CN105976746A - Flicker adjustment method and device - Google Patents

Flicker adjustment method and device Download PDF

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CN105976746A
CN105976746A CN201610596571.5A CN201610596571A CN105976746A CN 105976746 A CN105976746 A CN 105976746A CN 201610596571 A CN201610596571 A CN 201610596571A CN 105976746 A CN105976746 A CN 105976746A
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vcom
luminance
red
blue
green
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CN201610596571.5A
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谭小平
左清成
邢振周
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武汉华星光电技术有限公司
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    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G3/00Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
    • G09G3/006Electronic inspection or testing of displays and display drivers, e.g. of LED or LCD displays
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G3/00Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
    • G09G3/20Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
    • G09G3/34Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
    • G09G3/36Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals

Abstract

An embodiment provides a Flicker adjustment method and device. The method comprises the following steps: obtaining a red optimum VCOM value, a green optimum VCOM value, a blue optimum VCOM value and a white optimum VCOM value respectively; obtaining red brightness information, green brightness information, blue brightness information and white brightness information respectively, and carrying out calculation based on the red brightness information, the green brightness information, the blue brightness information and the white brightness information to obtain red brightness coefficient, green brightness coefficient, blue brightness coefficient and white brightness coefficient respectively; and with the red optimum VCOM value, the green optimum VCOM value, the blue optimum VCOM value, the white optimum VCOM value, the red brightness coefficient, the green brightness coefficient, the blue brightness coefficient and the white brightness coefficient being as the input of a convergence algorithm, carrying out calculation to obtain the optimum VCOM value, and thus Flicker is adjusted. The method can solve the problem that the found optimum VCOM value is not accurate.

Description

FI icker调节以及装置 And means for adjusting FI icker

技术领域 FIELD

[0001] 本发明涉及显示领域,尤其涉及一种Flicker调节以及装置。 [0001] The present invention relates to the field of display, and more particularly to a Flicker adjusting means.

背景技术 Background technique

[0002] 在液晶面板的使用过程中,由于公共电极信号(VC0M)的极性切换会产生水平的条纹的闪烁现象,我们一般称之为Flicker现象。 [0002] In use a liquid crystal panel, since the common electrode signal (Vcom) in polarity switching will produce flicker stripes level, the phenomenon is generally called the Flicker. 其中,Flicker闪烁值的数值大小,也直接反应了液晶面板的品质可靠性。 Wherein the numerical size Flicker flashing value, reliability is also directly reflects the quality of the liquid crystal panel. 通常Flicker闪烁值的数值越小,液晶面板产生图像残留(Image Sticking,IS)的风险越小,反之则风险越大。 Flicker is typically flicker value smaller value, the smaller the risk of the liquid crystal panel generates residual images (Image Sticking, IS), whereas the greater the risk.

[0003] 为了确定最佳VC0M值,使得Flicker闪烁值的数值最小,现有技术主要是通过光敏二极管对液晶面板显示的特定图案下的光线进行采集,并根据采集到的结果计算出FI icker闪烁值的数值大小,最后,调节VC0M值,使得FI icker闪烁值的数值最小,则此时的VC0M值即为最佳VC0M。 [0003] To determine the optimal value VC0M, such numerical values ​​of the minimum flicker Flicker, the prior art is mainly collected at the light of the specific pattern displayed by the liquid crystal panel photodiode, and calculates FI icker scintillator according to the collected results numerical size values, and finally, adjusting the value of Vcom, such that the numerical value of the minimum flicker FI icker, at this time the value Vcom is the best VC0M.

[0004] 但是,如图1所示,由于现有的液晶面板均是由红色子像素、绿色子像素、蓝色子像素和白色子像素组成的,如图2所示,在实际应用中由于光敏二极管不同的波长的光的响应灵敏度存在差异,所以,光敏二极管对红色波长、绿色波长、蓝色波长以及白色波长的响应灵敏度存在差异,使找到的最佳VC0M值并不是此面板所有图案下的最佳VC0M值,即存在不准确现象。 [0004] However, as shown in FIG. 1, since the conventional liquid crystal panel are a red subpixel, a green subpixel, a blue sub-pixel and white sub-pixels, as shown in FIG. 2, since in practical applications in response to the presence of light of a different wavelength sensitivity difference photodiode, the photodiode sensitivity difference exists in response to red wavelength, green wavelength, blue wavelength and wavelength white, so that the optimum value found VC0M not all of the patterns in this panel the best VC0M value, that there is no exact phenomenon.

发明内容 SUMMARY

[0005] 本发明实施例提供了一种Flicker调节以及装置,能够解决找到的最佳VC0M值不准确的问题。 Embodiment [0005] The present invention provides a Flicker and adjusting means capable of solving the optimum value found VC0M problem of inaccurate.

[0006] 第一方面,提供了一种FI icker调节方法,包括如下步骤: [0006] In a first aspect, there is provided a method of adjusting FI icker, comprising the steps of:

[0007] 分别获取红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值以及白色最佳VC0M 值,其中,红色最佳VC0M值是在测试灰阶下对由红色子像素组成的图案进行测试得到的最佳VC0M值,绿色最佳VC0M值是在测试灰阶下对由绿色子像素组成的图案进行测试得到的最佳VC0M值,蓝色最佳VC0M值是在测试灰阶下对由蓝色子像素组成的图案进行测试得到的最佳VC0M值,白色最佳VC0M值是在测试灰阶下对由白色子像素组成的图案进行测试得到的最佳VC0M值;分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息,并根据所述红色亮度信息、所述绿色亮度信息、所述蓝色亮度信息以及所述白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数;将所述红色最佳VC0M值、所述绿色最佳VC0M值、所述蓝色最佳VC0M值、所述白色最佳VC0M [0007] VC0M respectively acquire the optimum values ​​of red, green VC0M optimum value, blue value, and the optimal white VC0M VC0M optimum value, wherein the red VC0M optimum value of the gray scale in the test sub-pixels of the red VC0M optimum value of the test pattern is obtained, the green values ​​are the best VC0M VC0M optimal value of the test pattern is obtained for the green sub-pixels in a test gray scale value is blue VC0M optimal gray scale test patterned by the blue sub-pixels is the optimum value of the test VC0M obtained white VC0M optimum value is the optimum value of the test VC0M obtained by the pattern of white sub-pixels in the gray scale test; respectively acquire luminance red information, luminance information green, blue and white luminance information is luminance information, and luminance information according to the red, the green luminance information, the luminance information and the blue information are respectively calculated to obtain white luminance brightness coefficient red, green luminance coefficient, blue and white luminance brightness coefficient coefficient; VC0M optimum value of the red, the green VC0M optimum value of the blue VC0M optimum value, the optimum white VC0M 、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数以及所述白色亮度系数作为收敛算法的输入, 计算得到最佳VC0M值,从而对FI i cker进行调节。 The red brightness coefficient, the coefficient green luminance, the luminance of the blue and the white luminance coefficients as input coefficients convergence of the algorithm, the optimal VC0M calculated value, thereby FI i cker adjusted.

