CN105607362B - A kind of shift register cell, gate driving circuit and display base plate - Google Patents

Abstract

The present invention discloses a kind of shift register cell, gate driving circuit and display base plate, it is related to field of display technology, area for solution capacitor as included by the energy-storage module part in shift register cell is larger, the problem of caused shift register cell occupies biggish space, is unfavorable for narrow frameization development.The shift register cell includes: input module, reseting module, output module and the capacitor as energy-storage module；Input module, reseting module and output module are respectively positioned on the non-display area of display base plate, and capacitor is located at the display area of display base plate；Capacitor includes first electrode and second electrode, and first electrode is a grid line in the display area of array substrate；Second electrode is the contact conductor opposite with first electrode, and contact conductor is connected by connecting lead wire with the upper drawknot node in shift register cell.Shift register cell provided by the invention is used to provide driving signal for display base plate.

Description

A kind of shift register cell, gate driving circuit and display base plate

Technical field

The present invention relates to field of display technology more particularly to a kind of shift register cells, gate driving circuit and display Substrate.

Background technique

With the continuous development of display technology, more and more display devices drive (Gate On using array substrate row Array, hereinafter referred to as GOA) technology, this GOA technology is that gate driving circuit is directly integrated in the non-display of array substrate On region, the border width of array substrate is largely reduced；Moreover, this GOA technology is due to avoiding grid Driving circuit is connected by flexible connecting member with array substrate, and allowing for display device in the production process reduces corresponding system Make technique, improves the production capacity of enterprise.

Currently, referring to Fig. 1, gate driving circuit is generally made of several shift register cells, and each displacement is posted Energy-storage module part in storage unit includes the storage capacitor 1 being connected with the grid line 2 in array substrate, due to this storage The area of energy capacitor 1 is relatively large, so that shift register cell occupies biggish space, is unfavorable for array substrate narrow frame The development of change.

Summary of the invention

The purpose of the present invention is to provide a kind of shift register cell, gate driving circuit and display base plates, for solving Certainly larger, the caused shift register of the area of the capacitor as included by the energy-storage module part in shift register cell The problem of unit occupies biggish space, is unfavorable for narrow frameization development.

To achieve the goals above, the invention provides the following technical scheme:

A kind of shift register cell, the shift register cell are located on display base plate, the shift register list Member includes: input module, reseting module, output module and the capacitor as energy-storage module；Wherein, the input module, described Reseting module and the output module are respectively positioned on the non-display area of the display base plate, and the capacitor is located at the display base The display area of plate；The capacitor includes first electrode and second electrode, and the first electrode is the display positioned at array substrate A grid line in region, the grid line are connected with the output end of the shift register cell；The second electrode for institute The opposite contact conductor of first electrode is stated, the contact conductor passes through the pull-up in connecting lead wire and the shift register cell Node is connected.

The present invention also provides a kind of gate driving circuits, including several above-mentioned shift register cells.

The present invention also provides a kind of display base plates, including above-mentioned gate driving circuit.

Compared with prior art, the beneficial effects of the present invention are:

In shift register cell provided by the invention, since first electrode and the displacement of the capacitor as energy-storage module are posted The output end of storage unit is connected, and the output end of shift register cell is directly and on the display area of array substrate Grid line is connected；The second electrode of capacitor is connected with the upper drawknot node in shift register cell；Therefore, capacitor is introduced into display It, can be by a grid line in the display area for being located at array substrate directly as the first electricity of capacitor when the display area of substrate Pole；Again by the way that the contact conductor opposite with first electrode is arranged as the second electrode of capacitor, second electrode is passed through into connection Lead is connected with the upper drawknot node in shift register cell, that is, realizes and move on to capacitor from the non-display area of display base plate The display area of display base plate；It is located at the connection type when display area of display base plate due to capacitor, is located at display base with it The connection type of the non-display area of plate is identical, i.e., function possessed by capacitor does not change, ensure that capacitor While function is there is no changing, capacitor is integrated in the display area of display base plate by the non-display area of display base plate, The occupied space of shift register is reduced, so that display base plate can be realized the design of more narrow frame.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present invention, constitutes a part of the invention, this hair Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is located at the schematic diagram of the non-display area of display base plate for storage capacitor in the prior art；

Fig. 2 is the positional diagram of shift register cell provided in an embodiment of the present invention and display base plate；

Fig. 3 is the enlarged diagram of the portion A structure in Fig. 2.

Appended drawing reference:

1- storage capacitor, 2- grid line,

3- contact conductor, 4- connecting lead wire,

5- via hole, 6- output module,

The display area of 7- display base plate, the non-display area of 8- display base plate.

Specific embodiment

Shift register cell, gate driving circuit and the display base that embodiment provides in order to further illustrate the present invention Plate is described in detail with reference to the accompanying drawings of the specification.

