m is greater than or equal to 1 Integer.

Preferably, one of the data lines connects at least the sub-pixel located in the nth row and m column, the sub-pixel located in the n + 1th row and m column, the sub-pixel located in the n + 2th row and m-2 column, and located in the n +3 row m-2 column subpixels, n + 4 row m column subpixels, n + 5 row m column subpixels, n is an odd number greater than or equal to 1, m is an integer greater than 2 .

Preferably, one of the data lines connects at least the sub-pixel located in the n-th row and m-column, the sub-pixel located in the n + 1-th row and m-column, the sub-pixel located in the n + 2th row and m + 2 column, and located in the n-th +3 rows of m + 2 columns of subpixels, n + 4 rows of m + 4 columns of subpixels, n + 5 rows of m + 4 columns of subpixels, n is an odd number greater than or equal to 1, m is Integer greater than or equal to 1.

Preferably, one of the data lines connects at least the sub-pixel located in the nth row and m column, the sub-pixel located in the n + 1th row and m column, the sub-pixel located in the n + 2th row and m-2 column, and located in the n +3 row m-2 column subpixel, n + 4 row m-4 column subpixel, n + 5 row m-4 column subpixel, n is an odd number greater than or equal to 1, m is Integer greater than 4.

Preferably, the first data line connects at least the sub-pixels located in the n-th row and m-column, the sub-pixels located in the n + 1-th row and m-column, the sub-pixels located in the n + 2th row and m + 1-column, and the sub-pixels located in the n + th row 3 rows of m + 1 columns of subpixels, n + 4 rows of m columns of subpixels, n + 5 rows of m columns of subpixels; the second data line adjacent to the first data line is connected at least in turn The sub-pixel in the nth row and m + 1 column, the sub-pixel in the n + 1th row and m + 1 column, the sub-pixel in the n + 2th row and m-column, the sub-pixel in the n + 3th row and m-column, For the sub-pixels in the n + 4th row and m + 1 column, and the sub-pixels in the n + 5th row and m + 1 column, n is an odd number greater than or equal to 1, and m is an integer greater than or equal to 1.

Preferably, the first data line connects at least the sub-pixels located in the nth row and m column, the sub-pixels located in the n + 1th row and m + 1 column, the sub-pixels located in the n + 2th row and m + 2 column, and the n + 3 rows and m + 2 columns of sub-pixels, n + 4 rows and m + 1 columns of sub-pixels, and n + 5 rows and m columns of sub-pixels; the second data line adjacent to the first data line Connect at least the sub-pixels located in the nth row m + 1 column, the sub-pixels located in the n + 1 row m-1 column, the sub-pixels located in the n + 2 row m-2 column, and the sub-pixels located in the n + 3 row m-2 -2 columns of subpixels, n + 4 rows and m columns of subpixels, n + 5 rows and m + 1 columns of subpixels, n is an odd number greater than or equal to 1, m is an integer greater than or equal to 3 .

The invention also provides a liquid crystal display device comprising the above-mentioned display panel, the display panel comprising:

A source driver for providing driving signals to the sub-pixels;

Beneficial effect

Combining the 1 + 2 row inversion mode and the column inversion mode, all sub-pixels connected on each of the data lines are pixels of the same polarity, and within one row scan period, the sub-pixels on one data line The pixel only needs to perform polarity conversion once, thereby reducing the power consumption of the source driver.

BRIEF DESCRIPTION

In order to more clearly explain the embodiments or the technical solutions in the prior art, the following will briefly introduce the drawings used in the embodiments or the description of the prior art. Obviously, the drawings in the following description are only inventions. For some embodiments, those of ordinary skill in the art can obtain other drawings based on these drawings without creative work.

FIG. 1 is a schematic diagram of a display panel in Embodiment 1;

2 is a schematic diagram of a display panel after removing the source driver and the scan line array in the second embodiment;

3 is a schematic diagram of a display panel after removing the source driver and the scanning line array in the third embodiment;

4 is a schematic diagram of a display panel after removing the source driver and the scanning line array in the fourth embodiment;

5 is a schematic diagram of a display panel after removing the source driver and the scanning line array in the fifth embodiment;

6 is a schematic diagram of a display panel after removing the source driver and the scan line array in the sixth embodiment.

Reference signs: 10, sub-pixel; 11, first pixel; 12, second pixel; 20, source driver; 30, data line; 31, first data line; 32, second data line; 40, scan line.

