CN108182908A

CN108182908A - Pixel-driving circuit and its driving method, display panel and its driving method

Info

Publication number: CN108182908A
Application number: CN201810252198.0A
Authority: CN
Inventors: 王迎; 李蒙; 董职福; 廖力勍; 李红敏
Original assignee: BOE Technology Group Co Ltd; Hefei BOE Optoelectronics Technology Co Ltd
Current assignee: BOE Technology Group Co Ltd; Hefei BOE Optoelectronics Technology Co Ltd
Priority date: 2018-03-26
Filing date: 2018-03-26
Publication date: 2018-06-19

Abstract

The present invention provides a kind of pixel-driving circuit and its driving method, display panel and its driving method.The pixel-driving circuit includes left eye pixel driver sub-circuit and right-eye pixel drive sub-circuits；The left eye pixel driver sub-circuit includes left eye driving transistor, left eye storage capacitance unit, left eye data writing unit, left eye resetting control unit and left eye luminous controling unit；The right-eye pixel drive sub-circuits include right eye driving transistor, right eye storage capacitance unit, right eye data writing unit, right eye resetting control unit and right eye luminous controling unit.The present invention includes the left eye drive sub-circuits worked alternatively and right eye drive sub-circuits, so that in each frame picture display time, the display time of left eye picture and the display time of right eye picture are approximately equal to the half of the frame picture display time, avoid display flicker, are promoted and show that picture is shown.

Description

Pixel-driving circuit and its driving method, display panel and its driving method

Technical field

The present invention relates to pixel driver technical field more particularly to a kind of pixel-driving circuit and its driving method, displays Panel and its driving method.

Background technology

With development in science and technology, 3D (three-dimensional) displays are increasingly liked by consumers in general, traditional 3D display principle： Display picture is divided into 4 units, i.e. left eye picture data voltage writing unit, left eye picture display unit, right eye frame numbers According to voltage writing unit, left eye picture display unit.But mode as indicated above has kind of a shortcoming：In each frame picture display time In, left eye picture display time and right eye picture display time only account for 1/4 frame picture display time respectively, it may appear that display waits for And scintillation, seriously affect display effect.

Invention content

It is a primary object of the present invention to provide a kind of pixel-driving circuit and its driving method, display panel and its driving Method is solved in the prior art since in each frame picture display time, left eye picture display time and right eye picture are shown Time only accounts for 1/4 frame picture display time respectively, it may appear that display waits for and scintillation, seriously affects asking for display effect Topic.

In order to achieve the above object, the present invention provides a kind of pixel-driving circuit, including left eye pixel driver sub-circuit With right-eye pixel drive sub-circuits；The left eye pixel driver sub-circuit includes left eye driving transistor, left eye storage capacitance list Member, left eye data writing unit, left eye resetting control unit and left eye luminous controling unit；The right-eye pixel drive sub-circuits Including right eye driving transistor, right eye storage capacitance unit, right eye data writing unit, right eye resetting control unit and right eye hair Light control unit；

The grid of the left eye driving transistor is connect with the first end of the left eye storage capacitance unit, and the left eye drives First pole of dynamic transistor is connect with power voltage input terminal, and the second pole and the left eye of the left eye driving transistor store The second end connection of capacitor cell；

The grid of the left eye data writing unit and left eye row gating line, left eye data line and the left eye driving transistor Pole connects, for controlling whether the left eye data line drives crystal with the left eye under the control of the left eye row gating line The grid connection of pipe；

The left eye resetting control unit and the first left eye resetting control line, the second left eye resetting control line, the left eye The grid of driving transistor, the left eye driving transistor the second pole connected with left eye reset voltage end, for described One left eye resetting control line control under, control the left eye driving transistor grid whether with the left eye reset voltage end Connection, and under the control of the second left eye control line, control the left eye driving transistor the second pole whether with The left eye reset voltage end connection；

The left eye luminous controling unit and left eye light emitting control line, the left eye driving transistor the second pole and shine Element connect, for controlled under the control of the left eye light emitting control line the second pole of the left eye driving transistor whether with The light-emitting component connection；

The grid of the right eye driving transistor is connect with the first end of the right eye storage capacitance unit, and the right eye drives First pole of dynamic transistor is connect with the power voltage input terminal, the second pole and the right eye of the right eye driving transistor The second end connection of storage capacitance unit；

The grid of the right eye data writing unit and right eye row gating line, right eye data line and the right eye driving transistor Pole connects, for controlling whether the right eye data line drives crystal with the right eye under the control of the right eye row gating line The grid connection of pipe；

The right eye resetting control unit and the first right eye resetting control line, the second right eye resetting control line, the right eye The grid of driving transistor, the right eye driving transistor the second pole connected with right eye reset voltage end, for described One right eye resetting control line control under, control the right eye driving transistor grid whether with the right eye reset voltage end Connection, and under the control of second right eye resetting control line, controlling the second pole of the right eye driving transistor to be It is no to be connected with the right eye reset voltage end；

The right eye luminous controling unit and right eye light emitting control line, the second pole of the right eye driving transistor and described Light-emitting component connects, and the second pole for controlling the right eye driving transistor under the control of the right eye light emitting control line is It is no to be connected with the light-emitting component.

During implementation, the left eye resetting control unit includes：

First left eye resets controlling transistor, and grid and first left eye reset control line and connect, the first pole with it is described The grid connection of left eye driving transistor, the second pole is connect with the left eye reset voltage end；And

Second left eye resets controlling transistor, and grid and second left eye reset control line and connect, the first pole with it is described The second pole connection of left eye driving transistor, the second pole is connect with the left eye reset voltage end；

The first left eye resetting controlling transistor and second left eye resetting controlling transistor are all n-type transistor； Alternatively, the first left eye resetting controlling transistor and second left eye resetting controlling transistor are all p-type transistor.

During implementation, the left eye data writing unit includes：Left eye data writing transistor, grid are selected with the left eye row Logical line connection, the first pole are connect with the left eye data line, and the second pole is connect with the grid of the left eye driving transistor；

The left eye luminous controling unit includes：Left eye light emitting control transistor, grid and the left eye light emitting control line Connection, the first pole are connect with the second pole of the left eye driving transistor, and the second pole is connect with the light-emitting component；

The left eye storage capacitance unit includes：Left eye storage capacitance, the grid of first end and the left eye driving transistor Pole connects, and second end is connect with the second pole of the left eye driving transistor.

During implementation, the right eye resetting control unit includes：First right eye resets controlling transistor, grid and described first Right eye resetting control line connection, the first pole are connect with the grid of the right eye driving transistor, and the second pole is reset with the right eye Voltage end connects；And

Second right eye resets controlling transistor, and grid and second right eye reset control line and connect, the first pole with it is described The second pole connection of right eye driving transistor, the second pole is connect with the right eye reset voltage end；

The first right eye resetting controlling transistor and second right eye resetting controlling transistor are all n-type transistor； Alternatively, the first right eye resetting controlling transistor and second right eye resetting controlling transistor are all p-type transistor.

During implementation, the right eye data writing unit includes：Right eye data writing transistor, grid are selected with the right eye row Logical line connection, the first pole are connect with the right eye data line, and the second pole is connect with the grid of the right eye driving transistor；

The right eye luminous controling unit includes：Right eye light emitting control transistor, grid and the right eye light emitting control line Connection, the first pole are connect with the second pole of the right eye driving transistor, and the second pole is connect with the light-emitting component；

The right eye storage capacitance unit includes：Right eye storage capacitance, the grid of first end and the right eye driving transistor Pole connects, and second end is connect with the second pole of the right eye driving transistor.

