CN106531101A

CN106531101A - Display panel and display device having display panel

Info

Publication number: CN106531101A
Application number: CN201611161533.3A
Authority: CN
Inventors: 唐岳军
Original assignee: Wuhan China Star Optoelectronics Technology Co Ltd
Current assignee: Wuhan China Star Optoelectronics Technology Co Ltd
Priority date: 2016-12-15
Filing date: 2016-12-15
Publication date: 2017-03-22
Anticipated expiration: 2036-12-15
Also published as: CN106531101B

Abstract

The invention discloses a display panel and a display device. The display panel comprises multiple pixels and a driving unit which drives the multiple pixels. Each pixel comprises multiple first sub-pixels and a second sub-pixel. The multiple first sub-pixels include a red sub-pixel, a green sub-pixel and a blue sub-pixel. The second sub-pixel is a white sub-pixel. The driving unit drives the first sub-pixels according to a first gamma curve and drives the second sub-pixel according to the first gamma curve or a second gamma curve. When a pure color frame is displayed, the driving unit drives a certain pixel of the multiple first sub-pixels according to the first gamma curve and drives the second sub-pixel according to the second gamma curve. When a pure white frame is displayed, the driving unit drives the multiple first sub-pixels and the second sub-pixel according to the first gamma curve so as to enhance the transmittance without excessively reducing color saturation, and thus the display panel is enabled to have the advantages of high luminous efficiency, relatively high pure color rendering and low power consumption.

Description

Display floater and the display device with the display floater

Technical field

The present invention relates to display technology field, more particularly to a kind of display floater and the dress of the display with the display floater Put.

Background technology

At present, in the RGB type LCD display with red sub-pixel (R), green sub-pixels (G) and blue subpixels (B) In, the light of backlight has a big chunk light pass through after R color blockings, G color blockings, B color blockings, and such as backlight is through B colors During resistance, HONGGUANG and green glow composition are filtered, result in LCD display have the shortcomings that to a certain extent brightness it is low/power consumption is big.Cause This has developed the RGBW types with red sub-pixel (R), green sub-pixels (G), blue subpixels (B) and white sub-pixels (W) LCD display, part of back almost all through white sub-pixels (W) can improve the brightness of LCD display, again may be used To reduce power consumption.

However, due to increased W sub-pixel in tetra- colour systems of RGBW system, the saturation of the pure color in image may be caused to dislike The problems such as change, such as when R, G, B pure color picture is shown using R, G, B sub-pixel, as the addition of W sub-pixel causes R, G, B Pixel Dimensions size is reduced, and aperture opening ratio declines so that picture brightness is low；When using R+W, G+W, B+W sub-pixel display R, G, B During pure color picture, as the addition of W sub-pixel causes the color saturation (NTSC) of display picture to decline seriously；Participate in pure in W In the mode that color shows, as the addition of W sub-pixel causes to add one piece of W sub-pixel in RGB color saturation triangle Area, in order to ensure that the most bright pure color picture (L255) of R, G, B, with meeting product specification and showing the color saturation of demand, needs R, G, B sub-pixel to be increased NTSC (now showing without this kind of independent RGB sub-pixels in practice) displayed separately, for example showing needs The NTSC for asking will keep 70%, then need the thickness of the color blocking for increasing R, G, B sub-pixel to cause R, G, B sub-pixel displayed separately NTSC tends to 90% (as shown in Figure 1), but the increase of the color blocking thickness of RGB sub-pixels can greatly reduce R, G, B sub-pixel Transmitance, if this transmitance is lifted by W sub-pixel, can reduce NTSC again.

The content of the invention

The invention mainly solves the technical problem of a kind of display floater and the display device with the display floater are provided, So that sub-pixel transmitance is high and display floater has the advantages that light efficiency is high, pure color color rendering propertiess are of a relatively high and power consumption is relatively low.

