KR20110113116A - Lcd display apparatus and method for driving lcd - Google Patents

Abstract

An LCD device and an LCD driving method are provided. The LCD device drives the LCD module by applying temperature compensation for compensating drive timing in accordance with the temperature of the LCD module. Accordingly, the LCD device can reduce the occurrence rate of crosstalk even at a low temperature.

Description

LCD display apparatus and method for driving LCD

The present invention relates to an LCD display device and an LCD driving method, and more particularly, to an LCD display device and an LCD driving method used for displaying a 3D image.

Recently, display devices have become thinner and thinner. In addition, as the technology of light emitting diodes (LEDs) develops, an area in which LEDs are used is expanding. In particular, as LEDs are used as backlights of display devices, the thickness of display devices can be innovatively thinned.

As such, in order to thin the display device using the LED, an edge type backlight having an LED backlight disposed at the edge of the display is used.

However, when the edge type backlight is used, the temperature of the LCD increases only at the edge and lowers at the center of the screen. As such, when the temperature of the LCD is low, it is difficult to provide a high quality image because the response speed of the LCD becomes slow. In particular, when a 3D image is expressed, a faster response speed is required because the frequency of outputting the screen is increased.

In addition, since the left eye image and the right eye image are alternately displayed in the 3D image, a cross talk phenomenon in which the left eye image and the right eye image are overlapped when the response speed of the LCD is slow is generated. Therefore, fast response speed is required to express a 3D image.

The user wants a three-dimensional screen with low crosstalk in using the display device. Accordingly, there is a demand for a method of providing a display device for reducing a crosstalk phenomenon.

The present invention has been made to solve the above problems, an object of the present invention, the LCD device and the LCD driving method for driving the LCD module by applying a temperature compensation for compensating the driving timing according to the temperature of the LCD module In providing.

According to an embodiment of the present invention for achieving the above object, an LCD device, LCD module for displaying an input image; And a controller configured to control the LCD module to be driven by applying temperature compensation for compensating the driving timing according to the temperature of the LCD module.

The controller may include a timing controller configured to adjust driving timing of the LCD module. And a main controller configured to control the timing controller to adjust the driving timing according to the input image, wherein the main controller applies temperature compensation for compensating the driving timing according to the temperature of the LCD module. The timing controller may be controlled to drive the module.

The apparatus may further include a temperature sensor unit sensing a temperature of the LCD module, and the main controller may apply the temperature compensation according to the temperature information detected by the temperature sensor unit.

The apparatus may further include a storage unit configured to store temperature compensation data corresponding to a compensation value for each temperature. The main controller may further include a temperature compensation value corresponding to the temperature information using the temperature compensation data stored in the storage unit. May be extracted, and the temperature compensation may be applied using the extracted temperature compensation value.

The main controller may control the timing controller to correct the driving signal applied to the LCD module according to the extracted temperature compensation value.

The main controller may apply the temperature compensation according to a set value set by a user's manipulation.

The controller may include a timing controller configured to adjust driving timing of the LCD module; And a main controller for controlling the timing controller to adjust the driving timing according to the input image, wherein the timing controller is configured to apply temperature compensation for compensating the driving timing according to the temperature of the LCD module. The module can also be driven.

The apparatus may further include a temperature sensor unit sensing a temperature of the LCD module, wherein the timing controller may apply the temperature compensation according to the temperature information detected by the temperature sensor unit.

The apparatus may further include a storage unit configured to store temperature compensation data corresponding to the compensation value for each temperature, wherein the timing controller is further configured to use the temperature compensation data stored in the storage unit to correspond to the temperature information. May be extracted, and the temperature compensation may be applied using the extracted temperature compensation value.

The timing controller may correct the driving signal applied to the LCD module according to the extracted temperature compensation value.

In addition, the timing controller may apply the temperature compensation according to a set value set by a user's operation.

On the other hand, LCD driving method according to an embodiment of the present invention, applying the temperature compensation for compensating the driving timing according to the temperature of the LCD module; And adjusting a driving timing of the LCD module according to the driving signal to which the temperature compensation is applied.

The method may further include sensing the temperature of the LCD module by a temperature sensor, wherein the applying step may apply the temperature compensation according to the temperature information detected by the temperature sensor.