The present invention also provides a kind of image element driving method, applied to above-mentioned pixel-driving circuit, the first display cycle Be two display cycles set gradually for including of a frame picture display time with the second display cycle, the first display cycle include according to First time period, second time period and the third period of secondary setting, the second display cycle include the 4th time set gradually Section, the 5th period and the 6th period；

The image element driving method includes：

Left eye resets step：In the first time period, under the control of the first left eye resetting control line, left eye resetting control The grid of unit control left eye driving transistor processed is connected with left eye reset voltage end, in the control of the second left eye resetting control line Under, the left eye resetting control unit controls the second pole of the left eye driving transistor and the left eye reset voltage end to connect It is logical, so that the left eye driving transistor turns off；

Left eye data write step：In the second time period, left eye data line input left eye data voltage, in left eye row Under the control of gating line, the grid of left eye data writing unit control left eye data voltage write-in left eye driving transistor；Institute Under the control for stating the first left eye resetting control line, the left eye resetting control unit controls the grid of the left eye driving transistor It is not connected with the left eye reset voltage end；Under the control of second left eye resetting control line, the left eye resetting control Unit controls to be connected between the second pole of the left eye driving transistor and the left eye reset voltage end；

Right eye resets step：In the second time period, under the control of the first right eye resetting control line, right eye resetting control The grid of unit control right eye driving transistor processed is connected with right eye reset voltage end, in the control of the second right eye resetting control line Under, the right eye resetting control unit controls the second pole of the right eye driving transistor and the right eye reset voltage end to connect It is logical, so that the right eye driving transistor turns off；

Left eye picture step display：In the third period, under the control of left eye row gating line, left eye data write-in Unit controls not to be connected between left eye data line and the grid of left eye driving transistor；In second left eye resetting control line Under control, the left eye resetting control unit controls the second pole of the left eye driving transistor and the left eye reset voltage end Between do not connect；Under the control of left eye light emitting control line, the second of left eye luminous controling unit control left eye driving transistor Pole is connected with light-emitting component, and left eye driving transistor opens that light-emitting component is driven to shine；

Right eye data write step：In the third period, right eye data line input right eye data voltage, in right eye row Under the control of gating line, the grid of right eye data writing unit control right eye data voltage write-in right eye driving transistor；Institute Under the control for stating the first right eye resetting control line, the right eye resetting control unit controls the grid of the right eye driving transistor It is not connected with the right eye reset voltage end；Under the control of second right eye resetting control line, the right eye resetting control Unit controls to be connected between the second pole of the right eye driving transistor and the right eye reset voltage end；

Right eye picture step display：In the 4th period, under the control of right eye row gating line, right eye data write-in Unit controls not to be connected between right eye data line and the grid of right eye driving transistor；In second right eye resetting control line Under control, the right eye resetting control unit controls the second pole of the right eye driving transistor and the right eye reset voltage end Between do not connect；Under the control of right eye light emitting control line, the second of right eye luminous controling unit control right eye driving transistor Pole is connected with light-emitting component, and right eye driving transistor opens that light-emitting component is driven to shine.

The image element driving method includes：

Right eye resets step：In the first time period, under the control of the first right eye resetting control line, right eye resetting control The grid of unit control right eye driving transistor processed is connected with right eye reset voltage end, in the control of the second right eye resetting control line Under, the right eye resetting control unit controls the second pole of the right eye driving transistor and the right eye reset voltage end to connect It is logical, so that the right eye driving transistor turns off；

Right eye data write step：In the second time period, right eye data line input right eye data voltage, in right eye row Under the control of gating line, the grid of right eye data writing unit control right eye data voltage write-in right eye driving transistor；Institute Under the control for stating the first right eye resetting control line, the right eye resetting control unit controls the grid of the right eye driving transistor It is not connected with the right eye reset voltage end；Under the control of second right eye resetting control line, the right eye resetting control Unit controls to be connected between the second pole of the right eye driving transistor and the right eye reset voltage end；

Left eye resets step：In the second time period, under the control of the first left eye resetting control line, left eye resetting control The grid of unit control left eye driving transistor processed is connected with left eye reset voltage end, in the control of the second left eye resetting control line Under, the left eye resetting control unit controls the second pole of the left eye driving transistor and the left eye reset voltage end to connect It is logical, so that the left eye driving transistor turns off；

Right eye picture step display：In the third period, under the control of right eye row gating line, right eye data write-in Unit controls not to be connected between right eye data line and the grid of right eye driving transistor；In second right eye resetting control line Under control, the right eye resetting control unit controls the second pole of the right eye driving transistor and the right eye reset voltage end Between do not connect；Under the control of right eye light emitting control line, the second of right eye luminous controling unit control right eye driving transistor Pole is connected with light-emitting component, and right eye driving transistor opens that light-emitting component is driven to shine；

Left eye data write step：In the third period, left eye data line input left eye data voltage, in left eye row Under the control of gating line, the grid of left eye data writing unit control left eye data voltage write-in left eye driving transistor；Institute Under the control for stating the first left eye resetting control line, the left eye resetting control unit controls the grid of the left eye driving transistor It is not connected with the left eye reset voltage end；Under the control of second left eye resetting control line, the left eye resetting control Unit controls to be connected between the second pole of the left eye driving transistor and the left eye reset voltage end；

Left eye picture step display：In the 4th period, under the control of left eye row gating line, left eye data write-in Unit controls not to be connected between left eye data line and the grid of left eye driving transistor；In second left eye resetting control line Under control, the left eye resetting control unit controls the second pole of the left eye driving transistor and the left eye reset voltage end Between do not connect；Under the control of left eye light emitting control line, the second of left eye luminous controling unit control left eye driving transistor Pole is connected with light-emitting component, and left eye driving transistor opens that light-emitting component is driven to shine.

The present invention also provides a kind of display panel, including multirow left eye row gating line, multirow right eye row gating line, multirow Left eye light emitting control line, multirow right eye light emitting control line, the first left eye of multirow resetting control line, the resetting control of the second left eye of multirow Line, the first right eye of multirow resetting control line, the second right eye of multirow resetting control line, multiple row left eye data line, multiple row right eye data Pixel-driving circuit in line and multiple lines and multiple rows such as claim 1 to 5 as described in any claim；

Line n m row pixel-driving circuit and line n left eye row gating line, line n right eye row gating line, line n left eye Light emitting control line, line n right eye light emitting control line, the first left eye of line n resetting control line, the resetting control of the second left eye of line n Line, the first right eye of line n resetting control line, the second right eye of line n resetting control line, m row left eye data lines and m row right eyes Data line connects；N and m is positive integer.

The present invention also provides a kind of driving method of display panel, for driving above-mentioned display panel, a frame picture Show that the time includes multiple display cycles set gradually, when a display cycle includes the first time period set gradually, second Between section and third period；The driving method of the display panel includes：

First time period in the first display cycle included in a frame picture display time, the first row pixel-driving circuit In left eye pixel driver sub-circuit carry out left eye reset operation；

Second time period in first display cycle, left eye pixel driver in the first row pixel-driving circuit Circuit carries out left eye data write operation, the right side that the right-eye pixel drive sub-circuits in the first row pixel-driving circuit include it The current potential of second pole of eye driving transistor carries out right eye reset operation；

Third period in first display cycle, left eye pixel driver in the first row pixel-driving circuit Circuit carries out left eye picture display operation, and the right-eye pixel drive sub-circuits in the first row pixel-driving circuit carry out right eye data Write operation；Left eye pixel driver sub-circuit in second row pixel-driving circuit carries out left eye reset operation；

First time period in a display cycles, the right-eye pixel drive sub-circuits in a-1 row pixel-driving circuits Right eye picture display operation is carried out, the left eye pixel driver sub-circuit in a row pixel-driving circuits carries out left eye data write-in Operation；Right-eye pixel drive sub-circuits in a row pixel-driving circuits carry out right eye reset operation；

Second time period in a display cycles, left eye pixel driver sub-circuit in a row pixel-driving circuits into Row left eye picture display operation, the right-eye pixel drive sub-circuits in a row pixel-driving circuits carry out right eye data write-in behaviour Make；Left eye pixel driver sub-circuit in a+1 row pixel-driving circuits carries out left eye reset operation；

The third period in a display cycles, right-eye pixel drive sub-circuits in a row pixel-driving circuits into Row right eye picture display operation, the left eye pixel driver sub-circuit in a+1 row pixel-driving circuits carry out left eye data write-in Operation；Right-eye pixel drive sub-circuits in a+1 row pixel-driving circuits carry out right eye reset operation；

A is the integer more than 1.

