CN105096898A - Display panel and driving method thereof and display device - Google Patents

Abstract

The embodiment of the invention provides a display panel and a driving method thereof and a display device, relates to the technical field of display, and can solve problems in the prior art that reduction of driving power consumption is unobvious and screen flashing occurs when static frames and dynamic frames are driven by different frequencies. The display panel comprises grid lines, data lines, pixel units, additional signal lines, a driving source and pixel driving circuits. Whether all the pixels units are dynamic pixels or static pixels is confirmed by the driving source before displaying of one frame. The static pixels include first static pixels and second static pixels. The first static pixels are driven by first frequency, the dynamic pixels are driven by second frequency, and the second static pixels are driven by third frequency. The pixel driving circuits start and charge the pixel units. A preset distance is reserved between the dynamic pixels and the first static pixels. The third frequency is greater than the first frequency and less than the second frequency.

Description

A kind of display panel and driving method, display device

Technical field

The present invention relates to display technique field, particularly relate to a kind of display panel and driving method, display device.

Background technology

TFT-LCD (ThinFilmTransistorLiquidCrystalDisplay, thin film transistor-liquid crystal display) as a kind of panel display apparatus, because it has the features such as little, low in energy consumption, the radiationless and cost of manufacture of volume is relatively low, and be applied to more and more in the middle of high-performance display field.

The array base palte of TFT-LCD comprises many grid lines and data line that are intersected by transverse and longitudinal, and define multiple pixel cell arranged in matrix form by grid line and data line intersection.In the process of a frame picture display, the drive singal of certain frequency such as 60HZ generally can be adopted to line by line scan from top to bottom to grid line, above-mentioned pixel cell is opened line by line.In the case, data line can charge to the pixel cell opened, thus controls the deflection of liquid crystal molecule generation different angles, to realize picture display.

In order to improve the performance of above-mentioned TFT, oxide semiconductor material in prior art, is adopted to form the semiconductor active layer of above-mentioned TFT, to reduce the leakage current of TFT.In the case, due to the reduction of TFT leakage current, the ability of electric charge is kept to get a promotion by the pixel cell charged.So, even if reduce the sweep frequency of grid line, namely reduce the charge frequency of pixel cell, liquid crystal molecule can also keep its original deflection angle within a certain period of time.On this basis, because the deflection angle of liquid crystal molecule in tableaux (all pixels of display screen are static pixels) former frame picture can be identical with the deflection angle of liquid crystal molecule in this frame picture.Therefore in order to reduce driving power consumption, can, when display device shows tableaux, adopt lower frequency to drive, and dynamic menu adopt normal frequency drives.

But in actual displayed process, the demand continuing display tableaux is less, therefore reduce the effect of power consumption and not obvious.In addition, can there is screen and dodge in a frame tableaux and a frame dynamic menu (in display screen, also not all pixel is static pixels), thus reduce display effect in instantaneous handoff procedure.

Summary of the invention

Embodiments of the invention provide a kind of display panel and driving method, display device, can solve in prior art adopt different frequency drive tableaux and dynamic menu time, driving power consumption reduce not obvious, and occur shield dodge problem.

The one side of the embodiment of the present invention, the grid line providing a kind of display panel to comprise transverse and longitudinal intersection and data line, and intersect by described grid line and described data line the multiple pixel cells defined, also comprise many additional signal lines, drive source and be arranged in the pixel-driving circuit of each described pixel cell, described drive source connects described grid line and described additional signal lines, for before a frame picture display, determine that each pixel cell is dynamic pixel or static pixels, described static pixels comprises the first static pixels and the second static pixels, and drive the pixel-driving circuit of described first static pixels by described additional signal lines and/or described grid line with first frequency, all driven the pixel-driving circuit of described dynamic pixel with second frequency by described additional signal lines and described grid line, and by described additional signal lines and/or described grid line with the pixel-driving circuit of the second static pixels described in the 3rd frequency drives, described pixel-driving circuit is connected with described data line, described grid line and described additional signal lines, and connects different additional signal lines respectively from each pixel-driving circuit that same grid line connects, for opening under the driving of described grid line and described additional signal lines, and by described data line, described pixel cell is charged, wherein, have a predeterminable range between described dynamic pixel and the first static pixels, described second static pixels is between described first static pixels and described dynamic pixel, described 3rd frequency is greater than described first frequency, is less than described second frequency.

Preferably, when there is at least two the second static pixels between described first static pixels and described dynamic pixel, inputting to the second static pixels successively away from described dynamic pixel, successively decreasing successively for driving the signal frequency of this second static pixels driving circuit.

Preferably, described pixel cell comprises pixel electrode; Described pixel-driving circuit comprises: the first transistor and transistor seconds; First pole of described the first transistor connects described grid line, and grid connects described additional signal lines, and the second pole is connected with the grid of described transistor seconds; First pole of described transistor seconds connects described data line, and the second pole is connected with described pixel electrode.

Preferably, described driver comprises the first demoder, the second demoder and clock controller; Described clock controller is connected with described second demoder with described first demoder, for before a frame picture display, determines that each pixel cell is dynamic pixel or static pixels in Preset Time; And the horizontal address information of described pixel cell and longitudinal address information are sent to described first demoder and described second demoder respectively; Described first demoder also connects described grid line, for resolving described horizontal address information, make described clock controller by the grid line with described horizontal address information match, the pixel-driving circuit be connected with this grid line with described first frequency, described second frequency or described 3rd frequency drives; Described second demoder also connects described additional signal lines, for resolving described longitudinal address information, make described clock controller by the described additional signal lines with longitudinal address information match, the pixel-driving circuit be connected with this additional signal lines with described first frequency, described second frequency or described 3rd frequency drives.

Preferred further, described drive source also comprises source electrode driver, described source electrode driver connects described clock controller and described data line, for providing the data-signal with described display data match according to display data to described data line under the control of described clock controller.

Preferably, be provided with a described additional signal lines between adjacent two data lines, described additional signal lines is parallel with described data line.

The another aspect of the embodiment of the present invention, provides a kind of display device, comprises any one display panel as above.

It is a kind of for driving the method for above-mentioned display panel that the embodiment of the present invention provides, before being included in a frame picture display, determine that each pixel cell is dynamic pixel or static pixels in Preset Time, described static pixels comprises the first static pixels and the second static pixels, have a predeterminable range between described dynamic pixel and the first static pixels, described second static pixels is between described first static pixels and described dynamic pixel; The pixel-driving circuit of described first static pixels is driven with first frequency by described additional signal lines and/or described grid line; The pixel-driving circuit of described dynamic pixel is driven with second frequency by described additional signal lines and described grid line; By described additional signal lines and/or described grid line with the pixel-driving circuit of the second static pixels described in the 3rd frequency drives; Pixel-driving circuit is opened, and data line input data line signal, charges to described pixel cell; Wherein, described 3rd frequency is greater than described first frequency, is less than described second frequency.

Preferably, described before a frame picture display, according to display data pixel cell is divided into static pixels and dynamic pixel comprises: before a frame picture display, the pixel cell that the multiplicity that i frame shows data before is continuously more than or equal to j is static pixels, otherwise is dynamic pixel; 1 < j≤i, i, j are positive integer.

Preferably, when being described first static pixels in one-row pixels unit, described method comprises: the pixel-driving circuit being driven all pixel cells of this row by the grid line that is connected with this row pixel cell with described first frequency; Driven the pixel-driving circuit of all pixel cells of this row with first frequency or second frequency by described additional signal lines.

