CN206194351U - Source driver circuit and display device - Google Patents
Source driver circuit and display device Download PDFInfo
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- CN206194351U CN206194351U CN201621266189.XU CN201621266189U CN206194351U CN 206194351 U CN206194351 U CN 206194351U CN 201621266189 U CN201621266189 U CN 201621266189U CN 206194351 U CN206194351 U CN 206194351U
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Abstract
The utility model provides source driver circuit and display device. Correspondingly, detection circuitry is configured as the change value that detects common voltage, and compensating circuit, be configured as based on data signal and common voltage's change is worth to compensation data signal, and will compensate the the pixel electrode of data signal output to display panel. The change of this disclosed embodiment through detecting the common voltage on the display panel to based on the output signal of this common voltage's change adjustment source driver circuit, guarantee from coming charging voltage's in the pixel accuracy to prevent that the voltage of load on the liquid crystal from having the bias voltage, avoids leading to the fact the electric charge to remain.
Description
Technical field
Embodiment of the disclosure is related to a kind of source electrode drive circuit and display device.
Background technology
Public pressure wire in liquid crystal display panel forms electric capacity with data wire (Data line), when the number on data wire
It is believed that when number changing, due to the presence for having electric capacity, the common electric voltage VCOM in public pressure wire can be pulled and produce change
Change.Especially for HADS (High advanced super Dimension Switch) display pattern, due to common electric voltage
Electric capacity between line and data wire is relatively large, and the change that common electric voltage VCOM is pulled and produces also can be bigger, common electric voltage
The pulling of VCOM is more difficult to recover, and easily causes the error of charging voltage in pixel, so as to cause charge residue, causes picture residual
Picture.
Utility model content
At least one embodiment of the disclosure provides a kind of source electrode drive circuit, including:Detection circuit, is configured as detection
The changing value of common electric voltage;And compensation circuit, it is configured as the changing value based on data-signal and the common electric voltage and obtains
To offset data signal, and by the pixel electrode of the offset data signal output to display panel.
For example, the detection circuit includes:Difference amplifier, is configured as feeding back public voltage signal and common electric voltage
Signal carries out difference operation to obtain the changing value of the common electric voltage.
For example, the compensation circuit includes:Rp-op amp and in-phase adder;The rp-op amp quilt
It is configured to carry out the changing value of the common electric voltage anti-phase and amplify the changing value after being amplified, the in-phase adder quilt
The change after the data-signal and the amplification is configured to be worth to and export the offset data signal.
For example, the in-phase input end of the difference amplifier is connected by first resistor with public pressure wire, anti-phase input
End is connected by second resistance with public pressure wire is fed back, the inverting input phase of output end and the rp-op amp
Even;Wherein, the in-phase input end is connected by 3rd resistor with the first fixed voltage end;The inverting input is defeated with described
Go out between holding and be connected by the 4th resistance;The output end of the difference amplifier passes through the 5th resistance and the anti-phase operation amplifier
The inverting input of device is connected, and the inverting input of the rp-op amp is put by the 6th resistance with the anti-phase computing
The output end of big device is connected, and the normal phase input end of the rp-op amp passes through the 7th resistance and the second fixed voltage end phase
Even;The in-phase input end of the in-phase adder is also connected by the 8th resistance with voltage data signal line, the anti-phase computing
The output end of amplifier is connected by the 9th resistance with the in-phase input end of the in-phase adder, the in-phase adder it is anti-
Phase input is connected by the tenth resistance with output end, and the inverting input of the in-phase adder is by the 11st resistance and the
Three fixed voltage ends are connected.
For example, the first, second, and third fixed voltage end is ground voltage terminal.
For example, the resistance of the 6th resistance is adjustable.
For example, the public voltage signal comes from sequential control circuit.
For example, the common electric voltage feedback signal is the public voltage signal for being arranged at test point on display panel.
For example, the data-signal is data-signal when being compensated in the absence of common electric voltage.
