KR20140140935A - Display device with integrated touch screen and method for driving the same - Google Patents

Abstract

A display device with an integrated touchscreen includes: a panel including an m (m is a natural number more than or equal to 2) number of display sections and an m number of touch sections in each frame, and configured to alternately perform a time division operation in the total 2m number of sections from a first display section to an m^th touch section; a touch IC configured to apply a touch scan signal to a plurality of electrodes included in the panel during first to m^th touch sections to drive the panel; and a display driver IC configured to transmit, to the touch IC, information on any display section of a previous frame and information on any display section of a current frame in first to (m-1)^th touch sections of the current frame, and to transmit, to the touch IC, information on any display section of the current frame in an m^th touch section of the current frame.

Description

TECHNICAL FIELD [0001] The present invention relates to a touch-screen integrated display device and a driving method thereof. BACKGROUND OF THE INVENTION [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly, to a touch screen integrated display device and a driving method thereof.

The touch screen may be a liquid crystal display (LCD), a field emission display (FED), a plasma display panel (PDP), an electroluminescence device (EL) , And is a kind of an input device that presses (presses or touches) a touch sensor in a touch screen while the user views the image display device and inputs predetermined information.

In particular, in recent years, in order to make a portable terminal such as a smart phone, a tablet PC or the like slimmer, there is an increasing demand for a touch screen integrated display device in which elements constituting a touch screen are built in a display device.

Hereinafter, driving of a general touch screen integrated type display device will be described with reference to FIG.

1 is a diagram illustrating a DTX compensation method of a general touch screen integrated display device.

In a typical touch screen integrated type display device, a driving method is used in which the display driving time is reduced during one frame (60 Hz) and the touch driving is performed for the remaining time. In other words, as shown in FIG. 1, when one frame is 16.7 ms, the display driving time is limited to 10 ms by dividing one frame temporally to drive the display and the touch, and the remaining 6.7 ms Is used as the touch driving time.

A frequency at which new data is transmitted to all the pixels in the panel is referred to as a display frame rate and a frequency at which the touch data obtained in the touch screen is transmitted to the system is called a touch report rate. In the method of time-division-driving a frame, if the display frame rate is 60 Hz, the touch report rate is also 60 Hz. In other words, the touch data is transmitted to the system once for each synchronization signal defining one frame period. However, in a general touch screen integrated display device, when the display pattern is changed, the touch row data (Raw-Data) As described above, a display-to-touch crosstalk (DTX) phenomenon may occur, in which a display pattern change is mistakenly recognized as a touch input.

Particularly, when changing from a black pattern (0 Gray) to a white pattern (255 Gray), there is a large difference in capacitance between the black pattern and the white pattern, so that the DTX phenomenon is likely to occur.

As a compensation method for eliminating the DTX phenomenon, there is a method of compensating the touch row data using the compensation value stored in the lookup table (LUT) based on the data transmitted from the display driver IC to the touch IC.

1, display information for the display period of the n-th frame during the touch period of the n-th frame is transmitted from the display driver IC to the touch IC so that the lookup table (LUT Th display frame during the display period of the (n + 1) -th frame during the touch period of the (n + 1) -th frame, to compensate the touch row data using the compensation value stored in the display driver IC To the touch IC so as to compensate touch low data (Raw Data) using the compensation value stored in the lookup table (LUT) during touch operation of the (n + 1) th frame.

However, the DTX compensation method described above has a problem that a touch report rate higher than the display frame rate can not be obtained. In order to increase the performance of a general touch screen, a touch report rate higher than 60 Hz is required. However, with the above-described compensation method, a touch report rate higher than the display frame rate can not be ensured. .

SUMMARY OF THE INVENTION It is an object of the present invention to provide a touch screen integrated display device capable of increasing a touch report rate to a display frame rate or more.

In the touch screen integrated display device according to an embodiment of the present invention, m (m is a natural number equal to or greater than 2) display periods and m touch periods are included in every frame, and from the first display period to the m- A panel that operates in a time-sharing manner in alternating 2m sections; A touch IC for applying a touch scan signal to a plurality of electrodes in the panel during the first through m-th touch periods to touch-drive the panel; And information of an arbitrary display period of the previous frame and information of an arbitrary display period of the current frame are transmitted to the touch IC in the first to (m-1) -th touch intervals of the current frame, and a display driver IC for transmitting the information on the display period of the current frame to the touch IC in the m-th touch period, and the touch IC is connected to the first to (m-1) The touch sensitivity is compensated by using information of an arbitrary display period of the previous frame and information of an arbitrary display period of the current frame, and information of a display period of the current frame is used in the m-th touch period of the current frame Thereby compensating for the touch sensitivity.