To solve above-mentioned technical problem, one aspect of the present invention is：A kind of display floater is provided, it is described aobvious Show that panel includes multiple pixels and drives the driver element of the plurality of pixel, each pixel include multiple first sub-pixels and One the second sub-pixel, the plurality of first sub-pixel include red sub-pixel, green sub-pixels and blue subpixels, described Two sub-pixels are white sub-pixels, and the driver element drives first sub-pixel according to the first gamma curve, and presses Second sub-pixel is driven according to the first gamma curve or the second gamma curve, when pure color picture is shown, the driving list Unit drives some in the plurality of first sub-pixel according to first gamma curve, and according to second gamma Curve is driving second sub-pixel；When pure white picture is shown, the driver element is driven according to first gamma curve Move the plurality of first sub-pixel and second sub-pixel.

Wherein, the scope of the first gamma value of first gamma curve and the second gamma value of second gamma curve Between 1.8 to 2.6.

Wherein, show the brightness of the second sub-pixel described in pure color picture less than the second sub- picture described in the pure white picture of display The brightness of element.

Wherein, the maximum transmission of the first gamma curve correspondence second sub-pixel is bent more than second gamma The maximum transmission of line correspondence second sub-pixel, the maximum of corresponding second sub-pixel of second gamma curve are passed through Rate is the 30% to 85% of the maximum transmission of the first gamma curve correspondence second sub-pixel.

Wherein, the maximum transmission of the second gamma curve correspondence second sub-pixel is first gamma curve The 50% to 85% of the maximum transmission of correspondence second sub-pixel.

To solve above-mentioned technical problem, one aspect of the present invention is：A kind of display device is provided, it is described aobvious Showing device includes display floater, and the display floater includes multiple pixels and drives the driver element of the plurality of pixel, described Each pixel includes multiple first sub-pixels and second sub-pixel, and the plurality of first sub-pixel includes red sub-pixel, green Sub-pixels and blue subpixels, second sub-pixel are white sub-pixels, and the driver element is according to the first gamma curve To drive first sub-pixel, and according to the first gamma curve or the second gamma curve driving second sub-pixel, When pure color picture is shown, during the driver element drives the plurality of first sub-pixel according to first gamma curve Some, and according to second gamma curve driving second sub-pixel；When pure white picture is shown, the driving Unit drives the plurality of first sub-pixel and second sub-pixel according to first gamma curve.

The invention has the beneficial effects as follows：The situation of prior art is different from, the display floater of the present invention is by selecting Some in first gamma curve and second gamma curve driving second sub-pixel so that pure showing During color picture, the driver element is according in first gamma curve driving, first sub-pixel and according to institute State the second gamma curve and drive second sub-pixel, transmitance is improved with this and color saturation will not be excessively reduced；And aobvious When showing pure white picture, the driver element drives the plurality of first sub-pixel and described second according to first gamma curve Sub-pixel, with this so that the display floater has the advantages that light efficiency is high, pure color color rendering propertiess are of a relatively high and power consumption is relatively low.

Description of the drawings

Fig. 1 is the display mode schematic diagram of existing display floater；

Fig. 2 is the structural representation of the display floater of the present invention；

Fig. 3 is the viewing area structural representation in Fig. 2；

Fig. 4 is first and second gamma curve schematic diagram of the present invention；

Fig. 5 is the working method schematic diagram of the display floater of the present invention；

Fig. 6 is the display mode of the display mode with existing display floater of the display floater of the present invention

Contrast schematic diagram；

Fig. 7 is the structural representation of the display device of the present invention.

Specific embodiment

Fig. 2 is referred to, is the structural representation of the display floater of the present invention.As shown in Fig. 2 the display floater 10 includes Driver element 20 and viewing area 30, the driver element 20 are shown for driving the viewing area to carry out image.It is described aobvious Show that region 30 includes multiple pixels 31.In the present embodiment, the plurality of pixel 31 is arranged into strips, in other embodiments, The plurality of pixel 31 can also be arranged in triangle.