At least one embodiment of the disclosure also provides a kind of display device, including:Described source electrode drive circuit;And
The display panel being connected with the source electrode drive circuit.
For example, the display panel for the source electrode drive circuit is provided the common electric voltage feedback signal, the source electrode
Drive circuit at least provides the offset data signal based on the common electric voltage feedback signal to the display panel.
The disclosure provides a kind of source electrode drive circuit with common electric voltage VCOM compensation.The source electrode drive circuit can be
Common electric voltage VCOM on display panel when pulled, receives the feedback of VCOM pull portion structures, and by detecting common electric voltage
The changing value that VCOM is pulled adjusts the output signal of this source electrode drive circuit, it is ensured that pixel charging voltage on display panel
Correctly, preventing the voltage being carried on liquid crystal display panel has bias, so as to avoid charge residue.
Brief description of the drawings
In order to illustrate more clearly of the technical scheme of the embodiment of the present disclosure, the accompanying drawing of embodiment will be simply situated between below
Continue, it should be apparent that, drawings in the following description merely relate to some embodiments of the present disclosure, rather than limitation of this disclosure.
The schematic diagram one of the display device that Figure 1A is provided for one embodiment of the disclosure;
The structural representation two of the display device that Figure 1B is provided for one embodiment of the disclosure;
The structural representation of the source electrode drive circuit that Fig. 1 C are provided for one embodiment of the disclosure;
The composition schematic diagram of the source electrode drive circuit that Fig. 2 is provided for one embodiment of the disclosure;
The schematic block diagram of the compensation circuit that Fig. 3 is provided for one embodiment of the disclosure;
The composition schematic diagram of the source electrode drive circuit that Fig. 4 is provided for one embodiment of the disclosure;
Contrast between common electric voltage feedback signal that Fig. 5 is provided for one embodiment of the disclosure and offset data wire size
Schematic diagram.
Specific embodiment
To make the purpose, technical scheme and advantage of the embodiment of the present disclosure clearer, below in conjunction with the embodiment of the present disclosure
Accompanying drawing, the technical scheme to the embodiment of the present disclosure is clearly and completely described.Obviously, described embodiment is this public affairs
A part of embodiment opened, rather than whole embodiments.Based on described embodiment of the disclosure, ordinary skill
The every other embodiment that personnel are obtained on the premise of without creative work, belongs to the scope of disclosure protection.
Unless otherwise defined, the technical term or scientific terminology that the disclosure is used should be tool in disclosure art
The ordinary meaning that the personage for having general technical ability is understood." first ", " second " that is used in the disclosure and similar word are simultaneously
Any order, quantity or importance are not indicated that, and is used only to distinguish different parts." including " or similar word
The meaning of one's words points out that the element or object before the existing word cover the element or object that appear in the word presented hereinafter and its equivalent,
And it is not excluded for other elements or object.The similar word such as " connection " or " connected " is not limited to physics or mechanical
Connection, and can be including electrical connection, no matter the connection is direct or indirectly.
The embodiment of the present disclosure provides a kind of source electrode drive circuit with common electric voltage VCOM compensation.The source electrode drive circuit
Common electric voltage VCOM that can be on a display panel when pulled, receives the feedback of VCOM pull portion structures, and public by detecting
The changing value that voltage VCOM is pulled adjusts the output signal of this source electrode drive circuit (that is, by adjusting source electrode drive circuit
The offset data signal of pixel electrode is exported to offset the change of the common electric voltage VCOM on display panel), it is ensured that display surface
Pixel charging voltage is correct on plate, and preventing from being carried in the voltage on liquid crystal display panel has bias, so as to avoid charge residue.
As shown in Figure 1A, display device 100 at least include source electrode drive circuit 120, and with the phase of source electrode drive circuit 120
The display panel 110 of connection.
