CN100511408C - Display method for relieving image retention on LCD device - Google Patents

Abstract

The invention discloses a display method for improving the image retention of the liquid crystal display, the method using the switching period of the liquid crystal display, the datawire is added voltage to absorb the gritty particles through the datawire and to reduce the extent of image retention; at the same time, the afterimage phenomena resulted in the longtime fixing driving voltage is reduced by the asymmetrical driving waveform.

Description

Improve the display packing of image residue on the LCD

Technical field

The present invention relates to a kind of display packing of improving image residue, especially relate to a kind of display packing of improving image residue on the LCD.

Background technology

Please refer to Fig. 1.Fig. 1 is the drawing in side sectional elevation of the LCD 100 of prior art.LCD 100 is made of two sheet glass substrate G1, G2, and injects liquid crystal layer L1 in the middle of this two sheet glass substrate.Comprised liquid crystal molecule X in this liquid crystal layer.Comprised many data lines (not shown) and multi-strip scanning line (not shown) and a plurality of and pixel region (not shown) of forming staggered with data line on the glass substrate G1 by sweep trace, and liquid crystal molecule X of each pixel region correspondence.Yet in actual conditions, in liquid crystal layer L1, except liquid crystal molecule X, go back impurity molecule P.Impurity molecule P can be electropositivity or electronegativity as shown in the figure.

Please refer to Fig. 2.Fig. 2 is the synoptic diagram of LCD 100 when display frame of prior art.As shown in the figure, when wanting display frame, can add between glass substrate G1 and the G2 that a voltage difference makes liquid crystal molecule X turn to.That is to say, between glass substrate G1 and G2, can produce an electric field E.And when liquid crystal molecule X turns to, impurity molecule P also can because of itself electrically, along with the direction of electric field moves.

Please refer to Fig. 3.Fig. 3 is the synoptic diagram of LCD 100 after display frame a period of time of prior art.As shown in the figure, after display frame a period of time, the electric field E that is added between glass substrate G1 and the G2 can make that moving of impurity molecule P is more thorough.Make the impurity molecule P have positive electricity all accumulate in a side, and the impurity molecule P that has a negative electricity accumulate in an other side.Such situation, because impurity molecule P translational speed is slower, therefore can't become the situation of normal distribution originally again at electric field E disappearance rear impurity molecule P at once, so, impurity molecule P just can produce the another one electric field in liquid crystal layer L1, and make the former liquid crystal molecule X that should get back to the precalculated position be affected, cause and can't get back to precalculated position originally.That is to say, if default originally electric field is E1, impurity molecule P assembles and the electric field that produces is E2, under perfect condition, the electric field that liquid crystal molecule P is subjected to should be E1, and can turn to preposition according to electric field E1, but because the effect of the electric field E2 that impurity molecule P produces, the electric field that in fact liquid crystal molecule P is subjected to becomes E1+E2, so liquid crystal molecule P just can't turn to preposition smoothly, has therefore produced the phenomenon of image residue.

Please refer to Fig. 4.Fig. 4 is the synoptic diagram of LCD 100 after display frame a period of time of prior art.Because the direction that impurity molecule P is moved except the influence of electric field E, also can be subjected to the influence that liquid crystal molecule X turns to.As shown in Figure 4,, therefore cause impurity molecule P except moving in vertical direction, the traversing of horizontal direction also arranged because liquid crystal molecule X is subjected to electric field E and slightly inclined.And the result who continue to move will cause impurity molecule P to be piled up in the boundary of LCD 100, and it is bigger to cause liquid crystal molecule X near the border to be subjected to the influence of impurity molecule P, and it is less to be subjected to the influence of impurity molecule P near the liquid crystal molecule X of central authorities.So, liquid crystal molecule X near the border will have obviously different with the electric field that is subjected near central liquid crystal molecule X, and have uneven situation, the image residue of so-called wire that Here it is (image sticking ofline shape type) when causing display frame.

