WO2020207055A1

WO2020207055A1 - Method for adjusting chromaticity specifications of spliced panels

Info

Publication number: WO2020207055A1
Application number: PCT/CN2019/127908
Authority: WO
Inventors: 郑净远
Original assignee: 惠州市华星光电技术有限公司
Priority date: 2019-04-10
Filing date: 2019-12-24
Publication date: 2020-10-15
Also published as: CN110085181B; CN110085181A

Abstract

A method for adjusting the chromaticity specifications of spliced panels, comprising the following steps: providing a display panel product chromaticity specification (x1, y1) (S11); on the basis of the product chromaticity specification (x1, y1), acquiring a target chromaticity specification (x2, y2) (S12); and, using the target chromaticity specification (x2, y2) as a base, adjusting the target chromaticity specification (x2, y2) of the display panel to the product chromaticity specification (x1, y1) (S13).

Description

How to adjust the chromaticity specifications of splicing panels

Technical field

This application relates to a display technology, in particular to a method for adjusting the chromaticity specifications of a spliced panel.

Background technique

The monitor used in the LCD splicing screen has the color difference between the screen. Generally, the ratio of RGB (white balance) is adjusted to reduce the difference in chromaticity. In addition to lowering the penetration rate of the liquid crystal display panel, this will also cause a more serious situation of large-scale viewing.

technical problem

The embodiment of the present application provides a method for adjusting the chromaticity specification of a spliced panel, so as to solve the technical problems of the existing spliced panel that the light transmittance decreases and the color shift is serious under a large viewing angle.

Technical solutions

The embodiment of the application provides a method for adjusting the chromaticity specification of a splicing panel. The splicing panel includes a plurality of display panels, wherein the target chromaticity specification of each display panel is the same, and the chromaticity specification is adjusted The method includes the following steps:

Provide a product chromaticity specification (x1, y1) of the display panel;

Obtain the target chromaticity specification (x2, y2) according to the product chromaticity specification (x1, y1);

Adjusting the target chromaticity specification (x2, y2) of the display panel to the product chromaticity specification (x1, y1) based on the target chromaticity specification (x2, y2);

The obtaining the target chromaticity specification (x2, y2) according to the product chromaticity specification (x1, y1) includes the following steps:

According to the product chromaticity specification (x1, y1), obtain a target chromaticity specification range;

According to the product chromaticity specification (x1, y1), the target chromaticity specification (x2, y2) is set to (x1+x0, y1+y0);

The target chromaticity specification (x2, y2) is obtained by adjusting the x0 value and y0 value; the target chromaticity specification is within the target chromaticity specification range.

In the method for adjusting the chromaticity specification of the spliced panel of the present application, the obtaining a target chromaticity specification range according to the product chromaticity specification (x1, y1) includes the following steps:

Collecting each chromaticity coordinate and its corresponding light transmittance in the display panel by the collecting module;

Compare each of the chromaticity coordinates and the corresponding light transmittance to obtain at least two extreme chromaticity coordinates, where the extreme chromaticity coordinates are chromaticity coordinates with light transmittance equal to 95%;

According to the product chromaticity specifications (x1, y1) and at least two of the limit chromaticity coordinates, the target chromaticity range is formed; the light transmittance of the target chromaticity range is greater than or equal to 95%, and the target The chromaticity specification is within the target chromaticity range.

In the method for adjusting the chromaticity specification of the spliced panel of the present application, the y2 value is greater than or equal to the x2 value.

In the method for adjusting the chromaticity specification of the spliced panel of the present application, the coordinates (x2±0.003, y2±0.003) within the tolerance of the target chromaticity coordinate are within the range of the target chromaticity specification.

In the method for adjusting the chromaticity specification of the spliced panel of the present application, the absolute value of x0 and the absolute value of y0 are both N times 0.005, and N is an integer.

In the method for adjusting the chromaticity specification of the splicing panel of the present application, the display panel includes a light source structure,

When the light source structure includes a blue light source and red and green phosphors located in the blue light source; or,

When the lamp source structure includes a blue lamp source and yellow phosphor and red phosphor located in the blue lamp source; or,

When the light source structure includes a blue light source and yellow phosphors and red and green phosphors located in the blue light source;

The x0 is all set to 0.005, and the y0 is all set to -0.005.

