CN102956183A - Display panel - Google Patents
Display panel Download PDFInfo
- Publication number
- CN102956183A CN102956183A CN2012103873087A CN201210387308A CN102956183A CN 102956183 A CN102956183 A CN 102956183A CN 2012103873087 A CN2012103873087 A CN 2012103873087A CN 201210387308 A CN201210387308 A CN 201210387308A CN 102956183 A CN102956183 A CN 102956183A
- Authority
- CN
- China
- Prior art keywords
- data
- row
- sweep
- line
- input end
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Images
Landscapes
- Control Of Indicators Other Than Cathode Ray Tubes (AREA)
Abstract
The invention discloses a display panel which comprises a pixel array substrate, a subtend substrate and a display medium, wherein the pixel array substrate comprises a substrate, a plurality of data lines, a plurality of scanning lines and a plurality of pixel units, wherein the data lines extend along the line direction and are arranged along the row direction in sequence; the scanning lines extend along the row direction and are arranged along the line direction in sequence; the first data line is electrically connected with pixel units in the second line; the second data line is electrically connected with pixel units in the first line and the third line; the third data line is electrically connected with pixel units in the fourth and the sixth lines; the first scanning line is electrically connected with pixel units in the first, the fourth and the fifth row in the first line; and the second scanning line is electrically connected with pixel units in the second, the third, the sixth and the seventh row in the first line.
Description
Technical field
The invention relates to a kind of display panel, and particularly relevant for a kind of display panel with high display quality and low-power consumption.
Background technology
Therefore the advantages such as that flat-panel screens has is frivolous, power saving, low radiation have become the main flow in the display industries.In today of display technique high development, flat-panel screens more need have the excellent flat of low-power consumption except need have high display quality, being used for action electronic device, for example in intelligent mobile phone, flat computer, the mobile computer.
Generally speaking, known flat-panel screens adopts the mode of row counter-rotating (column inversion), row counter-rotatings (row inversion), frame counter-rotating (frame inversion) or some counter-rotating (dot inversion) to drive more.In above-mentioned driving method, to go the least in power-consuming of counter-rotating (column inversion).Yet, easily produce the problem of cross-talk (cross talk) to go flat-panel screens that inversion mode drives, and so that the display effect of flat-panel screens is not good.Though the flat-panel screens that drives with an inversion mode is difficult for producing the problem of cross-talk, flicker (flick), and has better display quality, its power consumption of flat-panel screens that drives with an inversion mode is high.
Summary of the invention
In view of this, the invention provides a kind of display panel, it has high display quality and low-power consumption concurrently.
The invention provides a kind of display panel, comprise image element array substrates, with respect to the subtend substrate of image element array substrates configuration and be disposed at image element array substrates and the subtend substrate between display medium.Image element array substrates comprises the first substrate with data-signal input end and sweep signal input end, is disposed at the first suprabasil many data lines, is disposed at the first suprabasil multi-strip scanning line and is disposed at first suprabasil a plurality of pixel cells.Data line is sequentially arranged along column direction along line direction extension and self-scanning signal input part.Sweep trace is sequentially arranged along line direction along the column direction extension and from the data-signal input end.Pixel cell self-scanning signal input part is lined up at least seven row and is lined up at least three row from the data-signal input end along line direction along column direction.The self-scanning signal input part is counted article one data line and is electrically connected with the pixel cell that is positioned at the second row.The self-scanning signal input part is counted the second data line and is electrically connected with the pixel cell that is positioned at first and third row.The self-scanning signal input part is counted the 3rd data line and is electrically connected with the pixel cell that is positioned at the 4th, six row.The self-scanning signal input part is counted the 4th data line and is electrically connected with the pixel cell that is positioned at the 5th, seven row.Counting article one sweep trace from the data-signal input end is electrically connected with first, fourth, five pixel cells that are listed as that are positioned at the first row.The sweep trace of counting second from the data-signal input end be positioned at the first row second and third, the pixel cells of six, seven row are electrically connected.Count the pixel cell electric connection of the 3rd sweep trace with first, fourth, five row that are positioned at the second row from the data-signal input end.Count from the data-signal input end the 4th sweep trace be positioned at the second row second and third, the pixel cells of six, seven row are electrically connected.Counting the 5th sweep trace from the data-signal input end is electrically connected with first, fourth, five pixel cells that are listed as that are positioned at the third line.Count from the data-signal input end the 6th sweep trace be positioned at the third line second and third, the pixel cells of six, seven row are electrically connected.