Fig. 3 is referred to, is the structural representation of the viewing area of the present invention.As shown in figure 3, each pixel 31 includes Three the first sub-pixels and second sub-pixel.Three first sub-pixels respectively show red R sub-pixels 41, show Show the G sub-pixel 42 of green and show blue B sub-pixels 43；One second sub-pixel is the W sub-pixel for showing white 44, the W sub-pixel 44 is will be R sub-pixels 41, G sub-pixel 42 and B sub-pixels 43 each shown red, green and blue The blend color obtained after being combined is white.In the present embodiment, the R sub-pixels 41, G sub-pixel 42, B sub-pixels 43 and W sub-pixel 44 by one direction side by side in the way of be arranged in a pixel 31, in other embodiments, the R The arrangement mode of sub-pixel 41, G sub-pixel 42, B sub-pixels 43 and W sub-pixel 44 is not limited, for example the sub- picture of R sub-pixels 41, G Element 42, B sub-pixels 43 and W sub-pixel 44 can also be arranged in the array of a generally 2*2, in this array R sub-pixels 41st, the order of G sub-pixel 42, B sub-pixels 43 and W sub-pixel 44 is not limited.Wherein, R sub-pixels 41, G sub-pixel 42, B are sub The Pixel Dimensions of pixel 43 and W sub-pixel 44 be able to can also be differed with identical, preferred R sub-pixels 41, the sub- picture of G sub-pixel 42, B Element 43 has identical Pixel Dimensions with W sub-pixel 44.

In other embodiments, each shown color of multiple first sub-pixels described in same pixel is different, And red, green and blue combination described above is not limited to, but the preferably combination of primary colors.Second sub-pixel shows The color shown be the color shown by any number of first sub-pixels is combined after the blend color that obtains, and carry out First sub-pixel of combination arbitrarily can be selected, and can be all first sub-pixels, or wherein for constituting a pixel A part.

The driver element 20 includes video data Transmit-Receive Unit 21, graphics processing unit 22, sequential generating unit 23, source Pole driver element 24 and drive element of the grid 25.The driver element 20 drives the plurality of pixel 31 by these structures, Specifically, drive multiple sub-pixels, i.e. R sub-pixels 41, G sub-pixel 42, B sub-pixels 43 and the sub- pictures of W for constituting each pixel 31 Element 44.

The video data Transmit-Receive Unit 21 receives video data, and sends it to described image processing unit 22, institute State graphics processing unit 22 video data is received from the video data Transmit-Receive Unit 21, and according to the video data and described First gamma curve is generated and each self-corresponding R data of R sub-pixels 41, G sub-pixel 42 and B sub-pixels 43, G data and B data, And described image processing unit 22 is according in the video data and first gamma curve and second gamma curve Some generate with 44 corresponding W data of W sub-pixel, and by R data, G data, B data and W data be sent to sequential generate Unit 23.

The R data for receiving, G data, B data and W data are sent to the source electrode by the timing generator unit 23 Driver element 24, and the signal of the sequential being driven to each pixel 31 is sent to into the drive element of the grid 25.Institute Drive element of the grid 25 is stated based on the signal received from the timing generator unit 23 to drive each pixel 31, the source The R data, G data, B data and the W data that receive from the timing generator unit 23 are converted into reality by pole driver element 24 Border is applied to the analog voltage in pixel, and is output to each pixel 31.

Fig. 4 is referred to, is the schematic diagram of first gamma curve and the second gamma curve of the present invention.As shown in figure 4, described The scope of the second gamma value of the first gamma value of the first gamma curve and second gamma curve between 1.8 to 2.6, institute The first gamma value for stating the first gamma curve is identical with the second gamma value of second gamma curve, or first gamma First gamma value of curve is differed with the second gamma value of second gamma curve.Wherein, gamma is exactly Gamma, institute The corresponding maximum transmissions of the first gamma curve Gamma1 are stated for Tr1, the second gamma curve Gamma2 it is corresponding it is maximum thoroughly Rate is crossed for Tr2.Wherein, the left figure in Fig. 4 represents normalization V-T curve (i.e. display floater driving voltage and transmitance relation Normalizing curve).Right figure in Fig. 4 represents that the gamma1/gamma2 for adjusting generation respectively according to maximum transmission Tr1/Tr2 is bent Line, maximum transmission Tr1 correspondence maximum drive voltage V1, maximum transmission Tr2 correspondence maximum drive voltage V2, then gamma is bent Line gamma1 is generated according to 0～V1 sections V-T curve, and gamma curve gamma2 is generated according to 0～V2 sections V-T curve.