Please refer to Fig. 2 and Fig. 3, in shift register cell provided in an embodiment of the present invention, shift register cell is located at On display base plate, shift register cell includes: input module, reseting module, output module 6 and the electricity as energy-storage module Hold；Wherein, input module, reseting module and output module 6 are respectively positioned on the non-display area 8 of display base plate, and capacitor is located at aobvious Show the display area 7 of substrate；Capacitor includes first electrode and second electrode, and first electrode is positioned at the display area of array substrate In a grid line 2, grid line 2 is connected with the output end of shift register cell；Second electrode is the electricity opposite with first electrode Pole lead 3, contact conductor 3 are connected by connecting lead wire 4 with the upper drawknot node in shift register cell.

Above-mentioned shift register cell at work, successively provides the first line scan signals to the i-th row by input module and sweeps Signal (i is the integer more than or equal to 1) is retouched, when the first line scan signals drive output module corresponding with the first line scan signals When 6, the first line scan signals are that the corresponding energy-storage module of the second line scan signals charges, and believes when the second row scans simultaneously Number arrive when, the corresponding energy-storage module of the second line scan signals opens output module 6 corresponding with the second line scan signals, with So that the second line scan signals drive output module 6 corresponding with the second line scan signals, while the second line scan signals control Reset unit pair upper drawknot node corresponding with the first line scan signals resets, corresponding defeated to close the first line scan signals Module 6 out, and the second line scan signals also charge simultaneously for the corresponding energy-storage module of third line scan signals；With such It pushes away, completes driving of each line scan signals to output module 6.

In shift register cell provided in an embodiment of the present invention, due to the capacitor as energy-storage module first electrode with The output end of shift register cell is connected, and the output end of shift register cell is directly and positioned at the viewing area of array substrate Grid line 2 on domain is connected；The second electrode of capacitor is connected with the upper drawknot node in shift register cell；Therefore, capacitor is drawn It, can be by a grid line 2 in the display area for being located at array substrate directly as electricity when entering to the display area 7 of display base plate The first electrode of appearance；Again by the second electrode that the contact conductor 3 opposite with first electrode is arranged as capacitor, by the second electricity Pole is connected by connecting lead wire 4 with the upper drawknot node in shift register cell, that is, is realized capacitor from the non-of display base plate Display area 8 moves on to the display area 7 of display base plate；The connection type when display area 7 of display base plate is located at due to capacitor, It is located at that the connection type of non-display area 8 of display base plate is identical, i.e., function possessed by capacitor does not change with it, In the function of ensure that capacitor, there is no while variation, capacitor is integrated in display by the non-display area 8 of display base plate The display area 7 of substrate reduces the occupied space of shift register, so that display base plate can be realized setting for more narrow frame Meter.

It should be noted that second electrode of the contact conductor 3 provided by the above embodiment as capacitor, need with as the The grid line 2 of one electrode is parallel to each other and there are positive area, and such contact conductor 3 and grid line 2 can form capacitor；And electricity The position of pole lead 3 can be set to according to actual needs in array substrate or on color membrane substrates, as long as guaranteeing that it can be with grid line 2 Form capacitor.

In addition, shift register cell provided by the above embodiment is applicable not only to twisted nematic display screen, it is also same Suitable for touch-control, embedded display screen and superelevation grade surpass dimension field switch technology display etc. entirely.

Contact conductor 3 and connecting lead wire 4 provided by the above embodiment can be structure as a whole or it is interconnected two solely Vertical structure；In actual application, it is preferred that contact conductor 3 and connecting lead wire 4 are structure as a whole, due to integral structure Contact conductor 3 and connecting lead wire 4 between be not present junction, this allows for capacitor and is hardly damaged in the process of work, tool There is longer service life；In addition, the contact conductor 3 and connecting lead wire 4 of selection integral structure, are forming contact conductor 3 and are connecting When connecing lead 4, contact conductor 3 and connecting lead wire 4 can disposably be formed using the method for vapor deposition, it is extra without increasing Operation.It should be noted that there are many ways to disposably forming contact conductor 3 and connecting lead wire 4, is not limited only to above-mentioned vapor deposition Method.

And the material of contact conductor 3 and the material of connecting lead wire 4 it is equal there are many kinds of, such as: metal, indium tin oxide etc.； When selecting metal as contact conductor 3 and connecting lead wire 4, according to actual needs, it is preferable to can choose the electric conductivities such as platinum, copper Metal, or selection silver is this can either meet electric conductivity, in terms of cost relatively low metal again；And select indium tin oxygen When compound is as contact conductor 3 and connecting lead wire 4, since indium tin oxide itself has preferable electric conductivity, and can Electron radiation, ultraviolet light and the far infrared etc. being harmful to the human body are cut off, and the pixel electrode in display device is also generally adopted It is therefore selected indium tin oxide as contact conductor 3 and connecting lead wire 4 with this material, can not only guarantee that capacitor is normal Work, and can be formed together contact conductor 3 and connecting lead wire 4 when forming pixel electrode, not need to make electricity Pole lead 3 and connecting lead wire 4, and increase corresponding process；Specifically, forming pixel electrode, contact conductor 3 and connecting lead wire 4 When, it can choose suitable mask plate, the system of pixel electrode, contact conductor 3 and connecting lead wire 4 can be completed in primary vapor deposition operation Make, but is not limited only to this mode.