Summary of the invention

The invention provides the display packing of image residue on a kind of improvement one LCD, this LCD comprises a plurality of pixel regions that multi-strip scanning line, many data lines and this multi-strip scanning line and these many data lines are staggered to form.This display packing is included in a very first time, opens these many data lines and opens this multi-strip scanning line successively, and the data of one first picture are inputed to this many data lines, so that these a plurality of pixel regions show this first picture; In one second time, open these many data lines and open this multi-strip scanning line successively, and the data of one second picture are inputed to this many data lines, so that these a plurality of pixel regions show this second picture; And between this very first time and this second time, close this multi-strip scanning line and one first voltage is inputed to a first of these many data lines.

The present invention also provides a kind of display packing of improving image residue on the LCD, this LCD comprises a plurality of pixel regions that multi-strip scanning line, many data lines and this multi-strip scanning line and these many data lines are staggered to form, and an end of these a plurality of pixel regions all is coupled to a common voltage.This display packing comprises the corresponding relation according to one first kind of data and voltage, and one first data are converted to one first voltage and one second voltage; According to the corresponding relation of one second kind of data and voltage, one second data are converted to a tertiary voltage and one the 4th voltage; In one first semiperiod, start one first sweep trace, this first voltage is imported first data line, make this first voltage import one first pixel region; In one second semiperiod, start this first sweep trace, this second voltage is imported this first data line, make this second voltage import this first pixel region; In this first semiperiod, start one second sweep trace, this tertiary voltage is imported second data line, make this tertiary voltage import one second pixel region; And in this second semiperiod, start this second sweep trace, and the 4th voltage is imported this second data line, make the 4th voltage import this second pixel region; Wherein the difference difference of the difference of this first voltage and this common voltage and this second voltage and this common voltage and that be different from the difference of this tertiary voltage and this common voltage and the 4th voltage and this common voltage with.

The present invention also provides a kind of display packing of improving image residue on the LCD, and this LCD comprises a plurality of pixel regions that multi-strip scanning line, many data lines and this multi-strip scanning line and these many data lines are staggered to form.This display packing comprises the corresponding relation according to one first kind of data and voltage, and one first data are converted to one first voltage and one second voltage; According to the corresponding relation of these first kind of data and voltage, one second data are converted to a tertiary voltage and one the 4th voltage; In one first semiperiod, start one first sweep trace, this first voltage is imported first data line, make this first voltage import one first pixel region; In one second semiperiod, start this first sweep trace, this second voltage is imported this first data line, make this second voltage import this first pixel region; In this first semiperiod, start one second sweep trace, this tertiary voltage is imported second data line, make this tertiary voltage import one second pixel region; And in this second semiperiod, start this second sweep trace, and the 4th voltage is imported this second data line, make the 4th voltage import this second pixel region; Wherein an end of this first pixel region and this second pixel region is respectively coupled to one first common voltage and one second common voltage, and the difference difference of the difference of this tertiary voltage and this second common voltage and the 4th voltage and this second common voltage and that be different from the difference of this first voltage and this first common voltage and this second voltage and this first common voltage with.

Description of drawings

Fig. 1 is the drawing in side sectional elevation of the LCD of prior art;

Fig. 2 is the synoptic diagram of LCD when display frame of prior art;

Fig. 3 is the synoptic diagram of LCD after display frame a period of time of prior art;

Fig. 4 is the synoptic diagram of LCD after display frame a period of time of prior art;

Fig. 5 and Fig. 6 are the synoptic diagram that improves the residual display packing of LCD image of the present invention;

Fig. 7 is the synoptic diagram that improves the display packing of LCD with data line absorption impurity molecule of the present invention;

Fig. 8 is the synoptic diagram of LCD in display frame;

Fig. 9 is the residual display packing of LCD image applies voltage in the clear area the synoptic diagram that improves of the present invention;

Figure 10 is the synoptic diagram of the voltage describing the general data line and applied;

Figure 11 and Figure 12 are for describing the present invention improves the residual display packing of LCD image with the relation of different pieces of information content corresponding voltage synoptic diagram;

Figure 13 is the synoptic diagram that the voltage difference between the data of description line is adsorbed impurity molecule;

Figure 14 improves the synoptic diagram of the residual display packing of LCD image with Figure 15 for the present invention is described with different common voltages.

