CN105068352A - Electrochromism display device, display equipment and discoloring method - Google Patents

Abstract

The invention discloses an electrochromism display device, display equipment and a discoloring method, and belongs to the field of display. The electrochromism display device comprises a first pixel unit, a first switch unit, a second pixel unit and a second switch unit which are parallelly arranged from top to bottom in sequence; the first switch unit is used for providing voltages with different sizes for the first pixel unit to make the first pixel unit transform between the transparency and the black; the second switch unit is used for providing voltages with different sizes for the second pixel unit to make the second pixel unit transform between the transparency and a first color, and the first color is any color except for the black. By means of the electrochromism display device, the display equipment and the discoloring method, the electrochromism display device can be made to display the black.

Description

A kind of method of electrochromic display device, display device and variable color

Technical field

The present invention relates to display field, a kind of method of particularly electrochromic display device, display device and variable color.

Background technology

Current display can show the picture of different colours, the picture of these different colours is all produced by the pixel of different colours, each in fact pixel is exactly an electrochromic display device, and electrochromic display device can present different colours under different voltage.

Current electrochromic display device comprises switch element and pixel cell, and pixel cell and switch element are set up in parallel, and switch element is used for the voltage providing different size to pixel cell.When using electrochromic display device to present different colours, the light emitting source of display produces light and passes switch element and be radiated on pixel cell, switch element provides the voltage of different size to pixel cell, and under the effect of this light with this voltage, this pixel cell is transformed into different colours.

Realizing in process of the present invention, inventor finds that prior art at least exists following problem:

Current pixel cell is made up of R, G, B tri-sub-pixel unit, and the electrochromic display device of this R, G, B tri-sub-pixel unit compositions cannot present black.

Summary of the invention

In order to enable electrochromic display device present black, embodiments provide a kind of electrochromic display device and display device.Described technical scheme is as follows:

On the one hand, provide a kind of electrochromic display device, described electrochromic display device comprises:

First pixel cell, the first switch element, the second pixel cell and second switch unit;

Described first pixel cell, described first switch element, described second pixel cell and described second switch unit are parallel successively from top to bottom to be arranged;

Described first switch element, for providing the voltage of different size to described first pixel cell, makes described first pixel cell change between transparent and black;

Described second switch unit, for providing the voltage of different size to described second pixel cell, described second pixel cell is changed between transparent and the first color, and described first color is other colors except described black.

Optionally, the area of described first pixel cell is more than or equal to the area of described second pixel cell.

Optionally, described second pixel cell comprises the red sub-pixel unit, green sub-pixels unit and the blue subpixels unit that are arranged side by side;

Described red sub-pixel unit, area sum between described green sub-pixels unit and described blue subpixels unit are less than or equal to the area of described first pixel cell.

Optionally, described first pixel cell comprises the first sub-pixel unit, the second sub-pixel unit and the 3rd sub-pixel unit that are arranged side by side;

Described first switch element comprises three sub-switch elements, is respectively the second sub-switch element corresponding to the first sub-switch element corresponding to described first sub-pixel unit, described second sub-pixel unit and the 3rd sub-switch element corresponding to described 3rd sub-pixel unit;

Described first sub-pixel unit, described second sub-pixel unit and described 3rd sub-pixel unit are changed respectively under the control of each self-corresponding sub-switch element between transparent and black.

Optionally, described second pixel cell comprises the red sub-pixel unit, green sub-pixels unit and the blue subpixels unit that are arranged side by side;

Described red sub-pixel unit to be positioned at immediately below described first sub-pixel unit and to be less than or equal to the area of described first sub-pixel unit;

Described green sub-pixels unit to be positioned at immediately below described second sub-pixel unit and to be less than or equal to the area of described second sub-pixel unit;

Described blue subpixels unit to be positioned at immediately below described 3rd sub-pixel unit and to be less than or equal to the area of described 3rd sub-pixel unit.

Optionally, the material of described first pixel cell is black electrochromic material.

Optionally, described first switch element and/or described second switch unit are thin film transistor (TFT).

Second aspect, provides a kind of method of being carried out variable color by described electrochromic display device, and light emitting source is positioned at the side of second switch unit away from the second pixel cell, and described method comprises:

Control described second switch unit and provide default first voltage to described second pixel cell;

Under the effect of described default first voltage, described second pixel cell becomes transparent, and the light produced to make described light emitting source passes described second pixel cell and is radiated on the first pixel cell;

Control the first switch element and provide voltage to described first pixel cell;

Under the effect of the light that the voltage provided at described first switch element and described light emitting source irradiate, described first pixel cell is changed between transparent and black.