The method may further include storing temperature compensation data corresponding to a compensation value for each temperature; And extracting a temperature compensation value corresponding to the temperature information by using the stored temperature compensation data, wherein the applying step may apply the temperature compensation by using the extracted temperature compensation value. .

In the applying step, the temperature compensation may be applied by correcting the driving signal applied to the LCD module according to the extracted temperature compensation value.

The method may further include receiving a setting value for temperature compensation by a user's operation, wherein the applying step may apply the temperature compensation according to a setting value set by the user's operation.

As described above, according to various embodiments of the present disclosure, it is possible to provide an LCD device and an LCD driving method for driving an LCD module by applying temperature compensation for compensating driving timing according to the temperature of the LCD module. The incidence of crosstalk can be reduced even at low temperatures. Accordingly, the user can watch the 3D image without cross talk in various environments.

1A is a block diagram showing a configuration of a TV on which a compensation operation is performed by a main controller according to an embodiment of the present invention;
1B is a block diagram showing a configuration of a TV on which a compensation operation is performed by a timing controller according to another embodiment of the present invention;
2 is a flowchart provided to explain an LCD driving method according to an embodiment of the present invention;
3A is a diagram illustrating a screen for setting a temperature compensation mode according to one embodiment of the present invention;
3B is a diagram illustrating a screen when a temperature compensation mode is an automatic mode, according to an embodiment of the present invention;
3C is a diagram illustrating a screen when a temperature compensation mode is a manual mode according to an embodiment of the present invention;
4A and 4B are graphs illustrating a rate of occurrence of crosstalk before and after applying temperature compensation according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1A is a block diagram illustrating a configuration of an LCD (Liquid Crystal Display) TV 100 in which a compensation operation is performed by a main controller according to an embodiment of the present invention. As shown in FIG. 1A, the LCD TV 100 includes an image input unit 110, a controller 120, an LCD module 130, a temperature sensor 140, a storage unit 150, and a user interface 160. Include.

The image input unit 110 receives an image signal from the outside. In detail, the image input unit 110 may be a tuner for receiving a broadcast signal, or may be an A / V interface for receiving a cable broadcast, an analog image signal, or a digital image signal.

The controller 120 generates a driving signal to drive the LCD module 130 according to the input image and applies it to the LCD module 130. In this case, the controller 120 corrects the driving signal by applying temperature compensation for compensating driving timing according to the temperature of the LCD module 130, and controls the LCD module 130 to be driven according to the corrected driving signal.

Here, temperature compensation indicates applying correction to the drive signal according to the temperature of the LCD module 130. LCD's response speed gets slower as the temperature gets lower. Therefore, the control unit 120 generates a driving signal by applying a correction to increase the response speed as the temperature of the LCD module 130 is lower. In this case, the driving signal may be a driving current or a driving voltage. Therefore, the controller 120 may apply the correction to the driving signal by adjusting the intensity or duty ratio of the driving current or the driving voltage. At this time, the correction value used for the temperature compensation is the temperature compensation value. Therefore, the temperature compensation value corresponds to a value for correcting the intensity or duty ratio of the driving signal according to the temperature.

As such, the controller 120 applies temperature compensation when generating the driving signal, so that the LCD module 130 can maintain a high response speed even at a low temperature.

As shown in FIG. 1A, the controller 120 includes a main controller 123 and a timing controller 126. The main controller 123 controls the overall operation of the LCD TV 100. In detail, the main controller 123 processes the image input through the image input unit 110 and outputs the processed image signal to the timing controller 126. In addition, the main controller 123 controls various operations of the LCD TV 100.

The main controller 123 controls the timing controller 126 so that the LCD module is driven by applying temperature compensation for compensating driving timing according to the temperature of the LCD module 130. That is, the main controller 123 applies temperature compensation to the input image signal, and outputs the image signal to which the temperature compensation is applied to the timing controller 126.

In detail, the main controller 123 may apply temperature compensation according to the temperature information detected by the temperature sensor unit 140. For example, when the automatic mode in which the temperature compensation is automatically applied is set, the main controller 123 receives temperature information, which is information about the temperature of the current LCD module 130, from the temperature sensor unit 140. The main controller 123 extracts a temperature compensation value corresponding to the temperature information by using the temperature compensation data stored in the storage 150. Thereafter, the main controller 123 controls the timing controller 126 to correct the driving signal applied to the LCD module 130 according to the extracted temperature compensation value. Through this process, the main controller 123 automatically applies temperature compensation to the input image signal according to the temperature of the LCD module 130.