[0008] 可选地,将所述红色最佳VC0M值、所述绿色最佳VC0M值、所述蓝色最佳VC0M值、所述白色最佳VC0M值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数以及所述白色亮度系数作为收敛算法的输入,计算得到最佳VC0M值具体为:将所述红色最佳VC0M值、所述绿色最佳VCOM值、所述蓝色最佳VCOM值、所述白色最佳VCOM值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数以及所述白色亮度系数作为公式(1)的输入,计算得到最佳VCOM值,其中,公式(1)为: [0008] Alternatively, the optimum VC0M red value, said green VC0M optimum value of the blue VC0M optimum value, the optimum VC0M white value, the red luminance coefficient, the green brightness coefficient, the luminance of the blue and the white luminance coefficients as input coefficients convergence of the algorithm, the calculated optimum value VC0M specifically: the optimal VC0M red value, said green value optimum VCOM, the blue VCOM optimal color values, the optimal white value VCOM, the red luminance coefficients, said coefficients green luminance, the luminance of the blue and the white luminance coefficients as coefficients in equation (1) is input, calculates the best VCOM value, wherein the formula (1):

[0009] VC0M = Vr* δ r+Vg* a g+Vb* A B+Vw* Δ w [0009] VC0M = Vr * δ r + Vg * a g + Vb * A B + Vw * Δ w

[0010] 其中,VCOM为最佳VCOM值,VR为所述红色最佳VCOM值,VG为所述绿色最佳VCOM值,VR 为所述蓝色最佳VCOM值,Vw为所述白色最佳VCOM值,Δ 所述红色亮度系数、Δ (;为所述绿色亮度系数、Α β为所述蓝色亮度系数以及△ w为所述白色亮度系数。 [0010] wherein, VCOM VCOM optimum value, VR VCOM optimum value for said red, VG for said green VCOM optimum value, VR is the blue VCOM optimum value, Vw is the best white VCOM value, Δ brightness of the red coefficient, Δ (; is the green luminance coefficient, Α β is a coefficient of the blue luminance and the white luminance △ w is a coefficient.

[0011] 可选地,根据所述红色亮度信息、所述绿色亮度信息、所述蓝色亮度信息以及所述白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数具体为: [0011] Alternatively, according to the luminance information of the red, the green luminance information, the luminance information and the blue white red luminance information are respectively calculated brightness coefficient, brightness coefficient green, blue and white luminance brightness coefficient factor in particular:

Figure CN105976746AD00061

[0016] 其中,所述红色亮度系数、为所述绿色亮度系数、ΔΒ为所述蓝色亮度系数以及A w为所述白色亮度系数,Lr为所述红色亮度信息、U为所述绿色亮度信息、Lb为所述蓝色亮度信息、Lw为所述白色亮度信息。 [0016] wherein the red brightness coefficient for the green luminance factor, as the blue luminance Delta] [beta coefficients and the A w is a white brightness coefficient, to the red luminance Lr of information, U is the green luminance information, Lb is the blue luminance information, Lw of the white luminance information.

[0017] 可选地,分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息之前,还包括:对红色纯色画面进行采集从而获得红色亮度信息,对绿色纯色画面进行采集从而获得绿色亮度信息,对蓝色纯色画面进行采集从而获得蓝色亮度信息,对白色纯色画面进行采集从而获得白色亮度信息,其中,红色纯色画面是显示屏只有红色子像素点亮时的画面,绿色纯色画面是显示屏只有绿色子像素点亮时的画面,蓝色纯色画面是显示屏只有蓝色子像素点亮时的画面,白色纯色画面是显示屏只有白色子像素点亮时的画面。 [0017] Alternatively, each of red luminance information acquired before the green luminance information, white color information, and the blue luminance luminance information, further comprising: a red solid collected to obtain a picture of red luminance information, picture green solid collected to obtain green luminance information blue solid collected to obtain a picture of blue luminance information, white solid collected to give the white screen brightness information, wherein the red solid color screen when the screen display is only lit red sub-pixel, a green solid picture is a display screen when only the green sub-pixel is lit, solid blue screen is a screen display when only the blue sub-pixel is lit, white solid picture is a screen when a white sub-pixel is lit only display.

[0018] 可选地,所述测试灰阶为127灰阶或者128灰阶。 [0018] Alternatively, the test is 127 gray gray gray or 128.

[0019 ]第二方面,提供了一种FI i cker调节装置,其特征在于,所述装置包括:第一获取模块、第二获取模块以及计算模块,所述第一获取模块用于分别获取红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值以及白色最佳VC0M值,其中,红色最佳VC0M值是在测试灰阶下对由红色子像素组成的图案进行测试得到的最佳VC0M值,绿色最佳VC0M值是在测试灰阶下对由绿色子像素组成的图案进行测试得到的最佳VC0M值,蓝色最佳VC0M值是在测试灰阶下对由蓝色子像素组成的图案进行测试得到的最佳VC0M值,白色最佳VC0M值是在测试灰阶下对由白色子像素组成的图案进行测试得到的最佳VC0M值;所述第二获取模块用于分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息,并根据所述红色亮度信息、 所述绿色亮度信息、所述蓝色亮度信息以及所述白色亮度信息分 [0019] a second aspect, there is provided an adjusting device FI i cker, characterized in that, said means comprising: a first acquisition module, a second acquisition module and a calculation module, the first acquisition module is configured to obtain red respectively VC0M optimum value, the optimum VC0M green value, blue value, and the optimal white VC0M VC0M optimum value, wherein, the red value is optimal VC0M pattern of red sub-pixels obtained was tested in the test most gray VC0M good value, green value is optimal VC0M VC0M optimum value of the test pattern is obtained for the green sub-pixels in a test gray scale value is blue VC0M best test for the blue sub-pixel gray scale composition of test pattern the optimum values ​​obtained VC0M white VC0M optimum value is the optimum value of the test VC0M obtained by the pattern of white sub-pixels in the gray scale test; the second obtaining module configured to obtain respectively luminance information of red, green luminance information, white color information, and the blue luminance luminance information, and luminance information according to the red, the green luminance information, the luminance information and the blue luminance information white points 别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数;所述计算模块用于将所述红色最佳VC0M值、所述绿色最佳VC0M值、所述蓝色最佳VC0M值、所述白色最佳VC0M值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数以及所述白色亮度系数作为收敛算法的输入, 计算得到最佳VCOM值,从而对FI i cker进行调节。 Do brightness coefficient calculated red, green luminance coefficient, blue and white luminance brightness coefficient coefficients; means for the red value of the calculated optimum VC0M, VC0M the optimum value of the green, the blue best VC0M values, said white VC0M optimum value, the red luminance coefficients, said coefficients green luminance, the luminance of the blue and the white luminance coefficient convergence of the algorithm coefficients as input, calculates the optimum value VCOM, thereby FI i cker adjusted.

[0020] 可选地,所述计算模块具体用于将所述红色最佳VC0M值、所述绿色最佳VC0M值、所述蓝色最佳VC0M值、所述白色最佳VC0M值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数以及所述白色亮度系数作为公式(1)的输入,计算得到最佳VC0M值,其中,公式⑴为: [0020] Alternatively, the computing module is configured to VC0M optimal values ​​of the red, the green VC0M optimum value of the blue VC0M optimum value, the optimum VC0M white value, the red brightness coefficient, the coefficient green luminance, the luminance of the blue and the white luminance coefficients as input coefficients in equation (1), the calculated optimum value VC0M, wherein ⑴ formula is:

[0021] VC0M = Vr* Δ r+Vg* Δ g+Vb* Δ B+VW* Δ w [0021] VC0M = Vr * Δ r + Vg * Δ g + Vb * Δ B + VW * Δ w

[0022] 其中,VCOM为最佳VCOM值,Vr为所述红色最佳VCOM值,Vg为所述绿色最佳VCOM值,Vr 为所述蓝色最佳VC0M值,Vw为所述白色最佳VC0M值,所述红色亮度系数、所述绿色亮度系数、A b为所述蓝色亮度系数以及△ w为所述白色亮度系数。 [0022] wherein, VCOM VCOM optimum value, Vr is the value of the red optimum VCOM, Vg is the green VCOM optimum value, Vr is the value of the blue optimal VC0M, Vw is the best white VC0M value, the red luminance coefficient, the green luminance coefficient, A b is a coefficient of the blue luminance and the white luminance △ w is the coefficient.