In certain embodiments, display device 100 can also include gate driving circuit, it is also possible to including control circuit
(as shown in Figure 1B).Order output TFT devices open standoff voltage to gate driving circuit line by line.Additionally, raster data model
Circuit can be additionally configured to realize eliminating the phenomenons such as shutdown remaining.Control circuit is configured as driving IC control functions, that is, control
The control signal of input interface can be converted into the control that source electrode drive circuit and gate driving circuit are capable of identify that by circuit processed
Signal.In embodiment of the disclosure, control circuit can be also used for the common electric voltage VCOM that output is provided to display panel.
In embodiment of the disclosure, display panel 110 can provide common electric voltage feedback letter for source electrode drive circuit 120
Number (as shown in Figure 1A), source electrode drive circuit 120 can at least be based on the common electric voltage feedback signal for receiving to display panel 110
Offset data signal is provided.The mode of the generation offset data signal of source electrode drive circuit 120 can be with further reference to Fig. 2.
As shown in Figure 1B, in certain embodiments, fine scanning line G0, G1 ... have at least been laid in display device 100
Gn, multiple columns of data lines D1, D2 ... Dn, a row public pressure wire Vcom and control circuit, the control circuit can be sequential
Control circuit.Scan line is used to gate certain one-row pixels.Source electrode drive circuit 120 can be to the data wire laid on display panel
Data-signal (or offset data signal of embodiment of the present disclosure offer) is provided, pixel electrode is charged to corresponding GTG electricity
Pressure.Scan line is arranged in a crossed manner with data wire, and the confluce of the two is provided with pixel cell 190, so as to form pixel cell battle array
Row.Pixel cell 190 includes transistor, and the grid of transistor and corresponding scan line are connected, source electrode and corresponding data wire phase
Even, drain electrode is connected with corresponding pixel electrode, and liquid can be formed between the public electrode of the pixel electrode and connection common electric voltage
Brilliant electric capacity.In embodiment of the disclosure, the source electrode of transistor is connected with data wire for receiving corresponding offset data signal.
Public pressure wire Vcom shown in Figure 1B is configured to provide common electric voltage to the pixel 190 of display panel, wherein public
The acquisition of common voltage can be realized by sequential control circuit.Specific to the embodiment of the present disclosure, display panel 110 be additionally configured to
Source electrode drive circuit 120 is input into common electric voltage feedback signal (as shown in Figure 1A), the common electric voltage feedback signal and common electric voltage
The common electric voltage VCOM that line Vcom is provided is related, and specifically, common electric voltage feedback signal is due on public pressure wire Vcom
The voltage signal that voltage is pulled and is formed.For example, the specific waveform of common electric voltage feedback signal can be from display panel 110
On test point at measure and obtain.As shown in Figure 1B, the distalmost end setting of the public pressure wire that will can be laid on display panel
It is test point, such as the test point 180 shown in Figure 1B obtains common electric voltage from the measurement of test point 180 in real time or periodically
Feedback signal.The common electric voltage feedback signal for obtaining will be measured afterwards is input into source electrode drive circuit 120.It is understood that can
With the position of the setting test point according to actual conditions.
In certain embodiments, public pressure wire is the whole substrate of connection, when a pixel cell is driven, it is necessary to same
When apply common electric voltage for monoblock substrate, i.e. it is all pictures on whole array base palte that common electric voltage VCOM needs the load for driving
Plain unit.Now obtain the certain point that the test point of common electric voltage feedback signal can be arranged on substrate.
In certain embodiments, display panel 110 is liquid crystal display panel.
As shown in Figure 1 C, in certain embodiments, the structure of source electrode drive circuit 120 can also include numerical portion and mould
Intend part.Numerical portion can include bidirectional shift register 121, input register 122, data buffer 123, level conversion
Device 124 etc..Analog portion includes D/A converting circuit 125, output state 126, charge sharing circuit (not shown in Fig. 1 C)
Deng.The function of the integrated acquisition offset data signal of the embodiment of the present disclosure can also be further integrated in output state 126.
Additionally, describing the technical scheme of the embodiment of the present disclosure for convenience, hereinafter, common electric voltage compensation is there will be no
When the output signal of source electrode drive circuit be referred to as data-signal.There will be common electric voltage compensate when source electrode drive circuit it is defeated
Go out signal referred to as offset data signal.But either offset data signal or data-signal, can be by display panel
Data wire be supplied to pixel cell, then pixel cell is charged.
