CN101980544B - Three-dimensional image display method and related display system - Google Patents
Three-dimensional image display method and related display system Download PDFInfo
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- CN101980544B CN101980544B CN201010537355A CN201010537355A CN101980544B CN 101980544 B CN101980544 B CN 101980544B CN 201010537355 A CN201010537355 A CN 201010537355A CN 201010537355 A CN201010537355 A CN 201010537355A CN 101980544 B CN101980544 B CN 101980544B
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Abstract
The invention provides a three-dimensional image display method and a related display system. The three-dimensional image display system alternately displays a left eye image frame and a right eye image frame which correspond to a specific image by using an active matrix/organic light emitting diode (AMOLED) display panel and makes the left eye image frame and the right eye image frame have different polarization directions respectively by using a liquid crystal polarization panel. In the process of rotating liquid crystal molecules of the liquid crystal polarization panel, corresponding organic light emitting diodes (OLED) on the AMOLED display panel can be closed row by row to make the OLED display a black frame to prevent the left eye image frame and the right eye image frame from interfering with each other, so that the display quality is improved.
Description
Technical field
The present invention relates to a kind of display packing and relevant display system of stereo-picture, particularly relate to a kind of display packing and relevant display system of improving the stereo-picture of picture interference.
Background technology
(three-dimensional (three-dimensional, 3D) stereo display technique can provide more lively stereo-picture, therefore becomes one of important directions of Display Technique development now for two-dimensional, 2D) plane Display Technique compared to conventional two-dimensional.In simple terms; The operation principle of 3D stereo-picture is left eye and the right eye that left-eye image picture and eye image picture is sent to the user respectively; Through the angle difference at right and left eyes visual angle, and make the received image of right and left eyes in user's brain, be superimposed as 3D stereo-picture with the depth of field and stereovision.
Common 3D stereo-picture imaging technique comprises automatic stereo and shows (autostereoscopicdisplay) system and hyperphoria with fixed eyeballs mirror stereo image display system.The automatic stereo display system is to utilize full image type (e-holographic) optical system, volume type (volumetric) optical system; Or technology such as many plane formulas (multi-planer) optical system directly presents stereo-picture, and the user need not use auxiliary Observating appts can experience stereo-picture.Yet automatic stereo shows that the 3D system price is expensive, and is limited in the performance of the depth of field and brightness, and the position that can watch along with the user of the display effect of stereo-picture and changing.
In hyperphoria with fixed eyeballs mirror stereo image display system; The user can pass through polaroid glasses (polarizingglasses), shutter stereo shows glasses (shutter glasses), or stereo display glasses Observating appts such as (anaglyphglasses) is experienced stereo-picture.The stereo display technique that I-MAX stereophonic cinema in vogue at present and three-dimensional arenas adopt polaroid glasses mostly; Its operation principle is to use the eyeglass of different polarization directions to come respectively as left eyeglass lens (for example horizontal polarization direction) and right eye eyeglass (for example vertical polarization direction); Make wherein a glance only can see the light of vertical polarization, and another only can see the light of horizontal polarization.Projector equipment then provides the left-eye image picture (for example horizontal polarization direction) and eye image picture (for example vertical polarization direction) that possesses different polarization directions.Therefore, user's left eye only can be seen corresponding left eye picture, and user's right eye only can be seen corresponding right eye picture.The left-eye image picture comprises same image content with the eye image picture but parallax is different, therefore can in user's brain, be superimposed as the 3D stereo-picture with the depth of field and stereovision.
Use active organic LED (the active-matrixorganic light-emitting diode of polaroid glasses in prior art; AMOLED) in the stereo image display system; Need a liquid crystal polarisation panel is being set on the AMOLED display floater: when the AMOLED display floater when showing left-eye image picture L, the liquid crystal molecule of liquid crystal polarisation panel can rotate to a special angle θ
LWhen display floater showed eye image picture R, the liquid crystal molecule of liquid crystal polarisation panel can rotate to another special angle θ
RThus, left-eye image picture L can possess different polarization directions with eye image picture R.
