CN105068341B - Double-display screen display device and its display methods - Google Patents

Abstract

The present invention relates to a kind of double-display screen display device and its display methods, the double-display screen display device and its display methods, corresponding display pattern can be selected according to the particular content shown by it, when display content is article, chat interface, navigation etc., the energy-conservation display pattern shown using electrophoretic display panel can be selected, energy-conservation so can be achieved；When display content is that game picture etc. requires higher content to picture, the normal displaying mode shown using active matrix organic light-emitting diode can be selected.It can be seen that the double-display screen display device can change display mode in good time to reduce power consumption.

Description

Double-display screen display device and its display methods

Technical field

The present invention relates to terminal applies technical field, more particularly to a kind of double-display screen display device and its display side Method.

Background technology

AMOLED (Active Matrix/Organic Light Emitting Diode) is active matrix organic light-emitting Diode, principle of luminosity are：Anode and negative electrode with ito transparent electrode and metal electrode respectively as device, in certain voltage Under driving, electronics and hole are injected into electron transfer layer and hole transmission layer, electronics and hole difference from negative electrode and anode respectively Luminescent layer is moved to by electron transfer layer, and is met in luminescent layer, exciton is formed and excites light emitting molecule.

At present, AMOLED is widely used in a mobile device, compared to traditional LC D, has advantages below：The One, AMOLED display screen are very thin, can in screen integrated touch layer, make ultra-thin machine advantageously；Second, AMOLED are certainly Luminous, single pixel does not work when showing black, has the characteristics of low-power consumption when showing dark；3rd, AMOLED can make Flexible screen, the lcd screen compared with glass substrate are hardly damaged；4th, colour gamut is very wide, can reach 110%NTSC, some LCD it is upper can not accurate reproduction color, can be expressed on AMOLED；5th, there is high-contrast, in theory contrast Can be infinitely great, and will not light leak；6th, there is the response speed being exceedingly fast, the response time only has 1/1000 to the 1/ of LCD 100。

But AMOLED display screens are used to see webpage, novel and in Chat mode, AMOLED display screens are in energy-saving square Face does not have advantage.

The content of the invention

Based on this, it is necessary in view of the above-mentioned problems, active matrix organic light-emitting diode can be reduced in good time by providing one kind Power consumption double-display screen display device and can reduce in good time active matrix organic light-emitting diode power consumption double-display screen The display methods of display device

A kind of double-display screen display device, it is characterised in that including be sequentially overlapped the electrophoretic display panel of setting, polaroid and Active matrix organic light-emitting diode, the active matrix organic light-emitting diode include being sequentially overlapped the cathode layer of setting, had Machine luminescent layer and anode layer；The electrophoretic display panel includes first substrate, the second substrate with first substrate relative configuration And electrophoresis layer, the electrophoresis layer are configured at viewing area, the viewing area between the first substrate and the second substrate Domain setting corresponding with the organic luminous layer.

Above-mentioned double-display screen display device can select corresponding display pattern according to the particular content shown by it, when aobvious Show content for article, chat interface, navigation etc. when, the energy-conservation display pattern for using electrophoretic display panel to show can be selected, so Energy-conservation can be achieved；When display content is that game picture etc. requires higher content to picture, can select to use active square The normal displaying mode of battle array organic light-emitting diode display.It can be seen that the double-display screen display device can change display mode in good time To reduce power consumption.

In one of the embodiments, the organic luminous layer includes some pixel cells, each pixel cell bag Include three sub-pixels, the anode layer includes the anode of multiple spaced settings, each of which anode with a pixel One sub-pixel of unit is corresponding.

In one of the embodiments, the organic luminous layer includes some pixel cells, each pixel cell bag Include three sub-pixels, the first substrate with include respectively on the second substrate it is multiple it is spaced it is arranged in a crossed manner it is transparent just Electrode and transparent negative electrode, each transparent positive electrode or transparent negative electrode both correspond to a sub-pixel.

In one of the embodiments, the electrophoresis layer includes the transparent positive electrode being placed on same substrate and transparent negative electricity Electrophoretic particle between pole, after the double-display screen display device is powered, the electrophoretic particle is placed in transparent on two substrates Between positive electrode and transparent negative electrode.

