CN106054483B - Array substrate and its control method, production method, display device - Google Patents

Abstract

The present invention provides a kind of array substrate and its control method, production method, display devices, the array substrate includes substrate, the pixel switch array and data line graph of formation on the substrate, further includes: forms compensating switch array, the first compensation input terminal, the second compensation input terminal and compensation control terminal on the substrate；The compensating switch array is connect with the multiple data lines in the first compensation input terminal, the second compensation input terminal, compensation control terminal and data line graph far from the one end in source signal source respectively；The first compensation input terminal is connect with the second compensation input terminal with the source signal source；The compensating switch array is suitable under static status display mode compensating distal end source voltage simultaneously from both ends to data line output signal by the second thermal compensation signal or third thermal compensation signal under Dynamically Announce mode, reducing the RC Delay time.

Description

Array substrate and its control method, production method, display device

Technical field

The present invention relates to field of display technology more particularly to a kind of array substrate and its control method, production method, displays Device.

Background technique

With the development of display fabrication techniques, LCD Technology is quickly grown, oneself has been substituted traditional imaging Tube display and the mainstream for becoming the following flat-panel monitor.In LCD Technology field, thin film transistor liquid crystal display Device TFT-LCD (Thin Film Transistor Liquid Crystal Display) is with its large scale, highly integrated, function Can powerful, technique flexibly, the advantages such as low cost and be widely used in the fields such as television set, computer.

However, the Source of large size liquid crystal display product leads to RC retardation ratio (RC Delay) obviously to cabling is longer, And then to further cause display display effect poor by Source RC Delay, the display such as display panel brightness disproportionation is bad.

Summary of the invention

In view of the drawbacks of the prior art, the present invention provides a kind of array substrate and its control method, production method, display dress It sets, being able to solve Source in the prior art to cabling is longer causes RC Delay obvious, and it is aobvious to further cause display Show the problems such as displays such as effect difference and display panel brightness disproportionation are bad.

In a first aspect, the present invention provides a kind of array substrate, including substrate, the pixel switch of formation on the substrate Array and data line graph, further includes: form compensating switch array, the first compensation input terminal, the second benefit on the substrate Repay input terminal and compensation control terminal；

The compensating switch array respectively with it is described first compensation input terminal, second compensation input terminal, compensation control terminal with And the multiple data lines in data line graph are connected far from the one end in source signal source；The first compensation input terminal and described the Two compensation input terminals are connect with the source signal source；

The compensating switch array is suitable under static status display mode, in response to the first control of compensation control terminal access Signal, by the first compensation input terminal or the first thermal compensation signal and source electrode near end signal of the second compensation input terminal access The multiple data lines are accessed after superposition；It is further adapted under Dynamically Announce mode, in response to the second control of compensation control terminal access Signal processed, the second thermal compensation signal within period first time by the first compensation input terminal access are folded with source electrode near end signal Access data line after adding, or after the third thermal compensation signal of the second compensation input terminal access is superimposed with source electrode near end signal Data line is accessed, the first compensation input terminal or the second compensation input terminal and described more are disconnected in second time period The connection of data line.

Preferably, the first control signal is high level signal；The second control signal is in period first time High level signal is low level signal in second time period；

First thermal compensation signal is identical as the source electrode near end signal；Second thermal compensation signal and the third compensate Signal inversion, and second thermal compensation signal is the intermediate voltage value of positive polarity maximum voltage or negative polarity maximum voltage.

Preferably, the second control signal exports high level when TP control signal is high level, controls signal in TP To export low level when low level.

Preferably, the compensating switch array includes multiple first compensating switches and multiple second compensating switches；Each institute It states the first compensating switch to be connected between the data line an of positive polarity and the first compensation input terminal, each second compensation is opened Connection is connected between the data line an of negative polarity and the second compensation input terminal, first compensating switch and second compensation The control terminal of switch is connect with the compensation control terminal；

The first control signal is suitable for opening first compensating switch and second compensating switch；

The second control signal is suitable for opening first compensating switch and second compensation in period first time Switch turns off first compensating switch and second compensating switch in second time period.