In the method of driving a touch screen integrated display device according to an embodiment of the present invention, m (m is a natural number equal to or greater than 2) display period and m touch periods are included in every frame, A touch IC for applying a touch scan signal to a plurality of electrodes in the panel during the first to m-th touch periods to touch-drive the panel, And a display driver IC for transmitting information of an arbitrary display period to the touch IC during the first through m-th touch periods, wherein the method comprises the steps of: And a m-th touch interval from the first display period to the m-th touch period, A touch IC for touch-driving the panel by applying a touch scan signal to a plurality of electrodes in the panel during first through m-th touch periods, and a display driver IC for transmitting information of an arbitrary display period to the touch IC during an m-th touch period,

The display driver IC transmitting information of an arbitrary display period of a previous frame and information of an arbitrary display period of the current frame to the touch IC in the (m-1) -th touch interval of the current frame; Wherein the touch IC applies a touch scan signal to the plurality of electrodes in an (m-1) -th touch period of a current frame, and outputs information of an arbitrary display period of the previous frame and information of an arbitrary display period of the current frame Compensating the touch sensitivity using the touch sensitivity; The display driver IC transmitting information of a display interval of the current frame to the touch IC in the m-th touch interval of the current frame; And applying the touch scan signal to the plurality of electrodes in the m-th touch period of the current frame by the touch IC and compensating for the touch sensitivity using the information of the display period of the current frame .

According to various embodiments of the present invention, the touch report rate of the touch screen may be higher than the display frame rate.

In addition, according to various embodiments of the present invention, a high touch report rate can be maintained and touch input or dragging can be accurately recognized.

In addition, according to various embodiments of the present invention, DTX compensation scheme suitable for driving the touch screen is provided, and the overall performance of the touch can be enhanced by one step.

1 is a diagram illustrating a driving method and a DTX compensation method of a general touch-screen integrated display device;
2 is a diagram illustrating a configuration of a touch screen integrated display device according to the present invention;
3 is a diagram illustrating a DTX compensation method of a touch screen integrated display device according to the present invention;
4 illustrates a method of driving a touch screen integrated display device according to an embodiment of the present invention;
5 is a diagram illustrating a DTX compensation method of the integrated touch screen type display device of FIG. 4;
6 is a diagram illustrating a method of driving a touch screen integrated type display apparatus according to another embodiment of the present invention; And
7 is a view showing a DTX compensation method of the touch screen integrated display device according to FIG.

Various embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Referring to FIG. 2, a touch screen integrated display device according to the present invention will be described, and a DTX compensation method of a touch screen integrated display device according to the present invention will be described with reference to FIG.

2 is a block diagram of a touch screen integrated display device according to the present invention.

The touch screen integrated type display device according to the present invention includes a panel 100, a touch IC 200, and a display driver IC 300, as shown in FIG.

The panel 100 has a built-in touch screen (not shown), and the touch screen senses the touch position of the user. Particularly, the touch screen applied to the present invention includes an insulator type Of the touch screen.

In this case, the lower substrate of the panel 100 may include a plurality of gate lines, a plurality of data lines crossing the gate lines, A plurality of TFTs (Thin Film Transistors) formed at intersections of the data lines and the gate lines, and pixels formed by the intersection structure of the data lines and the gate lines are arranged in a matrix form.

The panel 100 includes a plurality of electrodes 110. When a common voltage is applied for driving the display of the panel 100, the plurality of electrodes 110 are electrically connected to the pixel electrodes, And operates as a touch electrode that senses a touch position when a touch scan signal is applied for touch sensing.

In other words, the plurality of electrodes operate as a common electrode in a display section in which the panel drives the display, and operate as a touch electrode in a touch section in which the panel performs touch driving.

The plurality of electrodes are connected to the touch IC 200 and the display driver IC 300 through a plurality of wires (not shown). For example, the plurality of electrodes 110 are connected to the touch IC 200 And a common voltage applied from the display driver IC 300. The display driver IC 300 receives the touch scan signal and the common voltage applied from the display driver IC 300. [

Next, the touch IC 200 applies a touch scan signal to a plurality of electrodes during a touch interval to touch-drive the panel.