Fig. 5 is referred to, is the working method schematic diagram of the display floater of the present invention.As shown in figure 5, the W sub-pixel 44 Its brightness is represented using gray scale, as can be seen from the figure in 255 pictures of pure color W sub-pixel 44 than W in 255 pure white pictures The brightness of sub-pixel 44 is lower, that is, show the brightness of the second sub-pixel described in pure color picture less than described in the pure white picture of display The brightness of the second sub-pixel, this is because drive the first gamma curve correspondence second sub-pixel of W sub-pixel 44 Maximum transmission Tr2s of the maximum transmission Tr1 more than second gamma curve correspondence, second sub-pixel.

In the present embodiment, the maximum transmission Tr2 of the second gamma curve correspondence second sub-pixel is described The 30%-85% of the maximum transmission Tr1 of the first gamma curve correspondence second sub-pixel, in the present embodiment, preferred model Enclose for 50%-85%.When pure color picture is shown, the driver element 20 drives the plurality of according to first gamma curve One in first sub-pixel, and second sub-pixel is driven according to second gamma curve, it is relatively low bright so as to pass through Second sub-pixel of degree improves the transmitance of first sub-pixel, will not excessively reduce color saturation (NTSC)；When aobvious When showing pure white picture, the driver element 20 drives the plurality of first sub-pixel and described the according to first gamma curve Two sub-pixels, cause the display floater to have light efficiency height, pure color color rendering propertiess of a relatively high and power consumption with this by this kind of mode Relatively low advantage.

Fig. 6 is referred to, is the display mode of display mode and existing display floater of the display floater of the present invention in light Learn the contrast schematic diagram of the difference and pluses and minuses in quality.Wherein, a in Fig. 6 is the display pattern of existing display floater, B in Fig. 6 is existing display floater on the premise of the NTSC for ensureing product is constant, because of the second sub-pixel (W sub-pixel 44) addition, needs to increase the triangle of the plurality of first sub-pixel (R sub-pixels 41, G sub-pixel 42 and B sub-pixels 43) Area to NTSC tend to 90%.C and d in Fig. 6 is the display mode schematic diagram of the display floater of the present invention, it can be seen that Due to pure color picture show described in the second sub-pixel (W sub-pixel 44) there was only relatively low or transmittance, therefore described second The limited brightness of sub-pixel, its reduction effect to NTSC areas are limited, and the transmitance lifting to picture is larger, and is ensureing On the premise of NTSC is constant, it is only necessary to increase the plurality of first sub-pixel (R sub-pixels 41, G sub-pixel 42 and B sub-pixels 43) Triangle area to NTSC tend to such as 80%, and without need as existing display floater increase it is the plurality of The area of the triangle of the first sub-pixel (R sub-pixels 41, G sub-pixel 42 and B sub-pixels 43) tends to 90% to NTSC, while by When pure white picture shows, W sub-pixel 44 participates in work with maximum transmission Tr1, and the reduction to power consumption does not reduce, therefore this Invention improves multiple problems that existing display floater is present, and realizes display floater and has light efficiency height, pure color color rendering propertiess relative The relatively low advantage of higher and power consumption.

Fig. 7 is referred to, is the structural representation of the display device of the present invention.As shown in fig. 7, the display device 1 includes Above-mentioned display floater 10, other devices and function of the display device are same with the device and function phase of existing display device, Will not be described here.

