WO2015192386A1 - 场色序法显示器及其色彩控制方法 - Google Patents
场色序法显示器及其色彩控制方法 Download PDFInfo
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- WO2015192386A1 WO2015192386A1 PCT/CN2014/080629 CN2014080629W WO2015192386A1 WO 2015192386 A1 WO2015192386 A1 WO 2015192386A1 CN 2014080629 W CN2014080629 W CN 2014080629W WO 2015192386 A1 WO2015192386 A1 WO 2015192386A1
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control 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
- G09G3/34—Control 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
- G09G3/3406—Control of illumination source
- G09G3/3413—Details of control of colour illumination sources
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1335—Structural association of cells with optical devices, e.g. polarisers or reflectors
- G02F1/133509—Filters, e.g. light shielding masks
- G02F1/133514—Colour filters
-
- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1335—Structural association of cells with optical devices, e.g. polarisers or reflectors
- G02F1/1336—Illuminating devices
- G02F1/133621—Illuminating devices providing coloured light
-
- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control 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
- G09G3/34—Control 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
- G09G3/36—Control 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
- G09G3/3607—Control 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 for displaying colours or for displaying grey scales with a specific pixel layout, e.g. using sub-pixels
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1335—Structural association of cells with optical devices, e.g. polarisers or reflectors
- G02F1/1336—Illuminating devices
- G02F1/133621—Illuminating devices providing coloured light
- G02F1/133622—Colour sequential illumination
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2300/00—Aspects of the constitution of display devices
- G09G2300/04—Structural and physical details of display devices
- G09G2300/0439—Pixel structures
- G09G2300/0443—Pixel structures with several sub-pixels for the same colour in a pixel, not specifically used to display gradations
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2300/00—Aspects of the constitution of display devices
- G09G2300/04—Structural and physical details of display devices
- G09G2300/0439—Pixel structures
- G09G2300/0452—Details of colour pixel setup, e.g. pixel composed of a red, a blue and two green components
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2310/00—Command of the display device
- G09G2310/02—Addressing, scanning or driving the display screen or processing steps related thereto
- G09G2310/0235—Field-sequential colour display
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2320/00—Control of display operating conditions
- G09G2320/06—Adjustment of display parameters
- G09G2320/0626—Adjustment of display parameters for control of overall brightness
- G09G2320/064—Adjustment of display parameters for control of overall brightness by time modulation of the brightness of the illumination source
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2320/00—Control of display operating conditions
- G09G2320/06—Adjustment of display parameters
- G09G2320/0666—Adjustment of display parameters for control of colour parameters, e.g. colour temperature
Definitions
- the present invention belongs to the field of display technologies, and in particular, to a field color sequential display and a color control method thereof. Background technique
- liquid crystal displays have high space utilization efficiency and low power consumption.
- Many advantages such as no radiation and low electromagnetic interference have become the mainstream of the market.
- Liquid crystal displays usually include a liquid crystal display panel and a backlight module (Black Light Module, BL for short). Since the liquid crystal display panel itself does not have self-illuminating characteristics, the backlight module must be disposed under the liquid crystal display panel to provide a surface light source required for the liquid crystal display panel, if the liquid crystal display panel is provided by the surface light source provided by the backlight module. Display images.
- each display pixel is composed of three color sub-pixels (Subpixel) of red, green and blue (RGB) (Color Filter, referred to as CF), in general, the size of the sub-pixel is much smaller than the range that can be distinguished by the human eye, and the color mixing effect can be achieved in human visual perception.
- TFT-LCD Thin-Film Transistor Liquid Crystal Display
- CF Color Filter
- FIG. 1 is a schematic diagram of a driving circuit architecture of a Field Sequential Color Display (FSCD) provided by the prior art.
- the color sequence controller 120 is configured to convert the spatial parallel RGB video data (Video Data) of the video source system side. Switch to time-series serial R ⁇ G ⁇ B video data output (so-called color sequence method).
- the color sequence method controller 120 synchronously controls the backlight module 130 to match different color data to generate a corresponding light source, thereby displaying a color picture on the display panel 140.
- the driving waveform is shown in Figure 2. 2 is a driving waveform diagram of the field color sequential display shown in FIG. 1. Referring to Figure 2, when the data is written, the backlight is turned off, and the backlight is turned on after the data is written. Thus, RGB temporal color mixing and erroneous color mixing can be avoided.
- the color image method divides the color image into three primary colors R, G, and B images, if the three primary colors R, G, and B images are sequentially displayed within one frame (Frame) time, indicating that the image frequency needs to reach 180 Hz, the liquid crystal The reaction time must be at least 5.56ms to avoid false color mixing.
- the human eye since the human eye often causes random saccades or tracks the instinct of moving objects in the picture, the color fields of the objects do not fall at the same point of the retina. Therefore, when using the field color sequential display, the human eye will visually feel A so-called Color Break up (CBU) phenomenon occurs at the edge of the object.
- CBU Color Break up
- the phenomenon of color separation occurs because the three-color field contained in a color image is projected by the human eye visual system at different positions on the retina, causing the observer to see the image separated by the dislocation. .
- the color separation phenomenon reduces the image quality, and there are reports that it may cause a feeling of dizziness after a long time of viewing.
- a field of display pixels composed of color filters of two color sub-pixels (for example, red-green sub-pixels, red-blue sub-pixels or green-blue sub-pixels) and transparent sub-pixels has been proposed. Color sequential display.
- FIG. 3 is a schematic structural view of another color sequential display of the prior art. Referring to FIG. 3, during the first sub-frame, the light valves of the liquid crystal molecules in the liquid crystal region 330 corresponding to the red and blue sub-pixels and the color filter of the transparent sub-pixel are all turned on.
- the backlight module 310 provides blue and red backlights, and the color filters of the transparent sub-pixels are ideally synthesized by blue and red light of magenta (M) light, red
- M magenta
- the color filter of the pixel desirably passes through the red light in the backlight
- the color filter of the blue sub-pixel desirably passes through the blue light in the backlight, so that the liquid crystal display panel 320 can display the three-color images of M, R, and B.
- the light valves of the liquid crystal molecules in the liquid crystal region 330 corresponding to the color filters of the red and blue sub-pixels are closed, and the liquid crystal molecules in the liquid crystal region 330 corresponding to the color filters of the transparent sub-pixels
- the light valve is open.
- the backlight module 310 provides a green backlight, and the color filter of the transparent sub-pixel ideally passes through the green backlight, the color filter of the red sub-pixel, and the blue sub-pixel.
- the color filters are opaque, so that the liquid crystal display panel 320 can display a green (G) image.
- the liquid crystal display panel 320 sequentially displays three colors of M, G, B images and green images, thereby displaying a complete image.
- the color filter of the red sub-pixel and the color filter of the blue sub-pixel are both opaque, the light transmittance of the liquid crystal display panel 320 during the second sub-frame is made. Lower, it is not conducive to reducing the power loss of the backlight module 310.
- an object of the present invention is to provide a field color sequential display, comprising: a liquid crystal display panel, a color filter including a first color sub-pixel, and a color filter of a second color sub-pixel a light filter and a color filter of the third sub-pixel, and the frame period thereof is sequentially divided into a first sub-frame period and a second sub-frame period; a backlight module for providing a backlight to the liquid crystal display a backlight, wherein the backlight includes a red backlight, a blue backlight, and a green backlight; wherein the backlight module provides backlights of three colors during the first backlight during the first sub-frame period a backlight of any two colors, such that the color filter of the first color sub-pixel passes one of the two color lights, and the color filter of the second color sub-pixel passes the light of any two colors Another color light, the color filter of the third sub-pixel passes the light of any two colors; the backlight module provides backlight of three colors
- the field color sequential display further includes: a color sequential method controller, wherein two color image data corresponding to the backlight of any two colors are provided to the liquid crystal display during the first sub-frame a panel; during the second sub-frame, color image data corresponding to a backlight of another color other than the backlight of any two colors in the backlight of the three colors is supplied to the liquid crystal display panel.