The touch IC 200 according to the present invention may include a touch scan signal generating unit for generating a touch scan signal to be supplied to a plurality of electrodes of the panel 100 for touch sensing. Here, the touch scan signal may be a touch driving voltage, and the touch driving voltage may have a value greater than a common voltage applied to the plurality of electrodes of the panel 100 for driving the display. In this case, the touch driving voltage has the voltage corresponding to the common voltage as the low level voltage, and the higher voltage can have the high level voltage.

The touch IC 200 includes a touch sensing unit that receives a touch sensing signal corresponding to a touch scan signal applied to the plurality of electrodes 110 to calculate touch coordinates and performs a function of sensing a touch by a user . Here, the calculated touch coordinates are transmitted to the system unit (not shown) so that the touch coordinates of the user can be recognized on the panel 100.

3, the touch IC performs a touch sensing function and compensates for touch sensitivity using display information transmitted from the memory unit 340 in the display driver IC.

2, the display driver IC 300 includes a data driver 310, a gate driver 320, a timing controller 330, and a memory 340.

The gate driver 310 supplies a gate signal to the gate lines to apply a data voltage to the pixels of the panel during the display period.

For example, the gate driver 310 supplies a gate signal to the gate lines GL1 to GLn to select the line of the panel 100 to which the data voltage is input, and the pixels of the panel 100 to the gate signal And charges the data voltage input from the data driver 320 during the display period.

Here, the gate driver 310 may selectively supply the gate signal to the gate lines. In one embodiment, the gate signal is applied to the odd gate lines first, and then the gate signal is applied to the even gate lines. can do. In another embodiment, the gate signal is applied from the first gate line to the (n / 2) th gate line, and then the gate signal is applied from the (n / 2 + 1) Can be applied.

In yet another embodiment, the gate lines may be grouped by m and sequentially applied to each group. The method of supplying the gate signal according to the present invention will be described with reference to FIGS. 4 and 6, which will be described later.

The gate driving unit 310 may be configured to be independent from the panel and electrically connected to the panel in various ways. However, the gate driving unit 310 may be a gate-in- (GIP) method. In this case, the gate control signal for controlling the gate driver 310 may be a start signal VST and a gate clock GCLK.

The data driver 320 converts the RGB data input from the timing controller 330 into a data voltage and outputs the data voltage. The data voltage output from the data driver 320 is supplied to the data lines DL1 to DLm.

In other words, a source start pulse (SSP) from the timing controller 330 is shifted according to a source shift clock (SSC) to generate a sampling signal. The data driver 320 latches the pixel data RGB (image data) input according to the source shift clock SSC according to the sampling signal, changes the data signal to a data signal, (SOE) signal to the data lines in units of horizontal lines. The data signal includes a data voltage.

For this, the data driver 320 may include a data sampling unit, a latch unit, a digital-analog converter, and an output buffer.

The timing controller 330 receives timing signals such as a vertical synchronization signal Vsync, a horizontal synchronization signal Hsync, a data enable signal DE and a main clock CLK from a system unit And generates control signals GCS and DCS for controlling the operation timings of the gate driving unit 310 and the data driving unit 320. The timing controller 330 rearranges the RGB data input from the system unit (not shown) and outputs the rearranged RGB data to the data driver 320.

For reference, since the vertical synchronization signal Vsync is a signal defining one frame period, one period of the vertical synchronization signal is set to one frame period. In addition, since the horizontal synchronizing signal Hsync is a signal defining one horizontal period required to write data to pixels of one line in the pixel array of the panel 100, one period of the horizontal synchronizing signal is set to one horizontal period , One horizontal period can be calculated by dividing one frame period by the number of lines of the panel. The data enable signal DE is a signal that defines a period during which effective data is input, and one period is set to one horizontal period such as a horizontal synchronizing signal. The main clock CLK is synchronized with the bits of the RGB data.

The memory unit 340 stores the display information of each section and transmits the display information to the touch IC 200.

In other words, the memory unit 340 stores the display information required for the DTX compensation by the touch IC, and transmits the DTX compensation to the touch IC 200 when the touch interval starts.

The system unit (not shown) transmits timing signals Vsync, Hsync, DE, and MCLK together with RGB data to the timing controller 330 and recognizes the touch coordinates transmitted from the touch IC 200 on the panel 100 So that the program associated with the touch coordinate value is executed.