Embodiments of the invention

The descriptions of the following embodiments refer to additional drawings to illustrate specific embodiments that can be implemented by the present invention. Directional terms mentioned in the present invention, such as [upper], [lower], [front], [rear], [left], [right], [inner], [outer], [side], etc., are for reference only Attach the direction of the schema. Therefore, the directional terminology is used to illustrate and understand the present invention, not to limit the present invention. In the figure, units with similar structures are indicated by the same reference numerals.

The present invention is directed to the existing display panel. In the 1 + n line inversion mode adopted, the source driver needs to output a large swing across voltage, resulting in a technical problem of large power consumption. The present invention can solve the above problem.

Example one:

A display panel, as shown in FIG. 1, the display panel includes a sub-pixel unit array, a source driver 20, a data line array, and a scan line array; wherein, the sub-pixel unit array includes a plurality of sub-pixels distributed in an array 10; the source driver 20 is used to provide a driving signal to the sub-pixel 10; the data line array includes a plurality of data lines 30 electrically connected to the source driver 20, for receiving the driving signal of the source driver 20 and transmitting to the sub Pixel 10; the scan line array includes a plurality of scan lines 40, and each of the scan lines 40 is connected to a row of sub-pixels 10.

Each of the data lines 30 is connected with the same number of sub-pixels 10 as the number of rows of the sub-pixel unit array, and each sub-pixel 10 of each row has one sub-pixel 10 corresponding to one data line 30 Connected; the sub-pixels 10 of each row and the sub-pixels 10 of each column include a first pixel 11 and a second pixel 12, the data line array provides the polarity of the first drive signal to the first pixel 11 Contrary to the polarity of the second driving signal provided to the second pixel 12, all the sub-pixels 10 connected to each of the data lines 30 are either the first pixel 11 or the second pixel 12.

Combining the row inversion mode and the column inversion mode, all the sub-pixels 10 connected to each of the data lines 30 are sub-pixels 10 of the same polarity, and within one row scan period, the The sub-pixel 10 only needs to perform polarity conversion once, thereby reducing the power consumption of the source driver 20.

Specifically, in the sub-pixels 10 in each row, a first combination including two first pixels 11 and a second combination including two second pixels 12 are alternately arranged.

In each column of the sub-pixels 10, a third combination including two of the first pixels 11 and a fourth combination including two of the second pixels 12 are alternately arranged.

In this preferred embodiment, the 1 + 2 line inversion mode is adopted. It should be understood that, in actual implementation, other line inversion modes may also be used.

Wherein, one of the data lines 30 connects at least the sub-pixel 10 located in the nth row and m column, the sub-pixel 10 located in the n + 1th row and m column, and the sub-pixel 10 located in the n + 2 row and m + 2 column, The sub-pixels 10 located in the n + 3 row and m + 2 column, the sub-pixels 10 located in the n + 4 row and m column, and the sub-pixels 10 located in the n + 5 row and m column, n is an odd number greater than or equal to 1, m is an integer greater than or equal to 1.

Implementation two:

A display panel, as shown in FIG. 2, differs from the first embodiment only in the arrangement of the data lines 30; wherein, one of the data lines 30 is connected to at least the sub-pixels located in the nth row and m column 10. Sub-pixel 10 located in the n + 1th row and m-column, sub-pixel 10 located in the n + 2th row and m-2 column, sub-pixel 10 located in the n + 3th row and m-2 column, located in the n + 4th row The sub-pixel 10 in the m-th row and the sub-pixel 10 in the m-th column in the n + 5th row, n is an odd number greater than or equal to 1, and m is an integer greater than 2.

Example three:

A display panel, as shown in FIG. 3, differs from other embodiments only in the arrangement of the data lines 30; wherein, one of the data lines 30 is connected to at least the sub-pixels located in the nth row and m columns 10. The sub-pixel 10 located in the n + 1th row and m column, the sub-pixel 10 located in the n + 2th row and m + 2 column, the sub-pixel 10 located in the n + 3th row and m + 2 column, and located in the n + 4th row The sub-pixel 10 in row m + 4 and the sub-pixel 10 in column m + 4 in row n + 5, n is an odd number greater than or equal to 1, and m is an integer greater than or equal to 1.