The scan mode that cooperates pixel on the AMOLED display floater, liquid crystal polarisation panel also change the anglec of rotation of its liquid crystal molecule with same scanning direction, its operation is as shown in Figure 1.Suppose at subgraph frame cycle F
1L, F
1R, F
2L, F
2R... need Alternation Display left-eye image picture L and eye image picture R, prior art can be when each subgraph frame cycle begins the anglec of rotation of its liquid crystal molecule of switchable liquid crystal polarisation panel.Under ideal state, when the pixel switching displayed right and left eyes picture of AMOLED display floater, liquid crystal polarisation panel can switch the anglec of rotation of its liquid crystal molecule immediately.Yet under practical situation, the rotation of liquid crystal molecule needs one section reaction time T
LC(representing) by Fig. 1 bend zone.With 120 hertz frequency of operation is example, subgraph frame cycle F
1L, F
1R, F
2L, F
2R... length be about 8.3 milliseconds.And liquid crystal polarisation panel also can be whenever at a distance from 8.3 milliseconds of anglecs of rotation of switching its liquid crystal molecules, but after switching, approximately need one section reaction time T
LC(being about 3 milliseconds) could forward predetermined angular fully to.In other words, at reaction time T
LCIn; The user can see single left-eye image picture or single eye image picture following of ideal state; And can see simultaneously that under practical situation left-eye image picture and eye image picture, this kind picture disturb (crosstalk) can significantly influence display quality.
Summary of the invention
For overcoming the defective of prior art, the present invention provides a kind of display packing of stereo-picture, and its picture frame cycle that comprises a specific image picture is divided into one first continuous subgraph frame cycle and one second subgraph frame cycle; Produce corresponding one first subimage picture and one second subimage picture according to this specific image picture; At this first subgraph frame this first subimage picture was provided in the cycle, and this second subimage picture is provided in the cycle at this second subgraph frame; When this first subgraph frame cycle begins, by one second angular transition to, first angle, and then make this first subimage picture possess one first polarization direction the liquid crystal molecule of one liquid crystal polarisation panel; This first subgraph frame in the cycle during the liquid crystal molecule of this liquid crystal polarisation panel is by this second angular transition to this first angle, close on the display floater Organic Light Emitting Diode in the pel array to show a black picture; And this first subgraph frame in the cycle after the liquid crystal molecule of this liquid crystal polarisation panel is converted to this first angle fully, open in regular turn each the row Organic Light Emitting Diode to show this first subimage picture.
The present invention also provides a kind of stereo image display system; It comprises an image processor; Be used for the picture frame cycle of a specific image picture is divided into one first continuous subgraph frame cycle and one second subgraph frame cycle, and produce corresponding one first subimage picture and one second subimage picture according to this specific image picture; One display floater which is provided with a pel array that comprises the multirow Organic Light Emitting Diode; One drive circuit; Be used for corresponding Organic Light Emitting Diode in this first subimage picture to this pel array being provided in the cycle, and corresponding Organic Light Emitting Diode in this second subimage picture to this pel array be provided in the cycle at this second subgraph frame at this first subgraph frame; One liquid crystal polarisation panel; Be arranged at a side of this display floater; Be used for changing the polarization direction of an image frame through the angle of rotating its liquid crystal molecule; Make when wherein the liquid crystal molecule of this liquid crystal polarisation panel presents one first angle this first subimage picture through after have one first polarization direction, and make when presenting one second angle this second subimage picture through after have one second polarization direction; An and controller; Be used for when this first subgraph frame cycle begins, controlling this liquid crystal polarisation panel make its liquid crystal molecule by this second angular transition to this first angle; When this second subgraph frame cycle begins, control this liquid crystal polarisation panel make its liquid crystal molecule by this first angular transition to this second angle; And during the liquid crystal molecule of this liquid crystal polarisation panel is by this first angular transition to this second angle or during by this second angular transition to this first angle, the Organic Light Emitting Diode of closing this pel array is to show a black picture.