In the disclosed embodiments, obtained after the common electric voltage feedback signal summation that data-signal can be obtained with detection
Offset data signal (specifically refers to Fig. 2), then provides to panel corresponding pixel by the offset data signal.Specifically,
The source electrode drive circuit 120 of embodiment of the disclosure is also integrated with following function:Common electric voltage to the input of display panel 110 is anti-
Feedback signal is analyzed, and obtains the numerical values recited of position that common electric voltage changes and change;The source drive is electric afterwards
Road 120 can generate offset data signal according to the situation of change of common electric voltage;Last source electrode drive circuit 120 can be by offset data
On signal input to the data wire of display panel 110, finally the pixel electrode on data wire is charged to and the offset data
The corresponding gray scale voltage of signal.
As shown in Figure 1 C, the effect of bidirectional shift register 121 is that displacement arteries and veins is exported under the driving of clock signal clk
Punching, gates each input register 122, the binary code data-signal (example being input into from interface circuit (for example, RSDS) successively
Such as, D00-D07 in Figure 1B etc.) it is sent in corresponding output channel.Input register 122 and data buffer 123 are all
Data buffer.The number of Data buffer is related to the number of data channel.For example, when the number of output channel is shown for Figure 1B
480 for going out, and transmission be 8bits signals when, then need 7680 Data buffers altogether.Level translator 124 is configured
It is that the level that Data buffer is exported is carried out into boosting treatment.It is for follow-up number why to need to carry out data boosting treatment
The need for modular transformation.After being processed through D/A converting circuit 125 from the data of the input of level translator 124, from gamma functional module
Selected all the way in the simulation gray scale voltage of generation, be transmitted to output state 126, the output state 126 can be carried out to signal
Amplify output.What output state 126 amplified is anaiog signal, it is necessary to serve as analogy amplifier with operational amplifier.Digital-to-analogue
Change-over circuit 125 can be a decoding circuit, be also a voltage selection function block.So-called voltage selection function is the digital-to-analogue
Simulation electricity needed for numeral " password " (correspondence greyscale level) selection that change-over circuit 125 is exported according to level shifting circuit 125
Pressure (correspondence gray scale voltage).Additionally, output state 126 also has and receiving common electric voltage feedback signal and analyzing common electric voltage
Feedback signal and be compensated the function of data-signal.For example, detection circuit 201 and compensation circuit 211 shown in lower Fig. 2 can be with
It is integrated within output state 126.Offset data signal is defeated eventually through data wire S1, S2 ... ... the S480 shown in Figure 1B
Enter the respective pixel to display panel, and can be completed to picture based on the offset data signal and common electric voltage feedback signal
The charging of element.480 data lines are shown in Figure 1B, this is only an example, in actual source circuit design, it is necessary to
The total number of the corresponding data wire of quantitative design according to pixel.
Analyze the concrete structure of source electrode drive circuit 120 one by one with reference to Fig. 2-Fig. 4.
Fig. 2 shows a kind of concrete structure of source electrode drive circuit 120 that embodiment of the disclosure is provided, the source drive
Circuit 120 can include:Detection circuit 201 and compensation circuit 211.Detection circuit 201 can be configured as detecting common electrical
Press the changing value of VCOM.Compensation circuit 211 is configured as the change based on data-signal and common electric voltage VCOM and is worth to mend
Repay data-signal, and by the pixel electrode of offset data signal output to display panel.
In certain embodiments, detection circuit 201 can be by detecting position that common electric voltage changes and public
The parameters such as the amplitude that voltage changes obtain the changing value of common electric voltage (for example, the changing value of detection common electric voltage can be recognized
To be position and the amplitude for obtaining the waveform change at 510 shown in lower Fig. 5), the changing value of the common electric voltage can specifically lead to
Cross calculating common electric voltage and the difference of common electric voltage feedback signal and obtain.