Wherein, Reference numeral:

100 500 LCD

The P impurity molecule

The X liquid crystal molecule

The L1 liquid crystal layer

The G1G2 glass substrate

The E electric field

The D data line

V _ComCommon voltage

The B clear area

The T cycle

F0 F1 F2 F3 F4 data

Embodiment

Please refer to Fig. 5 and Fig. 6.Fig. 5 and Fig. 6 are the synoptic diagram that improves the residual display packing of LCD image of the present invention.As shown in Figure 5, after on LCD 500, having applied electric field, originally the impurity molecule P of normal distribution in LCD 500 begins to move from the initial position of script, through too much bar data line D, the impurity molecule P of last positively charged accumulates in a side, and electronegative impurity molecule P accumulates in opposite side.Please refer to Fig. 6.The present invention promptly according to the phenomenon of Fig. 5, applies a high voltage on data line D, when impurity molecule P passed through, P held with impurity molecule.Therefore, all can adsorb the impurity molecule P of a part on every data line D, thereby can reduce a large amount of impurity molecule P as prior art to accumulate in both sides and the phenomenon of tangible image residue is arranged.

Please refer to Fig. 7.Fig. 7 is the synoptic diagram that improves the display packing of LCD with data line D absorption impurity molecule P of the present invention.As can be seen from Figure 7, can apply positive voltage on the data line D, also can apply the impurity molecule P of negative voltage with adsorption band positive electricity to adsorb electronegative impurity molecule P.The voltage that is applied on the data line D only needs to adsorb effectively assorted value molecule P and gets final product.

Please refer to Fig. 8.Fig. 8 is the synoptic diagram of LCD in display frame.In addition, the voltage of the voltage among Fig. 8 for being applied on the expression data line D.In general, LCD can certain interval of time after having shown a picture, and then shows next picture, Here it is so-called clear area B (blanking).That is to say that the voltage on the data line D when display frame, can be applied with many different voltages with display frame, and, only be applied with common voltage V as data line D during in the clear area _ComCommon voltage V _ComFor on the LCD for the end relatively of liquid crystal molecule, liquid crystal molecule P is turned to.Therefore, the data line D on the LCD of prior art can't adsorb impurity molecule P when the B of clear area.

And because when the clear area, the sweep trace of LCD can not transmit any sweep signal, that is to say, in the middle of during this period of time, on data line D, apply any voltage, can not influence turning to of liquid crystal molecule X, therefore, the convenient characteristic with clear area B of the present invention applies a high voltage, with absorption impurity molecule P.

Please refer to Fig. 9.Fig. 9 is the residual display packing of LCD image applies voltage at clear area B the synoptic diagram that improves of the present invention.As shown in the figure, the present invention can be applied with one greater than common voltage V when a positive voltage makes data line D at clear area B applying on the B of clear area _ComVoltage with absorption impurity molecule P; The present invention also can be applied with one when a negative voltage makes data line D at clear area B and be lower than common voltage V applying on the B of clear area _ComVoltage with absorption impurity molecule P.

Please refer to Figure 10.Figure 10 is for describing the synoptic diagram of the voltage that is applied on the general data line D.In general, according to the characteristic of liquid crystal molecule X, the voltage on the data line D is for to drive liquid crystal molecule X with exchange way.The cycle of supposing one group of data transmission is T, then at data line, these group data period T preceding half section with corresponding to common voltage V _ComOn the occasion of transmission, and second half section of period T with corresponding to common voltage V _ComNegative value transmit, and it is on the occasion of the size of, the negative value content corresponding to these group data.As shown in figure 10, common voltage V _ComBe made as 0 volt, the content of data F0 is 0, and pairing voltage is 0 volt, 0 volt.The content of data F1 is 1, and pairing voltage is+1 volt ,-1 volt.The content of data F2 is 2, and pairing voltage is+2 volts ,-2 volts ... the rest may be inferred.And the voltage that in fact liquid crystal layer L1 is received, because common voltage V _ComBe 0 volt, then data F0 is 0 volt, 0 volt, and data F1 is+1 volt ,-1 volt, and data F2 is+2 volts ,-2 volts ... the rest may be inferred.

