CN109471288A - Display panel and method for manufacturing liquid crystal display panel - Google Patents

Abstract

The invention relates to a display panel and a manufacturing method of a liquid crystal display panel, which are applied to a display system with a half-source driving module and provide pixel units in a first pixel column and a second pixel column with different light transmittance ratios, so that the first pixel column and the second pixel column have the same brightness when receiving different time-sharing parts of the same driving signal. Therefore, under the driving of the actual driving signal, the display brightness difference between the first pixel row and the second pixel row is eliminated, so that the vertical bright and dark lines are eliminated, and the display quality of the display is improved.

Description

The manufacturing method of display panel and liquid crystal display panel

Technical field

The present invention relates to technical field of liquid crystal display, more particularly to the manufacture of a kind of display panel and liquid crystal display panel Method.

Background technique

With the popularization of Half source Driving (half source drive) display technology, more and more liquid crystals Show that panel begins to use.Compared to traditional display, Half source Driving display is due to saving (the source source Pole) driving IC quantity, the production cost that can more effectively control the display panel.Since Half source Driving is aobvious Show that device saves the quantity of source driving IC, leads to the change of many design structures in display, it is a degree of to causing It influences.

Fig. 1 is that display source drives IC quantity to change schematic diagram, as shown in Figure 1, Half source Driving is aobvious The source driving IC quantity for showing device is the half being typically designed.Data believes in Half source Driving display Number in positive-negative polarity conversion, due to RC circuit delay, it is brighter to will cause data line (signal data line), and another Data line is darker, especially shows to be especially apparent in low ash rank.

Fig. 2 is 1+2line driving method schematic diagram in Half source Driving display, as shown in Fig. 2, Data Signal is in positive-negative polarity conversion, and due to RC circuit delay, the data waveform of previous pixel does not have the data of the latter pixel Waveform is perfect, causes the charge differential of Pixel (pixel) 1 and Pixel2, and macro manifestations are vertical bright concealed wire.And vertical bright concealed wire Be evaluation display display quality an important factor for one of so that the display quality of Half source Driving display by To larger impact.

Wherein, vertical bright concealed wire shows particularly evident in Half source Driving display, is removing Half In other displays outside source Driving display, there is also vertical bright concealed wire problems to a certain extent.

Summary of the invention

Based on this, it is necessary to have the defects that vertical bright concealed wire for display, provide a kind of display panel and liquid crystal Show the manufacturing method of panel.

A kind of display panel, comprising:

Array of display, array of display include multiple row successively alternately arranged first pixel column and the second pixel column, the first picture Element column and the second pixel column are included in the multiple pixels being arranged successively on column direction；First pixel column and the second pixel column are pairs of And timesharing receives corresponding driving signal；

Wherein, the first pixel column and the second pixel column are configured different light transmittances respectively, so that the first pairs of pixel For column from the respective pixel of the second pixel column when receiving the different time shared portions of same driving signal, the brightness of presentation is consistent.

Above-mentioned display panel provides in the pixel unit and the second pixel column in the first different pixel column of light transmittance Pixel unit so that the first pixel column from the second pixel column when receiving the different time shared portions of same driving signal, present Brightness it is consistent.The display brightness of the first pixel column and the second pixel column is eliminated under actual drive signal driving based on this Difference, to eliminate vertical bright concealed wire, to improve the display quality of display.

The first pixel column and the second pixel are configured different pixel liquid crystal gaps respectively in one of the embodiments, So that the first pixel column and the second pixel column are respectively provided with different light transmittances.

The first pixel column and the corresponding sark of the second pixel column have different height in one of the embodiments, Wherein, sark is used to separate thin film transistor (TFT) glass and colored filter to form the space for accommodating liquid crystal.

The first pixel is classified as odd column in one of the embodiments, and the second pixel is classified as even column, the first pixel column Greater than the light transmittance of the second pixel column.

Each pixel liquid crystal gap of the first pixel column is 3.9~4.1um in one of the embodiments, and the second pixel column is each Pixel liquid crystal gap is 3.4~3.6um.

The first pixel column and the second pixel column are configured different refractive index differences respectively in one of the embodiments, So that the first pixel column and the second pixel column are respectively provided with different light transmittances.