In embodiment of the disclosure, detection circuit 201 can obtain the changing value of common electric voltage using difference amplifier
(specifically refer to Fig. 3 or Fig. 4).Difference amplifier is the circuit that the difference of two input voltages can be amplified.Specifically
To in the present embodiment, two input voltages of difference amplifier can be respectively common electric voltage and common electric voltage feedback signal.It is public
Common-battery pressure reference signal is the initial public voltage signal provided to display panel by sequential control circuit, and common electric voltage is anti-
Feedback signal is the public voltage signal that the test point set from display panel is obtained.Common electric voltage feedback signal and common electric voltage
Why have between reference signal difference be due to forming electric capacity between the public pressure wire and data wire on display panel, so
When the data-signal on data wire changes, due to the presence of electric capacity, can cause that common electric voltage reference signal is pulled, should
The test point measurement that public voltage signal after being pulled can be set from display panel is obtained, as common electric voltage feedback letter
Number.
In certain embodiments, compensation circuit 211 be configured to analysis detection circuit 201 output signal obtain to
The offset data signal that the data wire of display panel is provided.The offset data signal is (for example, the waveform of the offset data signal can
To refer to Fig. 5) with detection circuit 201 be input into common electric voltage feedback signal (for example, common electric voltage feedback signal of Fig. 5) phase
Close, relation between the two may be referred to Fig. 5.Understand that the embodiment of the present disclosure can be by display panel with reference to the content of Fig. 5
On pixel electrode provide contain common electric voltage be pulled part feature offset data signal, and then guarantee be carried in public affairs
Voltage difference between the public voltage signal of common electrode and the data-signal for being carried in pixel electrode is relatively stablized, and finally
Overcome due to the distortion of common electric voltage caused by electric capacity.
In embodiment of the disclosure, compensation circuit 211 can specifically use rp-op amp and same additive process
Device (specifically may be referred to Fig. 3 and Fig. 4).
In embodiment of the disclosure, detection circuit 201 and compensation circuit 211 can simultaneously be laid on source electrode drive circuit
Substrate on.For example, detection circuit 201 and compensation circuit 211 are located at the output circuit portion on source electrode drive circuit substrate simultaneously
Point.Detection circuit 201 is connected by holding wire with display panel, and the holding wire is at least used to transmit common electric voltage feedback letter
Number, compensation circuit 211 is connected by data wire with display panel, and the data wire is used to provide offset data letter to display panel
Number, wherein, offset data signal is common electric voltage feedback signal and the data-signal that generates by analysis.
As shown in figure 3, source electrode drive circuit 120 specifically includes the difference amplifier (work(for realizing the detection circuit of Fig. 2
Can), rp-op amp 302 and in-phase adder 303.For example, operational amplifier and in-phase adder can be used for
Realize the function of compensation circuit 211.
Difference amplifier 301 is specifically configured to carry out difference to common electric voltage reference signal and common electric voltage feedback signal
Computing obtains the changing value of common electric voltage.
Accordingly, rp-op amp 302 is configured as the changing value of the common electric voltage obtained to difference amplifier 301
Carry out it is anti-phase and amplify be amplified after common electric voltage changing value, in-phase adder 303 be configured as based on data-signal with
And the common electric voltage change after amplifying is worth to and exports offset data signal.
In certain embodiments, the multiplication factor of rp-op amp 302 is adjustable.
In certain embodiments, in-phase adder 303 is used to detect that the variable quantity of the common electric voltage for obtaining is superimposed to number
It is believed that number on, and exported to the data wire of display panel.
It is illustrated in figure 4 the concrete structure schematic diagram of source electrode drive circuit 120.
