CN110176215A - Display panel and display device - Google Patents

Abstract

The present invention provides a kind of display panel and display device.Display panel includes viewing area and the non-display area around viewing area；Non-display area includes the first non-display area and the second non-display area being correspondingly arranged；Display panel further includes multirow pixel column, the scan drive circuit positioned at non-display area and launch driving circuit, multi-strip scanning line, a plurality of emission lines positioned at viewing area；Scan drive circuit includes cascade multiple turntable driving sub-circuits, and launch driving circuit includes cascade multiple transmitting drive sub-circuits；Level-one turntable driving sub-circuit passes through two scan lines respectively and is electrically connected two adjacent row pixel columns；2N-1 grades of transmitting drive sub-circuits are located at the first non-display area, and 2N grades of transmitting drive sub-circuits are located at the second non-display area；2N-1 grades of transmitting drive sub-circuits pass through two articles of emission lines electrical connection 4N-3 rows and 4N-1 row pixel column respectively, and 2N grades of transmitting drive sub-circuits pass through two articles of emission lines electrical connection 4N-2 rows respectively and 4N row pixel column, N are natural number.

Description

Display panel and display device

[technical field]

The present invention relates to field of display technology more particularly to a kind of display panel and display devices.

[background technique]

In display technology, organic light emitting diode display (Organic Light Emitting Diode, OLED) It is frivolous with its, actively shine, fast-response speed, wide viewing angle, rich in color and high brightness, low-power consumption, high-low temperature resistant etc. it is numerous excellent It puts and is known as being the third generation display skill after liquid crystal display (Liquid Crystal Display, LCD) by industry Art.

In the prior art, the left frame area and left frame area of display panel are provided with launch driving circuit, transmitting driving The size limitation left frame area of circuit and left frame area narrow.

[summary of the invention]

In order to solve the above technical problem, the present invention provides a kind of display panel and display devices.

In a first aspect, the present invention provides a kind of display panel, the non-display area including viewing area and around the viewing area；

The non-display area includes the first non-display area and the second non-display area being correspondingly arranged；

The display panel further includes the multirow pixel column positioned at the viewing area, the drive of the scanning positioned at the non-display area Dynamic circuit and launch driving circuit, multi-strip scanning line, a plurality of emission lines；

The scan drive circuit includes cascade multiple turntable driving sub-circuits, and the launch driving circuit includes cascade Multiple transmitting drive sub-circuits；

Turntable driving sub-circuit described in level-one passes through two scan lines respectively and is electrically connected pixel described in two adjacent rows Row；

The 2N-1 grades of transmitting drive sub-circuits are located at first non-display area, the 2N grades of transmitting driving son electricity Road is located at second non-display area；

The 2N-1 grades of transmitting drive sub-circuits pass through two articles of emission lines electrical connection 4N-3 rows and 4N- respectively Pixel column described in 1 row, the 2N grades of transmitting drive sub-circuits pass through respectively two articles of emission lines electrical connection 4N-2 rows and Pixel column described in 4N row, N are natural number.

Optionally, the 2N-1 grades of transmitting drive sub-circuits and 4N-3 row, 4N-2 row, 4N-1 row and 4N row The pixel column is correspondingly arranged；

Pixel described in the 2N grades of transmitting drive sub-circuits and 4N-3 row, 4N-2 row, 4N-1 row and 4N row Row is correspondingly arranged.

Optionally, the 2N-1 grades of transmitting drive sub-circuits and 4N-3 grades, 4N-2 grades, 4N-1 grades and 4N grades The turntable driving sub-circuit is correspondingly arranged；

The 2N grades of transmitting drive sub-circuits and 4N-3 grades, 4N-2 grades, 4N-1 grades and the 4N grades of scannings Drive sub-circuits are correspondingly arranged.

Optionally, the 2N-1 grades of transmitting drive sub-circuits are electrically connected described in 4N-1 row by one article of emission lines Pixel column and the 2N grades of transmitting drive sub-circuits.

Optionally, the 2N grades of transmitting drive sub-circuits are electrically connected pixel described in 4N row by one article of emission lines The capable and 2N+1 grades of transmitting drive sub-circuits.

Optionally, in the first period, the turntable driving sub-circuit of 4N-4 grades of N > 1 sends Continuity signal, this is led Messenger reaches pixel column described in 4N-3 row by the scan line；

In the second period, the 4N-3 grades of turntable driving sub-circuits send Continuity signal, which leads to respectively It crosses two articles of scan lines and reaches pixel column described in 4N-3 row and 4N-2 row；

In the third period, the 4N-2 grades of turntable driving sub-circuits send Continuity signal, which leads to respectively It crosses two articles of scan lines and reaches pixel column described in 4N-2 row and 4N-1 row；

In the 4th period, the 4N-1 grades of turntable driving sub-circuits send Continuity signal, which leads to respectively It crosses two articles of scan lines and reaches pixel column described in 4N-1 row and 4N row；

After the 4th period, the 2N-1 grades of transmitting drive sub-circuits send Continuity signal, the Continuity signal point Not Tong Guo two articles of emission lines reach pixel column described in 4N-3 rows and 4N-1 row.

Optionally, in the 5th period, the 4N grades of turntable driving sub-circuits send Continuity signal, and the Continuity signal is logical It crosses the scan line and reaches pixel column described in 4N row；

After the 5th period, the 2N grades of transmitting drive sub-circuits send Continuity signal, Continuity signal difference Pixel column described in 4N-2 row and 4N row is reached by two articles of emission lines.

Optionally, after the 4th period, the Continuity signal that the 2N-1 grades of transmitting drive sub-circuits are sent passes through One article of emission lines reaches pixel column and the 2N grades of transmitting drive sub-circuits described in 4N-1 row.

Optionally, after the 5th period, the Continuity signal that the 2N grades of transmitting drive sub-circuits are sent passes through one Emission lines described in article reach pixel column and the 2N+1 grades of transmitting drive sub-circuits described in 4N row.

Optionally, first period, second period, the third period, the 4th period, it is described 5th when Section is repeated in.

Optionally, one-row pixels row includes multiple pixels, and the pixel includes: driving transistor, the first initial crystalline Pipe, the second initialization transistor, the first data writing transistor, the second data writing transistor, the first light emitting control transistor, Second light emitting control transistor, storage, Organic Light Emitting Diode, the first scanning end, the second scanning end, transmitting terminal, ginseng Examine end, data terminal, power end；

Two turntable driving sub-circuits are electrically connected first scanning end, second scanning end；

The transmitting drive sub-circuits are electrically connected the transmitting terminal；

The driving transistor is used to generate driving current according to the gate source voltage of the driving transistor；

First initialization transistor is used to be connected under the control of first scanning end, so that the reference end Grid of the reference signal transmission to the driving transistor；

Second initialization transistor is used to be connected under the control of first scanning end, so that the reference end Anode of the reference signal transmission to the Organic Light Emitting Diode；

The first data writing transistor under the control of second scanning end for being connected, so that the data terminal Data signal transmission to it is described driving transistor first electrode；

The second data writing transistor under the control of second scanning end for being connected, for detecting and mending Repay the threshold voltage of the driving transistor；

The first light emitting control transistor under the control of the transmitting terminal for being connected, so that the letter of the power end Number it is transferred to the first electrode of the driving transistor；

The second light emitting control transistor under the control of the transmitting terminal for being connected, so that the driving current passes The defeated anode to the Organic Light Emitting Diode；

The storage is used to detect and compensate the threshold voltage of the driving transistor；

The Organic Light Emitting Diode is used to be shone according to the driving current.