In the method for adjusting the chromaticity specification of the spliced panel of the present application, the display panel includes a light source structure, when the light source structure includes a blue light source and a yellow phosphor located in the blue light source;

The absolute value of x0 is twice the absolute value of y0.

In the method for adjusting the chromaticity specification of the spliced panel of the present application, the x0 value is -0.005, and the y0 value is -0.010.

The embodiment of the present application provides a method for adjusting the chromaticity specification of a splicing panel, the splicing panel includes a plurality of display panels, and the method for adjusting the chromaticity specification includes the following steps:

Provide a product chromaticity specification (x1, y1) of the display panel;

Based on the target chromaticity specification (x2, y2), the target chromaticity specification (x2, y2) of the display panel is adjusted to the product chromaticity specification (x1, y1).

In the method for adjusting the chromaticity specification of the spliced panel of the present application, the obtaining the target chromaticity specification (x2, y2) according to the product chromaticity specification (x1, y1) includes the following steps:

The x0 is all set to 0.005, and the y0 is all set to -0.005.

The absolute value of x0 is twice the absolute value of y0.

In the method for adjusting the chromaticity specification of the splicing panel of the present application, the target chromaticity specification of each display panel is the same.

Beneficial effect

Compared with the prior art splicing panel, the method for adjusting the chromaticity specification of the splicing panel of the present application first adjusts the display panel to the target chromaticity specification, and then adjusts the target chromaticity specification to the setting of the product chromaticity specification. The loss of light transmittance when the display panel is adjusted to the product chromaticity specification, and through the setting of the target setting specification, the chromaticity of the splicing panel between the display panels tends to be consistent under the large viewing angle; solved The existing splicing panels have technical problems with reduced light transmittance and serious color shift under large viewing angles.

Description of the drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application or in the prior art, the following briefly introduces the drawings that need to be used in the embodiments. The drawings in the following description are only part of the embodiments of the present application. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without creative work.

FIG. 1 is a flowchart of a method for adjusting the chromaticity specification of a spliced panel according to an embodiment of the application;

2 is a flowchart of step S12 of the method for adjusting the chromaticity specification of the spliced panel according to an embodiment of the application;

3 is a schematic diagram of the chromaticity coordinates of the spliced panel and its light transmittance, and the target specification range of the embodiment of the application;

4 is a flowchart of step S121 of the method for adjusting the chromaticity specification of the spliced panel according to the embodiment of the application.

BRIEF DESCRIPTION OF THE DRAWINGS In FIG. 3, the upper value of a coordinate point is the coordinate value of the coordinate point, and the lower value is the light transmittance of the coordinate point.

Embodiments of the invention

Please refer to the drawings in the drawings, where the same component symbols represent the same components. The following description is based on the exemplified specific embodiments of the present application, which should not be regarded as limiting other specific embodiments that are not described in detail herein.

Please refer to FIG. 1. FIG. 1 is a flowchart of a method for adjusting the chromaticity specifications of a spliced panel according to an embodiment of the application.

In the method for adjusting the chromaticity specification of the spliced panel in the embodiment of the present application, the spliced panel includes a plurality of display panels. The adjustment method of the chromaticity specification includes the following steps:

S11: Provide a product chromaticity specification (x1, y1) of the display panel;

S12: Obtain the target chromaticity specification (x2, y2) according to the product chromaticity specification (x1, y1);

S13: Based on the target chromaticity specification (x2, y2), adjust the target chromaticity specification (x2, y2) of the display panel to the product chromaticity specification (x1, y1).

In the method for adjusting the chromaticity specification of the spliced panel of this embodiment, the following is an explanation of the specific steps.

In step S11, a product chromaticity specification (x1, y1) of the display panel is provided.

In splicing panels, the product color specifications (x1, y1) of each display panel are consistent. The x1 value of the product chromaticity specification is 0.280, and the y1 value is 0.290. In addition, the value of the product color specification is not limited to this.

Referring to FIG. 2, in step S12, the target chromaticity specification (x2, y2) is obtained according to the product chromaticity specification (x1, y1). This step includes:

S121: Obtain a target chromaticity specification range according to the product chromaticity specification (x1, y1);

S122: Set the target chromaticity specification (x2, y2) to (x1+x0, y1+y0) according to the product chromaticity specification (x1, y1);

S123: Obtain the target chromaticity specification (x2, y2) by adjusting the x0 value and y0 value; the target chromaticity specification is within the target chromaticity specification range.