Preferably, be described dynamic pixel when there being at least one in one-row pixels unit, when all the other are described first static pixels, described method comprises: the pixel-driving circuit being driven all pixel cells of this row by the grid line that is connected with this row pixel cell with described second frequency; Driven the pixel-driving circuit of dynamic pixel in this row pixel cell by described additional signal lines with described second frequency, and drive the pixel-driving circuit of the first static pixels described in this row pixel cell with described first frequency.

Preferably, when being described second static pixels in one-row pixels unit, described method comprises: by the grid line that is connected with this row pixel cell with the pixel-driving circuit of all pixel cells of described 3rd this row of frequency drives; Driven the pixel-driving circuit of all pixel cells of this row with first frequency or second frequency by described additional signal lines.

Preferably, be described dynamic pixel when there being at least one in one-row pixels unit, when all the other are described second static pixels, described method comprises: the pixel-driving circuit being driven all pixel cells of this row by the grid line that is connected with this row pixel cell with described second frequency; Driven the pixel-driving circuit of dynamic pixel in this row pixel cell with described second frequency by described additional signal lines, and with the pixel-driving circuit of the second static pixels described in described this row pixel cell of 3rd frequency drives.

Preferably, described first frequency is more than or equal to 1HZ, is less than or equal to 60HZ, and described second frequency is greater than 60HZ, is less than or equal to 120HZ.

The embodiment of the present invention provides a kind of display panel and driving method, display device, and described display panel comprises the grid line and data line that transverse and longitudinal intersects, and intersects by described grid line and described data line the multiple pixel cells defined.Also comprise many additional signal lines, drive source and be arranged in the pixel-driving circuit of each described pixel cell, described drive source connects described grid line and described additional signal lines, for before a frame picture display, determine that each pixel cell is dynamic pixel or static pixels, described static pixels comprises the first static pixels and the second static pixels, and drive the pixel-driving circuit of described first static pixels by described additional signal lines and/or described grid line with first frequency, all driven the pixel-driving circuit of described dynamic pixel with second frequency by described additional signal lines and described grid line, and by described additional signal lines and/or described grid line with the pixel-driving circuit of the second static pixels described in the 3rd frequency drives, described pixel-driving circuit is connected with described data line, described grid line and described additional signal lines, and connects different additional signal lines respectively from each pixel-driving circuit that same grid line connects, for opening under the driving of described grid line and described additional signal lines, and by described data line, described pixel cell is charged, wherein, have a predeterminable range between described dynamic pixel and the first static pixels, described second static pixels is between described first static pixels and described dynamic pixel, described 3rd frequency is greater than described first frequency, is less than described second frequency.

Due in actual displayed process, the display data of the one part of pixel unit on display panel all can change at each frame, and the display data of another part pixel cell all can remain unchanged in continuous multiple frames.Therefore a frame pixel cell according to the display data situation of change that (comprise at least two frames) in the given time, can be divided into static pixels and dynamic pixel by drive source.Wherein its display data of static pixels can repeat in the given time, and dynamic pixel changes in the given time.Described static pixels comprises the first static pixels and the second static pixels, and the second static pixels is between the first static pixels and dynamic pixel.

On this basis, for the first static pixels, drive source drives the pixel-driving circuit of described first static pixels by additional signal lines and/or grid line with first frequency; For dynamic pixel, additional signal lines and grid line all drive the pixel-driving circuit of dynamic pixel with second frequency; For the second static pixels, additional signal lines and/or grid line are with the pixel-driving circuit of the 3rd frequency drives second static pixels.Because the 3rd frequency is greater than first frequency, be less than second frequency, so, can make the charging of the second static pixels between dynamic pixel and the first static pixels.But can not change due to the first static pixels display Data duplication in the given time, therefore as the TFT adopting leakage current less in pixel cell, even if the charging times of pixel cell reduces, still can ensure that the electric charge be filled with in pixel cell has stronger hold facility, thus the picture that the first static pixels is shown within the above-mentioned schedule time can not be affected.And for dynamic pixel, because the display data of this pixel cell all can change at each frame, so can by the higher signal of the pixel-driving circuit incoming frequency of grid line and this pixel cell of additional signal alignment, improve the charging times of pixel cell, make the data voltage of constantly change can input to above-mentioned pixel cell in time by data line.And for the second static pixels between the first static pixels and dynamic pixel, on the one hand, it is still static pixels, although so frequency can reduce the charging times of the second static pixels lower than the signal of second frequency, can not have influence on its display effect.On the other hand, drive the frequency of the 3rd frequency signal of the second static pixels between first frequency and second frequency, so the charging times of the second static pixels is more than the first static pixels, display effect is also good compared with the first static pixels, thus can reduce the display difference between the first static pixels and dynamic pixel.

In sum, on the one hand, due to by the lower signal of the pixel-driving circuit incoming frequency of grid line and/or additional signal alignment first static pixels and the second static pixels, thus the power consumption of display driver can be reduced.Further, in actual displayed process, each frame picture all comprises static pixels and dynamic pixel, therefore can reduce the power consumption of display driver at each frame, so the effect reducing power consumption is in terms of existing technologies more effective.On the other hand, display panel provided by the invention all can drive dynamic pixel and static pixels to show at each frame, therefore do not deposit a frame dynamic menu and the instantaneous switching of a frame tableaux when showing, thus the screen flicker because tableaux and the instantaneous switching of dynamic menu cause can be avoided.Another aspect, drive the frequency of the 3rd frequency signal of the second static pixels between first frequency and second frequency, so the charging times of the second static pixels is more than the first static pixels, keep coming in and going out in pixel electrode the ability of electric charge and display effect also good compared with the first static pixels, thus the display difference that can reduce between the first static pixels and dynamic pixel, make the display effect of whole display panel more evenly good.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, 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.

The structural representation of a kind of display panel that Fig. 1 provides for the embodiment of the present invention;

Fig. 2 is provided with the structural representation after the first demoder, the second demoder, clock controller and source electrode driver for the display panel shown in Fig. 1;

Fig. 3 is the signal schematic representation for driving static region on the display panel shown in Fig. 1 or Fig. 2, dynamic area and transitional region;

Fig. 4 is the distribution schematic diagram of the first static pixels, the second static pixels and dynamic pixel on the display panel shown in Fig. 1 or Fig. 2;

Fig. 5 is the first static region when the display panel shown in Fig. 1 or Fig. 2 shows a frame picture, the schematic diagram of the second static region and dynamic area;

Fig. 6 a-Fig. 6 d is respectively the drive singal schematic diagram driving display unit A, B, C, D in Fig. 2;

The driving method process flow diagram of a kind of display panel that Fig. 7 provides for the embodiment of the present invention.

Reference numeral:

01-static pixels; 02-dynamic pixel; 03-transitional region; 10-grid line; 11-data line; 12-additional signal lines; 20-pixel cell; 201-pixel-driving circuit; 202-pixel electrode; 30-first demoder; 40-second demoder; 50-clock controller; 60-source electrode driver; 101-first static pixels; 102,102 '-the second static pixels; G1-dynamic area; G2, G2 '-the second static region; G3-first static region.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

A kind of display panel that the embodiment of the present invention provides, as shown in Figure 1, comprises grid line 10 and data line 11 that transverse and longitudinal intersects, and intersects by grid line 10 and data line 11 the multiple pixel cells 20 defined.Also comprise many additional signal lines 12, drive source and be arranged in the pixel-driving circuit 201 of each pixel cell 20.

