KR20190004699A - Mura phenomenon compensation method - Google Patents

Abstract

According to the present invention, brightness correction coefficients of respective positions on an LCD display panel are calculated using a brightness correction coefficient formula, and luminance data in different gray scales of an LCD display panel taken through a camera according to the brightness correction coefficients obtained by calculation And acquires Mura compensation data according to the corrected brightness data, and finally provides a Mura phenomenon compensation method for performing Mura compensation on the LCD display panel using Mura compensation data. Thereby improving the product quality of the LCD display panel by compensating for the negative influence of the camera's field of view angle on the Mura compensation effect.

Description

Mura phenomenon compensation method

The present invention relates to the field of display technology, and more particularly to a method for compensating for Mura phenomena.

As liquid crystal displays (LCDs) are being developed to be lighter, thinner, and larger, there are differences in the physical properties of each part of the LCD display panel due to some inability to control in actual processes, When displaying a pure gray scale image within a range larger than the pixel point of the pixel, the luminance may become uneven, that is, the Mura phenomenon referred to in the industry.

The Mura phenomenon has already been a limiting factor for LCD development. It is possible to lower the probability of issuing the Mura phenomenon by increasing the process level or increasing the purity of the raw material. However, in the case of the already manufactured LCD display panel, since the physical characteristics thereof are already fixed, In order to compensate the Mura phenomenon generated by the gray scale compensation method, the brightness of the pixel point can be corrected to improve the Mura phenomenon.

Grayscale compensation realizes an improvement in luminance uniformity through changing the gray scale value of a pixel. That is, after the camera has photographed the Mura situation on the gray scale screen, the normal area and the Mura area in the gray scale image are determined, and finally the gray scale value of the Mura area is compensated in the reverse direction based on the gray scale value of the normal area, When a pure gray scale image is displayed, a low gray scale value is applied to a pixel having a high display luminance, and a high gray scale value is applied to a pixel having a low gray scale luminance, so that the luminance of each pixel after gray scale compensation is matched Thereby realizing the improvement of the Mura phenomenon.

As shown in FIGS. 1-2, when the camera is set at the center position of the LCD display panel, one viewing angle is formed in the peripheral region of the camera and the panel, and the principle of the liquid crystal molecules is deflected The luminance appearing in the peripheral region of the panel differs in different viewing angles. When the gray scale is low, the luminance of the side viewing angles is higher than that of the front viewing angles. As a result, after the Mura is compensated by the Mura compensation algorithm, the luminance of the front viewing angle of the peripheral region of the panel is increased ≪ / RTI > When the gray scale is high, as shown in Fig. 4, the situation is completely opposite; Thus affecting the product quality of the LCD display panel.

It is an object of the present invention to provide a compensation method of a Mura phenomenon which can improve a product quality of an LCD display panel by correcting an influence of a camera viewing angle on a Mura compensation effect.

To achieve the above object, the present invention provides a method for compensating for a Mura phenomenon comprising the steps of:

Step 1: Providing an LCD display panel and a camera to photograph an LCD display panel displaying a predetermined gray-scale screen using the camera in a room immediately above the center point of the LCD display panel, Acquiring luminance data of the pixel;

Step 2: Constructing a rectangular coordinate system with the center point of the LCD display panel as a coordinate origin, and the length and width direction of the LCD display panel are X-axis and Y-axis respectively, and the direction perpendicular to the LCD display panel is Z Acquiring a brightness correction coefficient formula by combining the rectangular coordinate system with a rectangular coordinate system;

Step 3: Combining the coordinate values of the respective positions on the LCD display panel in the rectangular coordinate system using the brightness correction coefficient formula to calculate brightness correction coefficients of each position on the LCD display panel;

Step 4: correcting the luminance data according to the luminance correction coefficient obtained by calculation, and obtaining the corrected luminance data;

Step 5: acquiring Mura compensation data according to the corrected luminance data;

Step 6: Performing Mura compensation for the LCD display panel using the Mura compensation data obtained in step 5.