First time period in the first display cycle included in a frame picture display time, the first row pixel-driving circuit In right-eye pixel drive sub-circuits carry out right eye reset operation；

Second time period in first display cycle, right-eye pixel driving in the first row pixel-driving circuit Circuit carries out right eye data write operation, the left side that the left eye pixel driver sub-circuit in the first row pixel-driving circuit includes it The current potential of second pole of eye driving transistor carries out left eye reset operation；

Third period in first display cycle, right-eye pixel driving in the first row pixel-driving circuit Circuit carries out right eye picture display operation, and the left eye pixel driver sub-circuit in the first row pixel-driving circuit carries out left eye data Write operation；Right-eye pixel drive sub-circuits in second row pixel-driving circuit carry out right eye reset operation；

First time period in a display cycles, the left eye pixel driver sub-circuit in a-1 row pixel-driving circuits Left eye picture display operation is carried out, the right-eye pixel drive sub-circuits in a row pixel-driving circuits carry out right eye data write-in Operation；Left eye pixel driver sub-circuit in a row pixel-driving circuits carries out left eye reset operation；

Second time period in a display cycles, right-eye pixel drive sub-circuits in a row pixel-driving circuits into Row right eye picture display operation, the left eye pixel driver sub-circuit in a row pixel-driving circuits carry out left eye data write-in behaviour Make；Right-eye pixel drive sub-circuits in a+1 row pixel-driving circuits carry out right eye reset operation；

The third period in a display cycles, left eye pixel driver sub-circuit in a row pixel-driving circuits into Row left eye picture display operation, the right-eye pixel drive sub-circuits in a+1 row pixel-driving circuits carry out right eye data write-in Operation；Left eye pixel driver sub-circuit in a+1 row pixel-driving circuits carries out left eye reset operation；

A is the integer more than 1.

Compared with prior art, pixel-driving circuit and its driving method of the present invention, display panel and its driving Method includes the left eye drive sub-circuits worked alternatively and right eye drive sub-circuits so that in each frame picture display time, The display time of left eye picture and the display time of right eye picture are approximately equal to the half of the frame picture display time, avoid display Flicker is promoted and shows that picture is shown, left eye picture display time and right eye picture display time only account for often in the prior art for solution The 1/4 of one frame picture display time, so as to display be caused to wait for and scintillation, the problem of seriously affecting display effect.

Description of the drawings

Fig. 1 is the structure chart of the pixel-driving circuit described in the embodiment of the present invention；

Fig. 2 is the circuit diagram of a specific embodiment of pixel-driving circuit of the present invention；

Fig. 3 is the working timing figure of the specific embodiment of pixel-driving circuit of the present invention.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment shall fall within the protection scope of the present invention.

The transistor used in all embodiments of the invention all can be thin film transistor (TFT) or field-effect tube or other characteristics Identical device.In embodiments of the present invention, to distinguish the two poles of the earth of transistor in addition to grid, wherein first will be known as in a pole Pole, another pole are known as the second pole.In practical operation, described first can be extremely drain electrode, and described second extremely can be source electrode；Or Person, described first extremely can be source electrode, and described second extremely can be drain electrode.

As shown in Figure 1, the pixel-driving circuit described in the embodiment of the present invention includes left eye pixel driver sub-circuit and right eye Pixel driver sub-circuit；

The left eye pixel driver sub-circuit includes left eye driving transistor T2, left eye storage capacitance unit 11, left eye number Control unit 14 is reset according to writing unit 12, left eye luminous controling unit 13 and left eye；

The right-eye pixel drive sub-circuits include right eye driving transistor T2 ', right eye storage capacitance unit 21, right eye number Control unit 24 is reset according to writing unit 22, right eye luminous controling unit 23 and right eye；

The grid G 1 of the left eye driving transistor T2 is connect with the first end of the left eye storage capacitance unit 11, described The drain D 1 of left eye driving transistor T2 is connect with power voltage input terminal OVDD, the source S 1 of the left eye driving transistor T2 It is connect with the second end of the left eye storage capacitance unit 11；

The left eye data of the left eye data writing unit 12 and left eye row gating line SCAN1, input left eye data voltage The grid G 1 of line L_DATA and the left eye driving transistor T2 connect, in the control of the left eye row gating line SCAN1 Whether the lower control left eye data line L_DATA connects with the grid G 1 of the left eye driving transistor T2；

The left eye luminous controling unit 13 and left eye light emitting control line SW1, the source electrode of the left eye driving transistor T2 S1 is connected with light-emitting element E L, for controlling the left eye driving transistor under the control of the left eye light emitting control line SW1 Whether the source S 1 of T2 connects with the light-emitting element E L；

The left eye resetting control unit 14 and first left eye resetting control line L_EN1, the second left eye resetting control line L_ EN2, the grid G 1 of the left eye driving transistor T2, the source S 1 of the left eye driving transistor T2 and left eye reset voltage end Vset_L connections, under the control of first left eye resetting control line L_EN1, controlling the left eye driving transistor T2 Grid G 1 whether connected with the left eye reset voltage end Vset_L, and in second left eye resetting control line L_ Under the control of EN2, control whether the source S 1 of the left eye driving transistor T2 connects with the left eye reset voltage end Vset_L It is logical；

The grid G 2 of the right eye driving transistor T2 ' is connect with the first end of the right eye storage capacitance unit 21, institute The drain D 2 for stating right eye driving transistor T2 ' is connect with the power voltage input terminal OVDD, the right eye driving transistor T2 ' Source S 2 connect with the second end of the right eye storage capacitance unit 21；

The right eye data of the right eye data writing unit 22 and right eye row gating line SCAN_R, input right eye data voltage The grid G 2 of line R-DATA and the right eye driving transistor T2 ' connect, in the control of the right eye row gating line SCAN2 Whether the lower control right eye data line R-DATA connects with the grid G 2 of the right eye driving transistor T2 '；

The right eye luminous controling unit 23 and right eye light emitting control line SW2, the source electrode of the right eye driving transistor T2 ' S2 is connected with the light-emitting element E L, for controlling the right eye driving brilliant under the control of the right eye light emitting control line SW2 Whether source S _ R of body pipe T2 ' connects with the light-emitting element E L；

The right eye resetting control unit 24 and first right eye resetting control line R_EN1, the second right eye resetting control line R_ EN2, the grid G 2 of the right eye driving transistor T2 ', the source S 1 and right eye reset voltage of the right eye driving transistor T2 ' Vset_R connections are held, under the control of first right eye resetting control line R_EN1, controlling the right eye driving transistor Whether the grid G 2 of T2 ' connects with the right eye reset voltage end Vset_R, and in the second right eye resetting control line R_EN2 Control under, control whether the source S 2 of the right eye driving transistor T2 ' connects with the right eye reset voltage end Vset_R.

In the embodiment shown in fig. 1, by T2 and T2 ' to illustrate for n-type transistor, at this point, first extremely drains, the Two extremely source electrodes；In practical operation, T2, T2 ' p-type transistor can also be replaced by, type of transistor is not made at this It limits.

Pixel-driving circuit described in the embodiment of the present invention can realize that shutter 3D (three-dimensional) is shown, the embodiment of the present invention The pixel-driving circuit includes the left eye drive sub-circuits worked alternatively and right eye drive sub-circuits so that is drawn in each frame Face shows in the time that the display time of left eye picture and the display time of right eye picture are approximately equal to the one of the frame picture display time Partly, display flicker is avoided, is promoted and shows that picture is shown, left eye picture display time and right eye picture are shown in the prior art for solution Show that the time only accounts for the 1/4 of each frame picture display time, so as to cause display waiting and scintillation, seriously affect display effect The problem of.