[0023] 可选地,所述第二获取模块具体用于: [0023] Alternatively, the second acquisition module is configured to:

Figure CN105976746AD00071

[0028] 其中,所述红色亮度系数、八(;为所述绿色亮度系数、ΔΒ为所述蓝色亮度系数以及A w为所述白色亮度系数,Lr为所述红色亮度信息、U为所述绿色亮度信息、Lb为所述蓝色亮度信息、Lw为所述白色亮度信息。 [0028] wherein, the red luminance coefficient, eight (; is the green luminance factor, as the blue luminance Delta] [beta coefficients and the A w is a white brightness coefficient, to the red luminance Lr of information, U is the said green luminance information, Lb is the blue luminance information, Lw of the white luminance information.

[0029] 可选地,所述装置还包括采集模块,所述采集模块用于对红色纯色画面进行采集从而获得红色亮度信息,对绿色纯色画面进行采集从而获得绿色亮度信息,对蓝色纯色画面进行采集从而获得蓝色亮度信息,对白色纯色画面进行采集从而获得白色亮度信息,其中,红色纯色画面是显示屏只有红色子像素点亮时的画面,绿色纯色画面是显示屏只有绿色子像素点亮时的画面,蓝色纯色画面是显示屏只有蓝色子像素点亮时的画面,白色纯色画面是显示屏只有白色子像素点亮时的画面。 [0029] Optionally, the apparatus further comprises an acquisition module, a collection module for collecting red solid color screen brightness information to obtain red, green solid collected to obtain a picture of green luminance information, solid blue screen thereby obtaining a collection of blue luminance information, white solid collected to give the white screen brightness information, wherein the red solid color screen when the screen display is only lit red sub-pixel, a green solid color screen display is only the green sub-pixels screen when bright, solid blue screen is a screen display when only the blue sub-pixel is lit, white solid picture is a screen when a white sub-pixel is lit only display.

[0030] 可选地,所述测试灰阶为127灰阶或者128灰阶。 [0030] Alternatively, the test is 127 gray gray gray or 128.

[0031]本发明的实施例,通过综合考虑了红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值、白色最佳VC0M值,所以计算得到的最佳VC0M值更为准确,能够有效地调节FI icker 现象。 [0031] Example embodiments of the present invention, by considering the best VC0M red value, green value optimal VC0M, blue VC0M optimal value, the optimal VC0M white value, the optimal value calculated VC0M more accurate, can effectively regulate FI icker phenomenon.

附图说明 BRIEF DESCRIPTION

[0032] 为了更清楚地说明本发明实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。 [0032] In order to more clearly illustrate the technical solutions in the embodiments of the present invention, briefly describes the accompanying drawings required for describing the embodiments used in the following embodiments will be apparent in the following description of the drawings Some embodiments of the present invention are embodiment, those of ordinary skill in the art is concerned, without creative efforts, can derive from these drawings other drawings.

[0033] 图1是现有技术的液晶显示屏的结构示意图; [0033] FIG. 1 is a schematic structural diagram of the prior art liquid crystal display;

[0034]图2是现有技术的光敏二极管对波长的灵敏度示意图; [0034] FIG. 2 is a prior art schematic photodiode sensitivity wavelength;

[0035]图3是本发明实施例提供的一种Flicker调节方法的流程图; [0035] FIG. 3 is a flowchart of an adjustment method provided Flicker embodiment of the present invention;

[0036] 图4是本发明实施例提供的一种Flicker调节装置的结构示意图; [0036] FIG. 4 is a block diagram of an embodiment Flicker adjustment device of the embodiment of the present invention;

[0037] 图5是本发明实施例提供的另一种Flicker调节装置的结构示意图; [0037] FIG. 5 is a schematic structural diagram of another embodiment Flicker adjusting device provided in embodiments of the present invention;

[0038] 图6是本发明实施例提供的一种终端的结构示意图。 [0038] FIG. 6 is a structural diagram of a terminal according to an embodiment of the present invention.

具体实施方式 Detailed ways

[0039]下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例是本发明一部分实施例,而不是全部的实施例。 [0039] below in conjunction with the present invention in the accompanying drawings, technical solutions of embodiments of the present invention are clearly and completely described, obviously, the described embodiments are part of the embodiments of the present invention rather than all embodiments . 基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。 Based on the embodiments of the present invention, all other embodiments of ordinary skill in the art without any creative effort shall fall within the scope of the present invention.

[0040] 本发明的说明书和权利要求书及所述附图中的术语"第一"、"第二"、"第三"和"第四"等是用于区别不同对象,而不是用于描述特定顺序。 [0040] in the specification and claims of the present invention as claimed in the accompanying drawings and the terms "first", "second", "third" and "fourth" and the like are used to distinguish objects, not for described in a particular order. 此外,术语"包括"和"具有"以及它们任何变形,意图在于覆盖不排他的包含。 Furthermore, the terms "including" and "having," and any modification thereof, are intended to cover non-exclusive inclusion. 例如包含了一系列步骤或单元的过程、方法、系统、产品或设备没有限定于已列出的步骤或单元,而是可选地还包括没有列出的步骤或单元,或可选地还包括对于这些过程、方法、产品或设备固有的其它步骤或单元。 For example, comprising a series of steps or unit process, method, system, or device or unit is not limited to the listed steps, but optionally further comprises the step or unit is not listed, or alternatively further comprising for such process, method, article, or device-specific steps or other units.

[0041] 请参见图1,图1是本发明实施例提供的一种Flicker调节方法的流程图。 [0041] Referring to FIG. 1, FIG. 1 is a flowchart of a method for adjusting Flicker provided in the embodiment of the present invention. 本实施例的Flicker调节方法包括如下步骤: Flicker adjustment method of this embodiment comprises the steps of:

[0042] 110:分别获取红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值以及白色最佳VC0M 值。 [0042] 110: VC0M respectively obtain the best value for the red, green VC0M optimum value, blue value, and the optimal white VC0M VC0M optimum value.

[0043] 为了确定红色最佳VC0M值,先将液晶面板的子像素的灰阶设置为测试灰阶,然后液晶面板在测试灰阶下显示由红色子像素组成的图案。 [0043] To determine the optimal value of the red VC0M, the first sub-pixel gray scale liquid crystal panel is provided for the test gray scale, the liquid crystal panel and a display pattern of red sub-pixels in the gray scale test. 光敏二极管对液晶面板显示的由红色子像素组成的图案的光线进行采集,并根据采集到的结果计算出Flicker闪烁值的数值大小,最后,调节VC0M值,使得FIicker闪烁值的数值最小,则此时的VC0M值即为红色最佳VC0M。 Photodiode to light pattern from red sub-pixels of the liquid crystal panel display is acquired, and calculates the numerical values ​​of Flicker flicker value according to the collected results, finally, adjustment VC0M value, so that the minimum value FIicker flicker value, then this VC0M value of red is the best VC0M. 类似地,可以分别获得绿色最佳VC0M值、蓝色最佳VC0M值以及白色最佳VC0M值。 Similarly, each obtained optimum VC0M green value, blue value, and the optimal white VC0M VC0M optimum value. 其中, 测试灰阶可以是127灰阶或者128灰阶。 Wherein the test gray scale may be 127 or 128 gray gray.