In addition, drive source 100 connects grid line 10 and additional signal lines 12, for before a frame picture display, determines that each pixel cell 20 is static pixels 01 or dynamic pixel 02 in Preset Time P.As shown in Figure 1, static pixels 01 comprises the first static pixels 101 and the second static pixels 102.Drive source 100 drives the pixel-driving circuit 202 of the first static pixels 101 by attached signal wire 12 and/or grid line 10 with first frequency F1, all driven the pixel-driving circuit 202 of dynamic pixel 02 by additional signal lines 12 and grid line 10 with second frequency F2, and drive the pixel-driving circuit 201 of the second static pixels 102 by additional signal lines 12 and/or grid line 10 with the 3rd frequency F3.

Pixel-driving circuit 201 is connected with data line 11, grid line 10 and additional signal lines 12, and connects different additional signal lines 12 respectively from each pixel-driving circuit 201 that same grid line 10 connects; For opening under the driving of grid line 10 and additional signal lines 12, and charged by data line 11 pairs of pixel cells 201.

Wherein, have a predeterminable range H between dynamic pixel 02 and the first static pixels 101 as shown in Figure 1, the second static pixels 102 is between the first static pixels 102 and dynamic pixel 02.

As shown in Figure 3, the 3rd frequency F3 is greater than first frequency F1, is less than second frequency F2.

It should be noted that, first, above-mentioned " many additional signal lines 12 " can refer at least one, and this above-mentioned additional signal lines 12 between adjacent two data lines 11, and can parallel with data line 11.

The second, above-mentioned Preset Time P comprises at least two frames.

Three, the division of static pixels 01 and dynamic pixel 02 can be, the pixel cell 20 that the multiplicity of i frame display data is more than or equal to j before is continuously called static pixels 01, and the pixel cell 20 that multiplicity i frame before continuously being shown data is less than j is called dynamic pixel 02.Wherein 1 < j≤i, i, j are positive integer.

Four, above-mentioned predeterminable range H is more than or equal to the width of at least one pixel cell.

Five, as shown in Figure 1, when there is at least two the second static pixels 102 between the first static pixels 101 and dynamic pixel 02, inputting to the second static pixels 102 successively away from dynamic pixel 02, successively decreasing successively for driving the signal frequency of this second static pixels 102 pixel-driving circuit 201.Namely as shown in Figure 1, second static pixels 102 ', the second static pixels 102, successively away from dynamic pixel 02, so drive the signal of the pixel-driving circuit 201 of the second static pixels 102 ', drive the signal frequency of the pixel-driving circuit 201 of the second static pixels 102 to successively decrease successively.Make the signal frequency of the pixel-driving circuit 201 of driving second static pixels 102 ' and drive the second frequency F2 of dynamic pixel 02 close, make pixel-driving circuit 201 signal frequency of driving second static pixels 102 and drive the first frequency F1 of the first static pixels 101 close.Thus by the display difference of multiple second static pixels 102 gradually between homogenising dynamic pixel 02 and the first static pixels 101.

The display panel that the embodiment of the present invention provides, comprises grid line and data line that transverse and longitudinal intersects, and intersects by described grid line and described data line the multiple pixel cells defined.Also comprise many additional signal lines, drive source and be arranged in the pixel-driving circuit of each described pixel cell, described drive source connects described grid line and described additional signal lines, for before a frame picture display, determine that each pixel cell is dynamic pixel or static pixels, described static pixels comprises the first static pixels and the second static pixels, and drive the pixel-driving circuit of described first static pixels by described additional signal lines and/or described grid line with first frequency, all driven the pixel-driving circuit of described dynamic pixel with second frequency by described additional signal lines and described grid line, and by described additional signal lines and/or described grid line with the pixel-driving circuit of the second static pixels described in the 3rd frequency drives, described pixel-driving circuit is connected with described data line, described grid line and described additional signal lines, and connects different additional signal lines respectively from each pixel-driving circuit that same grid line connects, for opening under the driving of described grid line and described additional signal lines, and by described data line, described pixel cell is charged, wherein, have a predeterminable range between described dynamic pixel and the first static pixels, described second static pixels is between described first static pixels and described dynamic pixel, described 3rd frequency is greater than described first frequency, is less than described second frequency.

Due in actual displayed process, the display data of the one part of pixel unit on display panel all can change at each frame, and the display data of another part pixel cell all can remain unchanged in continuous multiple frames.Therefore a frame pixel cell according to the display data situation of change that (comprise at least two frames) in the given time, can be divided into static pixels and dynamic pixel by drive source.Wherein its display data of static pixels can repeat in the given time, and dynamic pixel changes in the given time.Described static pixels comprises the first static pixels and the second static pixels, and the second static pixels is between the first static pixels and dynamic pixel.

On this basis, for the first static pixels, drive source drives the pixel-driving circuit of described first static pixels by additional signal lines and/or grid line with first frequency; For dynamic pixel, additional signal lines and grid line all drive the pixel-driving circuit of dynamic pixel with second frequency; For the second static pixels, additional signal lines and/or grid line are with the pixel-driving circuit of the 3rd frequency drives second static pixels.Because the 3rd frequency is greater than first frequency, be less than second frequency, so, can make the charging of the second static pixels between dynamic pixel and the first static pixels.But can not change due to the first static pixels display Data duplication in the given time, therefore as the TFT adopting leakage current less in pixel cell, even if the charging times of pixel cell reduces, still can ensure that the electric charge be filled with in pixel cell has stronger hold facility, thus the picture that the first static pixels is shown within the above-mentioned schedule time can not be affected.And for dynamic pixel, because the display data of this pixel cell all can change at each frame, so can by the higher signal of the pixel-driving circuit incoming frequency of grid line and this pixel cell of additional signal alignment, improve the charging times of pixel cell, make the data voltage of constantly change can input to above-mentioned pixel cell in time by data line.And for the second static pixels between the first static pixels and dynamic pixel, on the one hand, it is still static pixels, although so frequency can reduce the charging times of the second static pixels lower than the signal of second frequency, can not have influence on its display effect.On the other hand, drive the frequency of the 3rd frequency signal of the second static pixels between first frequency and second frequency, so the charging times of the second static pixels is more than the first static pixels, keep coming in and going out in pixel electrode the ability of electric charge and display effect also good compared with the first static pixels, thus the display difference between the first static pixels and dynamic pixel can be reduced.

In sum, on the one hand, due to by the lower signal of the pixel-driving circuit incoming frequency of grid line and/or additional signal alignment first static pixels and the second static pixels, thus the power consumption of display driver can be reduced.Further, in actual displayed process, each frame picture all comprises static pixels and dynamic pixel, therefore can reduce the power consumption of display driver at each frame, so the effect reducing power consumption is in terms of existing technologies more effective.On the other hand, display panel provided by the invention all can drive dynamic pixel and static pixels to show at each frame, therefore do not deposit a frame dynamic menu and the instantaneous switching of a frame tableaux when showing, thus the screen flicker because tableaux and the instantaneous switching of dynamic menu cause can be avoided.Another aspect, drive the frequency of the 3rd frequency signal of the second static pixels between first frequency and second frequency, so the charging times of the second static pixels is more than the first static pixels, display effect is also good compared with the first static pixels, thus the display difference that can reduce between the first static pixels and dynamic pixel, make the display effect of whole display panel more evenly good.

Below above-mentioned pixel-driving circuit 201 is described in detail.

Concrete, as shown in Figure 2, in each pixel cell 20 on display panel, be provided with pixel electrode 202.On this basis, the pixel-driving circuit 201 in this pixel cell 20 can comprise the first transistor T1 and transistor seconds T2.

