CN103117039A - triangular panel driving method - Google Patents

Abstract

A driving method of a triangular panel is provided for driving a panel having pixels arranged in a triangular manner, a first pixel and a second pixel disposed at both sides of a first data line, and a third pixel and a fourth pixel disposed at both sides of the first data line. The first and second pixels display a partial image of a certain display line in a frame picture, and the third and fourth pixels display a partial image of another display line in the frame picture. The driving method comprises the steps of providing first display data to a first pixel, providing second display data to a second pixel, providing third display data to a third pixel, and providing fourth display data to a fourth pixel in a frame, wherein the first display data and the second display data are the same in polarity, and the third display data and the fourth display data are different in polarity. The driving method of the invention can be matched with a special primary color pixel arrangement mode of the triangular panel to ensure that the color development of the triangular panel is more uniform.

Description

The delta panel driving method

Technical field

The present invention relates to a kind of delta panel driving method, relate in particular to a kind of delta panel driving method that drives in several data reversal mode.

Background technology

Along with the extensive employing of flat-panel screens, there has been the driving method of many maturations to be used on the display of this class with the synthetic general image of pixel groups at present.Adopted Pixel arrangement pattern early in this class display owing to arranging pixel with matrix form again, so most driving method is all to design for the display that this type of matrix form is arranged.

Please refer to Figure 1A, show the positive-negative polarity table of data in the pixel that produces under its 2 change type driving methods for a large amount of employings at present.In 2 change type driving methods, the mode that each display line changes data polarity with two pixels one will show that data are provided to each pixel.This kind type of drive can cause demonstration result as shown in Figure 1B for the display that pixel is arranged with matrix form.Please refer to Figure 1B, it is for driving the schematic diagram of the demonstration data that produced when matrix form is arranged the display of pixel with 2 change type driving methods.As shown in Figure 1B, in the pixel that shows primary colors red (R), green (G), blue (B), the data polarity of storing is that positive pixel is equally distributed with the data polarity of storing for negative pixel.For example, in basipetal first, fourth hurdle pixel, data polarity is that positive red pixel R+ and data polarity is spaced apart for negative red pixel R-; Similarly, in second, five hurdle pixels, data polarity is that positive green pixel G+ and data polarity is also spaced apart for negative green pixel G-, and in the 3rd, six hurdle pixels, data polarity is that positive blue pixel B+ and data polarity is spaced apart for negative blue pixel B-equally.By the even distribution of positive-negative polarity data, the arbitrary place in display just can obtain immediate result when same color data is shown.

Yet this type of can be said in matrix form is arranged the display of pixel that the driving method that has excellent effect but can't be used in properly and arrange the display of pixel in triangle (delta) mode.

Please refer to Fig. 1 C, the schematic diagram of the demonstration data that it is produced when driving the display of triangular arrangement pixel with 2 change type driving methods.Because the Pixel arrangement mode in this class display is different, so if carry out display driver with the driving method of 2 change types, the data polarity phenomenon pockety in each former color pixel can occur.By Fig. 1 C as can be known, the polarity data in the red pixel in block 100 is all positive polarity (R+), and the polarity data in the red pixel in block 110 is all negative polarity (R-).Such polarity data uneven distribution makes display the situation of inhomogeneous color lump may occur when showing same color data.

Another kind of data-driven version is two hurdle change type driving methods as shown in Fig. 2 A.This type of driving method can cause the situation of the polarity data uneven distribution as shown in Fig. 2 B in not only on being used in the display of arranging pixel with matrix form, also can produce the situation of the polarity data uneven distribution as shown in Fig. 2 C on being used in the display of triangular arrangement pixel.Please refer to Fig. 2 C, can know that therein the polarity data in the red pixel of finding out in block 200 and 220 is all positive polarity (R+), and the polarity data in the red pixel in block 210 is all negative polarity (R-).So the phenomenon of this type of polarity data uneven distribution makes display inhomogeneous color lump can occur equally when showing same color data.

To sum up, due at present rarer for the designed image element driving method of the display of triangular arrangement pixel, just become important problem so develop the driving method that a kind of display that can make the triangular arrangement pixel presents better display effect.

Summary of the invention

One of purpose of the present invention is exactly that a kind of driving method that can reduce delta panel demonstration color lump non-uniform phenomenon is being provided.