Preferably, the compensating switch array includes multiple thin film transistor (TFT)s；

The grid of the multiple thin film transistor (TFT) is connect with the compensation control terminal, the leakage of the multiple thin film transistor (TFT) Pole connects one to one with the multiple data lines, the source electrode for the thin film transistor (TFT) connecting with the data line of positive polarity and described the One compensation input terminal connection, the source electrode for the thin film transistor (TFT) connecting with the data line of negative polarity and the second compensation input terminal connect It connects.

Preferably, the compensating switch array is formed in the non-display area in the array substrate far from source signal source Domain.

Second aspect, the present invention provides a kind of control methods of any one of the above array substrate, comprising:

Under static status display mode, first control signal is inputted in the compensation control terminal of compensating switch array, first is mended It repays after the first thermal compensation signal that input terminal or the second compensation input terminal access is superimposed with source electrode near end signal and accesses multiple data lines；

Under Dynamically Announce mode, second control signal is inputted in the compensation control terminal, within period first time Data line is accessed after second thermal compensation signal of the first compensation input terminal access is superimposed with source electrode near end signal, or by institute It states after the third thermal compensation signal that the second compensation input terminal accesses is superimposed with source electrode near end signal and accesses data line, in week the second time The connection of the first compensation input terminal or the second compensation input terminal and the multiple data lines is disconnected in phase.

The third aspect, the present invention provides a kind of production methods of any one of the above array substrate, comprising:

Pixel switch array and data line graph are formed on substrate；

Compensating switch array, the first compensation input terminal, the second compensation input terminal and compensation control are formed on the substrate End；

Wherein, the compensating switch array is controlled with the first compensation input terminal, the second compensation input terminal, compensation respectively Multiple data lines in end and data line graph are connected far from the one end in source signal source；The first compensation input terminal and institute The second compensation input terminal is stated to connect with the source signal source；The compensating switch array is suitable under static status display mode, rings It should be in the first control signal of compensation control terminal access, by the first compensation input terminal or the second compensation input terminal access The first thermal compensation signal be superimposed with source electrode near end signal after access the multiple data lines；It is further adapted under Dynamically Announce mode, In response to the second control signal of compensation control terminal access, by the first compensation input terminal access within period first time Second thermal compensation signal accesses data line, or the third that the second compensation input terminal is accessed after being superimposed with source electrode near end signal Thermal compensation signal accesses data line after being superimposed with source electrode near end signal, and the first compensation input terminal is disconnected in second time period Or the connection of the second compensation input terminal and the multiple data lines.

Preferably, the pixel switch array is formed in same technique with the compensating switch array.

Fourth aspect, the present invention provides a kind of display devices, comprising: any one of the above array substrate.

As shown from the above technical solution, the present invention provides a kind of array substrate and its control method, production method, display dress It sets, is controlled by forming compensating switch array, the first compensation input terminal, the second compensation input terminal and compensation in array substrate End, in response to the first control signal of compensation control terminal access, to compensate input terminal for described first under static status display mode Or it is described second compensation input terminal access the first thermal compensation signal be superimposed with source electrode near end signal after access the multiple data lines； Under Dynamically Announce mode, in response to the second control signal of compensation control terminal access, by described the within period first time Second thermal compensation signal of one compensation input terminal access accesses data line after being superimposed with source electrode near end signal, or described second is mended It repays after the third thermal compensation signal that input terminal accesses is superimposed with source electrode near end signal and accesses data line, disconnected in second time period The connection of the first compensation input terminal or the second compensation input terminal and the multiple data lines, so that aobvious in static state Show simultaneously from both ends to data line output signal under mode, is compensated under Dynamically Announce mode by the second thermal compensation signal or third Signal compensates distal end source voltage, reduces the RC Delay time.In this way, the present invention in source signal source distal end by increasing The method of strong signal realizes enhancing driving effect, improves display effect difference and display panel brightness disproportionation that RC Delay causes Deng show it is bad the problems such as.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with Other attached drawings are obtained according to these figures.