In one embodiment of this invention, above-mentioned display panel more comprises driver element.Driver element is used for a plurality of sweep signals sequentially being inputed to sweep trace and a plurality of data-signals being inputed in the data line.From article one sweep trace begin to be transfused to sweep signal when the 3rd sweep trace begins to be transfused to sweep signal during, the data-signal that inputs to first and third data line has the first polarity, and the data-signal of inputting second, four data line has the second polarity.From the 3rd sweep trace begin to be transfused to sweep signal when the 5th sweep trace begins to be transfused to sweep signal during, the data-signal that inputs to first and third data line has the second polarity, and the data-signal of inputting second, four data line has the first polarity.From the 5th, six sweep trace be transfused to sweep signal during, the data-signal that inputs to first and third data line has the first polarity, and the data-signal of inputting second, four data line has the second polarity.The first polarity is opposite with the second polarity.
In one embodiment of this invention, above-mentioned pixel cell self-scanning signal input part is lined up at least ten row along column direction, and lines up at least four row from the data-signal input end along line direction.The self-scanning signal input part is counted the 5th data line and more is electrically connected with the pixel cell that is positioned at the 8th, ten row.Counting article one sweep trace from the data-signal input end more is electrically connected with the 8th, nine pixel cells that are listed as that are positioned at the first row.Counting the second sweep trace from the data-signal input end more is electrically connected with the tenth pixel cell that is listed as that is positioned at the first row.The sweep trace of counting the 3rd from the data-signal input end more is electrically connected with the pixel cells of the 8th, nine row that are positioned at the second row.The sweep trace of counting the 4th from the data-signal input end more is electrically connected with the pixel cell of the tenth row that are positioned at the second row.Counting the 5th sweep trace from the data-signal input end more is electrically connected with the 8th, nine pixel cells that are listed as that are positioned at the third line.The sweep trace of counting the 6th from the data-signal input end more is electrically connected with the pixel cell of the tenth row that are positioned at the third line.Count the pixel cell electric connection of the 7th sweep trace with first, fourth, five, eight, nine row that are positioned at fourth line from the data-signal input end.Count from the data-signal input end the 8th sweep trace be positioned at fourth line second and third, the pixel cells of six, seven, ten row are electrically connected.
In one embodiment of this invention, from above-mentioned article one sweep trace begin to be transfused to sweep signal when the 3rd sweep trace begins to be transfused to sweep signal during, the data-signal that inputs to the 5th data line has the first polarity.From the 3rd sweep trace begin to be transfused to sweep signal when the 5th sweep trace begins to be transfused to sweep signal during, the data-signal that inputs to the 5th data line has the second polarity.From the 5th sweep trace begin to be transfused to sweep signal when the 7th sweep trace begins to be transfused to sweep signal during, the data-signal that inputs to the 5th data line has the first polarity.From the 7th, eight sweep trace be transfused to sweep signal during, the data-signal that inputs to the 5th data line has the second polarity.
In one embodiment of this invention, the first above-mentioned polarity is for negative, and the second polarity is for just.
In one embodiment of this invention, above-mentioned pixel cell comprises driving component and the pixel electrode that is electrically connected with driving component.
In one embodiment of this invention, above-mentioned subtend substrate is colored filter substrate.
In one embodiment of this invention, above-mentioned display medium comprises liquid crystal, organic electro luminescent layer or electrophoresis particle.
Based on above-mentioned, the display panel of one embodiment of the invention can make display panel have the advantage of high display quality and low-power consumption concurrently by electrical connection and arrange in pairs or groups suitable data-signal and sweep signal between special pixel cell and data line, the sweep trace.
For above-mentioned feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and cooperate appended graphic being described in detail below.
Description of drawings
Fig. 1 is the display panel diagrammatic cross-section of one embodiment of the invention;
Fig. 2 looks synoptic diagram on the image element array substrates of one embodiment of the invention;
The driver element that Fig. 3 illustrates Fig. 1 inputs to the sweep signal of the sweep trace of Fig. 2;
The driver element that Fig. 4 illustrates Fig. 1 inputs to the data-signal of the data line of Fig. 2;
Fig. 5 illustrates the polarity of the data-signal of the pixel cell that inputs to Fig. 2.