Wherein, first pole of the first transistor T1 connects grid line 10, and grid connects additional signal lines 12, second pole and is connected with the grid of transistor seconds T2.

First pole connection data line 11, second pole of transistor seconds T2 is connected with pixel electrode 202.

It should be noted that, above-mentioned the first transistor T1 and transistor seconds T2 can be N-type transistor, also can be P-type crystal pipe.And first of above-mentioned transistor can be extremely source electrode, second can be extremely drain electrode; Or first very drains, the second very source electrode.The present invention does not limit this.

So, the signal that additional signal lines 10 exports can control the conducting of the first transistor T1, and when the first transistor T1 conducting, just the sweep signal on grid line 10 can be exported to transistor seconds T2, thus by transistor seconds T2 conducting, pixel electrode 202 is exported to by transistor seconds T2 with the data-signal Vdata inputted by data line 11, this pixel electrode 202 is charged, deflect to make the liquid crystal molecule in the electric field controls pixel cell 20 between pixel electrode 202 and public electrode (not shown), what control backlight goes out light, to realize the display of different gray scale.

It can thus be appreciated that, when the frequency of additional signal lines 12 input signal can control the conducting number of times of the first transistor T1 in Preset Time P.In the case, when the first transistor T1 conducting, the frequency of the sweep signal that grid line 10 inputs can control the conducting number of times of transistor seconds T2 in a Preset Time, thus can control in a Preset Time P, the pixel electrode 202 be connected with this transistor seconds T2 receives the number of times of data line 11 input data signal Vdata, namely can control the charging times of this pixel electrode 202.

Concrete, as shown in Figure 3, in a Preset Time P, having the signal frequency of second frequency F2, be 3 times with first frequency F1 output signal frequency, and the 3rd frequency F3 is between first frequency F1 and second frequency F2.Therefore, in above-mentioned Preset Time P, when additional signal lines 12 adopts the signal driving the first transistor T1 of second frequency F2, the opening times of the first transistor T1 is when adopting the signal of first frequency F1 to drive the first transistor T1 three times of additional signal lines 12, when adopting the signal driving the first transistor T1 of the 3rd frequency F3, the opening times of the first transistor T1 is between employing first frequency F1 and adopt between second frequency F2.In like manner to control the mode of transistor seconds T2 same as above for grid line 10.Therefore in above-mentioned Preset Time P, the frequency of grid line 10 and additional signal lines 12 input signal is higher, and in pixel cell 20, pixel electrode 202 is in this Preset Time P, also more by the number of times charged, thus the power consumption that display needs is also larger.

In like manner can obtain, when the signal frequency that grid line 10 or additional signal lines 12 input is lower, in pixel cell 20, pixel electrode 202 is in this Preset Time P, also fewer by the number of times charged, thus the power consumption that display needs is also less.Therefore, for dynamic pixel 02, additional signal lines 12 and grid line 10 all need input high-frequency signal, such as, when there is the signal of second frequency F2, in order to ensure that the pixel-driving circuit in dynamic pixel 02 can be opened in time, make data-signal Vdata can export this dynamic pixel 02 in time to.For the first static pixels 101, when additional signal lines 12 and grid line 10 all need to input low frequency signal, such as there is the signal of first frequency F1, or when any one in additional signal lines 12 and grid line 10 inputs the signal of above-mentioned first frequency F1, all can reduce the power consumption of driving first static pixels 101, adopt the principle of the signal of the 3rd frequency F1 reduction driving second static pixels 102 the same.Because static pixels 01 (comprising the first static pixels 101 and the second static pixels 102) the display data in schedule time P can not change, therefore as the TFT adopting leakage current less in pixel cell, the charging times of pixel cell is caused to reduce even if low-power consumption drives, still can ensure that the electric charge be filled with in pixel cell has stronger hold facility, thus the picture that static pixels 01 is shown within the above-mentioned schedule time can not be affected.

But, in order to reduce display power consumption on the basis of display quality not affecting display frame, for dynamic pixel 02, because display data change, therefore need the first transistor T1 in dynamic pixel 02 and the timely conducting of transistor seconds T2, with make change display data by data line 11 in the mode of data-signal Vdata, input to pixel electrode 202 in time, thus change the deflection angle of the liquid crystal molecule of this dynamic pixel 02 correspondence, realize the change of display gray scale.Such as, so grid line 10 or additional signal lines 12 need the pixel-driving circuit 201 in this pixel cell to input the signal of upper frequency, generally can adopt the signal of 60Hz ~ 120Hz.Thus can avoid when signal frequency is less than 60Hz, cause above-mentioned transistor switch number of times lower, make the not timely writing pixel electrode 202 of data-signal Vdata changed.But, when signal frequency is greater than 120Hz, although the writing speed of data-signal Vdata can be improved, the significantly lifting of display power consumption can be caused, be unfavorable for the design of low energy consumption product.

In addition, for above-mentioned first static pixels 01, grid line 10 or additional signal lines 12 need the signal inputting lower frequency to its pixel-driving circuit 201, such as, generally can adopt and be greater than 0Hz, be less than or equal to the signal of 60Hz.Thus can avoid when signal frequency is greater than 60Hz, cause the rising showing power consumption when driving static region, be unfavorable for the power consumption reducing product.

Further, below the concrete structure that drive source 100 carries out is illustrated.Concrete, as shown in Figure 2, this display panel can also comprise the first demoder 30, second demoder 40 and clock controller 50.

Wherein, clock controller 50 is connected with the second demoder 40 with the first demoder 30, for before a frame picture display, determine that each pixel cell 20 is dynamic pixel 02 or static pixels 01 in Preset Time P, and by horizontal address information (Y1, Y2, Y3 of pixel cell 20 ...) and longitudinal address information (X1, X2, X3 ...) be sent to the first demoder 30 and the second demoder 40 respectively.

First demoder 30 also connects grid line 10, for to described horizontal address information (Y1, Y2, Y3 ...) resolve, make clock controller 50 by with horizontal address information (Y1, Y2, Y3 ...) grid line 10 that matches, drive with first frequency F1, second frequency F2 or the 3rd frequency F3 the pixel-driving circuit 201 be connected with this grid line 10.

Second demoder 40 also connects additional signal lines 12, for to longitudinal address information (X1, X2, X3 ...) resolve, make clock controller 50 by with this longitudinal address information (X1, X2, X3 ...) additional signal lines 12 that matches, drive with first frequency F1, second frequency F2 or the 3rd frequency F3 the pixel-driving circuit 201 be connected with this additional signal lines 12.

So, can respectively to clock controller 50 horizontal address information (Y1, Y2, Y3 by the first scrambler 30 and the second scrambler 40 ...) and longitudinal address information (X1, X2, X3 ...) resolve, thus clock controller 50 can be made for static pixels 01 (comprising the first static pixels 101 and the second static pixels 102) or the dynamic pixel 02 of diverse location, the signal of corresponding frequencies is exported to its pixel-driving circuit 201.

It should be noted that, because the first scrambler 30 is connected with grid line 10, therefore clock controller 50 is called horizontal address information (Y1, Y2, Y3 to the address information that the first scrambler 30 exports ...).And the second scrambler 40 is connected with additional signal lines 12, therefore clock controller 50 is called longitudinal address information (X1, X2, X3 to the address information that the second scrambler 40 exports ...).Therefore above-mentionedly horizontal and vertically the different address informations that different coding device exports to different signal wires are only represented.The transmission direction of address information is not limited.Such as, after by the direction half-twist of grid line in Fig. 2 10 and additional signal lines 12, horizontal address information (Y1, Y2, Y3 ...) grid line 10 longitudinally arranged is inputted along the longitudinal direction by the first scrambler 30, and longitudinal address information (X1, X2, X3 ...) transversely can input transversely arranged additional signal lines 12 in direction by the second scrambler 40.