In addition, the main controller 123 may apply temperature compensation according to a set value set by a user's manipulation. For example, when the temperature compensation is set to the manual mode set by the user, the main controller 123 selects the temperature compensation setting value according to a user command input through the user interface 160. Here, the temperature compensation setpoint represents a value of temperature compensation selected by the user. For example, the temperature compensation setpoint may be '-1' for 15 degrees, '0' for 20 degrees, and '+1' for 25 degrees.

The main controller 123 extracts a temperature compensation value corresponding to the temperature compensation set value using the temperature compensation data stored in the storage 150. Thereafter, the main controller 123 controls the timing controller 126 to correct the driving signal applied to the LCD module 130 according to the extracted temperature compensation value. Here, the temperature compensation value represents a correction value for correcting the driving signal according to the temperature, and this corresponds to a value that can be known using a temperature compensation data preset through experiments.

Through this process, the main controller 123 manually applies temperature compensation to the image signal input according to the temperature of the LCD module 130 according to the user's operation.

The timing controller 126 adjusts the driving timing of the LCD module according to the image signal input from the main controller 123. That is, the timing controller 126 generates a driving signal based on the input image signal and applies the generated driving signal to the LCD module 130 to drive the LCD module 130 and simultaneously adjust the driving timing. . In particular, since the main controller 123 applies temperature compensation to the input image signal and outputs the result, the timing controller 126 may generate a driving signal to which the temperature compensation is applied. Accordingly, the timing controller 126 generates a driving signal of the LCD module 130 based on the image signal to which temperature compensation is applied, and provides the driving signal to the LCD module 130 at an appropriate timing.

Here, the timing controller 126 may be a timing control board or a TCON board.

The LCD module 130 displays the input image signal according to the driving control of the timing controller 126. LCD module 130 includes a liquid crystal panel and various optical sheets. In addition, the LCD module 140 includes a backlight. Here, the backlight may be of edge type. The edge type backlight refers to a backlight that provides a backlight by irradiating light from the side of the LCD. However, it is a matter of course that the backlight in various ways may be applied.

The temperature sensor unit 140 detects the temperature of the LCD module 130. The temperature sensor unit 140 may be mounted on any portion of the LCD module 130, and for example, may be mounted on a rear center portion of the LCD module 130. The temperature sensor unit 140 transmits temperature information, which is information about the detected temperature of the LCD module 130, to the main controller 123.

Temperature sensors fall into two broad categories: contact and contactless. The contact type is a method of measuring temperature through contact with a measuring object. Most sensors such as (platinum) resistance temperature sensors, thermistors, thermocouples, bimetals, and the like are non-contact type radiation thermometers and advertisement thermometers. As such, the temperature sensor unit 140 may be implemented by various temperature sensors.

The storage unit 150 stores various software for driving the LCD TV 100. In addition, the storage unit 150 stores temperature compensation data corresponding to compensation values for respective temperatures. Here, the temperature compensation data corresponds to a table to which compensation values are respectively corresponded for various temperatures. For example, the temperature compensation data may be a DCC table set for each temperature. The storage unit 150 may be various storage media. For example, the storage unit 150 may be a nonvolatile memory, a hard disk, or the like.

The user interface 160 receives a command from a user. In detail, the user interface 160 receives a command for the temperature compensation mode and a temperature compensation setting value from the user. Here, the temperature compensation mode is a mode related to the temperature compensation method, which is an automatic mode and a manual mode. In addition, when the temperature compensation mode is the manual mode, the user interface 160 receives a temperature compensation setting value from the user.

The user interface 160 may be a button or a remote controller disposed on the LCD TV 100.

LCD TV 100 having such a structure drives the LCD by applying the temperature compensation by the main control unit 123, it is possible to maintain a fast response speed even at low temperatures. Therefore, the LCD TV 100 may reduce the crosstalk phenomenon when displaying the 3D image.

In the present embodiment, the LCD TV 100 has been described that the temperature compensation is applied by the main control unit 123. In detail, the temperature sensor 140 may output temperature information to the main controller 123, and confirm that the temperature compensation data is stored in the storage 150 connected to the main controller 123.