Fig. 1 is a kind of structural schematic diagram for array substrate that one embodiment of the invention provides；

Fig. 2 be another embodiment of the present invention provides Fig. 1 shown in the timing Design of static status display mode of array substrate show It is intended to；

Fig. 3 be another embodiment of the present invention provides Fig. 1 shown in the timing Design of Dynamically Announce mode of array substrate show It is intended to；

Fig. 4 is a kind of flow diagram of the control method for array substrate that one embodiment of the invention provides；

Fig. 5 is a kind of flow diagram of the production method for array substrate that one embodiment of the invention provides.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1 is the structural schematic diagram of one of one embodiment of the invention array substrate, the array substrate in the present embodiment Including substrate, the pixel switch array and data line graph of formation on the substrate.As shown in Figure 1, the array substrate is also wrapped Include: the compensating switch array 100, first formed on the substrate compensates the compensation input terminal 111 of input terminal 110, second and mends Repay control terminal 120.

Wherein, the compensating switch array 100 compensates input terminal with the first compensation input terminal 110, second respectively 111, the multiple data lines compensated in control terminal 120 and data line graph are connected far from the one end in source signal source.Described One compensation input terminal 110 is connect with the second compensation input terminal 111 with the source signal source (Source).

The compensating switch array 100 is suitable under static status display mode, the accessed in response to compensation control terminal 120 One control signal, by the first compensation input terminal 110 or second first thermal compensation signal that accesses of compensation input terminal 111 with The multiple data lines are accessed after the superposition of source electrode near end signal；It is further adapted under Dynamically Announce mode, in response to compensating control terminal The second control signal of 120 accesses believes the second compensation that the first compensation input terminal 110 accesses within period first time Data line, or the third compensation letter that the second compensation input terminal 111 is accessed are accessed after number being superimposed with source electrode near end signal Access data line after number being superimposed with source electrode near end signal, disconnected in second time period the first compensation input terminal 110 or The connection of second the compensation input terminal 111 and the multiple data lines.

It can be seen that the present embodiment is made by the way that compensating switch array 100 is arranged in the distal end of source signal source (Source) It obtains under static status display mode, the first thermal compensation signal of the first compensation input terminal or the second compensation input terminal input is close with source electrode From Source distance connection multiple data lines after end signal superposition, then simultaneously from the proximal end Source and the distal end Source both ends to number According to line output signal；The second thermal compensation signal and source electrode under Dynamically Announce mode by accessing the first compensation input terminal 110 Data line is accessed after near end signal superposition, or third thermal compensation signal and source electrode that the second compensation input terminal 111 is accessed Data line is accessed after near end signal superposition, to compensate to distal end source voltage, reduces the RC Delay time.In this way, this hair The bright method by enhancing signal in source signal source distal end, realizes enhancing driving effect, improves the display that RC Delay causes The problems such as display such as effect difference and display panel brightness disproportionation is bad.

Specifically, Fig. 2 shows a kind of corresponding timing Design schematic diagrames of static status display mode.As shown in Fig. 2, described One control signal (Gr output) is high level signal, first thermal compensation signal (S1/S2 output) and the source electrode near end signal (proximal end Source exports corresponding block curve in such as Fig. 2) is identical, and the first thermal compensation signal and source electrode near end signal phase at this time Together.

In this way, as shown in Fig. 2, the corresponding grayscale of such as positive polarity data line is L127+, the corresponding ash of negative polarity data line Rank is L127-, i.e., under static status display mode, the first compensation of the first compensation input terminal or the second compensation input terminal input is believed Number (S1/S2 output) be superimposed with source electrode near end signal (output of the proximal end Source) after from the output of the distal end Source to multiple data lines Image such as in Fig. 2 Source distal end export shown in corresponding block curve, the distal end the Source curve of output (solid line) It can be seen that the present embodiment under static status display mode from both ends with Source distal end output (dotted line) comparison in the prior art To data line output signal, RC Delay can be effectively improved.

Fig. 3 shows a kind of corresponding timing Design schematic diagram of Dynamically Announce mode.As shown in figure 3, second control Signal (Gr output) is high level signal in period first time, is low level signal in second time period.And described second Thermal compensation signal (S1 output) and the third thermal compensation signal (S2 output) reverse phase, and second thermal compensation signal is that positive polarity is maximum The intermediate voltage value (such as L127+ or L217-) of voltage or negative polarity maximum voltage.

Further, the second control signal exports high level when TP control signal is high level, controls and believes in TP Number be low level when export low level.