The brightness correction coefficient formula obtained in the step 2 is the following formula (1);

(1)

(One)

X is a coordinate value of an X axis at a certain position of the LCD display panel in a rectangular coordinate system, y is a Y axis coordinate value of a position of the LCD display panel in a rectangular coordinate system, Z is a luminance correction coefficient, b is a coefficient related to the screen gray scale displayed by the LCD display panel when the camera is shot;

,

]이다.In the rectangular coordinate system, both the X-axis and the Y-axis have half the length of the LCD display panel as one unit, the range of the acquired value of x is [-1, 1] and the range of the acquired value of y is [-a, a ], A is the ratio of the width and length of the LCD display panel, and the acquisition range of b is [

,

]to be.

The formula used in the luminance data calibration in step 4 is C1 = C2 x Z; C2 is the luminance value of the specific position on the LCD display panel collected in Step 1, Z is the luminance correction coefficient of the specific position, and C1 is the luminance value of the specific position after calibration.

In step 1, the camera photographs the LCD display panel three times, and the display screen of the LCD display panel is different in gray scale from the first, second, and third gray scales, respectively, The luminance data to be obtained is the first, second, and third luminance data, respectively, in three parts, and corresponds to the display screens of the first, second, and third gray scales, respectively.

In the step 2-5, the first, second, and third brightness data are respectively calibrated to acquire the brightness data after the first, second, and third calibrations, respectively, and the first, And the third Mura compensation data, and performs calibration for the first, second, and third luminance data, respectively. In the three calculation processes performed respectively, the acquisition value of b in formula (1) is Includes positive and negative numbers.

In step 6, Mura compensation is performed on the LCD display panel in the first, second, and third gray scales, respectively, using the first, second, and third Mura compensation data.

In the step 1, the camera photographs the LCD display panel three or more times, and the gray scale of the display screen of the LCD display panel differs from one to another during each photographing, so that the brightness data obtained is three or more.

In step 5, the Mura compensation data formula is M = (C1-d) / e;

M is the Mura compensation data at the specific position, d is the normal luminance of the LCD display panel, and e is a conversion coefficient between the luminance of the LCD display panel and the gray scale.

The normal luminance of the LCD display panel is the luminance of the center point of the LCD display panel collected in Step 1. [

The present invention further provides a Mura phenomenon compensation method comprising the steps of:

Step 1: Providing an LCD display panel and a camera to photograph an LCD display panel displaying a predetermined gray-scale screen using the camera in a room immediately above the center point of the LCD display panel, Acquiring luminance data of the pixel;

Step 2: Constructing a rectangular coordinate system with the center point of the LCD display panel as a coordinate origin, and the length and width direction of the LCD display panel are X-axis and Y-axis respectively, and the direction perpendicular to the LCD display panel is Z Acquiring a brightness correction coefficient formula by combining the rectangular coordinate system with a rectangular coordinate system;

Step 3: Combining the coordinate values of each position on the LCD display panel in the rectangular coordinate system using the brightness correction coefficient formula to calculate a brightness correction coefficient at each position on the LCD display panel;

Step 4: correcting the luminance data according to the luminance correction coefficient obtained by calculation, and obtaining the corrected luminance data;

Step 5: acquiring Mura compensation data according to the corrected luminance data;

Step 6: Performing Mura compensation for the LCD display panel using the Mura compensation data obtained in step 5;

The brightness correction coefficient formula obtained in the step 2

이며,

Lt;

X is a coordinate value of an X axis at a certain position of the LCD display panel in a rectangular coordinate system, y is a Y axis coordinate value of a position of the LCD display panel in a rectangular coordinate system, Z is a luminance correction coefficient, b is a coefficient related to the screen gray scale displayed by the LCD display panel when the camera is shot;

,

]이며;In the rectangular coordinate system, both the X-axis and the Y-axis have half the length of the LCD display panel as one unit, the range of the acquired value of x is [-1, 1] and the range of the acquired value of y is [-a, a ], A is the ratio of the width and length of the LCD display panel, and the acquisition range of b is [

,

];

Among them, the formula used for luminance data calibration in step 4 is C1 = C2 占 Z; C2 is the luminance value of the specific position on the LCD display panel collected in Step 1, Z is the luminance correction coefficient of the specific position, and C1 is the luminance value of the specific position after calibration.