[0044] 120:分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息,并根据红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数。 [0044] 120: red respectively acquire luminance information, the brightness information of green, blue and white luminance information is luminance information, and luminance information of the red, green luminance information, white color information and the luminance of blue luminance information are respectively calculated brightness coefficient red, green brightness coefficient, blue and white luminance brightness coefficient factor.

[0045] 为了获得红色亮度信息,可以令先将液晶面板的子像素的灰阶设置为测试灰阶, 然后液晶面板在测试灰阶下依次显示红色纯色画面、绿色纯色画面、蓝色纯色画面以及白色纯色画面。 [0045] In order to obtain a red luminance information, can make the sub-pixels of the liquid crystal panel is first set to the test grayscale gray, the liquid crystal panel and sequentially displays red solid color screen, screen solid green, blue gray solid and screen test white solid color screen. 光敏二极管依次对液晶面板显示的红色纯色画面、绿色纯色画面、蓝色纯色画面以及白色纯色画面进行采集从而获得红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息。 Pure red photodiode sequentially display screen of the liquid crystal panel, green solid color screen, screen solid blue screen and a white solid collected to obtain luminance information of red, green luminance information, white color information, and the blue luminance luminance information. 在分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息之后,根据红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数。 Obtaining luminance information respectively red, then green luminance information, white color information, and the blue luminance luminance information, the brightness information of the red, green luminance information, white color information and the luminance of blue luminance information are respectively calculated brightness coefficient red, green luminance coefficient, blue white color and brightness coefficient brightness coefficient. 其中,红色纯色画面是显示屏只有红色子像素点亮时的画面,绿色纯色画面是显示屏只有绿色子像素点亮时的画面, 蓝色纯色画面是显示屏只有蓝色子像素点亮时的画面,白色纯色画面是显示屏只有白色子像素点亮时的画面。 Wherein, when a red solid color screen is a screen display only the red sub-pixel is lit, the green picture is a solid color screen when only the green display sub-pixel is lit, solid blue screen is lit to display only the blue subpixel screen, white solid display screen when a picture is a white sub-pixel is lit only.

[0046]在一具体的实施例中,根据红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数具体为: [0046] In a particular embodiment, the luminance information according to the red, green luminance information, white color information and the luminance of blue luminance information are respectively calculated brightness coefficient red, green luminance coefficient, blue and white luminance brightness coefficient factor is specifically:

Figure CN105976746AD00091

[0051] 其中,Δκ为红色亮度系数、为绿色亮度系数、ΔΒ为蓝色亮度系数以及Aw为白色亮度系数,U为红色亮度信息、Lg为绿色亮度信息、Lb为蓝色亮度信息、Lw为白色亮度信息。 [0051] wherein, Δκ brightness coefficient for the red, green brightness coefficient, brightness coefficient Delta] [beta blue and white luminance Aw coefficient, U is the luminance information of red, green luminance information of Lg, Lb is the blue luminance information, to Lw of white luminance information.

[0052] 130:将红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值、白色最佳VC0M值、红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数作为收敛算法的输入,计算得到最佳VC0M值,从而对FI i cker进行调节。 [0052] 130: The best VC0M red value, green value optimal VC0M, blue VC0M optimal value, the optimal white value VC0M, red brightness coefficient, brightness coefficient green, blue and white luminance brightness coefficient as a coefficient of convergence of the algorithm input, calculated values ​​of optimum VC0M, thereby FI i cker adjusted.

[0053]在本发明实施例中,将红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数作为收敛算法的收敛系数,将红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值、白色最佳VC0M值作为收敛算法的输入,计算得到最佳VC0M值。 [0053] In an embodiment of the present invention, the brightness coefficient red, green luminance coefficient, blue and white luminance brightness coefficient as a coefficient of convergence coefficient convergence of the algorithm, the optimal VC0M red value, green value VC0M best, most blue VC0M good value, the optimal white value VC0M convergence of the algorithm as input, calculates the optimum value VC0M.

[0054] 在一具体的实施方式中,可以通过将红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值、白色最佳VC0M值、红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数作为公式(1)的输入,计算得到最佳VC0M值,其中,公式(1)为: [0054] In a specific embodiment, the optimal VC0M by the red value, green value optimal VC0M, blue VC0M optimal value, the optimal white value VC0M, red brightness coefficient, brightness coefficient green, blue luminance white luminance coefficients and coefficients as input the formula (1), the calculated optimum value VC0M, wherein the formula (1):

[0055] VCOM = Vr* Δ r+Vg* Δ g+Vb* Δ B+VW* Δ w [0055] VCOM = Vr * Δ r + Vg * Δ g + Vb * Δ B + VW * Δ w

[0056] 其中,VCOM为最佳VCOM值,Vr为红色最佳VCOM值,Vg为绿色最佳VCOM值,Vr为蓝色最佳VC0M值,Vw为白色最佳VC0M值,Δ Κ为红色亮度系数、为绿色亮度系数、ΔΒ为蓝色亮度系数以及Δψ为白色亮度系数。 [0056] wherein, VCOM VCOM optimum value, Vr red VCOM optimum value, Vg green VCOM optimum value, Vr blue VC0M optimum value, Vw as a white VC0M optimum value, Δ Κ red luminance coefficient, brightness coefficient for the green, blue luminance Delta] [beta coefficients and Δψ white brightness coefficient.

[0057]请参阅图4,图4是本发明实施例公开的一种Flicker调节装置的结构示意图。 [0057] Please refer to FIG. 4, FIG. 4 is a block diagram of an embodiment of the disclosed embodiment Flicker conditioning apparatus of the present invention. 本实施例的装置40包括:第一获取模块410、第二获取模420以及计算模块430。 Apparatus 40 of the present embodiment comprises: a first acquiring module 410, a second acquisition module 420 and a calculation module 430.

[0058]所述第一获取模块410用于分别获取红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值以及白色最佳VC0M值,其中,红色最佳VC0M值是在测试灰阶下对由红色子像素组成的图案进行测试得到的最佳VC0M值,绿色最佳VC0M值是在测试灰阶下对由绿色子像素组成的图案进行测试得到的最佳VC0M值,蓝色最佳VC0M值是在测试灰阶下对由蓝色子像素组成的图案进行测试得到的最佳VC0M值,白色最佳VC0M值是在测试灰阶下对由白色子像素组成的图案进行测试得到的最佳VC0M值。 [0058] The first acquisition module 410 is configured to obtain optimal VC0M red values, green VC0M optimum value, blue value, and the optimal white VC0M VC0M optimum value, wherein, the red value is the best in the test ash VC0M carried out in the order of red sub-pixel pattern of the optimum composition obtained VC0M test value, a green value is optimal VC0M VC0M optimum value of the test pattern is obtained for the green sub-pixels in the gray scale testing, the most blue best VC0M value is a pattern consisting of a blue subpixel VC0M optimum value of the test obtained in a test gray scale value of white in the optimum VC0M test pattern of white sub-pixels are obtained under test gradations best VC0M value.

[0059]所述第二获取模块420用于分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息,并根据所述红色亮度信息、所述绿色亮度信息、所述蓝色亮度信息以及所述白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数。 [0059] The second acquisition module 420 for obtaining luminance information are respectively red, green luminance information, white color information, and the blue luminance luminance information, and luminance information according to the red, the green luminance information, the brightness of the blue information and the luminance information are white brightness coefficient calculated red, green luminance coefficient, blue and white luminance brightness coefficient factor.

