CN101345030A - Display equipment and method for driving the same - Google Patents

Abstract

The invention provides a display device and a driving method of the display panel. Each line of data wire in the display panel is provided with two sub-data wires. The driving method of the invention comprises the steps as follows: firstly, an input image signal is divided into a plurality of image sections; each image section is provided with display data of pixels which are coupled with two adjacent lines of scanning wires; subsequently, every K image sections are divided into a group; then, a reset data is inserted into the image section of each group so as to form an image signal. The display data of the first group is written in by K times according to a first starting waveform; after a given time of the first starting waveform, the scanning wire corresponding to the first group is driven simultaneously according to a second starting waveform; the reset data is output to the first sub-data wire and the second sub-data wire.

Description

The driving method of display device and display panel thereof

Technical field

The present invention relates to the driving method of a kind of display device and display panel thereof, and particularly relate to the driving method of a kind of liquid crystal indicator and display panel thereof.

Background technology

In order to satisfy the demand of LCD TV (LCD TV) market to image quality, the specification of high resolving power, pulsed system (impulse system) and high picture update rate (high frame rate) is moved towards in the application of display panels (liquidcrystal display) gradually.Yet it has been the duration of charging of margin (margin) that above-mentioned each specification all can have influence on, and please refer to following explanation.

Fig. 1 is the block diagram of known double picture update rate (double frame rate) display system.The display panel 101 of this system is divided into the upper and lower half, and the gate drivers 102,103 that utilizes left and right two sides of display panel 101 drives the sweep trace (not shown) in the display panel 101, the pixel (pixel) that is coupled with further unlatching sweep trace, arrange in pairs or groups simultaneously at the source electrode driver 104,105 of upper and lower two sides of display panel 101, be given in the required video data of pixel that is unlocked in the first half and the Lower Half respectively.

Said system also adopts the technology of pulsed system, so each signal sequence in the system as shown in Figure 2.Fig. 2 is each signal timing diagram of system shown in Figure 1, and wherein, STV1～STV4 is the initial drive signal of grid, and VCLK is a clock signal, and OE is the output enable signal, and/OE is the inversion signal of OE, then is the grid impulse signal as for VG1～VGn.As shown in Figure 2, the technology of pulsed system be adopt every sweep trace timesharing method of driving with write time of image data and reset signal (be used for inserting black picture) separately.In addition, by means of Fig. 2 also as can be known, if the write time of image data and reset signal for dividing equally, then effective duration of charging of said two devices is all H/2-Trc, wherein H is sweep trace sweep time, Trc is RC time delay.If the write time of image data and reset signal is not to divide equally, for example the time with 2H/3 writes image data, and writes reset signal with the time of H/3, and then effective duration of charging of said two devices is respectively 2H/3-Trc and H/3-Trc.

Originally utilize reset signal to insert black picture, it is dynamic afterimage (motion blur) problem that is produced because of freeze mode demonstration (hold-type display) in order to solve, but under the condition that improves picture update rate, duration of charging will face the limit more, even allow the duration of charging of image data elongate reluctantly, but the duration of charging of reset signal will face deficiency, thereby cause invalid charging, and then can't reach the desired value of reset signal, and the emulation pulsed shows that the effect of (impulse type display) can give a discount, and dynamically the phenomenon of afterimage also can't be improved effectively.

Summary of the invention

Purpose of the present invention just provides a kind of display device, and it can provide double picture update rate, and can effectively eliminate dynamic afterimage.

Another object of the present invention provides a kind of driving method of display panel, and it can provide double picture update rate, and can effectively eliminate dynamic afterimage.

Based on above-mentioned and other purpose, the present invention proposes a kind of display device, and it comprises display panel, gate drivers, first source electrode driver and second source electrode driver.And above-mentioned display panel comprises M column scan line, N line data line and M * N pixel, and each line data line comprises one first subdata line and one second subdata line, and above-mentioned pixel is lined up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), and 1≤i≤M, and 1≤j≤N, and the capable first subdata line and the i column scan line of j is coupled to pixel P (i, j), second subdata line that j is capable and i+1 column scan line are coupled to pixel P, and (i+1, j), wherein N, M, i, j are all positive integer.Gate drivers is used for driving above-mentioned sweep trace, and first source electrode driver and second source electrode driver are used for controlling above-mentioned first subdata line and the above-mentioned second subdata line respectively, and output image signal.Above-mentioned signal of video signal has a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled, and every K image section be defined as a group, and K is a positive integer, has replacement data in the image section of each group.Gate drivers is according to the first initial waveform, drives one first group's corresponding scanning beam in the mode that is divided into K time, and drives the sweep traces of adjacent two row at every turn.When adjacent two column scan lines are driven, first source electrode driver is exported the video data of the pixel that is coupled corresponding to the i column scan line that is driven in the sweep trace, and second source electrode driver is exported the video data of the pixel that is coupled corresponding to the i+1 column scan line that is driven in the sweep trace.Gate drivers is after receiving first initial waveform one given time, be to drive above-mentioned first group's corresponding scanning beam simultaneously, and respectively the replacement data exported to above-mentioned first subdata line and the above-mentioned second subdata line by first source electrode driver and second source electrode driver according to the second initial waveform.

Based on above-mentioned and other purpose, the present invention proposes a kind of display device in addition, and it comprises display panel, gate drivers, first source electrode driver and second source electrode driver.And above-mentioned display panel comprises M column scan line, a N line data line and M * N pixel, and each line data line comprises one first subdata line and one second subdata line, and above-mentioned pixel is lined up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), and 1≤i≤M, and 1≤j≤N, and being coupled to i column scan line respectively, the first capable subdata line of j couples a little pixel P (i, j), i+1 column scan line couples pixel P (i+1 a little, j) couple a little pixel P (i+n until i+n column scan line, j), the second subdata line that j is capable is coupled to i+n+1 column scan line respectively and couples a little pixel P (i+n+1, j), i+n+2 column scan line couples pixel P (i+n+2 a little, j) until i+2n+1 column scan line couple a little pixel P (i+2n+1, j), N wherein, M, i, j and n are all positive integer.Gate drivers is used for driving above-mentioned sweep trace, and first source electrode driver and second source electrode driver are used for controlling above-mentioned first subdata line and the above-mentioned second subdata line respectively, and output image signal.Above-mentioned signal of video signal has a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled, and every K image section be defined as a group, and K is a positive integer, has replacement data in the image section of each group.Gate drivers is according to the first initial waveform, drives one first group's corresponding scanning beam in the mode that is divided into K time, and drives the sweep traces of adjacent two row at every turn.When adjacent two column scan lines are driven, first source electrode driver is exported the video data of the pixel that is coupled corresponding to the i column scan line that is driven in the sweep trace, and second source electrode driver is exported the video data of the pixel that is coupled corresponding to the i+1 column scan line that is driven in the sweep trace.Gate drivers is after receiving first initial waveform one given time, be to drive above-mentioned first group's corresponding scanning beam simultaneously, and respectively the replacement data exported to above-mentioned first subdata line and the above-mentioned second subdata line by first source electrode driver and second source electrode driver according to the second initial waveform.