The present invention proposes a kind of delta panel driving method, and it is applicable to drive the delta panel of arranging pixel with triangular pattern.This delta panel comprises many data lines and the first, second, third and the 4th pixel.First and second pixel is positioned at the both sides of the first data line and is electrically coupled to the first data line, and the 3rd and the 4th pixel also is positioned at the both sides of the first data line and is electrically coupled to equally the first data line; Perhaps first and second pixel is adjacent and between two data lines and the 3rd and the 4th pixel is adjacent and between same two data lines.The first pixel and the second pixel show the part of a display line in a frame picture, and the 3rd pixel and the 4th pixel show the part of another display line in this frame picture.This delta panel driving method is in this frame picture, the first demonstration data are provided to provide to provide to the 3rd pixel and with the 4th to the second pixel, with the 3rd demonstration data to the first pixel, with the second demonstration data show that data provide to the 4th pixel, and wherein first shows that data and second show that data are identical polar, but the 3rd shows that data and the 4th show that data are opposed polarity.

In a preferred embodiment of the present invention, be to form by selecting one in following four kinds of modes in order to the demonstration data polarity arrangement mode of the pixel that shows the same display line:

(1) take two positive polaritys as the beginning, be sequentially staggered mode of two negative polarity and two positive polaritys afterwards.

(2) take single positive polarity as the beginning, be sequentially staggered mode of two negative polarity and two positive polaritys afterwards.

(3) take single negative polarity as the beginning, be sequentially staggered mode of two positive polaritys and two negative polarity afterwards.

(4) take two negative polarity as the beginning, be sequentially staggered mode of two positive polaritys and two negative polarity afterwards.

The present invention has adopted many regular demonstration data polarity arrangement modes of planting, and arrange these uses orders that shows the data polarity arrangement modes according to certain condition, the special primary colors Pixel arrangement mode of the delta panel of therefore can arranging in pairs or groups and make the colour developing of delta panel more even.

For above and other purpose of the present invention, feature and advantage can be become apparent, preferred embodiment cited below particularly, and coordinate appended figure, be described in detail below.

Description of drawings

Figure 1A shows the positive-negative polarity table of data in the pixel that produces under 2 change type driving methods.

Figure 1B is for driving the schematic diagram of the demonstration data that produced when matrix form is arranged the display of pixel with 2 change type driving methods.

The schematic diagram of the demonstration data that Fig. 1 C is produced when driving the display of triangular arrangement pixel with 2 change type driving methods.

Fig. 2 A shows the positive-negative polarity table of data in the pixel that produces under two hurdle change type driving methods.

Fig. 2 B is for driving the schematic diagram of the demonstration data that produced when matrix form is arranged the display of pixel with two hurdle change type driving methods.

The schematic diagram of the demonstration data that Fig. 2 C is produced when driving the display of triangular arrangement pixel with two hurdle change type driving methods.

Fig. 3 A is the demonstration data polarity permutation table of delta panel according to an embodiment of the invention.

The schematic diagram of the demonstration data that Fig. 3 B produces when driving delta panel for the demonstration data polarity arrangement mode with Fig. 3 A.

Fig. 4 A～4H is respectively a kind of demonstration data polarity shifting combination table that utilizes the combination of different images data polarity conversion regime and get.

Fig. 5 is the demonstration data polarity permutation table of delta panel according to another embodiment of the present invention.

[main element symbol description]

100,110,200,210,220: block

310a, 310b, 310c, 310d, 310e, 310f, 310g, 310h: pixel group

320a, 320b, 320c: data line

330,332,334,340,342,344: pixel

Embodiment

More even for the colour developing that makes delta panel (Delta Panel), important way is exactly that the demonstration data of the opposed polarity that the pixel that shows same primary colors stores can be evenly distributed in a whole panel.

Please refer to Fig. 3 A, it is the demonstration data polarity permutation table of delta panel (Delta Panel) according to an embodiment of the invention.As shown in Figure 3A, in the pixel group in order to the article one in showing a certain frame picture and second display line, the demonstration data polarity of first pixel in each display line is positive polarity (+), next sequentially is staggered for two negative polarity (-) and two positive polaritys; In the pixel group with the 4th display line in order to the 3rd in showing this frame picture, each display line is respectively two negative polarity and sequentially is staggered with two positive polaritys; In the pixel group with the 6th display line in order to the 5th in showing this frame picture, the demonstration data polarity of first pixel in each display line is negative polarity, next sequentially is staggered for two positive polaritys and two negative polarity; And in the pixel group with the 8th display line in order to the 7th in showing this frame picture, each display line is respectively two positive polaritys and sequentially is staggered with two negative polarity.In addition, the demonstration data polarity that repeats the first eight display line of the demonstration data polarity arrangement mode after the 9th display line puts in order to arrange.