As described above, the system unit is formed outside the display driver IC and the touch IC to play a role of overall system driving of the touch screen integrated display device such as display driving and touch driving.

3 is a diagram illustrating a DTX compensation method of a touch screen integrated display device according to the present invention.

As shown in FIG. 3, the panel of the touch screen integrated display device of the present invention includes m display periods (m is a natural number of 2 or more) and m touch periods for every frame, The touch IC applies a touch scan signal to a plurality of electrodes in the panel during the first to m-th touch periods.

The touch IC compensates the touch sensitivity by using information of an arbitrary display period of the previous frame and information of an arbitrary display period of the current frame in the first to (m-1) -th touch periods of the current frame, The touch sensitivity is compensated by using the information of the display period of the current frame.

Here, the information of an arbitrary display period of the previous frame of the (m-1) -th touch period of the current frame is information of the m-th display period of the previous frame, and the arbitrary display period of the Is information from the first display period to the (m-1) th display period of the current frame.

The information of any display period of the previous frame of the (m-1) -th touch interval of the current frame is information of any display period of the previous frame, and the information of the (m-1) The information of the display period of the current frame of the m-th touch interval of the current frame is the information of the display interval of the (m-1) th display interval of the current frame, m < th > display period.

For example, as shown in FIG. 3, in the (m-1) -th touch interval of the current frame, the information of the m-th display interval of the previous frame and the information of the (M-1) pieces of display information are used to compensate for the touch sensitivity.

In addition, the touch sensitivity is compensated by using the display information from the first display period to the m-th display period of the current frame in the m-th touch period of the current frame.

As a further embodiment, information of (m-1) pieces of display information from the second display period to the m-th display period of the previous frame and the information of the first display period of the current frame are used in the first touch period of the current frame Thereby compensating for the touch sensitivity.

As a result, according to the various embodiments described above, when the touch IC is divided into m display periods and m touch periods of each frame, information of a total of m display periods is used to utilize the display information for one complete frame Thereby compensating for the touch sensitivity.

When performing the above compensation, the touch IC compensates the DTX (display to touch crosstalk) to be compensated for each of the plurality of electrodes using the average value of the display information of the received complete one frame.

More specifically, the touch IC calculates an average touch data correction value (touch data error value) by analyzing an average value of display information based on luminance information of display pixels, and reflects the average touch data correction value (touch data error value) To compensate for DTX. Further, the touch IC reflects the touch data correction value mapped to the lookup table (not shown), and adjusts the touch reference data when determining whether or not there is a touch in a part where the luminance change is large. That is, the touch correction data corresponding to the luminance input to the touch IC can be referred to in the look-up table to compensate for a change in capacitance that has changed unexpectedly in accordance with the screen change.

Here, the lookup table may be provided inside the touch IC or the display driver IC according to the design, or may be provided outside the touch IC and the display driver IC.

Next, the display driver IC transmits information of an arbitrary display period of the previous frame and information of an arbitrary display period of the current frame to the first to (m-1) -th touch periods of the current frame to the touch IC, The information of the display period of the current frame is transmitted to the touch IC in the m-th touch period of the current frame.

In particular, the display driver IC may transmit the display information of each display period stored in the memory unit shown in FIG. 2 to the touch IC before each touch period starts.

Here, the information of an arbitrary display period of the previous frame of the (m-1) -th touch period of the current frame is information of the m-th display period of the previous frame, and the arbitrary display period of the Is information from the first display period to the (m-1) th display period of the current frame.

The DTX compensating method of the touch IC and the display driver IC as described above will be described step by step. The display driver IC displays the information of an arbitrary display period of the previous frame in the (m-1) And transmits information of an arbitrary display section to the touch IC.

Next, the touch IC applies a touch scan signal to a plurality of electrodes in the (m-1) -th touch section of the current frame, and uses information of an arbitrary display section of the previous frame and information of an arbitrary display section of the current frame Thereby compensating for the touch sensitivity.

Next, the display driver IC carries out the step of transmitting the information of the display period of the current frame to the touch IC in the m-th touch period of the current frame.

Next, the touch IC applies a touch scan signal to a plurality of electrodes in the m-th touch period of the current frame, and compensates for the touch sensitivity using the information of the display period of the current frame.