Based on above-mentioned and other purpose, the present invention proposes a kind of display device again, and it comprises display panel, gate drivers and source electrode driver.And above-mentioned display panel comprises M column scan line, N line data line and M * N pixel, and each line data line comprises one first subdata line and one second subdata line, and above-mentioned pixel is lined up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), and 1≤i≤M, and 1≤j≤N, and the capable first subdata line and the i column scan line of j is coupled to pixel P (i, j), second subdata line that j is capable and i+1 column scan line are coupled to pixel P, and (i+1, j), wherein N, M, i, j are all positive integer.Gate drivers is used for driving above-mentioned sweep trace, and source electrode driver is used for controlling above-mentioned first subdata line and the above-mentioned second subdata line, and output image signal.Above-mentioned signal of video signal has a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled, and every K image section be defined as a group, and K is a positive integer, has replacement data in the image section of each group.Gate drivers is according to the first initial waveform, drives one first group's corresponding scanning beam in the mode that is divided into K time, and drives the sweep traces of adjacent two row at every turn.When adjacent two column scan lines are driven, the video data of the pixel that source electrode driver will be coupled corresponding to the i column scan line that is driven in the sweep trace exports the above-mentioned first subdata line to, and the video data of the pixel that will be coupled corresponding to the i+1 column scan line that is driven in the sweep trace exports the above-mentioned second subdata line to.Gate drivers is after receiving first initial waveform one given time, be to drive above-mentioned first group's corresponding scanning beam simultaneously, and export the replacement data to the above-mentioned first subdata line and the above-mentioned second subdata line by source electrode driver according to the second initial waveform.

Based on above-mentioned and other purpose, the present invention reintroduces a kind of display device, and it comprises display panel, gate drivers and source electrode driver.And above-mentioned display panel comprises M column scan line, a N line data line and M * N pixel, and each line data line comprises one first subdata line and one second subdata line, and above-mentioned pixel is lined up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), and 1≤i≤M, and 1≤j≤N, and being coupled to i column scan line respectively, the first capable subdata line of j couples a little pixel P (i, j), i+1 column scan line couples pixel P (i+1 a little, j) couple a little pixel P (i+n until i+n column scan line, j), the second subdata line that j is capable is coupled to i+n+1 column scan line respectively and couples a little pixel P (i+n+1, j), i+n+2 column scan line couples pixel P (i+n+2 a little, j) until i+2n+1 column scan line couple a little pixel P (i+2n+1, j), N wherein, M, i, j and n are all positive integer.Gate drivers is used for driving above-mentioned sweep trace, and source electrode driver is used for controlling above-mentioned first subdata line and the above-mentioned second subdata line, and output image signal.Above-mentioned signal of video signal has a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled, and every K image section be defined as a group, and K is a positive integer, has replacement data in the image section of each group.Gate drivers is according to the first initial waveform, drives one first group's corresponding scanning beam in the mode that is divided into K time, and drives the sweep traces of adjacent two row at every turn.When adjacent two column scan lines are driven, the video data of the pixel that source electrode driver will be coupled corresponding to the i column scan line that is driven in the sweep trace exports the above-mentioned first subdata line to, and the video data of the pixel that will be coupled corresponding to the i+1 column scan line that is driven in the sweep trace exports the above-mentioned second subdata line to.Gate drivers is after receiving first initial waveform one given time, be to drive above-mentioned first group's corresponding scanning beam simultaneously, and export the replacement data to the above-mentioned first subdata line and the above-mentioned second subdata line by source electrode driver according to the second initial waveform.

Based on above-mentioned and other purpose, the present invention proposes a kind of driving method of display panel.Above-mentioned display panel comprises M column scan line, N line data line and M * N pixel, and each line data line comprises one first subdata line and one second subdata line, and above-mentioned pixel is lined up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), and 1≤i≤M, and 1≤j≤N, and the capable first subdata line and the i column scan line of j is coupled to pixel P (i, j), second subdata line that j is capable and i+1 column scan line are coupled to pixel P, and (i+1, j), wherein N, M, i, j are all positive integer.This driving method comprises the following steps, at first, provides the input signal of video signal.Then, will import signal of video signal and divide into a plurality of image sections, wherein each image section has the video data of the pixel that adjacent two column scan lines are coupled.Then, every K image section is distinguished into a group, wherein K is a positive integer.Then, in the image section of each group, insert replacement data.Then, according to the first initial waveform, drive one first group's corresponding scanning beam in the mode that is divided into K time, and drive the sweep trace of adjacent two row at every turn, when adjacent two column scan lines are driven, the video data that is driven the i column scan pixel that line couples in the sweep trace is provided to the above-mentioned first subdata line, and the video data that will be driven the i+1 column scan pixel that line couples in the sweep trace provides to the above-mentioned second subdata line.Then, behind first initial waveform one given time, drive above-mentioned first group's corresponding scanning beam simultaneously, and export the replacement data to the above-mentioned first subdata line and the above-mentioned second subdata line according to the second initial waveform.

Based on above-mentioned and other purpose, the present invention proposes a kind of driving method of display panel in addition.Above-mentioned display panel comprises M column scan line, a N line data line and M * N pixel, and each line data line comprises one first subdata line and one second subdata line, and above-mentioned pixel is lined up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), and 1≤i≤M, and 1≤j≤N, and being coupled to i column scan line respectively, the first capable subdata line of j couples a little pixel P (i, j), i+1 column scan line couples pixel P (i+1 a little, j) until i+n column scan line couple a little pixel P (i+n, j), the second subdata line that j is capable is coupled to i+n+1 column scan line respectively and couples a little pixel P (i+n+1, j), i+n+2 column scan line couples pixel P (i+n+2 a little, j) until i+2n+1 column scan line couple a little pixel P (i+2n+1, j), N wherein, M, i, j and n are all positive integer.This driving method comprises the following steps, at first, provides the input signal of video signal.Then, will import signal of video signal and divide into a plurality of image sections, wherein each image section has the video data of the pixel that adjacent two column scan lines are coupled.Then, every K image section is distinguished into a group, wherein K is a positive integer.Then, in the image section of each group, insert replacement data.Then, according to the first initial waveform, drive one first group's corresponding scanning beam in the mode that is divided into K time, and drive the sweep trace of adjacent two row at every turn, when adjacent two column scan lines are driven, the video data that is driven the i column scan pixel that line couples in the sweep trace is provided to the above-mentioned first subdata line, and the video data that will be driven the i+1 column scan pixel that line couples in the sweep trace provides to the above-mentioned second subdata line.Then, behind first initial waveform one given time, drive above-mentioned first group's corresponding scanning beam simultaneously, and export the replacement data to the above-mentioned first subdata line and the above-mentioned second subdata line according to the second initial waveform.