The display floater is driven by some in selection first gamma curve and second gamma curve Second sub-pixel is moved, so that when pure color picture is shown, the driver element drives institute according to first gamma curve Stating the first sub-pixel and second sub-pixel being driven according to second gamma curve, transmitance and will not mistake is improved with this Degree reduces color saturation；And when pure white picture is shown, the driver element drives described many according to first gamma curve Individual first sub-pixel and second sub-pixel, cause the display floater to have light efficiency height, pure color with this by this kind of mode The advantage that color rendering propertiess are of a relatively high and power consumption is relatively low.

Embodiments of the present invention are the foregoing is only, the scope of the claims of the present invention is not thereby limited, it is every using this Equivalent structure or equivalent flow conversion that description of the invention and accompanying drawing content are made, or directly or indirectly it is used in other correlations Technical field, is included within the scope of the present invention.

Claims

1. a kind of display floater, it is characterised in that the display floater includes multiple pixels and drives the drive of the plurality of pixel Moving cell, each pixel include multiple first sub-pixels and second sub-pixel, and the plurality of first sub-pixel includes red Sub-pixels, green sub-pixels and blue subpixels, second sub-pixel is white sub-pixels, and the driver element is according to the One gamma curve driving first sub-pixel, and according to the first gamma curve or the second gamma curve driving described Two sub-pixels, when pure color picture is shown, the driver element drives the plurality of first according to first gamma curve Some in sub-pixel, and according to second gamma curve driving second sub-pixel；When the pure white picture of display When, the driver element drives the plurality of first sub-pixel and second sub-pixel according to first gamma curve.

2. display floater according to claim 1, it is characterised in that the first gamma value of first gamma curve and institute The scope of the second gamma value of the second gamma curve is stated between 1.8 to 2.6.

3. display floater according to claim 1, it is characterised in that show the bright of the second sub-pixel described in pure color picture Degree is less than the brightness for showing the second sub-pixel described in pure white picture.

4. display floater according to claim 1, it is characterised in that the first gamma curve correspondence second sub- picture Maximum transmission of the maximum transmission of element more than second gamma curve correspondence, second sub-pixel, second gamma The maximum transmission of curve correspondence second sub-pixel is the maximum of the first gamma curve correspondence second sub-pixel The 30% to 85% of transmitance.

5. display floater according to claim 4, it is characterised in that the second gamma curve correspondence second sub- picture The maximum transmission of element is the 50% to 85% of the maximum transmission of the first gamma curve correspondence second sub-pixel.

6. a kind of display device, it is characterised in that the display device includes display floater, and the display floater includes multiple pictures The driver element of element and the plurality of pixel of driving, each pixel include multiple first sub-pixels and second sub-pixel, The plurality of first sub-pixel includes red sub-pixel, green sub-pixels and blue subpixels, and second sub-pixel is white Sub-pixel, the driver element drive first sub-pixel according to the first gamma curve, and according to the first gamma curve Or second gamma curve driving second sub-pixel, when pure color picture is shown, the driver element is according to described first Gamma curve is driving some in the plurality of first sub-pixel and described to drive according to second gamma curve Second sub-pixel；When pure white picture is shown, the driver element drives the plurality of first according to first gamma curve Sub-pixel and second sub-pixel.

7. display device according to claim 6, it is characterised in that the first gamma value of first gamma curve and institute The scope of the second gamma value of the second gamma curve is stated between 1.8 to 2.6.

8. display device according to claim 6, it is characterised in that show the bright of the second sub-pixel described in pure color picture Degree is less than the brightness for showing the second sub-pixel described in pure white picture.

9. display device according to claim 6, it is characterised in that the first gamma curve correspondence second sub- picture Maximum transmission of the maximum transmission of element more than second gamma curve correspondence, second sub-pixel, second gamma The maximum transmission of curve correspondence second sub-pixel is the maximum of the first gamma curve correspondence second sub-pixel The 30% to 85% of transmitance.

10. display device according to claim 9, it is characterised in that the second gamma curve correspondence is described second sub The maximum transmission of pixel is the 50% to 85% of the maximum transmission of the first gamma curve correspondence second sub-pixel.