WO2018199470A1

WO2018199470A1 - Display driving device and display device including same

Info

Publication number: WO2018199470A1
Application number: PCT/KR2018/003096
Authority: WO
Inventors: 김원; 황지현; 양수훈; 윤정배
Original assignee: 주식회사 실리콘웍스
Priority date: 2017-04-27
Filing date: 2018-03-16
Publication date: 2018-11-01
Also published as: KR20180120349A; CN110574096A; KR102335396B1; CN110574096B

Abstract

Disclosed are a display driving device and a display device including the same. The display driving device comprises: transfer circuits for transferring a reference signal and a pixel signal of a display panel, which are input through sensing lines; an analog-to-digital conversion circuit for converting the pixel signal and the reference signal into first digital data and second digital data, respectively; and a selection circuit for masking the second digital data corresponding to the reference signal and selecting the first digital data corresponding to the pixel signal.

Description

Display driving device and display device including same

The present invention relates to a display device, and more particularly, to a display driving device for transmitting digital data corresponding to a pixel signal sensed from a display panel and a display device including the same.

In general, the display device includes a display panel, a display driving device, a timing controller, and the like.

The display driving apparatus converts the digital image data provided from the timing controller into a source driving signal and provides the same to the display panel. The display driving apparatus may be configured as one chip, and a plurality of display driving apparatuses may be configured in consideration of the size and resolution of the display panel.

In addition, the display driving apparatus senses a signal of each pixel of the display panel to correct the characteristic deviation between the pixels of the display panel, converts the signal into digital data, and provides the same to the timing controller.

On the other hand, the display driving apparatus according to the prior art receives the pixel signal and the reference signal through adjacent sensing lines to remove noise induced in the input during the signal sensing process of each pixel, and provides digital data with noise canceled to the timing controller. do.

However, in the conventional technology as described above, since unnecessary data corresponding to the reference signal used to remove noise is transmitted to the timing controller, there is a problem in that the transmission time increases. In addition, since a separate calculation process for processing valid data and unnecessary data is added in the timing controller, a calculation process becomes complicated.

SUMMARY The present invention has been made in an effort to provide a display driving apparatus and a display apparatus including the same, which may reduce a transmission time by selecting and transmitting only valid data corresponding to a pixel signal sensed from a display panel.

In accordance with another aspect of the present invention, a display driving apparatus includes: transfer circuits configured to transfer a pixel signal and a reference signal of a display panel input through sensing lines; An analog-digital conversion circuit for converting the pixel signal and the reference signal into first and second digital data, respectively; And a sorting circuit for masking the second digital data corresponding to the reference signal to select the first digital data corresponding to the pixel signal.

The display device according to an exemplary embodiment of the present invention converts the pixel signal and the reference signal of the display panel input through the sensing lines into first and second digital data, respectively, and converts the first digital data corresponding to the pixel signal. A display driving device which sorts and transmits the sorted first digital data as valid data; And a timing controller configured to generate compensation data for correcting pixel characteristics of the display panel using the valid data received from the source driver.

The display driving apparatus according to an exemplary embodiment of the present invention transmits a pixel signal input through a first sensing line and a reference signal input through a second sensing line in a first period, and applies the first sensing line in a second period. A transfer circuit transferring a reference signal input through the pixel signal and a pixel signal input through the second sensing line; An analog to digital conversion circuit for converting the pixel signal and the reference signal into first and second digital signals, respectively, in the first and second periods; And store the first digital data corresponding to the pixel signal input through the first sensing line in the first period, and correspond to the pixel signal input through the second sensing line in the second period. And a selection circuit which stores the first digital data and transmits the first digital data of the first and second periods as digital data.

According to the exemplary embodiment of the present invention, since only valid data corresponding to the pixel signal sensed by the display panel is selected and transmitted to the timing controller, the transmission time can be reduced.

In addition, since the timing controller receives only valid data, the operation for correcting the characteristics of the pixels can be simplified.

1 is a block diagram of a display driving apparatus and a display apparatus including the same according to an exemplary embodiment of the present invention.

2 is a diagram for describing a data transmission time of a display driving apparatus according to an exemplary embodiment of the present invention.