[ΟΟόΟ]所述计算模块430用于将所述红色最佳VCOM值、所述绿色最佳VCOM值、所述蓝色最佳VC0M值、所述白色最佳VC0M值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数以及所述白色亮度系数作为收敛算法的输入,计算得到最佳VCOM值,从而对Flicker进行调节。 [ΟΟόΟ] The calculation module 430 is used to the optimum VCOM red value, said green VCOM optimum value of the blue VC0M optimum value, the optimum VC0M white value, the red luminance coefficient, the green luminance coefficient, the luminance of the blue and the white luminance coefficients as input coefficients convergence of the algorithm, the calculated optimum value VCOM, thereby Flicker adjustment.

[0061 ]可选地,所述计算模块430具体用于将所述红色最佳VC0M值、所述绿色最佳VC0M 值、所述蓝色最佳VCOM值、所述白色最佳VCOM值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数以及所述白色亮度系数作为公式(1)的输入,计算得到最佳VC0M值,其中, 公式(1)为: [0061] Alternatively, the computing module 430 is specifically configured to VC0M optimum value of the red, the green VC0M optimum value, the optimum VCOM blue values, the optimal white value VCOM, the said red brightness coefficient, the coefficient green luminance, the luminance of the blue and the white luminance coefficient equation coefficients as input (1) calculating optimum values ​​VC0M, wherein the formula (1):

[0062] VCOM = Vr* Δ r+Vg* Δ g+Vb* Δ B+VW* Δ w [0062] VCOM = Vr * Δ r + Vg * Δ g + Vb * Δ B + VW * Δ w

[0063] 其中,VCOM为最佳VCOM值,VR为所述红色最佳VCOM值,VG为所述绿色最佳VCOM值,VR 为所述蓝色最佳VCOM值,Vw为所述白色最佳VCOM值,Δ 所述红色亮度系数、Δ (;为所述绿色亮度系数、Α β为所述蓝色亮度系数以及△ w为所述白色亮度系数。 [0063] wherein, VCOM VCOM optimum value, VR VCOM optimum value for said red, VG for said green VCOM optimum value, VR is the blue VCOM optimum value, Vw is the best white VCOM value, Δ brightness of the red coefficient, Δ (; is the green luminance coefficient, Α β is a coefficient of the blue luminance and the white luminance △ w is a coefficient.

[0064]可选地,所述第二获取模块420具体用于: [0064] Alternatively, the second obtaining module 420 is configured to:

Figure CN105976746AD00101

[0069] 其中,Ar为所述红色亮度系数、/U为所述绿色亮度系数、ΔΒ为所述蓝色亮度系数以及A w为所述白色亮度系数,Lr为所述红色亮度信息、U为所述绿色亮度信息、Lb为所述蓝色亮度信息、Lw为所述白色亮度信息。 [0069] wherein, Ar is a red brightness coefficient, / U is the green luminance coefficient, ΔΒ is the blue luminance coefficients and the A w is a white brightness coefficient, Lr is the red luminance information, U is the green luminance information, Lb is the blue luminance information, Lw of the white luminance information.

[0070] 可选地,所述测试灰阶为127灰阶或者128灰阶。 [0070] Alternatively, the test is 127 gray gray gray or 128.

[007Ί]可理解的是,本实施例的Flicker调节装置40的各功能单元的功能可根据上述图3 所示的方法实施例具体实现,此处不再赘述。 [007Ί] it appreciated that the functionality of the functional units of the apparatus 40 of the present embodiment is adjusted Flicker embodiments may be embodied in the above-described embodiment the method shown in FIG. 3, omitted here.

[0072]参阅图5,图5是本发明实施例公开的一种Flicker调节装置的结构示意图。 [0072] Referring to FIG. 5, FIG. 5 is a block diagram of an embodiment Flicker adjusting device disclosed embodiment of the present invention. 本实施例的装置50是由图4所示的Flicker调节装置50进行优化得到的。 Apparatus 50 of the present embodiment is shown in FIG. 4 Flicker adjustment means 50 is optimized obtained. 该Flicker调节装置40还包括:采集模块440。 Flicker The adjustment means 40 further comprising: a collection module 440.

[0073] 所述采集模块440用于对红色纯色画面进行采集从而获得红色亮度信息,对绿色纯色画面进行采集从而获得绿色亮度信息,对蓝色纯色画面进行采集从而获得蓝色亮度信息,对白色纯色画面进行采集从而获得白色亮度信息,其中,红色纯色画面是显示屏只有红色子像素点亮时的画面,绿色纯色画面是显示屏只有绿色子像素点亮时的画面,蓝色纯色画面是显示屏只有蓝色子像素点亮时的画面,白色纯色画面是显示屏只有白色子像素点亮时的画面。 [0073] The acquisition module 440 is used to collect the red solid picture luminance information so as to obtain red, green solid collected to obtain a picture of green luminance information blue solid collected to obtain a picture of blue luminance information, white the solid collected to give the white screen brightness information, wherein the red solid color screen is a screen display when only the red sub-pixel is lit, the green picture is a solid color screen display when only the green sub-pixel is lit, the blue is a solid color screen screen when the screen is lit only the blue sub-pixel, a white solid display screen when the screen is only lit white sub-pixel.

[0074]可理解的是,本实施例的Flicker调节装置50的各功能单元的功能可根据上述图3 所示的方法实施例具体实现,此处不再赘述。 [0074] appreciated that the functionality of the functional units of the apparatus 50 of the present embodiment is adjusted Flicker embodiments may be embodied in the above-described embodiment the method shown in FIG. 3, omitted here.

[0075]请参见图6,图6是本发明提供的一种终端的结构示意图。 [0075] Referring to FIG. 6, FIG. 6 is a schematic view of a terminal provided by the present invention. 本实施例中所描述的终端70包括:至少一个处理器701、通信接口702、用户接口703和存储器704,处理器701、通信接口702、用户接口703和存储器704可通过总线或者其它方式连接,本发明实施例以通过总线705连接为例。 Terminal described in the present embodiment 70 comprising: at least one processor 701, a communication interface 702, a user interface 703 and a memory 704, a processor 701, a communication interface 702, a user interface 703 and memory 704 may be connected by a bus or other means, in embodiments of the present invention is connected via a bus 705 as an example. 其中, among them,

[0076] 处理器701可以是通用处理器,例如中央处理器(Central Processing Unit, CPU)。 [0076] The processor 701 may be a general purpose processor, such as a central processor (Central Processing Unit, CPU).

[0077] 通信接口702可以为有线接口(例如以太网接口)或无线接口(例如蜂窝网络接口或使用无线局域网接口),用于与其他终端或服务器进行通信。 [0077] Communication interface 702 may (e.g., Ethernet) or a wireless interface (e.g., a wireless cellular network interface or LAN interface) for communication with other terminals or wired interface server. 本发明实施例中,通信接口702具体用于将目标网站中记载目标新闻的网页的链接发送给客户端。 Embodiments of the present invention, a communication interface 702 for transmitting the link target specific sites in the target information page according to the client.

[0078] 用户接口703具体可为触控面板,包括触摸屏和触控屏,用于检测触控面板上的操作指令,用户接口703也可以是物理按键或者鼠标。 [0078] The user interface 703 may be a particular touch panel includes a touch screen and a touch screen for detecting an operation instruction on the touch panel, the user interface 703 may be a physical key or a mouse. 本发明实施例中,用户接口703具体用于接收用户输入的目标新闻的标题或关键词。 Embodiment of the present invention, a user interface 703 for the particular target header information or to receive user input keywords. 用户接口703还可以为显示屏,用于输出、显示图像或数据。 The user interface 703 may also be a display screen for outputting display image or data. 本发明实施例中,用户接口703具体用于接收用户输入的目标新闻的标题或关键词。 Embodiment of the present invention, a user interface 703 for the particular target header information or to receive user input keywords.