[primary clustering symbol description]
1000: display panel
100: image element array substrates
Substrate in 110: the first
200: the subtend substrate
300: display medium
400: driver element
D1: column direction
D2: line direction
ES: data-signal input end
EG: sweep signal input end
G1-G8: sweep trace
P
11-P
104: pixel cell
PE: pixel electrode
S1-S5: data line
T: driving component
T1-t9, tk: time point
VG1-VG8: sweep signal
VS: data-signal
Embodiment
Fig. 1 is the diagrammatic cross-section of the display panel of one embodiment of the invention.Please refer to Fig. 1, the display panel 1000 of present embodiment comprise image element array substrates 100, with respect to the subtend substrate 200 of image element array substrates 100 configuration and be disposed at image element array substrates 100 and subtend substrate 200 between display medium 300.In the present embodiment, subtend substrate 200 for example is colored filter (Color Filter) substrate, and display medium 300 for example is liquid crystal (Liquid Crystal).Yet, the invention is not restricted to this, in other embodiments, subtend substrate 200 also can be the printing opacity electrically-conductive backing plate with chromatic filter layer, and display medium 300 can be organic electro luminescent layer (Organic Electroluminescence Layer) or electrophoresis (Electrophoretic) particle.
Fig. 2 be one embodiment of the invention image element array substrates on look synoptic diagram.Please refer to Fig. 2, the image element array substrates 100 of present embodiment comprises the first substrate 110, be disposed at many data line S1-S5 in the first substrate 110, be disposed at the multi-strip scanning line G1-G8 in the first substrate 110 and be disposed at a plurality of pixel cell P in the first substrate 110
11-P
104Each pixel cell P
11-P
104Comprise have source electrode, pixel electrode PE that the drain electrode of the driving component T of drain electrode, grid and driving component T is electrically connected.The source electrode of each driving component T is electrically connected with corresponding data line.The grid of each driving component T is electrically connected with corresponding sweep trace.
In the present embodiment, the first substrate 110 mainly is the assembly that carries in the first substrate 110, and its material can be glass, quartz, organic polymer, light tight/reflecting material (such as conductive material, wafer, pottery etc.) or other material applicatory.Data line S1-S5 and sweep trace G1-G8 are respectively in order to communicated data signal and sweep signal.Data line S1-S5 and sweep trace G1-G8 material select material take the tool satisfactory electrical conductivity as good, the stack layer of metal, alloy, metal nitride, metal oxide, metal oxynitride or metal and other conductive material for example.
It is worth mentioning that the display panel 1000 of present embodiment can be by pixel cell P
11-P
104And special electrical connection and arrange in pairs or groups suitable data-signal and sweep signal between data line S1-S5, the sweep trace G1-G8, and make display panel 1000 have the advantage of low-power consumption (Power Consumption) and high display quality concurrently.Below will see through first the pixel cell P that Fig. 2 illustrates present embodiment
11-P
104And the electrical connection between data line S1-S5, the sweep trace G1-G8.Then, input to again data-signal and the sweep signal of sweep trace G1-G8 and the data line S1-S5 of Fig. 2 by Fig. 3 and Fig. 4 explanation.At last, the Fig. 5 that arranges in pairs or groups again illustrates that why the display panel 1000 of present embodiment can be by pixel cell P
11-P
104And the suitable data-signal of special electrical connection collocation and sweep signal between data line S1-S5, the sweep trace G1-G8 and reach the effect of low-power consumption and high display quality.
Please first with reference to Fig. 2, the first substrate 110 of present embodiment has data-signal input end ES and sweep signal input end EG.Data-signal input end ES and sweep signal input end EG lay respectively at the adjacent dual side-edge of the first substrate 110.Data line S1-S5 extends along line direction D2.Data line S1-S5 self-scanning signal input part EG sequentially arranges along column direction D1.Sweep trace G1-G8 extends along line direction D1.Sweep trace G1-G8 sequentially arranges along column direction D2 from data number input end ES.Pixel cell P
11-P
104Self-scanning signal input part ES lines up at least ten row along line direction D1, and lines up at least four row from data-signal input end EG along column direction D2.
In the present embodiment, self-scanning signal input part EG is counted article one data line S1 and the pixel cell P that is positioned at secondary series
21-P
24Be electrically connected.Self-scanning signal input part EG is counted second data line S2 and the pixel cell P that is positioned at first and third row
11-P
14, P
31-P
34Be electrically connected.Self-scanning signal input part EG is counted the 3rd data line S3 and the pixel cell P that certainly is positioned at the 4th, six row
41-P
44, P
61-P
64Be electrically connected.Self-scanning signal input part EG is counted the 4th data line S4 and the pixel cell P that is positioned at the 5th, seven row
51-P
54, P
71-P
74Be electrically connected.Self-scanning signal input part EG is counted the 5th data line S5 and the pixel cell P that is positioned at the 8th, ten row
81-P
84, P
101-P
104Be electrically connected.Know self-scanning signal input part EG by inference and count between n (n for more than or equal to 6 positive integer) bar data line and pixel cell and be electrically connected by above-mentioned, just describe in detail no longer one by one in this.