The present invention adopts a kind of special display panel, and each line data line has two sub-data lines in this display panel.And the present invention at first will import signal of video signal and divide into a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled.Then, every K image section is distinguished into a group, then in the image section of each group, inserts replacement data, to form a signal of video signal.Then, according to the first initial waveform and distinguish K video data and write with one first group, after first initial waveform one given time, drive the pairing described sweep trace of this first group simultaneously according to one second initial waveform, should the replacement data export described first subdata line and the described second subdata line to.In view of the above, the present invention can provide double picture update rate, and can effectively eliminate dynamic afterimage.In addition, because in a picture, the polarity of subdata line does not change, so the present invention can carry out the data replacement to the pixel of consecutive number column scan line simultaneously.

For above and other objects of the present invention, feature and advantage can be become apparent, preferred embodiment cited below particularly, and cooperation institute accompanying drawing are described in detail below.

Description of drawings

Fig. 1 is the block diagram of known double picture update rate display system.

Fig. 2 is each signal timing diagram of system shown in Figure 1.

Fig. 3 is the display device block diagram according to one embodiment of the invention.

Fig. 4 is an enforcement block diagram of the display panel of Fig. 3.

Fig. 5 is the data recombination mode synoptic diagram according to Fig. 3 and the described embodiment of Fig. 4.

Fig. 6 is the sequential chart of the part signal of Fig. 4 circuit.

Fig. 7 is the sweep trace control mode synoptic diagram according to one embodiment of the invention.

Fig. 8 shows the data polarity control mode synoptic diagram of Fig. 4 circuit when operation.

Fig. 9 is another embodiment block diagram of the display panel of Fig. 3.

Figure 10 is the data recombination mode synoptic diagram according to Fig. 3 and the described embodiment of Fig. 9.

Figure 11 is the sequential chart of the part signal of Fig. 9 circuit.

Figure 12 illustrates the data polarity control mode synoptic diagram of Fig. 9 circuit when operation.

Figure 13 is another embodiment block diagram of the display panel of Fig. 3.

Figure 14 is the process flow diagram according to the driving method of the display panel of one embodiment of the invention.

Main description of reference numerals is as follows

53～56,63～66: scanning element

101: display panel

102,103,401,901,1302: gate drivers

104,105,402,403,1303: source electrode driver

301: computing unit

302: the data recombination unit

303: time schedule controller

304: display panel

404,405,904～907: pixel

501,502,801,802,1001,1002,1201,1202: indicate

1301: picture element matrix

A: picture

CPV: gate clock signal

CS: a plurality of control signals

DATA1: input signal of video signal

DATA2: signal of video signal

DE1, DE2: data enable signal

D ₁～D _N, D _{1 '}～D _{N '}: the subdata line

G ₁～G _B, G _B+1～G _2B, G _2B+1～G _3B, G _3B+1～G _4B, G53 ₁～G53 ₄, G54 ₁～G54 ₄, G55 ₁～G55 ₄, G56 ₁～G56 ₄: sweep trace

OE, OE1～OE4, OED, OEB: the output enable signal,

The inversion signal of/OE:OE,

RD: replacement data

STV, STV1～STV4: the initial drive signal of grid

STVD, STVB: initial waveform

T: cycle

Tbk: given time

VCLK: clock signal

VG1～VGn: grid impulse signal.

1404～1406: step

Embodiment

Fig. 3 is the display device according to one embodiment of the invention.This display device comprises computing unit 301, data recombination unit 302, time schedule controller 303 and display panel 304.The operation of above-mentioned each parts of following summary earlier.Computing unit 301 produces replacement data RD, this counting relation relevant with a plurality of image sections (appearance aftermentioned) according to an input signal of video signal DATA1 and a counting relation.Wherein, replacement data RD can be the image data of complete black, complete white or arbitrary single gray scale.Data recombination unit 302 is used for receiving input signal of video signal DATA1 and replacement data RD, and will import signal of video signal DATA1 and replacement data RD carries out data recombination, with generation signal of video signal DATA2.Time schedule controller 303 receives signal of video signal DATA2, produce a plurality of control signal CS according to this, and time schedule controller 303 is sent to display panel 304 with above-mentioned a plurality of control signal CS and signal of video signal DATA2, controls display panel 304 show image signal DATA2 according to this.

Fig. 4 is an embodiment of the display panel of Fig. 3, and it illustrates the relation that couples of the internal part and the time schedule controller 303 of display panel 304, and the signal of video signal DATA2 and a plurality of control signal CS that are sent to display panel 304 by time schedule controller 303.Above-mentioned a plurality of control signal CS include gate clock signal CPV, the initial drive signal STV of grid and output enable signal OE1～OE4.Display panel 304 includes gate drivers 401, source electrode driver 402 and 403,16 column scan lines, N line data line and 16 * N pixel.This 16 column scan line is respectively with G53 ₁～G53 ₄, G54 ₁～G54 ₄, G55 ₁～G55 ₄, G56 ₁～G56 ₄Indicate, and above-mentioned each line data line includes the first subdata line and the second subdata line, these first subdata lines are respectively with D ₁～D _NIndicate, and these second subdata lines are respectively with D _{1 '}～D _{N '}Indicate.16 above-mentioned * N pixel is to line up a matrix, the figure shows the relation that couples of the wherein one-row pixels of this picture element matrix.For instance, pixel 404 is to couple sweep trace G53 ₁And subdata line D ₁, and pixel 405 is to couple sweep trace G53 ₂And subdata line D _{1 '}.

Gate drivers 401 includes four scanning elements again, indicate with 53～56, each scanning element is used for driving four column scan lines, and for example scanning element 53 is to come driven sweep line G53 according to gate clock signal CPV, the initial drive signal STV of grid and output enable signal OE1 ₁～G53 ₄After gate drivers 401 received the initial drive signal STV of grid, the initial drive signal STV of grid was just begun to transmit by the inside of scanning element 53, and is passed to scanning element 56 gradually.When scanning element receives the initial drive signal STV of grid, scanning element just can drive the sweep trace that it couples according to the transmission position of the initial drive signal STV of grid, and source electrode driver 402 and 403 is sent corresponding image data among the signal of video signal DATA2 simultaneously.