Second aspect, the present invention provide a kind of display device, including the display panel.

In the present invention, 2N-1 grades of transmitting drive sub-circuits are located at the first non-display area, 2N grades of transmitting driving son electricity Road is located at the second non-display area.Level-one transmitting drive sub-circuits are located at the first non-display area, or are located at the second non-display area.This Inventive embodiments compared with prior art, emit in the first non-display area and send out in the second non-display area of sum of series of drive sub-circuits The series for penetrating drive sub-circuits all tails off.Emit in the size of launch driving circuit and the second non-display area in first non-display area The size of driving circuit all becomes smaller.The width of the width of first non-display area and the second non-display area all becomes smaller.Display panel is real Existing narrow frame.In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits pass through two articles of emission lines electrical connection the respectively 4N-3 row and 4N-1 row pixel column, 2N grades of transmitting drive sub-circuits pass through respectively two articles of emission lines electrical connection 4N-2 rows and 4N row pixel column.2N-1 grades of transmitting drive sub-circuits and 4N-3 row, 4N-2 row, 4N-1 row pixel column etc. at least 3 Row pixel column is correspondingly arranged.2N grades of transmitting drive sub-circuits and 4N-2 row, 4N-1 row, 4N row pixel column etc. at least 3 Row pixel column is correspondingly arranged.Level-one transmitting drive sub-circuits are correspondingly arranged at least 3 row pixel columns.The embodiment of the present invention with it is existing Technology is compared, and the grade for emitting drive sub-circuits in the second non-display area of sum of series of drive sub-circuits is emitted in the first non-display area Number all further tails off.Launch driving circuit in the size of launch driving circuit and the second non-display area in first non-display area Size all further becomes smaller.The width of the width of first non-display area and the second non-display area all further becomes smaller.Display panel Further realize narrow frame.

[Detailed description of the invention]

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this field For those of ordinary skill, without creative efforts, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is the structural schematic diagram of prior art display panel；

Fig. 2 is the structural schematic diagram of display panel of the embodiment of the present invention；

Fig. 3 is the circuit diagram of pixel in display panel of the embodiment of the present invention；

Fig. 4 is the time diagram of pixel in display panel of the embodiment of the present invention；

Fig. 5 is the time diagram of display panel of the embodiment of the present invention；

Fig. 6 is the structural schematic diagram of launch driving circuit in display panel of the embodiment of the present invention；

Fig. 7 is the time diagram of launch driving circuit in display panel of the embodiment of the present invention；

Fig. 8 is the structural schematic diagram of display device of the embodiment of the present invention.

[specific embodiment]

For a better understanding of the technical solution of the present invention, being retouched in detail to the embodiment of the present invention with reference to the accompanying drawing It states.

It will be appreciated that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its Its embodiment, shall fall within the protection scope of the present invention.

The term used in embodiments of the present invention is only to be not intended to be limiting merely for for the purpose of describing particular embodiments The present invention.In the embodiment of the present invention and the "an" of singular used in the attached claims, " described " and "the" It is also intended to including most forms, unless the context clearly indicates other meaning.

It should be appreciated that term "and/or" used herein is only a kind of incidence relation for describing affiliated partner, indicate There may be three kinds of relationships, for example, A and/or B, can indicate: individualism A, exist simultaneously A and B, individualism B these three Situation.In addition, character "/" herein, typicallys represent the relationship that forward-backward correlation object is a kind of "or".

It will be appreciated that though device may be described in embodiments of the present invention using term first, second etc., but these Device should not necessarily be limited by these terms.These terms are only used to for device being distinguished from each other out.For example, not departing from the embodiment of the present invention In the case where range, first device can also be referred to as second device, and similarly, second device can also be referred to as the first dress It sets.

Fig. 1 is the structural schematic diagram of prior art display panel.

As shown in Figure 1, in the prior art, display panel 100 includes viewing area 101 and non-display area 102.Viewing area 101 include multirow pixel column 110.Non-display area 102 includes scan drive circuit 120 and launch driving circuit 130.Turntable driving Circuit 120 includes multilevel scanning drive sub-circuits 121.Launch driving circuit 130 includes multi-stage launch drive sub-circuits.But The series for emitting drive sub-circuits is more, and the size of launch driving circuit 130 is larger, and non-display area 102 is wider.

In order to solve the above technical problem, the present invention provides a kind of display panel and display devices.

Fig. 2 is the structural schematic diagram of display panel of the embodiment of the present invention.

As shown in Fig. 2, display panel 200 includes the viewing area AA and non-display area NA around viewing area AA；Non-display area NA includes the first non-display area NA1 and the second non-display area NA2 being correspondingly arranged；Display panel 200 further includes being located at viewing area The multirow pixel column PXR of AA, scan drive circuit VSRA and launch driving circuit VSRB, multi-strip scanning positioned at non-display area NA Line SL, a plurality of emission lines EL；Scan drive circuit VSRA includes cascade multiple turntable driving sub-circuit VSR1, transmitting driving electricity Road VSRB includes cascade multiple transmitting drive sub-circuits VSR2；Level-one turntable driving sub-circuit VSR1 passes through two scannings respectively Line SL is electrically connected two adjacent row pixel column PXR；2N-1 grades of transmitting drive sub-circuits VSR2 are located at the first non-display area NA1, 2N grades of transmitting drive sub-circuits VSR2 are located at the second non-display area NA2；2N-1 grades of transmitting drive sub-circuits VSR2 lead to respectively Cross two articles of emission lines EL electrical connection 4N-3 rows and 4N-1 row pixel column PXR, 2N grades of transmitting drive sub-circuits VSR2 difference 4N-2 row is electrically connected by two articles of emission lines EL and 4N row pixel column PXR, N are natural number.

In embodiments of the present invention, non-display area NA includes the first non-display area NA1 and second for being correspondingly arranged non-display Area NA2.For example, the first non-display area NA1 is left frame area, and the second non-display area NA2 is left frame area.Turntable driving electricity Road VSRA includes cascade multiple turntable driving sub-circuit VSR1.The output end electrical connection of N grades of turntable driving sub-circuit VSR1 The input terminal of N+1 grades of turntable driving sub-circuit VSR1.For example, the output end electrical connection of the 1st grade of turntable driving sub-circuit VSR1 The input terminal of 2nd grade of turntable driving sub-circuit VSR1.The output end electrical connection 3rd level of 2nd grade of turntable driving sub-circuit VSR1 is swept Retouch the input terminal of drive sub-circuits VSR1.Remaining and so on.Launch driving circuit VSRB includes cascade multiple transmitting drivings Sub-circuit VSR2.The output end OUT of N grades of transmitting drive sub-circuits VSR2 is electrically connected N+1 grades of transmitting drive sub-circuits VSR2 Input terminal IN.For example, the output end OUT of the 1st grade of transmitting drive sub-circuits VSR2 is electrically connected the 2nd grade of transmitting drive sub-circuits The input terminal IN of VSR2.The output end OUT electrical connection 3rd level of 2nd grade of transmitting drive sub-circuits VSR2 emits drive sub-circuits The input terminal IN of VSR2.Remaining and so on.