Optionally, described method also comprises:

Control described second switch unit and provide voltage to described second pixel cell;

Under the effect of the light that the voltage provided at described second switch unit and described light emitting source irradiate, described second pixel cell is changed between transparent and the first color, and described first color is the color except black.

The third aspect, provides a kind of display device, and described display device comprises described electrochromic display device.

The beneficial effect that the technical scheme that the embodiment of the present invention provides is brought is:

By increasing the first pixel cell and the first switch element, become transparent by second switch unit controls second pixel cell, the light that light emitting source is sent is radiated on the first pixel cell, under the effect that the light that the voltage provided by the first switch element and light emitting source are irradiated is common, first pixel cell is changed between transparent and black, thus enables electrochromic display device show black.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1-1 is the first structural representation of a kind of electrochromic display device that the embodiment of the present invention one provides;

Fig. 1-2 is the second structural representation of a kind of electrochromic display device that the embodiment of the present invention one provides;

Fig. 1-3 is the 3rd structural representations of a kind of electrochromic display device that the embodiment of the present invention one provides;

Fig. 1-4 is the 4th structural representations of a kind of electrochromic display device that the embodiment of the present invention one provides;

Fig. 1-5 is the 5th structural representations of a kind of electrochromic display device that the embodiment of the present invention one provides;

Fig. 1-6 is the 6th structural representations of a kind of electrochromic display device that the embodiment of the present invention one provides;

Fig. 2 is the method flow diagram of a kind of variable color that the embodiment of the present invention two provides.

Embodiment

For making the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, embodiment of the present invention is described further in detail.

Embodiment one

See Fig. 1-1, embodiments provide a kind of electrochromic display device, comprising:

First pixel cell 1, first switch element 2, second pixel cell 3 and second switch unit 4;

First pixel cell 1, first switch element 2, second pixel cell 3 and second switch unit 4 are parallel successively from top to bottom to be arranged;

First switch element 2, for providing the voltage of different size to the first pixel cell 1, makes the first pixel cell 1 change between transparent and black;

Second switch unit 4, for providing the voltage of different size to the second pixel cell 3, the second pixel cell 3 is changed between transparent and the first color, and the first color is other colors except black.

Wherein, in embodiments of the present invention, light emitting source can also be provided with at second switch unit 4 away from the side of the second pixel cell 3, and the first switch element 2 and second switch unit 4 can be transparent switch element also can be opaque switch element.The second pixel cell 3 can be made to change between transparent and the first color by controlling second switch unit 4 in an embodiment, concrete transfer process can be:

The light that light emitting source sends can be radiated on the second pixel cell 3 through second switch unit 4, second switch unit 4 provides the voltage of different size to the second pixel cell 3, under the light irradiated at light emitting source and the voltage acting in conjunction that provides of second switch unit 4, the second pixel cell 3 is changed between transparent and the first color.

The first pixel cell 1 can be made to change between transparent and black by controlling the first switch element 2, concrete transfer process can be:

Control second switch unit 4 and provide default first voltage to the second pixel cell 3, under the effect presetting the first voltage, the second pixel cell 3 becomes transparent; And when the second pixel cell 3 is transparent, the light that light emitting source sends can be radiated on the first pixel cell 1 through second switch unit 4, second pixel cell 3 and the first switch element 2; First switch element 2 provides voltage to the first pixel cell 1; Under the light irradiated at light emitting source and the voltage acting in conjunction that provides of the first switch element 2, the first pixel cell 1 is changed between transparent and black.

Wherein, control the first switch element 2 and provide default second voltage to the first pixel cell 1, the first pixel cell 1 can be made under the effect presetting the second voltage to convert black to, thus enable electrochromic display device show black.

Optionally, the material of the first pixel cell 1 can be black EC (Electrochromic, electrochromism) material, and the first switch element 2 and second switch unit 4 can be all TFT (Thinfilmtransistor thin film transistor (TFT)).

Optionally, the area of the second pixel cell 3 is more than or equal to see the area of Fig. 1-1, the first pixel cell 1.So, can ensure that the whole pixel that electrochromic display device is formed can show black.

Optionally, see Fig. 1-2, second pixel cell 3 can be red pixel cell R, second switch unit 4 can provide the voltage of different size to red pixel cell R, under the light sent at light emitting source and the acting in conjunction of this voltage, red pixel cell R can change between transparent and redness, thus it is red that electrochromic display device can be made to show.Wherein, the material of red pixel cell R can be red EC material.

Optionally, see Fig. 1-3, second pixel cell 3 can be green pixel cell G, second switch unit 4 can provide the voltage of different size to green pixel cell G, under the light sent at light emitting source and the acting in conjunction of this voltage, green pixel cell G can change between transparent and green, thus it is green that electrochromic display device can be made to show.Wherein, the material of green pixel cell G can be green EC material.