When above-mentioned demonstration data polarity arrangement mode specifically is presented on delta panel, can obtain better display effect.Please refer to Fig. 3 B, the schematic diagram of the demonstration data that it produces when driving delta panel for the demonstration data polarity permutation table with Fig. 3 A.Be provided with many data line 320a, 320b and 320c on the delta panel shown in Fig. 3 B, and by the empty pixel that is divided into a plurality of pixel 310a～310h of group.Each pixel be electrically coupled to data line 320a, 320b and 320c one of them, and be subjected to the sweep trace of a correspondence whether to control to determine to receive from the data line of electric property coupling to show data.The corresponding display line that shows in a frame picture of pixel in each pixel 310a～310h of group, namely horizontal demonstration data shown in corresponding reception Fig. 3 A.

As shown in Fig. 3 B, corresponding to the pixel among the pixel 310a of group of article one display line be sequentially primary red pixel R+ that storage positive polarity shows data, green former color pixel G-that the storage negative polarity shows data, blue primaries pixel B that the storage negative polarity shows data-, storage positive polarity show the blue primaries pixel B that the primary red pixel R+ of data, green former color pixel G+ that storage positive polarity shows data and storage negative polarity show data-.Corresponding to the pixel among the pixel 310b of group of second display line be sequentially green former color pixel G+ that storage positive polarity shows data, blue primaries pixel B that the storage negative polarity shows data-, the storage negative polarity show the primary red pixel R-of data, green former color pixel G+ that storage positive polarity shows data, blue primaries pixel B that storage positive polarity shows data+and the storage negative polarity show the primary red pixel R-of data.Corresponding to the pixel among the pixel 310c of group of the 3rd display line be sequentially primary red pixel R-that the storage negative polarity shows data, green former color pixel G-that the storage negative polarity shows data, blue primaries pixel B that storage positive polarity shows data+, storage positive polarity show the blue primaries pixel B that the primary red pixel R+ of data, green former color pixel G-that the storage negative polarity shows data and storage negative polarity show data-.Corresponding to the pixel among the pixel 310d of group of the 4th display line be sequentially green former color pixel G-that the storage negative polarity shows data, blue primaries pixel B that the storage negative polarity shows data-, storage positive polarity show the primary red pixel R+ of data, green former color pixel G+ that storage positive polarity shows data, blue primaries pixel B that the storage negative polarity shows data-and the storage negative polarity show the primary red pixel R-of data.Corresponding to the pixel among the pixel 310e of group of the 5th display line be sequentially primary red pixel R-that the storage negative polarity shows data, green former color pixel G+ that storage positive polarity shows data, blue primaries pixel B that storage positive polarity shows data+, the storage negative polarity show the blue primaries pixel B that the primary red pixel R-of data, green former color pixel G-that the storage negative polarity shows data and storage positive polarity shows data+.Corresponding to the pixel among the pixel 310f of group of the 6th display line be sequentially green former color pixel G-that the storage negative polarity shows data, blue primaries pixel B that storage positive polarity shows data+, storage positive polarity show the primary red pixel R+ of data, green former color pixel G-that the storage negative polarity shows data, blue primaries pixel B that the storage negative polarity shows data-and storage positive polarity show the primary red pixel R+ of data.Corresponding to the pixel among the pixel 310g of group of the 7th display line be sequentially primary red pixel R+ that storage positive polarity shows data, green former color pixel G+ that storage positive polarity shows data, blue primaries pixel B that the storage negative polarity shows data-, the storage negative polarity show the blue primaries pixel B that the primary red pixel R-of data, green former color pixel G+ that storage positive polarity shows data and storage positive polarity shows data+.Corresponding to the pixel among the pixel 310h of group of the 8th display line be sequentially green former color pixel G+ that storage positive polarity shows data, blue primaries pixel B that storage positive polarity shows data+, the storage negative polarity show the primary red pixel R-of data, green former color pixel G-that the storage negative polarity shows data, blue primaries pixel B that storage positive polarity shows data+and storage positive polarity show the primary red pixel R+ of data.