In embodiments of the present invention, it is adjacent to pass through two scan line SL electrical connections respectively by level-one turntable driving sub-circuit VSR1 Two row pixel column PXR.N grades of turntable driving sub-circuit VSR1 pass through two articles of scan line SL electrical connection Nth rows and N+1 respectively Row pixel column PXR.For example, the 1st grade of turntable driving sub-circuit VSR1 passes through two articles of scan line SL electrical connection the 1st rows and the 2nd respectively Row pixel column PXR.2nd grade of turntable driving sub-circuit VSR1 passes through two articles of scan line SL respectively and is electrically connected the 2nd row and the 3rd row pixel Row PXR.Remaining and so on.

In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits VSR2 are located at the first non-display area NA1.For example, 1st grade of transmitting drive sub-circuits VSR2 is located at the first non-display area NA1.It is non-positioned at first that 3rd level emits drive sub-circuits VSR2 Viewing area NA1.Remaining and so on.2N grades of transmitting drive sub-circuits VSR2 are located at the second non-display area NA2.For example, the 2nd grade Transmitting drive sub-circuits VSR2 is located at the second non-display area NA2.4th grade of transmitting drive sub-circuits VSR2 is located at the second non-display area NA2.Remaining and so on.Remaining and so on.

In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits VSR2 pass through two articles of emission lines EL electrical connections respectively 4N-3 row and 4N-1 row pixel column PXR.For example, the 1st grade of transmitting drive sub-circuits VSR2 passes through two articles of emission lines EL respectively It is electrically connected the 1st row and the 3rd row pixel column PXR.3rd level transmitting drive sub-circuits VSR2 passes through two emission lines EL electrical connections respectively 5th row and the 7th row pixel column PXR.Remaining and so on.2N grades of transmitting drive sub-circuits VSR2 pass through two articles of emission lines respectively EL is electrically connected 4N-2 row and 4N row pixel column PXR.For example, the 2nd grade of transmitting drive sub-circuits VSR2 passes through two articles of hairs respectively Ray EL is electrically connected the 2nd row and the 4th row pixel column PXR.4th grade of transmitting drive sub-circuits VSR2 passes through two articles of emission lines EL respectively It is electrically connected the 6th row and eighth row pixel column PXR.Remaining and so on.

In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits VSR2 are located at the first non-display area NA1, and 2N grades Transmitting drive sub-circuits VSR2 is located at the second non-display area NA2.Level-one transmitting drive sub-circuits VSR2 is located at the first non-display area NA1, or it is located at the second non-display area NA2.The embodiment of the present invention compared with prior art, emits in the first non-display area NA1 The series for emitting drive sub-circuits VSR2 in the second non-display area of sum of series NA2 of drive sub-circuits VSR2 all tails off.First is non- The size of launch driving circuit VSRB is all in the size of launch driving circuit VSRB and the second non-display area NA2 in the NA1 of viewing area Become smaller.The width of the width of first non-display area NA1 and the second non-display area NA2 all become smaller.Display panel 200 realizes narrow frame Change.In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits VSR2 pass through two articles of emission lines EL electrical connection 4N- respectively 3 rows and 4N-1 row pixel column PXR, 2N grades of transmitting drive sub-circuits VSR2 pass through two articles of emission lines EL electrical connections the respectively 4N-2 row and 4N row pixel column PXR.2N-1 grades of transmitting drive sub-circuits VSR2 and 4N-3 row, 4N-2 row, 4N-1 At least 3 row pixel columns such as row pixel column PXR are correspondingly arranged.2N grades of transmitting drive sub-circuits VSR2 and 4N-2 row, 4N-1 At least 3 row pixel columns such as row, 4N row pixel column PXR are correspondingly arranged.Level-one emits drive sub-circuits VSR2 and at least 3 row pixels Row is correspondingly arranged.The embodiment of the present invention compared with prior art, emits the grade of drive sub-circuits VSR2 in the first non-display area NA1 The series for emitting drive sub-circuits VSR2 in several and the second non-display area NA2 all further tails off.It is sent out in first non-display area NA1 The size for penetrating launch driving circuit VSRB in the size and the second non-display area NA2 of driving circuit VSRB all further becomes smaller.The The width of the width of one non-display area NA1 and the second non-display area NA2 all further become smaller.Display panel 200 further realizes Narrow frame.

Fig. 3 is the circuit diagram of pixel in display panel of the embodiment of the present invention；Fig. 4 is display panel of the embodiment of the present invention The time diagram of middle pixel.

As shown in Figures 2 to 4, one-row pixels row PXR includes multiple pixel PX, and pixel PX includes: driving transistor T3, first Initialization transistor T5, the second initialization transistor T7, the first data writing transistor T2, the second data writing transistor T4, First light emitting control transistor T1, the second light emitting control transistor T6, storage C, Organic Light Emitting Diode OD, first are swept Retouch end SCAN1, the second scanning end SCAN2, transmitting terminal EMIT, reference end REF, data terminal DATA, power end PVDD；Two scannings Drive sub-circuits VSR1 is electrically connected the first scanning end SCAN1, the second scanning end SCAN2；Emit drive sub-circuits VSR2 electricity Connect transmitting terminal EMIT；Transistor T3 is driven to be used to generate driving current according to the gate source voltage of driving transistor T3；At the beginning of first Beginningization transistor T5 under the control of the first scanning end SCAN1 for being connected, so that the reference signal transmission of reference end REF is to drive The grid of dynamic transistor T3；Second initialization transistor T7 is used to be connected under the control of the first scanning end SCAN1, so that with reference to Hold the reference signal transmission of REF to the anode of Organic Light Emitting Diode OD；First data writing transistor T2 second for sweeping It retouches and is connected under the control of end SCAN2, so that first electrode of the data signal transmission of data terminal DATA to driving transistor T3；The Two data writing transistor T4 under the control of the second scanning end SCAN2 for being connected, for detecting and compensating driving crystal The threshold voltage of pipe T3；First light emitting control transistor T1 under the control of transmitting terminal EMIT for being connected, so that power end The power supply signal of PVDD is transferred to the first electrode of driving transistor T3；Second light emitting control transistor T6 is used in transmitting terminal It is connected under the control of EMIT, so that driving current is transferred to the anode of Organic Light Emitting Diode OD；Storage C is for detecting And compensate the threshold voltage of driving transistor T3；Organic Light Emitting Diode OD is used to be shone according to driving current.