The in-phase input end of difference amplifier 301 is connected so as to receive input by first resistor R1 with public pressure wire
Common electric voltage reference signal, the inverting input of difference amplifier 301 is connected by second resistance R2 with feedback public pressure wire
So as to receive the common electric voltage feedback signal of input, the output end of difference amplifier 301 is anti-phase with rp-op amp 302
Input is connected.Additionally, the in-phase input end of difference amplifier 301 can also be by 3rd resistor R3 and the first fixed voltage end
It is connected.It is connected by the 4th resistance R4 between the inverting input of difference amplifier 301 and output end.
The output end of difference amplifier 301 passes through the inverting input phase of the 5th resistance R5 and rp-op amp 302
Even, the inverting input of rp-op amp 302 passes through the output end phase of the 6th resistance R6 and rp-op amp 302
Even, the normal phase input end of rp-op amp 302 is connected by the 7th resistance R7 with the second fixed voltage end.
The in-phase input end of in-phase adder 303 is also connected to receive input by the 8th resistance R8 with data signal line
Data-signal, the output end of rp-op amp 302 passes through the in-phase input end phase of the 9th resistance R9 and in-phase adder 303
Even, the inverting input of in-phase adder 303 is connected by the tenth resistance R10 with the output end of the in-phase adder 303, same to phase
The inverting input of adder 303 is also connected by the 11st resistance R11 with the 3rd fixed voltage end.
For example, data-signal is Sdata, offset data signal is Scompensation, the output letter of rp-op amp 302
Number be Sout-inv-amp, then offset data signal is ScompensationFor:
In certain embodiments, above-mentioned first fixed voltage end, the second fixed voltage end and the 3rd fixed voltage end can be with
It is simultaneously ground voltage terminal.
In certain embodiments, the resistance of above-mentioned 6th resistance R6 is adjustable.Can be with by the resistance for adjusting the 6th resistance R6
Change the multiplication factor of rp-op amp 302.
In certain embodiments, common electric voltage reference signal comes from sequential control circuit.
In certain embodiments, common electric voltage feedback signal is to be arranged on display panel the common electric voltage letter at test point
Number.For example, common electric voltage at test point can continuously be measured by pressure measurement circuit, common electric voltage feedback signal is obtained.
In certain embodiments, data-signal is source electrode drive circuit when being compensated in the absence of common electric voltage to display panel
Data wire output data-signal.Specific in the present embodiment, the data-signal as in-phase adder 303 homophase input
The additive signal all the way at end.
The embodiment of the present disclosure can use difference amplifier 301, rp-op amp 302 and in-phase adder 303
The mode of cascade realizes the technical purpose of the disclosure.But those skilled in the art can not depart from the technology structure of the disclosure
Think, design should also be covered in the range of embodiment of the disclosure using the circuit different from the application.For example, the difference in Fig. 3
The input signal for dividing amplifier 301 is common electric voltage reference signal and common electric voltage feedback signal.The difference amplifier 301 can
Difference is carried out with by common electric voltage reference signal and common electric voltage feedback signal, and extracts the portion that public voltage signal is pulled
Point.Then the voltage of part as signal input rp-op amp 302 will be pulled.Rp-op amp 302 afterwards
Part will be pulled to carry out anti-phase and amplifies, then by controlling the multiplication factor of inverting amplifier (for example, can be by changing the
The resistance of six resistance R6) final control source electrode drive circuit output offset data signal.By the output electricity of source electrode drive circuit
Road is changed to an in-phase adder 303, wherein, the input signal of one end of in-phase adder 303 is inverted operation amplifier
Output signal after the anti-phase amplification of device, the input signal of the other end is data-signal, by the computing of in-phase adder 303, is made
The part that is pulled of public voltage signal is embodied in the output of source electrode drive circuit, reach the data to source drive output
The compensating action of signal.Relative by the difference between offset data signal and the public voltage signal being pulled is stablized, after
And overcome the problems produced because common electric voltage is pulled.
In certain embodiments, difference amplifier 301 extracts circuit as the pulling of common electric voltage Vcom, can will be public
The pull portion structure of voltage Vcom is extracted and amplified.In specific design, difference amplifier 301 can be placed on source drive
On printed circuit board S-PCB.Rp-op amp 302 can also be arranged on source drive printed circuit board S-PCB simultaneously.