Advantageous Effects of the Present Invention: The present invention is characterized in that luminance correction coefficients of respective positions on an LCD display panel are calculated using a brightness correction coefficient formula, and different gray values of an LCD display panel The luminance data after calibration is obtained by calibrating the luminance data in the scale, furthermore, the Mura compensation data is obtained according to the corrected luminance data, and finally, the Mura compensation is performed on the LCD display panel using the Mura compensation data Thereby compensating for the negative influence of the viewing angle of the camera on the Mura compensation effect, thereby improving the product quality of the LCD display panel.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
In the figure,
Fig. 1 is an explanatory view in which a camera photographs an LCD display panel at different positions. Fig.
Fig. 2 is a diagram showing the relationship between the luminance and the gray scale of the LCD display panel at different viewing angles.
FIG. 3 is a diagram illustrating a luminance contrast of an LCD display panel taken by a camera in a low gray scale and a luminance contrast before and after Mura compensation.
FIG. 4 is a graph showing the luminance of an LCD display panel taken by a camera in a high gray scale of the related art and the luminance before and after Mura compensation.
5 is a flowchart of the Mura phenomenon compensation method of the present invention.
6 is a curve diagram of the brightness correction coefficient obtained in step 2 of the Mura phenomenon compensation method of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

5, the present invention provides a method for compensating for a Mura phenomenon comprising the steps of:

Step 1: Providing an LCD display panel and a camera to photograph an LCD display panel displaying a predetermined gray-scale screen using the camera in a room immediately above the center point of the LCD display panel, Of the luminance data.

Specifically, the luminance data of the LCD display panel collected at this time differs from the actual display luminance of the LCD display panel due to the difference in the angle of view of the camera relative to each position on the LCD display panel, and the luminance of the different display gray- Even if the deviation of the same position on the LCD display panel is different, the luminance data of the LCD display panel, which is normally collected on the screen with a relatively low gray scale, is larger than the actual display luminance of the LCD display panel and the gray scale continuously rises, The luminance data of the collected LCD display panel may be smaller than the actual display luminance of the LCD display panel.

6, one rectangular coordinate system is constructed with the center point of the LCD display panel as a coordinate origin, and the length and the width direction of the LCD display panel are taken as the X axis and the Y axis, respectively, And the direction orthogonal to the Z axis is combined with the rectangular coordinate system to obtain the brightness correction coefficient formula.

Specifically, the brightness correction coefficient formula obtained in step 2 is the following formula (1): < EMI ID =

(1)

(One)

X is a coordinate value of an X axis at a certain position of the LCD display panel in a rectangular coordinate system, y is a Y axis coordinate value of a position of the LCD display panel in a rectangular coordinate system, Z is a luminance correction coefficient, and b is a coefficient related to the screen gray scale displayed by the LCD display panel when the camera is shot.

,

]이다.In the rectangular coordinate system, both the X-axis and the Y-axis have half the length of the LCD display panel as one unit, the range of the acquired value of x is [-1, 1] and the range of the acquired value of y is [-a, a ], A is the ratio of the width and length of the LCD display panel, and the acquisition range of b is [

,

]to be.

Step 3: The brightness correction coefficient of each position on the LCD display panel is calculated using the brightness correction coefficient formula.

Step 4: Calibrate the luminance data according to the luminance correction coefficient obtained by the calculation, and obtain the corrected luminance data.

Specifically, the formula used for luminance data calibration in step 4 is C1 = C2 x Z; C2 is the luminance value of the specific position on the LCD display panel collected in Step 1, Z is the luminance correction coefficient of the specific position, and C1 is the luminance value of the specific position after calibration.

Step 5: Obtain Mura compensation data according to the brightness data after calibration.

Specifically, in step 5, the Mura compensation data formula is M = (C1-d) / e;

M is the Mura compensation data at the specific position, d is the normal luminance of the LCD display panel, and e is a conversion coefficient between the luminance of the LCD display panel and the gray scale.