In one of the embodiments, the electrophoretic particle includes white particles and black particle, the white particles band Positive charge or negative electrical charge, the black particle is negatively charged or positive charge, the white particles and black particle institute are powered Lotus is different.

In one of the embodiments, the double-display screen display device also includes driving voltage, and the active matrix has Machine light emitting diode and electrophoretic display panel are connected with driving voltage, same time active matrix organic light-emitting diode and electrophoresis Display screen only has the work that is connected with the driving voltage.

In one of the embodiments, the active matrix organic light-emitting diode and the electrophoretic display panel are same side To display, when active matrix organic light-emitting diode work, the electrophoretic display panel do not work, the electrophoretic display panel The active matrix organic light-emitting diode work is not influenceed；When electrophoretic display panel work, active matrix organic light-emitting two When pole pipe does not work, the active matrix organic light-emitting diode does not influence the electrophoretic display panel work.

In one of the embodiments, the electrophoretic display panel corresponds to the hair of the active matrix organic light-emitting diode The part in light region is arranged to transparent, is set corresponding to the part of the non-luminous region of the active matrix organic light-emitting diode To be nontransparent.

A kind of display methods of double-display screen display device, the double-display screen display device are above-mentioned dual display screen display Showing device, the display methods of the double-display screen display device comprise the following steps：Judge that display pattern is shown still for energy-conservation Normal display；When display pattern shows for energy-conservation, open the electrophoretic display panel and close the active matrix organic light-emitting Diode, when display pattern is normally shows, open the active matrix organic light-emitting diode and the closing electrophoresis shows Display screen.

In one of the embodiments, the judgement display pattern is energy-conservation display or normal step display is：According to The content that the double-display screen display device is shown, it is judged as energy-conservation display or normal display；Or according to set by user Display pattern judges to be currently energy-conservation display or normal display as display pattern.

The display methods of above-mentioned double-display screen display device, can according to corresponding to selecting display content display pattern, when When display content is article, chat interface, navigation etc., the energy-conservation display pattern shown using electrophoretic display panel can be selected, this Energy-conservation can be achieved in sample；When display content is that game picture etc. requires higher content to picture, can select to use active The normal displaying mode that matrix organic LED is shown.It can be seen that the display methods of the double-display screen display device can be in good time Change display mode to reduce power consumption.

Brief description of the drawings

Fig. 1 is double-display screen display device electrophoretic display panel of the present invention work, active matrix organic light-emitting diode not work Sectional view when making；

Fig. 2 is double-display screen display device active matrix organic light-emitting diode of the present invention work, electrophoretic display panel not work Sectional view when making；

Fig. 3 is double-display screen display device circuit connection diagram of the present invention；

Fig. 4 is the display methods flow chart of double-display screen display device of the present invention.

Embodiment

Fig. 1~2 are refer to, the present invention preferably embodiment provides a kind of double-display screen display device 100, the dual display Screen display device 100 includes active matrix organic light-emitting diode 110, electrophoretic display panel 130 and is placed in the organic hair of active matrix Polaroid 120 between optical diode 110 and electrophoretic display panel 130.Polaroid 120, electrophoretic display panel 130, active matrix have Machine light emitting diode 110 is sequentially overlapped placement.Electrophoretic display panel 130 corresponds to the hair of active matrix organic light-emitting diode 110 The part in light region is arranged to transparent.I.e. electrophoretic display panel 130 includes transparent region and nontransparent region.Transparent region corresponds to The light-emitting zone of active matrix organic light-emitting diode, nontransparent region correspond to non-luminous region.Electrophoretic display panel 130 includes Electrophoresis layer 132.Electrophoresis layer 132 can be in the transparent region in electrophoretic display panel 130 and nontransparent interregional movement.

Active matrix organic light-emitting diode 110 is that same direction shows that is, active matrix is organic with electrophoretic display panel 130 The light emission direction of light emitting diode 110 is identical with the light emission direction of electrophoretic display panel 130.When electrophoretic display panel 130 works and have When source matrix Organic Light Emitting Diode 110 does not work, electrophoresis layer 132 is in electrophoretic display panel 130 by having corresponding to active matrix The non-luminous region of machine light emitting diode 110 is moved to light-emitting zone, and energy-conservation display is realized by ambient light.When active matrix has Machine light emitting diode 110 works and when electrophoretic display panel 130 does not work, the luminous zone of active matrix organic light-emitting diode 110 Domain lights, and by the transparent region of electrophoretic display panel 130, is finally visually recognized, realizes normal display.So it can be achieved According to specific display content, and display pattern is selected as energy-conservation display or normal display.