Please refer to Figure 11 and Figure 12.Figure 11 and Figure 12 are for describing the present invention improves the residual display packing of LCD image with the relation of different pieces of information content corresponding voltage synoptic diagram.Figure 11 up raises 1 volt with data among Figure 10 corresponding to the relation of voltage.As shown in the figure, the content of data F0 is 0, and pairing voltage is 1 volt, 1 volt.The content of data F1 is 1, and pairing voltage is 2 volts, 0 volt.The content of data F2 is 2, and pairing voltage is 3 volts ,-1 volt ... the rest may be inferred.And the in fact received voltage of liquid crystal layer L1, because common voltage V _ComBe 0 volt, then data F0 is 1 volt, 1 volt, and data F1 is 2 volts, 0 volt, and data F2 is 3 volts ,-1 volt ... the rest may be inferred.Figure 12 down reduces by 1 volt with data among Figure 10 corresponding to the relation of voltage.As shown in the figure, the content of data F0 is 0, and pairing voltage is-1 volt ,-1 volt.The content of data F1 is 1, and pairing voltage is 0 volt ,-2 volts.The content of data F2 is 2, and pairing voltage is 1 volt ,-3 volts.And the in fact received voltage of liquid crystal layer L1, because common voltage V _ComBe 0 volt, then data F0 is-1 volt ,-1 volt, and data F1 is 0 volt ,-2 volts, and data F2 is 1 volt ,-3 volts ... the rest may be inferred.In the LCD of prior art, all data lines all are with the corresponding relation as data among Figure 10 and voltage, come transmission voltage, therefore on average, between data line and the data line, do not have voltage difference and produce.And for impurity molecule P, just can pass through easily.And the present invention uses the relation of different data corresponding voltage at different data lines, as Figure 11 and Figure 12.For instance, the present invention can be at adjacent data line, a corresponding relation that uses Figure 11, and another uses the corresponding relation of Figure 12.Thus, long-time averaged result between adjacent data line, just can produce a voltage difference, and this voltage difference just can be given absorption with impurity molecule P.And if the data line of whole LCD all uses the relation of different data corresponding voltage, just can be with the mobile dispersion of impurity molecule P, and then reduce the degree that impurity molecule P is deposited in both sides.

Please refer to Figure 13.Figure 13 is the synoptic diagram that the voltage difference between the data of description line D is adsorbed impurity molecule P.As can be seen from Figure, each data line applies the relation of different data corresponding voltage, and the voltage difference that is caused can effectively be adsorbed impurity molecule, and with the mobile dispersion of impurity molecule P, and then reduce the degree that impurity molecule P is deposited in both sides.