Specifically, referring to FIG. 4, step S121 includes the following steps:

S1211: Collect each chromaticity coordinate and its corresponding light transmittance in the display panel through the collection module;

S1212: Comparing each of the chromaticity coordinates and its corresponding light transmittance to obtain at least two extreme chromaticity coordinates, where the extreme chromaticity coordinates are chromaticity coordinates with light transmittance equal to 95%;

S1213: Form the target chromaticity range according to the product chromaticity specifications (x1, y1) and at least two of the limit chromaticity coordinates; the light transmittance of the target chromaticity range is greater than or equal to 95%, so The target chromaticity specification is within the target chromaticity range.

Specifically, the purpose of step S1211 is to collect the light transmittance of each chromaticity coordinate, and prepare for obtaining the chromaticity coordinate with the light transmittance of 95% in the subsequent step S1212. Then go to step S1212.

The purpose of step S1212 is to compare all light transmittances with the light transmittance of 95% as the standard, so as to obtain the corresponding chromaticity coordinates with the light transmittance of 95%, that is, the limit chromaticity coordinates. In this application, the light transmittance corresponding to the limit chromaticity coordinates can be changed according to actual conditions. For example, if the light transmission loss rate needs to be further reduced, the light transmission rate corresponding to the limit chromaticity coordinate can be set to 95% or more, such as 96%, 97% or 98%. In this way, different limit chromaticity coordinates can be obtained according to different light transmittance. Then go to step S1213.

The purpose of step S1213 is to determine a target chromaticity coordinate range with a light transmittance greater than or equal to 95% according to a closed area formed by the product chromaticity specification and the limit chromaticity specification. Therefore, the purpose of step S121 is to determine the range of the target chromaticity range whose light transmittance is greater than or equal to 95%. Then go to step S122. Among them, step S121 and step S122 are not prioritized.

In step S122, the target chromaticity specification (x2, y2) is set to (x1+x0, y1+y0) according to the product chromaticity specification (x1, y1). Then go to step S123.

In step S123, the target chromaticity specification (x2, y2) is obtained by adjusting the x0 value and y0 value. Specifically, by adjusting the x0 value and y0 value, a specific target chromaticity specification (x2, y2) is obtained.

Among them, it should be noted that in the target chromaticity specification (x2, y2), the y2 value is greater than or equal to the x2 value. Because the Y value involves brightness and is extremely sensitive, as the Y value increases, the brightness will increase sharply, affecting the overall display effect.

In addition, since the target chromaticity coordinate has a tolerance (±0.003), in order to ensure that the selected target chromaticity specification is within the target chromaticity specification range. The coordinates (x2±0.003, y2±0.003) of the target chromaticity coordinate within the tolerance are within the target chromaticity specification range. Therefore, in this embodiment, the selection of the target chromaticity specification is affected by the chromaticity coordinate tolerance.

Since the chromaticity coordinate tolerance in this embodiment is (±0.003), the chromaticity specification range is selected at the lower right of the product chromaticity specification (x1, y1). Please refer to Figure 3. The coordinate points and their corresponding light transmittances in the figure are part of the experimental data, and the chromaticity specification range A is only an illustrative range.

Since the human eye's perception of chromaticity difference is (0.003, 0.006), but after adjusting the chromaticity of the LED, the chromaticity difference perception can be 0.005 as a unit. Therefore, this embodiment uses 0.005 as the minimum unit for adjustment. Therefore, the absolute value of x0 and the absolute value of y0 are both N times 0.005, and N is an integer.

Among them, for the chromaticity adjustment of the LED, this embodiment adjusts the proportion of phosphors of the backlight module. For example, the display panel includes a light source structure. When the light source structure includes a blue light source and red and green phosphors located in the blue light source; the x0 value and y0 value are adjusted by adjusting the ratio of the red and green phosphors.

When the light source structure includes a blue light source and a yellow phosphor and a red phosphor located in the blue light source, the x0 value and y0 value are adjusted by adjusting the ratio of the yellow to red phosphor.

When the light source structure includes a blue light source and yellow phosphors and red and green phosphors located in the blue light source; the x0 value and y0 value are adjusted by adjusting the ratio of the red and green phosphors.