Since in different shift register cells, the capacitance of the capacitor as energy-storage module is had differences, and in order to suitable Answer requirement of the different shift register cells to capacitor's capacity, it is necessary to which the capacitance of capacitor can be according to the shift LD where it The requirement of device unit is adjusted；In capacitor provided by the above embodiment, first electrode is positioned at the viewing area of array substrate Grid line 2 on domain, second electrode are the contact conductors 3 opposite with first electrode；Due to the generally fixed length of the length of grid line 2 Degree, and the length of contact conductor 3 be it is unfixed, therefore, can according in actual shift register cell to capacitor's capacity It needs, makes the contact conductor 3 of different length；I.e. when the capacitance of required capacitor is larger, the longer electricity of length is just made Pole lead 3, and when the capacitance of required capacitor is smaller, just make the shorter contact conductor 3 of length；In addition, different length Contact conductor 3 in production, it is only necessary to select suitable mask plate, other operate shapes with above-mentioned contact conductor 3 It is identical at process.

Please continue to refer to Fig. 2, it is parallel-plate electricity that contact conductor 3 and grid line 2 provided by the above embodiment, which are formed by capacitor, Hold, i.e., the size of the positive area of contact conductor 3 and grid line 2 can generate certain influence to the capacitance of parallel plate capacitor, and influence The positive area of contact conductor 3 and grid line 2 it is many because being known as, wherein relatively conventional factor is the formation in contact conductor 3 There are deviations for the placement location of mask plate in the process；When the placement location of mask plate is there are when deviation, pass through mask plate accordingly The contact conductor 3 of formation inconsistent phenomenon can occur with grid line 2, and this inconsistent phenomenon can make the reality of contact conductor 3 Yu grid Border positive area is less than positive area required for parallel plate capacitor, and the capacitance of the parallel plate capacitor resulted in is less than normal, without It can satisfy the requirement of shift register cell.

In order to avoid the influence that the above-mentioned size by positive area generates capacitor's capacity, in the mistake for forming contact conductor 3 The width of contact conductor 3 can be made smaller than the width of grid line 2 by Cheng Zhong, in this way in the forming process of contact conductor 3 i.e. Making the placement location of mask plate, there are deviations, can also guarantee that the entire area of contact conductor 3 is contact conductor 3 and grid line 2 The positive area of formation avoids capacitance production of the above-mentioned placement location by mask plate there are deviation to parallel plate capacitor well Raw influence.

Second electrode of the contact conductor 3 provided by the above embodiment as capacitor, need in shift register cell Upper drawknot node is connected, and according to the actual positional relationship of upper drawknot node and contact conductor 3, upper drawknot node and contact conductor 3 are general It will not be in the same plane, in this case, connecting lead wire 4 just needs to be realized by via hole 5 by upper drawknot node It is connected with contact conductor 3, and realizes the connection of upper drawknot node and contact conductor 3 by via hole 5, connecting lead wire can be made 4 can occupied space it is bigger, avoided well due to connecting lead wire 4 and walking on display base plate or shift register cell Line is parallel or directly intersects together, and the interference problem generated.

The embodiment of the invention also provides a kind of gate driving circuits, including several shift LDs provided by the above embodiment Device unit, since gate driving circuit includes several above-mentioned shift register cells, i.e., all be used as is deposited in gate driving circuit The capacitor of storage module is respectively positioned on the display area 7 of display base plate, and it is shared on display base plate that this reduces gate driving circuits Space realizes the narrow frameization development of display base plate well.

The embodiment of the invention also provides a kind of display base plate, including gate driving circuit provided by the above embodiment, this Beneficial effect caused by kind display base plate is identical as beneficial effect caused by above-mentioned gate driving circuit, does not do herein superfluous It states.

In the description of above embodiment, particular features, structures, materials, or characteristics can be at any one or more It can be combined in any suitable manner in a embodiment or example.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (7)

1. a kind of shift register cell, which is characterized in that the shift register cell is located on display base plate, the displacement Register cell includes: input module, reseting module, output module and the capacitor as energy-storage module；Wherein,

The input module, the reseting module and the output module are respectively positioned on the non-display area of the display base plate, The capacitor is located at the display area of the display base plate；

The capacitor includes first electrode and second electrode, and the first electrode is one in the display area of array substrate Grid line, the grid line are connected with the output end of the shift register cell；The second electrode be and the first electrode Opposite contact conductor, the contact conductor are connected by connecting lead wire with the upper drawknot node in the shift register cell；

The width of the contact conductor is less than the width of the grid line.

2. shift register cell according to claim 1, which is characterized in that the second electrode is located in array substrate Or on color membrane substrates.

3. shift register cell according to claim 1, which is characterized in that the contact conductor and the connecting lead wire It is structure as a whole.

4. shift register cell according to claim 3, which is characterized in that the material of the contact conductor and the company The material for connecing lead is indium tin oxide.

5. shift register cell described in any one of -4 according to claim 1, which is characterized in that the connecting lead wire passes through Via hole is connected with the upper drawknot node.

6. a kind of gate driving circuit, which is characterized in that including several shift LDs according to any one of claims 1 to 5 Device unit.

7. a kind of display base plate, which is characterized in that including gate driving circuit as described in claim 6.