In the present embodiment, count article one sweep trace G1 and first, fourth, five, eight, the nine pixel cell P that are listed as that are positioned at the first row from data-signal input end ES
11, P
41, P
51, P
81, P
91Be electrically connected.From data-signal input end ES count second sweep trace G2 be positioned at the first row second and third, six, seven, ten row pixel cell P
21, P
31, P
61, P
71, P
101Be electrically connected.Count the 3rd sweep trace G3 and first, fourth, five, eight, the nine pixel cell P that are listed as that are positioned at the second row from data-signal input end ES
12, P
42, P
52, P
82, P
92Be electrically connected.From data-signal input end ES count the 4th sweep trace G4 be positioned at the second row second and third, six, seven, ten row pixel cell P
22, P
32, P
62, P
72, P
102Be electrically connected.Count the 5th sweep trace G5 and first, fourth, five, eight, the nine pixel cell P that are listed as that are positioned at the third line from data-signal input end ES
13, P
43, P
53, P
83, P
93Be electrically connected.From data-signal input end ES count the 6th sweep trace G6 be positioned at the third line second and third, six, seven, ten row pixel cell P
23, P
33, P
63, P
73, P
103Be electrically connected.Count the 7th sweep trace G7 and first, fourth, five, eight, the nine pixel cell P that are listed as that are positioned at fourth line from data-signal input end ES
14, P
44, P
54, P
84, P
94Be electrically connected.From data-signal input end ES count the 8th sweep trace G8 be positioned at fourth line second and third, six, seven, ten row pixel cell P
24, P
34, P
64, P
74, P
104Be electrically connected.By above-mentioned know by inference from data-signal input end ES count electric connection between m (m for more than or equal to 9 positive integer) bar sweep trace and pixel cell, just describe in detail no longer one by one in this.
Referring again to Fig. 1, the display panel 1000 of present embodiment more comprises driver element 400.Driver element 400 is electrically connected with sweep trace and data line.Driver element 400 is suitable for a plurality of sweep signals are sequentially inputed among the sweep trace G1-G8 and with a plurality of data-signals and inputs among the data line S1-S5.In the present embodiment, driver element 400 is for example for being engaged (bound) chip on first substrate 100.
The driver element that Fig. 3 illustrates Fig. 1 inputs to the sweep signal of the sweep trace of Fig. 2.The driver element that Fig. 4 illustrates Fig. 1 inputs to the data-signal of the data line of Fig. 2.As shown in Figures 2 and 3, from article one sweep trace G1 begin to be transfused to sweep signal VG1 when second sweep trace G2 begins to be transfused to sweep signal VG2 during (time point t1 to time point t2 during), shown in Fig. 4 bottom line, at this moment, input to first and third, five data line S1, S3, the data-signal VS of S5 and have the first polarity, and the data-signal VS that inputs second, four data line S2, S4 has the second polarity.The first polarity is opposite with the second polarity.In the present embodiment, the first polarity is for example for negative, and the second polarity is for example for just.Yet, the invention is not restricted to this, in other embodiments, the first polarity also just can be, and that the second polarity also can be is negative.
Fig. 5 illustrates the polarity of the data-signal of the pixel cell that inputs to Fig. 2.Especially, the polarity that the pixel cell representative of inserting oblique line among Fig. 5 inputs to data-signal wherein is for just, and the representative of blank pixel cell inputs to the polarity of data-signal wherein for bearing.Please be simultaneously with reference to Fig. 2, Fig. 3, Fig. 4, Fig. 5, when article one sweep trace G1 is transfused to sweep signal VG1 (time point t1 to time point t2 during), be positioned at first, fourth, five, eight, the nine pixel cell P that are listed as of the first row
11, P
41, P
51, P
81, P
91Can be transfused to the data-signal VS of the bottom the first row of Fig. 4.At this moment, as shown in Figure 5, input to pixel cell P
11, P
41, P
51, P
81It is positive and negative, positive and negative, negative that the polarity of data-signal VS is respectively.
As shown in Figures 2 and 3, from second sweep trace G2 begin to be transfused to sweep signal VG2 when the 3rd sweep trace G3 begins to be transfused to sweep signal VG3 during (time point t2 to time point t3 during), shown in bottom two row of Fig. 4, at this moment, input to first and third, five the polarity of data-signal VS of data line S1, S3, S5 for negative, and input second, four the polarity of data-signal VS of data line S2, S4 for just.Please be simultaneously with reference to Fig. 2, Fig. 3, Fig. 4, Fig. 5, when second sweep trace G2 is transfused to sweep signal VG2 (time point t2 to time point t3 during), be positioned at the first row second and third, six, seven, the ten pixel cell P that are listed as
21, P
31, P
61, P
71, P
101Can be transfused to the data-signal VS of bottom the second row of Fig. 4.At this moment, as shown in Figure 5, input to pixel cell P
21, P
31, P
61, P
71, P
101It is negative, positive, negative, positive, negative that the polarity of data-signal VS is respectively.