In the case, for grid lines 10 all in display panel, generally need successively to scan, and all additional signal lines 12 and data line 11 are generally opened simultaneously.Therefore, as shown in Figure 4, when being first static pixels 101 (such as fourth line L4 pixel cell) in one-row pixels unit, above-mentioned time schedule controller 50 can drive the pixel-driving circuit 201 of all pixel cells 20 of this row with first frequency F1 by the grid line 10 that is connected with this row pixel cell.And time schedule controller 50 can drive the pixel-driving circuit 201 of this row pixel cell 20 with first frequency F1 or second frequency F2 by additional signal lines 12.So, for static pixels 01, at least one in additional signal lines 12 and grid line 10 can input low frequency signal, thus can reduce the power consumption driving static pixels 01.

Or, be dynamic pixel 02 when there being at least one in one-row pixels unit, when all the other are first static pixels 101 (such as fifth line L5 pixel cell), above-mentioned time schedule controller 50 can drive the pixel-driving circuit 201 of all pixel cells of this row with second frequency F2 by the grid line 10 that is connected with this row pixel cell.And above-mentioned time schedule controller 50 can drive the pixel-driving circuit 201 of dynamic pixel 02 in this row pixel cell with second frequency F2 by additional signal lines, and drive the pixel-driving circuit 202 of static pixels 01 in this row pixel cell with first frequency F1.So, on the one hand, for static pixels 01, at least one in additional signal lines 12 and grid line 10 can input low frequency signal, thus can reduce the power consumption driving static pixels 01.On the other hand, for dynamic pixel 02, additional signal lines 12 and grid line 10 all input high-frequency signals, guarantee that dynamic pixel 02 can normally show.

In addition, as shown in Figure 4, when being second static pixels 102 (such as the second row L2 pixel cell) in one-row pixels unit, above-mentioned time schedule controller 50 can drive the pixel-driving circuit 201 of all pixel cells of this row with the 3rd frequency F3 by the grid line 10 that is connected with this row pixel cell.And above-mentioned time schedule controller 50 can drive the pixel-driving circuit 201 of all pixel cells of this row with first frequency F1 or second frequency F2 by additional signal lines 12.So, on the one hand for static pixels 01, at least one in additional signal lines 12 and grid line 10 can input low frequency signal (the 3rd frequency F3), thus can reduce the power consumption driving static pixels 01.On the other hand, owing to driving the 3rd frequency of the pixel-driving circuit 201 of the second static pixels 102 between first frequency F1 and second frequency F2, so the charging times of the second static pixels 102 is more than the first static pixels 101, keep coming in and going out in pixel electrode the ability of electric charge and display effect also good compared with the first static pixels 101, thus the display difference that can reduce between the first static pixels 101 and dynamic pixel 02, make the display effect of whole display panel more evenly good.

Or, be dynamic pixel 02 when there being at least one in one-row pixels unit, when all the other are second static pixels 102 (such as the third line L3 pixel cell), above-mentioned time schedule controller 50 can drive the pixel-driving circuit 201 of all pixel cells of this row with second frequency F2 by the grid line 10 that is connected with this row pixel cell.And above-mentioned time schedule controller 50 can drive the pixel-driving circuit 201 of dynamic pixel 02 in this row pixel cell with second frequency F2 by additional signal lines 12, and drive the pixel-driving circuit 202 of the second static pixels 102 in this row pixel cell with the 3rd frequency F3.So, on the one hand, for the second static pixels 102, at least one in additional signal lines 12 and grid line 10 can input low frequency signal (the 3rd frequency F3), thus can reduce the power consumption driving static pixels 01.On the other hand, for dynamic pixel 02, additional signal lines 12 and grid line 10 all input high-frequency signals, guarantee that dynamic pixel 02 can normally show.Another aspect, owing to driving the 3rd frequency of the pixel-driving circuit 201 of the second static pixels 102 between first frequency F1 and second frequency F2, so the charging times of the second static pixels 102 is more than the first static pixels 101, keep coming in and going out in pixel electrode the ability of electric charge and display effect also good compared with the first static pixels 101, thus the display difference that can reduce between the first static pixels 101 and dynamic pixel 02, make the display effect of whole display panel more evenly good.

From the above, for the first row L1 pixel cell, because the quantity of dynamic pixel 01 is more, therefore this first row L1 pixel cell can form a dynamic area G1.For the second row L2 and the third line L3 pixel cell, because the quantity of the second static pixels 102 is more, therefore this second row L2 and the third line L3 pixel cell can form another the second static region G2 respectively.For the pixel cell of fourth line L4 or fifth line L5, because the quantity of the first static pixels 101 is more, therefore the pixel cell of fourth line L4 or fifth line L5 can form the first static region G3.Wherein the distribution situation of above-mentioned dynamic area G1, two second static region G2, G2 ' and the first static region G3 can be as shown in Figure 5.

So, when what input to second skip zone G2, the G2 ' successively away from dynamic area G1, for driving this second skip zone G2, G2 ' in the signal frequency of pixel-driving circuit 201 of each pixel cell successively decrease successively.Namely as shown in Figure 5, second static region G2 ', the second static region G2, successively away from dynamic area G1, so drive the signal of the pixel-driving circuit 201 of each pixel cell in the second static region G2 ', drive the signal frequency of the pixel-driving circuit 201 of each pixel cell in the second static region G2 to successively decrease successively.Make the signal frequency of driving second static region G2 ' and drive the second frequency F2 of dynamic area G1 close, make the signal frequency of driving second static region G2 and drive the first frequency F1 of the first static region G3 close.Thus by the display difference of multiple second static region G2 gradually between homogenising dynamic area G1 and the first static region G3.

Below in conjunction with Fig. 6 a-6d, for the pixel cell (A, B, C, D) different to position in Fig. 2, above-mentioned type of drive is described in detail.Wherein, pixel cell A is dynamic pixel 02, and pixel cell B is the second static pixels 102 between dynamic pixel 01 and the first static pixels 101, and rest of pixels unit is the first static pixels 101.

For pixel cell A, because this pixel cell is dynamic pixel 02, therefore additional signal lines 12 drives the pixel-driving circuit 201 of pixel cell A with second frequency F2 as shown in Figure 3.In addition, pixel cell A, and be positioned at the pixel cell of same a line with this pixel cell A, such as pixel cell B all needs the grid line 10 jointly connected by this row pixel cell to drive the pixel-driving circuit 201 of this row pixel cell 20 with second frequency F2.

Specifically as shown in Figure 6 a, longitudinal address information X1 of the additional signal lines 12 be connected in pixel cell A is sent to the second demoder 40 by clock controller 50, this second demoder 40 is resolved longitudinal address information X1, make the additional signal lines 12 of clock controller 50 by matching with above-mentioned longitudinal address information X1, drive the pixel-driving circuit 201 of this row pixel cell A with second frequency F2, make the first transistor T1 conducting.

In addition, the horizontal address information Y1 of the grid line 10 be connected in pixel cell A is sent to the first demoder 30 by clock controller 50, this first demoder 30 is resolved horizontal address information Y1, make the grid line 10 of clock controller 50 by matching with above-mentioned horizontal address information Y1, drive the pixel-driving circuit 201 of this row pixel cell A with second frequency F2, make transistor seconds T2 conducting.