The operation of Fig. 4 circuit below will be described in detail in detail, but before this, need explanation earlier to import the data recombination mode of signal of video signal DATA1 and replacement data RD, please refer to Fig. 5.Fig. 5 is the data recombination mode synoptic diagram according to Fig. 3 and the described embodiment of Fig. 4.In this figure, DE1 is the data enable signal of corresponding input signal of video signal DATA1, DE2 is the data enable signal of corresponding signal of video signal DATA2, CPV is above-mentioned gate clock signal, and OED and OEB then represent above-mentioned each output enable signal (two kinds of signal kenels of OE1～OE4) had.Input signal of video signal DATA1 has a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled, and for example in the image section that 501 are indicated, just has sweep trace G53 ₁And G53 ₂The video data of the pixel that is coupled, and in the image section that 502 are indicated, just have sweep trace G53 ₃And G53 ₄The video data of the pixel that is coupled.

In this embodiment, be that per two image sections are defined as a group, in the image section of each group, insert a replacement data RST then.Because in a time section T cycle, become and to have three data by originally only having two data, and be the back that replacement data RST is placed on the image section of each group, therefore aforesaid computing unit 301 just must concern the placement location that produces replacement data RST according to such counting.In addition, owing to signal of video signal DATA2 gets through data recombination, so signal of video signal DATA2 can import signal of video signal DATA1 naturally and postpones the Tdelay time.After obtaining signal of video signal DATA2, the signal kenel of the output enable signal that next just needs suitably to control each scanning element and received, so that the data time sequence according to signal of video signal DATA2 correctly drives corresponding scanning line, and then allow pixel energy receive correct loading data.That is to say, present kenel OED at the output enable signal, and when presenting electronegative potential (shown in T1), when video data will be loaded on respective pixel exactly, and present kenel OEB at the output enable signal, and when presenting electronegative potential (shown in T2), be exactly will be with the replacement data load time to respective pixel.

Fig. 6 is the sequential chart of the part signal of Fig. 4 circuit, and it illustrates the sequential of grid impulse signal of output enable signal (OED and OEB), the initial drive signal STV of grid and each bar sweep trace of gate clock signal CPV, two kinds of kenels.Wherein, the initial drive signal STV of grid has two kinds of initial waveforms, represents with STVD and STVB respectively.Please be simultaneously with reference to Fig. 4 and Fig. 6, so that more detailed explanation is done in the operation of Fig. 4 circuit.When time schedule controller 303 transmits initial waveform STVD to scanning element 53, and the output enable signal OE1 of OED kenel provided to scanning element 53, and when providing the output enable signal OE3 of OEB kenel to scanning element 55, just make scanning element 53 beginnings according to the output enable signal OE1 of initial waveform STVD, gate clock signal CPV and OED kenel and move.

Along with the transmission of initial waveform STVD in scanning element 53, scanning element 53 drives the first group's corresponding scanning beam of DATA2 in the signal of video signal in the mode that is divided into 2 times, and drives the sweep traces of adjacent two row at every turn.That is to say, be that scanning element 53 can drive two sweep traces simultaneously when hanging down logic current potential (low) at the output enable signal OE1 of OED kenel.With this example, scanning element 53 is the line of driven sweep simultaneously G53 earlier ₁, G53 ₂, and then the line of driven sweep simultaneously G53 ₃, G53 ₄At scanning element 53 driven sweep line G53 ₁, G53 ₂The time, source electrode driver 402 output scanning line G53 ₁The video data of the pixel that is coupled, and source electrode driver 403 output scanning line G53 ₂The video data of the pixel that is coupled.At scanning element 53 driven sweep line G53 ₃, G53 ₄The time, source electrode driver 402 output scanning line G53 ₃The video data of the pixel that is coupled, and source electrode driver 403 output scanning line G53 ₄The video data of the pixel that is coupled.

After a bit of time, initial waveform STVD is passed to scanning element 54, and this moment, time schedule controller 303 also can provide the output enable signal OE2 of OED kenel to scanning element 54, and the output enable signal OE4 of OEB kenel is provided to scanning element 56.After scanning element 54 received initial waveform STVD, scanning element 54 also drove second group's corresponding scanning beam in the signal of video signal in the mode that is divided into 2 times, just the line of driven sweep simultaneously G54 earlier ₁, G54 ₂, and then the line of driven sweep simultaneously G54 ₃, G54 ₄At driven sweep line G54 ₁And G54 ₂The time, source electrode driver 402 can corresponding output scanning line G54 ₁The video data of the pixel that is coupled, and source electrode driver 403 can corresponding output scanning line G54 ₂The video data of the pixel that is coupled.And at driven sweep line G54 ₃And G54 ₄The time, source electrode driver 402 can corresponding output scanning line G54 ₃The video data of the pixel that is coupled, and source electrode driver 403 can corresponding output scanning line G54 ₄The video data of the pixel that is coupled.Promote, when driving adjacent two column scan lines, source electrode driver 402 can corresponding output be driven the video data of the pixel that the i column scan line in the sweep trace coupled, and source electrode driver 403 can corresponding output be driven the video data of the pixel that the i+1 column scan line in the sweep trace coupled.

Then, time schedule controller 303 transmits initial waveform STVB to scanning element 53.That is to say that time schedule controller 303 is exported initial waveform STVB after initial waveform STVD one given time of output.Simultaneously, time schedule controller 303 provides the output enable signal OE3 of OED kenel to scanning element 55, and the output enable signal OE1 of OEB kenel is provided to scanning element 53, and initial subsequently waveform STVD also is passed to scanning element 55.Therefore, scanning element 53 just begins to move according to the output enable signal OE1 of initial waveform STVB, gate clock signal CPV and OEB kenel, and scanning element 55 also begins to move according to the output enable signal OE3 of initial waveform STVD, gate clock signal CPV and OED kenel.Certainly, above-mentioned given time is to do setting according to actual needs, is not to be restriction with this embodiment.

Owing to, all be to present low logic current potential at it just can allow sweep trace to be enabled no matter be the OED kenel or the output enable signal of OEB kenel.Therefore, drive the 3rd corresponding scanning beam (G55 of group in the signal of video signal according to the output enable signal OE3 of initial waveform STVD, gate clock signal CPV and OED kenel in scanning element 55 ₁～G55 ₄) time, because the output enable signal OE1 of OEB kenel presents high logic current potential (high), therefore this moment, scanning element 53 can not drive the sweep trace that it couples, and do not transmit in scanning element 54 and 56 because also have any initial waveform this moment, so scanning element 54 and 56 can not drive the sweep trace that it couples yet.