As shown in Figure 3,4, the operation of initial phase P11, data write phase P12, light emitting control stage P13 are successively held Row.In initial phase P11, turntable driving sub-circuit VSR1 executes driving, the first initialization of the first scanning end SCAN1 control Transistor T5 and the second initialization transistor T7 conducting.Control electricity of the reference end REF transmission of reference signals to driving transistor T3 The anode of pole and Organic Light Emitting Diode OD.Second scanning end SCAN2 controls the first data writing transistor T2 and the second data Writing transistor T4 cut-off.Transmitting terminal EMIT controls the first light emitting control transistor T1 and the second light emitting control transistor T6 and cuts Only.In data write phase P12, turntable driving sub-circuit VSR1 executes driving, and the second scanning end SCAN2 controls the first data Writing transistor T2 and the second data writing transistor T4 conducting.Data terminal DATA transmits data-signal to driving transistor T3's First electrode.Second data writing transistor T4 detection, compensation drive the threshold voltage of transistor T3.First scanning end SCAN1 Control the first initialization transistor T5 and the second initialization transistor T7 cut-off.Transmitting terminal EMIT controls the first light emitting control crystal Pipe T1 and the second light emitting control transistor T6 cut-off.In light emitting control stage P13, transmitting drive sub-circuits VSR2 executes drive Dynamic, transmitting terminal EMIT controls the first light emitting control transistor T1 conducting.Power end PVDD transmits power supply signal to driving transistor The first electrode of T3.Transistor T3 is driven to generate driving current according to the gate source voltage of driving transistor T3.Transmitting terminal EMIT control Make the second light emitting control transistor T6 conducting.The driving current of driving transistor T3 is transferred to the sun of Organic Light Emitting Diode OD Pole.Organic Light Emitting Diode OD shines according to driving current.First scanning end SCAN1 controls the first initialization transistor T5 and the Two initialization transistor T7 cut-off.Second scanning end SCAN2 controls the first data writing transistor T2 and the write-in of the second data is brilliant Body pipe T4 cut-off.

In embodiments of the present invention, N grades of turntable driving sub-circuit VSR1 pass through two articles of scan line SL electrical connection N respectively Capable and N+1 row pixel column PXR.N grades of turntable driving sub-circuit VSR1 pass through two articles of scan line SL driving Nth rows and the respectively N+1 row pixel column PXR.The operation of nth row of pixels row PXR execution data write phase.N+1 row pixel column PXR executes initial The operation in change stage.2N-1 grades of transmitting drive sub-circuits VSR2 pass through two articles of emission lines EL electrical connection 4N-3 rows and the respectively 4N-1 row pixel column PXR, 2N grades of transmitting drive sub-circuits VSR2 pass through respectively two articles of emission lines EL electrical connection 4N-2 rows and 4N row pixel column PXR.2N-1 grades of transmitting drive sub-circuits VSR2 pass through respectively two articles of emission lines EL driving 4N-3 rows and The operation in 4N-1 row pixel column PXR execution light emitting control stage.2N grades of transmitting drive sub-circuits VSR2 pass through two articles respectively Emission lines EL drives 4N-2 row and 4N row pixel column PXR to execute the operation in light emitting control stage.

As shown in Fig. 2, 2N-1 grades of transmitting drive sub-circuits VSR2 and 4N-3 row, 4N-2 row, 4N-1 row and 4N row pixel column PXR is correspondingly arranged；2N grades of transmitting drive sub-circuits VSR2 and 4N-3 row, 4N-2 row, 4N-1 row and 4N row pixel column PXR is correspondingly arranged.

In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits VSR2 and 4N-3 row, 4N-2 row, 4N-1 Capable and 4N row pixel column PXR is correspondingly arranged.For example, the 1st grade of transmitting drive sub-circuits VSR2 and the 1st row, the 2nd row, the 3rd row and 4th row pixel column PXR is correspondingly arranged.3rd level emits drive sub-circuits VSR2 and the 5th row, the 6th row, the 7th row and eighth row pixel Row PXR is correspondingly arranged.Remaining and so on.2N grades of transmitting drive sub-circuits VSR2 and 4N-3 row, 4N-2 row, 4N-1 Capable and 4N row pixel column PXR is correspondingly arranged.For example, the 2nd grade of transmitting drive sub-circuits VSR2 and the 1st row, the 2nd row, the 3rd row and 4th row pixel column PXR is correspondingly arranged.4th grade of transmitting drive sub-circuits VSR2 and the 5th row, the 6th row, the 7th row and eighth row pixel Row PXR is correspondingly arranged.Remaining and so on.

In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits VSR2 and 4N-3 row, 4N-2 row, 4N-1 Capable and 4N row pixel column PXR is correspondingly arranged；2N grades of transmitting drive sub-circuits VSR2 and 4N-3 row, 4N-2 row, 4N- 1 row and 4N row pixel column PXR are correspondingly arranged.Level-one transmitting drive sub-circuits VSR2 is correspondingly arranged with 4 row pixel columns.The present invention Embodiment compared with prior art, emits the second non-display area of sum of series of drive sub-circuits VSR2 in the first non-display area NA1 The series for emitting drive sub-circuits VSR2 in NA2 all further tails off.Launch driving circuit VSRB in first non-display area NA1 Size and the second non-display area NA2 in the size of launch driving circuit VSRB all further become smaller.First non-display area NA1 Width and the width of the second non-display area NA2 all further become smaller.Display panel 200 further realizes narrow frame.

As shown in Fig. 2, 2N-1 grades of transmitting drive sub-circuits VSR2 and 4N-3 grades, 4N-2 grades, 4N-1 grades and 4N grades of turntable driving sub-circuit VSR1 are correspondingly arranged；2N grades of transmitting drive sub-circuits VSR2 and 4N-3 grades, 4N-2 grades, 4N-1 grades and 4N grades of turntable driving sub-circuit VSR1 are correspondingly arranged.

In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits VSR2 and 4N-3 grades, 4N-2 grades, 4N-1 Grade and 4N grades of turntable driving sub-circuit VSR1 are correspondingly arranged.For example, the 1st grade of transmitting drive sub-circuits VSR2 and the 1st grade, the 2nd Grade, 3rd level and the 4th grade of turntable driving sub-circuit VSR1 are correspondingly arranged.3rd level emits drive sub-circuits VSR2 and the 5th grade, the 6th Grade, the 7th grade and the 8th grade of turntable driving sub-circuit VSR1 are correspondingly arranged.Remaining and so on.2N grades of transmitting drive sub-circuits VSR2 is correspondingly arranged with 4N-3 grades, 4N-2 grades, 4N-1 grades and 4N grades of turntable driving sub-circuit VSR1.For example, the 2nd grade Transmitting drive sub-circuits VSR2 is correspondingly arranged with the 1st grade, the 2nd grade, 3rd level and the 4th grade of turntable driving sub-circuit VSR1.4th grade Transmitting drive sub-circuits VSR2 and the 5th grade, the 6th grade, the 7th grade and the 8th grade turntable driving sub-circuit VSR1 is correspondingly arranged.Remaining with This analogizes.