As shown in Figures 2 and 3, from the 3rd sweep trace G3 begin to be transfused to sweep signal VG3 when the 4th sweep trace G4 begins to be transfused to sweep signal VG4 during (time point t3 to time point t4 during), shown in bottom three row of Fig. 4, at this moment, input to first and third, five the polarity of data-signal VS of data line S1, S3, S5 for just, and input second, four the polarity of data-signal VS of data line S2, S4 for negative.Please be simultaneously with reference to Fig. 2, Fig. 3, Fig. 4, Fig. 5, from the 3rd sweep trace G3 begin to be transfused to sweep signal VG3 when the 4th sweep trace G4 begins to be transfused to sweep signal VG4 during (time point t3 to time point t4 during), be positioned at the pixel cell P of first, fourth, five, eight, nine row of the second row
12, P
42, P
52, P
82, P
92Be transfused to the data-signal VS of the bottom the third line of Fig. 4.At this moment, as shown in Figure 5, input to pixel cell P
12, P
42, P
52, P
82It is negative, positive, negative, positive that the polarity of data-signal VS is respectively.
As shown in Figures 2 and 3, from the 4th sweep trace G4 begin to be transfused to sweep signal VG4 when the 5th sweep trace G5 begins to be transfused to sweep signal VG5 during (time point t4 to time point t5 during), shown in the bottom four lines of Fig. 4, at this moment, input to first and third, five the polarity of data-signal VS of data line S1, S3, S5 for just, and input second, four the polarity of data-signal VS of data line S2, S4 for negative.Please be simultaneously with reference to Fig. 2, Fig. 3, Fig. 4, Fig. 5, from the 4th sweep trace G4 begin to be transfused to sweep signal VG4 when the 5th sweep trace G5 begins to be transfused to sweep signal VG5 during (time point t4 to time point t5 during), be positioned at the second row second and third, the pixel cell P of six, seven, ten row
22, P
32, P
62, P
72, P
102Be transfused to the data-signal VS of the bottom fourth line of Fig. 4.At this moment, as shown in Figure 5, input to pixel cell P
22, P
32, P
62, P
72, P
102That the polarity of data-signal VS is respectively is positive and negative, positive and negative, just.
As shown in Figures 2 and 3, from the 5th sweep trace G5 begin to be transfused to sweep signal VG5 when the 6th sweep trace G6 begins to be transfused to sweep signal VG6 during (time point t5 to time point t6 during), shown in the bottom fifth line of Fig. 4, at this moment, input to first and third, five the polarity of data-signal VS of data line S1, S3, S5 for negative, and input second, four the polarity of data-signal VS of data line S2, S4 for just.Please be simultaneously with reference to Fig. 2, Fig. 3, Fig. 4, Fig. 5, from the 5th sweep trace G5 begin to be transfused to sweep signal VG5 when the 6th sweep trace G6 begins to be transfused to sweep signal VG6 during (time point t5 to time point t6 during), be positioned at the pixel cell P of first, fourth, five, eight, nine row of the third line
13, P
43, P
53, P
83, P
93Be transfused to the data-signal VS of the bottom fifth line of Fig. 4.At this moment, as shown in Figure 5, input to pixel cell P
13, P
43, P
53, P
83It is positive and negative, positive and negative that the polarity of data-signal VS is respectively.
As shown in Figures 2 and 3, from the 6th sweep trace G6 begin to be transfused to sweep signal VG6 when the 7th sweep trace G7 begins to be transfused to sweep signal VG7 during (time point t6 to time point t7 during), shown in the third line of Fig. 4 the top, at this moment, input to first and third, five the polarity of data-signal VS of data line S1, S3, S5 for negative, and input second, four the polarity of data-signal VS of data line S2, S4 for just.Please be simultaneously with reference to Fig. 2, Fig. 3, Fig. 4, Fig. 5, from the 6th sweep trace G6 begin to be transfused to sweep signal VG6 when the 7th sweep trace G7 begins to be transfused to sweep signal VG7 during (time point t6 to time point t7 during), be positioned at the third line second and third, the pixel cell P of six, seven, ten row
23, P
33, P
63, P
73, P
103Be transfused to Fig. 4 data-signal VS of the third line topmost.At this moment, as shown in Figure 5, input to pixel cell P
23, P
33, P
63, P
73, P
103It is negative, positive, negative, positive, negative that the polarity of data-signal VS is respectively.