- the color sequential method controller provides a pulse width modulation control signal to the backlight module to respectively control a backlight enabling period of the backlight of the three colors provided by the backlight module, wherein, in the first sub-frame period In the first backlight period, the pulse width modulation control signal of the backlight of any two colors of the backlight of the three colors is controlled, and the backlight of the three colors is controlled, except for the backlight of any two colors.
- the pulse width modulation control signal of the backlight of the color is disabled; during the second backlight period of the second sub-frame, the pulse width modulation control signal of the backlight of any two colors of the backlight of the three colors is disabled A pulse width modulation control signal enabling of a backlight of another color other than the backlight of any two colors in the backlight of the three colors is controlled.
- the color filter of the first color sub-pixel is a color filter of a yellow sub-pixel
- the color filter of the second color sub-pixel is a color filter of a cyan sub-pixel
- the The color filter of the three sub-pixels is a color filter of the transparent sub-pixel
- the backlight module provides blue in the backlight of the three colors during the first backlight in the first sub-frame period a backlight and a red backlight, such that the color filter of the first color sub-pixel passes the red light, the color filter of the second color sub-pixel passes the blue light, and the color filter of the third sub-pixel passes the red light and the blue light
- the backlight module provides a green backlight in the backlight of the three colors during the second backlight in the second sub-frame period, so that the color filter of the first color sub-pixel and the second color sub-pixel Both the color filter and the color filter of the third sub-pixel pass through the green light.
- the color filter of the first color sub-pixel is a color filter of a magenta sub-pixel
- the color filter of the second color sub-pixel is a color filter of a yellow sub-pixel
- the color filter of the third sub-pixel is a color filter of the transparent sub-pixel
- the backlight module provides blue in the backlight of three colors during the first backlight in the first sub-frame period
- the backlight and the green backlight are such that the color filter of the first color sub-pixel passes through the blue light
- the color filter of the second color sub-pixel passes the green light
- the color filter of the third sub-pixel passes the green light and the blue light
- the backlight module provides a red backlight in the backlight of the three colors during the second backlight in the second sub-frame period, so that the color filter of the first color sub-pixel and the second color sub-pixel Both the color filter and the color filter of the third sub-pixel pass red light.
- the color filter of the first color sub-pixel is a color filter of a magenta sub-pixel
- the color filter of the second color sub-pixel is a color filter of a cyan sub-pixel
- the color filter of the third sub-pixel is a color filter of the transparent sub-pixel
- the backlight module provides red in the backlight of the three colors during the first backlight in the first sub-frame period Backlit and green a backlight, wherein the color filter of the first color sub-pixel passes the red light, the color filter of the second color sub-pixel passes the green light, and the color filter of the third sub-pixel passes the green light and the red light
- the backlight module provides a blue backlight in the backlight of the three colors during the second backlight in the second sub-frame period, so that the color filter of the first color sub-pixel and the color of the second color sub-pixel Both the filter and the color filter of the third sub-pixel pass through the blue light.
- Another object of the present invention is to provide a color control method for a field color sequential display, wherein the field color sequential display comprises a liquid crystal display panel and a backlight module, and the liquid crystal display panel includes a first color sub-pixel.
- the color filter, the color filter of the second color sub-pixel, and the color filter of the third sub-pixel, the backlight module provides a backlight to the liquid crystal display panel, the backlight includes a red backlight a blue backlight and a green backlight
- the color control method includes: sequentially dividing a frame period of the liquid crystal display panel into a first sub-frame period and a second sub-frame period; During the first backlight in the sub-frame period, a backlight of any two colors of the backlight of the three colors is provided, so that the color filter of the first color sub-pixel passes one of the two color lights, The color filter of the second color sub-pixel passes the other color light of the two color lights, and the color filter of the third sub-pixel passes the light of any two colors; in the
- the color control method further includes: in the first sub-picture Providing two color image data corresponding to the backlight of any two colors to the liquid crystal display panel during the frame; during the second backlight in the second sub-frame period, providing backlights of three colors
- the color control method further includes: providing a backlight of the three colors in addition to the any two colors during the second sub-frame The color image data corresponding to the backlight of another color other than the backlight is applied to the liquid crystal display panel.
- the step of providing a backlight of any two colors of the backlights of the three colors during the first backlight in the first sub-frame period is specifically: the first backlight in the first sub-frame period During the period, the pulse width modulation control signal of the backlight of any two colors of the backlight of the three colors is controlled, and the backlight of another color of the backlight of any two colors is controlled in the backlight of the three colors.
- the pulse width modulation control signal is disabled; the second backlight is provided during the second sub-frame period
- the step of backlight of another color other than the backlight of any two colors in the backlight of the three colors is specifically: controlling any of the backlights of the three colors during the second backlight in the second sub-frame period
- the pulse width modulation control signal of the two color backlights is disabled, and the pulse width modulation control signal of the backlight of another color other than the backlight of any two colors in the backlight of the three colors is controlled.
- the color filter of the first color sub-pixel is a color filter of a yellow sub-pixel
- the color filter of the second color sub-pixel is a color filter of a cyan sub-pixel
- the The color filter of the three sub-pixels is a color filter of the transparent sub-pixel; or the color filter of the first color sub-pixel is a color filter of the magenta sub-pixel, and the color filter of the second color sub-pixel
- the color filter is a color filter of a yellow sub-pixel
- the color filter of the third sub-pixel is a color filter of a transparent sub-pixel; or the color filter of the first color sub-pixel is a product a color filter of a red sub-pixel
- a color filter of the second color sub-pixel is a color filter of a cyan sub-pixel
- a color filter of the third sub-pixel is a color filter of a transparent sub-pixel sheet.
- the field color sequential display of the present invention and the color control method thereof have the color filter of the first color sub-pixel and the color filter of the second color sub-pixel during the second sub-picture frame while improving the color separation phenomenon.
- the light valves for controlling the liquid crystal molecules in the corresponding sub-pixel regions of the light filter and the color filter of the third sub-pixel are all turned on, which solves the problem that the light transmittance of the liquid crystal display panel in the current second sub-frame period is higher.
- the low problem is beneficial to reduce the power loss of the backlight module.
- FIG. 2 is a driving waveform diagram of the field color sequential display shown in Figure 1;
- Figure 3 is a schematic structural view of another color sequential display in the prior art;
- Figure 4 is a first embodiment of the present invention.
- FIG. 5 is a schematic cross-sectional view of a liquid crystal display panel according to a first embodiment of the present invention;
- FIG. 6 is a driving diagram of a field color sequential display according to a first embodiment of the present invention
- Waveform diagram Figure 7 is a partially cutaway perspective view of a liquid crystal display panel according to a second embodiment of the present invention
- Figure 8 is a drive waveform diagram of a field color sequential display according to a second embodiment of the present invention
- Fig. 10 is a driving waveform diagram of a field color sequential display according to a third embodiment of the present invention.
- FIG. 4 is a diagram showing a drive circuit architecture of a field color sequential display according to a first embodiment of the present invention.
- Figure 5 is a cross-sectional view showing a liquid crystal display panel according to a first embodiment of the present invention.
- FIG. 6 is a diagram showing driving waveforms of a field color sequential display according to a first embodiment of the present invention.
- a field color sequential display according to a first embodiment of the present invention includes a liquid crystal display panel 410, a backlight module 420, and a color sequential method controller 430.