Clearly, show that so data polarity conversion regime and previous 2 change type driving methods of stating are rather similar.Yet, than 2 change type driving methods, the demonstration data polarity conversion regime that the present embodiment provides can make the polarity of the demonstration data of storing in the pixel that shows the same primary colors present more uniform distribution situation when being used in delta panel.Please comparison diagram 1C and Fig. 3 B, clearly, the polarity of the demonstration data of storing corresponding to the primary red pixel in the block 100 and 110 shown in Fig. 1 C in Fig. 3 B distributes and no longer includes very clearly demarcated centrality.At the same time, as shown in Fig. 3 B, the polarity of the demonstration data that green former color pixel and blue primaries pixel are stored distributes also rather even, the concentration status of the demonstration data polarity distribution of the primary red pixel in similar Fig. 1 C can not occur.

According to demand and the inspiration of above-mentioned design, the application has summed up a driving method that can be effectively contributes for the lifting of delta panel colour developing uniformity coefficient.The unique point of this driving method is exactly that dissimilar demonstration data polarity conversion regime is incorporated in the image display process of same frame.More accurate theory, the position is in the polar relationship of the demonstration data between two pixels under same environment, can may produce different variations because of the difference of position.What must describe in detail is, so-called " position is under same environment " refers to and be in equally between certain two adjacent data line, or is in equally so far person on data line of the left and right sides of a certain data line and same electric property coupling.

If explain the meaning of what is called " position is under same environment " with concrete instance, can be with reference to the pointed pixel 330～344 of figure 3B.In pointed pixel, pixel 330 and 332 is to be in the both sides of data line 320a and to be electrically coupled to data line 320a, and with pixel 330 and 332 pixels that are under same environment, what refer to is exactly the pixel that is in equally the both sides of data line 320a and is electrically coupled to data line 320a, for example pixel 340 and 342.From another perspective, pixel 332 and 334 is to be between data line 320a and 320b, and with pixel 332 and 334 pixels that are under same environment, what refer to is exactly the pixel that is in equally between data line 320a and 320b, for example pixel 342 and 344.

According to above-mentioned definition, can illustrate easily that the feature technology of knowing the application is: these are in the pixel under same environment, in order to the demonstration data polarity relation between two pixels that show the same display line, can there be respectively because shown display line is different the identical situation with showing that data polarity is opposite of data polarity that shows.Please refer to Fig. 3 B, with the pixel 310a of group and 310h (the pixel 310a of group and 310h are respectively in order to show a display line), pixel 330 among the pixel 310a of group and 332 demonstration data polarity are that opposite (pixel 330 is positive polarity, pixel 332 is negative polarity), and among the pixel 310h of group, be in pixel 340 under same environment with pixel 330 and 332 and 342 demonstration data polarity is identical ( pixel 340 and 342 is all positive polarity).From another perspective, pixel 332 among the pixel 310a of group identical with 334 demonstration data polarity ( pixel 332 and 334 is all negative polarity), and among the pixel 310h of group, be in pixel 342 under same environment with pixel 332 and 334 and 344 demonstration data polarity is opposite (pixel 342 is positive polarity, and pixel 344 is negative polarity).

In order more systematicly to express aforesaid concept, the demonstration data polarity conversion regime that the application may use is organized into four kinds:

(1) take two positive polaritys as the beginning, be sequentially staggered mode of two negative polarity and two positive polaritys afterwards, example the 7th display line (line 7) as shown in Figure 3A and the 8th display line (line 8).

(2) take single positive polarity as the beginning, be sequentially staggered mode of two negative polarity and two positive polaritys afterwards, example article one display line (line 1) as shown in Figure 3A and second display line (line 2).

(3) take single negative polarity as the beginning, be sequentially staggered mode of two positive polaritys and two negative polarity afterwards, example the 5th display line (line 5) as shown in Figure 3A and the 6th display line (line 6).

(4) take two negative polarity as the beginning, be sequentially staggered mode of two positive polaritys and two negative polarity afterwards, example the 3rd display line (line 3) as shown in Figure 3A and the 4th display line (line 4).

Carry out various combinations in four kinds of above-mentioned modes, and in each combination, the same that uses shows that the data polarity conversion regime do not limit once, so just can obtain many polarity shifting combinations.These polarity shifting combinations itself, the perhaps combination with one another of these polarity shifting combinations, as long as can make in same frame picture the position be in pixel under same environment, demonstration data polarity relation between two pixels that show the same display line, can exist respectively because shown display line is different to show the identical situation with showing that data polarity is opposite of data polarity, just can make delta panel show good display effect.