Here, the information of an arbitrary display period of the previous frame of the (m-1) -th touch period of the current frame is information of the m-th display period of the previous frame, and the arbitrary display period of the Is information from the first display period to the (m-1) th display period of the current frame.

Hereinafter, the driving method of the integrated touch screen display device and the DTX compensation method will be described in detail with reference to FIGS. 4 to 7 through various embodiments. For reference, in describing various embodiments of the present invention, an (n + 1) th frame is defined as a current frame and an n-th frame is defined as a previous frame of the current frame.

FIG. 4 is a diagram illustrating a method of driving a touch screen integrated display device according to an embodiment of the present invention. FIG. 5 is a diagram illustrating a DTX compensation method of the integrated touch screen display device of FIG.

4 and 5, each frame includes two display periods and two touch periods, and operates in a time-division manner in a total of four periods ranging from a first display period to a second touch period, Line group and an even-numbered gate line group.

First, as shown in FIG. 4, a driving method according to an embodiment of the present invention is one frame (60 Hz) divided into a total of four periods and driven in time. If the driving time of one frame (60 Hz) is 16.7 ms, the first display period is 5 ms, the first touch period is 3.35 ms, the second display period is 5 ms, and the second touch period is 3.35 ms. . However, it is possible to adjust the display interval and the touch interval according to the driving environment.

In other words, a first display period in which a gate signal is applied to odd-numbered gate lines (1, 3, 5, ..., (n-1)), A second display period in which a gate signal is applied to even-numbered (2, 4, 6, ...) n gate lines, and a touch scan signal is applied to the panel in the same manner as the first touch period, Divided by the second touch period.

For example, in the first display period, a common voltage is applied to a plurality of electrodes in a display driver IC, a gate signal is applied to odd gate lines to drive odd gate lines of the panel, A touch IC applies a touch scan signal to a plurality of electrodes of the panel to perform touch driving of the panel. In the second display period, a common voltage is applied to the plurality of electrodes in the display driver IC, gate signals are applied to the even-numbered gate lines to drive the even-numbered gate lines of the panel, and in the second touch- A touch scan signal is applied to a plurality of electrodes of the panel to perform touch driving of the panel.

Although not shown in FIG. 4, the previous display period in each frame is the first display period, and the latter display period is the second display period. Likewise, in the respective frames, the previous touch period is the first touch period, and the latter touch period is the second touch period.

In the above driving method, when the display frame rate is 60 Hz, since the touch of the panel is performed twice during one frame, the touch report rate can be operated close to 120 Hz. In such a driving method, the display sensitivity recognized by the user is not greatly different from the conventional one, but the touch report rate can be driven twice as much as the conventional one.

In other words, the touch screen integrated display device according to an embodiment of the present invention increases the frequency with which the touch scan signal is applied to all the electrodes in the panel during one frame compared with a general touch screen integrated display device, The touch report rate of the touch sensing signal can be maintained to be larger than the display frame rate during the one frame and the touch report rate can be maintained to be larger, it is possible to detect the dragging.

5, when the first touch interval of the (n + 1) -th frame is started in the display driver IC, the DTX compensation method according to the embodiment of the present invention, Th display frame of the (n + 1) th frame and the display information of the first display period of the (n + 1) Th frame and the display information of the second display period of the (n + 1) -th frame to the touch IC, and the touch IC transmits the display information of the first and second display periods To compensate for the touch sensitivity.

For example, when the first touch period of the (n + 1) -th frame starts, the display driver IC applies the gate signal to the even-numbered gate lines of the n-th frame, Th frame, the touch IC transfers the display information generated by applying the gate signal to the even-numbered gate lines of the n-th frame, Th frame and the odd gate lines of the (n + 1) < th > frame, and the display information generated by applying the gate signal to the odd-numbered gate lines of the (n + 1)

When the second touch period of the (n + 1) -th frame starts, the display signal generated by applying the gate signal to the odd gate lines of the (n + 1) (N + 1) < th > frame, the gate signal is applied to the odd gate lines of the (n + 1) Th display lines and the display information generated by applying the gate signal to the even-numbered gate lines of the (n + 1) -th frame to compensate for the touch sensitivity of the plurality of electrodes.

When performing the above compensation, the touch IC compensates the DTX (display to touch crosstalk) to be compensated for each of the plurality of electrodes using the average value of the display information of the received complete one frame.