The situation that the present invention can avoid the right and left eyes image frame to interfere with each other, and then improve display quality.
Description of drawings
Sketch map when Fig. 1 is the operation of prior art polaroid glasses 3D three-dimensional display system.
Fig. 2 is the sketch map of a stereo image display system among the present invention.
Fig. 3 is the functional-block diagram of a display module in the stereo image display system of the present invention.
Sketch map when Fig. 4 is stereo image display system of the present invention operation.
Fig. 5 A~Fig. 5 D is the sketch map of each embodiment of active pixel cell in the stereo image display system of the present invention.
Sketch map when Fig. 6 is the operation of various embodiments of the present invention neutral body image display system.
[main description of reference numerals]
110 display module DL, DL
1~DL
mData wire
120 image processor GL, GL
1~GL
nGate line
130 time schedule controller VT1, VT2 variable voltage
140 source electrode drive circuit VDD, VSS direct current are decided voltage
150 gate driver circuit PX active pixel cells
160 control circuit SW switching circuits
200 liquid crystal polarisation panel OLED Organic Light Emitting Diodes
300AMOLED display floater C electric capacity
400 polaroid glasses TFT1~TFT3 thin film transistor switch
Embodiment
Fig. 2 has shown a display module 110 and polaroid glasses 400 for the sketch map of a stereo image display system 100 among the present invention.Display module 110 can be divided into the specific image picture that the picture frame time is shown and possesses different polarization direction left-eye image pictures and the eye image picture appears.The right and left eyes eyeglass of polaroid glasses 400 can let the light that possesses its specific polarization direction pass through; And stop the light of other nonspecific polarization direction; Therefore user's right and left eyes can be seen left-eye image picture and eye image picture respectively through polaroid glasses 400, and then produces stereoeffect.
Fig. 3 is the functional-block diagram of display module 110 in the stereo image display system 100 of the present invention.Display module 110 comprises an image processor 120, time schedule controller 130, one source pole drive circuit 140, a gate driver circuit 150, a control circuit 160, a liquid crystal polarisation panel 200, and an AMOLED display floater 300.AMOLED display floater 300 is provided with many data wire DL
1~DL
m, many gate lines G L
1~GL
n, and a picture element matrix.Picture element matrix comprises a plurality of active pixel cell PX, and each active pixel cell PX comprises a switching circuit SW and an Organic Light Emitting Diode OLED.
According to the signal that time schedule controller 130 is produced, source electrode drive circuit 140 can be exported source drive signal corresponding to display image according to this to data wire DL
1~DL
m, and gate driver circuit 150 can be exported gate drive signal according to this to open or to close gate lines G L
1~GL
nFor instance, as gate driver circuit 150 unlatching gate lines G L
1The time, the source drive signal that source electrode drive circuit 140 is provided can be allowed to be sent to the first row active pixel cell PX.
As shown in Figure 2, liquid crystal polarisation panel 200 is arranged at AMOLED display floater 300 and wears between the user of polaroid glasses 400, its role is to 300 picture displayed of polarization AMOLED display floater.In an embodiment of the present invention, the similar of liquid crystal polarisation panel 200 and AMOLED display floater 300 can be provided with corresponding scan line and data wire and make liquid crystal molecule produce turnover to receive control signal on it.For instance, when the liquid crystal molecule of liquid crystal polarisation panel 200 presents one first angle, image frame through after can have one first polarization direction; When the liquid crystal molecule of liquid crystal polarisation panel 200 presents one second angle, image frame through after can have one second polarization direction.
On the other hand; Because the liquid crystal reaction rate is slow than the reaction rate of Organic Light Emitting Diode OLED; Switch in the process of its liquid crystal molecule angles at liquid crystal polarisation panel 200, control circuit 160 of the present invention can cut out in the pel array corresponding Organic Light Emitting Diode OLED to show black picture; After the liquid crystal molecule of liquid crystal polarisation panel 200 was converted to predetermined angular fully, corresponding Organic Light Emitting Diode OLED was to show corresponding right and left eyes image frame in the control circuit 160 meeting on-pixel arrays of the present invention.Or rather, the present invention carries out black plug with (line-by-line) mode one by one, its in detail operation be described below.