Please refer to Fig. 4 A～4H, it shows respectively a kind of demonstration polarity shifting combination table that utilizes the combination of different display data polarity conversion regime and get.Fig. 4 A has sequentially used the demonstration data polarity conversion regime of two kinds (2) and the demonstration data polarity conversion regime of a kind (4).Fig. 4 B has sequentially used the demonstration data polarity conversion regime of two kinds (4) and the demonstration data polarity conversion regime of a kind (3).Fig. 4 C has sequentially used the demonstration data polarity conversion regime of two kinds (3) and the demonstration data polarity conversion regime of a kind (1).Fig. 4 D has sequentially used the demonstration data polarity conversion regime of two kinds (1) and the demonstration data polarity conversion regime of a kind (2).Fig. 4 E has sequentially used the demonstration data polarity conversion regime of a kind (2) and the demonstration data polarity conversion regime of two kinds (1).Fig. 4 F has sequentially used the demonstration data polarity conversion regime of a kind (1) and the demonstration data polarity conversion regime of two kinds (3).Fig. 4 G has used the demonstration data polarity conversion regime of a kind (3) and the demonstration data polarity conversion regime of two kinds (4).Fig. 4 H has used the demonstration data polarity conversion regime of a kind (4) and the demonstration data polarity conversion regime of two kinds (2).

What Fig. 4 A～4H used is that three display lines are one group of formed demonstration data polarity shifting combination table, but need to be as limit during actual design.When designing in order to arrange in pairs or groups the entity circuit, can be take two display lines as one group, also can make and show data polarity shifting combination table take four or above display line as one group.

If with the demonstration data polarity shifting combination table shown in Fig. 4 A～4D further according to sequential combination, and each the last item display line that shows data polarity shifting combination table is shown that with next article one display line of data polarity shifting combination table coincides, and just can obtain the demonstration data polarity permutation table that is used for driving delta panel shown in previous Fig. 3 A.In other words, under such combination, display line 1 and the display line 2 of Fig. 4 A corresponds to respectively the display line 1 and display line 2 of Fig. 3 A, display line 1 and the display line 2 of Fig. 4 B corresponds to respectively the display line 3 and display line 4 of Fig. 3 A, display line 1 and the display line 2 of Fig. 4 C corresponds to respectively the display line 5 and display line 6 of Fig. 3 A, and display line 1 and the display line 2 of Fig. 4 D correspond to respectively the display line 7 and display line 8 of Fig. 3 A.At the same time, the display line 3 of Fig. 4 A and the display line 1 of Fig. 4 B correspond to the display line 3 of Fig. 3 A equally, the display line 3 of Fig. 4 B and the display line 1 of Fig. 4 C correspond to the display line 5 of Fig. 3 A equally, the display line 3 of Fig. 4 C and the display line 1 of Fig. 4 D correspond to the display line 7 of Fig. 3 A equally, the display line 3 of Fig. 4 D and the display line 1 of Fig. 4 A correspond to the display line 9 of Fig. 3 A equally, perhaps also can be described as the display line 1 that corresponds to Fig. 3 A.

And if with the demonstration data polarity shifting combination table shown in Fig. 4 E～4H further according to sequential combination, and the last item display line that equally each is shown data polarity shifting combination table shows that with next article one display line of data polarity shifting combination table coincides, can obtain the another kind of demonstration data polarity permutation table that is used for driving delta panel, as shown in Figure 5.

Please be simultaneously with reference to Fig. 5, it is the demonstration data polarity permutation table of delta panel according to another embodiment of the present invention.Wherein, display line 1 and the display line 2 of Fig. 4 E corresponds to respectively the display line 1 and display line 2 of Fig. 5, display line 1 and the display line 2 of Fig. 4 F corresponds to respectively the display line 3 and display line 4 of Fig. 5 A, display line 1 and the display line 2 of Fig. 4 G corresponds to respectively the display line 5 and display line 6 of Fig. 5, and display line 1 and the display line 2 of Fig. 4 H correspond to respectively the display line 7 and display line 8 of Fig. 5.At the same time, the display line 3 of Fig. 4 E and the display line 1 of Fig. 4 F correspond to the display line 3 of Fig. 5 equally, the display line 3 of Fig. 4 F and the display line 1 of Fig. 4 G correspond to the display line 5 of Fig. 5 equally, the display line 3 of Fig. 4 G and the display line 1 of Fig. 4 H correspond to the display line 7 of Fig. 5 A equally, the display line 3 of Fig. 4 H and the display line 1 of Fig. 4 E correspond to the display line 9 of Fig. 5 equally, perhaps also can be described as the display line 1 that corresponds to Fig. 5.