The normal luminance of the LCD display panel is the luminance of the center point of the LCD display panel collected in Step 1. [

]이며, 도 6에 도시된 바와 같이, b가 0보다 크거나 같기 때문에, 공식(1)로 획득되는 휘도 교정계수 Z는 모두 1보다 작다. 예를 들어 b를 0.2로 선택 시, b를 0.2로 하여 휘도 계수 보상 공식에 대입하면 LCD 디스플레이 패널의 좌, 우 양 끝점(x=±1, y=0)의 보상계수 0.8을 획득할 수 있으며, 다시 수집된 LCD 디스플레이 패널의 좌, 우 양 끝점의 휘도 C2의 값 c에 보상계수 0.8을 곱하면, 즉 LCD 디스플레이 패널의 좌, 우 양 끝점의 교정 후의 휘도 C1의 값인 0.8c를 획득할 수 있으며, 다시 상기 LCD 디스플레이 패널의 휘도와 그레이스케일 간의 환산계수 e와 상기 LCD 디스플레이 패널의 정상적인 휘도 d를 결합하여 LCD 디스플레이 패널 좌, 우 양 끝점의 Mura 보상값 (0.8*c-d)/e를 획득한다. 상기 Mura 보상값이 교정 후의 휘도 C1을 근거로 획득된 것이고, 교정 후의 휘도값 0.8c가 교정 전의 휘도값 c보다 0.2c 감소하였기 때문에, 종래의 Mura 보상 데이터 알고리즘이 주변 영역의 그레이스케일값을 과도하게 저하시킴으로 인해 LCD 디스플레이 패널 주변 영역의 휘도가 낮아지는 문제를 해결하였다.Specifically, in the calculation process, an appropriate coefficient b can be selected in accordance with the viewing angle characteristics in each gray scale of the LCD display panel. For example, in a situation where the screen gray scale of the LCD display panel is relatively low and the gray scale is low, when the luminance of the side viewing angle of the LCD display panel is higher than the luminance of the front viewing angle If the luminance data is greater than the actual display luminance of the LCD display panel), then the range of values of the coefficient b is [0,

, And since b is equal to or greater than 0, the luminance correction coefficient Z obtained by the formula (1) is less than 1, as shown in Fig. For example, if b is set to 0.2, and b is set to 0.2, the compensation coefficient of 0.8 for the left and right end points of the LCD display panel (x = ± 1, y = 0) , Multiplying the value c of the luminance C2 of the left and right end points of the LCD display panel collected again by the compensation coefficient 0.8, that is, 0.8c, which is the value of the luminance C1 after calibration of the left and right end points of the LCD display panel The Mura compensation value (0.8 * cd) / e of the left and right end points of the LCD display panel is obtained by combining the conversion coefficient e between the luminance and gray scale of the LCD display panel and the normal luminance d of the LCD display panel . Since the Mura compensation value is obtained based on the corrected luminance C1 and the corrected luminance value 0.8c is reduced by 0.2c from the luminance value c before correction, the conventional Mura compensation data algorithm can not overcome the gray scale value of the surrounding area The brightness of the area around the LCD display panel is lowered.

, 0]이고, 획득되는 휘도 보상계수는 1보다 큼으로써, 종래의 Mura 보상 데이터 알고리즘이 주변 영역의 그레이스케일값을 과도하게 상승시킴으로 인해 LCD 디스플레이 패널의 주변 영역의 휘도가 낮아지는 문제를 해결하였다.Similarly, when the gray scale of the screen displayed by the LCD display panel is high and the luminance of the side view angle of the LCD display panel is higher than the luminance of the front view angle (i.e., When the luminance data of the panel is smaller than the actual display luminance of the LCD display panel), the luminance coefficient formula (1) is similarly applied, and the obtained value range of the coefficient b is [

, 0], and the obtained luminance compensation coefficient is larger than 1, so that the conventional Mura compensation data algorithm excessively raises the gray scale value of the peripheral region, thereby solving the problem that the luminance of the peripheral region of the LCD display panel is lowered .

Step 6: Mura compensation is performed on the LCD display panel using the Mura compensation data obtained in step 5.