Specifically, the left eye resetting control unit can include：

First left eye resets controlling transistor, and grid and first left eye reset control line and connect, the first pole with it is described The grid connection of left eye driving transistor, the second pole are connect with left eye resetting control terminal；And

Second left eye resets controlling transistor, and grid and second left eye reset control line and connect, the first pole with it is described The second pole connection of left eye driving transistor, the second pole are connect with left eye resetting control terminal；

Specifically, the left eye data writing unit can include：Left eye data writing transistor, grid and the left eye Row gating line connects, and the first pole is connect with the left eye data line, and the second pole is connect with the grid of the left eye driving transistor；

Specifically, the right eye resetting control unit can include：First right eye reset controlling transistor, grid with it is described The resetting control line connection of first right eye, the first pole are connect with the grid of the right eye driving transistor, the second pole and the right eye Reset control terminal connection；And

Second right eye resets controlling transistor, and grid and second right eye reset control line and connect, the first pole with it is described The second pole connection of right eye driving transistor, the second pole are connect with right eye resetting control terminal；

Specifically, the right eye data writing unit can include：Right eye data writing transistor, grid and the right eye Row gating line connects, and the first pole is connect with the right eye data line, and the second pole is connect with the grid of the right eye driving transistor；

At work, the first display cycle and second shows the embodiment of present invention pixel-driving circuit as shown in Figure 1 Period is two display cycles set gradually for including of a frame picture display time, the first display cycle include setting gradually the One period, second time period and third period, the second display cycle include the 4th period, the 5th time that set gradually Section and the 6th period；

In the first time period, under the control of the first left eye resetting control line L_EN1, left eye resetting control unit 14 The grid G 1 of control left eye driving transistor T2 is connected with left eye reset voltage end Vset_L, in the second left eye resetting control line L_ Under the control of EN2, the left eye resetting control unit 14 controls the source S 1 of the left eye driving transistor T2 and the left eye Reset voltage end Vset_L is connected, so that the left eye driving transistor T2 is turned off；The left eye reset voltage end at this time The voltage value of Vset_L output reference voltages Vref, Vref for 0V or so (value of Vref be only used for for example, not as Limit)；

In the second time period, left eye reset voltage end Vset_L output reference voltage Vref are reset in the first left eye Under the control of control line L_EN1, left eye resetting control unit 14 controls the grid G 1 of left eye driving transistor T2 and left eye to reset Voltage end Vset_L is not connected, and under the control of the second left eye resetting control line L_EN2, the left eye resetting control unit 14 is controlled The continuation of source S 1 for making the left eye driving transistor T2 is connected with the left eye reset voltage end Vset_L；

Left eye data line L_DATA inputs left eye data voltage Vdata_L, under the control of left eye row gating line SCAN1, Left eye data writing unit 12 controls the grid G 1 of left eye driving transistor T2 to be connected with left eye data line L_DATA, so that T2 Grid G 1 access Vdata_L；The gate source voltage VGS of T2 is equal to Vdata_L-Vref at this time, and VGS is stored in left eye storage capacitance In unit 11；

In the second time period, under the control of the first right eye resetting control line R_EN1, right eye resetting control unit 24 The grid G 2 of control right eye driving transistor T2 ' is connected with right eye reset voltage end Vset_R, and control line is reset in the second right eye Under the control of R_EN2, the right eye resetting control unit 24 controls the source S 2 of the right eye driving transistor T2 ' and the right side Eye reset voltage end Vset_R connections, so that the right eye driving transistor T2 ' is turned off；The right eye reset voltage end at this time The voltage value of Vset_R output reference voltages Vref, Vref for 0V or so (value of Vref be only used for for example, not as Limit)；

In the third period, under the control of left eye row gating line SCAN1, left eye data writing unit 12 controls a left side It is not connected between eye data line L_DATA and the grid G 1 of left eye driving transistor T2；In second left eye resetting control line L_ Under the control of EN2, the left eye resetting control unit 14 controls the source S 1 of the left eye driving transistor T2 and the left eye It is not connected between the Vset_L of reset voltage end；Under the control of left eye light emitting control line SW1, left eye luminous controling unit 13 controls The source S 1 of left eye driving transistor T2 is connected with light-emitting element E L, and left eye driving transistor T2 opens to drive light-emitting element E L It shines, to realize that left eye picture is shown；The voltage needed for shining is stored in left eye storage capacitance unit 11, so sending out The current value I that light-emitting element E L is flowed into photoreduction process is equal to 1/2 × K × (VGS-Vth)², due to VGS=Vdata_L-Vref, So I=1/2 × K × (Vdata_L-Vref-Vth)²；Wherein, K is the current coefficient of T2, and Vth is the threshold voltage of T2；By In the raising for the technological level for making transistor, Vth can be very good to control in 0V or so, therefore influence very littles of the Vth to I；

In the third period, right eye reset voltage end Vset_R output reference voltage Vref are reset in the first right eye Under the control of control line R_EN1, right eye resetting control unit 24 controls the grid G 2 of right eye driving transistor T2 ' and right eye to reset Voltage end Vset_R is not connected, and under the control of the second right eye resetting control line R_EN2, the right eye resetting control unit 24 is controlled The continuation of source S 2 for making the right eye driving transistor T2 ' is connected with the right eye reset voltage end Vset_R；

Right eye data line R_DATA inputs right eye data voltage Vdata_R, under the control of right eye row gating line SCAN2, Right eye data writing unit 22 controls the grid G 2 of right eye driving transistor T2 ' to be connected with right eye data line R_DATA, so that The grid G 2 of T2 ' accesses Vdata_R；The gate source voltage VGS ' of T2 ' is stored in left eye and deposits equal to Vdata_R-Vref, VGS ' at this time It stores up in capacitor cell 21；

In the 4th period, under the control of right eye row gating line SCAN2, right eye data writing unit 22 controls the right side It is not connected between eye data line R_DATA and the grid G 2 of right eye driving transistor T2 '；Control line is reset in second right eye Under the control of R_EN2, the right eye resetting control unit 24 controls the source S 2 of the right eye driving transistor T2 ' and the right side It is not connected between eye reset voltage end Vset_R；Under the control of right eye light emitting control line SW2, right eye luminous controling unit 23 is controlled The source S 2 of right eye driving transistor T2 ' processed is connected with light-emitting element E L, and right eye driving transistor T2 ' opens to drive the member that shines Part EL shines, to realize that right eye picture is shown；The voltage needed for shining is stored in right eye storage capacitance unit 21, so The current value I that light-emitting element E L is flowed into luminescence process is equal to 1/2 × K × (VGS '-Vth)², due to VGS '=Vdata_R- Vref, so I=1/2 × K ' × (Vdata_R-Vref-Vth ')²；Wherein, K ' is the current coefficient of T2 ', and Vth ' is T2's ' Threshold voltage；Due to the raising of technological level for making transistor, Vth ' can be very good control in 0V or so, therefore Vth ' is right The influence very little of I.

It is shown above by first to carry out left eye and carries out illustrating for right eye is shown again, in practical operation, can also first carried out Right eye is shown, then is carried out right eye and shown；That is, in the first time period, right eye resetting is carried out；In the second time period, Right eye data write-in is carried out, carries out left eye resetting；In the third period, carry out right eye picture and show, carry out left eye data Write-in；In the 4th period, carry out left eye picture and show.