As shown in Figure 5, when utilizing article one display line (line 1) to show a certain frame picture to these continuous eight display lines of the 8th display line (line 8), in the pixel group of article one wherein and the 8th display line, the demonstration data polarity of first pixel in each display line is positive polarity, next sequentially is staggered for two negative polarity and two positive polaritys; In the pixel group in order to the second in showing this frame picture and the 3rd display line, each display line is respectively two positive polaritys and sequentially is staggered with two negative polarity; In the pixel group with the 5th display line in order to the 4th in showing this frame picture, the demonstration data polarity of first pixel in each display line is negative polarity, next sequentially is staggered for two positive polaritys and two negative polarity; And in the pixel group with the 7th display line in order to the 6th in showing this frame picture, each display line is respectively two negative polarity and sequentially is staggered with two positive polaritys.Same, to be repetition put in order to arrange with the demonstration data polarity of the first eight display line the demonstration data polarity arrangement mode after the 9th display line.

By above-mentioned arrangement, equally can be so that show that the polarity distribution mode of pixel of same primary colors is too unconcentrated, and then reach and present color display effect relatively uniformly.

In sum, the present invention has adopted many regular demonstration data polarity arrangement modes of planting, and arrange these uses orders that shows the data polarity arrangement modes according to certain condition, the special primary colors Pixel arrangement mode of the delta panel of therefore can arranging in pairs or groups and make the colour developing of delta panel more even.

Although the present invention with preferred embodiment openly as above; so it is not to limit the present invention; any those of ordinary skill of being familiar with this area knowledge; without departing from the spirit and scope of the present invention; when can do a little change and retouching, so protection scope of the present invention is when being as the criterion with the appended scope that claim was defined.

Claims (10)

1. a delta panel driving method, be applicable to drive a delta panel of arranging pixel with triangular pattern, and this delta panel comprises many data lines and one first pixel, one second pixel, one the 3rd pixel and one the 4th pixel; This delta panel driving method comprises:

In a frame picture, show that with one first data provide to this first pixel;

In this frame picture, show that with one second data provide to this second pixel;

In this frame picture, show that with one the 3rd data provide to the 3rd pixel; And

In this frame picture, show that with one the 4th data provide to the 4th pixel,

Wherein, this first pixel and this second pixel be arranged in described many data lines one first data line both sides and be electrically coupled to this first data line, the 3rd pixel and the 4th pixel are positioned at the both sides of this first data line and are electrically coupled to this second data line;

Wherein, this first pixel and this second pixel show the part of a display line, the 3rd pixel and the 4th pixel show the part of another display line, and these first demonstration data and this second demonstration data are identical polar, and the 3rd shows that data and the 4th show that data are opposed polarity.

2. delta panel driving method as claimed in claim 1, wherein the demonstration data polarity conversion regime of this delta panel is 2 counter-rotatings.

3. delta panel driving method as claimed in claim 1, the demonstration data polarity arrangement mode that wherein shows the described pixel of same display line is to form by selecting one in following four kinds of modes:

Take two positive polaritys as the beginning, be sequentially staggered mode of two negative polarity and two positive polaritys afterwards;

Take single positive polarity as the beginning, be sequentially staggered mode of two negative polarity and two positive polaritys afterwards;

Take single negative polarity as the beginning, be sequentially staggered mode of two positive polaritys and two negative polarity afterwards; And

Take two negative polarity as the beginning, be sequentially staggered mode of two positive polaritys and two negative polarity afterwards.

4. delta panel driving method as claimed in claim 3, wherein the demonstration data polarity arrangement mode in order to the described pixel that shows continuous eight display lines is sequentially:

The demonstration data polarity arrangement mode that shows the described pixel of article one display line in continuous eight display lines is the mode take single positive polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the second display line in continuous eight display lines is the mode take single positive polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 3rd display line in continuous eight display lines is the mode take two negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 4th display line in continuous eight display lines is the mode take two negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 5th display line in continuous eight display lines is the mode take single negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 6th display line in continuous eight display lines is the mode take single negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 7th display line in continuous eight display lines is the mode take two positive polaritys as the beginning; And

The demonstration data polarity arrangement mode that shows the described pixel of the 8th display line in continuous eight display lines is the mode take two positive polaritys as the beginning.