3 is a view for explaining a data transmission time of the display driving apparatus according to the prior art.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. The terms used in the present specification and claims are not to be construed as being limited to ordinary or dictionary meanings, but should be interpreted as meanings and concepts corresponding to the technical matters of the present invention.

The embodiments described in the specification and the configuration shown in the drawings are preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention, various equivalents and modifications that can replace them at the time of the present application are There may be.

Referring to FIG. 1, the display apparatus of the present invention includes a display panel, a display driving apparatus 100, and a timing controller 200.

The display panel may include a matrix of pixel arrays, and the pixel array may include R (Red), G (Green) B (Blue) pixels, or may further include a W (White) pixel for improving luminance. Each pixel includes a light emitting element and a pixel circuit for supplying a current corresponding to a source driving signal provided from the display driving apparatus 200 to the light emitting element.

The pixel circuit includes a driving transistor that provides a current corresponding to the source driving signal to the light emitting element. Such driving transistors may have uneven characteristics such as threshold voltage and mobility for each pixel position or threshold voltage of the light emitting device, or luminance unevenness may occur due to deterioration deviation of the driving transistor and the light emitting device over the driving time. .

To solve this problem, the display driving apparatus 100 senses the pixel signals IN1 to INn from the display panel to correct the characteristics of the pixels of the display panel by an external compensation method, and converts the pixel signals IN1 to IND. Transfer to timing controller 200. Here, the external compensation method generates compensation data for correcting pixel characteristics by using digital data DOUT corresponding to the pixel signals, and provides the compensation data to the display driving apparatus 100 to provide pixel characteristics of the display panel. Can be defined as compensating.

The display driver 100 converts digital image data into an analog source driving signal and provides the same to the display panel, and senses the pixel signals IN1 to INn from the display panel and converts the digital image data into digital data DOUT. It includes a sensing unit for transmitting to the timing controller 200. In this embodiment, a detailed description of the data driver is omitted.

The sensing unit of the display driving apparatus 100 includes the transfer circuits 10, the analog-to-digital conversion circuit 20, and the selection circuit 30.

The transfer circuits 10 input pixel signals IN1 to INn through a pair of adjacent sensing lines SL1, SL2; SL3, SL4; to SLn-1 and SLn to cancel noise induced at the input. ) And the reference signal REF are transmitted to the analog-to-digital conversion circuit 20. Each of the transfer circuits 10 may be configured as a differential circuit that cancels noise by differentially amplifying the pixel signal and the reference signal.

For example, the transfer circuits 10 receive the pixel signals IN1, IN3 to INn-1 through odd-numbered sensing lines SL1, SL3, and SLn-1 in a first predetermined period, and even-numbered sensing. The reference signal REF may be received through the lines SL2, SL4, and SLn. In addition, the transfer circuits 10 receive the reference signal REF through the odd-numbered sensing lines SL1, SL3, and SLn-1 in a second preset period, and even-numbered sensing lines SL2, SL4,. SLn) may be set to receive the pixel signals IN2 and IN4 to INn. The transfer circuits 10 differentially differentiate the pixel signals IN1 to INn and the reference signal REF through a pair of adjacent sensing lines SL1, SL2; SL3, SL4; Receives and forwards to cancel out noise that may be induced in the input.

The analog-to-digital conversion circuit 20 transfers the pixel signals IN1 to INn and the reference signal REF from which the noise is removed through the transfer circuit 10 to the first digital data D1 to Dn and the second digital data DREF. ), And provide the first and second digital data D1 to Dn and DREF to the selection circuit 30, respectively.

The analog-to-digital conversion circuit 20 is a sampling circuit for sampling and holding the pixel signals IN1 to INn and the reference signal REF, and the first digital signal to the pixel signals IN1 to INn and the reference signal REF. And an analog-to-digital converter for converting the data D1 to Dn and the second digital data DREF. Here, the first digital data D1 to Dn corresponding to the pixel signals IN1 to INn may have characteristics of the driving transistor such as threshold voltage and mobility of the driving transistor of the pixel circuit, and degradation characteristics such as threshold voltage of the light emitting device. Can be used to compute. Since the pixel current flowing through the light emitting device depends on the threshold voltage, the mobility of the driving transistor, and the threshold voltage of the light emitting device, the pixel current may be used to calculate the pixel characteristics as described above.