When scanning element 55 drives the sweep trace that it coupled, source electrode driver 402 can corresponding output be driven the video data of the pixel that the i column scan line in the sweep trace coupled, and source electrode driver 403 can corresponding output be driven the video data of the pixel that the i+1 column scan line in the sweep trace coupled.Then, the output enable signal OE3 of OED kenel presents high logic current potential, and the output enable signal OE1 of OEB kenel presents low logic current potential.Therefore, scanning element 53 is convenient for this section period driven sweep simultaneously line G53 ₁～G53 ₄, source electrode driver 402 and 403 is all exported the replacement data simultaneously, so that with sweep trace G53 ₁～G53 ₄The pixel that is coupled is carried out the replacement of video data, and then avoids these pixels that the problem of dynamic afterimage takes place, and reaches the effect of pulsed system.

Next, initial waveform STVD and STVB are passed to scanning element 56 and 54 respectively, and time schedule controller 303 provides the output enable signal OE4 of OED kenel to scanning element 56, and the output enable signal OE2 of OEB kenel is provided to scanning element 54.Therefore, scanning element 54 just begins to move according to the output enable signal OE2 of initial waveform STVB, gate clock signal CPV and OEB kenel, and scanning element 56 also begins to move according to the output enable signal OE4 of initial waveform STVD, gate clock signal CPV and OED kenel.

Because initial waveform STVD and STVB all can transmit in gate drivers 401, so the pixel that each scanning element coupled indirectly, after beginning loaded and displayed data one given time, just can carry out data and reset.In addition, also know by means of above-mentioned new panel frame and new type of drive, each subdata line is in same picture (frame), its polarity does not need to change, and writing of the data of only need once resetting in one-period T (as shown in Figure 6) is so no matter be that image data or replacement data all can effectively be used the limited duration of charging.In addition, because the output enable signal of OED kenel and OEB kenel, both present the time point of low logic current potential and inequality these, therefore do not have the situation that misdata is loaded into pixel and take place.That is to say that this receives the pixel of video data, can't receive replacement data RST, and this receives the pixel of replacement data RST, also can't receive video data.

In order more to clearly demonstrate sweep trace control mode of the present invention, below will do slightly and state with Fig. 7.Fig. 7 is the sweep trace control mode synoptic diagram according to one embodiment of the invention, and it is illustrated in the signal kenel of the output enable signal that scanning element 53～56 is received among the picture A.This figure clearly illustrates, after gate drivers 401 receives initial waveform STVD, scanning element 53～56 can be the output enable signal that receives the OED kenel in regular turn for some time, and each scanning element just can receive initial waveform STVB again after receiving initial waveform STVD one given time Tbk.

According to the described method of operating of Fig. 6, can draw Polarity Control sequential as shown in Figure 8.Fig. 8 illustrates the data polarity control mode synoptic diagram of Fig. 4 circuit when operation, and wherein POL1 and POL2 represent the polarity control signal of source electrode driver 402 and 403 respectively.The place that two reverses are arranged in this figure, one of them is the time point that is switched to the nth picture by (n-1) th picture, by 801 signs, the polarity of expression video data should be changed at this moment.The place of another reverse is the time point that (n-1) th replacement picture switches to nth replacement picture, and by 802 signs, the polarity of expression replacement data should be changed at this moment.Just design planning is good because the output polarity of subdata line is in the panel frame part, therefore no matter be video data or replacement data, in same image time, as long as mode of operation with row counter-rotating (column inversion), collocation sweep trace control mode as shown in Figure 7, can realize the pulsed system, and no matter be video data or replacement data, the optimized image quality of all can reverse a little (dotinversion).

Based on the spirit of previous embodiment, also have a kind of display panel frame equally also can implement driving method of the present invention, this panel frame is as shown in Figure 9.Fig. 9 is another embodiment of the display panel of Fig. 3, it illustrates the relation that couples of the internal part and the time schedule controller 303 of this another kind display panel 304, and the signal of video signal DATA2 and a plurality of control signal CS that are sent to display panel 304 by time schedule controller 303.Please refer to Fig. 4 and Fig. 9, can find by means of the two shown display panel frame relatively, difference is that the pixel among Fig. 9 is that mode with 2 line reversible types (2 line inversion) couples.With preceding four pixels of this cited row pixel of Fig. 9, pixel 904 is for coupling subdata line D ₁And sweep trace G63 ₁, pixel 905 is for coupling subdata line D _{1 '}And sweep trace G63 ₂, pixel 906 is for coupling subdata line D _{1 '}And sweep trace G63 ₃, and pixel 907 is for coupling subdata line D ₁And sweep trace G63 ₄, the rest may be inferred for all the other.In addition, in gate drivers 901, being responsible for driving 8 column scan lines with each scanning element is example, and scanning element 63 is responsible for driven sweep line G63 ₁～G63 ₈

Figure 10 is the data recombination mode synoptic diagram according to Fig. 3 and the described embodiment of Fig. 9.In this figure, DE1 is the data enable signal of corresponding input signal of video signal DATA1, DE2 is the data enable signal of corresponding signal of video signal DATA2, CPV is above-mentioned gate clock signal, and OED and OEB then represent above-mentioned each output enable signal (two kinds of signal kenels of OE1～OE4) had.Input signal of video signal DATA1 has a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled, and for example in the image section that 1001 are indicated, just has sweep trace G63 ₁And G63 ₂The video data of the pixel that is coupled, and in the image section that 1002 are indicated, just have sweep trace G63 ₃And G63 ₄The video data of the pixel that is coupled.

Please be simultaneously with reference to Fig. 5 and Figure 10.After relatively, can find that data recombination mode shown in Figure 10 is that per four image sections are defined as a group, in the image section of each group, insert a replacement data RST then.Because in a time section T cycle, become and to have five data by originally only having four data, and be the back that replacement data RST is placed on the image section of each group, therefore aforesaid computing unit 301 just must concern the placement location that produces replacement data RST according to such counting.

Figure 11 is the sequential chart of the part signal of Fig. 9 circuit, and it illustrates the sequential of grid impulse signal of output enable signal (OED and OEB), the initial drive signal STV of grid and each bar sweep trace of gate clock signal CPV, two kinds of kenels.Wherein, the initial drive signal STV of grid also has two kinds of initial waveforms, represents with STVD and STVB respectively.Please be simultaneously with reference to Fig. 6 and Figure 11, via relatively the two can be found, Figure 11 is different from Fig. 6 part and is, to be sweep trace that each scanning element is coupled drive in the mode that is divided into four times the described sequential of Figure 11, and is to drive 8 column scan lines simultaneously when writing the replacement data.