In the case, pixel-driving circuit 201 is opened, because the frequency of second frequency F2 is higher, therefore in pixel cell A the first transistor T1 and transistor seconds T2 in Preset Time P, open number of times relatively many, so when showing data and constantly changing in above-mentioned Preset Time P, data voltage Vdata can be inputed to this pixel cell A by data line 11 in time.

For pixel cell B, although this pixel cell is the second static pixels 102, because pixel cell B is connected with same grid line 10 with pixel cell A.Therefore pixel cell B same as above also needs the grid line 10 by being jointly connected with pixel cell A to drive the pixel-driving circuit 201 of this row pixel cell 20 with second frequency F2.And as the pixel cell B of the second static pixels 102, in order to realize the charging times of lower frequency, additional signal lines 12 can drive the pixel-driving circuit 201 of pixel cell B with the 3rd frequency F3 as shown in Figure 3.

Specifically as shown in Figure 6 b, longitudinal address information X2 of the additional signal lines 12 be connected in pixel cell B is sent to the second demoder 40 by clock controller 50, this second demoder 40 is resolved longitudinal address information X2, make the additional signal lines 12 of clock controller 50 by matching with above-mentioned longitudinal address information X2, drive the pixel-driving circuit 201 of this row pixel cell B with the 3rd frequency F3, make the first transistor T1 conducting.

In addition, the horizontal address information Y1 of the grid line 10 be connected in pixel cell B is sent to the first demoder 30 by clock controller 50, this first demoder 30 is resolved horizontal address information Y1, make the grid line 10 of clock controller 50 by matching with above-mentioned horizontal address information Y1, drive the pixel-driving circuit 201 of this row pixel cell B with second frequency F2, make transistor seconds T2 conducting.

In the case, pixel-driving circuit 201 is opened, although the transistor seconds T2 of pixel cell B is connected same grid line 10 with the transistor seconds T2 in pixel cell A, all inputs the signal of upper frequency to the transistor seconds T2 in respective pixel cell.But for the transistor seconds T2 of pixel cell B, when only having the first transistor T1 conducting as pixel cell B, described transistor seconds T2 can conducting.The first transistor T1 grid due to pixel cell B receives the signal of the 3rd frequency F3, and therefore described the first transistor T1 conducting number of times is less than the first transistor T1 in pixel cell A.Therefore the conducting number of times of the transistor seconds T2 of pixel cell B is also less than the transistor seconds T2 in pixel cell A.So above-mentioned type of drive can reduce the conducting number of times of transistor, thus reduce display power consumption.In addition as the TFT adopting leakage current less in pixel cell B, even if the charging times of pixel cell B reduces, still can ensure that the electric charge be filled with in pixel cell has stronger hold facility, thus the picture of display in the above-mentioned schedule time P of the second static pixels 102 can not be affected.

For pixel cell C, because the pixel cell D being positioned at same a line in Fig. 2 with pixel cell C is the first static pixels 101, therefore pixel cell C and pixel cell D all need the grid line 10 be jointly connected by this row pixel cell to drive the pixel-driving circuit 201 of this row pixel cell 20 with first frequency F1.

In the case, specifically as fig. 6 c, longitudinal address information X1 of the additional signal lines 12 be connected in pixel cell C is sent to the second demoder 40 by clock controller 50, this second demoder 40 is resolved longitudinal address information X1, make the additional signal lines 12 of clock controller 50 by matching with above-mentioned longitudinal address information X1, drive the pixel-driving circuit 201 of this row pixel cell C with second frequency F2, make the first transistor T1 conducting.Or, by the additional signal lines 12 matched with above-mentioned longitudinal address information X1, the pixel-driving circuit 201 of this row pixel cell C can also be driven with first frequency F1, makes the first transistor T1 conducting.

In addition, the horizontal address information Y2 of the grid line 10 be connected in pixel cell C is sent to the first demoder 30 by clock controller 50, this first demoder 30 is resolved horizontal address information Y2, make the grid line 10 of clock controller 50 by matching with above-mentioned horizontal address information Y2, drive the pixel-driving circuit 201 of this row pixel cell C with first frequency F1, make transistor seconds T2 conducting.

Frequency due to first frequency F1 is less than second frequency F2.In like manner can obtain the first transistor T1 and transistor seconds T2 in therefore pixel cell C and open number of times in Preset Time P, relative to pixel cell A, and pixel cell B is less.Therefore, for adopting the pixel cell of the less TFT of leakage current, above-mentioned type of drive when ensureing picture display by considerable influence, can reduce display power consumption equally.

For pixel cell D, because itself and pixel cell C are positioned at same a line, therefore pixel cell D also needs the grid line 10 jointly connected by this row pixel cell to drive the pixel-driving circuit 201 of this row pixel cell 20 with first frequency F1.

In the case, so as shown in fig 6d, longitudinal address information X2 of the additional signal lines 12 be connected in pixel cell D is sent to the second demoder 40 by clock controller 50, this second demoder 40 is resolved longitudinal address information X2, make the additional signal lines 12 of clock controller 50 by matching with above-mentioned longitudinal address information X2, drive the pixel-driving circuit 201 of this row pixel cell D with first frequency F1, make the first transistor T1 conducting.Or, by the additional signal lines 12 matched with above-mentioned longitudinal address information X2, the pixel-driving circuit 201 of this row pixel cell D can also be driven with second frequency F2, makes the first transistor T1 conducting.

In addition, the horizontal address information Y2 of the grid line 10 be connected in pixel cell D is sent to the first demoder 30 by clock controller 50, this first demoder 30 is resolved horizontal address information Y2, make the grid line 10 of clock controller 50 by matching with above-mentioned horizontal address information Y2, drive the pixel-driving circuit 201 of this row pixel cell D with first frequency F1, make transistor seconds T2 conducting.The power consumption of pixel cell D is in like manner driven also to be less than the power consumption driving pixel cell A.

In sum, drive the power consumption of pixel cell A the highest, drive the power consumption of pixel cell B secondly, driving pixel cell C's and pixel cell D is least in power-consuming.

On this basis, this display panel as shown in Figure 2, drive source 100 can also comprise source electrode driver 60, this source electrode driver 60 connects clock controller 50 and data line 11, for providing the data-signal Vdata with this display data match according to display data to data line 11 under the control of clock controller 50.

The embodiment of the present invention provides a kind of display device, comprises any one display panel as above, has the structure identical with the display panel that previous embodiment provides and beneficial effect.Because previous embodiment is described in detail the structure of display panel and beneficial effect, repeat no more herein.

It should be noted that, in embodiments of the present invention, display device specifically can comprise liquid crystal indicator, and such as this display device can be any product or parts with Presentation Function such as liquid crystal display, LCD TV, digital album (digital photo frame), mobile phone or panel computer.

The embodiment of the present invention provides a kind of for driving the method for any one display panel above-mentioned, and as shown in Figure 7, described driving method comprises:

S101, one frame picture display before, determine that each pixel cell 20 is dynamic pixel 02 or static pixels 01 in Preset Time P.This static pixels 01 can comprise the first static pixels 101 and the second static pixels 102.Wherein, have a predeterminable range H between dynamic pixel 01 and the first static pixels 101, the second static pixels 102 is between the first static pixels 101 and dynamic pixel 01.

Concrete, the concrete partition process of above-mentioned static pixels 01 and dynamic pixel 02 can be:

Before a frame picture display, the pixel cell 20 that the multiplicity of i frame display data is more than or equal to j before is continuously called static pixels, and the pixel cell 20 that multiplicity i frame before continuously being shown data is less than j is called dynamic pixel.1 < j≤i, i, j are positive integer.