[0079] 存储器704可以包括易失性存储器(Volatile Memory),例如随机存取存储器(Random Access Memory,RAM);存储器也可以包括非易失性存储器(Non-Volatile Memory),例如只读存储器(Read-Only Memory,R0M)、快闪存储器(Flash Memory)、硬盘(Hard Disk Drive,HDD)或固态硬盘(Solid-State Drive,SSD);存储器704还可以包括上述种类的存储器的组合。 [0079] The memory 704 may include volatile memory (Volatile Memory), such as a random access memory (Random Access Memory, RAM); memory may also include non-volatile memory (Non-Volatile Memory), such as read only memory ( Read-Only memory, R0M), a flash memory (flash memory), a hard disk (hard Disk Drive, HDD) or a solid state drive (solid-State Drive, SSD); memory 704 may also include combinations of the above types of memory. 存储器704用于存储一组程序代码,处理器701用于调用存储器704 中存储的程序代码,执行如下操作: Memory 704 for storing a set of program codes, a processor 701 for invoking the memory 704 program code is stored, perform the following operations:

[0080] 分别获取红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值以及白色最佳VC0M 值,其中,红色最佳VC0M值是在测试灰阶下对由红色子像素组成的图案进行测试得到的最佳VC0M值,绿色最佳VC0M值是在测试灰阶下对由绿色子像素组成的图案进行测试得到的最佳VC0M值,蓝色最佳VC0M值是在测试灰阶下对由蓝色子像素组成的图案进行测试得到的最佳VC0M值,白色最佳VC0M值是在测试灰阶下对由白色子像素组成的图案进行测试得到的最佳VC0M值; [0080] VC0M respectively acquire the optimum values ​​of red, green VC0M optimum value, blue value, and the optimal white VC0M VC0M optimum value, wherein the red VC0M optimum value of the gray scale in the test sub-pixels of the red VC0M optimum value of the test pattern is obtained, the green values ​​are the best VC0M VC0M optimal value of the test pattern is obtained for the green sub-pixels in a test gray scale value is blue VC0M optimal gray scale test patterned by the blue sub-pixels is the optimum value of the test VC0M obtained white VC0M optimum values ​​are tested by the white sub-pixel pattern composed of the optimum value of the test VC0M obtained in gray;

[0081] 分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息以及白色亮度信息,并根据所述红色亮度信息、所述绿色亮度信息、所述蓝色亮度信息以及所述白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数; [0081] respectively acquire luminance information of red, green luminance information, white color information, and the blue luminance luminance information, and luminance information according to the red, the green luminance information, the brightness information of the blue and white luminance information calculates the to give a red brightness coefficient, brightness coefficient green, blue and white luminance brightness coefficient coefficient;

[0082] 将所述红色最佳VC0M值、所述绿色最佳VC0M值、所述蓝色最佳VC0M值、所述白色最佳VC0M值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数以及所述白色亮度系数作为收敛算法的输入,计算得到最佳VC0M值,从而对FI i cker进行调节。 [0082] The optimal VC0M red value, said green VC0M optimum value of the blue VC0M optimum value, the optimum VC0M white value, the red luminance coefficient, the green luminance coefficient, the said blue brightness coefficient and the white luminance as input coefficients convergence of the algorithm, the optimal VC0M calculated value, thereby FI i cker adjusted.

[0083] 可选地,将所述红色最佳VC0M值、所述绿色最佳VC0M值、所述蓝色最佳VC0M值、所述白色最佳VC0M值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数以及所述白色亮度系数作为公式(1)的输入,计算得到最佳VC0M值,其中,公式(1)为: [0083] Alternatively, the optimum VC0M red value, said green VC0M optimum value of the blue VC0M optimum value, the optimum VC0M white value, the red luminance coefficient, the green brightness coefficient, the luminance of the blue and the white luminance coefficient equation coefficients as input (1) calculating optimum values ​​VC0M, wherein the formula (1):

[0084] VC0M = Vr* Δ r+Vg* Δ g+Vb* Δ B+VW* Δ w [0084] VC0M = Vr * Δ r + Vg * Δ g + Vb * Δ B + VW * Δ w

[0085] 其中,VC0M为最佳VC0M值,VR为所述红色最佳VC0M值,VG为所述绿色最佳VC0M值,VR 为所述蓝色最佳VC0M值,Vw为所述白色最佳VC0M值,所述红色亮度系数、所述绿色亮度系数、AB为所述蓝色亮度系数以及△ w为所述白色亮度系数。 [0085] wherein, VC0M optimum value Vcom, VR Vcom optimum value for said red, VG for said green optimum value Vcom, VR is the best blue value Vcom, Vw is the best white VC0M value, the red luminance coefficient, the green luminance coefficient, AB is a coefficient of the blue luminance and the white luminance △ w is the coefficient.

[0086] 可选地,根据所述红色亮度信息、所述绿色亮度信息、所述蓝色亮度信息以及所述白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数以及白色亮度系数具体为: [0086] Alternatively, according to the luminance information of the red, the green luminance information, the luminance information and the blue white red luminance information are respectively calculated brightness coefficient, brightness coefficient green, blue and white luminance brightness coefficient factor in particular:

Figure CN105976746AD00121

[0091] 其中,AR为所述红色亮度系数、/U为所述绿色亮度系数、ΔΒ为所述蓝色亮度系数以及A w为所述白色亮度系数,Lr为所述红色亮度信息、U为所述绿色亮度信息、Lb为所述蓝色亮度信息、Lw为所述白色亮度信息。 [0091] wherein, AR is the red luminance coefficient, / U is the green luminance coefficient, ΔΒ is the blue luminance coefficients and the A w is a white brightness coefficient, Lr is the red luminance information, U is the green luminance information, Lb is the blue luminance information, Lw of the white luminance information.

[0092] 可选地,对红色纯色画面进行采集从而获得红色亮度信息,对绿色纯色画面进行采集从而获得绿色亮度信息,对蓝色纯色画面进行采集从而获得蓝色亮度信息,对白色纯色画面进行采集从而获得白色亮度信息,其中,红色纯色画面是显示屏只有红色子像素点亮时的画面,绿色纯色画面是显示屏只有绿色子像素点亮时的画面,蓝色纯色画面是显示屏只有蓝色子像素点亮时的画面,白色纯色画面是显示屏只有白色子像素点亮时的画面。 [0092] Alternatively, the picture of the red solid collected to obtain a red luminance information, picture green solid collected to obtain a green luminance information blue solid collected to obtain a picture of blue luminance information, white solid picture thereby obtaining information acquired white luminance, which is a red solid color picture display screen when the lighting only the red subpixel, the green picture is a solid color screen display when only the green sub-pixel is lit, the blue picture is a display only blue solid screen when the sub-pixel is lit, white solid picture is a display screen when only the white sub-pixel is lit. [0093] 可选地,所述测试灰阶为127灰阶或者128灰阶。 [0093] Alternatively, the test is 127 gray gray gray or 128.

[0094]本发明的实施例,通过综合考虑了红色最佳VC0M值、绿色最佳VC0M值、蓝色最佳VC0M值、白色最佳VC0M值,所以计算得到的最佳VC0M值更为准确,能够有效地调节FI icker 现象。 [0094] Example embodiments of the present invention, by considering the best VC0M red value, green value optimal VC0M, blue VC0M optimal value, the optimal VC0M white value, the optimal value calculated VC0M more accurate, can effectively regulate FI icker phenomenon.