According to the described method of operating of Figure 11, can draw Polarity Control sequential as shown in figure 12.Figure 12 illustrates the data polarity control mode synoptic diagram of Fig. 9 circuit when operation, and wherein POL1 and POL2 represent the polarity control signal of source electrode driver 402 and 403 respectively.The place that two reverses are also arranged in the figure, one of them is the time point that is switched to the nth picture by (n-1) th picture, by 1201 signs, the polarity of expression video data should be changed at this moment.The place of another reverse is the time point that (n-1) th replacement picture switches to nth replacement picture, and by 1202 signs, the polarity of expression replacement data should be changed at this moment.

The people who is familiar with this technology ought to know, carried out the driving of data line except the foregoing description utilizes two source electrode drivers, and the driving that utilizes single source electrode driver to carry out data line also can be implemented, as shown in figure 13.Figure 13 is the another embodiment of the display panel of Fig. 3, wherein the pixel coupling mode of picture element matrix 1301 can be as Fig. 4 or framework as shown in Figure 9, and similarly, each scanning element in the gate drivers 1302 is responsible for driving B bar sweep trace, wherein B is a positive integer, different is that source electrode driver 1303 is responsible for driving all subdata lines, i.e. D ₁～D _NAnd D _{1 '}～D _{N '}No matter the coupling mode of the pixel among Figure 13 is as Fig. 4 or framework as shown in Figure 9, all can use above-mentioned driving method, just no longer repeat to give unnecessary details at this.

Though in the above-described embodiment, display panel comes for example to have 16 * N pixel, 32 * N pixel or B * N pixel, yet the user ought to know, as if being extended, above-mentioned display panel becomes to have the display panel of M * N pixel, also can implement the present invention, wherein M also is a positive integer, and B＜M.In addition, be not to be limited to per two image sections or per four image sections are defined as a group yet, the user should be defined as a group with every K image section arbitrarily, and wherein K is a positive integer.

According to the instruction of the various embodiments described above, can summarize some basic operating processes, as shown in figure 14.Figure 14 is the process flow diagram according to the driving method of the display panel of one embodiment of the invention.At first, provide input signal of video signal (as step 1401).Then, will import signal of video signal and divide into a plurality of image sections, wherein each image section has the video data (as step 1402) of the pixel that adjacent two column scan lines are coupled.Then, every K image section is distinguished into a group (as step 1403).Then, in the image section of each group, insert replacement data (as step 1404).Then, according to the first initial waveform, drive one first group's corresponding scanning beam in the mode that is divided into K time, and drive the sweep trace of adjacent two row at every turn, when adjacent two column scan lines are driven, the video data that is driven the i column scan pixel that line couples in the sweep trace is provided to the above-mentioned first subdata line, and the video data that will be driven the i+1 column scan pixel that line couples in the sweep trace provides to the above-mentioned second subdata line (as step 1405).Then, behind first initial waveform one given time, drive above-mentioned first group's corresponding scanning beam simultaneously, and export the replacement data to the above-mentioned first subdata line and the above-mentioned second subdata line (as step 1406) according to the second initial waveform.

In sum, the present invention adopts a kind of special display panel, and each line data line has two sub-data lines in this display panel.And the present invention at first will import signal of video signal and divide into a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled.Then, every K image section is distinguished into a group, then in the image section of each group, inserts replacement data, to form a signal of video signal.Then, according to the first initial waveform and be divided into K video data and write with one first group, after first initial waveform one given time, drive the pairing described sweep trace of this first group simultaneously according to one second initial waveform, should the replacement data export described first subdata line and the described second subdata line to.In view of the above, the present invention can provide double picture update rate, and can effectively eliminate dynamic afterimage.In addition, because in a picture, the polarity of subdata line does not change, so the present invention can carry out the data replacement to the pixel of consecutive number column scan line simultaneously.

Though the present invention discloses as above with preferred embodiment; but it is not to be used for limiting the present invention; any people who knows this technology; under the situation that does not break away from the spirit and scope of the present invention; should do some and change and retouching, so protection scope of the present invention being as the criterion of should being considered as being defined with accompanying Claim.

Claims (22)

1. display device comprises:

One display panel comprises:

M column scan line, M are positive integer;

N line data line, each line data line comprise one first subdata line and one second subdata line, and N is a positive integer; And

M * N pixel, line up a matrix, the position be i row and the capable pixel of j be expressed as P (i, j), wherein i, j are integer, and 1≤i≤M, and 1≤j≤N, and capable first subdata line of j and i column scan line be coupled to pixel P (i, j), second subdata line that j is capable and i+1 column scan line be coupled to pixel P (i+1, j);

One gate drivers is used for driving described sweep trace;

One first source electrode driver; And

One second source electrode driver, wherein, this first source electrode driver and this second source electrode driver are used for controlling described first subdata line and the described second subdata line respectively, and export a signal of video signal, this signal of video signal has a plurality of image sections, each image section has the video data of the pixel that adjacent two column scan lines are coupled

Wherein, every K image section is defined as a group, and K is a positive integer, has replacement data in the image section of each group,

Wherein, this gate drivers is according to one first initial waveform, drive the pairing described sweep trace of one first group in the mode that is divided into K time, and drive the sweep trace of adjacent two row at every turn, when adjacent two column scan lines are driven, this first source electrode driver is exported the video data of the pixel that is coupled corresponding to the i column scan line that is driven in the sweep trace, and this second source electrode driver is exported the video data of the pixel that is coupled corresponding to the i+1 column scan line that is driven in the sweep trace

Wherein, this gate drivers is after receiving this first initial waveform one given time, be to drive the pairing described sweep trace of this first group simultaneously, and should the replacement data export described first subdata line and the described second subdata line to respectively by this first source electrode driver and this second source electrode driver according to one second initial waveform.

2. display device as claimed in claim 1, it also comprises:

One computing unit produces this replacement data according to an input signal of video signal and a counting relation, and this counting relation is relevant with K image section;

One data recombination unit couples this computing unit, is used for receiving this input signal of video signal and this replacement data, and should import signal of video signal and this replacement data are carried out data recombination, to produce this signal of video signal; And

Time schedule controller, receive this signal of video signal, produce this first initial waveform and this second initial waveform according to this, and this time schedule controller is used for this first initial waveform and this second initial waveform are sent to this gate drivers, and this signal of video signal is sent to this first source electrode driver and this second source electrode driver

Wherein, this time schedule controller is controlled this gate drivers, this first source electrode driver and this second source electrode driver according to this signal of video signal, make when this first source electrode driver and this second source electrode driver are exported image section in this signal of video signal, this gate driver drive image section corresponding scanning line, when this first source electrode driver and this second source electrode driver are exported replacement data in this signal of video signal, this gate driver drive replacement data corresponding scanning line.