Illustrate pixel-driving circuit of the present invention below by a specific embodiment；

As shown in Fig. 2, a specific embodiment of pixel-driving circuit of the present invention includes left eye pixel driver electricity Road and right-eye pixel drive sub-circuits；The light-emitting component is Organic Light Emitting Diode OLED；

The left eye pixel driver sub-circuit includes left eye driving transistor T2, left eye storage capacitance unit 11, left eye number According to writing unit 12, left eye resetting control unit 13 and left eye luminous controling unit 14；

The right-eye pixel drive sub-circuits include right eye driving transistor T2 ', right eye storage capacitance unit 21, right eye number According to writing unit 22, right eye resetting control unit 23 and right eye luminous controling unit 24；

The left eye storage capacitance unit 11 includes：Left eye storage capacitance C1, first end and the left eye driving transistor The grid G 1 of T2 connects, and second end is connect with the source S 1 of the left eye driving transistor T2；

The grid G 1 of the left eye driving transistor T2 is connect with the first end of the left eye storage capacitance C1, the left eye The drain electrode of driving transistor T2 is connect with power voltage input terminal OVDD, the source S 1 of the left eye driving transistor T2 with it is described The second end connection of left eye storage capacitance C1；

The left eye resetting control unit 13 includes：

First left eye resets controlling transistor T3, and grid and first left eye resetting control line L_EN1 connects, drain and The grid G 1 of the left eye driving transistor T2 connects, and source electrode is connect with the left eye reset voltage end Vset_L；And

Second left eye resets controlling transistor T4, and grid and second left eye resetting control line L_EN2 connects, drain and The source S 1 of the left eye driving transistor T2 connects, and source electrode is connect with the left eye reset voltage end Vset_L；

The left eye data writing unit 12 includes：Left eye data writing transistor T1, grid are gated with the left eye row Line SCAN1 connections, drain electrode are connect with the left eye data line L_DATA, the grid G 1 of source electrode and the left eye driving transistor T2 Connection；

The left eye luminous controling unit 14 includes：Left eye light emitting control transistor T5, grid and the left eye shine control Line SW1 connections processed, drain electrode are connect with the source S 1 of the left eye driving transistor T2, source electrode and the Organic Light Emitting Diode The anode connection of OLED；

The right eye storage capacitance unit 21 includes：Right eye storage capacitance C1 ', first end and the right eye driving transistor The grid G 2 of T2 ' connects, and second end is connect with the source S 2 of the right eye driving transistor T2 '；

The grid G 2 of the right eye driving transistor T2 ' is connect with the first end of the right eye storage capacitance C1 ', the left side The drain electrode of eye driving transistor T2 ' is connect with the power voltage input terminal OVDD, the source electrode of the right eye driving transistor T2 ' S2 is connect with the second end of the right eye storage capacitance C1 '；

The right eye resetting control unit 23 includes：

First right eye resets controlling transistor T3 ', and grid connect with first right eye resetting control line R_EN1, drains It is connect with the grid G 2 of the right eye driving transistor T2 ', source electrode is connect with the right eye reset voltage end Vset_R；And

Second right eye resets controlling transistor T4 ', and grid connect with second right eye resetting control line R_EN2, drains It is connect with the source S 2 of the right eye driving transistor T2 ', source electrode is connect with the right eye reset voltage end Vset_R；

The right eye data writing unit 22 includes：Right eye data writing transistor T1 ', grid are gated with the right eye row Line SCAN2 connections, drain electrode are connect with the right eye data line R_DATA, the grid of source electrode and the right eye driving transistor T2 ' G2 connections；

The right eye luminous controling unit 24 includes：Right eye light emitting control transistor T5 ', grid and the right eye shine control Line SW2 connections processed, drain electrode are connect with the source S 2 of the right eye driving transistor T2 ', source electrode and the Organic Light Emitting Diode The anode connection of OLED；

The cathode of the Organic Light Emitting Diode OLED is connect with ground terminal GND.

In specific embodiment shown in Fig. 2, all transistors are all n-type transistor, but in practical operation, as above Transistor can also be replaced by p-type transistor, and type of transistor is not construed as limiting at this.

The specific embodiment of present invention pixel-driving circuit as shown in Figure 2 at work, the first display cycle and second Display cycle is two display cycles set gradually that a frame picture display time includes, and the first display cycle included setting gradually First time period, second time period and third period, the second display cycle include set gradually the 4th period, the 5th Period and the 6th period；

As shown in figure 3, in first time period S1, L_EN1 output high level, T3 is opened, with control the grid G 1 of T2 with Vset_L is connected, to reset the current potential of G1；L_EN2 exports high level, and T4 is opened, the source S 1 of T2 to be controlled to connect with Vset_L It is logical, the current potential of S1 is reset, so that T2 is turned off；The voltage value of Vset_L output reference voltages Vref at this time, Vref are 0V or so (value of Vref is only used for for example, being not limited)；

In the first time period S1, SCAN1, SW1, SCAN2, SW2, R_EN1 and R_EN2 export low level；T1、 T5, T1 ', T2 ', T3 ', T4 ' and T5 ' be turned off；

In second time period S2, Vset_L continues to output Vref, L_EN1 output low levels, T3 shutdowns, to control the grid of T2 Pole G1 is not connected with Vset_L, and L_EN2 output high level, T4 is opened, the continuation of the source S 1 of T2 to be controlled to be connected with Vset_L；L_ DATA input left eye data voltage Vdata_L, SCAN1 output high level, T1 is opened, the grid G 1 of T2 to be controlled to connect with L_DATA It is logical, so that the grid G 1 of T2 accesses Vdata_L；The gate source voltage VGS of T2 is equal to Vdata_L-Vref at this time, and VGS is stored in In C1；

In the second time period S2, R_EN1 output high level, T3 ' is opened, to control the grid G 2 of T2 ' and Vset_R Connection, R_EN2 output high level, T4 ' is opened, is connected with the source S 2 for controlling T2 ' with Vset_R, so that T2 ' is turned off；At this time The voltage value of Vset_R output reference voltages Vref, Vref for 0V or so (value of Vref be only used for for example, not as Limit)；

Low level is all exported in the second time period S2, L_EN1 and SW1, so that T3 and T1 are turned off；SCAN2 and SW2 exports low level, so that T1 ' and T5 ' are turned off；

In third period S3, SCAN1 output low levels, T1 shutdowns, to control between the grid G 1 of L_DATA and T2 not Connection；L_EN2 exports low level, and T4 shutdowns are not connected with controlling between the source S 1 of T2 and Vset_L；SW1 exports high level, T5 is opened, and is connected with the source S 1 for controlling T2 with the anode of OLED, and T2 is opened so that OLED to be driven to shine, to realize that left eye picture is shown Show；Due to shine needed for voltage be stored in C1, so in luminescence process flow into OLED current value I be equal to 1/2 × K × (VGS-Vth)², due to VGS=Vdata_L-Vref, so I=1/2 × K × (Vdata_L-Vref-Vth)²；Wherein, K T2 Current coefficient, Vth be T2 threshold voltage；Due to the raising of technological level for making transistor, Vth can be very good to control In 0V or so, therefore influence very littles of the Vth to I；

In the third period S3, Vset_R output reference voltages Vref, R_EN1 output low level, T3 ' is turned off, with Control T2 ' grid G 2 do not connected with Vset_R, R_EN2 output high level, T4 ' open, with control the source S 2 of T2 ' continue and Vset_R is connected；

R_DATA input right eye data voltage Vdata_R, SCAN2 output high level, T1 ' is opened, to control the grid of T2 ' G2 is connected with R_DATA, so that the grid G 2 of T2 ' accesses Vdata_R；The gate source voltage VGS ' of T2 ' is equal to Vdata_R- at this time Vref, VGS ' it is stored in C1 '；

In the third period S3, L_EN1, L_EN2 and SCAN1 export low level, so that T3, T4 and T1 are closed It is disconnected；R_EN1 and SW2 export low level, so that T3 ' and T1 ' are turned off；

In the 4th period S4, SCAN2 output low levels, T1 ' shutdowns, to control R_DATA and T2 ' grid G 2 between It does not connect；R_EN2 exports low level, and T4 ' shutdowns are not connected with controlling between the source S 2 of T2 ' and Vset_R；SW2 outputs are high Level, T5 ' are opened, are connected with the source S 2 for controlling T2 ' with the anode of OLED, and T2 ' is opened so that OLED to be driven to shine, to realize the right side Eye picture is shown；The voltage needed for shining is stored in C1 ', so the current value I of OLED is flowed into luminescence process etc. In 1/2 × K × (VGS '-Vth)², due to VGS '=Vdata_R-Vref, so I=1/2 × K ' × (Vdata_R-Vref- Vth’)²；Wherein, K ' is the current coefficient of T2 ', and Vth ' is the threshold voltage of T2 '；Due to making the technological level of transistor It improves, Vth ' can be very good to control in 0V or so, therefore influence very littles of the Vth ' to I；

In the 4th period S4, SCAN1, SW1, L_EN1 and L_EN2 export low level, T1, T2, T3, T4 and T5 It is turned off；R_EN1, R_EN2 and SCAN2 export low level, so that T3 ', T4 ' and T1 ' are turned off.