Please refer to Figure 14 and Figure 15.Figure 14 is to describe the present invention improves the residual display packing of LCD image with different common voltages synoptic diagram with Figure 15.Figure 14 promptly is with the common voltage V among Figure 10 _ComUp improve 1 volt.As shown in the figure, the content of data F0 is 0, and pairing voltage is 0 volt, 0 volt.The content of data F1 is 1, and pairing voltage is+1 volt ,-1 volt.The content of data F2 is 2, and pairing voltage is+2 volts ,-2 volts ... the rest may be inferred.And the voltage that in fact liquid crystal layer L1 is received, because common voltage V _ComBe 1 volt, then data F0 is-1 volt ,-1 volt, and data F1 is 0 volt ,-2 volts, and data F2 is+1 volt ,-3 volts ... the rest may be inferred.Figure 15 promptly is with the common voltage V among Figure 10 _ComDown reduce by 1 volt.As shown in the figure, the content of data F0 is 0, and pairing voltage is 0 volt, 0 volt.The content of data F1 is 1, and pairing voltage is+1 volt ,-1 volt.The content of data F2 is 2, and pairing voltage is+2 volts ,-2 volts ... the rest may be inferred.And the voltage that in fact liquid crystal layer L1 is received, because common voltage V _ComBe-1 volt, then data F0 be+1 volt ,+1 volt, data F1 is 2 volts, 0 volt, data F2 is+3 volts ,-1 volt ... the rest may be inferred.In the LCD of prior art, all data lines all are with the corresponding relation as data among Figure 10 and voltage, transmit voltage, therefore on average, between data line and the data line, do not have voltage difference and produce.And for impurity molecule P, just can pass through easily.And the present invention such as Figure 14 and Figure 15 use different common voltages at different data lines.For instance, the present invention can be at adjacent data line, a common voltage that uses Figure 14, and another uses the common voltage of Figure 15.Thus, long-time averaged result between adjacent data line, just can produce a voltage difference, and this voltage difference can be adsorbed impurity molecule P just.And if the data line of whole LCD all uses the relation of different data corresponding voltage, just can be with the mobile dispersion of impurity molecule P, and then reduce the degree that impurity molecule P is deposited in both sides.

In sum, utilize the residual display packing of LCD image of improving of the present invention, can effectively reduce the degree that impurity molecule is piled up, improve the residual problem of LCD image of prior art, and improve the quality that picture shows.

The above only is preferred embodiment of the present invention, and obviously under the situation that does not break away from the spirit and scope of the present invention, those of ordinary skill in the art can make various improvement and variation to the present invention.Therefore, the invention is intended to cover improvement and variation within all scopes that fall into claims and equivalent thereof.

Claims (20)

1. display packing of improving image residue on the LCD, this LCD comprises multi-strip scanning line, many data lines and this multi-strip scanning line and a plurality of pixel regions that these many data lines are staggered to form, and it is characterized in that this display packing comprises:

In a very first time, open these many data lines and open this multi-strip scanning line successively, and the data of one first picture are inputed to this many data lines, so that these a plurality of pixel regions show this first picture;

In one second time, open these many data lines and open this multi-strip scanning line successively, and the data of one second picture are inputed to this many data lines, so that these a plurality of pixel regions show this second picture; And

Between this very first time and this second time, close this multi-strip scanning line and first voltage is inputed to a first of these many data lines, wherein

Described first voltage is one to be lower than the negative voltage of common voltage greater than the positive voltage or of common voltage.

2. display packing according to claim 1 is characterized in that, also is included between this very first time and this second time, closes this multi-strip scanning line and one second voltage is inputed to a second portion of these many data lines.

3. display packing according to claim 2 is characterized in that, this second voltage is opposite with the polarity of this first voltage.

4. display packing of improving image residue on the LCD, this LCD comprises a plurality of pixel regions that multi-strip scanning line, many data lines and this multi-strip scanning line and these many data lines are staggered to form, one end of these a plurality of pixel regions all is coupled to a common voltage, it is characterized in that this display packing comprises:

According to the corresponding relation of one first kind of data and voltage, one first data are converted to one first voltage and one second voltage;

According to the corresponding relation of one second kind of data and voltage, one second data are converted to a tertiary voltage and one the 4th voltage;

In one first semiperiod, start one first sweep trace, this first voltage is imported first data line, make this first voltage import one first pixel region;

In one second semiperiod, start this first sweep trace, this second voltage is imported this first data line, make this second voltage import this first pixel region;

In this first semiperiod, start one second sweep trace, this tertiary voltage is imported second data line, make this tertiary voltage import one second pixel region; And

In this second semiperiod, start this second sweep trace, the 4th voltage is imported this second data line, make the 4th voltage import this second pixel region;

Wherein the difference difference of the difference of this first voltage and this common voltage and this second voltage and this common voltage and that be different from the difference of this tertiary voltage and this common voltage and the 4th voltage and this common voltage with.