In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits VSR2 and 4N-3 grades, 4N-2 grades, 4N-1 Grade and 4N grades of turntable driving sub-circuit VSR1 are correspondingly arranged；2N grades of transmitting drive sub-circuits VSR2 and 4N-3 grades, 4N- 2 grades, 4N-1 grades and 4N grades of turntable driving sub-circuit VSR1 are correspondingly arranged.Level-one turntable driving sub-circuit VSR1 and a line picture Plain row PXR is correspondingly arranged.4N-3 grades, 4N-2 grades, 4N-1 grades and 4N grades of turntable driving sub-circuits VSR1 and 4N-3 Row, 4N-2 row, 4N-1 row and 4N row pixel column PXR are arranged in a one-to-one correspondence.4N-4 grades of turntable driving sub-circuit VSR1 4N-3 row pixel column PXR is electrically connected by scan line SL.4N-3 grades of turntable driving sub-circuit VSR1 pass through two articles respectively and sweep Retouch line SL electrical connection 4N-3 row and 4N-2 row pixel column PXR.4N-2 grades of turntable driving sub-circuit VSR1 pass through two respectively Article scan line SL electrical connection 4N-2 row and 4N-1 row pixel column PXR.4N-1 grades of turntable driving sub-circuit VSR1 lead to respectively Cross two articles of scan line SL electrical connection 4N-1 rows and 4N row pixel column PXR.4N grades of turntable driving sub-circuit VSR1 are by sweeping Retouch line SL electrical connection 4N row pixel column PXR.4N-4 grades of turntable driving sub-circuit VSR1 drive 4N-3 by scan line SL The operation of row pixel column PXR execution initial phase.4N-3 grades of turntable driving sub-circuit VSR1 pass through scan line SL driving the 4N-3 row pixel column PXR executes the operation of data write phase, and 4N-2 row pixel column PXR is driven to execute initial phase Operation.4N-2 grades of turntable driving sub-circuit VSR1 drive 4N-2 row pixel column PXR to execute data and write by scan line SL Enter the operation in stage, and drives the operation of 4N-1 row pixel column PXR execution initial phase.4N-1 grades of turntable driving Circuit VSR1 drives 4N-1 row pixel column PXR to execute the operation of data write phase by scan line SL, and drives 4N The operation of row pixel column PXR execution initial phase.4N grades of turntable driving sub-circuit VSR1 drive 4N by scan line SL The operation of row pixel column PXR execution data write phase.2N-1 grades of transmitting drive sub-circuits VSR2 pass through two articles of transmittings respectively Line EL electrical connection 4N-3 row and 4N-1 row pixel column PXR, 2N grades of transmitting drive sub-circuits VSR2 pass through two articles of hairs respectively Ray EL is electrically connected 4N-2 row and 4N row pixel column PXR.2N-1 grades of transmitting drive sub-circuits VSR2 pass through two articles respectively Emission lines EL drives 4N-3 row and 4N-1 row pixel column PXR to execute the operation in light emitting control stage.2N grades of transmitting drivings Sub-circuit VSR2 passes through two articles of emission lines EL driving 4N-2 rows respectively and 4N row pixel column PXR executes the light emitting control stage Operation.Then, 4N-3 row, 4N-2 row, 4N-1 row and 4N row pixel column PXR shine.

In embodiments of the present invention, the 1st row pixel column PXR is dummy pixel row, and level-one turntable driving sub-circuit VSR1 is logical It over-scans line SL and is electrically connected the 1st row pixel column PXR, this level-one turntable driving sub-circuit VSR1 drives the 1st row by scan line SL Pixel column PXR executes the operation of data write phase, and the 1st row pixel column PXR does not execute the operation of initial phase.

As shown in Fig. 2, 2N-1 grades of transmitting drive sub-circuits VSR2 are electrically connected 4N-1 row picture by one article of emission lines EL Plain row PXR and 2N grades of transmitting drive sub-circuits VSR2.

In embodiments of the present invention, 2N-1 grades of transmitting drive sub-circuits VSR2 pass through one article of emission lines EL electrical connection the 4N-1 row pixel column PXR and 2N grades of transmitting drive sub-circuits VSR2.For example, the 1st grade of transmitting drive sub-circuits VSR2 passes through one Article emission lines EL is electrically connected the 3rd row pixel column PXR and the 2nd grade of transmitting drive sub-circuits VSR2.3rd level emits drive sub-circuits VSR2 is electrically connected the 7th row pixel column PXR and the 4th grade of transmitting drive sub-circuits VSR2 by one article of emission lines EL.Remaining is with such It pushes away.2N-1 grades of transmitting drive sub-circuits VSR2 drive 4N-1 row pixel column PXR to execute and shine by this article of emission lines EL The operation in control stage.Meanwhile the output end OUT of 2N-1 grades of transmitting drive sub-circuits VSR2 is passed by this article of emission lines EL Transporting messenger emits the input terminal IN of drive sub-circuits VSR2 to 2N grades.Then, 2N grades of transmitting drive sub-circuits VSR2 Execute driving.

As shown in Fig. 2, 2N grades of transmitting drive sub-circuits VSR2 are electrically connected 4N row pixel column by one article of emission lines EL PXR and 2N+1 grades of transmitting drive sub-circuits VSR2.

In embodiments of the present invention, 2N grades of transmitting drive sub-circuits VSR2 are electrically connected 4N row by one article of emission lines EL Pixel column PXR and 2N+1 grades of transmitting drive sub-circuits VSR2.For example, the 2nd grade of transmitting drive sub-circuits VSR2 passes through one article of hair Ray EL is electrically connected the 4th row pixel column PXR and 3rd level emits drive sub-circuits VSR2.4th grade of transmitting drive sub-circuits VSR2 is logical It crosses one article of emission lines EL and is electrically connected eighth row pixel column PXR and the 5th grade of transmitting drive sub-circuits VSR2.Remaining and so on.2N Grade transmitting drive sub-circuits VSR2 drives the behaviour in 4N row pixel column PXR execution light emitting control stage by this article of emission lines EL Make.Meanwhile the output end OUT of 2N grades of transmitting drive sub-circuits VSR2 transmit Continuity signal to the by this article of emission lines EL The input terminal IN of 2N+1 grades of transmitting drive sub-circuits VSR2.Then, 2N+1 grades of transmitting drive sub-circuits VSR2 execute driving.

Fig. 5 is the time diagram of display panel of the embodiment of the present invention.

As shown in figure 5, the 4N-4 grades of turntable driving sub-circuit VSR1 of N > 1 send Continuity signal in the first period S1 ON, Continuity signal ON reach 4N-3 row pixel column PXR by scan line SL；In the second period S2,4N-3 grades of scannings Drive sub-circuits VSR1 sends Continuity signal ON, and Continuity signal ON passes through two articles of scan line SL respectively and reaches 4N-3 rows and the 4N-2 row pixel column PXR；In third period S3,4N-2 grades of turntable driving sub-circuit VSR1 send Continuity signal ON, this is led Messenger ON passes through two articles of scan line SL respectively and reaches 4N-2 row and 4N-1 row pixel column PXR；In the 4th period S4, the 4N-1 grades of turntable driving sub-circuit VSR1 send Continuity signal ON, and Continuity signal ON passes through two articles of scan line SL respectively and reaches the 4N-1 row and 4N row pixel column PXR；After the 4th period S4,2N-1 grades of transmitting drive sub-circuits VSR2 send Continuity signal ON, Continuity signal ON pass through two articles of emission lines EL respectively and reach 4N-3 and 4N-1 row pixel column PXR.