As shown in Figures 2 and 3, from the 7th sweep trace G7 begin to be transfused to sweep signal VG7 when the 8th sweep trace G8 begins to be transfused to sweep signal VG8 during (time point t7 to time point t6 during), shown in the second row of Fig. 4 the top, at this moment, input to first and third, five the polarity of data-signal VS of data line S1, S3, S5 for just, and input second, four the polarity of data-signal VS of data line S2, S4 for negative.Please be simultaneously with reference to Fig. 2, Fig. 3, Fig. 4, Fig. 5, from the 7th sweep trace G7 begin to be transfused to sweep signal VG7 when the 8th sweep trace G8 begins to be transfused to sweep signal VG8 during (time point t7 to time point t8 during), be positioned at the pixel cell P of first, fourth, five, eight, nine row of fourth line
14, P
44, P
54, P
84, P
94Be transfused to Fig. 4 data-signal VS of the second row topmost.At this moment, as shown in Figure 5, input to pixel cell P
14, P
44, P
54, P
84It is negative, positive, negative, positive that the polarity of data-signal VS is respectively.
As shown in Figures 2 and 3, from the 8th sweep trace G8 begin to be transfused to sweep signal VG8 when the 9th sweep trace begins to be transfused to sweep signal during (time point t8 to time point t9 during), shown in the first row of Fig. 4 the top, at this moment, input to first and third, five the polarity of data-signal VS of data line S1, S3, S5 for just, and input second, four the polarity of data-signal VS of data line S2, S4 for negative.Please be simultaneously with reference to Fig. 2, Fig. 3, Fig. 4, Fig. 5, from the 8th sweep trace G8 begin to be transfused to sweep signal VG8 when the 9th sweep trace begins to be transfused to sweep signal during (time point t8 to time point t9 during), be positioned at fourth line second and third, the pixel cell P of six, seven, ten row
24, P
34, P
64, P
74, P
104Be transfused to Fig. 4 data-signal VS of the first row topmost.At this moment, as shown in Figure 5, input to pixel cell P
24, P
34, P
64, P
74, P
104That the polarity of data-signal VS is respectively is positive and negative, positive and negative, just.
By on address Fig. 5 as can be known, when display panel 1000 pixel cell P
11-P
104Be connected as shown in Figure 2 with the electrical relation between data line S1-S5, the sweep trace G1-G8, and display panel 1000 is when arranging in pairs or groups as shown in Figure 3, Figure 4 sweep signal, data-signal again, the polarity of the pixel cell that each pixel cell is adjacent is opposite.In other words, electrical relation between the pixel cell that sees through Fig. 2 and data line, the sweep trace and arrange in pairs or groups as shown in Figure 3, Figure 4 sweep signal, data-signal, display panel 1000 shown pictures can have the characteristic of a counter-rotating, and be difficult for glimmering, the unusual problem of demonstration such as cross-talk, and then have high display quality.In addition, as shown in Figure 4, for same data line (for example data line S1), the polarity that inputs to data-signal VS wherein is just to change once the sweep time (refer to time point tk sweep time once during the time point tk+1, k is the positive integer more than or equal to 1) through secondary.In other words, in the present embodiment, the more known some anti-technology of frequency of data-signal VS reversing that inputs to the same data line is little (in known some inversion technique, the polarity that inputs to same data-signal VS is through namely changing once sweep time once), so the display panel 1000 of present embodiment has more the advantage of low-power consumption when having high display quality.
In sum, the display panel of one embodiment of the invention can make display panel have the advantage of high display quality and low-power consumption concurrently by electrical connection and arrange in pairs or groups suitable data-signal and sweep signal between special pixel cell and data line, the sweep trace.
Although the present invention with embodiment openly as above; so it is not to limit the present invention; have in the technical field under any and usually know the knowledgeable; when not breaking away from the spirit and scope of the present invention; when doing a little change and retouching, so protection scope of the present invention is as the criterion when looking aforesaid the claim person of defining.