Sketch map when Fig. 4 moves for stereo image display system 100 of the present invention.The present invention is at subgraph frame cycle F
1L, F
1R, F
2L, F
2R... left-eye image picture L and eye image picture R alternately are provided, and when each subgraph frame cycle begins the angle of its liquid crystal molecule of switchable liquid crystal polarisation panel.Liquid crystal molecule T during indexing when liquid crystal polarisation panel 200
LC(representing) by Fig. 4 bend zone; The source drive signal of source electrode drive circuit 140 outputs can be orderly sent to corresponding each row active pixel cell PX; But can close corresponding Organic Light Emitting Diode OLED in the pel array with time control circuit 160 of the present invention, therefore at liquid crystal reaction time T
LCInterior meeting shows picture black picture B.When the liquid crystal molecule of liquid crystal polarisation panel 200 is transformed into predetermined angular fully; Corresponding Organic Light Emitting Diode OLED in the control circuit 160 meeting on-pixel arrays of the present invention makes it can show corresponding left-eye image picture L and eye image picture R according to the source drive signal that source electrode drive circuit 140 is produced.As shown in Figure 4, the present invention can close corresponding Organic Light Emitting Diode OLED in the pel array line by line in the process of rotation liquid crystal molecule, the situation that therefore can avoid the right and left eyes image frame to interfere with each other with black plug mode one by one, and then improve display quality.
Fig. 5 A~Fig. 5 D is the sketch map of each embodiment of active pixel cell PX in the stereo image display system 100 of the present invention.In the embodiment shown in Fig. 5 A, switching circuit SW comprises thin film transistor switch TFT1, TFT2 and a capacitor C.The control end of thin film transistor switch TFT1 is coupled to corresponding gate line (being represented by GL), and first end is coupled to corresponding data wire (being represented by DL), and second end is coupled to first end of capacitor C.The control end of thin film transistor switch TFT2 is coupled to first end of capacitor C, and first end is coupled to a variable voltage VT1, and second end is coupled to second end of capacitor C.Organic Light Emitting Diode OLED is coupled to second end and a direct current of capacitor C to be decided between the voltage VSS.The voltage level of variable voltage VT1 is to be controlled by control circuit 160.
In the embodiment shown in Fig. 5 B, switching circuit SW comprises thin film transistor switch TFT1, TFT2 and a capacitor C.The control end of thin film transistor switch TFT1 is coupled to corresponding gate line (being represented by GL), and first end is coupled to corresponding data wire (being represented by DL), and second end is coupled to first end of capacitor C.The control end of thin film transistor switch TFT2 is coupled to first end of capacitor C, and first end is coupled to a direct current and decides voltage VDD, and second end is coupled to second end of capacitor C.Organic Light Emitting Diode OLED is coupled between second end and a variable voltage VT2 of capacitor C.The voltage level of variable voltage VT2 is controlled by control circuit 160.
In the embodiment shown in Fig. 5 C, switching circuit SW comprises a thin film transistor switch TFT1~TFT3 and a capacitor C.The control end of thin film transistor switch TFT1 is coupled to corresponding gate line (being represented by GL), and first end is coupled to corresponding data wire (being represented by DL), and second end is coupled to first end of capacitor C.The control end of thin film transistor switch TFT2 is coupled to first end of capacitor C, and first end is coupled to a direct current and decides voltage VDD, and second end is coupled to second end of capacitor C.Organic Light Emitting Diode OLED is coupled to second end and a direct current of capacitor C to be decided between the voltage VSS.Thin film transistor switch TFT3 is parallel to Organic Light Emitting Diode OLED, and its control end is coupled to control circuit 160 to receive a control signal SS.