In embodiments of the present invention, the first period S1, the second period S2, third period S3, the 4th period S4 operation according to Secondary execution.For example, turntable driving sub-circuit VSR1 does not send Continuity signal ON in the 1st the first period S1 (1).At the 1st In second period S2 (1), the 1st grade of turntable driving sub-circuit VSR1 (1) sends Continuity signal ON, and Continuity signal ON passes through respectively Two articles of scan line SL reach the 1st row and the 2nd row pixel column PXR.In the 1st third period S3 (1), the 2nd grade of turntable driving Circuit VSR1 (2) sends Continuity signal ON, and Continuity signal ON passes through two articles of scan line SL respectively and reaches the 2nd row and the 3rd row picture Plain row PXR.In the 1st the 4th period S4 (1), 3rd level turntable driving sub-circuit VSR1 (3) sends Continuity signal ON, this is led Messenger ON passes through two articles of scan line SL respectively and reaches the 3rd row and the 4th row pixel column PXR.After the 1st the 4th period S4 (1), 1st grade of transmitting drive sub-circuits VSR2 (1) sends Continuity signal ON, and Continuity signal ON passes through two emission lines EL respectively and reaches 1st row and the 3rd row pixel column PXR.In the 2nd the first period S1 (2), the 4th grade of turntable driving sub-circuit VSR1 (4), which sends, is led Messenger ON, Continuity signal ON reach the 5th row pixel column PXR by scan line SL.In the 2nd the second period S2 (2), the 5 grades of turntable driving sub-circuit VSR1 (5) send Continuity signal ON, and Continuity signal ON passes through two articles of scan line SL respectively and reaches the 5 rows and the 6th row pixel column PXR.In the 2nd third period S3 (2), the 6th grade of turntable driving sub-circuit VSR1 (6) sends conducting Signal ON, Continuity signal ON pass through two articles of scan line SL respectively and reach the 6th row and the 7th row pixel column PXR.At the 2nd the 4th In period S4 (2), the 7th grade of turntable driving sub-circuit VSR1 (7) sends Continuity signal ON, and Continuity signal ON passes through two respectively Scan line SL reaches the 7th row and eighth row pixel column PXR.After the 2nd the 4th period S4 (2), 3rd level emits drive sub-circuits VSR2 (3) sends Continuity signal ON, and Continuity signal ON passes through two articles of emission lines EL respectively and reaches the 5th row and the 7th row pixel column PXR.Remaining and so on.

In embodiments of the present invention, in the first period S1, the conducting of 4N-4 grades of turntable driving sub-circuit VSR1 transmission Signal ON reaches 4N-3 row pixel column PXR by scan line SL.4N-4 grades of turntable driving sub-circuit VSR1 pass through scan line SL drives the operation of 4N-3 row pixel column PXR execution initial phase.In the second period S2,4N-3 grades of turntable driving The Continuity signal ON that circuit VSR1 is sent passes through two articles of scan line SL respectively and reaches 4N-3 row and 4N-2 row pixel column PXR. 4N-3 grades of turntable driving sub-circuit VSR1 drive 4N-3 row pixel column PXR to execute data write phase by scan line SL Operation, and drive the operation of 4N-2 row pixel column PXR execution initial phase.In third period S3,4N-2 grades are swept The Continuity signal ON for retouching drive sub-circuits VSR1 transmission passes through two articles of scan line SL respectively and reaches 4N-2 row and 4N-1 row picture Plain row PXR.4N-2 grades of turntable driving sub-circuit VSR1 drive 4N-2 row pixel column PXR to execute data and write by scan line SL Enter the operation in stage, and drives the operation of 4N-1 row pixel column PXR execution initial phase.In the 4th period S4, the The Continuity signal ON that 4N-1 grades of turntable driving sub-circuit VSR1 are sent passes through two articles of scan line SL respectively and reaches 4N-1 rows and the 4N row pixel column PXR.4N-1 grades of turntable driving sub-circuit VSR1 drive 4N-1 row pixel column PXR to execute by scan line SL The operation of data write phase, and drive the operation of 4N row pixel column PXR execution initial phase.In the 4th period S4 Afterwards, the Continuity signal ON that 2N-1 grades of transmitting drive sub-circuits VSR2 are sent pass through respectively two articles of emission lines EL reach 4N-3 and 4N-1 row pixel column PXR.2N-1 grades of transmitting drive sub-circuits VSR2 pass through respectively two articles of emission lines EL driving 4N-3 rows and The operation in 4N-1 row pixel column PXR execution light emitting control stage.Then, 4N-3 row and 4N-1 row pixel column PXR shine.

In embodiments of the present invention, the transistors such as driving transistor T3 in pixel-driving circuit PX can be PMOS crystal The Continuity signal ON of pipe, turntable driving sub-circuit VSR1 and transmitting drive sub-circuits VSR2 can be low level signal.Pixel is driven The transistors such as the driving transistor T3 in dynamic circuit PX may be NMOS transistor, and turntable driving sub-circuit VSR1 and transmitting are driven The Continuity signal ON of mover circuit VSR2 may be high level signal.

As shown in figure 5,4N grades of turntable driving sub-circuit VSR1 send Continuity signal ON, this is led in the 5th period S5 Messenger ON reaches 4N row pixel column PXR by scan line SL；After the 5th period S5,2N grades of transmitting drive sub-circuits VSR2 sends Continuity signal ON, and Continuity signal ON passes through two articles of emission lines EL respectively and reaches 4N-2 row and 4N row pixel column PXR。

In embodiments of the present invention, the operation of the 5th period S5 executes after the operation of the 4th period S4.For example, the 1st In a 5th period S5 (1), the 4th grade of turntable driving sub-circuit VSR1 (4) sends Continuity signal ON, and Continuity signal ON is by sweeping It retouches line SL and reaches the 4th row pixel column PXR；After the 1st the 5th period S5 (1), the 2nd grade of transmitting drive sub-circuits VSR2 (2) hair Continuity signal ON is sent, Continuity signal ON passes through two articles of emission lines EL respectively and reaches the 2nd row and the 4th row pixel column PXR.The 2nd In a 5th period S5 (2), the 8th grade of turntable driving sub-circuit VSR1 (8) sends Continuity signal ON, and Continuity signal ON is by sweeping It retouches line SL and reaches eighth row pixel column PXR；After the 2nd the 5th period S5 (2), the 4th grade of transmitting drive sub-circuits VSR2 (4) hair Continuity signal ON is sent, Continuity signal ON passes through two articles of emission lines EL respectively and reaches the 6th row and eighth row pixel column PXR.Remaining with This analogizes.

In embodiments of the present invention, in the second period S2, the conducting of 4N-3 grades of turntable driving sub-circuit VSR1 transmission Signal ON passes through two articles of scan line SL respectively and reaches 4N-3 row and 4N-2 row pixel column PXR.4N-3 grades of turntable driving Circuit VSR1 drives 4N-3 row pixel column PXR to execute the operation of data write phase by scan line SL, and drives 4N- The operation of 2 row pixel column PXR execution initial phase.In third period S3,4N-2 grades of turntable driving sub-circuit VSR1 hairs The Continuity signal ON sent passes through two articles of scan line SL respectively and reaches 4N-2 row and 4N-1 row pixel column PXR.4N-2 grades are swept The operation that drive sub-circuits VSR1 drives 4N-2 row pixel column PXR to execute data write phase by scan line SL is retouched, and 4N-1 row pixel column PXR is driven to execute the operation of initial phase.In the 4th period S4,4N-1 grades of turntable driving son electricity The Continuity signal ON that road VSR1 is sent passes through two articles of scan line SL respectively and reaches 4N-1 row and 4N row pixel column PXR.4N- 1 grade of turntable driving sub-circuit VSR1 drives the operation of 4N-1 row pixel column PXR execution data write phase by scan line SL, And 4N row pixel column PXR is driven to execute the operation of initial phase.In the 5th period S5,4N grades of turntable driving son electricity The Continuity signal ON that road VSR1 is sent reaches 4N row pixel column PXR by scan line SL.4N grades of turntable driving sub-circuits VSR1 drives the operation of 4N row pixel column PXR execution data write phase by scan line SL.After the 5th period S5,2N The Continuity signal ON that grade transmitting drive sub-circuits VSR2 is sent passes through two articles of emission lines EL respectively and reaches 4N-2 row and 4N row Pixel column PXR.2N grades of transmitting drive sub-circuits VSR2 pass through two articles of emission lines EL driving 4N-2 rows and 4N row picture respectively Plain row PXR executes the operation in light emitting control stage.Then, 4N-2 row and 4N row pixel column PXR shine.