Referring to Fig. 3, the double-display screen display device 100 includes driving voltage V.The pole of active matrix organic light-emitting two Pipe 110 and electrophoretic display panel 130 are electrically connected with driving voltage V phases.But same time, active matrix organic light-emitting two There was only one in pole pipe 110 and electrophoretic display panel 130 to connect and work with driving voltage V.In present embodiment, driving electricity V is pressed to be connected by single-pole double-throw switch (SPDT) K in active matrix organic light-emitting diode 110 and electrophoretic display panel 130.Work as single-pole double throw Switch K includes side a and b, and side a and b is selectively in the close position.When A ends are in the close position, active matrix has Machine light emitting diode 110 works and electrophoretic display panel 130 does not work；When B ends are in the close position, the work of electrophoretic display panel 130 Make and active matrix organic light-emitting diode 110 does not work.

Active matrix organic light-emitting diode 110 includes cathode layer 111, the and of organic luminous layer 112 for being sequentially overlapped setting Anode layer 113.Electrophoretic display panel 130 also includes first substrate 131 and the second substrate 133 being oppositely disposed with first substrate 131. Electrophoresis layer 132 is configured at viewing area between first substrate 131 and second substrate 133.Viewing area and organic luminous layer 112 Corresponding setting.

Cathode layer 111 connects driving voltage V negative poles, and anode layer 113 connects driving voltage V positive poles.Driving voltage V has been excited Machine luminescent layer 112 is luminous, forms pixel light emission.Anode layer 113 includes the anode 1131 of multiple spaced settings.Organic light emission Layer 112 includes several pixel cells.Wherein, each anode 1131 is corresponding with a sub-pixel of a pixel cell. Each pixel cell includes three sub-pixels of red, green, blue, namely including three anodes 1131.Cathode layer 111 includes multiple mutual Spaced negative electrode 1111, each of which negative electrode 1111 are corresponding with an anode 1131.

Include multiple separately transparent positive electrodes 1311 arranged in a crossed manner on first substrate 131 and second substrate 133 respectively With transparent negative electrode 1312.Both correspond on second substrate 133 one of each transparent positive electrode 1311 on first substrate 131 Transparent negative electrode 1312, equally, each transparent negative electrode 1312 on first substrate 131 are both corresponded on second substrate 133 One transparent positive electrode 1311.Transparent positive electrode 1311 and transparent negative electrode 1312 on first substrate 131 or second substrate 133 The sub-pixel both corresponded on active matrix organic light-emitting diode 110.

Electrophoresis layer 132 includes several electrophoretic particles 1321.Electrophoretic particle 1321 includes white particles 13211 and black is micro- Grain 13212.White particles 13211 and the electrically charged difference of the institute of black particle 13212.White particles 13211 be for example containing titanium oxide, The particulates (macromolecule or colloid) of the Chinese whites such as zinc oxide, antimony trioxide, such as positively charged use.Black particle 13212 It is the particulate (macromolecule or colloid) of the black pigment such as containing nigrosine, carbon black, such as negatively charged uses.These pigment In, as needed, electrolyte, surfactant can be added, comprising metallic soap, resin, rubber, oil, varnish, compound etc. Dispersant, lubricant, the stabilizers such as the band controling agent of particulate, titanium class coupling agent, silane coupling agent etc..In addition, also can generation It is colored aobvious so as to carry out for white particles 13211 and black particle 13212 using the pigment such as red, green, blueness Show.