Also provide a kind of manufacturing method of liquid crystal display panel, display panel includes array of display, and array of display includes the One pixel column and the second pixel column, the first pixel column include the multiple pixel units being arranged successively in a column direction, the second pixel Column include the multiple pixel units being arranged successively in a column direction；Comprising steps of

Thin film transistor (TFT) glass is provided；

Colored filter is provided；

It carries out liquid crystal injection and is bonded thin film transistor (TFT) glass and colored filter；

Wherein, in the step of colored filter is provided or is bonded:

Different light transmittances is respectively configured in first pixel column and the second pixel column, so that pairs of the first pixel column and the For the respective pixel of two pixel columns when receiving the different time shared portions of same driving signal, the brightness of presentation is consistent.

The manufacturing method of above-mentioned liquid crystal display panel, by the step of providing colored filter or being bonded The light transmittance of each pixel unit in the light transmittance and the second pixel column of each pixel unit in the first different pixel columns is formed, so that First pixel column is from the second pixel column when receiving the different time shared portions of same driving signal, and the brightness of presentation is consistent, base It is poor in the display brightness that this eliminates the first pixel column and the second pixel column, to eliminate the vertical bright concealed wire occurred in display, mention The display quality of high display.

In one of the embodiments, in the process being bonded, comprising steps of

First pixel column and the second pixel are respectively configured to different pixel liquid crystal gaps, so that the first pixel column and second Pixel column is respectively provided with different light transmittances.

In one of the embodiments, in the process being bonded, comprising steps of

The sark with different height is provided respectively for the first pixel column and the second pixel column, wherein sark is used It separates in by thin film transistor (TFT) glass and colored filter to form the space for accommodating liquid crystal.

The process of colored filter is being provided in one of the embodiments, comprising steps of

Different refractive index differences is respectively set for the first pixel column and the second pixel column.

Detailed description of the invention

Fig. 1 is that display source drives IC quantity to change schematic diagram；

Fig. 2 is 1+2line driving method schematic diagram in Half source Driving display；

Fig. 3 is display panel structure schematic diagram；

Fig. 4 is liquid crystal display panel sectional view；

Fig. 5 is the display panel sectional view with sark；

Fig. 6 is the manufacturing method flow chart of liquid crystal display panel.

Specific embodiment

Purpose, technical solution and technical effect for a better understanding of the present invention, below in conjunction with drawings and examples Further explaining illustration is carried out to the present invention.State simultaneously, embodiments described below for explaining only the invention, not For limiting the present invention.

The embodiment of the present invention provides a kind of display panel:

Fig. 3 is display panel structure schematic diagram, as shown in figure 3, display panel applications are in half source drive module In display system, comprising:

Array of display, array of display include multiple row successively alternately arranged first pixel column D1 and the second pixel column D2, the One pixel column D1 and the second pixel column D2 are included in the multiple pixels being arranged successively on column direction；First pixel column D1 and second Pixel column D2 is in pairs and timesharing is received from corresponding driving signal on half source drive module；

Wherein, the first pixel column D1 and the second pixel column D2 are configured different light transmittances respectively, so that pairs of first Pixel column D1 from the second respective pixel of pixel column D2 when receiving the different time shared portions of same driving signal, presentation it is bright Degree is consistent.

Wherein, the corresponding pixel of the first pixel column D1 is A1, and the corresponding pixel of the second pixel column D2 is B1.Display panel Half source drive signal first drives the column in the first pixel column D1 or the second pixel column D2, then drives another column.It is driving When positive-negative polarity conversion occurs for signal, due current potential is had not yet been reached in the pixel column first driven, and the pixel column then driven then may be used Close to ideal current potential.If what is first driven is the pixel A 1 in the first pixel column D1, the electricity of pixel A 1 in the first pixel column D1 Position is lower, and the display brightness of the pixel A 1 in the first pixel column D1 is lower than the display brightness of the pixel B 1 in the second pixel column D2, Overall performance is that the display brightness of the first pixel column D1 is lower than the display brightness of the second pixel column D2；If what is first driven is the second picture The pixel B 1 of element column D2, then the current potential of pixel B 1 is lower in the second pixel column D2, the display of the pixel B 1 in the second pixel column D2 Lower than the display brightness of the pixel A 1 in the first pixel column D1, overall performance is that the display brightness of the second pixel column D2 is lower than for brightness The display brightness of first pixel column D1.I other words in the first pixel column D1 and the second pixel column D2 pixel potential difference, cause The display brightness difference of first pixel column D1 and the second pixel column D2.