- the liquid crystal display panel 410 further includes a thin film transistor array substrate 411, a color filter substrate 412, and a liquid crystal layer 413 interposed between the two substrates.
- the thin film transistor array substrate 411 includes a glass substrate 4111, a thin film transistor 4112 disposed on the glass substrate 4111 and arranged in an array, and a first polarizer 4113 disposed under the glass substrate 4111.
- the color filter substrate 412 disposed opposite to the thin film transistor array substrate 411 includes a transparent substrate 4121, a color filter 4122 of a first color sub-pixel disposed between the transparent substrate 4121 and the liquid crystal layer 413, and a second color sub-pixel.
- the color filter 4122 of the first color sub-pixel, the color filter 4123 of the second color sub-pixel, and the color filter of the transparent sub-pixel 4124 constitutes a display pixel.
- the color filter may be a plastic plate or a glass plate of a film.
- the liquid crystal layer 413 includes a plurality of sub-pixel regions 4131 disposed apart, wherein each of the sub-pixel regions 4131 is filled with liquid crystal molecules.
- the color filter 4122 of the first color sub-pixel, the color filter 4123 of the second color sub-pixel, and the color filter 4124 of the transparent sub-pixel correspond to one sub-pixel region 4131, respectively.
- the frame period T of the liquid crystal display panel 410 is sequentially divided into a first sub-frame period T1 and a second sub-frame period T2.
- the backlight module 420 provides a backlight to the liquid crystal display panel 410, wherein the backlight includes a backlight of red (R), a backlight of blue (B), and a backlight of green (G).
- the backlight module 420 may include a red light source, a green light source, and a blue light source.
- the color sequential method controller 430 sets the color filter 4122 of the first color sub-pixel, the color filter 4123 of the second color sub-pixel, and the transparent sub-pixel in the first sub-frame period T1 and the second sub-frame period T2.
- the light filters controlling the liquid crystal molecules in the corresponding sub-pixel regions 4131 of the color filters 4124 are all turned on, and the red image data is sequentially written in the first sub-frame period T1 and the second sub-frame period ⁇ 2,
- the green image data and the blue image data are sent to the liquid crystal display panel 410.
- the color sequence controller 120 controls the backlight module 420 to provide a corresponding backlight to the liquid crystal display panel 410 in the first sub-frame period T1 and the second sub-frame period ⁇ 2 to cause the liquid crystal display panel 410 to display.
- the color filter 4122 of the first color sub-pixel is a color filter of a yellow ( ⁇ ) sub-pixel
- the color filter 4123 of the second color sub-pixel is a color of a cyan (C) sub-pixel. Filter.
- the backlight module 420 provides a magenta ( ⁇ ) backlight during the first backlight period L1 in the first sub-frame period T1, and the color filter 4124 of the transparent sub-pixel is ideally synthesized by the blue and red light magenta ( ⁇ ) light, the color filter 4122 of the first color sub-pixel ideally passes the red light in the backlight, and the color filter 4123 of the second color sub-pixel is ideal for she to blame the blue light in the backlight, such that the liquid crystal display surface
- the board 410 displays red image data and blue image data.
- the second backlight device L2 in the second sub-frame period T2 provides a green (B) backlight, a color filter 4124 of the transparent sub-pixel, a color filter 4122 of the first color sub-pixel, and a second color sub-pixel.
- the color filters 4123 all desirably pass green light, and thus the liquid crystal display panel 410 displays green image data.
- the corresponding pulse width modulation provided by the color sequence controller 430 during backlight enable of the red (R) backlight, the blue (B) backlight, and the green (G) backlight provided by the backlight module 420
- the backlight of magenta (M) can be composed of red and blue backlights. Therefore, during the first backlight period L1, the PWM control signal that controls the green backlight is disabled, and the PWM control signal that controls the red and blue backlights is enabled. . In the second backlight period L2, the PWM control signal for controlling the red and blue backlights is disabled, and the PWM control signal for controlling the green backlight is enabled.
- the field color sequential display according to the first embodiment of the present invention by improving the color separation phenomenon, passes the color filter 4122 of the first color sub-pixel during the second sub-frame period T2.
- FIG. 7 is a partially cutaway perspective view of a liquid crystal display panel in accordance with a second embodiment of the present invention.
- Figure 8 is a diagram showing driving waveforms of a field color sequential display according to a second embodiment of the present invention.
- the color filter 4122 of the first color sub-pixel is a color filter of magenta (M) sub-pixel
- second The color filter 4123 of the color sub-pixel is a color filter of a yellow (Y) sub-pixel. Therefore, the backlight module 420 provides a backlight of cyan (C) during the first backlight period L1 in the first sub-frame period T1, and the color filter 4124 of the transparent sub-pixel is desirably cyan (C) synthesized by blue light and green light.
- the color filter 4122 of the first color sub-pixel desirably passes through the blue light in the backlight, and the color filter 4123 of the second color sub-pixel ideally passes the green light in the backlight, such that the liquid crystal display panel 410 displays the green image data.
- blue image data The second backlight device L2 in the second sub-frame period T2 provides a red (R) backlight, the color filter 4124 of the transparent sub-pixel, and the first color sub-pixel. Both the color filter 4122 and the color filter 4123 of the second color sub-pixel are desirably passed through red light, and thus the liquid crystal display panel 410 displays red image data.
- the corresponding pulse width modulation provided by the color sequence controller 430 during backlight enable of the red (R) backlight, the blue (B) backlight, and the green (G) backlight provided by the backlight module 420
- the cyan (C) backlight can be composed of a green and blue backlight, so during the first backlight period L1, the PWM control signal that controls the red backlight is disabled, while the PWM control signal that controls the green and blue backlights is enabled. In the second backlight period L2, the PWM control signal for controlling the green and blue backlights is disabled, and the PWM control signal for controlling the red backlight is enabled.
- Figure 9 is a partially cutaway perspective view of a liquid crystal display panel in accordance with a third embodiment of the present invention.
- Figure 10 is a diagram showing driving waveforms of a field color sequential display according to a third embodiment of the present invention.
- the color filter 4122 of the first color sub-pixel is a color filter of a magenta (M) sub-pixel
- the second color sub-pixel is a color filter of cyan (C) sub-pixels.
- the backlight module 420 provides a yellow (Y) backlight during the first backlight period L1 in the first sub-frame period T1, and the color filter 4124 of the transparent sub-pixel desirably passes the yellow light, the first color sub-pixel
- the color filter 4122 desirably passes red light in the backlight
- the color filter 4123 of the second color sub-pixel desirably passes green light in the backlight, such that the liquid crystal display panel 410 displays green image data and red image data.
- the second backlight device L2 in the second sub-frame period T2 provides a blue (B) backlight, a color filter 4124 of the transparent sub-pixel, a color filter 4122 of the first color sub-pixel, and a second color sub-
- the color filters 4123 of the pixels all preferably pass through the blue light, and thus the liquid crystal display panel 410 displays the blue image data.
- the corresponding pulse width modulation provided by the color sequence controller 430 during the backlight enable of the red (R) backlight, the blue (B) backlight, and the green (G) backlight provided by the backlight module 420
- the yellow (Y) backlight can be composed of green and red backlights, so during the first backlight period L1, the PWM control signal that controls the blue backlight is disabled, while the PWM control signal that controls the green and red backlights is enabled. On the second back In the light period L2, the PWM control signal that controls the green and red backlights is disabled, and the PWM control signal that controls the blue backlight is enabled.