However, the LCD TV 100 may be implemented to apply temperature compensation in the timing controller 126, which will be described below with reference to FIG. 1B.

1B is a block diagram illustrating a configuration of an LCD (Liquid Crystal Display) TV 100 in which a compensation operation is performed by a timing controller according to an embodiment of the present invention. As illustrated in FIG. 1B, the LCD TV 100 may include an image input unit 110, a controller 170, an LCD module 130, a temperature sensor 180, a storage unit 190, and a user interface 160. Include.

FIG. 1B is substantially similar in configuration to FIG. 1A, with differences in some configurations. In detail, in FIG. 1B, the temperature sensor 180 may be connected to the timing controller 176, and the storage 190 may also be connected to the timing controller 176. Therefore, in the description of FIG. 1B, the parts corresponding to the differences will be mainly described.

The controller 170 generates a driving signal to drive the LCD module 130 according to the input image and applies it to the LCD module 130. In this case, the controller 170 corrects the driving signal by applying temperature compensation for compensating the driving timing according to the temperature of the LCD module 130, and controls the LCD module 130 to be driven according to the corrected driving signal.

As shown in FIG. 1B, the controller 170 includes a main controller 173 and a timing controller 176. The main controller 173 controls the overall operation of the LCD TV 100. In detail, the main controller 173 processes the image input through the image input unit 110 and outputs the processed image signal to the timing controller 176. In addition, the main controller 173 controls various operations of the LCD TV 100.

In addition, the main controller 173 receives a command for selecting a temperature compensation mode through the user interface unit 160 and controls the timing controller 176 to perform temperature compensation according to the input mode. For example, when the temperature compensation mode is selected as the automatic mode, the main controller 173 controls the timing controller 176 to automatically apply temperature compensation according to the temperature sensed by the temperature sensor 180. On the other hand, when the temperature compensation mode is selected as the manual mode, the main controller 173 controls the timing controller 176 to apply temperature compensation according to a set value input by the user.

The timing controller 176 adjusts the driving timing of the LCD module according to the image signal input from the main controller 173. That is, the timing controller 176 generates a driving signal based on the input image signal and applies the generated driving signal to the LCD module 130 to drive the LCD module 130 and simultaneously adjust the driving timing. . At this time, the timing controller 173 generates a driving signal by applying temperature compensation to the input image signal. Here, the timing controller 126 may be a timing control board or a TCON board.

The timing controller 176 generates a driving signal by applying temperature compensation for compensating driving timing according to the temperature of the LCD module 130 and applies it to the LCD module 130.

The timing controller 176 may apply temperature compensation according to the temperature information detected by the temperature sensor unit 180. For example, when set to the automatic mode in which the temperature compensation is automatically applied, the timing controller 176 receives temperature information, which is information about the temperature of the current LCD module 130, from the temperature sensor unit 180. The timing controller 176 extracts a temperature compensation value corresponding to the temperature information by using the temperature compensation data stored in the storage 190. Thereafter, the timing controller 176 generates a driving signal applied to the LCD module 130 according to the extracted temperature compensation value. Through such a process, the control controller 176 automatically applies temperature compensation to the driving signal according to the temperature of the LCD module 130.

In addition, the timing controller 176 may apply temperature compensation according to a set value set by a user's manipulation. For example, when the temperature compensation is set to the manual mode set by the user, the timing controller 176 may set the temperature compensation setting value corresponding to the user command input through the user interface unit 160 from the main controller 173. Receive. The timing controller 176 extracts a temperature compensation value corresponding to the received temperature compensation setting value using the temperature compensation data stored in the storage 190. Thereafter, the timing controller 176 corrects and generates a driving signal applied to the LCD module 130 according to the extracted temperature compensation value. Through this process, the timing controller 176 manually applies temperature compensation to the image signal input according to the temperature of the LCD module 130 according to the user's operation.

The temperature sensor unit 180 senses the temperature of the LCD module 130. The temperature sensor unit 180 may be mounted at any portion of the LCD module 130, and may be mounted at, for example, a rear center portion of the LCD module 130. The temperature sensor unit 180 transmits temperature information, which is information about the detected temperature of the LCD module 130, to the timing controller 176.