In the embodiment shown in Fig. 5 D, switching circuit SW comprises a thin film transistor switch TFT1~TFT3 and a capacitor C.The control end of thin film transistor switch TFT1 is coupled to corresponding gate line (being represented by GL), and first end is coupled to corresponding data wire (being represented by DL), and second end is coupled to first end of capacitor C.The control end of thin film transistor switch TFT2 is coupled to first end of capacitor C, and first end is coupled to a direct current and decides voltage VDD, and second end is coupled to second end of capacitor C.Organic Light Emitting Diode OLED is coupled to second end and a direct current of capacitor C to be decided between the voltage VSS.Thin film transistor switch TFT3 is coupled to direct current to be decided between voltage VDD and the VSS, and its control end is coupled to control circuit 160 to receive a control signal SS.
Fig. 6 is the sketch map when stereo image display system 100 of the present invention moves among Fig. 5 A~Fig. 5 D embodiment.In Fig. 6, be example with the embodiment shown in Fig. 5 A, thin film transistor switch TFT1 is switched on when the subgraph frame cycle begins, and the source drive signal can charge to capacitor C, and then conducting membrane transistor switch TFT2.Liquid crystal molecule T during indexing when liquid crystal polarisation panel 200
LC, variable voltage VT1 is maintained electronegative potential VL with control circuit 160 so that value (VL-VSS) less than the conducting voltage of Organic Light Emitting Diode OLED, therefore can be closed Organic Light Emitting Diode OLED to show picture black picture B.When the liquid crystal molecule of liquid crystal polarisation panel 200 is converted to predetermined angular fully; Control circuit 160 switches to high potential VH to cut out thin film transistor switch TFT2 with variable voltage VT1, and this moment, Organic Light Emitting Diode OLED can and show corresponding left-eye image picture L or eye image picture R according to this by the source drive signal conduction.
In Fig. 6, be example with the embodiment shown in Fig. 5 B, thin film transistor switch TFT1 is switched on when the subgraph frame cycle begins, and the source drive signal can charge to capacitor C, and then conducting membrane transistor switch TFT2.Liquid crystal molecule T during indexing when liquid crystal polarisation panel 200
LC, variable voltage VT2 is maintained high potential VH with control circuit 160 so that value (VDD-VH) less than the conducting voltage of Organic Light Emitting Diode OLED, therefore can be closed Organic Light Emitting Diode OLED to show picture black picture B.When the liquid crystal molecule of liquid crystal polarisation panel 200 is converted to predetermined angular fully; Control circuit 160 switches to electronegative potential VL with variable voltage VT2 so that the difference of source drive signal and VL greater than the conducting voltage of Organic Light Emitting Diode OLED, therefore can be opened Organic Light Emitting Diode OLED and make it show corresponding left-eye image picture L or eye image picture R according to the source drive signal.
In Fig. 6, be example with the embodiment shown in Fig. 5 C, thin film transistor switch TFT1 is switched on when the subgraph frame cycle begins, and the source drive signal can charge to capacitor C, and then conducting membrane transistor switch TFT2.Liquid crystal molecule T during indexing when liquid crystal polarisation panel 200
LC Control circuit 160 meeting output devices enable the control signal SS of current potential (for example high potential VH); Anode and the negative electrode thin film transistor switch TFT3 that can be switched on of Organic Light Emitting Diode OLED was coupled to same current potential and was closed this moment, so can show picture black picture B.When the liquid crystal molecule of liquid crystal polarisation panel 200 is converted to predetermined angular fully; The control signal SS of control circuit 160 meeting output device decapacitation current potentials (for example electronegative potential VL) is to close thin film transistor switch TFT3, and this moment, Organic Light Emitting Diode OLED can show corresponding left-eye image picture L or eye image picture R according to the source drive signal.