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Abstract
一种场色序法显示器,包括:液晶显示面板(410),包括第一彩色子像素的彩色滤光片(4122)、第二彩色子像素的彩色滤光片(4123)和第三子像素的彩色滤光片(4124),并且其画框周期依序分为第一子画框期间(T1)和第二子画框期间(T2);背光模组(420),用于提供背光源至所述液晶显示面板(410),其中,所述背光源包括红色(R)的背光、蓝色(B)的背光及绿色(G)的背光;其中,所述背光模组(420)在第一子画框期间(T1)中的第一背光期间,提供三种颜色的背光中的任意两种颜色的背光;所述背光模组(420)在第二子画框期间(T2)中的第二背光期间,提供三种颜色的背光中除该任意两种颜色的背光之外的另一颜色的背光。还公开了一种场色序法显示器的色彩控制方法。
Description
场色序法显示器及其色彩控制方法 技术领域
本发明属于显示技术领域, 具体地讲, 涉及一种场色序法显示器及其色彩 控制方法。 背景技术
随着光电与半导体技术的演进, 也带动了平板显示器 (Flat Panel Display) 的蓬勃发展, 而在诸多平板显示器中, 液晶显示器 (Liquid Crystal Display,简 称 LCD) 因具有高空间利用效率、 低消耗功率、 无辐射以及低电磁干扰等诸多 优越特性, 已成为市场的主流。 液晶显示器通常包括液晶显示面板 (Liquid Crystal Panel) 与背光模块 (Black Light Module, 简称 BL) 。 由于液晶显示面板本身并不具备自发光的 特性, 因此必须将背光模组配置在液晶显示面板下方, 以提供液晶显示面板所 需的面光源, 如果液晶显示面板借由背光模块提供的面光源而显示影像。 依照液晶显示器的色彩显示混色方式, 大致分为时间性混色与空间性混色 (也称为并置加法或同时加法)两类。 目前常见的显示器多为空间性并置加法 混色。 以薄膜晶体管液晶显示器 ( Thin-Film Transistor Liquid Crystal Display, 简称 TFT-LCD )为例,每一显示像素均由红绿蓝(RGB )三个子像素(Subpixel) 的彩色滤光片 (Color Filter, 简称 CF) 所构成, 一般而言, 子像素的大小远小 于人眼可分辨的范围, 于人类视觉感知中既能达到混色效果。
TFT-LCD的空间性混色若以时间性混色取代,则无需使用彩色滤光片来构 成混色效果, 而直接以不同颜色的背光源搭配相对数据显示, 既能达成时间性 的混色效果, 也即能增加模块透过率及节省整体模块制造成本。 图 1为现有技术提供的一场色序法显示器 110 (Field Sequential Color Display, 简称 FSCD) 的驱动电路架构图。 请参照图 1, 色序法控制器 120用以 将视讯源 (Video Source) 系统端的空间性并列 RGB视讯数据 (Video Data)转
换成时间性串行的 R→G→B视讯数据输出 (即所谓的色序法) 。 接着, 色序法 控制器 120同步控制背光模块 130, 使其搭配不同的颜色数据, 产生相对应的光 源, 进而于显示面板 140呈现彩色画面。 此外, 为了避免 RGB在其写入周期内, 数据扫描写入时造成混色情况, 需 将背光源搭配数据扫描做开关的动作, 其驱动波形如图 2所示。 图 2为图 1所示 的场色序法显示器的驱动波形图。 请参照图 2, 数据写入时背光源关闭, 数据 写入完毕后再打开背光源, 如此, 便可达成 RGB的时间性混色以及避免错误混 色的发生。 另外, 由于色序法将彩色影像分为三原色 R、 G、 B影像, 因此,在 一帧 (Frame ) 时间内若依序显示三原色 R、 G、 B影像, 表示影像频率需达到 180Hz, 则液晶反应时间至少需低于 5.56ms, 才能避免错误混色的发生。 然而, 由于人眼常因随机跳视, 或追踪画面中移动物体的本能, 使得物体 各色色场不落在视网膜同一点, 因此, 在使用场色序法显示器时, 人眼在视觉 上便会感到物体边缘出现所谓的色分离 (Color Break up, 简称 CBU) 现象。 而色分离现象的发生, 是因为一个彩色影像所包含的三色图场, 所对应的像素 投射在视网膜上不同的位置被人眼视觉系统察觉, 使观察者看到颜色分离错位 的影像所造成。 另外, 色分离现象处理降低影像质量外, 也有报告指出, 在长 时间观看后, 可能造成眩暈的感觉。 为了改善色分离现象, 近年来提出一种具有由两种彩色子像素(例如红绿 子像素、 红蓝子像素或绿蓝子像素)和透明子像素的彩色滤光片构成的显示像 素的场色序法显示器。 以具有由红 (R) 、 蓝 (B ) 子像素和透明 (T) 子像素 的彩色滤光片构成的显示像素的场色序法显示器为例, 其结构如图 3所示。 图 3 为现有技术的另一场色序法显示器的结构示意图。 请参照图 3, 在第一子画框期间, 红蓝子像素和透明子像素的彩色滤光片 所对应的液晶区域 330中液晶分子的光阀全部打开。 在第一子画框期间中的第 一背光期间, 背光模块 310提供蓝色和红色的背光, 透明子像素的彩色滤光片 理想地通过蓝光和红光合成的品红 (M) 光, 红子像素的彩色滤光片理想地通 过背光中的红光, 蓝子像素的彩色滤光片理想地通过背光中的蓝光, 如此可使 液晶显示面板 320显示 M、 R、 B三色影像。
在第二子画框期间, 红、 蓝子像素的彩色滤光片所对应的液晶区域 330中 液晶分子的光阀关闭, 而透明子像素的彩色滤光片所对应的液晶区域 330中液 晶分子的光阀打开。 在第二子画框期间中的第二背光期间, 背光模块 310提供 绿色的背光, 透明子像素的彩色滤光片理想地通过绿色的背光, 红子像素的彩 色滤光片及蓝子像素的彩色滤光片均不透光, 如此可使液晶显示面板 320显示 绿色 (G) 影像。 这样, 在一画框期间 (即第一子画框期间 +第二子画框期间) 内液晶显示 面板 320依序显示三色 M、 G、 B影像和绿色影像, 从而显示一幅完整的影像。 然而, 在第二子画框期间, 由于红子像素的彩色滤光片及蓝子像素的彩色滤光 片均不透光, 使得在第二子画框期间液晶显示面板 320的光穿透率较低, 不利 于降低背光模块 310的功率损耗。 发明内容
为了解决上述现有技术存在的问题, 本发明的目的在于提供一种场色序法 显示器, 包括: 液晶显示面板, 包括第一彩色子像素的彩色滤光片、 第二彩色 子像素的彩色滤光片和第三子像素的彩色滤光片, 并且其画框周期依序分为第 一子画框期间和第二子画框期间; 背光模组, 用于提供背光源至所述液晶显示 面板, 其中, 所述背光源包括红色的背光、 蓝色的背光及绿色的背光; 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色的背光中的 任意两种颜色的背光, 以使第一彩色子像素的彩色滤光片通过该任意两种颜色 光中一颜色光, 第二彩色子像素的彩色滤光片通过该任意两种颜色光中另一颜 色光, 第三子像素的彩色滤光片通过该任意两种颜色光; 所述背光模组在第二 子画框期间中的第二背光期间, 提供三种颜色的背光中除该任意两种颜色的背 光之外的另一颜色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过三种颜色光中除该任意两 种颜色光之外的另一颜色光。 进一步地, 所述场色序法显示器还包括: 色序法控制器, 其在第一子画框 期间, 将与该任意两种颜色的背光对应的两种颜色影像数据提供至所述液晶显 示面板; 在第二子画框期间, 将与三种颜色的背光中除该任意两种颜色的背光 之外的另一颜色的背光对应的颜色影像数据提供至所述液晶显示面板。