In the above backlight design, optionally, the x0 is set to 0.005, and the y0 is set to -0.005. That is, by adjusting the ratio of the relevant phosphors, the x0 is set to 0.005, and the y0 is set to -0.005, that is, the target chromaticity specification (0.285, 0.285) is obtained, and this point is within the target chromaticity specification range center. Therefore, even if a tolerance (±0.003) is added to the coordinate point, the coordinate point can be guaranteed to be within the target chromaticity specification range.

In addition, when the light source structure includes a blue light source and a yellow phosphor located in the blue light source, the x0 value and y0 value are adjusted by adjusting the ratio of the yellow phosphor. Therefore, when the specific gravity of the yellow phosphor is large, the light will be yellowish, and the x0 value and y0 value will increase together; when the specific gravity of the yellow phosphor is low, the light will be bluish, and the x0 value and y0 value will decrease together. In this backlight design, the absolute value of x0 is twice the absolute value of y0.

Optionally, the x0 value is -0.005, and the y0 value is -0.010, that is, in this embodiment, the target chromaticity specification is (0.275, 0.280).

Wherein, the target chromaticity specifications of each of the display panels are the same. Through the setting of the target chromaticity specification, in the process of adjusting to the product chromaticity specification, under the large viewing angle, the yellowishness of all the display panels tends to be consistent, and the loss of light transmittance is reduced.

Then go to step 13.

In step S13, based on the target chromaticity specification (x2, y2), the target chromaticity specification (x2, y2) of the display panel is adjusted to the product chromaticity specification (x1, y1) .

Specifically, the product chromaticity specification is taken as the standard specification, and the display panel with the target chromaticity specification is adjusted to the display panel with the product chromaticity specification. The adjustment process is the prior art, so it will not be repeated here.

This completes the method for adjusting the chromaticity specifications of the spliced panel of this embodiment.

As mentioned above, for those of ordinary skill in the art, various other corresponding changes and modifications can be made according to the technical solutions and technical ideas of this application, and all these changes and modifications shall belong to the appended claims of this application The scope of protection.

Claims

A method for adjusting the chromaticity specifications of a splicing panel, the splicing panel includes a plurality of display panels, wherein the target chromaticity specifications of each of the display panels are the same, and the chromaticity specification adjustment method includes the following steps:

Provide a product chromaticity specification (x1, y1) of the display panel;

Obtain the target chromaticity specification (x2, y2) according to the product chromaticity specification (x1, y1);

Adjusting the target chromaticity specification (x2, y2) of the display panel to the product chromaticity specification (x1, y1) based on the target chromaticity specification (x2, y2);

The obtaining the target chromaticity specification (x2, y2) according to the product chromaticity specification (x1, y1) includes the following steps:

According to the product chromaticity specification (x1, y1), obtain a target chromaticity specification range;

According to the product chromaticity specification (x1, y1), the target chromaticity specification (x2, y2) is set to (x1+x0, y1+y0);

The target chromaticity specification (x2, y2) is obtained by adjusting the x0 value and y0 value; the target chromaticity specification is within the target chromaticity specification range.
The method for adjusting the chromaticity specification of a spliced panel according to claim 1, wherein the obtaining a target chromaticity specification range according to the product chromaticity specification (x1, y1) comprises the following steps:

Collecting each chromaticity coordinate and its corresponding light transmittance in the display panel by the collecting module;

Compare each of the chromaticity coordinates and the corresponding light transmittance to obtain at least two extreme chromaticity coordinates, where the extreme chromaticity coordinates are chromaticity coordinates with light transmittance equal to 95%;

According to the product chromaticity specifications (x1, y1) and at least two of the limit chromaticity coordinates, the target chromaticity range is formed; the light transmittance of the target chromaticity range is greater than or equal to 95%, and the target The chromaticity specification is within the target chromaticity range.
The method for adjusting the chromaticity specification of the spliced panel according to claim 2, wherein the y2 value is greater than or equal to the x2 value.
The method for adjusting the chromaticity specification of the spliced panel according to claim 2, wherein the coordinates (x2±0.003, y2±0.003) of the target chromaticity coordinate within the tolerance are within the range of the target chromaticity specification.
The method for adjusting the chromaticity specification of the spliced panel according to claim 2, wherein the absolute value of x0 and the absolute value of y0 are both N times 0.005, and N is an integer.
The method for adjusting the chromaticity specification of a spliced panel according to claim 1, wherein the display panel includes a light source structure,