More specifically, the touch IC calculates an average touch data correction value (touch data error value) by analyzing an average value of display information based on luminance information of display pixels, and reflects the average touch data correction value (touch data error value) To compensate for DTX. Further, the touch IC reflects the touch data correction value mapped to the lookup table (not shown), and adjusts the touch reference data when determining whether or not there is a touch in a part where the luminance change is large. That is, the touch correction data corresponding to the luminance input to the touch IC can be referred to in the look-up table to compensate for a change in capacitance that has changed unexpectedly in accordance with the screen change.

Next, a method of driving a touch screen integrated type display device and a DTX compensation method according to another embodiment of the present invention will be described with reference to FIGS. 6 and 7. FIG.

FIG. 6 illustrates a method of driving a touch screen integrated type display device according to another embodiment of the present invention. FIG. 7 illustrates a method of compensating for a DTX of the integrated touch screen type display device illustrated in FIG.

6 and 7, each frame includes two display periods and two touch periods, and alternately operates in a time division manner with a total of four periods ranging from a first display period to a second touch period, Group and a lower gate line group.

First, as shown in FIG. 6, a driving method according to another embodiment of the present invention is driven by dividing one frame (60 Hz) into four sections in a temporal manner.

In other words, a first display period for applying a gate signal to the upper gate lines, a first touch period for applying a touch scan signal to the panel to confirm a touch input, a second display period for applying a gate signal to the lower gate lines And a second touch period in which a touch scan signal is applied to the panel to confirm a touch input, as in the first touch period. Here, the upper gate lines are the first gate line to the (n / 2) th gate line, and the (n / 2 + 1) th gate line to the nth gate line.

For example, in the first display period, a common voltage is applied to a plurality of electrodes in the display driver IC, a gate signal is applied to the upper gate lines to drive the upper gate lines of the panel, In the IC, a touch scan signal is applied to a plurality of electrodes of a panel to touch-drive the panel. In the second display period, a common voltage is applied to the plurality of electrodes in the display driver IC, a gate signal is applied to the lower gate lines to drive the lower gate lines of the panel, and in the second touch driving period, A touch scan signal is applied to a plurality of electrodes of the touch panel.

Although not shown in FIG. 6, the previous display period in each frame is the first display period, and the latter display period is the second display period. Likewise, in the respective frames, the previous touch period is the first touch period, and the latter touch period is the second touch period.

In the above driving method, when the display frame rate is 60 Hz, since the touch of the panel is performed twice during one frame, the touch report rate can be operated close to 120 Hz. In such a driving method, the display sensitivity recognized by the user is not greatly different from the conventional one, but the touch report rate can be driven twice as much as the conventional one.

7, when the first touch interval of the (n + 1) -th frame is started in the display driver IC, the DTX compensation method according to the embodiment of the present invention, Th display frame of the (n + 1) th frame and the display information of the first display period of the (n + 1) Th frame and the display information of the second display period of the (n + 1) -th frame to the touch IC, and the touch IC transmits the display information of the first and second display periods To compensate for the touch sensitivity.

For example, the display driver IC generates the display information generated by applying the gate signal to the lower gate lines of the n-th frame when the first touch period of the (n + 1) Th frame, and the touch IC transmits the display information generated by applying the gate signal to the lower gate lines of the n < th > the touch sensitivity of the plurality of electrodes is compensated by using the display information generated by applying the gate signal to the upper gate lines of the (n + 1) th frame.

When the second touch period of the (n + 1) -th frame starts, the gate signal is applied to the upper gate lines of the (n + 1) And the touch IC transmits the display information generated by applying the gate signal to the upper gate lines of the (n + 1) -th frame received, Th frame and the (n + 1) < th > frame, respectively, using the display information generated by applying the gate signal to the lower gate lines of the (n + 1)

When performing the above compensation, the touch IC compensates the DTX (display to touch crosstalk) to be compensated for each of the plurality of electrodes using the average value of the display information of the received complete one frame.