Additionally, the partial circuit of in-phase adder 303 can be placed on source driving chip S-Driver.
In certain embodiments, in-phase adder 303 can be by the pull portion structure of common electric voltage and normal source drive electricity
The data-signal S-output of road (source electrode drive circuit when being compensated without common electric voltage feedback signal) output is overlapped,
Used as the offset data signal after compensation, source electrode drive circuit is again by the data of offset data signal input display panel afterwards
On line.For example, the ripple of common electric voltage feedback signal and the offset data signal voltage obtained based on the common electric voltage feedback signal
Shape corresponding relation may be referred to Fig. 5.
As shown in figure 5, the waveform of the common electric voltage feedback signal obtained this figure provides measurement test point, and source electrode drives
The waveform of the offset data signal that dynamic circuit is ultimately generated.As can be seen from Figure 5 the waveform reaction of common electric voltage feedback signal
The situation of change of common electric voltage VCOM, the situation of change is located at in Fig. 5 510, and the embodiment of the present disclosure is in order to detect 510
The voltage change situation at place specifically can be using the difference amplifier 301 shown in Fig. 4.For example, difference amplifier 301 can be respectively
Using common electric voltage reference signal and common electric voltage feedback signal as in-phase input signals for 1 and rp input signal, then to both
Differential signal simultaneously amplifies the changing value that can obtain at 510.
Additionally, the part that is pulled of offset data signal is pulled with common electric voltage feedback signal as can be seen from Figure 5
Part is corresponding (identical with position at 520 at i.e. the 510 of Fig. 5, amplitude is related), and both differences are remained relatively unchanged over, this
Sample just may further ensure that offsets due to the problems that common electric voltage change brings on a display panel.Additionally, in Fig. 5
Amplitude of variation at 520 can be adjusted, specifically can be by adjusting the 6th resistance R6 of the rp-op amp 302 of Fig. 4
Resistance adjusts the amplitude of variation at 520.
Understood with reference to the waveform of Fig. 5, the embodiment of the present disclosure can be realized offset data signal and common electric voltage feedback letter
Difference between number keeps relative stability, so ensure that be carried in the source electrode of the transistor that pixel is included and drain electrode the two poles of the earth on
The stability of voltage.
In sum, embodiment of the disclosure is by detecting the change of the common electric voltage on display panel, and based on the public affairs
The output signal of the change adjustment source electrode drive circuit of common voltage, so as to ensure the accuracy of charging voltage in pixel, prevents from adding
The voltage being loaded on liquid crystal has bias, it is to avoid cause charge residue.The disclosure provide it is a kind of with common electric voltage VCOM compensation
The design of source electrode drive circuit, when common electric voltage VCOM when pulled, by common electric voltage VCOM pull portion structures feed back to source electrode drive
The output par, c of dynamic circuit S-Driver, then adjust source drive S-Driver's by detecting the pulling of common electric voltage VCOM
Output signal is correct come charging voltage in the pixel for ensureing display panel, and preventing from being carried in the voltage on liquid crystal has bias, causes
Charge residue.
Embodiment of the present disclosure accompanying drawing relates only to the structure being related to the embodiment of the present disclosure, and other structures refer to lead to
Standing meter.In the case where not conflicting, the different characteristic in embodiment of the disclosure and embodiment can be mutually combined.
The above, the protection domain of the only specific embodiment of the disclosure, but the disclosure is not limited thereto, any
Those familiar with the art can readily occur in change or replacement in the technical scope that the disclosure is disclosed, and should all contain
Cover within the protection domain of the disclosure.Therefore, the protection domain of the disclosure should be defined by scope of the claims.
Claims (11)
1. a kind of source electrode drive circuit, including:
Detection circuit, is configured as detecting the changing value of common electric voltage;And
Compensation circuit, is configured as the changing value based on data-signal and the common electric voltage and is compensated data-signal, and
By the pixel electrode of the offset data signal output to display panel.