5. delta panel driving method as claimed in claim 3, wherein the demonstration data polarity arrangement mode in order to the described pixel that shows continuous eight display lines is sequentially:

The demonstration data polarity arrangement mode that shows the described pixel of article one display line in continuous eight display lines is the mode take single positive polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the second display line in continuous eight display lines is the mode take two positive polaritys as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 3rd display line in continuous eight display lines is the mode take two positive polaritys as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 4th display line in continuous eight display lines is the mode take single negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 5th display line in continuous eight display lines is the mode take single negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 6th display line in continuous eight display lines is the mode take two negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 7th display line in continuous eight display lines is the mode take two negative polarity as the beginning; And

The demonstration data polarity arrangement mode that shows the described pixel of the 8th display line in continuous eight display lines is the mode take single positive polarity as the beginning.

6. a delta panel driving method, be applicable to drive a delta panel of arranging pixel with triangular pattern, and this delta panel comprises many data lines and one first pixel, one second pixel, one the 3rd pixel and one the 4th pixel; This delta panel driving method comprises:

In a frame picture, show that with one first data provide to this first pixel;

In this frame picture, show that with one second data provide to this second pixel;

In this frame picture, show that with one the 3rd data provide to the 3rd pixel; And

In this frame picture, show that with one the 4th data provide to the 4th pixel,

Wherein, this first pixel and this second pixel is adjacent and one first data line and one second data line in described data line between, and the 3rd pixel is adjacent with the 4th pixel and between this first data line and this second data line;

Wherein, this first pixel and this second pixel show the part of a display line, the 3rd pixel and the 4th pixel show the part of another display line, and these first demonstration data and this second demonstration data are identical polar, and the 3rd shows that data and the 4th show that data are opposed polarity.

7. delta panel driving method as claimed in claim 6, wherein the demonstration data polarity conversion regime of this delta panel is 2 counter-rotatings.

8. delta panel driving method as claimed in claim 6, the demonstration data polarity arrangement mode that wherein shows the described pixel of same display line is to form by selecting one in following four kinds of modes:

Take two positive polaritys as the beginning, be sequentially staggered mode of two negative polarity and two positive polaritys afterwards;

Take single positive polarity as the beginning, be sequentially staggered mode of two negative polarity and two positive polaritys afterwards;

Take single negative polarity as the beginning, be sequentially staggered mode of two positive polaritys and two negative polarity afterwards; And

Take two negative polarity as the beginning, be sequentially staggered mode of two positive polaritys and two negative polarity afterwards.

9. delta panel driving method as claimed in claim 8, wherein the demonstration data polarity arrangement mode in order to the described pixel that shows continuous eight display lines is sequentially:

The demonstration data polarity arrangement mode that shows the described pixel of article one display line in continuous eight display lines is the mode take single positive polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the second display line in continuous eight display lines is the mode take single positive polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 3rd display line in continuous eight display lines is the mode take two negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 4th display line in continuous eight display lines is the mode take two negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 5th display line in continuous eight display lines is the mode take single negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 6th display line in continuous eight display lines is the mode take single negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 7th display line in continuous eight display lines is the mode take two positive polaritys as the beginning; And

The demonstration data polarity arrangement mode that shows the described pixel of the 8th display line in continuous eight display lines is the mode take two positive polaritys as the beginning.

10. delta panel driving method as claimed in claim 8, wherein the demonstration data polarity arrangement mode in order to the described pixel that shows continuous eight display lines is sequentially:

The demonstration data polarity arrangement mode that shows the described pixel of article one display line in continuous eight display lines is the mode take single positive polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the second display line in continuous eight display lines is the mode take two positive polaritys as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 3rd display line in continuous eight display lines is the mode take two positive polaritys as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 4th display line in continuous eight display lines is the mode take single negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 5th display line in continuous eight display lines is the mode take single negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 6th display line in continuous eight display lines is the mode take two negative polarity as the beginning;

The demonstration data polarity arrangement mode that shows the described pixel of the 7th display line in continuous eight display lines is the mode take two negative polarity as the beginning; And

The demonstration data polarity arrangement mode that shows the described pixel of the 8th display line in continuous eight display lines is the mode take single positive polarity as the beginning.

Images