Wherein, the first pixel column D1 and the second pixel column D2 is configured different light transmittances, i.e. the first pixel column D1 respectively It is greater than zero, and the presence of the absolute value of the difference with the absolute value of the difference of the second pixel column D2 light transmittance, so that the first pixel D1 is arranged from the second respective pixel of pixel column D2 when receiving the different time shared portions of same driving signal, the difference of light transmittance Bring display brightness difference, the display that can make up the first pixel column D1 and the second pixel column D2 caused by potential difference are bright Spend difference.

The first pixel column D1 and the second pixel are configured respectively between different pixel liquid crystals in one of the embodiments, Gap, so that the first pixel column D1 and the second pixel column D2 are respectively provided with different light transmittances.

The first pixel column D1 is odd column in one of the embodiments, and the second pixel column D2 is even column, the first pixel Arrange the light transmittance greater than the second pixel column D2 of D1.

In liquid crystal display panel, the different time shared portions of half source drive signal successively drive odd column and even column, Wherein, the different time shared portions of same driving signal, as shown in Fig. 2, Pixel1 driving signal corresponding with Pixel2 is as same The different time shared portions of one driving signal.When the first pixel column D1 is odd column, the corresponding driving signal of the first pixel column D1 is The corresponding driving signal of Pixel1；When the second pixel column D2 is even column, the corresponding driving signal of the second pixel column D2 is The corresponding driving signal of Pixel2.

As shown in Fig. 2, the current potential of the corresponding driving signal of Pixel2 is not achieved in the current potential of the corresponding driving signal of Pixel1, Therefore the display brightness of the first pixel column D1 will be lower than the display brightness of the second pixel column D2.Based on this, make the first pixel column D1 Light transmittance be greater than the light transmittance of the second pixel column D2, the display brightness of the first pixel column D1 can be improved in biggish charge rate, with It is lower caused poor with the display brightness of the second pixel column D2 to make up current potential.

Fig. 4 is liquid crystal display panel sectional view, as shown in figure 4, liquid crystal display panel includes thin film transistor (TFT) glass, orientation Layer, sealant, colored filter and liquid crystal.Thin film transistor (TFT) glass is covered with both alignment layers, and passes through sealant and colorized optical filtering Piece fitting forms sealing glue frame between thin film transistor (TFT) glass, sealant and colored filter, sealing glue frame is for injecting and sealing Liquid crystal molecule, wherein the spacing d between thin film transistor (TFT) glass and colored filter is pixel liquid crystal gap.

Wherein, the first pixel column D1 and the second pixel column D2 are configured different pixel liquid crystal gaps, i.e. the first picture respectively The absolute value of the difference in the pixel liquid crystal gap of element column D1 and the second pixel column D2 is greater than zero, and the absolute value of the difference is deposited So that the first pixel column D1 is from the second respective pixel of pixel column D2 in the different time shared portions for receiving same driving signal When, the difference bring display brightness difference in pixel liquid crystal gap can make up the first pixel column D1 caused by potential difference With the display brightness difference of the second pixel column D2.

The first pixel column D1 and the corresponding sark of the second pixel column D2 have different height in one of the embodiments, Degree, wherein sark is used to separate thin film transistor (TFT) glass and colored filter to form the space for accommodating liquid crystal.

Fig. 5 is the display panel sectional view with sark, as shown in figure 5, between thin film transistor (TFT) glass and colored filter For sark, the wherein height h correlation in pixel liquid crystal gap and sark.Generally, pixel liquid crystal gap H=h+ A, wherein a is certain height.The height h of different sarks is configured, can be matched for the first pixel column D1 and the second pixel column D2 Different pixel liquid crystal gaps is set, to make up the display brightness of the first pixel column D1 and the second pixel column D2 caused by potential difference Difference.Wherein, as a kind of preferable embodiment, each pixel liquid crystal gap the first pixel column D1 is 3.9~4.1um, second Each pixel liquid crystal gap pixel column D2 is 3.4~3.6um.