In Fig. 6, be example with the embodiment shown in Fig. 5 D, thin film transistor switch TFT1 is switched on when the subgraph frame cycle begins, and the source drive signal can charge to capacitor C, and then conducting membrane transistor switch TFT2.Liquid crystal molecule T during indexing when liquid crystal polarisation panel 200
LC Control circuit 160 meeting output devices enable the control signal SS of current potential (for example high potential VH); The negative electrode thin film transistor switch TFT3 that can be switched on of Organic Light Emitting Diode OLED was coupled to and decided voltage VDD this moment; Wherein the difference of source drive signal and VDD is less than the conducting voltage of Organic Light Emitting Diode OLED, and then closes Organic Light Emitting Diode OLED to show picture black picture B.When the liquid crystal molecule of liquid crystal polarisation panel 200 is converted to predetermined angular fully; The control signal SS of control circuit 160 meeting output device decapacitation current potentials (for example electronegative potential VL) is to close thin film transistor switch TFT3, and this moment, Organic Light Emitting Diode OLED can show corresponding left-eye image picture L or eye image picture R according to the source drive signal.
Fig. 6 has shown the drive signal that is coupled to the active pixel cell PX of a specific gate polar curve on the AMOLED display floater 300, and the present invention can drive each row active pixel cell PX one by one with the same manner.The present invention can be divided into a plurality of blocks with liquid crystal polarisation panel 200, and each block corresponds to the (1≤N≤n) of N bar adjacent gate polar curve on the AMOLED display floater 300.If the last subgraph frame cycle shows the left-eye image picture; After having scanned AMOLED display floater 300 the last item gate lines; Can rotate on the liquid crystal polarisation panel 200 anglec of rotation of liquid crystal molecule in each block in regular turn in the next son picture frame cycle; And control circuit 160 can switch the current potential of variable voltage VT1, variable voltage VT2 or control signal SS behind the intact N bar gate line of every scanning; Forced closing Organic Light Emitting Diode OLED to be showing black picture in the liquid crystal molecule rotary course, and then the situation of avoiding the right and left eyes image frame to interfere with each other.
In an embodiment of the present invention; Liquid crystal polarisation panel 200 and AMOLED display floater 300 can be had an identical resolution; That is comprise the data wire and the gate line (N=1) of similar number and set-up mode, so control circuit 160 can just switch the current potential of variable voltage VT1, variable voltage VT2 or control signal SS behind each bar gate line of scanning.In another embodiment of the present invention; The resolution of liquid crystal polarisation panel 200 can be less than the resolution of AMOLED display floater 300; That is liquid crystal polarisation panel 200 comprises less gate line (2≤N≤n) and corresponding data wire, so control circuit 160 can just can switch the current potential of variable voltage VT1, variable voltage VT2 or control signal SS behind many gate lines of scanning.On the other hand, liquid crystal polarisation panel 200 of the present invention also can only be provided with gate line, and behind the gate line of scanning given number, switch variable voltage VT1, the current potential of variable voltage VT2 or control signal SS.Previous embodiment is only explained the mode of rotation liquid crystal polarisation panel 200 its liquid crystal molecule anglecs of rotation, does not limit category of the present invention.
Stereo image display system of the present invention utilizes the AMOLED display floater to come alternately to present left-eye image picture and the eye image picture corresponding to specific image, and utilizes liquid crystal polarisation panel to make the left-eye image picture have different polarization directions respectively with the eye image picture.The present invention can close on the AMOLED display floater corresponding Organic Light Emitting Diode OLED line by line in the process of the liquid crystal molecule of rotation liquid crystal polarisation panel makes it show black picture with mode one by one; Therefore the situation that can avoid the right and left eyes image frame to interfere with each other, and then improve display quality.
The above is merely preferred embodiment of the present invention, and all equalizations of doing according to claim of the present invention change and modify, and all should belong to covering scope of the present invention.