[0095]本领域普通技术人员可以理解实现上述实施例方法中的全部或部分流程,是可以通过计算机程序来指令相关的硬件来完成,所述的程序可存储于一计算机可读取存储介质中,该程序在执行时,可包括如上述各方法的实施例的流程。 [0095] Those of ordinary skill in the art may understand that the above-described method embodiments all or part of the processes may be related hardware instructed by a computer program, the program may be stored in a computer readable storage medium. when the program is executed, the processes of the foregoing method embodiments. 其中,所述的存储介质可为磁碟、光盘、ROM或RAM等。 Wherein the storage medium may be a magnetic disk, optical disk, ROM, or the like RAM.

[0096] 本发明实施例方法中的步骤可以根据实际需要进行顺序调整、合并和删减。 The method of embodiment The procedure of Example [0096] The present invention may adjust the order, deletion, and combined according to need.

[0097] 本发明实施例服务器中的单元可以根据实际需要进行合并、划分和删减。 The server unit according to embodiment [0097] The present invention may be combined according to actual needs, division and deletion.

[0098]以上所揭露的仅为本发明一种较佳实施例而已,当然不能以此来限定本发明之权利范围,本领域普通技术人员可以理解实现上述实施例的全部或部分流程,并依本发明权利要求所作的等同变化,仍属于发明所涵盖的范围。 [0098] The above descriptions are merely exemplary embodiments of the present invention only, but not intended to limit the scope of the present invention, those of ordinary skill in the art may understand that the above embodiments all or part, and by equivalent variations of the claimed invention is made, it is still covered by the scope of the invention.

Claims (10)