Image element driving method described in the embodiment of the present invention, applied to above-mentioned pixel-driving circuit, the first display cycle Be two display cycles set gradually for including of a frame picture display time with the second display cycle, the first display cycle include according to First time period, second time period and the third period of secondary setting, the second display cycle include the 4th time set gradually Section, the 5th period and the 6th period；

The image element driving method includes：

Image element driving method described in the embodiment of the present invention can realize that shutter 3D (three-dimensional) is shown, the embodiment of the present invention The driving method control left eye drive sub-circuits and right eye drive sub-circuits of the pixel-driving circuit work alternatively so that In each frame picture display time, the display time of left eye picture and the display time of right eye picture are approximately equal to the frame picture and show The half of time avoids display flicker, is promoted and shows that picture is shown, solves left eye picture display time and the right side in the prior art Eye picture display time only accounts for the 1/4 of each frame picture display time, so as to cause display waiting and scintillation, seriously affects The problem of display effect.

In the image element driving method being performed as described above described in example in the present invention, first carry out left eye picture and show, then carry out right eye Picture is shown, but in practical operation, can also first be carried out right eye picture and be shown, then carry out left eye picture and show.

Image element driving method described in another embodiment of the present invention is applied to above-mentioned pixel-driving circuit, the first display week Phase and the second display cycle are two display cycles set gradually that a frame picture display time includes, and the first display cycle included First time period, second time period and the third period set gradually, when the second display cycle included the set gradually the 4th Between section, the 5th period and the 6th period；

The image element driving method includes：

In the image element driving method described in another embodiment of the present invention, first carry out right eye picture and show, then carry out left eye Picture is shown.

Image element driving method described in another embodiment of the present invention can realize that shutter 3D (three-dimensional) is shown, the present invention is another Image element driving method control left eye drive sub-circuits and right eye drive sub-circuits described in one embodiment work alternatively so that every In one frame picture display time, when the display time of left eye picture and the display time of right eye picture are approximately equal to frame picture display Between half, avoid display flicker, promoted and show that picture show, solution left eye picture display time and right eye in the prior art Picture display time only accounts for the 1/4 of each frame picture display time, so as to cause display waiting and scintillation, seriously affects aobvious The problem of showing effect.

Display panel described in the embodiment of the present invention includes multirow left eye row gating line, multirow right eye row gating line, multirow Left eye light emitting control line, multirow right eye light emitting control line, the first left eye of multirow resetting control line, the resetting control of the second left eye of multirow Line, the first right eye of multirow resetting control line, the second right eye of multirow resetting control line, multiple row left eye data line, multiple row right eye data Line and the above-mentioned pixel-driving circuit of multiple lines and multiple rows；

The driving method of display panel described in the embodiment of the present invention, for driving above-mentioned display panel, a frame picture Show that the time includes multiple display cycles set gradually, when a display cycle includes the first time period set gradually, second Between section and third period；The driving method of the display panel includes：

A is the integer more than 1.

Display panel described in the embodiment of the present invention is at work, all in the first display in each frame picture display time Interim first time period, the left eye pixel driver sub-circuit in the first row pixel-driving circuit carry out left eye reset operation； Second time period in first display cycle, the left eye pixel driver sub-circuit in the first row pixel-driving circuit carry out left eye number According to write operation, the right-eye pixel drive sub-circuits in the first row pixel-driving circuit carry out right eye reset operation；Described Third period in one display cycle, the left eye pixel driver sub-circuit in the first row pixel-driving circuit carry out left eye picture Display operation, the right-eye pixel drive sub-circuits in the first row pixel-driving circuit carry out right eye data write operation；Second row Left eye pixel driver sub-circuit in pixel-driving circuit carries out left eye reset operation；First time in the second display cycle Section, the right-eye pixel drive sub-circuits in the first row pixel-driving circuit carry out right eye picture display operation, and the second row pixel is driven Left eye pixel driver sub-circuit in dynamic circuit carries out left eye data write operation；Right eye picture in second row pixel-driving circuit Plain drive sub-circuits carry out right eye reset operation；Second time period in the second display cycle, the second row pixel-driving circuit In left eye pixel driver sub-circuit carry out left eye picture display operation, the right-eye pixel driving in the second row pixel-driving circuit Sub-circuit carries out right eye data write operation；Left eye pixel driver sub-circuit in the third line pixel-driving circuit carries out left eye weight Put operation；Third period in the second display cycle, the right-eye pixel drive sub-circuits in the second row pixel-driving circuit Right eye picture display operation is carried out, the left eye pixel driver sub-circuit in the third line pixel-driving circuit carries out left eye data write-in Operation；Right-eye pixel drive sub-circuits in the third line pixel-driving circuit carry out right eye reset operation, and so on, so that Left eye picture display time and right eye picture display time account for the nearly half of entire frame picture display time.

The driving method of display panel described in another embodiment of the present invention, for driving above-mentioned display panel, a frame Picture display time includes multiple display cycles set gradually, and a display cycle includes the first time period set gradually, the Two periods and third period；The driving method of the display panel includes：

A is the integer more than 1.

Display panel described in the embodiment of the present invention is at work, all in the first display in each frame picture display time Interim first time period, the right-eye pixel drive sub-circuits in the first row pixel-driving circuit carry out right eye reset operation； Second time period in first display cycle, the right-eye pixel drive sub-circuits in the first row pixel-driving circuit carry out right eye number According to write operation, the left eye pixel driver sub-circuit in the first row pixel-driving circuit carries out left eye reset operation；Described Third period in one display cycle, the right-eye pixel drive sub-circuits in the first row pixel-driving circuit carry out right eye picture Display operation, the left eye pixel driver sub-circuit in the first row pixel-driving circuit carry out left eye data write operation；Second row Right-eye pixel drive sub-circuits in pixel-driving circuit carry out right eye reset operation；First time in the second display cycle Section, the left eye pixel driver sub-circuit in the first row pixel-driving circuit carries out left eye picture display operation, and the second row pixel is driven Right-eye pixel drive sub-circuits in dynamic circuit carry out right eye data write operation；Left eye picture in second row pixel-driving circuit Plain drive sub-circuits carry out left eye reset operation；Second time period in the second display cycle, the second row pixel-driving circuit In right-eye pixel drive sub-circuits carry out right eye picture display operation, the left eye pixel driver in the second row pixel-driving circuit Sub-circuit carries out left eye data write operation；Right-eye pixel drive sub-circuits in the third line pixel-driving circuit carry out right eye weight Put operation；Third period in the second display cycle, the left eye pixel driver sub-circuit in the second row pixel-driving circuit Left eye picture display operation is carried out, the right-eye pixel drive sub-circuits in the third line pixel-driving circuit carry out right eye data write-in Operation；Left eye pixel driver sub-circuit in the third line pixel-driving circuit carries out left eye reset operation, and so on, so that Right eye picture display time and left eye picture display time account for the nearly half of entire frame picture display time.