In the above driving method, when the display frame rate is 60 Hz, since the touch of the panel is performed twice during one frame, the touch report rate can be operated close to 120 Hz. In this driving method, although the display perceived by the user is not greatly different from the conventional one, the touch transfer rate can be driven twice as much as the conventional one.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Panel 110: Electrode
200: Touch IC 300: Display Driver IC
310: Gate driver 320: Data driver
330: Timing controller 340: Memory part

Claims (14)

A panel including m display periods (m is a natural number equal to or greater than 2) and m touch periods for every frame, and alternatingly operates in a time division manner from a first display period to an m-th touch period in total of 2m intervals;
A touch IC for applying a touch scan signal to a plurality of electrodes in the panel during the first through m-th touch periods to touch-drive the panel; And
Information of an arbitrary display period of the previous frame and information of an arbitrary display period of the current frame are transmitted to the touch IC in the first to (m-1) -th touch intervals of the current frame, and m And a display driver IC for transmitting information on a display interval of the current frame to the touch IC,
The touch IC uses the information of an arbitrary display period of the previous frame and the information of an arbitrary display period of the current frame in the first through (m-1) -th touch periods of the current frame, And compensates the touch sensitivity using the information of the display period of the current frame in the m-th touch period of the current frame. The method according to claim 1,
Wherein the information of an arbitrary display period of the previous frame of the (m-1) -th touch period of the current frame is information of an m-th display period of the previous frame, Wherein the information of the arbitrary display period of the current frame is information from the first display period to the (m-1) th display period of the current frame. The method according to claim 1,
(M-1) -th touch interval of the current frame is information of a display interval of the previous frame, and the information of the display period of the (m-1) Th display period of the current frame is information of a total of (m-1) display periods. The method according to claim 1,
Wherein the information of the display period of the current frame in the m-th touch interval of the current frame is information of m display intervals from the first display period to the m-th display interval of the current frame. Device. The method according to claim 1,
The touch IC calculates a DTX (Display to Touch Crosstalk) size to be compensated for each of the plurality of electrodes using the average value of the display information of the first and second display periods, and compensates the touch sensitivity The touch screen integrated display device. The method according to claim 1,
Wherein the touch IC receives a touch sensing signal corresponding to the touch scan signal applied to the plurality of electrodes, and calculates touch coordinates. The method according to claim 6,
Wherein the touch report rate of the touch sensing signal during one frame is greater than the display frame rate during the one frame. A panel including m (m is a natural number of 2 or more) display periods and m touch periods for every frame and alternately performing time division operation with a total of 2m sections from the first display period to the m-th touch period, A touch IC for touch-driving the panel by applying a touch scan signal to a plurality of electrodes in the panel during an m-th touch period; and a touch IC for applying information of an arbitrary display period during the first through m- A method of driving a touch screen integrated display device including a display driver IC for transmitting a touch signal to a touch IC,
The display driver IC transmitting information of an arbitrary display period of a previous frame and information of an arbitrary display period of the current frame to the touch IC in the (m-1) -th touch interval of the current frame;
Wherein the touch IC applies a touch scan signal to the plurality of electrodes in an (m-1) -th touch period of a current frame, and outputs information of an arbitrary display period of the previous frame and information of an arbitrary display period of the current frame Compensating the touch sensitivity using the touch sensitivity;
The display driver IC transmitting information of a display interval of the current frame to the touch IC in the m-th touch interval of the current frame; And
The touch IC applying a touch scan signal to the plurality of electrodes in an m-th touch period of a current frame and compensating for touch sensitivity using information of a display period of the current frame, A method of driving a screen integrated type display device. 9. The method of claim 8,
Wherein the information of an arbitrary display period of the previous frame of the (m-1) -th touch period of the current frame is information of an m-th display period of the previous frame, Wherein the information of an arbitrary display period of the current frame is information from the first display period to the (m-1) th display period of the current frame. 9. The method of claim 8,
Wherein the information of an arbitrary display period of the previous frame of the (m-1) -th touch period of the current frame is information of one display period of the previous frame, the (m-1) Wherein the information of the display period of the current frame of the touch interval is information of the (m-1) display periods. 9. The method of claim 8,
Wherein the information of the display period of the current frame in the m-th touch interval of the current frame is information of m display intervals from the first display period to the m-th display interval of the current frame. A method of driving a device. 9. The method of claim 8,
The touch IC calculates a DTX (Display to Touch Crosstalk) size to be compensated for each of the plurality of electrodes using the average value of the display information of the first and second display periods, and compensates the touch sensitivity Wherein the touch-screen integrated type display device is a touch screen type display device. 9. The method of claim 8,
Wherein the touch IC receives a touch sensing signal corresponding to the touch scan signal applied to the plurality of electrodes, and calculates touch coordinates. 14. The method of claim 13,
Wherein the touch report rate of the touch sensing signal during one frame is greater than the display frame rate during the one frame.

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