3. display device as claimed in claim 1, wherein, this first initial waveform is the initial waveform of an image section of the initial drive signal of a grid, this second initial waveform is the initial waveform of replacement data of the initial drive signal of this grid, and should continue after this given time of the initial waveform of this image section by the initial waveform of replacement data.

4. display device as claimed in claim 1 should the replacement data be the image data of arbitrary single gray scale wherein.

5. display device comprises:

One display panel comprises:

M column scan line, M are positive integer;

N line data line, each line data line comprise one first subdata line and one second subdata line, and N is a positive integer; And

M * N pixel, line up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), i wherein, j is an integer, and 1≤i≤M, and 1≤j≤N, and being coupled to i column scan line respectively, the first capable subdata line of j couples a little pixel P (i, j), i+1 column scan line couple a little pixel P (i+1, j) until i+n column scan line couple a little pixel P (i+n, j), the second subdata line that j is capable is coupled to i+n+1 column scan line respectively and couples a little pixel P (i+n+1, j), i+n+2 column scan line couple a little pixel P (i+n+2, j) until i+2n+1 column scan line couple a little pixel P (i+2n+1, j), wherein, n is a positive integer;

One gate drivers is used for driving described sweep trace;

One first source electrode driver; And

One second source electrode driver, wherein, this first source electrode driver and this second source electrode driver are used for controlling described first subdata line and the described second subdata line respectively, and export a signal of video signal, this signal of video signal has a plurality of image sections, each image section has the video data of the pixel that adjacent two column scan lines are coupled

Wherein, every K image section is defined as a group, and K is a positive integer, has replacement data in the image section of each group,

Wherein, this gate drivers is according to one first initial waveform, drive the pairing described sweep trace of one first group in the mode that is divided into K time, and drive the sweep trace of adjacent two row at every turn, when adjacent two column scan lines are driven, this first source electrode driver is exported the video data of the pixel that is coupled corresponding to the i column scan line that is driven in the sweep trace, and this second source electrode driver is exported the video data of the pixel that is coupled corresponding to the i+1 column scan line that is driven in the sweep trace

Wherein, this gate drivers is after receiving this first initial waveform one given time, be to drive the pairing described sweep trace of this first group simultaneously, and should the replacement data export described first subdata line and the described second subdata line to respectively by this first source electrode driver and this second source electrode driver according to one second initial waveform.

6. display device as claimed in claim 5, it also comprises:

One computing unit produces this replacement data according to an input signal of video signal and a counting relation, and this counting relation is relevant with K image section;

One data recombination unit couples this computing unit, is used for receiving this data enable signal, this input signal of video signal, this clock signal and this replacement data, and should import signal of video signal and this replacement data are carried out data recombination, to produce this signal of video signal; And

Time schedule controller, receive this signal of video signal, produce this first initial waveform and this second initial waveform according to this, and this time schedule controller is used for this first initial waveform and this second initial waveform are sent to this gate drivers, and this signal of video signal is sent to this first source electrode driver and this second source electrode driver

Wherein, this time schedule controller is controlled this gate drivers, this first source electrode driver and this second source electrode driver according to this signal of video signal, make when this first source electrode driver and this second source electrode driver are exported image section in this signal of video signal, this gate driver drive image section corresponding scanning line, when this first source electrode driver and this second source electrode driver are exported replacement data in this signal of video signal, this gate driver drive replacement data corresponding scanning line.

7. display device as claimed in claim 5, wherein, this first initial waveform is the initial waveform of an image section of the initial drive signal of a grid, this second initial waveform is the initial waveform of replacement data of the initial drive signal of this grid, and should continue after this given time of the initial waveform of this image section by the initial waveform of replacement data.

8. display device as claimed in claim 5, wherein, these replacement data are the image data of arbitrary single gray scale.

9. display device comprises:

One display panel comprises:

M column scan line, M are positive integer;

N line data line, each line data line comprise one first subdata line and one second subdata line, and N is a positive integer; And

M * N pixel, line up a matrix, the position be i row and the capable pixel of j be expressed as P (i, j), wherein i, j are integer, and 1≤i≤M, and 1≤j≤N, and capable first subdata line of j and i column scan line be coupled to pixel P (i, j), second subdata line that j is capable and i+1 column scan line be coupled to pixel P (i+1, j);

One gate drivers is used for driving described sweep trace; And

The one source pole driver is used for controlling described first subdata line and the described second subdata line, and exports a signal of video signal, and this signal of video signal has a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled,

Wherein, every K image section is defined as a group, and K is a positive integer, has replacement data in the image section of each group,

Wherein, This gate drivers is according to one first onset wave; Drive the corresponding described scan line of one first group in the mode that is divided into K time; And drive the scan line of adjacent two row at every turn; When adjacent two column scan lines are driven; The demonstration data of the pixel that this source electrode driver will couple corresponding to the i column scan line in the driven scan line export the described first subdata line to; And the demonstration data of the pixel that will couple corresponding to the i+1 column scan line in the driven scan line export the described second subdata line to

Wherein, this gate drivers is after receiving this first initial waveform one given time, be to drive the pairing described sweep trace of this first group simultaneously, and should the replacement data export described first subdata line and the described second subdata line to by this source electrode driver according to one second initial waveform.

10. display device as claimed in claim 9, it also comprises:

One computing unit produces this replacement data according to an input signal of video signal and a counting relation, and this counting relation is relevant with K image section;

One data recombination unit couples this computing unit, is used for receiving this data enable signal, this input signal of video signal, this clock signal and this replacement data, and should import signal of video signal and this replacement data are carried out data recombination, to produce this signal of video signal; And

Time schedule controller, receive this signal of video signal, produce this first initial waveform and this second initial waveform according to this, and this time schedule controller is used for this first initial waveform and this second initial waveform are sent to this gate drivers, and this signal of video signal is sent to this source electrode driver

Wherein, this time schedule controller is controlled this gate drivers and this source electrode driver according to this signal of video signal, make when this source electrode driver is exported image section in this signal of video signal, this gate driver drive image section corresponding scanning line, when this source electrode driver is exported replacement data in this signal of video signal, this gate driver drive replacement data corresponding scanning line.

11. display device as claimed in claim 9, wherein, this first initial waveform is the initial waveform of an image section of the initial drive signal of a grid, this second initial waveform is the initial waveform of replacement data of the initial drive signal of this grid, and should continue after this given time of the initial waveform of this image section by the initial waveform of replacement data.

12. display device as claimed in claim 9, wherein, these replacement data are the image data of arbitrary single gray scale.