进一步地, 所述色序法控制器提供脉冲宽度调变控制信号至背光模组, 以 分别控制背光模块提供的三种颜色的背光的背光致能期间, 其中, 在第一子画 框期间中的第一背光期间中, 控制三种颜色的背光中的任意两种颜色的背光的 脉冲宽度调变控制信号致能, 控制三种颜色的背光中除任意两种颜色的背光之 外的另一颜色的背光的脉冲宽度调变控制信号失能; 在第二子画框期间中的第 二背光期间, 控制三种颜色的背光中的任意两种颜色的背光的脉冲宽度调变控 制信号失能, 控制三种颜色的背光中除任意两种颜色的背光之外的另一颜色的 背光的脉冲宽度调变控制信号致能。 进一步地, 所述第一彩色子像素的彩色滤光片为黄色子像素的彩色滤光 片, 所述第二彩色子像素的彩色滤光片为青色子像素的彩色滤光片, 所述第三 子像素的彩色滤光片为透明子像素的彩色滤光片, 其中, 所述背光模组在第一 子画框期间中的第一背光期间, 提供三种颜色的背光中的蓝色的背光和红色的 背光, 以使第一彩色子像素的彩色滤光片通过红光, 第二彩色子像素的彩色滤 光片通过蓝光, 第三子像素的彩色滤光片通过红光和蓝光; 所述背光模组在第 二子画框期间中的第二背光期间, 提供三种颜色的背光中的绿色的背光, 以使 第一彩色子像素的彩色滤光片、第二彩色子像素的彩色滤光片和第三子像素的 彩色滤光片均通过绿光。 进一步地, 所述第一彩色子像素的彩色滤光片为品红色子像素的彩色滤光 片, 所述第二彩色子像素的彩色滤光片为黄色子像素的彩色滤光片, 所述第三 子像素的彩色滤光片为透明子像素的彩色滤光片, 其中, 所述背光模组在第一 子画框期间中的第一背光期间, 提供三种颜色的背光中的蓝色的背光和绿色的 背光, 以使第一彩色子像素的彩色滤光片通过蓝光, 第二彩色子像素的彩色滤 光片通过绿光, 第三子像素的彩色滤光片通过绿光和蓝光; 所述背光模组在第 二子画框期间中的第二背光期间, 提供三种颜色的背光中的红色的背光, 以使 第一彩色子像素的彩色滤光片、第二彩色子像素的彩色滤光片和第三子像素的 彩色滤光片均通过红光。 进一步地, 所述第一彩色子像素的彩色滤光片为品红色子像素的彩色滤光 片, 所述第二彩色子像素的彩色滤光片为青色子像素的彩色滤光片, 所述第三 子像素的彩色滤光片为透明子像素的彩色滤光片, 其中, 所述背光模组在第一 子画框期间中的第一背光期间, 提供三种颜色的背光中的红色的背光和绿色的
背光, 以使第一彩色子像素的彩色滤光片通过红光, 第二彩色子像素的彩色滤 光片通过绿光, 第三子像素的彩色滤光片通过绿光和红光; 所述背光模组在第 二子画框期间中的第二背光期间, 提供三种颜色的背光中的蓝色的背光, 以使 第一彩色子像素的彩色滤光片、第二彩色子像素的彩色滤光片和第三子像素的 彩色滤光片均通过蓝光。 本发明的另一目的还在于提供一种场色序法显示器的色彩控制方法, 其 中, 所述场色序法显示器包括液晶显示面板和背光模组, 所述液晶显示面板包 括第一彩色子像素的彩色滤光片、第二彩色子像素的彩色滤光片和第三子像素 的彩色滤光片, 所述背光模组提供背光源至所述液晶显示面板, 所述背光源包 括红色的背光、 蓝色的背光及绿色的背光, 其中, 所述色彩控制方法包括:将 所述液晶显示面板的画框周期依序分为第一子画框期间和第二子画框期间; 在 第一子画框期间中的第一背光期间, 提供三种颜色的背光中的任意两种颜色的 背光, 以使第一彩色子像素的彩色滤光片通过该任意两种颜色光中一颜色光, 第二彩色子像素的彩色滤光片通过该任意两种颜色光中另一颜色光, 第三子像 素的彩色滤光片通过该任意两种颜色光; 在第二子画框期间中的第二背光期 间, 提供三种颜色的背光中除该任意两种颜色的背光之外的另一颜色的背光, 以使第一彩色子像素的彩色滤光片、第二彩色子像素的彩色滤光片和第三子像 素的彩色滤光片均通过三种颜色光中除该任意两种颜色光之外的另一颜色光。 进一步地, 所述在第一子画框期间中的第一背光期间, 提供三种颜色的背 光中的任意两种颜色的背光的步骤之前, 所述色彩控制方法还包括: 在第一子 画框期间, 提供与该任意两种颜色的背光对应的两种颜色影像数据至所述液晶 显示面板; 所述在第二子画框期间中的第二背光期间, 提供三种颜色的背光中 除该任意两种颜色的背光之外的另一颜色的背光的步骤之前, 所述色彩控制方 法还包括: 在第二子画框期间, 提供与三种颜色的背光中除该任意两种颜色的 背光之外的另一颜色的背光对应的颜色影像数据至所述液晶显示面板。 进一步地, 所述在第一子画框期间中的第一背光期间, 提供三种颜色的背 光中的任意两种颜色的背光的步骤具体为: 在第一子画框期间中的第一背光期 间中, 控制三种颜色的背光中的任意两种颜色的背光的脉冲宽度调变控制信号 致能, 控制三种颜色的背光中除任意两种颜色的背光之外的另一颜色的背光的 脉冲宽度调变控制信号失能; 所述在第二子画框期间中的第二背光期间, 提供
三种颜色的背光中除该任意两种颜色的背光之外的另一颜色的背光的步骤具 体为: 在第二子画框期间中的第二背光期间, 控制三种颜色的背光中的任意两 种颜色的背光的脉冲宽度调变控制信号失能, 控制三种颜色的背光中除任意两 种颜色的背光之外的另一颜色的背光的脉冲宽度调变控制信号致能。 进一步地, 所述第一彩色子像素的彩色滤光片为黄色子像素的彩色滤光 片, 所述第二彩色子像素的彩色滤光片为青色子像素的彩色滤光片, 所述第三 子像素的彩色滤光片为透明子像素的彩色滤光片; 或者所述第一彩色子像素的 彩色滤光片为品红色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光片 为黄色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的彩 色滤光片; 或者所述第一彩色子像素的彩色滤光片为品红色子像素的彩色滤光 片, 所述第二彩色子像素的彩色滤光片为青色子像素的彩色滤光片, 所述第三 子像素的彩色滤光片为透明子像素的彩色滤光片。 本发明的场色序法显示器及其色彩控制方法, 在改善色分离现象的同时, 通过在第二子画框期间将第一彩色子像素的彩色滤光片、第二彩色子像素的彩 色滤光片及第三子像素的彩色滤光片分别对应的子像素区域中控制液晶分子 的光阀全部打开,解决了现有的在第二子画框期间中液晶显示面板的光穿透率 较低的问题, 利于降低背光模块的功率损耗。
附图说明
通过结合附图进行的以下描述, 本发明的实施例的上述和其它方面、 特点 和优点将变得更加清楚, 附图中: 图 1为现有技术的一场色序法显示器的驱动电路架构图; 图 2为图 1所示的场色序法显示器的驱动波形图; 图 3为现有技术的另一场色序法显示器的结构示意图; 图 4是根据本发明的第一实施例的场色序法显示器的驱动电路架构图; 图 5是根据本发明的第一实施例的液晶显示面板的剖切示意图; 图 6是根据本发明的第一实施例的场色序法显示器的驱动波形图;
图 7是根据本发明的第二实施例的液晶显示面板的局部剖切示意图; 图 8是根据本发明的第二实施例的场色序法显示器的驱动波形图; 图 9是根据本发明的第三实施例的液晶显示面板的局部剖切示意图; 图 10是根据本发明的第三实施例的场色序法显示器的驱动波形图。 具体实施方式 以下, 将参照附图来详细描述本发明的实施例。 然而, 可以以许多不同的 形式来实施本发明, 并且本发明不应该被解释为限制于这里阐述的具体实施 例。 相反, 提供这些实施例是为了解释本发明的原理及其实际应用, 从而使本 领域的其他技术人员能够理解本发明的各种实施例和适合于特定预期应用的 各种修改。 在附图中, 相同的标号将始终被用于表示相同的元件。 将理解的是, 尽管 在这里可使用术语 "第一" 、 "第二"等来描述各种元件, 但是这些元件不应 受这些术语的限制。 这些术语仅用于将一个元件与另一个元件区分开来。 图 4是根据本发明的第一实施例的场色序法显示器的驱动电路架构图。 图 5 是根据本发明的第一实施例的液晶显示面板的剖切示意图。 图 6是根据本发明 的第一实施例的场色序法显示器的驱动波形图。 参照图 4至图 6, 根据本发明的第一实施例的场色序法显示器包括液晶显示 面板 410、 背光模块 420、 色序法控制器 430。 液晶显示面板 410进一步包括薄膜晶体管阵列基板 411、 彩色滤光片基板 412及夹设在这两个基板之间的液晶层 413。 薄膜晶体管阵列基板 411包括玻璃基板 4111、 设置在玻璃基板 4111之上且 阵列排布的薄膜晶体管 4112以及设置在玻璃基板 4111之下的第一偏光片 4113。 与薄膜晶体管阵列基板 411相对设置的彩色滤光片基板 412包括透明基板 4121、 设置在透明基板 4121与液晶层 413之间的第一彩色子像素的彩色滤光片 4122、 第二彩色子像素的彩色滤光片 4123和透明 (T) 子像素的彩色滤光片 4124、 以 及设置在透明基板 4121之上的第二偏光片 4125。 其中, 第一彩色子像素的彩色 滤光片 4122、 第二彩色子像素的彩色滤光片 4123和透明子像素的彩色滤光片