As shown in Fig. 2, the Continuity signal ON that 2N-1 grades of transmitting drive sub-circuits VSR2 are sent is logical after the 4th period S4 It crosses one article of emission lines EL and reaches 4N-1 row pixel column PXR and 2N grades of transmitting drive sub-circuits VSR2.

In embodiments of the present invention, after the 4th period S4, the conducting of 2N-1 grades of transmitting drive sub-circuits VSR2 transmissions Signal ON reaches 4N-1 row pixel column PXR and 2N grades of transmitting drive sub-circuits VSR2 by one article of emission lines EL.For example, After 1st the 4th period S4, the Continuity signal ON that the 1st grade of transmitting drive sub-circuits VSR2 is sent is reached by one article of emission lines EL 3rd row pixel column PXR and the 2nd grade of transmitting drive sub-circuits VSR2.After the 2nd the 4th period S4,3rd level transmitting driving son electricity The Continuity signal ON that road VSR2 is sent reaches the 7th row pixel column PXR and the 4th grade of transmitting drive sub-circuits by one article of emission lines EL VSR2.Remaining and so on.2N-1 grades of transmitting drive sub-circuits VSR2 drive 4N-1 row picture by this article of emission lines EL Plain row PXR executes the operation in light emitting control stage.Meanwhile the output end OUT of 2N-1 grades of transmitting drive sub-circuits VSR2 passes through This article of emission lines EL transmits the input terminal IN that Continuity signal emits drive sub-circuits VSR2 to 2N grades.Then, 2N grades of hairs It penetrates drive sub-circuits VSR2 and executes driving.

As shown in Fig. 2, the Continuity signal ON that 2N grades of transmitting drive sub-circuits VSR2 are sent passes through after the 5th period S5 One article of emission lines EL reaches 4N row pixel column PXR and 2N+1 grades of transmitting drive sub-circuits VSR2.

In embodiments of the present invention, after the 5th period S5, the conducting that 2N grades of transmitting drive sub-circuits VSR2 are sent is believed Number ON reaches 4N row pixel column PXR and 2N+1 grades of transmitting drive sub-circuits VSR2 by one article of emission lines EL.For example, After 1 the 5th period S5, Continuity signal ON that the 2nd grade of transmitting drive sub-circuits VSR2 is sent reaches the by one article of emission lines EL 4 row pixel column PXR and 3rd level emit drive sub-circuits VSR2.After the 2nd the 5th period S5, the 4th grade of transmitting drive sub-circuits The Continuity signal ON that VSR2 is sent reaches eighth row pixel column PXR and the 5th grade of transmitting drive sub-circuits by one article of emission lines EL VSR2.Remaining and so on.2N grades of transmitting drive sub-circuits VSR2 drive 4N row pixel column by this article of emission lines EL The operation in PXR execution light emitting control stage.Meanwhile the output end OUT of 2N grades of transmitting drive sub-circuits VSR2 passes through this article Emission lines EL transmits the input terminal IN that Continuity signal emits drive sub-circuits VSR2 to 2N+1 grades.Then, 2N+1 grades of transmittings Drive sub-circuits VSR2 executes driving.

As shown in figure 5, the first period S1, the second period S2, third period S3, the 4th period S4, the 5th period S5 are successively It repeats.

In embodiments of the present invention, the first period S1, the second period S2, third period S3, the 4th period S4, the 5th period S5 is repeated in.For example, firstly, the 1st the first period S1, the 1st the second period S2, the 1st third period S3, the 1st The operation of four period S4, the 1st the 5th period S5 successively execute.Then, the 2nd the first period S1, the 2nd the second period S2, The operation of 2nd third period S3, the 2nd the 4th period S4, the 2nd the 5th period S5 successively execute.Wherein, the 1st the 5th Period S5 is overlapped with the 2nd the first period S1.Remaining and so on.Then, multirow pixel column PXR maintains to shine.

Fig. 6 is the structural schematic diagram of launch driving circuit in display panel of the embodiment of the present invention；Fig. 7 is the embodiment of the present invention The time diagram of launch driving circuit in display panel.

As shown in Figure 6,7, launch driving circuit includes the first transistor M1, second transistor M2, third transistor M3, Four transistor M4, the 5th transistor M5, the 6th transistor M6, the 7th transistor M7, the 8th transistor M8, the 9th transistor M9, When the tenth transistor M10, first capacitor device C1, the second capacitor C2, third capacitor C3, the first clock signal terminal CK, second Clock signal end CKB, low level signal end VGL, high level signal end VGH, input terminal IN, output end OUT.

In the first stage in P21, the first clock signal terminal CK transmits low level signal.Second clock signal end CKB transmission High level signal.Input terminal IN transmits high level signal.The first transistor M1 conducting.Second transistor M2 conducting.Input terminal IN High level signal be transferred to N1 node.Tenth transistor M10 cut-off.N2 node keeps high level signal.9th transistor M9 Cut-off.Output end OUT transmits low level signal.The low level signal of first clock signal terminal CK is transferred to the 5th transistor M5. The low level signal of low level signal end VGL is transferred to the 6th transistor M6.6th transistor M6 conducting.Second clock signal end The high level signal of CKB is transferred to third capacitor C3.Output end OUT transmits low level signal.

In second stage P22, the first clock signal terminal CK transmits high level signal.Second clock signal end CKB transmission Low level signal.Input terminal IN transmits low level signal.6th transistor M6 conducting.The low level of second clock signal end CKB Signal is transferred to third capacitor C3.The grid potential of 6th transistor M6 reduces.7th transistor M7 conducting.9th transistor M9 conducting.The high level signal of high level signal end VGH is transferred to output end OUT.5th transistor M5 conducting.4th transistor M4 conducting.Tenth transistor M10 cut-off.Output end OUT transmits high level signal.

In phase III P23, the first clock signal terminal CK transmits low level signal.Second clock signal end CKB transmission High level signal.Input terminal IN transmits low level signal.The first transistor M1 conducting.Second transistor M2 conducting.Input terminal IN Low level be transferred to N1 node.Tenth transistor M10 conducting.The low level signal of low level signal end VGL is transferred to output Hold OUT.8th transistor M8 conducting.The high level signal of high level signal end VGH is transferred to the 9th transistor M9.9th crystal Pipe M9 cut-off.Output end OUT transmits low level signal.

In fourth stage P24, the first clock signal terminal CK transmits high level signal.Second clock signal end CKB transmission Low level signal.Input terminal IN transmits low level signal.Tenth transistor M10 conducting.The low level of low level signal end VGL is believed Number it is transferred to output end OUT.The high level signal of first clock signal terminal CK is transferred to the 5th transistor M5.5th transistor M5 Cut-off.8th transistor M8 conducting.The high level signal of high level signal end VGH is transferred to N2 node.9th transistor M9 is cut Only.Output end OUT transmits low level signal.

Fig. 8 is the structural schematic diagram of display device of the embodiment of the present invention.

As shown in figure 8, display device 300 includes display panel 200.