In this way, as shown in figure 3, if picture grayscale is according to L10+, L127-, L255+, L200- dynamic change, i.e., in dynamic Under display pattern, period first time (Gr exports high level), the second compensation of the first compensation input terminal access is believed Data are accessed after number (S1 output) and source electrode near end signal (in such as Fig. 3 the output of the proximal end Source corresponding block curve) superposition Line, or accessed after the third thermal compensation signal (S2 output) of the second compensation input terminal access is superimposed with source electrode near end signal Data line accesses Source distal end of the curve of data line such as in Fig. 3 and exports shown in corresponding block curve, and in the prior art Source distal end output (dashed curve in Fig. 3) comparison as can be seen that effectively improve RC Delay.In this way, this implementation Example is the time of high level using TP under Dynamically Announce mode, and the Source voltage of distal end is pulled to positive polarity or cathode in advance The medium voltage (L127+ or L217-) of property, can effectively reduce the RC Delay time.

In the specific implementation, the specific structure of above-mentioned array substrate can show diversified forms, and 1 pair with reference to the accompanying drawing The structure and its control method of one of array substrate are illustrated.

As shown in Figure 1, array substrate includes substrate, the pixel switch array and data line chart of formation on the substrate Shape.As shown in Figure 1, the array substrate includes: that substrate, the pixel switch being formed on substrate, data line graph (do not show in Fig. 1 Out) and forms compensating switch array 100, first on the substrate and compensate input terminal 110, second and compensate input terminal 111 And compensation control terminal 120.

Wherein, the compensating switch array 100 includes multiple first compensating switches 101 and multiple second compensating switches 102. Each first compensating switch 101 is connected between the data line an of positive polarity and the first compensation input terminal 110, Mei Gesuo It states the second compensating switch 102 to be connected between the data line an of negative polarity and the second compensation input terminal 111, first compensation The control terminal of switch 101 and second compensating switch 102 is connect with the compensation control terminal 120.

Correspondingly, the first control signal is suitable for opening first compensating switch 101 and second compensating switch 102；The second control signal is suitable for opening first compensating switch 101 in period first time and second compensation is opened 102 are closed, turns off first compensating switch 101 and second compensating switch 102 in second time period.

Specifically, under static status display mode, the first control signal accessed in response to compensating control terminal 120, first The first thermal compensation signal and source electrode near end signal that compensating switch 101 accesses the first compensation input terminal 110 after being closed are superimposed Signal compensates input terminal for second after the data line of a plurality of positive polarity of Source distance connection, the second compensating switch 102 closure First thermal compensation signals of 111 accesses and the superimposed signal of source electrode near end signal are from the number of a plurality of negative polarity of Source distance connection According to line；Under Dynamically Announce mode, in response to the second control signal that compensation control terminal 120 accesses, within period first time Second thermal compensation signal and source electrode near end signal of first compensating switch 101 closure to access the first compensation input terminal 110 From the data line of a plurality of positive polarity of Source distance connection after superposition, while the second compensating switch 102 closure is with by described second It compensates after the third thermal compensation signal that input terminal 111 accesses is superimposed with source electrode near end signal from a plurality of negative polarity of Source distance connection Data line, in advance by the Source voltage of distal end come positive polarity or negative polarity medium voltage, to reduce RC The Delay time.

In an alternate embodiment of the present invention where, as shown in Figure 1, the compensating switch array 100 includes multiple films Transistor.

The grid of the multiple thin film transistor (TFT) is connect with the compensation control terminal 120, the multiple thin film transistor (TFT) Drain electrode connect one to one with the multiple data lines, the source electrode for the thin film transistor (TFT) being connect with the data line of positive polarity and institute State the connection of the first compensation input terminal 110, the source electrode for the thin film transistor (TFT) connecting with the data line of negative polarity and second compensation Input terminal 111 connects.

It should be noted that as shown in Figure 1, the compensating switch array 100 is formed in the array substrate far from source The non-display area of pole signal source (Source).

Fig. 4 is the flow diagram of the control method of one of one embodiment of the invention array substrate, can be used for controlling Any one of the above array substrate is driven, such as shown in figure 4, this method comprises the following steps:

S401: under static status display mode, first control signal is inputted in the compensation control terminal of compensating switch array, by the One compensation input terminal or the first thermal compensation signal of the second compensation input terminal access access a plurality of number after being superimposed with source electrode near end signal According to line；

S402: under Dynamically Announce mode, second control signal is inputted in the compensation control terminal, in week at the first time Data line is accessed after being superimposed the second thermal compensation signal of the first compensation input terminal access with source electrode near end signal in phase, or Data line is accessed after the third thermal compensation signal of the second compensation input terminal access is superimposed with source electrode near end signal, at second Between the connection of the first compensation input terminal or the second compensation input terminal and the multiple data lines is disconnected in the period.