S102, drive the pixel-driving circuit 201 of the first static pixels 101 by additional signal lines 12 and/or grid line 10 with first frequency F1.

S103, driven the pixel-driving circuit 201 of dynamic pixel 02 with second frequency F2 by additional signal lines 12 and grid line 10.

S104, drive the pixel-driving circuit 201 of the second static pixels 102 by additional signal lines 12 and/or grid line 10 with the 3rd frequency F3.

It should be noted that, the 3rd frequency F3 is greater than first frequency F1, is less than second frequency F2.And above-mentioned first frequency F1 is more than or equal to 1HZ, is less than or equal to 60HZ, can avoid when signal frequency is greater than 60Hz, cause the rising showing power consumption when driving static pixels, be unfavorable for the power consumption reducing product.In addition, second frequency F2 is greater than 60HZ, is less than or equal to 120HZ, can avoid when signal frequency is less than 60Hz, causes above-mentioned transistor switch number of times lower, makes the not timely writing pixel electrode 202 of data-signal Vdata changed.Further, when signal frequency is greater than 120Hz, although the writing speed of data-signal Vdata can be improved, the significantly lifting of display power consumption can be caused, be unfavorable for the design of low energy consumption product.

The step sequencing of the present invention to above-mentioned steps S102, S103 and S104 does not limit.Such as, the additional signal lines 12 in step S102, step S103 and step S104 can simultaneously input signal, and after this, the grid line 10 in step S102, step S103 and step S104 is input signal simultaneously.

S105, pixel-driving circuit 201 are opened, and data line 11 input data line signal Vdata, charges to the pixel electrode 202 in pixel cell 20.

Due in actual displayed process, the display data of the one part of pixel unit on display panel all can change at each frame, and the display data of another part pixel cell all can remain unchanged in continuous multiple frames.Therefore a frame pixel cell according to the display data situation of change that (comprise at least two frames) in the given time, can be divided into static pixels and dynamic pixel by drive source.Wherein its display data of static pixels can repeat in the given time, and dynamic pixel changes in the given time.Described static pixels comprises the first static pixels and the second static pixels, and the second static pixels is between the first static pixels and dynamic pixel.

On this basis, for the first static pixels, drive source drives the pixel-driving circuit of described first static pixels by additional signal lines and/or grid line with first frequency; For dynamic pixel, additional signal lines and grid line all drive the pixel-driving circuit of dynamic pixel with second frequency; For the second static pixels, additional signal lines and/or grid line are with the pixel-driving circuit of the 3rd frequency drives second static pixels.Because the 3rd frequency is greater than first frequency, be less than second frequency, so, can make the charging of the second static pixels between dynamic pixel and the first static pixels.But can not change due to the first static pixels display Data duplication in the given time, therefore as the TFT adopting leakage current less in pixel cell, even if the charging times of pixel cell reduces, still can ensure that the electric charge be filled with in pixel cell has stronger hold facility, thus the picture that the first static pixels is shown within the above-mentioned schedule time can not be affected.And for dynamic pixel, because the display data of this pixel cell all can change at each frame, so can by the higher signal of the pixel-driving circuit incoming frequency of grid line and this pixel cell of additional signal alignment, improve the charging times of pixel cell, make the data voltage of constantly change can input to above-mentioned pixel cell in time by data line.And for the second static pixels between the first static pixels and dynamic pixel, on the one hand, it is still static pixels, although so frequency can reduce the charging times of the second static pixels lower than the signal of second frequency, can not have influence on its display effect.On the other hand, drive the frequency of the 3rd frequency signal of the second static pixels between first frequency and second frequency, so the charging times of the second static pixels is more than the first static pixels, keep coming in and going out in pixel electrode the ability of electric charge and display effect also good compared with the first static pixels, thus the display difference between the first static pixels and dynamic pixel can be reduced.

In sum, on the one hand, due to by the lower signal of the pixel-driving circuit incoming frequency of grid line and/or additional signal alignment first static pixels and the second static pixels, thus the power consumption of display driver can be reduced.Further, in actual displayed process, each frame picture all comprises static pixels and dynamic pixel, therefore can reduce the power consumption of display driver at each frame, so the effect reducing power consumption is in terms of existing technologies more effective.On the other hand, display panel provided by the invention all can drive dynamic pixel and static pixels to show at each frame, therefore do not deposit a frame dynamic menu and the instantaneous switching of a frame tableaux when showing, thus the screen flicker because tableaux and the instantaneous switching of dynamic menu cause can be avoided.Another aspect, drive the frequency of the 3rd frequency signal of the second static pixels between first frequency and second frequency, so the charging times of the second static pixels is more than the first static pixels, display effect is also good compared with the first static pixels, thus the display difference that can reduce between the first static pixels and dynamic pixel, make the display effect of whole display panel more evenly good.

It should be noted that, for grid lines 10 all in display panel, generally need successively to scan, and all additional signal lines 12 and data line 11 are generally opened simultaneously.Therefore, as shown in Figure 4, when being first static pixels 101 (such as fourth line L4 pixel cell) in one-row pixels unit, above-mentioned driving method comprises:

First, driven the pixel-driving circuit 201 of all pixel cells 20 of this row with first frequency F1 by the grid line 10 that is connected with this row pixel cell.

Then, driven the pixel-driving circuit 201 of this row pixel cell 20 with first frequency F1 or second frequency F2 by additional signal lines 12.

So, for static pixels 01, at least one in additional signal lines 12 and grid line 10 can input low frequency signal, thus can reduce the power consumption driving static pixels 01.

Or when there being at least one to be dynamic pixel 02 in one-row pixels unit, when all the other are first static pixels 101 (such as fifth line L5 pixel cell), above-mentioned driving method comprises:

First, driven the pixel-driving circuit 201 of all pixel cells of this row with second frequency F2 by the grid line 10 that is connected with this row pixel cell.

Then, driven the pixel-driving circuit 201 of dynamic pixel 02 in this row pixel cell with second frequency F2 by additional signal lines, and drive the pixel-driving circuit 202 of static pixels 01 in this row pixel cell with first frequency F1.

So, on the one hand, for static pixels 01, at least one in additional signal lines 12 and grid line 10 can input low frequency signal, thus can reduce the power consumption driving static pixels 01.On the other hand, for dynamic pixel 02, additional signal lines 12 and grid line 10 all input high-frequency signals, guarantee that dynamic pixel 02 can normally show.

In addition, when being second static pixels 102 (such as the second row L2 pixel cell) in one-row pixels unit, above-mentioned driving method comprises:

First, driven the pixel-driving circuit 201 of all pixel cells of this row with the 3rd frequency F3 by the grid line 10 that is connected with this row pixel cell.

Then, driven the pixel-driving circuit 201 of all pixel cells of this row with first frequency F1 or second frequency F2 by additional signal lines 12.

So, on the one hand for static pixels 01, at least one in additional signal lines 12 and grid line 10 can input low frequency signal (the 3rd frequency F3), thus can reduce the power consumption driving static pixels 01.On the other hand, owing to driving the 3rd frequency of the pixel-driving circuit 201 of the second static pixels 102 between first frequency F1 and second frequency F2, so the charging times of the second static pixels 102 is more than the first static pixels 101, keep coming in and going out in pixel electrode the ability of electric charge and display effect also good compared with the first static pixels 101, thus the display difference that can reduce between the first static pixels 101 and dynamic pixel 02, make the display effect of whole display panel more evenly good.