1. 一种Flicker调节方法,其特征在于,包括如下步骤: 分别获取红色最佳VCOM值、绿色最佳VCOM值、蓝色最佳VCOM值W及白色最佳VCOM值,其中,红色最佳VCOM值是在测试灰阶下对由红色子像素组成的图案进行测试得到的最佳VCOM 值,绿色最佳VCOM值是在测试灰阶下对由绿色子像素组成的图案进行测试得到的最佳VCOM 值,蓝色最佳VCOM值是在测试灰阶下对由蓝色子像素组成的图案进行测试得到的最佳VCOM 值,白色最佳VCOM值是在测试灰阶下对由白色子像素组成的图案进行测试得到的最佳VCOM 值; 分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息W及白色亮度信息,并根据所述红色亮度信息、所述绿色亮度信息、所述蓝色亮度信息W及所述白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、蓝色亮度系数W及白色亮度系数; 将所述红色最佳VCOM值、所述绿色最 Flicker An adjusting method characterized by comprising the steps of: obtaining each optimum VCOM red value, green value optimum VCOM, blue, and white W optimum value VCOM VCOM optimum value, wherein the red best VCOM the optimum value is obtained VCOM value of the test pattern is composed of the red sub-pixels in a test gray scale value is the best green optimum VCOM VCOM patterned by the green sub-pixels obtained was tested in a test gray value, blue value VCOM is best in the test pattern is composed of the blue sub-pixels is the optimum value of the test obtained under VCOM gray, white VCOM optimum value is tested at a gray scale of white sub-pixel composed of VCOM optimum value of the test pattern is obtained; red respectively acquire luminance information, the brightness information of green, blue and white luminance information W luminance information, and luminance information according to the red, the green luminance information, the brightness information blue W, and calculates the luminance information obtained white brightness coefficient red, green luminance coefficient, blue and white luminance coefficient W brightness coefficient; VCOM the optimum value of the red, green the most 佳VCOM值、所述蓝色最佳VCOM值、所述白色最佳VCOM值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数W及所述白色亮度系数作为收敛算法的输入,计算得到最佳VCOM值,从而对F1 icker进行调节。 Best VCOM value of the blue VCOM optimum value, the optimum white VCOM value, the red luminance coefficients, said coefficients green luminance, the luminance of the blue and the white luminance coefficient W as coefficient convergence of the algorithm input, calculates the optimum value VCOM, thereby adjusting F1 icker.
2. 根据权利要求1所述的方法,其特征在于,将所述红色最佳VCOM值、所述绿色最佳VCOM值、所述蓝色最佳VCOM值、所述白色最佳VCOM值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数W及所述白色亮度系数作为收敛算法的输入,计算得到最佳VCOM值具体为: 将所述红色最佳VCOM值、所述绿色最佳VCOM值、所述蓝色最佳VCOM值、所述白色最佳VCOM值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数W及所述白色亮度系数作为公式(1)的输入,计算得到最佳VCOM值,其中,公式(1)为: VC0M=Vr* Δ r+Vg* A g+Vb* A B+Vw* AW 其中,VCOM为最佳VCOM值,Vr为所述红色最佳VCOM值,Vg为所述绿色最佳VCOM值,Vr为所述蓝色最佳VCOM值,Vw为所述白色最佳VCOM值,AR为所述红色亮度系数、AG为所述绿色亮度系数、Δ B为所述蓝色亮度系数W及Δ W为所述白色亮度系数。 2. The method according to claim 1, wherein the optimal VCOM red value, said green VCOM optimum value of the blue VCOM optimum value, the optimum VCOM white value, the said red brightness coefficient, the coefficient green luminance, the luminance of the blue and the white luminance coefficient W as an input coefficient convergence of the algorithm, the calculated optimum value VCOM is specifically: the red VCOM optimal value, the green VCOM best value of the blue VCOM optimum value, the optimum VCOM white value, the red luminance coefficient, the green luminance coefficient, the coefficient W, and the blue luminance white brightness coefficient as a formula input (1) calculating optimum values ​​VCOM, wherein the formula (1): VC0M = Vr * Δ r + Vg * a g + Vb * a B + Vw * AW wherein VCOM VCOM optimum value, Vr is the value of the red optimum VCOM, Vg is the green VCOM optimum value, Vr is the value of the blue optimum VCOM, Vw is the white VCOM optimum value, AR is the red luminance coefficient, AG is the green luminance coefficient, Δ B is the blue luminance factor [Delta] W and W as the white brightness coefficient.
3. 根据权利要求1所述的方法,其特征在于,根据所述红色亮度信息、所述绿色亮度信息、所述蓝色亮度信息W及所述白色亮度信息分别计算得到红色亮度系数、绿色亮度系数、 蓝色亮度系数W及白色亮度系数具体为: 3. The method according to claim 1, characterized in that, according to the luminance information of red, the green luminance information, the brightness information W, and the blue white red luminance information are respectively calculated brightness coefficient, green luminance coefficient, blue and white luminance brightness coefficient coefficient W is specifically:
Figure CN105976746AC00021
其中,AR为所述红色亮度系数、Δ e为所述绿色亮度系数、Δ B为所述蓝色亮度系数W及Δ W为所述白色亮度系数,Lr为所述红色亮度信息、U为所述绿色亮度信息、Lb为所述蓝色亮度信息、Lw为所述白色亮度信息。 Wherein, AR is the red luminance coefficient, Δ e is the green luminance coefficient, Δ B is the blue luminance factor [Delta] W and W as the white brightness coefficient, Lr is the red luminance information, U is the said green luminance information, Lb is the blue luminance information, Lw of the white luminance information.
4. 根据权利要求1所述的方法,其特征在于,分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息w及白色亮度信息之前,还包括: 对红色纯色画面进行采集从而获得红色亮度信息,对绿色纯色画面进行采集从而获得绿色亮度信息,对蓝色纯色画面进行采集从而获得蓝色亮度信息,对白色纯色画面进行采集从而获得白色亮度信息,其中,红色纯色画面是显示屏只有红色子像素点亮时的画面,绿色纯色画面是显示屏只有绿色子像素点亮时的画面,蓝色纯色画面是显示屏只有蓝色子像素点亮时的画面,白色纯色画面是显示屏只有白色子像素点亮时的画面。 4. The method according to claim 1, characterized in that, before the brightness information of red, green luminance information, white and blue luminance information w respectively acquire luminance information, further comprising: a red solid collected to obtain a picture of red luminance information , green solid collected to obtain a picture of green luminance information blue solid collected to obtain a picture of blue luminance information, white solid collected to give the white screen brightness information, wherein the picture is a solid color red, only the red display sub screen when a pixel is lit, the green picture is a solid color screen display when only the green sub-pixel is lit, solid blue screen is a screen display when only the blue sub-pixel is lit, white solid sub-picture is a display only white screen when the lighting pixels.
5. 根据权利要求1所述的方法,其特征在于,所述测试灰阶为127灰阶或者128灰阶。 5. The method according to claim 1, wherein the test is a 127 gray gray gray or 128.
6. -种F1 icker调节装置,其特征在于,所述装置包括:第一获取模块、第二获取模块W 及计算模块, 所述第一获取模块用于分别获取红色最佳VCOM值、绿色最佳VCOM值、蓝色最佳VCOM值W及白色最佳VCOM值,其中,红色最佳VCOM值是在测试灰阶下对由红色子像素组成的图案进行测试得到的最佳VCOM值,绿色最佳VCOM值是在测试灰阶下对由绿色子像素组成的图案进行测试得到的最佳VCOM值,蓝色最佳VCOM值是在测试灰阶下对由蓝色子像素组成的图案进行测试得到的最佳VCOM值,白色最佳VCOM值是在测试灰阶下对由白色子像素组成的图案进行测试得到的最佳VCOM值; 所述第二获取模块用于分别获取红色亮度信息、绿色亮度信息、蓝色亮度信息W及白色亮度信息,并根据所述红色亮度信息、所述绿色亮度信息、所述蓝色亮度信息W及所述白色亮度信息分别计算得到红色亮度系数 6. - Species F1 icker adjusting means, wherein, said means comprising: a first acquisition module, a second acquisition module and a calculation module W, respectively, the first obtaining means for obtaining the optimum VCOM red value, green most VCOM good value, blue, and white W optimum value VCOM VCOM optimum value, wherein, the red value is optimal VCOM VCOM optimum value of the test pattern is obtained for a red sub-pixels in the gray scale testing, the most green best VCOM VCOM optimum value is obtained for values ​​of the test pattern is composed of the green sub-pixels in a test gray scale value is blue VCOM optimum pattern of blue sub-pixels obtained was tested in the test gray VCOM optimum value, the optimum white VCOM value is carried out in the gray scale of the test pattern of white sub-pixels of the optimum value of the test VCOM obtained; the second obtaining module for respectively acquiring luminance information of red, green luminance information, blue and white luminance information W luminance information, and luminance information according to the red, the green luminance information, the brightness information W, and the blue white red luminance information are respectively calculated brightness coefficient 绿色亮度系数、蓝色亮度系数W及白色亮度系数; 所述计算模块用于将所述红色最佳VCOM值、所述绿色最佳VCOM值、所述蓝色最佳VCOM 值、所述白色最佳VCOM值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数W及所述白色亮度系数作为收敛算法的输入,计算得到最佳VCOM值,从而对Flicker进行调节。 Brightness coefficient green, blue and white luminance coefficient W brightness coefficient; means for calculating the optimum VCOM said red value, said green value optimum VCOM, VCOM optimum value of the blue, the most white VCOM good value, the red luminance coefficients, said coefficients green luminance, the luminance of the blue and the white luminance coefficient W as an input coefficient convergence of the algorithm, the calculated optimum value VCOM, thereby Flicker adjustment.
7. 根据权利要求6所述的装置,其特征在于,所述计算模块具体用于将所述红色最佳VCOM值、所述绿色最佳VCOM值、所述蓝色最佳VCOM值、所述白色最佳VCOM值、所述红色亮度系数、所述绿色亮度系数、所述蓝色亮度系数W及所述白色亮度系数作为公式(1)的输入, 计算得到最佳VCOM值,其中,公式(1)为: VCOM 二Vr本Δ r+Vg本Δ g+Vb本Δ B+V件本Δ W 其中,VCOM为最佳VCOM值,Vr为所述红色最佳VCOM值,Vg为所述绿色最佳VCOM值,Vr为所述蓝色最佳VCOM值,Vw为所述白色最佳VCOM值,AR为所述红色亮度系数、AG为所述绿色亮度系数、Δ B为所述蓝色亮度系数W及Δ W为所述白色亮度系数。 7. The device according to claim 6, wherein the calculating module is configured to VCOM optimum value of the red, the green VCOM optimum value, the optimum VCOM blue values, the white VCOM optimum value, the red luminance coefficient, the green luminance coefficient, the coefficient W, and the blue luminance white brightness coefficient as input the formula (1), the calculated optimum value VCOM, wherein the formula ( 1): R & lt VCOM two Vr + Vg according to the present [Delta] Δ g + Vb element according Δ B + V Δ W where present, VCOM VCOM optimum value, Vr is the value of the red optimum VCOM, Vg is the green VCOM optimum value, Vr is the value of the blue optimum VCOM, Vw is the white VCOM optimum value, AR is the red luminance coefficient, AG is the green luminance coefficient, Δ B is the blue luminance [Delta] W and W is the coefficient of the white brightness coefficient.
8. 根据权利要求6所述的装置,其特征在于,所述第二获取模块具体用于: 8. The apparatus according to claim 6, wherein the second acquisition module is configured to:
Figure CN105976746AC00031
其中,AR为所述红色亮度系数、Δ e为所述绿色亮度系数、Δ B为所述蓝色亮度系数W及Δ w为所述白色亮度系数,Lr为所述红色亮度信息、U为所述绿色亮度信息、Lb为所述蓝色亮度信息、Lw为所述白色亮度信息。 Wherein, AR is the red luminance coefficient, Δ e is the green luminance coefficient, Δ B is the blue luminance coefficient W and Δ w is the white luminance coefficient, Lr is the red luminance information, U is the said green luminance information, Lb is the blue luminance information, Lw of the white luminance information.
9. 根据权利要求6所述的装置,其特征在于,所述装置还包括采集模块,所述采集模块用于对红色纯色画面进行采集从而获得红色亮度信息,对绿色纯色画面进行采集从而获得绿色亮度信息,对蓝色纯色画面进行采集从而获得蓝色亮度信息,对白色纯色画面进行采集从而获得白色亮度信息,其中,红色纯色画面是显示屏只有红色子像素点亮时的画面,绿色纯色画面是显示屏只有绿色子像素点亮时的画面,蓝色纯色画面是显示屏只有蓝色子像素点亮时的画面,白色纯色画面是显示屏只有白色子像素点亮时的画面。 9. The apparatus according to claim 6, characterized in that said apparatus further comprises an acquisition module, a collection module for collecting red solid color screen brightness information to obtain red, green solid collected to obtain a green picture luminance information blue solid collected to obtain a picture of blue luminance information, white solid collected to give the white screen brightness information, wherein the red solid color screen when the screen display is only lit red sub-pixel, a green solid color screen only when the display is in the green sub-pixel is lit screen solid blue screen is a screen display when only the blue sub-pixel is lit, white solid picture is a display screen when only the white sub-pixel is lit.
10. 根据权利要求6所述的装置,其特征在于,所述测试灰阶为127灰阶或者128灰阶。 10. The apparatus according to claim 6, wherein the test is a 127 gray gray gray or 128.
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