Claims (14)
1. the display packing of a stereo-picture, it comprises:
The picture frame cycle of one specific image picture is divided into one first continuous subgraph frame cycle and one second subgraph frame cycle;
Produce corresponding one first subimage picture and one second subimage picture according to this specific image picture;
At this first subgraph frame this first subimage picture was provided in the cycle, and this second subimage picture is provided in the cycle at this second subgraph frame;
When this first subgraph frame cycle begins, by one second angular transition to, first angle, and then make this first subimage picture possess one first polarization direction the liquid crystal molecule of one liquid crystal polarisation panel;
This first subgraph frame in the cycle during the liquid crystal molecule of this liquid crystal polarisation panel is by this second angular transition to this first angle, close on the display floater Organic Light Emitting Diode in the pel array to show a black picture; And
This first subgraph frame in the cycle after the liquid crystal molecule of this liquid crystal polarisation panel is converted to this first angle fully, open in regular turn each the row Organic Light Emitting Diode to show this first subimage picture;
When this second subgraph frame cycle begins, with the liquid crystal molecule of this liquid crystal polarisation panel by this first angular transition to this second angle, and then make this second subimage picture possess one second polarization direction;
This second subgraph frame in the cycle during the liquid crystal molecule of this liquid crystal polarisation panel is by this first angular transition to this second angle, close on this display floater the Organic Light Emitting Diode in the pel array to show a black picture; And
This second subgraph frame in the cycle after the liquid crystal molecule of this liquid crystal polarisation panel is converted to this second angle fully, open in regular turn each the row Organic Light Emitting Diode to show this second subimage picture.
2. display packing according to claim 1, it also comprises:
Divide this liquid crystal plane of polarisation plate gauge into a plurality of blocks;
When this first subgraph frame cycle begins, with the liquid crystal molecule in the particular block on this liquid crystal polarisation panel by this second angular transition to this first angle; And
This first subgraph frame in the cycle on this liquid crystal polarisation panel the liquid crystal molecule of this particular block by this second angular transition to this first angle during, close the Organic Light Emitting Diode that corresponds to this particular block on this display floater.
3. display packing according to claim 2; Wherein each block corresponds to the multirow Organic Light Emitting Diode in the pel array on this display floater on this liquid crystal polarisation panel, or corresponds to the row of each in pel array Organic Light Emitting Diode on this display floater respectively.
4. display packing according to claim 1, it also comprises:
This second subgraph frame in the cycle during the liquid crystal molecule of this liquid crystal polarisation panel is by this first angular transition to this second angle, close individually in regular turn with mode one by one that each row Organic Light Emitting Diode should black picture to show in the pel array on this display floater.
5. display packing according to claim 1, it also comprises:
Divide this liquid crystal plane of polarisation plate gauge into a plurality of blocks;
When this second subgraph frame cycle begins, with the liquid crystal molecule in the particular block on this liquid crystal polarisation panel by this first angular transition to this second angle; And
This second subgraph frame in the cycle on this liquid crystal polarisation panel the liquid crystal molecule of this particular block by this first angular transition to this second angle during, close the Organic Light Emitting Diode that corresponds to this particular block on this display floater.
6. display packing according to claim 4; Wherein each block corresponds to the multirow Organic Light Emitting Diode in the pel array on this display floater on this liquid crystal polarisation panel, or corresponds to the row of each in pel array Organic Light Emitting Diode on this display floater respectively.
7. display packing according to claim 1, it also comprises:
This first subimage picture that will have this first polarization direction in the cycle at this first subgraph frame is sent to one first an of user; And
This second sprite that will have this second polarization direction in the cycle at this second subgraph frame is sent to one second of this user.
8. display packing according to claim 7, it also comprises:
Stop that non-image frame with this first polarization direction is sent to this first of this user; And
Stop that non-image frame with this second polarization direction is sent to this second of this user.
9. display packing according to claim 1, wherein this first subgraph frame cycle is identical with this second subgraph frame Cycle Length.
10. display packing according to claim 1, it also comprises:
This first subgraph frame in the cycle during the liquid crystal molecule of this liquid crystal polarisation panel is by this second angular transition to this first angle, close individually in regular turn with mode one by one that each row Organic Light Emitting Diode should black picture to show in the pel array on this display floater.