Or when there being at least one to be dynamic pixel 02 in one-row pixels unit, when all the other are second static pixels 102 (such as the third line L3 pixel cell), above-mentioned driving method comprises:

First, driven the pixel-driving circuit 201 of all pixel cells of this row with second frequency F2 by the grid line 10 that is connected with this row pixel cell.

Then, driven the pixel-driving circuit 201 of dynamic pixel 02 in this row pixel cell with second frequency F2 by additional signal lines 12, and drive the pixel-driving circuit 202 of the second static pixels 102 in this row pixel cell with the 3rd frequency F3.

So, on the one hand, for the second static pixels 102, at least one in additional signal lines 12 and grid line 10 can input low frequency signal (the 3rd frequency F3), thus can reduce the power consumption driving static pixels 01.On the other hand, for dynamic pixel 02, additional signal lines 12 and grid line 10 all input high-frequency signals, guarantee that dynamic pixel 02 can normally show.Another aspect, owing to driving the 3rd frequency of the pixel-driving circuit 201 of the second static pixels 102 between first frequency F1 and second frequency F2, so the charging times of the second static pixels 102 is more than the first static pixels 101, keep coming in and going out in pixel electrode the ability of electric charge and display effect also good compared with the first static pixels 101, thus the display difference that can reduce between the first static pixels 101 and dynamic pixel 02, make the display effect of whole display panel more evenly good.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims (14)

1. a display panel, comprise grid line and the data line of transverse and longitudinal intersection, and intersect by described grid line and described data line the multiple pixel cells defined, it is characterized in that, also comprise many additional signal lines, drive source and be arranged in the pixel-driving circuit of each described pixel cell;

Described drive source connects described grid line and described additional signal lines, for before a frame picture display, determine that each pixel cell is dynamic pixel or static pixels, described static pixels comprises the first static pixels and the second static pixels, and drive the pixel-driving circuit of described first static pixels by described additional signal lines and/or described grid line with first frequency, all driven the pixel-driving circuit of described dynamic pixel with second frequency by described additional signal lines and described grid line, and by described additional signal lines and/or described grid line with the pixel-driving circuit of the second static pixels described in the 3rd frequency drives,

Described pixel-driving circuit is connected with described data line, described grid line and described additional signal lines, and connects different additional signal lines respectively from each pixel-driving circuit that same grid line connects; For opening under the driving of described grid line and described additional signal lines, and by described data line, described pixel cell is charged;

Wherein, have a predeterminable range between described dynamic pixel and the first static pixels, described second static pixels is between described first static pixels and described dynamic pixel;

Described 3rd frequency is greater than described first frequency, is less than described second frequency.

2. display panel according to claim 1, when there is at least two the second static pixels between described first static pixels and described dynamic pixel, inputting to the second static pixels successively away from described dynamic pixel, successively decreasing successively for driving the signal frequency of this second static pixels driving circuit.

3. display panel according to claim 1, is characterized in that, described pixel cell comprises pixel electrode; Described pixel-driving circuit comprises: the first transistor and transistor seconds;

First pole of described the first transistor connects described grid line, and grid connects described additional signal lines, and the second pole is connected with the grid of described transistor seconds;

First pole of described transistor seconds connects described data line, and the second pole is connected with described pixel electrode.

4. display panel according to claim 1, is characterized in that, described driver comprises the first demoder, the second demoder and clock controller;

Described clock controller is connected with described second demoder with described first demoder, for before a frame picture display, determines that each pixel cell is dynamic pixel or static pixels in Preset Time; And the horizontal address information of described pixel cell and longitudinal address information are sent to described first demoder and described second demoder respectively;

Described first demoder also connects described grid line, for resolving described horizontal address information, make described clock controller by the grid line with described horizontal address information match, the pixel-driving circuit be connected with this grid line with described first frequency, described second frequency or described 3rd frequency drives;

Described second demoder also connects described additional signal lines, for resolving described longitudinal address information, make described clock controller by the described additional signal lines with longitudinal address information match, the pixel-driving circuit be connected with this additional signal lines with described first frequency, described second frequency or described 3rd frequency drives.

5. display panel according to claim 4, it is characterized in that, described drive source also comprises source electrode driver, described source electrode driver connects described clock controller and described data line, for providing the data-signal with described display data match according to display data to described data line under the control of described clock controller.

6. display panel according to claim 1, is characterized in that, be provided with a described additional signal lines between adjacent two data lines, described additional signal lines is parallel with described data line.

7. a display device, is characterized in that, comprises the display panel as described in any one of claim 1-6.

8. for driving a method for the display panel as described in any one of claim 1-6, it is characterized in that, described driving method comprises:

Before a frame picture display, determine that each pixel cell is dynamic pixel or static pixels in Preset Time, described static pixels comprises the first static pixels and the second static pixels, have a predeterminable range between described dynamic pixel and the first static pixels, described second static pixels is between described first static pixels and described dynamic pixel;

The pixel-driving circuit of described first static pixels is driven with first frequency by described additional signal lines and/or described grid line;

The pixel-driving circuit of described dynamic pixel is driven with second frequency by described additional signal lines and described grid line;

By described additional signal lines and/or described grid line with the pixel-driving circuit of the second static pixels described in the 3rd frequency drives;

Pixel-driving circuit is opened, and data line input data line signal, charges to described pixel cell;

Wherein, described 3rd frequency is greater than described first frequency, is less than described second frequency.

9. driving method according to claim 8, is characterized in that, described before a frame picture display, according to display data pixel cell is divided into static pixels and dynamic pixel comprises:

Before a frame picture display, before continuously, the multiplicity of i frame display data is more than or equal to the pixel cell of j is static pixels, otherwise is dynamic pixel;

1 < j≤i, i, j are positive integer.

10. driving method according to claim 8, is characterized in that, when being described first static pixels in one-row pixels unit, described method comprises:

Driven the pixel-driving circuit of all pixel cells of this row with described first frequency by the grid line that is connected with this row pixel cell;

Driven the pixel-driving circuit of all pixel cells of this row with first frequency or second frequency by described additional signal lines.

11. driving methods according to claim 8, is characterized in that, when there being at least one to be described dynamic pixel in one-row pixels unit, when all the other are described first static pixels, described method comprises:

Driven the pixel-driving circuit of all pixel cells of this row with described second frequency by the grid line that is connected with this row pixel cell;

Driven the pixel-driving circuit of dynamic pixel in this row pixel cell by described additional signal lines with described second frequency, and drive the pixel-driving circuit of the first static pixels described in this row pixel cell with described first frequency.

12. driving methods according to claim 8, is characterized in that, when being described second static pixels in one-row pixels unit, described method comprises:

By the grid line that is connected with this row pixel cell with the pixel-driving circuit of all pixel cells of described 3rd this row of frequency drives;

Driven the pixel-driving circuit of all pixel cells of this row with first frequency or second frequency by described additional signal lines.

13. driving methods according to claim 8, is characterized in that, when there being at least one to be described dynamic pixel in one-row pixels unit, when all the other are described second static pixels, described method comprises:

Driven the pixel-driving circuit of all pixel cells of this row with described second frequency by the grid line that is connected with this row pixel cell;

Driven the pixel-driving circuit of dynamic pixel in this row pixel cell with described second frequency by described additional signal lines, and with the pixel-driving circuit of the second static pixels described in described this row pixel cell of 3rd frequency drives.

14. driving methods according to claim 8, it is characterized in that, described first frequency is more than or equal to 1HZ, is less than or equal to 60HZ, described second frequency is greater than 60HZ, is less than or equal to 120HZ.