The selection circuit 30 masks the second digital data DREF corresponding to the reference signal REF to select the first digital data D1 to Dn corresponding to the pixel signals IN1 to INn. For example, the selection circuit 30 may mask the second digital data DREF corresponding to the reference signal REF input through the even-numbered sensing lines SL2, SL4, and SLn in the first predetermined period. Stores the first digital data D1, D3, and Dn-1 corresponding to the pixel signals IN1, IN3, and INn-1 input through the odd-numbered sensing lines SL1, SL3, and SLn-1. do. In addition, the selection circuit 30 masks the second digital data DREF corresponding to the reference signal REF input through the odd-numbered sensing lines SL1, SL3, and SLn-1 in a preset second period. The first digital data D2, D4, and Dn corresponding to the pixel signals IN2, IN4, and INn input through the even-numbered sensing lines SL2, SL4, and SLn are stored.

The selection circuit 30 may include first digital data corresponding to the pixel signals IN1, IN3, and INn-1 input through the odd-numbered sensing lines SL1, SL3, and SLn-1 in the first period. Latch units 32 for storing D1, D3, and Dn-1, and pixel signals IN2, IN4, and INn inputted through even-numbered sensing lines SL2, SL4, and SLn in a second period. ) May include latch units 32 that store first digital data D2, D4, and Dn corresponding to.

In addition, the selection circuit 30 may transmit only the valid first digital data D1 to Dn corresponding to the pixel signals IN1 to INn stored in the latch units 32 to the timing controller 200 as digital data DOUT. send. The display driving apparatus 100 may be set to transmit the first digital data D1 to Dn as the digital data DOUT based on the timing controller and a preset protocol. For example, the selection circuit 30 may be configured to sequentially transmit the first digital data D1 to Dn corresponding to the pixel signals IN1 to INn of the sensing lines SL1 to SLn as the digital data DOUT. Can be.

Since the display driving apparatus 100 transmits only valid data corresponding to the pixel signals IN1 to INn in the digital data DOUT, the display driving apparatus 100 may reduce the transmission time.

The timing controller 200 generates compensation data for correcting the characteristics of the pixels of the display panel using the digital data DOUT corresponding to the pixel signals IN1 to INn and provides the compensation data to the display driving apparatus 100. By correcting the characteristics of the pixels of the display panel. The pixel current flowing through the light emitting device of the pixel may vary according to the threshold voltage, mobility of the driving transistor, and the threshold voltage of the light emitting device. The timing controller 200 may calculate characteristics of the driving transistor, such as the threshold voltage and mobility of the driving transistor, and deterioration characteristics, such as the threshold voltage of the light emitting device, by using the digital data DOUT corresponding to the sensed pixel current. . Since the timing controller 200 receives only valid data corresponding to the pixel signals IN1 to INn, the timing controller 200 may simplify an operation (or an algorithm) for generating compensation data for correcting the characteristics of the pixels of the display panel. .

2 and 3 are views for comparing the data transmission time of the display driving apparatus according to the embodiment of the present invention and the prior art. 2 is a diagram showing digital data according to an embodiment of the present invention, Figure 3 is a diagram showing digital data according to the prior art.

1 and 2, the display driving apparatus 100 according to an exemplary embodiment of the present invention masks the second digital data DREF corresponding to the reference signal REF to the pixel signals IN1 to INn. The corresponding first digital data D1 to Dn are selected, and only the selected valid first digital data D1 to Dn are included in the digital data DOUT and transmitted to the timing controller 200. Therefore, embodiments of the present invention can reduce the transmission time compared to the prior art.

3, the display driving apparatus according to the related art corresponds to the first digital data D1 to Dn corresponding to the pixel signals IN1 to INn and the reference signal REF used to remove noise. The second digital data DREF is included in the digital data DOUT and transmitted to the timing controller 200. Therefore, the prior art has the disadvantage that the transmission time is increased.