Example 4:

A display panel, as shown in FIG. 4, is different from other embodiments only in the arrangement of the data lines 30; wherein, one of the data lines 30 is connected to at least the sub-pixels located in the nth row and m columns 10. Sub-pixel 10 located in the n + 1th row and m-column, sub-pixel 10 located in the n + 2th row and m-2 column, sub-pixel 10 located in the n + 3th row and m-2 column, located in the n + 4th row The sub-pixel 10 in the row m-4 column and the sub-pixel 10 in the n + 5 row m-4 column, n is an odd number greater than or equal to 1, and m is an integer greater than 4.

Example 5:

A display panel, as shown in FIG. 5, differs from other embodiments only in the arrangement of the data lines 30; wherein, the first data lines 31 are connected to the sub-pixels 10 at the nth row and mth column at least in sequence , The sub-pixel 10 located in the n + 1 row and m column, the sub-pixel 10 located in the n + 2 row and m + 1 column, the sub-pixel 10 located in the n + 3 row and m + 1 column, and located in the n + 4 row The sub-pixel 10 in the m-column and the sub-pixel 10 in the m-column in the n + 5th row; the second data line 32 adjacent to the first data line 31 at least sequentially connects the sub-pixel 10 in the m + 1-column in the nth row, Sub-pixels 10 in the n + 1th row and m + 1 column, sub-pixels 10 in the n + 2th row and m-column, sub-pixels 10 in the n + 3th row and m-column, and m + 1 in the n + 4th row and m + 1 column The sub-pixel 10 in the column and the sub-pixel 10 in the m + 1 column in the n + 5th row, n is an odd number greater than or equal to 1, and m is an integer greater than or equal to 1.

Example 6:

A display panel, as shown in FIG. 6, differs from other embodiments only in the arrangement of the data lines 30; wherein, the first data lines 31 are connected to the sub-pixels 10 at the nth row and mth column at least in sequence , The sub-pixel 10 located in the n + 1 row and m + 1 column, the sub-pixel 10 located in the n + 2 row and m + 2 column, the sub-pixel 10 located in the n + 3 row and m + 2 column, and located in the n + The sub-pixels 10 in the 4th row and m + 1 column, and the sub-pixels 10 in the n + 5th row and m column; the second data line 32 adjacent to the first data line 31 connects at least the ones in the nth row and m + 1 column Sub-pixel 10, sub-pixel 10 in the n + 1th row and m-1 column, sub-pixel 10 in the n + 2th row and m-2 column, sub-pixel 10 in the n + 3th row and m-2 column, For the sub-pixel 10 in the n + 4th row and m-column, and the sub-pixel 10 in the n + 5th row and m + 1-column, n is an odd number greater than or equal to 1, and m is an integer greater than or equal to 3.

A liquid crystal display device includes the above-mentioned display panel.

The beneficial effects of the present invention are: combining the 1 + 2 row inversion mode and the column inversion mode, all the sub-pixels 10 connected to each of the data lines 30 are pixels of the same polarity, scanned in one row During the period, the sub-pixels 10 on one data line 30 only need to perform polarity conversion once, thereby reducing the power consumption of the source driver 20.

In summary, although the present invention has been disclosed as above with preferred embodiments, the above-mentioned preferred embodiments are not intended to limit the present invention. Those of ordinary skill in the art can do various things without departing from the spirit and scope of the present invention. Kind of changes and retouching, so the protection scope of the present invention is subject to the scope defined by the claims.

Claims

A display panel, wherein the display panel includes:

A sub-pixel unit array, which includes a plurality of sub-pixels distributed in an array;

A source driver for providing driving signals to the sub-pixels;

A data line array, which includes a plurality of data lines electrically connected to the source driver, for receiving the driving signal of the source driver and transmitting it to the sub-pixels;

A scanning line array, which includes a plurality of scanning lines, each of which is connected to a row of sub-pixels;