Claims (8)
1. a display panel is characterized in that, comprising:
One image element array substrates comprises:
One first substrate has a data-signal input end and one scan signal input part;
Many data lines are disposed in this first substrate and along a line direction and extend, and those data lines are sequentially arranged along a column direction from this sweep signal input end;
The multi-strip scanning line is disposed in this first substrate and along this column direction and extends, and those sweep traces are sequentially arranged along this line direction from this data-signal input end; And
A plurality of pixel cells, be disposed in this first substrate, those pixel cells from this sweep signal input end along this column direction line up at least seven row and certainly this data-signal input end line up at least three row along this line direction, wherein counting this data line of article one from this sweep signal input end is electrically connected with those pixel cells that are positioned at the second row, count this data line of second and be positioned at first from this sweep signal input end, those pixel cells of three row are electrically connected, count the 3rd this data line and certainly be positioned at the 4th from this sweep signal input end, those pixel cells of six row are electrically connected, count the 4th this data line and be positioned at the 5th from this sweep signal input end, those pixel cells of seven row are electrically connected, count this sweep trace of article one and be positioned at first of the first row from this data-signal input end, four, those pixel cells of five row are electrically connected, count this sweep trace of second and be positioned at second of the first row from this data-signal input end, three, six, those pixel cells of seven row are electrically connected, count this sweep trace of the 3rd and be positioned at first of the second row from this data-signal input end, four, those pixel cells of five row are electrically connected, count this sweep trace of the 4th and be positioned at second of the second row from this data-signal input end, three, six, those pixel cells of seven row are electrically connected, count this sweep trace of the 5th and be positioned at first of the third line from this data-signal input end, four, those pixel cells of five row are electrically connected, and this data-signal input end is counted this sweep trace of the 6th and is positioned at second of the third line certainly, three, six, those pixel cells of seven row are electrically connected;
One subtend substrate is with respect to this image element array substrates configuration; And
One display medium is disposed between this image element array substrates and this subtend substrate.
2. display panel as claimed in claim 1, it is characterized in that, also comprise: a driver element, be suitable for a plurality of sweep signals are sequentially inputed in those sweep traces and with a plurality of data-signals and input in those data lines, wherein from this sweep trace of this article one begin to be transfused to this sweep signal when this sweep trace of the 3rd begins to be transfused to this sweep signal during, input to first, article three, those data-signals of this data line have the first polarity, and input second, article four, those data-signals of this data line have the second polarity, from this sweep trace of the 3rd begin to be transfused to this sweep signal when this sweep trace of the 5th begins to be transfused to this sweep signal during, input to first, article three, those data-signals of this data line have the second polarity, and input second, article four, those data-signals of this data line have the first polarity, from the 5th, article six, this sweep trace be transfused to those sweep signals during, input to first, article three, those data-signals of this data line have the first polarity, and input second, article four, those data-signals of this data line have the second polarity, and the first polarity is opposite with the second polarity.
3. display panel as claimed in claim 2, it is characterized in that, those pixel cells from this sweep signal input end along this column direction line up at least ten row and certainly this data-signal input end line up at least four row along this line direction, from this sweep signal input end count the 5th this data line more be positioned at the 8th, those pixel cells of ten row are electrically connected, from this data-signal input end count this sweep trace of article one more be positioned at the 8th of the first row, those pixel cells of nine row are electrically connected, this sweep trace of counting second from this data-signal input end more is electrically connected with the tenth those pixel cells that are listed as that are positioned at the first row, from this data-signal input end count the 3rd this sweep trace more be positioned at the 8th of the second row, those pixel cells of nine row are electrically connected, this sweep trace of counting the 4th from this data-signal input end more is electrically connected with those pixel cells of the tenth row that are positioned at the second row, from this data-signal input end count the 5th this sweep trace more be positioned at the 8th of the third line, those pixel cells of nine row are electrically connected, this sweep trace of counting the 6th from this data-signal input end more is electrically connected with those pixel cells of the tenth row that are positioned at the third line, count this sweep trace of the 7th and be positioned at first of fourth line from this data-signal input end, four, five, eight, those pixel cells of nine row are electrically connected, and this data-signal input end is counted this sweep trace of the 8th and is positioned at second of fourth line certainly, three, six, seven, those pixel cells of ten row are electrically connected.
4. display panel as claimed in claim 3, it is characterized in that, from this sweep trace of this article one begin to be transfused to this sweep signal when this sweep trace of the 3rd begins to be transfused to this sweep signal during, those data-signals that input to this data line of the 5th have the first polarity, from this sweep trace of the 3rd begin to be transfused to this sweep signal when this sweep trace of the 5th begins to be transfused to this sweep signal during, those data-signals that input to the 5th this data line have the second polarity, from this sweep trace of the 5th begin to be transfused to this sweep signal when this sweep trace of the 7th begins to be transfused to this sweep signal during, those data-signals that input to the 5th this data line have the first polarity, from the 7th, article eight, this sweep trace be transfused to those sweep signals during, those data-signals that input to this data line of the 5th have the second polarity.