Optionally, see Fig. 1-4, second pixel cell 3 can be blue pixel cells B, second switch unit 4 can provide the voltage of different size to blue pixel cells B, under the light sent at light emitting source and the acting in conjunction of this voltage, blue pixel cells B can change between transparent and blueness, thus it is blue that electrochromic display device can be made to show.Wherein, the material of blue pixel cells B can be blue EC material.

Optionally, the red sub-pixel unit 31, green sub-pixels unit 32 and the blue subpixels unit 33 that are arranged side by side is comprised see Fig. 1-5, the second pixel cell 3;

Second switch unit 4 comprises three sub-switch elements, is respectively the 6th sub-switch element of the 4th sub-switch element of red sub-pixel unit 31 correspondence, the 5th sub-switch element of green sub-pixels unit 32 correspondence and blue subpixels unit 33 correspondence;

Red sub-pixel unit 31 is changed respectively under the control of the second switch unit of its correspondence between transparent and redness;

Green sub-pixels unit 32 is changed respectively under the control of the second switch unit of its correspondence between transparent and green;

Blue subpixels unit 33 is changed respectively under the control of the second switch unit of its correspondence between transparent and blueness.

Optionally, red sub-pixel unit 31, area sum between green sub-pixels unit 32 and blue subpixels unit 33 three are less than or equal to the area of the first pixel cell 1.

Wherein, control red sub-pixel unit 31, green sub-pixels unit 32 and each self-corresponding second switch unit 4 of blue subpixels unit 33 and provide tertiary voltage, the 4th voltage and the 5th voltage respectively to red sub-pixel unit 31, green sub-pixels unit 32 and blue subpixels unit 33, the light that light emitting source sends is radiated on red sub-pixel unit 31, green sub-pixels unit 32 and blue subpixels unit 33 through second switch unit 4 respectively; Red sub-pixel unit 31 presents redness under the effect of tertiary voltage with this light, green sub-pixels unit 32 presents green under the effect of the 4th voltage with this light, blue subpixels unit 33 presents blueness under the effect of the 5th voltage with this light, then blends a kind of color by this redness, green and blueness.

Wherein, can by changing the size of tertiary voltage, red sub-pixel unit 31 is made to present the redness of the different depth, can by the size of change the 4th voltage, green sub-pixels unit 32 is made to present the green of the different depth, can, by the size of change the 5th voltage, blue subpixels unit 33 be made to present the blueness of the different depth.And then the redness of the different depth, green and blueness are mixed into the color do not become, such as the color such as yellowish, dark purple, purplish red, so can make electrochromic display device present different colors.

Optionally, the first sub-pixel unit 11, second sub-pixel unit 12 and the 3rd sub-pixel unit 13 that are arranged side by side can be comprised see Fig. 1-6, the first pixel cell 1;

First switch element 2 comprises three sub-switch elements, is respectively the first sub-switch element of the first sub-pixel unit 11 correspondence, the second sub-switch element of the second sub-pixel unit 12 correspondence and the 3rd sub-switch element of the 3rd sub-pixel unit 13 correspondence;

First sub-pixel unit 11, second sub-pixel unit 12 and the 3rd sub-pixel unit 13 are changed respectively under the control of each self-corresponding sub-switch element between transparent and black.

Optionally, red sub-pixel unit 31 to be positioned at immediately below the first sub-pixel unit 11 and to be less than or equal to the area of the first sub-pixel unit 11;

Green sub-pixels unit 32 to be positioned at immediately below the second sub-pixel unit 12 and to be less than or equal to the area of the second sub-pixel unit 12;

Blue subpixels unit 33 to be positioned at immediately below the 3rd sub-pixel unit 13 and to be less than or equal to the area of the 3rd sub-pixel unit 13.

In embodiments of the present invention, owing to increasing the first pixel cell and the first switch element, being changed between transparent and black by control first pixel cell of the first switch element, showing black from enabling electrochromic display device.

Embodiment two,

See Fig. 2, embodiments provide a kind of method of variable color, any one electrochromic display device that the method is provided by embodiment one carries out variable color, and wherein, light emitting source is positioned at the side of second switch unit away from the second pixel cell, and the method comprises:

Step 201: control second switch unit and provide default first voltage to the second pixel cell.

Step 202: the second pixel cell becomes transparent under the effect presetting the first voltage, the light produced to make light emitting source passes the second pixel cell and is radiated on the first pixel cell.

Step 203: control the first switch element and provide voltage to the first pixel cell.

Step 204: under the effect of the light that the voltage provided at the first switch element and light emitting source irradiate, the first pixel cell is changed between transparent and black.