The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art For, without departing from the principles of the present invention, several improvements and modifications can also be made, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims

1. a kind of pixel-driving circuit, which is characterized in that including left eye pixel driver sub-circuit and right-eye pixel drive sub-circuits； The left eye pixel driver sub-circuit includes left eye driving transistor, left eye storage capacitance unit, left eye data writing unit, a left side Eye resetting control unit and left eye luminous controling unit；The right-eye pixel drive sub-circuits include right eye driving transistor, the right side Eye storage capacitance unit, right eye data writing unit, right eye resetting control unit and right eye luminous controling unit；

The grid of the left eye driving transistor is connect with the first end of the left eye storage capacitance unit, and the left eye driving is brilliant First pole of body pipe is connect with power voltage input terminal, the second pole of the left eye driving transistor and the left eye storage capacitance The second end connection of unit；

The grid of the left eye data writing unit and left eye row gating line, left eye data line and the left eye driving transistor connects Connect, for controlled under the control of the left eye row gating line left eye data line whether with the left eye driving transistor Grid connects；

The left eye resetting control unit drives with the first left eye resetting control line, the second left eye resetting control line, the left eye The grid of transistor, the left eye driving transistor the second pole connected with left eye reset voltage end, for described first a left side Under the control of eye resetting control line, control whether the grid of the left eye driving transistor connects with the left eye reset voltage end It is logical, and under the control of the second left eye control line, control the second pole of the left eye driving transistor whether with institute State the connection of left eye reset voltage end；

The left eye luminous controling unit and left eye light emitting control line, the second pole of the left eye driving transistor and light-emitting component Connection, for controlled under the control of the left eye light emitting control line the second pole of the left eye driving transistor whether with it is described Light-emitting component connects；

The grid of the right eye driving transistor is connect with the first end of the right eye storage capacitance unit, and the right eye driving is brilliant First pole of body pipe is connect with the power voltage input terminal, and the second pole and the right eye of the right eye driving transistor store The second end connection of capacitor cell；

The grid of the right eye data writing unit and right eye row gating line, right eye data line and the right eye driving transistor connects Connect, for controlled under the control of the right eye row gating line right eye data line whether with the right eye driving transistor Grid connects；

The right eye resetting control unit drives with the first right eye resetting control line, the second right eye resetting control line, the right eye The grid of transistor, the right eye driving transistor the second pole connected with right eye reset voltage end, for described first the right side Under the control of eye resetting control line, control whether the grid of the right eye driving transistor connects with the right eye reset voltage end It is logical, and for whether under the control of second right eye resetting control line, controlling the second pole of the right eye driving transistor It is connected with the right eye reset voltage end；

The right eye luminous controling unit and right eye light emitting control line, the right eye driving transistor the second pole and described shine Element connect, for controlled under the control of the right eye light emitting control line the second pole of the right eye driving transistor whether with The light-emitting component connection.

2. pixel-driving circuit as described in claim 1, which is characterized in that the left eye resetting control unit includes：

First left eye resets controlling transistor, and grid is connect with first left eye resetting control line, the first pole and the left eye The grid connection of driving transistor, the second pole is connect with the left eye reset voltage end；And

Second left eye resets controlling transistor, and grid is connect with second left eye resetting control line, the first pole and the left eye The second pole connection of driving transistor, the second pole is connect with the left eye reset voltage end；

The first left eye resetting controlling transistor and second left eye resetting controlling transistor are all n-type transistor；Alternatively, The first left eye resetting controlling transistor and second left eye resetting controlling transistor are all p-type transistor.

3. pixel-driving circuit as claimed in claim 2, which is characterized in that the left eye data writing unit includes：Left eye Data writing transistor, grid are connect with the left eye row gating line, and the first pole is connect with the left eye data line, the second pole with The grid connection of the left eye driving transistor；

The left eye luminous controling unit includes：Left eye light emitting control transistor, grid are connect with the left eye light emitting control line, First pole is connect with the second pole of the left eye driving transistor, and the second pole is connect with the light-emitting component；

The left eye storage capacitance unit includes：Left eye storage capacitance, the grid of first end and the left eye driving transistor connect It connects, second end is connect with the second pole of the left eye driving transistor.

4. the pixel-driving circuit as described in any claim in claims 1 to 3, which is characterized in that the right eye resetting Control unit includes：First right eye resets controlling transistor, and grid and first right eye resetting control line are connect, the first pole and The grid connection of the right eye driving transistor, the second pole is connect with the right eye reset voltage end；And

Second right eye resets controlling transistor, and grid is connect with second right eye resetting control line, the first pole and the right eye The second pole connection of driving transistor, the second pole is connect with the right eye reset voltage end；

The first right eye resetting controlling transistor and second right eye resetting controlling transistor are all n-type transistor；Alternatively, The first right eye resetting controlling transistor and second right eye resetting controlling transistor are all p-type transistor.

5. pixel-driving circuit as claimed in claim 4, which is characterized in that the right eye data writing unit includes：Right eye Data writing transistor, grid are connect with the right eye row gating line, and the first pole is connect with the right eye data line, the second pole with The grid connection of the right eye driving transistor；

The right eye luminous controling unit includes：Right eye light emitting control transistor, grid are connect with the right eye light emitting control line, First pole is connect with the second pole of the right eye driving transistor, and the second pole is connect with the light-emitting component；

The right eye storage capacitance unit includes：Right eye storage capacitance, the grid of first end and the right eye driving transistor connect It connects, second end is connect with the second pole of the right eye driving transistor.

6. a kind of image element driving method, applied to the pixel-driving circuit as described in any claim in claim 1 to 5, It is characterized in that, the first display cycle and the second display cycle are two displays set gradually that a frame picture display time includes Period, the first display cycle include the first time period, second time period and the third period that set gradually, the second display cycle Including the 4th period, the 5th period and the 6th period set gradually；

The image element driving method includes：

Left eye resets step：In the first time period, under the control of the first left eye resetting control line, left eye resetting control is single The grid of member control left eye driving transistor is connected with left eye reset voltage end, under the control of the second left eye resetting control line, The left eye resetting control unit controls the second pole of the left eye driving transistor to be connected with the left eye reset voltage end, with So that the left eye driving transistor shutdown；

Left eye data write step：In the second time period, left eye data line input left eye data voltage is gated in left eye row Under the control of line, the grid of left eye data writing unit control left eye data voltage write-in left eye driving transistor；Described Under the control of one left eye resetting control line, the left eye resetting control unit controls grid and the institute of the left eye driving transistor Left eye reset voltage end is stated not connect；Under the control of second left eye resetting control line, the left eye resets control unit It controls and is connected between the second pole of the left eye driving transistor and the left eye reset voltage end；

Right eye resets step：In the second time period, under the control of the first right eye resetting control line, right eye resetting control is single The grid of member control right eye driving transistor is connected with right eye reset voltage end, under the control of the second right eye resetting control line, The right eye resetting control unit controls the second pole of the right eye driving transistor to be connected with the right eye reset voltage end, with So that the right eye driving transistor shutdown；

Left eye picture step display：In the third period, under the control of left eye row gating line, left eye data writing unit It is not connected between control left eye data line and the grid of left eye driving transistor；In the control of second left eye resetting control line Under, the left eye resetting control unit is controlled between the second pole and the left eye reset voltage end of the left eye driving transistor It does not connect；Under the control of left eye light emitting control line, left eye luminous controling unit control left eye driving transistor the second pole with Light-emitting component connects, and left eye driving transistor opens that light-emitting component is driven to shine；

Right eye data write step：In the third period, right eye data line input right eye data voltage is gated in right eye row Under the control of line, the grid of right eye data writing unit control right eye data voltage write-in right eye driving transistor；Described Under the control of one right eye resetting control line, the right eye resetting control unit controls grid and the institute of the right eye driving transistor Right eye reset voltage end is stated not connect；Under the control of second right eye resetting control line, the right eye resets control unit It controls and is connected between the second pole of the right eye driving transistor and the right eye reset voltage end；

Right eye picture step display：In the 4th period, under the control of right eye row gating line, right eye data writing unit It is not connected between control right eye data line and the grid of right eye driving transistor；In the control of second right eye resetting control line Under, the right eye resetting control unit is controlled between the second pole and the right eye reset voltage end of the right eye driving transistor It does not connect；Under the control of right eye light emitting control line, right eye luminous controling unit control right eye driving transistor the second pole with Light-emitting component connects, and right eye driving transistor opens that light-emitting component is driven to shine.