4124构成一显示像素。 在本实施例中, 所述彩色滤光片可为薄膜的塑料板或玻 璃板。 液晶层 413包括多个分隔设置的子像素区域 4131, 其中, 每个子像素区域 4131中填充液晶分子。 第一彩色子像素的彩色滤光片 4122、 第二彩色子像素的 彩色滤光片 4123和透明子像素的彩色滤光片 4124分别对应一个子像素区域 4131。 液晶显示面板 410的画框周期 T依序分为第一子画框期间 T1和第二子画框 期间 T2。 由于在时间轴上, 原本的画框率为 60 (画框 /秒) (Frame per Second, fps ) 也就是说, 大约每 16.67毫秒液晶显示面板 410显示一幅完整的彩色画面, 因此,根据本发明的实施例的场序法显示器,则需要把画框率提高至例如是 120 (画框 /秒) , 即每一张子画框以一百二十分之一秒 =8.33毫秒显示, 由两张子 画框才能组成一个完整的彩色画面。 在本实施例中, 背光模块 420提供背光源至液晶显示面板 410, 其中, 背光 源包括红色 (R) 的背光、 蓝色 (B ) 的背光及绿色 (G) 的背光。 为此, 背光 模块 420可包括红色光源、 绿色光源及蓝色光源。 色序法控制器 430在第一子画 框期间 T1和第二子画框期间 T2将第一彩色子像素的彩色滤光片 4122、第二彩色 子像素的彩色滤光片 4123及透明子像素的彩色滤光片 4124分别对应的子像素 区域 4131中控制液晶分子的光阀全部打开, 其会在第一子画框期间 Tl、第二子 画框期间 Τ2中依序写入红色影像数据、绿色影像数据与蓝色影像数据至液晶显 示面板 410。 同时, 色序法控制器 120控制背光模块 420在第一子画框期间 Tl、 第二子画框期间 Τ2中提供相应的背光给液晶显示面板 410, 以使液晶显示面板 410进行显示。 在本实施例中, 第一彩色子像素的彩色滤光片 4122为黄色 (Υ) 子像素的 彩色滤光片, 第二彩色子像素的彩色滤光片 4123为青色 (C) 子像素的彩色滤 光片。 因此, 背光模块 420会在第一子画框期间 T1中的第一背光期间 L1提供品红 色 (Μ) 的背光, 透明子像素的彩色滤光片 4124理想地通过蓝光和红光合成的 品红 (Μ) 光, 第一彩色子像素的彩色滤光片 4122理想地通过背光中的红光, 第二彩色子像素的彩色滤光片 4123理想她诵讨背光中的蓝光, 如此液晶显示面
板 410显示红色影像数据和蓝色影像数据。 而在第二子画框期间 T2中的第二背 光器件 L2提供绿色 (B ) 背光, 透明子像素的彩色滤光片 4124、 第一彩色子像 素的彩色滤光片 4122及第二彩色子像素的彩色滤光片 4123均理想地通过绿光, 如此液晶显示面板 410显示绿色影像数据。 背光模块 420提供的红色 (R) 的背光、 蓝色 (B ) 的背光及绿色 (G) 的 背光的背光致能期间可由色序法控制器 430提供的对应的脉冲宽度调变
(PWM) 控制信号的有效周期 (Duty Cycle ) 所控制。 品红色 (M) 的背光可 由红色与蓝色的背光所组成,因此在第一背光期间 L1中,控制绿色背光的 PWM 控制信号失能, 而控制红色与蓝色的背光的 PWM控制信号致能。 而在第二背 光期间 L2中, 控制红色与蓝色的背光的 PWM控制信号失能, 控制绿色背光的 PWM控制信号致能。 综上所述, 根据本发明的第一实施例的场色序法显示器, 在改善色分离现 象的同时, 通过在第二子画框期间 T2将第一彩色子像素的彩色滤光片 4122、第 二彩色子像素的彩色滤光片 4123及透明子像素的彩色滤光片 4124分别对应的 子像素区域 4131中控制液晶分子的光阀全部打开, 解决了现有的在第二子画框 期间 T2中液晶显示面板 320的光穿透率较低的问题,利于降低背光模块 420的功 率损耗。 图 7是根据本发明的第二实施例的液晶显示面板的局部剖切示意图。 图 8是 根据本发明的第二实施例的场色序法显示器的驱动波形图。 这里, 只描述第二实施例与第一实施例的不同之处, 与第一实施例的相同 之处在此不再赘述。参照图 7和图 8,与第一实施例不同的是:在第二实施例中, 第一彩色子像素的彩色滤光片 4122为品红色 (M) 子像素的彩色滤光片, 第二 彩色子像素的彩色滤光片 4123为黄色 (Y) 子像素的彩色滤光片。 因此, 背光模块 420会在第一子画框期间 T1中的第一背光期间 L1提供青色 ( C) 的背光, 透明子像素的彩色滤光片 4124理想地通过蓝光和绿光合成的青 色 (C) 光, 第一彩色子像素的彩色滤光片 4122理想地通过背光中的蓝光, 第 二彩色子像素的彩色滤光片 4123理想地通过背光中的绿光, 如此液晶显示面板 410显示绿色影像数据和蓝色影像数据。 而在第二子画框期间 T2中的第二背光 器件 L2提供红色 (R) 背光, 透明子像素的彩色滤光片 4124、 第一彩色子像素
的彩色滤光片 4122及第二彩色子像素的彩色滤光片 4123均理想地通过红光, 如 此液晶显示面板 410显示红色影像数据。 背光模块 420提供的红色 (R) 的背光、 蓝色 (B ) 的背光及绿色 (G) 的 背光的背光致能期间可由色序法控制器 430提供的对应的脉冲宽度调变
(PWM) 控制信号的有效周期 (Duty Cycle ) 所控制。 青色 (C) 的背光可由 绿色与蓝色的背光所组成, 因此在第一背光期间 L1中, 控制红色背光的 PWM 控制信号失能, 而控制绿色与蓝色的背光的 PWM控制信号致能。 而在第二背 光期间 L2中, 控制绿色与蓝色的背光的 PWM控制信号失能, 控制红色背光的 PWM控制信号致能。 图 9是根据本发明的第三实施例的液晶显示面板的局部剖切示意图。 图 10 是根据本发明的第三实施例的场色序法显示器的驱动波形图。 这里, 只描述第三实施例与上述实施例的不同之处, 与上述实施例的相同 之处在此不再赘述。 参照图 9和图 10, 与上述不同的是: 在第三实施例中, 第 一彩色子像素的彩色滤光片 4122为品红色 (M) 子像素的彩色滤光片, 第二彩 色子像素的彩色滤光片 4123为青色 (C) 子像素的彩色滤光片。 因此, 背光模块 420会在第一子画框期间 T1中的第一背光期间 L1提供黄色 (Y) 的背光, 透明子像素的彩色滤光片 4124理想地通过黄光, 第一彩色子像 素的彩色滤光片 4122理想地通过背光中的红光, 第二彩色子像素的彩色滤光片 4123理想地通过背光中的绿光, 如此液晶显示面板 410显示绿色影像数据和红 色影像数据。而在第二子画框期间 T2中的第二背光器件 L2提供蓝色(B )背光, 透明子像素的彩色滤光片 4124、第一彩色子像素的彩色滤光片 4122及第二彩色 子像素的彩色滤光片 4123均理想地通过蓝光, 如此液晶显示面板 410显示蓝色 影像数据。 背光模块 420提供的红色 (R) 的背光、 蓝色 (B ) 的背光及绿色 (G) 的 背光的背光致能期间可由色序法控制器 430提供的对应的脉冲宽度调变
(PWM) 控制信号的有效周期 (Duty Cycle ) 所控制。 黄色 (Y) 的背光可由 绿色与红色的背光所组成, 因此在第一背光期间 L1中, 控制蓝色背光的 PWM 控制信号失能, 而控制绿色与红色的背光的 PWM控制信号致能。 而在第二背