Fig. 5 is the flow diagram of the production method of one of another embodiment of the present invention array substrate, can be used for making Make any one of the above array substrate, as shown in figure 5, this method comprises the following steps:

S501: pixel switch array and data line graph are formed on substrate；

S502: compensating switch array, the first compensation input terminal, the second compensation input terminal and compensation are formed on the substrate Control terminal；

Wherein, the compensating switch array is controlled with the first compensation input terminal, the second compensation input terminal, compensation respectively Multiple data lines in end and data line graph are connected far from the one end in source signal source；The first compensation input terminal and institute The second compensation input terminal is stated to connect with the source signal source；The compensating switch array is suitable under static status display mode, rings It should be in the first control signal of compensation control terminal access, by the first compensation input terminal or the second compensation input terminal access The first thermal compensation signal be superimposed with source electrode near end signal after access the multiple data lines；It is further adapted under Dynamically Announce mode, In response to the second control signal of compensation control terminal access, by the first compensation input terminal access within period first time Second thermal compensation signal accesses data line, or the third that the second compensation input terminal is accessed after being superimposed with source electrode near end signal Thermal compensation signal accesses data line after being superimposed with source electrode near end signal, and the first compensation input terminal is disconnected in second time period Or the connection of the second compensation input terminal and the multiple data lines.

It specifically, can be by the pixel switch array and the compensating switch battle array in the production method of the array substrate It is listed in same technique and is formed, can reduce the complexity of manufacture craft in this way.

Based on same inventive concept, one embodiment of the invention provides a kind of display device, comprising: any one of the above Array substrate.The display device can be with are as follows: liquid crystal display panel, mobile phone, tablet computer, television set, laptop, digital phase Any products or components having a display function such as frame, navigator.The display device is due to for including any one of the above array The display device of substrate, thus can solve same technical problem, and obtain identical technical effect.

In the description of the present invention, it should be noted that the orientation or positional relationship of the instructions such as term " on ", "lower" is base In orientation or positional relationship shown in the drawings, it is merely for convenience of description of the present invention and simplification of the description, rather than indication or suggestion Signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this The limitation of invention.Unless otherwise clearly defined and limited, term " installation ", " connected ", " connection " shall be understood in a broad sense, example Such as, it may be fixed connection or may be dismantle connection, or integral connection；It can be mechanical connection, be also possible to be electrically connected It connects；It can be directly connected, the connection inside two elements can also be can be indirectly connected through an intermediary.For this For the those of ordinary skill in field, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

It should also be noted that, herein, relational terms such as first and second and the like are used merely to one Entity or operation are distinguished with another entity or operation, without necessarily requiring or implying between these entities or operation There are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to contain Lid non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in process, method, article or equipment including the element.

The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although with reference to the foregoing embodiments Invention is explained in detail, those skilled in the art should understand that: it still can be to aforementioned each implementation Technical solution documented by example is modified or equivalent replacement of some of the technical features；And these modification or Replacement, the spirit and scope for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution.

Claims (10)

1. a kind of array substrate, including substrate, the pixel switch array and data line graph of formation on the substrate, feature It is, further includes: form compensating switch array, the first compensation input terminal, the second compensation input terminal and benefit on the substrate Repay control terminal；

The compensating switch array compensates input terminal, compensation control terminal and number with the first compensation input terminal, second respectively It is connected according to the multiple data lines in line graph far from the one end in source signal source；The first compensation input terminal and described second is mended Input terminal is repaid to connect with the source signal source；

The compensating switch array is suitable under static status display mode, in response to compensating the first control signal of control terminal access, First thermal compensation signal of the first compensation input terminal or the second compensation input terminal access is superimposed with source electrode near end signal After access the multiple data lines；It is further adapted under Dynamically Announce mode, the second control in response to compensation control terminal access is believed Number, after the second thermal compensation signal of the first compensation input terminal access is superimposed with source electrode near end signal within period first time Data line is accessed, or is accessed after the third thermal compensation signal of the second compensation input terminal access is superimposed with source electrode near end signal Data line disconnects the first compensation input terminal or the second compensation input terminal and a plurality of number in second time period According to the connection of line.