5. display packing according to claim 4 is characterized in that, this common voltage is a fixed voltage value.

6. display packing according to claim 4 is characterized in that, this common voltage is different magnitudes of voltage in first semiperiod and second semiperiod.

7. display packing according to claim 4 is characterized in that, the corresponding relation of these first kind of data and voltage is different from the corresponding relation of these second kind of data and voltage.

8. display packing according to claim 4 is characterized in that the difference of this tertiary voltage and this common voltage is different from the difference of the 4th voltage and this common voltage.

9. display packing according to claim 4 is characterized in that, this first voltage is identical with respect to the polarity of this common voltage with this tertiary voltage, and this second voltage is identical with respect to the polarity of this common voltage with the 4th voltage.

10. display packing according to claim 4 is characterized in that, this first voltage is opposite with respect to the polarity of this common voltage with this tertiary voltage, and this second voltage is opposite with respect to the polarity of this common voltage with the 4th voltage.

11. display packing according to claim 4 is characterized in that, this first voltage is opposite with respect to the polarity of this common voltage with this second voltage, and this tertiary voltage is opposite with respect to the polarity of this common voltage with the 4th voltage.

12. display packing according to claim 4 is characterized in that, this first pixel region is adjacent to this second pixel region.

13. a display packing of improving image residue on the LCD, this LCD comprise multi-strip scanning line, many data lines and this multi-strip scanning line and a plurality of pixel regions that these many data lines are staggered to form, and it is characterized in that this display packing comprises:

According to the corresponding relation of one first kind of data and voltage, one first data are converted to one first voltage and one second voltage;

According to the corresponding relation of these first kind of data and voltage, one second data are converted to a tertiary voltage and one the 4th voltage;

In one first semiperiod, start one first sweep trace, this first voltage is imported first data line, make this first voltage import one first pixel region;

In one second semiperiod, start this first sweep trace, this second voltage is imported this first data line, make this second voltage import this first pixel region;

In this first semiperiod, start one second sweep trace, this tertiary voltage is imported second data line, make this tertiary voltage import one second pixel region; And

In this second semiperiod, start this second sweep trace, the 4th voltage is imported this second data line, make the 4th voltage import this second pixel region;

Wherein an end of this first pixel region and this second pixel region is respectively coupled to one first common voltage and one second common voltage, and the difference difference of the difference of this tertiary voltage and this second common voltage and the 4th voltage and this second common voltage and that be different from the difference of this first voltage and this first common voltage and this second voltage and this first common voltage with.

14. display packing according to claim 13 is characterized in that, the difference of this first voltage and this first common voltage is different from the difference of this second voltage and this second common voltage.

15. display packing according to claim 13 is characterized in that, the difference of this tertiary voltage and this second common voltage is different from the difference of the 4th voltage and this second common voltage.

16. display packing according to claim 13 is characterized in that, if these first data are identical with these second data, then this first voltage is identical with this tertiary voltage, and this second voltage is identical with the 4th voltage.

17. display packing according to claim 13, it is characterized in that, the polarity with respect to this first common voltage and this second common voltage is identical respectively with this tertiary voltage for this first voltage, and the polarity with respect to this first common voltage and this second common voltage is identical respectively with the 4th voltage for this second voltage.

18. display packing according to claim 13, it is characterized in that, the polarity with respect to this first common voltage and this second common voltage is opposite respectively with this tertiary voltage for this first voltage, and the polarity with respect to this first common voltage and this second common voltage is opposite respectively with the 4th voltage for this second voltage.

19. display packing according to claim 13, it is characterized in that, the polarity with respect to this first common voltage and this second common voltage is opposite respectively with this second voltage for this first voltage, and the polarity with respect to this first common voltage and this second common voltage is opposite respectively with the 4th voltage for this tertiary voltage.

20. display packing according to claim 13 is characterized in that, this first pixel region is adjacent to this second pixel region.

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