When electrophoretic display panel 130 be connected with driving voltage V and worked in the presence of driving voltage V (i.e. B ends close) when, Voltage is applied between first substrate 131 and second substrate 133, then due to both upper corresponding transparent positive electricity set Electric field, electrophoretic particle 1321 (white particles 13211 and black particle 13212) are produced between pole 1311 and transparent negative electrode 1312 Moved to a certain transparency electrode (transparent positive electrode 1311 and transparent negative electrode 1312) electrophoresis.For example, have in white particles 13211 In the case of having positive charge, black particle 13212 to have negative electrical charge, white particles 13211 are moved to first substrate 131 and second The side of transparent negative electrode 1312 on substrate 133 is simultaneously concentrated, and black particle 13212 is moved to first substrate 131 and second substrate 133 On the side of transparent positive electrode 1311 and concentrate.So, after ambient light is incided on electrophoretic display panel 130, if running into white Particulate 13211, then the light of white is reflected, is visually recognized as white；If running into black particle 13212, ambient light quilt Absorb, and be visually recognized as black.Meanwhile be incident on first substrate 131 and second substrate 133 two-by-two it is adjacent it is transparent just The ambient light of gap between electrode 1311 and transparent negative electrode 1312 is by organic positioned at electrophoretic display panel 130 and active matrix Polaroid 120 between light emitting diode 110 is absorbed.

When electrophoretic display panel 130 and driving voltage V are disconnected, electrophoretic particle 1321 (white particles 13211 and black Particulate 13212) due to hydrophobicity, it can be moved to transparent positive electrode adjacent two-by-two on first substrate 131 or second substrate 133 Gap and concentration between 1311 and transparent negative electrode 1312.And now, if active matrix organic light-emitting diode 110 with Driving voltage V connections simultaneously work (i.e. A ends close) in the presence of driving voltage V, and driving voltage V excites organic luminous layer 112 It is luminous, form pixel light emission.Although electrophoretic display panel 130 is placed on active matrix organic light-emitting diode 110, due to electrophoresis Transparent positive electrode 1311 and transparent negative electrode 1312 are corresponding with sub-pixel on display screen 130, and on electrophoretic display panel 130 Electrode is transparent, and electrophoretic particle 1321 is focused on gap.Therefore when driving voltage V excites organic luminous layer 112 to send out When light forms pixel light emission, vision can normally identify corresponding color.

Above-mentioned double-display screen display device 100 can select corresponding display pattern according to the particular content shown by it, When display content is article, chat interface, navigation etc., the energy-conservation that can select to show using electrophoretic display panel 130 shows mould Formula, energy-conservation so can be achieved；When display content is that game picture etc. requires higher content to picture, can select to use The normal displaying mode that active matrix organic light-emitting diode 110 is shown.It can be seen that the double-display screen display device 100 can be in good time Change display mode to reduce power consumption.

Fig. 4 is refer to, the present invention preferably embodiment also provides a kind of display side of double-display screen display device 100 Method.Double-display screen display device 100 herein is above-mentioned double-display screen display device 100, for its specific structure etc. this Place does not repeat.The display methods of double-display screen display device 100 comprises the following steps：

Step S110：Judge display pattern for energy-conservation display or normal display., can be according to dual display screen display in this step Content shown by showing device 100, to judge energy-conservation display or normal display.Specifically, double-display screen display device is shown Content corresponding to display pattern can voluntarily be set by user.For example, when the content shown by double-display screen display device For article, chat interface when, the display pattern that can determine whether out now should be energy-conservation display；When shown by double-display screen display device Content for picture, interface etc. when, can determine whether out that display pattern now should be normal display.Certainly, implement at other In mode, in this step, it can also judge currently be arranged to energy-conservation display still according to the display pattern set by user Normal display.For example, when user needs to play game, display pattern can be set now to identify user for normal display manually The display pattern of setting is normal display, then judges current display mode for normal display；When user sees e-book, set manually Put display pattern to show for energy-conservation, now identify that the display pattern that user is set shows for energy-conservation, then judge current display mould Formula shows for energy-conservation.

Step S120：When display pattern shows for energy-conservation, open the electrophoretic display panel and close the active matrix Organic Light Emitting Diode, when display pattern is normally shows, open the active matrix organic light-emitting diode and close institute State electrophoretic display panel.When display pattern shows for energy-conservation, start electrophoretic display panel 130 and close active matrix organic light-emitting two Pole pipe 110, i.e., now electrophoretic display panel 130 is connected with driving voltage V, single-pole double-throw switch (SPDT) K B ends closure, electrophoresis showed The work of screen 130；When display pattern is normally shows, open active matrix organic light-emitting diode 110 and close electrophoresis showed Screen 130, i.e., now active matrix organic light-emitting diode 110 is connected with driving voltage V, and single-pole double-throw switch (SPDT) K A ends are closed Close, active matrix organic light-emitting diode 110 works.