Optionally, the method also comprises:

Control second switch unit and provide voltage to the second pixel cell;

Under the effect of the light that the voltage provided at second switch unit and light emitting source irradiate, the second pixel cell is changed between transparent and the first color, and the first color is the color except black.

In embodiments of the present invention, owing to increasing the first pixel cell and the first switch element, become transparent by second switch unit controls second pixel cell, the light that light emitting source is sent is radiated on the first pixel cell, under the effect that the light that the voltage provided by the first switch element and light emitting source are irradiated is common, first pixel cell being changed between transparent and black, showing black from enabling electrochromic display device.

Embodiment three

Embodiments provide a kind of display device, this display device comprises any one electrochromic display device that embodiment one provides.Described display device can be: any product or parts with Presentation Function such as display panel, mobile phone, panel computer, televisor, display, notebook computer, digital album (digital photo frame), navigating instrument.

In embodiments of the present invention, owing to increasing the first pixel cell and the first switch element, become transparent by second switch unit controls second pixel cell, the light that light emitting source is sent is radiated on the first pixel cell, under the effect that the light that the voltage provided by the first switch element and light emitting source are irradiated is common, first pixel cell being changed between transparent and black, showing black from enabling electrochromic display device.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. an electrochromic display device, is characterized in that, described electrochromic display device comprises:

First pixel cell, the first switch element, the second pixel cell and second switch unit;

Described first pixel cell, described first switch element, described second pixel cell and described second switch unit are parallel successively from top to bottom to be arranged;

Described first switch element, for providing the voltage of different size to described first pixel cell, makes described first pixel cell change between transparent and black;

Described second switch unit, for providing the voltage of different size to described second pixel cell, described second pixel cell is changed between transparent and the first color, and described first color is other colors except described black.

2. electrochromic display device according to claim 1, is characterized in that, the area of described first pixel cell is more than or equal to the area of described second pixel cell.

3. electrochromic display device according to claim 1, is characterized in that,

Described second pixel cell comprises the red sub-pixel unit, green sub-pixels unit and the blue subpixels unit that are arranged side by side;

Described red sub-pixel unit, area sum between described green sub-pixels unit and described blue subpixels unit are less than or equal to the area of described first pixel cell.

4. electrochromic display device according to claim 1, is characterized in that, described first pixel cell comprises the first sub-pixel unit, the second sub-pixel unit and the 3rd sub-pixel unit that are arranged side by side;

Described first switch element comprises three sub-switch elements, is respectively the second sub-switch element corresponding to the first sub-switch element corresponding to described first sub-pixel unit, described second sub-pixel unit and the 3rd sub-switch element corresponding to described 3rd sub-pixel unit;

Described first sub-pixel unit, described second sub-pixel unit and described 3rd sub-pixel unit are changed respectively under the control of each self-corresponding sub-switch element between transparent and black.

5. electrochromic display device according to claim 4, is characterized in that,

Described second pixel cell comprises the red sub-pixel unit, green sub-pixels unit and the blue subpixels unit that are arranged side by side;

Described red sub-pixel unit to be positioned at immediately below described first sub-pixel unit and to be less than or equal to the area of described first sub-pixel unit;

Described green sub-pixels unit to be positioned at immediately below described second sub-pixel unit and to be less than or equal to the area of described second sub-pixel unit;

Described blue subpixels unit to be positioned at immediately below described 3rd sub-pixel unit and to be less than or equal to the area of described 3rd sub-pixel unit.

6. the electrochromic display device according to any one of claim 1 to 5 claim, is characterized in that, the material of described first pixel cell is black electrochromic material.

7. the electrochromic display device according to any one of claim 1 to 5 claim, is characterized in that, described first switch element and/or described second switch unit are thin film transistor (TFT).

8. carried out a method for variable color by the electrochromic display device as described in any one of claim 1 to 7 claim, it is characterized in that, light emitting source is positioned at the side of second switch unit away from the second pixel cell, and described method comprises:

Control described second switch unit and provide default first voltage to described second pixel cell;

Under the effect of described default first voltage, described second pixel cell becomes transparent, and the light produced to make described light emitting source passes described second pixel cell and is radiated on the first pixel cell;

Control the first switch element and provide voltage to described first pixel cell;

Under the effect of the light that the voltage provided at described first switch element and described light emitting source irradiate, described first pixel cell is changed between transparent and black.

9. method according to claim 8, is characterized in that, described method also comprises:

Control described second switch unit and provide voltage to described second pixel cell;

Under the effect of the light that the voltage provided at described second switch unit and described light emitting source irradiate, described second pixel cell is changed between transparent and the first color, and described first color is the color except black.

10. a display device, is characterized in that, described display device comprises the electrochromic display device as described in any one of claim 1 to 7 claim.