Each of the data lines is connected with the same number of sub-pixels as the number of rows of the sub-pixel unit array, and each sub-pixel of each row has a sub-pixel corresponding to a data line; The sub-pixels and the sub-pixels of each column include a first pixel and a second pixel, and the data line array provides the polarity of the first driving signal to the first pixel and the second driving to the second pixel The polarities of the signals are opposite, and all the sub-pixels connected to each of the data lines are either the first pixel or the second pixel.
The display panel of claim 1, wherein in the sub-pixels of each row, a first combination including two of the first pixels and a second combination including two of the second pixels are alternately arranged.
The display panel according to claim 2, wherein in each column of the sub-pixels, a third combination including two of the first pixels and a fourth combination including two of the second pixels are alternately arranged.
The display panel according to claim 3, wherein one of the data lines connects at least the sub-pixels located in the n-th row and m-column, the sub-pixels located in the n + 1-th row and m-column, and the n + 2th row m + Subpixels in column 2, subpixels in column n + 3, m + 2, subpixels in column n + 4, m, and subpixels in column n + 5, m, n is greater than or equal to 1 Is an odd number, m is an integer greater than or equal to 1.
The display panel according to claim 3, wherein one of the data lines connects at least the sub-pixels located in the n-th row and m-column, the sub-pixels located in the n + 1-th row and m-column, and the n- + 2th row m- Sub-pixels in column 2, sub-pixels in column n + 3 row m-2, sub-pixels in column n + 4 row m, sub-pixels in column n + 5 row m, n is greater than or equal to 1 Is an odd number, m is an integer greater than 2.
The display panel according to claim 3, wherein one of the data lines connects at least the sub-pixels located in the n-th row and m-column, the sub-pixels located in the n + 1-th row and m-column, and the n + 2th row m + Sub-pixels in column 2, sub-pixels in column n + 3, m + 2, sub-pixels in column n + 4, m + 4, and sub-pixels in column n + 5, m + 4, n is An odd number greater than or equal to 1, m is an integer greater than or equal to 1.
The display panel according to claim 3, wherein one of the data lines connects at least the sub-pixels located in the n-th row and m-column, the sub-pixels located in the n + 1-th row and m-column, and the n- + 2th row m- Sub-pixels in column 2, sub-pixels in column n + 3, m-2, sub-pixels in column n + 4, m-4, and sub-pixels in column n + 5, m-4 Odd numbers greater than or equal to 1, m is an integer greater than 4.
The display panel according to claim 3, wherein the first data line connects at least the sub-pixels located in the n-th row and m-column, the sub-pixels located in the n + 1-th row and m-column, and the n + 2th row m + 1 Column sub-pixels, sub-pixels in the n + 3th row and m + 1 column, sub-pixels in the n + 4th row and m-column, sub-pixels in the n + 5th row and m-column; adjacent to the first data line The second data line connects at least the sub-pixel located in the nth row and m + 1 column, the sub-pixel located in the n + 1th row and m + 1 column, the sub-pixel located in the n + 2th row and m column, and the sub-pixel located in the n + th row 3 rows and m columns of sub-pixels, n + 4 rows and m + 1 columns of sub-pixels, and n + 5 rows and m + 1 columns of sub-pixels, n is an odd number greater than or equal to 1, m is greater than or equal to An integer of 1.
The display panel according to claim 3, wherein the first data line connects at least the sub-pixels located in the n-th row and m-column, the sub-pixels located in the n + 1-th row and m + 1-column, and the n-th row and the n + 2th row m +2 column subpixels, n + 3 row m + 2 column subpixels, n + 4 row m + 1 column subpixels, n + 5 row m column subpixels; and the first The second data line adjacent to the data line connects at least the sub-pixel located in the nth row and m + 1 column, the sub-pixel located in the n + 1th row and m-1 column, and the sub-pixel located in the n + 2th row and m-2 column Pixels, sub-pixels located in the n + 3 row and m-2 column, sub-pixels located in the n + 4 row and m column, and sub-pixels located in the n + 5 row and m + 1 column, n is an odd number greater than or equal to 1 , M is an integer greater than or equal to 3.
A liquid crystal display device, wherein the liquid crystal display device includes a display panel, and the display panel includes:

A sub-pixel unit array, which includes a plurality of sub-pixels distributed in an array;

A source driver for providing driving signals to the sub-pixels;

A data line array, which includes a plurality of data lines electrically connected to the source driver, for receiving the driving signal of the source driver and transmitting it to the sub-pixels;

A scanning line array, which includes a plurality of scanning lines, each of which is connected to a row of sub-pixels;

Each of the data lines is connected with the same number of sub-pixels as the number of rows of the sub-pixel unit array, and each sub-pixel of each row has a sub-pixel corresponding to a data line; The sub-pixels and the sub-pixels of each column include a first pixel and a second pixel, and the data line array provides the polarity of the first driving signal to the first pixel and the second driving to the second pixel The polarities of the signals are opposite, and all the sub-pixels connected to each of the data lines are either the first pixel or the second pixel.