13. a display device comprises:

One display panel comprises:

M column scan line, M are positive integer;

N line data line, each line data line comprise one first subdata line and one second subdata line, and N is a positive integer; And

M * N pixel, line up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), i wherein, j is an integer, and 1≤i≤M, and 1≤j≤N couple a little pixel P (i and the first capable subdata line of j is coupled to i column scan line respectively, j), i+1 column scan line couples pixel P (i+1 a little, j) until i+n column scan line couple a little pixel P (i+n, j), the second subdata line that j is capable is coupled to i+n+1 column scan line respectively and couples a little pixel P (i+n+1, j), i+n+2 column scan line couples pixel P (i+n+2 a little, j) until i+2n+1 column scan line couple a little pixel P (i+2n+1, j), wherein n is a positive integer;

One gate drivers is used for driving described sweep trace; And

The one source pole driver is used for controlling described first subdata line and the described second subdata line, and exports a signal of video signal, and this signal of video signal has a plurality of image sections, and each image section has the video data of the pixel that adjacent two column scan lines are coupled,

Wherein, every K image section is defined as a group, and K is a positive integer, has replacement data in the image section of each group,

Wherein, This gate drivers is according to one first onset wave; Drive the corresponding described scan line of one first group in the mode that is divided into K time; And drive the scan line of adjacent two row at every turn; When adjacent two column scan lines are driven; The demonstration data of the pixel that this source electrode driver will couple corresponding to the i column scan line in the driven scan line export the described first subdata line to; And the demonstration data of the pixel that will couple corresponding to the i+1 column scan line in the driven scan line export the described second subdata line to

Wherein, this gate drivers is after receiving this first initial waveform one given time, be to drive the pairing described sweep trace of this first group simultaneously, and should the replacement data export described first subdata line and the described second subdata line to by this source electrode driver according to one second initial waveform.

14. display device as claimed in claim 13, it also comprises:

One computing unit produces this replacement data according to an input signal of video signal and a counting relation, and this counting relation is relevant with K image section;

One data recombination unit couples this computing unit, is used for receiving this data enable signal, this input signal of video signal, this clock signal and this replacement data, and should import signal of video signal and this replacement data are carried out data recombination, to produce this signal of video signal; And

Time schedule controller, receive this signal of video signal, produce this first initial waveform and this second initial waveform according to this, and this time schedule controller is used for this first initial waveform and this second initial waveform are sent to this gate drivers, and this signal of video signal is sent to this source electrode driver

Wherein, this time schedule controller is controlled this gate drivers and this source electrode driver according to this signal of video signal, make when this source electrode driver is exported image section in this signal of video signal, this gate driver drive image section corresponding scanning line, when this source electrode driver is exported replacement data in this signal of video signal, this gate driver drive replacement data corresponding scanning line.

15. display device as claimed in claim 13, wherein, this first initial waveform is the initial waveform of an image section of the initial drive signal of a grid, this second initial waveform is the initial waveform of replacement data of the initial drive signal of this grid, and should continue after this given time of the initial waveform of this image section by the initial waveform of replacement data.

16. display device as claimed in claim 13, wherein, these replacement data are the image data of arbitrary single gray scale.

17. the driving method of a display panel, wherein, this display panel comprises M column scan line, a N line data line and M * N pixel, and each line data line comprises one first subdata line and one second subdata line, and above-mentioned pixel is lined up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), and 1≤i≤M, and 1≤j≤N, and the capable first subdata line and the i column scan line of j is coupled to pixel P (i, j), second subdata line that j is capable and i+1 column scan line be coupled to pixel P (i+1, j), N wherein, M, i, j is all positive integer, and this driving method comprises:

One input signal of video signal is provided;

Should import signal of video signal and divide into a plurality of image sections, wherein each image section has the video data of the pixel that adjacent two column scan lines are coupled;

Every K image section is distinguished into a group, and wherein K is a positive integer;

In the image section of each group, insert replacement data;

According to one first initial waveform, drive the pairing described sweep trace of one first group in the mode that is divided into K time, and drive the sweep trace of adjacent two row at every turn, when adjacent two column scan lines are driven, the video data that is driven the i column scan pixel that line couples in the sweep trace is provided to the described first subdata line, and the video data that will be driven the i+1 column scan pixel that line couples in the sweep trace provides to the described second subdata line; And

Behind this first initial waveform one given time, drive the pairing described sweep trace of this first group simultaneously according to one second initial waveform, and should the replacement data export described first subdata line and the described second subdata line to.

18. the driving method of display panel as claimed in claim 17, wherein, this first initial waveform is the initial waveform of an image section of the initial drive signal of a grid, this second initial waveform is the initial waveform of replacement data of the initial drive signal of this grid, and should continue after this given time of the initial waveform of this image section by the initial waveform of replacement data.

19. the driving method of display panel as claimed in claim 17, wherein, these replacement data are the image data of arbitrary single gray scale.

20. the driving method of a display panel, wherein, this display panel comprises M column scan line, a N line data line and M * N pixel, and each line data line comprises one first subdata line and one second subdata line, and above-mentioned pixel is lined up a matrix, the position is that i row and the capable pixel of j are expressed as P (i, j), and 1≤i≤M, and 1≤j≤N, and being coupled to i column scan line respectively, the first capable subdata line of j couples a little pixel P (i, j), i+1 column scan line couple a little pixel P (i+1, j) until i+n column scan line couple a little pixel P (i+n, j), the second subdata line that j is capable is coupled to i+n+1 column scan line respectively and couples a little pixel P (i+n+1, j), i+n+2 column scan line couple a little pixel P (i+n+2, j) until i+2n+1 column scan line couple a little pixel P (i+2n+1, j), N wherein, M, i, j, n is all positive integer, and this driving method comprises:

One input signal of video signal is provided;

Should import signal of video signal and divide into a plurality of image sections, wherein each image section has the video data of the pixel that adjacent two column scan lines are coupled;

Every K image section is distinguished into a group, and wherein K is a positive integer;

In the image section of each group, insert replacement data;

According to one first initial waveform, drive the pairing described sweep trace of one first group in the mode that is divided into K time, and drive the sweep trace of adjacent two row at every turn, when adjacent two column scan lines are driven, the video data that is driven the i column scan pixel that line couples in the sweep trace is provided to the described first subdata line, and the video data that will be driven the i+1 column scan pixel that line couples in the sweep trace provides to the described second subdata line; And

Behind this first initial waveform one given time, drive the pairing described sweep trace of this first group simultaneously according to one second initial waveform, and should the replacement data export described first subdata line and the described second subdata line to.

21. the driving method of display panel as claimed in claim 20, wherein, this first initial waveform is the initial waveform of an image section of the initial drive signal of a grid, this second initial waveform is the initial waveform of replacement data of the initial drive signal of this grid, and should continue after this given time of the initial waveform of this image section by the initial waveform of replacement data.

22. the driving method of display panel as claimed in claim 20, wherein, these replacement data are the image data of arbitrary single gray scale.

Images