Wherein, sark includes photo spacer (gap control material).

Wherein, the relationship such as following formula in the pixel liquid crystal gap of pixel and penetrance:

Wherein, Δ n indicates refractive index difference, and d indicates pixel liquid crystal gap, n_eIt indicates refraction coefficient (vertical direction), n_oTable Show refraction coefficient (horizontal direction).

The first pixel column D1 and the second pixel column D2 are configured different refraction coefficients respectively in one of the embodiments, Difference, so that the first pixel column D1 and the second pixel column D2 are respectively provided with different light transmittances.

Refractive index difference such as above formula, pixel is bigger, and penetrance is bigger.Wherein, the first pixel column D1 and the second pixel column D2 is configured different refractive index differences respectively, i.e. the difference of the refractive index difference of the first pixel column D1 and the second pixel column D2 Absolute value is greater than zero, and the presence of the absolute value of the difference, so that the first pixel column D1 and the second respective pixel of pixel column D2 When receiving the different time shared portions of same driving signal, the difference bring display brightness difference of light transmittance can be more Mend the display brightness difference of the first pixel column D1 and the second pixel column D2 caused by potential difference.It wherein, can be colored by changing The material of optical filter, to change refractive index difference.It is configured different materials respectively for the first pixel column D1 and the second pixel column D2 Colored filter, to be configured different refractive index differences respectively for the first pixel column D1 and the second pixel column D2.

Above-mentioned display panel provides pixel unit and the second pixel column in the first different pixel column D1 of light transmittance Pixel unit in D2, so that the first pixel column D1 is from the second pixel column D2 in the different timesharing portions for receiving same driving signal The brightness of timesharing, presentation is consistent.The first pixel column D1 and the second pixel column are eliminated under actual drive signal driving based on this The display brightness of D2 is poor, to eliminate vertical bright concealed wire, to improve the display quality of display.

The embodiment of the present invention also provides a kind of manufacturing method of liquid crystal display panel:

Fig. 6 is the manufacturing method flow chart of liquid crystal display panel, as shown in fig. 6, liquid crystal display panel includes array of display, Array of display includes multiple row successively alternately arranged first pixel column D1 and the second pixel column D2, the first pixel column D1 and the second picture Element column D2 is included in the multiple pixels being arranged successively on column direction；First pixel column D1 and the second pixel column D2 in pairs and timesharing It receives from corresponding driving signal on half source drive module；Method includes step S100 to S102:

S100 provides thin film transistor (TFT) glass；

S101 provides colored filter；

S102 carries out liquid crystal injection and is bonded thin film transistor (TFT) glass and colored filter；

Wherein, it provides in the step of being bonded in colored filter or step S102 in step s101:

Different light transmittances is respectively configured in first pixel column D1 and the second pixel column D2, so that the first pairs of pixel column D1 from the second respective pixel of pixel column D2 when receiving the different time shared portions of same driving signal, the brightness one of presentation It causes.

The process being bonded in step S102 in one of the embodiments, comprising steps of

First pixel column D1 and the second pixel are respectively configured to different pixel liquid crystal gaps so that the first pixel column D1 and Second pixel column D2 is respectively provided with different light transmittances.

The process being bonded in step S102 in one of the embodiments, comprising steps of

The sark with different height is provided respectively for the first pixel column D1 and the second pixel column D2, wherein liner Object is used to separate thin film transistor (TFT) glass and colored filter to form the space for accommodating liquid crystal.

The process of colored filter is provided in step S101 in one of the embodiments, comprising steps of

Different refractive index differences is respectively set for the first pixel column D1 and the second pixel column D2.

Wherein, different refractive index differences is respectively set for the first pixel column D1 and the second pixel column D2, it can be by coloured silk On colo(u)r filter, the colored filter of different materials is respectively set for the first pixel column D1 and the second pixel column D2, so that the The refractive index difference of one pixel column D1 and the second pixel column D2 are different.