11. a stereo image display system, it comprises:
One image processor is used for the picture frame cycle of a specific image picture is divided into one first continuous subgraph frame cycle and one second subgraph frame cycle, and produces corresponding one first subimage picture and one second subimage picture according to this specific image picture;
One display floater which is provided with a pel array that comprises the multirow Organic Light Emitting Diode;
One drive circuit; Be used for corresponding Organic Light Emitting Diode in this first subimage picture to this pel array being provided in the cycle, and corresponding Organic Light Emitting Diode in this second subimage picture to this pel array be provided in the cycle at this second subgraph frame at this first subgraph frame;
One liquid crystal polarisation panel; Be arranged at a side of this display floater; Be used for changing the polarization direction of an image frame through the angle of rotating its liquid crystal molecule; Make when wherein the liquid crystal molecule of this liquid crystal polarisation panel presents one first angle this first subimage picture through after have one first polarization direction, and make when presenting one second angle this second subimage picture through after have one second polarization direction; And
One controller; Be used for when this first subgraph frame cycle begins, controlling this liquid crystal polarisation panel make its liquid crystal molecule by this second angular transition to this first angle; When this second subgraph frame cycle begins, control this liquid crystal polarisation panel make its liquid crystal molecule by this first angular transition to this second angle; And during the liquid crystal molecule of this liquid crystal polarisation panel is by this first angular transition to this second angle or during by this second angular transition to this first angle, the Organic Light Emitting Diode of closing this pel array is to show a black picture.
12. stereo image display system according to claim 11, wherein this controller also is used for:
This first subgraph frame in the cycle after the liquid crystal molecule of this liquid crystal polarisation panel is converted to this first angle fully, open in regular turn this pel array each the row Organic Light Emitting Diode to show this first subimage picture; And
This second subgraph frame in the cycle after the liquid crystal molecule of this liquid crystal polarisation panel is converted to this second angle fully, open in regular turn this pel array each the row Organic Light Emitting Diode to show this second subimage picture.
13. stereo image display system according to claim 11, it also comprises an Observating appts, and this Observating appts comprises:
One first eyeglass is used for this first subimage picture with this first polarization direction is sent to one first of a user, and is used for stopping non-image frame with this first polarization direction; And
One second eyeglass is used for this second subimage picture with this second polarization direction is sent to one second of this user, and is used for stopping non-image frame with this second polarization direction.
14. stereo image display system according to claim 11; Wherein this controller also be used for liquid crystal molecule at this liquid crystal polarisation panel by this first angular transition to this second angle during or by this second angular transition to this first angle during, each row Organic Light Emitting Diode of closing this pel array with mode one by one in order individually should black picture to show.
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KR101910114B1 (en) * | 2012-02-10 | 2018-10-22 | 삼성디스플레이 주식회사 | Display device and arranging method for image data thereof |
TWI454991B (en) * | 2012-02-24 | 2014-10-01 | Wistron Corp | Electronic device |
CN102708835A (en) * | 2012-07-03 | 2012-10-03 | 青岛海信电器股份有限公司 | Drive method of liquid crystal display screen and liquid crystal display |
CN103051914A (en) * | 2013-01-06 | 2013-04-17 | 青岛海信电器股份有限公司 | 3D (three-dimensional) image display method, 3D image display device and television |
CN104009187A (en) * | 2014-05-29 | 2014-08-27 | 四川虹视显示技术有限公司 | Multicolor organic light emitting diode lighting (OLED) device |
CN108780297B (en) * | 2015-12-28 | 2021-09-21 | 视瑞尔技术公司 | Display apparatus and method for optimizing image quality |
CN106293337A (en) * | 2016-08-01 | 2017-01-04 | 乐视控股(北京)有限公司 | A kind of Virtual Reality equipment and data display method thereof |
CN106993180A (en) * | 2017-03-29 | 2017-07-28 | 京东方科技集团股份有限公司 | Shutter type three-dimensional image display methods and device |
CN106935202B (en) | 2017-05-19 | 2019-01-18 | 京东方科技集团股份有限公司 | Pixel circuit and its driving method, display device |
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