When the light source structure includes a blue light source and red and green phosphors located in the blue light source; or,

When the lamp source structure includes a blue lamp source and yellow phosphor and red phosphor located in the blue lamp source; or,

When the light source structure includes a blue light source and yellow phosphors and red and green phosphors located in the blue light source;

The x0 is all set to 0.005, and the y0 is all set to -0.005.
The method for adjusting the chromaticity specification of a spliced panel according to claim 1, wherein the display panel includes a light source structure, and when the light source structure includes a blue light source and a yellow phosphor located in the blue light source Time;

The absolute value of x0 is twice the absolute value of y0.
The method for adjusting the chromaticity specification of the spliced panel according to claim 7, wherein the value of x0 is -0.005, and the value of y0 is -0.010.
A method for adjusting the chromaticity specification of a splicing panel, the splicing panel includes a plurality of display panels, wherein the method for adjusting the chromaticity specification includes the following steps:

Provide a product chromaticity specification (x1, y1) of the display panel;

Obtain the target chromaticity specification (x2, y2) according to the product chromaticity specification (x1, y1);

Based on the target chromaticity specification (x2, y2), the target chromaticity specification (x2, y2) of the display panel is adjusted to the product chromaticity specification (x1, y1).
The method for adjusting the chromaticity specification of the spliced panel according to claim 9, wherein the obtaining the target chromaticity specification (x2, y2) according to the product chromaticity specification (x1, y1) comprises the following steps:

According to the product chromaticity specification (x1, y1), obtain a target chromaticity specification range;

According to the product chromaticity specification (x1, y1), the target chromaticity specification (x2, y2) is set to (x1+x0, y1+y0);

The target chromaticity specification (x2, y2) is obtained by adjusting the x0 value and y0 value; the target chromaticity specification is within the target chromaticity specification range.
The method for adjusting the chromaticity specification of the spliced panel according to claim 10, wherein the obtaining a target chromaticity specification range according to the product chromaticity specification (x1, y1) comprises the following steps:

Collecting each chromaticity coordinate and its corresponding light transmittance in the display panel by the collecting module;

Compare each of the chromaticity coordinates and the corresponding light transmittance to obtain at least two extreme chromaticity coordinates, where the extreme chromaticity coordinates are chromaticity coordinates with light transmittance equal to 95%;

According to the product chromaticity specifications (x1, y1) and at least two of the limit chromaticity coordinates, the target chromaticity range is formed; the light transmittance of the target chromaticity range is greater than or equal to 95%, and the target The chromaticity specification is within the target chromaticity range.
The method for adjusting the chromaticity specification of the spliced panel according to claim 11, wherein the y2 value is greater than or equal to the x2 value.
The method for adjusting the chromaticity specification of the spliced panel according to claim 11, wherein the coordinates (x2±0.003, y2±0.003) of the target chromaticity coordinate within the tolerance are within the range of the target chromaticity specification.
The method for adjusting the chromaticity specifications of the spliced panel according to claim 11, wherein the absolute value of x0 and the absolute value of y0 are both N times 0.005, and N is an integer.
The method for adjusting the chromaticity specification of the spliced panel according to claim 10, wherein the display panel includes a light source structure,

When the light source structure includes a blue light source and red and green phosphors located in the blue light source; or,

When the lamp source structure includes a blue lamp source and yellow phosphor and red phosphor located in the blue lamp source; or,

When the light source structure includes a blue light source and yellow phosphors and red and green phosphors located in the blue light source;

The x0 is all set to 0.005, and the y0 is all set to -0.005.
The method for adjusting the chromaticity specification of the spliced panel according to claim 10, wherein the display panel includes a light source structure, and when the light source structure includes a blue light source and a yellow phosphor located in the blue light source Time;

The absolute value of x0 is twice the absolute value of y0.
The method for adjusting the chromaticity specification of the spliced panel according to claim 16, wherein the x0 value is -0.005, and the y0 value is -0.010.
The method for adjusting the chromaticity specification of the spliced panel according to claim 9, wherein the target chromaticity specification of each display panel is the same.