The manufacturing method of above-mentioned liquid crystal display panel, by the step of providing colored filter or being bonded The light transmittance in the light transmittance and the second pixel column D2 of the first different pixel column D1 is formed, so that the first pixel column D1 and second For pixel column D2 when receiving the different time shared portions of same driving signal, the brightness of presentation is consistent, eliminates the first picture based on this The display brightness of element column D1 and the second pixel column D2 are poor, to eliminate the vertical bright concealed wire occurred in display, improve display Display quality.

Each technical characteristic of above embodiments can be combined arbitrarily, for simplicity of description, not to above-described embodiment In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance Shield all should be considered as described in this specification.

Only several embodiments of the present invention are expressed for above embodiments, and the description thereof is more specific and detailed, but can not Therefore it is construed as limiting the scope of the patent.It should be pointed out that for those of ordinary skill in the art, Under the premise of not departing from present inventive concept, various modifications and improvements can be made, and these are all within the scope of protection of the present invention. Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of display panel characterized by comprising

Array of display, the array of display include multiple row successively alternately arranged first pixel column and the second pixel column, and described One pixel column and the second pixel column are included in the multiple pixels being arranged successively on column direction；First pixel column and described Two pixel columns are in pairs and timesharing receives corresponding driving signal；

Wherein, first pixel column and second pixel column are configured different light transmittances respectively, so that pairs of is described First pixel column, when receiving the different time shared portions of same driving signal, is presented from the respective pixel of the second pixel column Brightness it is consistent.

2. display panel according to claim 1, which is characterized in that first pixel column and second pixel column point Be not configured different pixel liquid crystal gaps so that first pixel column and second pixel column be respectively provided with it is different saturating Light rate.

3. display panel according to claim 2, which is characterized in that first pixel column and second pixel column pair The sark answered has different height, wherein the sark is for separating thin film transistor (TFT) glass and colored filter To form the space for accommodating liquid crystal.

4. display panel according to claim 1, it is characterised in that light transmittance, first pixel are classified as odd column, institute It states the second pixel and is classified as even column, the light transmittance greater than second pixel column of first pixel column.

5. display panel according to claim 2, which is characterized in that each pixel liquid crystal gap of the first pixel column is 3.9~4.1um, each pixel liquid crystal gap of the second pixel column are 3.4~3.6um.

6. display panel according to claim 1, which is characterized in that first pixel column and second pixel column point It is not configured different refractive index differences, so that first pixel column and second pixel column are respectively provided with different light transmissions Rate.

7. a kind of manufacturing method of liquid crystal display panel, which is characterized in that the liquid crystal display panel includes array of display, described Array of display includes multiple row successively alternately arranged first pixel column and the second pixel column, first pixel column and the second pixel Column are included in the multiple pixels being arranged successively on column direction；First pixel column and second pixel column are in pairs and timesharing Receive corresponding driving signal；The method includes the steps:

Thin film transistor (TFT) glass is provided；

Colored filter is provided；

It carries out liquid crystal injection and is bonded thin film transistor (TFT) glass and colored filter；

Wherein, in the step of colored filter is provided or is bonded:

Different light transmittances is respectively configured in first pixel column and second pixel column, so that pairs of first picture Element arranges the brightness of presentation from the respective pixel of the second pixel column when receiving the different time shared portions of same driving signal Unanimously.

8. the manufacturing method of liquid crystal display panel according to claim 7, which is characterized in that the mistake being bonded Journey, comprising steps of

Different pixel liquid crystal gaps is respectively configured in first pixel column and second pixel, so that first pixel Column and second pixel column are respectively provided with different light transmittances.

9. the manufacturing method of liquid crystal display panel according to claim 8, which is characterized in that the mistake being bonded Journey, comprising steps of

The sark with different height is provided respectively for first pixel column and second pixel column, wherein described Sark is used to separate thin film transistor (TFT) glass and colored filter to form the space for accommodating liquid crystal.

10. the manufacturing method of liquid crystal display panel according to claim 7, which is characterized in that the offer colorized optical filtering The process of piece, comprising steps of

Different refractive index differences is respectively set for first pixel column and second pixel column.