光期间 L2中, 控制绿色与红色的背光的 PWM控制信号失能, 控制蓝色背光的 PWM控制信号致能。 虽然己经参照特定实施例示出并描述了本发明, 但是本领域的技术人员将 理解: 在不脱离由权利要求及其等同物限定的本发明的精神和范围的情况下, 可在此进行形式和细节上的各种变化。
Claims
1、 一种场色序法显示器, 包括: 液晶显示面板, 包括第一彩色子像素的彩色滤光片、 第二彩色子像素的彩 色滤光片和第三子像素的彩色滤光片, 并且其画框周期依序分为第一子画框期 间和第二子画框期间; 背光模组, 用于提供背光源至所述液晶显示面板, 其中, 所述背光源包括 红色的背光、 蓝色的背光及绿色的背光; 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的任意两种颜色的背光, 以使第一彩色子像素的彩色滤光片通过该任 意两种颜色光中一颜色光, 第二彩色子像素的彩色滤光片通过该任意两种颜色 光中另一颜色光, 第三子像素的彩色滤光片通过该任意两种颜色光; 所述背光 模组在第二子画框期间中的第二背光期间, 提供三种颜色的背光中除该任意两 种颜色的背光之外的另一颜色的背光, 以使第一彩色子像素的彩色滤光片、第 二彩色子像素的彩色滤光片和第三子像素的彩色滤光片均通过三种颜色光中 除该任意两种颜色光之外的另一颜色光。
2、 根据权利要求 1所述的场色序法显示器, 其中, 所述场色序法显示器 还包括: 色序法控制器, 其在第一子画框期间, 将与该任意两种颜色的背光对应的 两种颜色影像数据提供至所述液晶显示面板; 在第二子画框期间, 将与三种颜 色的背光中除该任意两种颜色的背光之外的另一颜色的背光对应的颜色影像 数据提供至所述液晶显示面板。
3、 根据权利要求 2所述的场色序法显示器, 其中, 所述色序法控制器提 供脉冲宽度调变控制信号至背光模组, 以分别控制背光模块提供的三种颜色的 背光的背光致能期间, 其中, 在第一子画框期间中的第一背光期间中, 控制三种颜色的背光中的 任意两种颜色的背光的脉冲宽度调变控制信号致能, 控制三种颜色的背光中除
任意两种颜色的背光之外的另一颜色的背光的脉冲宽度调变控制信号失能; 在 第二子画框期间中的第二背光期间, 控制三种颜色的背光中的任意两种颜色的 背光的脉冲宽度调变控制信号失能, 控制三种颜色的背光中除任意两种颜色的 背光之外的另一颜色的背光的脉冲宽度调变控制信号致能。
4、 根据权利要求 1所述的场色序法显示器, 其中, 所述第一彩色子像素 的彩色滤光片为黄色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光片 为青色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的彩 色滤光片, 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的蓝色的背光和红色的背光, 以使第一彩色子像素的彩色滤光片通过 红光, 第二彩色子像素的彩色滤光片通过蓝光, 第三子像素的彩色滤光片通过 红光和蓝光; 所述背光模组在第二子画框期间中的第二背光期间, 提供三种颜 色的背光中的绿色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过绿光。
5、 根据权利要求 2所述的场色序法显示器, 其中, 所述第一彩色子像素 的彩色滤光片为黄色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光片 为青色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的彩 色滤光片, 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的蓝色的背光和红色的背光, 以使第一彩色子像素的彩色滤光片通过 红光, 第二彩色子像素的彩色滤光片通过蓝光, 第三子像素的彩色滤光片通过 红光和蓝光; 所述背光模组在第二子画框期间中的第二背光期间, 提供三种颜 色的背光中的绿色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过绿光。
6、 根据权利要求 3所述的场色序法显示器, 其中, 所述第一彩色子像素 的彩色滤光片为黄色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光片 为青色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的彩 色滤光片,
其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的蓝色的背光和红色的背光, 以使第一彩色子像素的彩色滤光片通过 红光, 第二彩色子像素的彩色滤光片通过蓝光, 第三子像素的彩色滤光片通过 红光和蓝光; 所述背光模组在第二子画框期间中的第二背光期间, 提供三种颜 色的背光中的绿色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过绿光。
7、 根据权利要求 1所述的场色序法显示器, 其中, 所述第一彩色子像素 的彩色滤光片为品红色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光 片为黄色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的 彩色滤光片, 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的蓝色的背光和绿色的背光, 以使第一彩色子像素的彩色滤光片通过 蓝光, 第二彩色子像素的彩色滤光片通过绿光, 第三子像素的彩色滤光片通过 绿光和蓝光; 所述背光模组在第二子画框期间中的第二背光期间, 提供三种颜 色的背光中的红色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过红光。
8、 根据权利要求 2所述的场色序法显示器, 其中, 所述第一彩色子像素 的彩色滤光片为品红色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光 片为黄色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的 彩色滤光片, 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的蓝色的背光和绿色的背光, 以使第一彩色子像素的彩色滤光片通过 蓝光, 第二彩色子像素的彩色滤光片通过绿光, 第三子像素的彩色滤光片通过 绿光和蓝光; 所述背光模组在第二子画框期间中的第二背光期间, 提供三种颜 色的背光中的红色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过红光。
9、 根据权利要求 3所述的场色序法显示器, 其中, 所述第一彩色子像素 的彩色滤光片为品红色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光 片为黄色子像素的彩色滤光片, 所沭第二.子像素的彩色滤光片为透明子像素的
彩色滤光片, 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的蓝色的背光和绿色的背光, 以使第一彩色子像素的彩色滤光片通过 蓝光, 第二彩色子像素的彩色滤光片通过绿光, 第三子像素的彩色滤光片通过 绿光和蓝光; 所述背光模组在第二子画框期间中的第二背光期间, 提供三种颜 色的背光中的红色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过红光。