Specifically, in step 1, the camera can photograph the LCD display panel three times, and the gray scale of the display screen of the LCD display panel differs from that of the first display, Scale, and thus the obtained luminance data is the first, second, and third luminance data, respectively, in three parts, and also corresponds to the display screens of the first, second, and third gray scales, respectively. In the above step 2-5, the first, second, and third brightness data are respectively calibrated to obtain brightness data after the first, second, and third calibrations, respectively, and the first, Second, and third gray scale compensation data for the LCD display screen using the first, second, and third Mura compensation data, respectively, in step 3, Mura compensation is performed in. In the calculation of the first, second, and third gray scales, calibration is performed for the first, second, and third luminance data, it is preferable that positive values and negative values are included in the acquired value of b, that is, high gray scale and low gray scale are included in the first, second, and third gray scales.

Specifically, the camera may photograph the LCD display panel three or more times in the step 1, and the gray scale of the screen displayed by the LCD display panel differs at each photographing, and the obtained brightness data is three or more .

As a result, the Mura phenomenon compensation method of the present invention calculates the luminance correction coefficient of each position on the LCD display panel using the luminance correction coefficient formula and calculates the luminance correction coefficient of the LCD display panel taken through the camera according to the calculated luminance correction coefficient Correcting the luminance data at different gray scales to acquire luminance data after calibration and further acquiring Mura compensation data according to the corrected luminance data and finally using the Mura compensation data to perform Mura compensation for the LCD display panel Accordingly, it is possible to improve the product quality of the LCD display panel by correcting the influence of the angle of view of the camera on the Mura compensation effect.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. do.

Claims (15)

In the Mura phenomenon compensation method,
Step 1: Providing an LCD display panel and a camera to photograph an LCD display panel displaying a predetermined gray-scale screen using the camera in a room immediately above the center point of the LCD display panel, Acquiring luminance data of the pixel;
Step 2: Constructing a rectangular coordinate system with the center point of the LCD display panel as a coordinate origin, and the length and width direction of the LCD display panel are X-axis and Y-axis respectively, and the direction perpendicular to the LCD display panel is Z Acquiring a brightness correction coefficient formula by combining the rectangular coordinate system with a rectangular coordinate system;
Step 3: Combining the coordinate values of the respective positions on the LCD display panel in the rectangular coordinate system using the brightness correction coefficient formula to calculate brightness correction coefficients of each position on the LCD display panel;
Step 4: correcting the luminance data according to the luminance correction coefficient obtained by calculation, and obtaining the corrected luminance data;
Step 5: acquiring Mura compensation data according to the corrected luminance data;
Step 6: Performing Mura compensation for the LCD display panel using the Mura compensation data obtained in step 5. The method according to claim 1,
The brightness correction coefficient formula obtained in the step 2

Lt;
X is a coordinate value of an X axis at a certain position of the LCD display panel in a rectangular coordinate system, y is a Y axis coordinate value of a position of the LCD display panel in a rectangular coordinate system, Z is a luminance correction coefficient, b is a coefficient related to the screen gray scale displayed by the LCD display panel when the camera is shot;
In the rectangular coordinate system, both the X-axis and the Y-axis have half the length of the LCD display panel as one unit, the range of the acquired value of x is [-1, 1] and the range of the acquired value of y is [-a, a ], A is the ratio of the width and length of the LCD display panel, and the acquisition range of b is [