5. display panel as claimed in claim 2, wherein this first polarity is for negative, and this second polarity is for just.
6. display panel as claimed in claim 1 is characterized in that, each this pixel cell comprises a driving component and a pixel electrode that is electrically connected with this driving component.
7. display panel as claimed in claim 1 is characterized in that, this subtend substrate is a colored filter substrate.
8. display panel as claimed in claim 1 is characterized in that, this display medium comprises liquid crystal, organic electro luminescent layer or electrophoresis particle.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012103873087A CN102956183A (en) | 2012-10-12 | 2012-10-12 | Display panel |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012103873087A CN102956183A (en) | 2012-10-12 | 2012-10-12 | Display panel |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN102956183A true CN102956183A (en) | 2013-03-06 |
Family
ID=47764928
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2012103873087A Pending CN102956183A (en) | 2012-10-12 | 2012-10-12 | Display panel |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102956183A (en) |
Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20050243044A1 (en) * | 2004-04-19 | 2005-11-03 | Samsung Electronics Co., Ltd. | Display device |
| CN100481168C (en) * | 2004-04-19 | 2009-04-22 | 三星电子株式会社 | Display device and driving method thereof |
| CN101566744A (en) * | 2009-06-08 | 2009-10-28 | 友达光电股份有限公司 | Liquid crystal display and liquid crystal display panel thereof |
| CN101587270A (en) * | 2008-05-23 | 2009-11-25 | 乐金显示有限公司 | Liquid crystal display |
| CN101996603A (en) * | 2010-10-18 | 2011-03-30 | 深圳市华星光电技术有限公司 | Liquid crystal display device and driving method thereof |
-
2012
- 2012-10-12 CN CN2012103873087A patent/CN102956183A/en active Pending
Patent Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20050243044A1 (en) * | 2004-04-19 | 2005-11-03 | Samsung Electronics Co., Ltd. | Display device |
| CN100481168C (en) * | 2004-04-19 | 2009-04-22 | 三星电子株式会社 | Display device and driving method thereof |
| CN101587270A (en) * | 2008-05-23 | 2009-11-25 | 乐金显示有限公司 | Liquid crystal display |
| CN101566744A (en) * | 2009-06-08 | 2009-10-28 | 友达光电股份有限公司 | Liquid crystal display and liquid crystal display panel thereof |
| CN101996603A (en) * | 2010-10-18 | 2011-03-30 | 深圳市华星光电技术有限公司 | Liquid crystal display device and driving method thereof |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN103513808B (en) | Touch panel, touch display panel, touch detection method and display method | |
| CN102866551B (en) | Liquid-crystal display device and driving circuit thereof | |
| TWI454812B (en) | Pixel array of fringe field switching liquid crystal display panel and driving method thereof | |
| CN105159513B (en) | Array substrate, self-tolerant touch-control display panel and electronic device | |
| US20130154910A1 (en) | Display panel | |
| CN102819157A (en) | Liquid crystal display panel and display device | |
| CN105243980A (en) | Thin film transistor array substrate, display panel and solid color picture detection method | |
| CN101718928A (en) | Electrode structure, display panel and dsiplay | |
| CN102117602A (en) | Driving structure of display panel | |
| CN112086077A (en) | Array substrate and display panel | |
| US10222897B2 (en) | Array substrate, driving method, manufacturing method thereof and corresponding display apparatus | |
| US8953132B2 (en) | Pixel array of fringe field switching liquid crystal display panel and driving method thereof | |
| CN106154668A (en) | Pixel driver system, liquid crystal display and image element driving method | |
| CN216118747U (en) | Circuit structure for reducing Data Demux wiring load | |
| CN105093599A (en) | Display panel, display panel forming method and display device | |
| CN109983528B (en) | Shift register circuit, driving circuit, display device and driving method | |
| CN105372884A (en) | LCD panel and electronic device using same | |
| CN110082978B (en) | Array substrate, driving method thereof and display device | |
| US10592040B2 (en) | Touch panel liquid crystal display device and method of driving the same | |
| CN106094306A (en) | A kind of display panels, array base palte and driving method thereof | |
| US20110050673A1 (en) | Display module and display apparatus | |
| CN106775096B (en) | Array substrate, display panel, display device and driving method | |
| CN105137689A (en) | Array substrate used for improving horizontal brightness line and liquid crystal display panel | |
| CN106775092A (en) | Array base palte, touch-control display panel, touch control display apparatus and driving method | |
| CN113035141A (en) | Display screen, display screen driving method and device, electronic equipment and storage medium |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C02 | Deemed withdrawal of patent application after publication (patent law 2001) | ||
| WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20130306 |