For example, as shown in FIG. 2, a transmission time for selecting and transmitting only the first digital data D1 to Dn corresponding to the pixel signals IN1 to INn is included in the digital data DOUT. In the case of 1T, the related art has the second digital data DREF corresponding to the reference signal REF and the first digital data D1 to Dn corresponding to the pixel signals IN1 to INn as shown in FIG. 3. Are all included in the digital data (DOUT) and transmitted, and the transmission time is doubled to 2T.

As such, the present invention masks unnecessary data corresponding to a reference signal used to cancel noise introduced into an input, selects only valid data corresponding to pixel signals, and transmits only the selected valid data to a timing controller. You can save time. In addition, since the present invention transmits only valid data corresponding to the pixel signals, the operation of generating compensation data of the timing controller can be simplified.

Claims

Transfer circuits transferring pixel signals and reference signals of the display panel input through the sensing lines;

An analog-digital conversion circuit for converting the pixel signal and the reference signal into first and second digital data, respectively; And

And a sorting circuit for masking the second digital data corresponding to the reference signal and selecting the first digital data corresponding to the pixel signal.
The method of claim 1,

And the selection circuit transmits the first digital data as valid data to a timing controller.
The method of claim 1, wherein the sorting circuit,

Masking the second digital data corresponding to the reference signal input through the even-numbered sensing lines in a first preset period, and the mask corresponding to the reference signal input through the odd-numbered sensing lines in a second preset period. Display driving device for masking the second digital data.
The method of claim 3, wherein

The first period is set to a period in which the pixel signal is input through the odd-numbered sensing lines and the reference signal is input through the even-numbered sensing lines.

And the second period is set as a period during which the reference signal is input through the odd-numbered sensing lines and the pixel signal is input through the even-numbered sensing lines.
The method of claim 1, wherein the sorting circuit,

And latch units for latching the selected first digital data as valid data.
Converting the pixel signal and the reference signal of the display panel input through the sensing lines into first and second digital data, respectively, selecting the first digital data corresponding to the pixel signal, and selecting the selected first digital data. A display driving device for transmitting as valid data; And

And a timing controller configured to generate compensation data for correcting pixel characteristics of the display panel using the valid data received from the source driver.
The display device of claim 6, wherein the display driving device comprises:

And a sorting circuit for masking the second digital data corresponding to the reference signal to select the first digital data corresponding to the pixel signal.
The method of claim 7, wherein the sorting circuit,

Masking the second digital data corresponding to the reference signal input through the even-numbered sensing lines in a first preset period, and the mask corresponding to the reference signal input through the odd-numbered sensing lines in a second preset period. Display device for masking the second digital data.
The method of claim 8,

The first period is set to a period in which the pixel signal is input through the odd-numbered sensing lines and the reference signal is input through the even-numbered sensing lines.

And the second period is set as a period during which the reference signal is input through the odd-numbered sensing lines and the pixel signal is input through the even-numbered sensing lines.
The display device of claim 7, wherein the display driving device comprises:

Transfer circuits transferring the pixel signal and the reference signal input through the sensing lines; And

An analog-digital conversion circuit for converting the pixel signal and the reference signal into first and second digital data, respectively;

Display device further comprising.
The pixel signal input through the first sensing line and the reference signal input through the second sensing line are transmitted in the first period, and the reference signal and the second sensing line input through the first sensing line in the second period. A transfer circuit transferring an input pixel signal;

An analog to digital conversion circuit for converting the pixel signal and the reference signal into first and second digital signals, respectively, in the first and second periods; And

Storing the first digital data corresponding to the pixel signal input through the first sensing line in the first period, and corresponding to the pixel signal input through the second sensing line in the second period. A selection circuit which stores first digital data and transmits the first digital data of the first and second periods as digital data;

Display driving device comprising a.
The method of claim 11, wherein the selection circuit,

Masking the second digital data corresponding to the reference signal input through the second sensing line in the first period, and corresponding to the reference signal input through the first sensing line in the second period. Display driving device for masking the second digital data.
The method of claim 12, wherein the selection circuit,

A first latch unit configured to store the first digital data corresponding to the pixel signal input through the first sensing line in the first period; And

A second latch unit configured to store the first digital data corresponding to the pixel signal input through the second sensing line in the second period;

Display driving device comprising a.