2. source electrode drive circuit as claimed in claim 1, it is characterised in that the detection circuit includes:Difference amplifier, quilt
It is configured to carry out difference operation to public voltage signal and common electric voltage feedback signal obtain the changing value of the common electric voltage.
3. source electrode drive circuit as claimed in claim 2, it is characterised in that the compensation circuit includes:Anti-phase operation amplifier
Device and in-phase adder;
The rp-op amp is configured as carrying out anti-phase to the changing value of the common electric voltage and amplifying, after being amplified
Changing value, the in-phase adder is configured as being worth to and defeated based on the change after the data-signal and the amplification
Go out the offset data signal.
4. source electrode drive circuit as claimed in claim 3, it is characterised in that
The in-phase input end of the difference amplifier is connected by first resistor with public pressure wire, and inverting input is by second
Resistance is connected with feedback public pressure wire, and output end is connected with the inverting input of the rp-op amp;Wherein, it is described
In-phase input end is connected by 3rd resistor with the first fixed voltage end;Pass through between the inverting input and the output end
4th resistance is connected;
The output end of the difference amplifier is connected by the 5th resistance with the inverting input of the rp-op amp, institute
The inverting input for stating rp-op amp is connected by the 6th resistance with the output end of the rp-op amp, described
The normal phase input end of rp-op amp is connected by the 7th resistance with the second fixed voltage end;
The in-phase input end of the in-phase adder is also connected by the 8th resistance with voltage data signal line, the anti-phase computing
The output end of amplifier is connected by the 9th resistance with the in-phase input end of the in-phase adder, the in-phase adder it is anti-
Phase input is connected by the tenth resistance with output end, and the inverting input of the in-phase adder is by the 11st resistance and the
Three fixed voltage ends are connected.
5. source electrode drive circuit as claimed in claim 4, it is characterised in that the first, second, and third fixed voltage end
It is ground voltage terminal.
6. source electrode drive circuit as claimed in claim 4, it is characterised in that the resistance of the 6th resistance is adjustable.
7. source electrode drive circuit as claimed in claim 2, it is characterised in that the public voltage signal comes from SECO
Circuit.
8. source electrode drive circuit as claimed in claim 3, it is characterised in that the common electric voltage feedback signal is aobvious to be arranged at
Show the public voltage signal of test point on panel.
9. source electrode drive circuit as claimed in claim 1, it is characterised in that the data-signal is to be mended in the absence of common electric voltage
Data-signal when repaying.
10. a kind of display device, including:
Source electrode drive circuit as described in claim any one of 1-9;And
The display panel being connected with the source electrode drive circuit.
11. display devices as claimed in claim 10, it is characterised in that the display panel is carried for the source electrode drive circuit
For the common electric voltage feedback signal, the source electrode drive circuit is at least based on the common electric voltage feedback signal to the display
Panel provides the offset data signal.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621266189.XU CN206194351U (en) | 2016-11-24 | 2016-11-24 | Source driver circuit and display device |
Applications Claiming Priority (1)
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106652934A (en) * | 2016-11-24 | 2017-05-10 | 合肥鑫晟光电科技有限公司 | Source driver circuit and display device |
CN109493781A (en) * | 2018-12-04 | 2019-03-19 | 惠科股份有限公司 | Driving device and display equipment |
CN111326090A (en) * | 2019-06-14 | 2020-06-23 | 友达光电股份有限公司 | Detection circuit and display panel |
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2016
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106652934A (en) * | 2016-11-24 | 2017-05-10 | 合肥鑫晟光电科技有限公司 | Source driver circuit and display device |
CN106652934B (en) * | 2016-11-24 | 2024-04-05 | 合肥鑫晟光电科技有限公司 | Source electrode driving circuit and display device |
CN109493781A (en) * | 2018-12-04 | 2019-03-19 | 惠科股份有限公司 | Driving device and display equipment |
CN111326090A (en) * | 2019-06-14 | 2020-06-23 | 友达光电股份有限公司 | Detection circuit and display panel |
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