7. a kind of image element driving method, applied to the pixel-driving circuit as described in any claim in claim 1 to 5, It is characterized in that, the first display cycle and the second display cycle are two displays set gradually that a frame picture display time includes Period, the first display cycle include the first time period, second time period and the third period that set gradually, the second display cycle Including the 4th period, the 5th period and the 6th period set gradually；

The image element driving method includes：

Right eye resets step：In the first time period, under the control of the first right eye resetting control line, right eye resetting control is single The grid of member control right eye driving transistor is connected with right eye reset voltage end, under the control of the second right eye resetting control line, The right eye resetting control unit controls the second pole of the right eye driving transistor to be connected with the right eye reset voltage end, with So that the right eye driving transistor shutdown；

Right eye data write step：In the second time period, right eye data line input right eye data voltage is gated in right eye row Under the control of line, the grid of right eye data writing unit control right eye data voltage write-in right eye driving transistor；Described Under the control of one right eye resetting control line, the right eye resetting control unit controls grid and the institute of the right eye driving transistor Right eye reset voltage end is stated not connect；Under the control of second right eye resetting control line, the right eye resets control unit It controls and is connected between the second pole of the right eye driving transistor and the right eye reset voltage end；

Left eye resets step：In the second time period, under the control of the first left eye resetting control line, left eye resetting control is single The grid of member control left eye driving transistor is connected with left eye reset voltage end, under the control of the second left eye resetting control line, The left eye resetting control unit controls the second pole of the left eye driving transistor to be connected with the left eye reset voltage end, with So that the left eye driving transistor shutdown；

Right eye picture step display：In the third period, under the control of right eye row gating line, right eye data writing unit It is not connected between control right eye data line and the grid of right eye driving transistor；In the control of second right eye resetting control line Under, the right eye resetting control unit is controlled between the second pole and the right eye reset voltage end of the right eye driving transistor It does not connect；Under the control of right eye light emitting control line, right eye luminous controling unit control right eye driving transistor the second pole with Light-emitting component connects, and right eye driving transistor opens that light-emitting component is driven to shine；

Left eye data write step：In the third period, left eye data line input left eye data voltage is gated in left eye row Under the control of line, the grid of left eye data writing unit control left eye data voltage write-in left eye driving transistor；Described Under the control of one left eye resetting control line, the left eye resetting control unit controls grid and the institute of the left eye driving transistor Left eye reset voltage end is stated not connect；Under the control of second left eye resetting control line, the left eye resets control unit It controls and is connected between the second pole of the left eye driving transistor and the left eye reset voltage end；

Left eye picture step display：In the 4th period, under the control of left eye row gating line, left eye data writing unit It is not connected between control left eye data line and the grid of left eye driving transistor；In the control of second left eye resetting control line Under, the left eye resetting control unit is controlled between the second pole and the left eye reset voltage end of the left eye driving transistor It does not connect；Under the control of left eye light emitting control line, left eye luminous controling unit control left eye driving transistor the second pole with Light-emitting component connects, and left eye driving transistor opens that light-emitting component is driven to shine.

8. a kind of display panel, which is characterized in that including multirow left eye row gating line, multirow right eye row gating line, multirow left eye Light emitting control line, multirow right eye light emitting control line, the first left eye of multirow reset control line, the second left eye of multirow resets control line, The first right eye of multirow resetting control line, the second right eye of multirow resetting control line, multiple row left eye data line, multiple row right eye data line and Pixel-driving circuit in multiple lines and multiple rows such as claim 1 to 5 as described in any claim；

Line n m row pixel-driving circuit shines with line n left eye row gating line, line n right eye row gating line, line n left eye Control line, line n right eye light emitting control line, the first left eye of line n resetting control line, the second left eye of line n resetting control line, the The first right eye of n rows resetting control line, the second right eye of line n resetting control line, m row left eye data lines and m row right eye datas Line connects；N and m is positive integer.

9. a kind of driving method of display panel, for driving display panel as claimed in claim 8, which is characterized in that one Frame picture display time include multiple display cycles set gradually, a display cycle include set gradually first time period, Second time period and third period；The driving method of the display panel includes：

First time period in the first display cycle included in a frame picture display time, in the first row pixel-driving circuit Left eye pixel driver sub-circuit carries out left eye reset operation；

Second time period in first display cycle, the left eye pixel driver sub-circuit in the first row pixel-driving circuit Left eye data write operation is carried out, the right eye that the right-eye pixel drive sub-circuits in the first row pixel-driving circuit include it drives The current potential of second pole of dynamic transistor carries out right eye reset operation；

Third period in first display cycle, the left eye pixel driver sub-circuit in the first row pixel-driving circuit Left eye picture display operation is carried out, the right-eye pixel drive sub-circuits in the first row pixel-driving circuit carry out right eye data write-in Operation；Left eye pixel driver sub-circuit in second row pixel-driving circuit carries out left eye reset operation；

First time period in a display cycles, the right-eye pixel drive sub-circuits in a-1 row pixel-driving circuits carry out Right eye picture display operation, the left eye pixel driver sub-circuit in a row pixel-driving circuits carry out left eye data write operation； Right-eye pixel drive sub-circuits in a row pixel-driving circuits carry out right eye reset operation；

Second time period in a display cycles, the left eye pixel driver sub-circuit in a row pixel-driving circuits carry out left Eye picture display operation, the right-eye pixel drive sub-circuits in a row pixel-driving circuits carry out right eye data write operation；The Left eye pixel driver sub-circuit in a+1 row pixel-driving circuits carries out left eye reset operation；

Third period in a display cycles, the right-eye pixel drive sub-circuits in a row pixel-driving circuits carry out right Eye picture display operation, the left eye pixel driver sub-circuit in a+1 row pixel-driving circuits carry out left eye data write operation； Right-eye pixel drive sub-circuits in a+1 row pixel-driving circuits carry out right eye reset operation；

A is the integer more than 1.

10. a kind of driving method of display panel, for driving display panel as claimed in claim 8, which is characterized in that one Frame picture display time include multiple display cycles set gradually, a display cycle include set gradually first time period, Second time period and third period；The driving method of the display panel includes：

First time period in the first display cycle included in a frame picture display time, in the first row pixel-driving circuit Right-eye pixel drive sub-circuits carry out right eye reset operation；

Second time period in first display cycle, the right-eye pixel drive sub-circuits in the first row pixel-driving circuit Right eye data write operation is carried out, the left eye that the left eye pixel driver sub-circuit in the first row pixel-driving circuit includes it drives The current potential of second pole of dynamic transistor carries out left eye reset operation；

Third period in first display cycle, the right-eye pixel drive sub-circuits in the first row pixel-driving circuit Right eye picture display operation is carried out, the left eye pixel driver sub-circuit in the first row pixel-driving circuit carries out left eye data write-in Operation；Right-eye pixel drive sub-circuits in second row pixel-driving circuit carry out right eye reset operation；

First time period in a display cycles, the left eye pixel driver sub-circuit in a-1 row pixel-driving circuits carry out Left eye picture display operation, the right-eye pixel drive sub-circuits in a row pixel-driving circuits carry out right eye data write operation； Left eye pixel driver sub-circuit in a row pixel-driving circuits carries out left eye reset operation；

Second time period in a display cycles, the right-eye pixel drive sub-circuits in a row pixel-driving circuits carry out right Eye picture display operation, the left eye pixel driver sub-circuit in a row pixel-driving circuits carry out left eye data write operation；The Right-eye pixel drive sub-circuits in a+1 row pixel-driving circuits carry out right eye reset operation；

Third period in a display cycles, the left eye pixel driver sub-circuit in a row pixel-driving circuits carry out left Eye picture display operation, the right-eye pixel drive sub-circuits in a+1 row pixel-driving circuits carry out right eye data write operation； Left eye pixel driver sub-circuit in a+1 row pixel-driving circuits carries out left eye reset operation；

A is the integer more than 1.