10、 根据权利要求 1所述的场色序法显示器, 其中, 所述第一彩色子像素 的彩色滤光片为品红色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光 片为青色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的 彩色滤光片, 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的红色的背光和绿色的背光, 以使第一彩色子像素的彩色滤光片通过 红光, 第二彩色子像素的彩色滤光片通过绿光, 第三子像素的彩色滤光片通过 绿光和红光; 所述背光模组在第二子画框期间中的第二背光期间, 提供三种颜 色的背光中的蓝色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过蓝光。
11、 根据权利要求 2所述的场色序法显示器, 其中, 所述第一彩色子像素 的彩色滤光片为品红色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光 片为青色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的 彩色滤光片, 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的红色的背光和绿色的背光, 以使第一彩色子像素的彩色滤光片通过 红光, 第二彩色子像素的彩色滤光片通过绿光, 第三子像素的彩色滤光片通过 绿光和红光; 所述背光模组在第二子画框期间中的第二背光期间, 提供三种颜 色的背光中的蓝色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过蓝光。
12、 根据权利要求 3所述的场色序法显示器, 其中, 所述第一彩色子像素
的彩色滤光片为品红色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光 片为青色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的 彩色滤光片, 其中, 所述背光模组在第一子画框期间中的第一背光期间, 提供三种颜色 的背光中的红色的背光和绿色的背光, 以使第一彩色子像素的彩色滤光片通过 红光, 第二彩色子像素的彩色滤光片通过绿光, 第三子像素的彩色滤光片通过 绿光和红光; 所述背光模组在第二子画框期间中的第二背光期间, 提供三种颜 色的背光中的蓝色的背光, 以使第一彩色子像素的彩色滤光片、 第二彩色子像 素的彩色滤光片和第三子像素的彩色滤光片均通过蓝光。
13、 一种场色序法显示器的色彩控制方法, 其中, 所述场色序法显示器包 括液晶显示面板和背光模组, 其中, 所述液晶显示面板包括第一彩色子像素的 彩色滤光片、 第二彩色子像素的彩色滤光片和第三子像素的彩色滤光片, 所述 背光模组提供背光源至所述液晶显示面板, 所述背光源包括红色的背光、 蓝色 的背光及绿色的背光, 其中, 所述色彩控制方法包括: 将所述液晶显示面板的画框周期依序分为第一子画框期间和第二子画框 期间; 在第一子画框期间中的第一背光期间, 提供三种颜色的背光中的任意两种 颜色的背光, 以使第一彩色子像素的彩色滤光片通过该任意两种颜色光中一颜 色光, 第二彩色子像素的彩色滤光片通过该任意两种颜色光中另一颜色光,第 三子像素的彩色滤光片通过该任意两种颜色光; 在第二子画框期间中的第二背光期间, 提供三种颜色的背光中除该任意两 种颜色的背光之外的另一颜色的背光, 以使第一彩色子像素的彩色滤光片、第 二彩色子像素的彩色滤光片和第三子像素的彩色滤光片均通过三种颜色光中 除该任意两种颜色光之外的另一颜色光。
14、 根据权利要求 13所述的色彩控制方法, 其中, 所述在第一子画框期 间中的第一背光期间, 提供三种颜色的背光中的任意两种颜色的背光的步骤之 前, 所述色彩控制方法还包括:
在第一子画框期间, 提供与该任意两种颜色的背光对应的两种颜色影像数 据至所述液晶显示面板; 所述在第二子画框期间中的第二背光期间, 提供三种颜色的背光中除该任 意两种颜色的背光之外的另一颜色的背光的步骤之前, 所述色彩控制方法还包 括: 在第二子画框期间, 提供与三种颜色的背光中除该任意两种颜色的背光之 外的另一颜色的背光对应的颜色影像数据至所述液晶显示面板。
15、 根据权利要求 13所述的色彩控制方法, 其中, 所述在第一子画框期 间中的第一背光期间, 提供三种颜色的背光中的任意两种颜色的背光的步骤具 体为: 在第一子画框期间中的第一背光期间中, 控制三种颜色的背光中的任意 两种颜色的背光的脉冲宽度调变控制信号致能,控制三种颜色的背光中除任意 两种颜色的背光之外的另一颜色的背光的脉冲宽度调变控制信号失能; 所述在第二子画框期间中的第二背光期间, 提供三种颜色的背光中除该任 意两种颜色的背光之外的另一颜色的背光的步骤具体为: 在第二子画框期间中 的第二背光期间,控制三种颜色的背光中的任意两种颜色的背光的脉冲宽度调 变控制信号失能,控制三种颜色的背光中除任意两种颜色的背光之外的另一颜 色的背光的脉冲宽度调变控制信号致能。
16、 根据权利要求 13所述的色彩控制方法, 其中, 所述第一彩色子像素 的彩色滤光片为黄色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光片 为青色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的彩 色滤光片。
17、 根据权利要求 13所述的色彩控制方法, 其中, 所述第一彩色子像素 的彩色滤光片为品红色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光 片为黄色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的 彩色滤光片。
18、 根据权利要求 13所述的色彩控制方法, 其中, 所述第一彩色子像素 的彩色滤光片为品红色子像素的彩色滤光片, 所述第二彩色子像素的彩色滤光 片为青色子像素的彩色滤光片, 所述第三子像素的彩色滤光片为透明子像素的
彩色滤光片
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CN104464649B (zh) * | 2014-12-10 | 2018-02-13 | 深圳市华星光电技术有限公司 | 场色序法液晶显示装置及其驱动方法 |
TWI556224B (zh) * | 2015-11-30 | 2016-11-01 | 友達光電股份有限公司 | 場序型顯示方法及場序型顯示裝置 |
JP6720008B2 (ja) * | 2016-07-22 | 2020-07-08 | 株式会社ジャパンディスプレイ | 表示装置および表示装置の駆動方法 |
CN107871478B (zh) * | 2017-12-26 | 2020-11-13 | 深圳Tcl新技术有限公司 | 显示模组的驱动电路、方法及显示设备 |
CN108346406B (zh) * | 2018-03-30 | 2020-03-20 | 惠科股份有限公司 | 液晶显示装置的驱动方法及液晶显示装置 |
CN108806570A (zh) * | 2018-06-22 | 2018-11-13 | 亚世光电股份有限公司 | 一种低功耗智能彩色安全出口显示单元 |
CN109545155B (zh) * | 2019-02-25 | 2019-05-07 | 南京熊猫电子制造有限公司 | 一种改善场序显示色彩均匀度的装置和方法 |
CN109960082B (zh) * | 2019-05-05 | 2022-06-07 | 京东方科技集团股份有限公司 | 场序显示模组、显示装置及场序显示控制方法 |
CN116612728B (zh) * | 2023-07-18 | 2023-09-15 | 惠科股份有限公司 | 一种显示面板的驱动方法、驱动电路及显示设备 |
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