Temperature sensors fall into two broad categories: contact and contactless. The contact type is a method of measuring temperature through contact with a measuring object. Most sensors such as (platinum) resistance temperature sensors, thermistors, thermocouples, bimetals, and the like are non-contact type radiation thermometers and advertisement thermometers. As such, the temperature sensor unit 180 may be implemented by various temperature sensors.

The storage 190 stores various information for timing control of the LCD TV 100. In addition, the storage 190 stores the temperature compensation data corresponding to the compensation value for each temperature. Here, the temperature compensation data corresponds to a table to which compensation values are respectively corresponded for various temperatures. For example, the temperature compensation data may be a DCC table set for each temperature. The storage unit 190 may be various storage media. For example, the storage unit 190 may be an EEPROM (Electrically Erasable Programmable Read-Only Memory) disposed on a TCON board.

The LCD TV 100 having such a structure drives the LCD by applying the temperature compensation by the timing controller 176, thereby maintaining a fast response speed even at a low temperature. Therefore, the LCD TV 100 may reduce the crosstalk phenomenon when displaying the 3D image.

Hereinafter, referring to FIG. 2, a driving method of the LCD TV 100 will be described in detail. 2 is a flowchart provided to explain an LCD driving method according to an embodiment of the present invention.

First, the LCD TV 100 determines whether the currently set temperature compensation mode is an automatic mode or a manual mode (S200). Specifically, the LCD TV 100 determines what is the temperature compensation mode set by the user, which will be described with reference to FIG. 3A.

3A is a diagram illustrating a screen for setting a temperature compensation mode according to an embodiment of the present invention. As shown in FIG. 3A, the LCD TV 100 displays a window 300 for selecting a temperature compensation mode on the screen. The temperature compensation mode selection window 300 includes an automatic mode icon 310 and a manual mode icon 320.

When the auto mode icon 310 is selected by the user, the LCD TV 100 sets the temperature compensation mode to the auto mode. When the manual mode icon 320 is selected by the user, the LCD TV 100 sets the temperature compensation mode to the manual mode.

As such, the LCD TV 100 may provide a GUI for the user to select a temperature compensation mode.

2, if the current mode is the automatic mode (S200-Y), the LCD TV 100 detects the temperature of the LCD module 130 through the temperature sensor (S210). Thereafter, the LCD TV 100 extracts the temperature compensation value corresponding to the temperature information by using the stored temperature compensation data (S220). The automatic mode will be described below in detail with reference to FIG. 3B.

3B is a diagram illustrating a screen when the temperature compensation mode is an automatic mode according to an embodiment of the present invention. As shown in FIG. 3B, when the temperature compensation mode is set to the automatic mode, the LCD TV 100 displays the temperature compensation setting execution window 330 on the screen. In this case, the temperature compensation execution window 330 may confirm that the current temperature detected by the temperature sensor is displayed.

As such, when the temperature compensation mode is the automatic mode, it may be confirmed that the temperature compensation is automatically applied even without a separate operation of the user.

2, when the current mode is the manual mode (S200-N), the LCD TV 100 receives a temperature compensation set value by a user operation (S230). In operation S240, the LCD TV 100 extracts a temperature compensation value corresponding to the temperature compensation setting value using the stored temperature compensation data. The case where the temperature compensation mode is the manual mode will be described below with reference to FIG. 3C.

3C is a diagram illustrating a screen when the temperature compensation mode is a manual mode according to an embodiment of the present invention. As shown in FIG. 3C, when the temperature compensation mode is the manual mode, the LCD TV 100 displays the temperature compensation setting window 340 on the screen. It can be seen that the temperature compensation setting window 340 displays the temperature compensation setting value for each temperature. Therefore, the user can select the temperature compensation setting value in consideration of the current temperature.

As such, the LCD TV 100 may provide a GUI for the user to select a temperature compensation setting value.

2, the LCD TV 100 corrects the driving signal according to the extracted temperature compensation value (S250). The LCD TV 100 drives the LCD module according to the corrected driving signal (S260).

Through this process, the LCD TV 100 automatically or manually applies temperature compensation to the driving signal according to the temperature of the LCD module 130.

4A and 4B are graphs illustrating a rate of occurrence of crosstalk before and after applying temperature compensation according to an embodiment of the present invention.