2. array substrate according to claim 1, which is characterized in that the first control signal is high level signal；Institute It is high level signal that second control signal, which is stated, in period first time, is low level signal in second time period；

First thermal compensation signal is identical as the source electrode near end signal；Second thermal compensation signal and the third thermal compensation signal Reverse phase, and second thermal compensation signal is the intermediate voltage value of positive polarity maximum voltage or negative polarity maximum voltage.

3. array substrate according to claim 1, which is characterized in that the second control signal is height in TP control signal High level is exported when level, exports low level when TP control signal is low level.

4. array substrate according to claim 1, which is characterized in that the compensating switch array includes multiple first compensation Switch and multiple second compensating switches；Each first compensating switch is connected to the data line and the first compensation of a positive polarity Between input terminal, each second compensating switch is connected between the data line an of negative polarity and the second compensation input terminal, The control terminal of first compensating switch and second compensating switch is connect with the compensation control terminal；

The first control signal is suitable for opening first compensating switch and second compensating switch；

The second control signal is suitable for opening first compensating switch and second compensating switch in period first time, First compensating switch and second compensating switch are turned off in second time period.

5. array substrate according to claim 1, which is characterized in that the compensating switch array includes multiple film crystals Pipe；

The grid of the multiple thin film transistor (TFT) is connect with the compensation control terminal, the drain electrode of the multiple thin film transistor (TFT) with The multiple data lines connect one to one, and the source electrode for the thin film transistor (TFT) connecting with the data line of positive polarity and described first is mended Input terminal connection is repaid, the source electrode for the thin film transistor (TFT) connecting with the data line of negative polarity is connect with the second compensation input terminal.

6. array substrate according to claim 1, which is characterized in that the compensating switch array is formed in the array base Far from the non-display area in source signal source on plate.

7. a kind of control method of such as array substrate according to any one of claims 1 to 6 characterized by comprising

Under static status display mode, first control signal is inputted in the compensation control terminal of compensating switch array, the first compensation is defeated Enter end or second compensation input terminal access the first thermal compensation signal be superimposed with source electrode near end signal after access multiple data lines；

Under Dynamically Announce mode, the compensation control terminal input second control signal, within period first time by institute State the access of the first compensation input terminal the second thermal compensation signal be superimposed with source electrode near end signal after access data line, or by described the The third thermal compensation signal of two compensation input terminal accesses accesses data line after being superimposed with source electrode near end signal, in second time period Disconnect the connection of the first compensation input terminal or the second compensation input terminal and the multiple data lines.

8. a kind of production method of such as array substrate according to any one of claims 1 to 6 characterized by comprising

Pixel switch array and data line graph are formed on substrate；

Compensating switch array, the first compensation input terminal, the second compensation input terminal and compensation control terminal are formed on the substrate；

Wherein, the compensating switch array respectively with it is described first compensation input terminal, second compensation input terminal, compensation control terminal with And the multiple data lines in data line graph are connected far from the one end in source signal source；The first compensation input terminal and described the Two compensation input terminals are connect with the source signal source；The compensating switch array is suitable under static status display mode, in response to The first control signal for compensating control terminal access, by the of the first compensation input terminal or the second compensation input terminal access One thermal compensation signal accesses the multiple data lines after being superimposed with source electrode near end signal；It is further adapted under Dynamically Announce mode, responds In the second control signal of compensation control terminal access, by the second of the first compensation input terminal access within period first time Thermal compensation signal accesses data line after being superimposed with source electrode near end signal, or the third of the second compensation input terminal access is compensated Signal accesses data line after being superimposed with source electrode near end signal, and the first compensation input terminal or institute are disconnected in second time period State the connection of the second compensation input terminal and the multiple data lines.

9. according to the method described in claim 8, it is characterized in that, the pixel switch array and the compensating switch array exist It is formed in same technique.

10. a kind of display device characterized by comprising such as array substrate according to any one of claims 1 to 6.