In embodiments of the present invention, display device 300 using display panel 200 realize display, such as smart phone or Similar device.Display panel 200 is as described above, repeat no more.

In conclusion the present invention provides a kind of display panel and display device.Display panel includes viewing area and surrounds aobvious Show the non-display area in area；Non-display area includes the first non-display area and the second non-display area being correspondingly arranged；Display panel also wraps Include positioned at multirow pixel column, the scan drive circuit positioned at non-display area and the launch driving circuit of viewing area, multi-strip scanning line, A plurality of emission lines；Scan drive circuit includes cascade multiple turntable driving sub-circuits, and launch driving circuit includes cascade more A transmitting drive sub-circuits；Level-one turntable driving sub-circuit passes through two scan lines respectively and is electrically connected two adjacent row pixel columns； 2N-1 grades of transmitting drive sub-circuits are located at the first non-display area, and 2N grades of transmitting drive sub-circuits are located at the second non-display area； 2N-1 grades of transmitting drive sub-circuits pass through two articles of emission lines electrical connection 4N-3 rows and 4N-1 row pixel column respectively, and 2N grades Transmitting drive sub-circuits pass through two articles of emission lines electrical connection 4N-2 rows respectively and 4N row pixel column, N are natural number.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent substitution, improvement and etc. done be should be included within the scope of the present invention.

Claims (12)

1. a kind of display panel, which is characterized in that the non-display area including viewing area and around the viewing area；

The non-display area includes the first non-display area and the second non-display area being correspondingly arranged；

The display panel further includes the multirow pixel column positioned at the viewing area, the electricity of the turntable driving positioned at the non-display area Road and launch driving circuit, multi-strip scanning line, a plurality of emission lines；

The scan drive circuit includes cascade multiple turntable driving sub-circuits, and the launch driving circuit includes cascade more A transmitting drive sub-circuits；

Turntable driving sub-circuit described in level-one passes through two scan lines respectively and is electrically connected pixel column described in two adjacent rows；

The 2N-1 grades of transmitting drive sub-circuits are located at first non-display area, the 2N grades of transmitting drive sub-circuits positions In second non-display area；

The 2N-1 grades of transmitting drive sub-circuits pass through two articles of emission lines electrical connection 4N-3 rows and 4N-1 row respectively The pixel column, the 2N grades of transmitting drive sub-circuits pass through two articles of emission lines electrical connection 4N-2 rows and 4N respectively The row pixel column, N is natural number.

2. display panel according to claim 1, which is characterized in that 2N-1 grades of transmitting drive sub-circuits and the Pixel column described in 4N-3 row, 4N-2 row, 4N-1 row and 4N row is correspondingly arranged；

Pixel column pair described in the 2N grades of transmitting drive sub-circuits and 4N-3 row, 4N-2 row, 4N-1 row and 4N row It should be arranged.

3. display panel according to claim 1, which is characterized in that 2N-1 grades of transmitting drive sub-circuits and the 4N-3 grades, 4N-2 grades, 4N-1 grades and the 4N grades of turntable driving sub-circuits are correspondingly arranged；

The 2N grades of transmitting drive sub-circuits and 4N-3 grades, 4N-2 grades, 4N-1 grades and the 4N grades of turntable drivings Sub-circuit is correspondingly arranged.

4. display panel according to claim 1, which is characterized in that the 2N-1 grades of transmitting drive sub-circuits pass through one Emission lines described in article are electrically connected pixel column and the 2N grades of transmitting drive sub-circuits described in 4N-1 row.

5. display panel according to claim 1, which is characterized in that the 2N grades of transmitting drive sub-circuits pass through one article Pixel column and the 2N+1 grades of transmitting drive sub-circuits described in the emission lines electrical connection 4N row.

6. display panel according to claim 1, which is characterized in that in the first period, described in 4N-4 grades of N > 1 Turntable driving sub-circuit sends Continuity signal, which reaches pixel column described in 4N-3 row by the scan line；

In the second period, the 4N-3 grades of turntable driving sub-circuits send Continuity signal, which passes through two respectively Scan line described in article reaches pixel column described in 4N-3 row and 4N-2 row；

In the third period, the 4N-2 grades of turntable driving sub-circuits send Continuity signal, which passes through two respectively Scan line described in article reaches pixel column described in 4N-2 row and 4N-1 row；

In the 4th period, the 4N-1 grades of turntable driving sub-circuits send Continuity signal, which passes through two respectively Scan line described in article reaches pixel column described in 4N-1 row and 4N row；

After the 4th period, the 2N-1 grades of transmitting drive sub-circuits send Continuity signal, which leads to respectively It crosses two articles of emission lines and reaches pixel column described in 4N-3 row and 4N-1 row.

7. display panel according to claim 6, which is characterized in that in the 5th period, the 4N grades of turntable drivings Sub-circuit sends Continuity signal, which reaches pixel column described in 4N row by the scan line；

After the 5th period, the 2N grades of transmitting drive sub-circuits send Continuity signal, which passes through respectively Two articles of emission lines reach pixel column described in 4N-2 row and 4N row.

8. display panel according to claim 6, which is characterized in that after the 4th period, the 2N-1 grades of hairs The Continuity signal for penetrating drive sub-circuits transmission reaches pixel column and 2N grades of institutes described in 4N-1 row by one article of emission lines State transmitting drive sub-circuits.

9. display panel according to claim 7, which is characterized in that after the 5th period, the 2N grades of transmittings The Continuity signal that drive sub-circuits are sent is reached described in pixel column described in 4N row and 2N+1 grades by one article of emission lines Emit drive sub-circuits.

10. display panel according to claim 7, which is characterized in that first period, second period, described Third period, the 4th period, the 5th period are repeated in.

11. display panel according to claim 1, which is characterized in that one-row pixels row includes multiple pixels, the pixel It include: driving transistor, the first initialization transistor, the second initialization transistor, the first data writing transistor, the second data Writing transistor, the first light emitting control transistor, the second light emitting control transistor, storage, Organic Light Emitting Diode, One scanning end, the second scanning end, transmitting terminal, reference end, data terminal, power end；

Two turntable driving sub-circuits are electrically connected first scanning end, second scanning end；

The transmitting drive sub-circuits are electrically connected the transmitting terminal；

The driving transistor is used to generate driving current according to the gate source voltage of the driving transistor；

First initialization transistor under the control of first scanning end for being connected, so that the reference of the reference end Signal is transferred to the grid of the driving transistor；

Second initialization transistor under the control of first scanning end for being connected, so that the reference of the reference end Signal is transferred to the anode of the Organic Light Emitting Diode；

The first data writing transistor under the control of second scanning end for being connected, so that the number of the data terminal It is believed that number being transferred to the first electrode of the driving transistor；

The second data writing transistor under the control of second scanning end for being connected, for detecting and compensating institute State the threshold voltage of driving transistor；

The first light emitting control transistor under the control of the transmitting terminal for being connected, so that the power supply of the power end is believed Number it is transferred to the first electrode of the driving transistor；

The second light emitting control transistor under the control of the transmitting terminal for being connected, so that the driving current is transferred to The anode of the Organic Light Emitting Diode；

The storage is used to detect and compensate the threshold voltage of the driving transistor；

The Organic Light Emitting Diode is used to be shone according to the driving current.

12. a kind of display device, which is characterized in that including display panel described in any one in claim 1 to 11.