4A is a graph showing the incidence of cross talk (x-talk) before applying temperature compensation. As shown in Figure 4a, it can be seen that the occurrence rate of crosstalk is high at a low temperature of 25 degrees or less.

4B is a graph showing the incidence rate of crosstalk after applying temperature compensation. As shown in FIG. 4B, after the temperature compensation is applied, it may be confirmed that the crosstalk generation rate is lower than that of FIG. 4A even at a low temperature of 25 degrees or less.

Therefore, the LCD TV 100 according to the present embodiment can reduce the incidence of the crosstalk phenomenon by driving the LCD module by applying temperature compensation. Therefore, the user can watch a clear screen without cross talk when viewing the 3D image.

In the present embodiment, it has been described that the display device is the LCD TV 100, which corresponds to an embodiment for convenience of description. Therefore, any display device can be applied as long as it is an LCD display device. For example, the LCD device may be applied to a 3D LCD TV, a general LCD TV, an LCD monitor, a notebook, and the like.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

100: display device 110: image input unit
120: control unit 123: main control unit
126: timing control unit 130: LCD module
140: temperature sensor unit 150: storage unit
160: user interface 170: control unit
173: main controller 176: timing controller
180: temperature sensor unit 190: storage unit

Claims (16)

An LCD module for displaying an input image;
And a controller configured to control the LCD module to be driven by applying temperature compensation for compensating the driving timing according to the temperature of the LCD module. The method of claim 1,
The control unit,
A timing controller configured to adjust driving timing of the LCD module; And
And a main controller for controlling the timing controller to adjust the driving timing according to the input image.
The main control unit,
And controlling the timing controller to drive the LCD module by applying temperature compensation for compensating the driving timing according to the temperature of the LCD module. The method of claim 2,
Further comprising: a temperature sensor unit for sensing the temperature of the LCD module,
The main control unit,
And applying the temperature compensation according to the temperature information sensed by the temperature sensor. The method of claim 3,
Further comprising: a storage unit for storing the temperature compensation data corresponding to the compensation value for each temperature,
The main control unit,
And extracting a temperature compensation value corresponding to the temperature information by using the temperature compensation data stored in the storage unit, and applying the temperature compensation using the extracted temperature compensation value. The method of claim 4, wherein
The main control unit,
And controlling the timing controller to correct a driving signal applied to the LCD module according to the extracted temperature compensation value. The method of claim 2,
The main control unit,
And applying the temperature compensation according to a set value set by a user's operation. The method of claim 1,
The control unit,
A timing controller configured to adjust driving timing of the LCD module; And
And a main controller for controlling the timing controller to adjust the driving timing according to the input image.
The timing controller,
And driving the LCD module by applying temperature compensation for compensating the driving timing according to the temperature of the LCD module. The method of claim 7, wherein
Further comprising: a temperature sensor unit for sensing the temperature of the LCD module,
The timing controller,
And applying the temperature compensation according to the temperature information sensed by the temperature sensor. The method of claim 8,
Further comprising: a storage unit for storing the temperature compensation data corresponding to the compensation value for each temperature,
The timing controller,
And extracting a temperature compensation value corresponding to the temperature information by using the temperature compensation data stored in the storage unit, and applying the temperature compensation using the extracted temperature compensation value. 10. The method of claim 9,
The timing controller,
And a driving signal applied to the LCD module according to the extracted temperature compensation value. The method of claim 7, wherein
The timing controller,
And applying the temperature compensation according to a set value set by a user's operation. Applying temperature compensation to compensate for drive timing in accordance with the temperature of the LCD module; And
And adjusting a driving timing of the LCD module according to the driving signal to which the temperature compensation is applied. The method of claim 12,
Detecting a temperature of the LCD module by a temperature sensor;
The applying step,
And applying the temperature compensation according to the temperature information detected by the temperature sensor. The method of claim 13,
Storing temperature compensation data corresponding to compensation values for each temperature; And
Extracting a temperature compensation value corresponding to the temperature information by using the stored temperature compensation data;
The applying step,
And applying the temperature compensation by using the extracted temperature compensation value. The method of claim 14,
The application step,
And applying temperature compensation by correcting the driving signal applied to the LCD module according to the extracted temperature compensation value. The method of claim 12,
Receiving a setting value for temperature compensation by a user's operation;
The application step,
And applying the temperature compensation according to a set value set by the user's operation.

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