,

] Mura phenomenon compensation method. 3. The method of claim 2,
The formula used in the luminance data calibration in step 4 is C1 = C2 x Z; Wherein C2 is a luminance value of a specific position on the LCD display panel collected in step 1, Z is a luminance correction coefficient of the specific position, and C1 is a luminance value of the specific position after calibration. 3. The method of claim 2,
In step 1, the camera photographs the LCD display panel three times, and the display screen of the LCD display panel is different in gray scale from the first, second, and third gray scales, respectively, And the luminance data obtained is three, first, second, and third luminance data, respectively, corresponding to the display screens of the first, second, and third gray scales, respectively. 5. The method of claim 4,
In step 2 - step 5, the first, second, and third brightness data are respectively calibrated to obtain brightness data after the first, second, and third calibrations, respectively, and the first, , And third Mura compensation data, respectively, wherein calibration is performed for the first, second, and third luminance data, and in each of the three calculation processes performed, the obtained value of the formula b is a positive value A method for compensating Mura phenomena including negative numbers. 6. The method of claim 5,
The method of claim 6, wherein, in step 6, Mura compensation is performed in the first, second, and third gray scales for the LCD display panel using first, second, and third Mura compensation data, respectively. 3. The method of claim 2,
In the step 1, the camera photographs the LCD display panel three or more times, and the gray scale of the display screen of the LCD display panel is different at every shot, Way. The method of claim 3,
In step 5, the Mura compensation data formula is M = (C1-d) / e;
Wherein M is the Mura compensation data at the specific position, d is the normal luminance of the LCD display panel, and e is a conversion coefficient between the luminance of the LCD display panel and the gray scale. 9. The method of claim 8,
Wherein the normal luminance of the LCD display panel is the luminance of the center point of the LCD display panel collected in Step 1. [ In the Mura phenomenon compensation method,
Step 1: Providing an LCD display panel and a camera to photograph an LCD display panel displaying a predetermined gray-scale screen using the camera in a room immediately above the center point of the LCD display panel, Acquiring luminance data of the pixel;
Step 2: Constructing a rectangular coordinate system with the center point of the LCD display panel as a coordinate origin, and the length and width direction of the LCD display panel are X-axis and Y-axis respectively, and the direction perpendicular to the LCD display panel is Z Acquiring a brightness correction coefficient formula by combining the rectangular coordinate system with a rectangular coordinate system;
Step 3: Combining the coordinate values of each position on the LCD display panel in the rectangular coordinate system using the brightness correction coefficient formula to calculate a brightness correction coefficient at each position on the LCD display panel;
Step 4: correcting the luminance data according to the luminance correction coefficient obtained by calculation, and obtaining the corrected luminance data;
Step 5: acquiring Mura compensation data according to the corrected luminance data;
Step 6: Performing Mura compensation for the LCD display panel using the Mura compensation data obtained in step 5;
The brightness correction coefficient formula obtained in the step 2

Lt;
X is a coordinate value of an X axis at a certain position of the LCD display panel in a rectangular coordinate system, y is a Y axis coordinate value of a position of the LCD display panel in a rectangular coordinate system, Z is a luminance correction coefficient, b is a coefficient related to the screen gray scale displayed by the LCD display panel when the camera is shot;
In the rectangular coordinate system, both the X-axis and the Y-axis have half the length of the LCD display panel as one unit, the range of the acquired value of x is [-1, 1] and the range of the acquired value of y is [-a, a ], A is the ratio of the width and length of the LCD display panel, and the acquisition range of b is [

,

];
Among them, the formula used for luminance data calibration in step 4 is C1 = C2 占 Z; Wherein C2 is a luminance value of a specific position on the LCD display panel collected in step 1, Z is a luminance correction coefficient of the specific position, and C1 is a luminance value of the specific position after calibration. 11. The method of claim 10,
In step 1, the camera photographs the LCD display panel three times, and the display screen of the LCD display panel is different in gray scale from the first, second, and third gray scales, respectively, And the luminance data obtained is three, first, second, and third luminance data, respectively, corresponding to the display screens of the first, second, and third gray scales, respectively. 12. The method of claim 11,
In step 2 - step 5, the first, second, and third brightness data are respectively calibrated to obtain brightness data after the first, second, and third calibrations, respectively, and the first, , And third Mura compensation data, respectively, wherein calibration is performed for the first, second, and third luminance data, and in each of the three calculation processes performed, the obtained value of the formula b is a positive value A method for compensating Mura phenomena including negative numbers. 13. The method of claim 12,
And performing Mura compensation in the first, second, and third gray scales for the LCD display panel using the first, second, and third Mura compensation data in step 6, respectively. 11. The method of claim 10,
In step 5, the Mura compensation data formula is M = (C1-d) / e;
Wherein M is the Mura compensation data at the specific position, d is the normal luminance of the LCD display panel, and e is a conversion coefficient between the luminance of the LCD display panel and the gray scale. 15. The method of claim 14,
The normal luminance of the LCD display panel is determined by the Mura phenomenon compensation method which is the luminance of the center point of the LCD display panel collected in Step 1

Images