The display methods of above-mentioned double-display screen display device, can according to corresponding to selecting display content display pattern, when When display content is article, chat interface, navigation etc., the energy-conservation display pattern shown using electrophoretic display panel 130 can be selected, Energy-conservation so can be achieved；When display content is that game picture etc. requires higher content to picture, use can be selected to have The normal displaying mode that source matrix Organic Light Emitting Diode 110 is shown.It can be seen that the display methods of the double-display screen display device can Change display mode in good time to reduce power consumption.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope that this specification is recorded all is considered to be.

Embodiment described above only expresses the several embodiments of the present invention, and its description is more specific and detailed, but simultaneously Can not therefore it be construed as limiting the scope of the patent.It should be pointed out that come for one of ordinary skill in the art Say, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention Scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of double-display screen display device, it is characterised in that including being sequentially overlapped the electrophoretic display panel of setting, polaroid and having Source matrix Organic Light Emitting Diode, the active matrix organic light-emitting diode include the cathode layer, organic for being sequentially overlapped setting Luminescent layer and anode layer；The electrophoretic display panel include first substrate, with the first substrate relative configuration second substrate and Electrophoresis layer, the electrophoresis layer are configured at viewing area, the viewing area between the first substrate and the second substrate Setting corresponding with the organic luminous layer.

2. double-display screen display device according to claim 1, it is characterised in that the organic luminous layer includes some pictures Plain unit, each pixel cell include three sub-pixels, and the anode layer includes the anode of multiple spaced settings, its In each anode it is corresponding with a sub-pixel of a pixel cell.

3. double-display screen display device according to claim 1, it is characterised in that the organic luminous layer includes some pictures Plain unit, each pixel cell include three sub-pixels, included respectively on the first substrate and the second substrate more Individual spaced transparent positive electrode arranged in a crossed manner and transparent negative electrode, each transparent positive electrode or transparent negative electrode are right Ying Yuyi sub-pixel.

4. double-display screen display device according to claim 3, it is characterised in that the electrophoresis layer includes being placed in same base The electrophoretic particle between transparent positive electrode and transparent negative electrode on plate, after the double-display screen display device is powered, the electricity Swimming particulate is placed between the transparent positive electrode on two substrates and transparent negative electrode.

5. double-display screen display device according to claim 4, it is characterised in that the electrophoretic particle includes white particles And black particle, the white particles are positively or negatively charged, and the black particle is negatively charged or positive charge, the white Particulate and the electrically charged difference of black particle institute.

6. double-display screen display device according to claim 1, it is characterised in that the double-display screen display device is also wrapped Driving voltage is included, the active matrix organic light-emitting diode and electrophoretic display panel are connected with driving voltage, and the same time has Source matrix Organic Light Emitting Diode only has the work that is connected with the driving voltage with electrophoretic display panel.

7. double-display screen display device according to claim 1, it is characterised in that the pole of active matrix organic light-emitting two Pipe is that same direction is shown with the electrophoretic display panel, when active matrix organic light-emitting diode work, the electrophoresis show When display screen does not work, the electrophoretic display panel does not influence the active matrix organic light-emitting diode work；When the electrophoresis shows When display screen work, active matrix organic light-emitting diode do not work, the active matrix organic light-emitting diode does not influence described Electrophoretic display panel works.

8. double-display screen display device according to claim 1, it is characterised in that the electrophoretic display panel corresponds to described The part of the light-emitting zone of active matrix organic light-emitting diode is arranged to transparent, corresponding to the active matrix organic light-emitting two The part of the non-luminous region of pole pipe is arranged to nontransparent.

9. a kind of display methods of double-display screen display device, it is characterised in that the double-display screen display device will for right The double-display screen display device any one of 1~8 is sought, the display methods of the double-display screen display device includes following step Suddenly：

Judge display pattern for energy-conservation display or normal display；

When display pattern shows for energy-conservation, open the electrophoretic display panel and close the pole of active matrix organic light-emitting two Pipe, when display pattern is normally shows, open the active matrix organic light-emitting diode and close the electrophoretic display panel.

10. the display methods of double-display screen display device according to claim 9, it is characterised in that described to judge display Pattern is energy-conservation display or normal step display is：

The content shown according to the double-display screen display device, it is judged as energy-conservation display or normal display；Or

Display pattern according to set by user judges to be currently energy-conservation display or normal display as display pattern.