KR101211286B1 - Liquid crystal display device and method driving of the same - Google Patents

Abstract

Disclosed are a liquid crystal display device and a driving method thereof capable of improving luminance.

The liquid crystal display according to the present invention includes a first means for generating a real data signal on a frame basis, a second means for generating a black data signal and a gray data signal, a real data signal of a previous frame and a real of a current frame. A third means for inserting one of the black data signal or the gray data signal and modulating the current real data signal according to the comparison result by comparing the data signals in pixel area units, and the real data signal and the black signal; It includes a liquid crystal panel for displaying a data signal.

Data modulation, frame, black data, gray data

Description

[0001] The present invention relates to a liquid crystal display device and a driving method thereof,

1 is a view showing a conventional liquid crystal display device.

2 is a view showing a liquid crystal display device according to a first embodiment of the present invention.

3 is a view illustrating in detail the data modulator of FIG.

4 is a view showing a liquid crystal display device according to a second embodiment of the present invention.

5 is a view illustrating in detail the data modulator of FIG.

6 is a graph illustrating data modulation in accordance with the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

102.202: Liquid crystal panels 104 and 204: gate drivers

106, 206: Data driver 108, 208: Timing controller

110, 210: backlight 112, 212: data modulation section

114, 214: data alignment unit 116, 216: black data generation unit

118, 220: control signal generator 122, 222: frame memory

124, 224, Comparative section 126, 226: Look-up table

218: gray data generation unit 228: data selection unit

The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device and a driving method thereof capable of improving luminance.

As the information society develops, the demand for display devices is increasing in various forms. In response, various flat panel display devices such as liquid crystal display (LCD), plasma display panel (PDP), and electro luminescent display (ELD) have been studied, and some of them have already been used as display devices in various devices.

Among them, LCD (hereinafter referred to as 'liquid crystal display device') is most widely used as a substitute for CRTs for mobile image display devices due to its excellent image quality, light weight, thinness, and low power consumption. In addition to mobile applications such as monitors of notebook computers, liquid crystal displays have been developed in various ways such as television monitors.

The liquid crystal display is generally driven in a hold type. In the hold type driving method, a constant data signal must be maintained for one frame, which is possible when the response speed of the liquid crystal maintains the processing speed level of the data signal.

On the other hand, in a general liquid crystal display device, a twisted nematic (TN) liquid crystal mode is mainly used. The TN liquid crystal mode has a response speed of about 20 msec, and a response speed of a liquid crystal suitable for moving images is required at least 5 msec. In the current type of hold type liquid crystal display, the response speed of the liquid crystal cannot keep up with the processing speed of the data signal, so that the data signal of the previous frame remains to some extent in the next frame, resulting in deterioration of image quality such as motion blur. Will occur.

That is, when the previous frame passes, the data line of the liquid crystal display receives a data signal for the next frame. When the response speed of the liquid crystal does not match the processing speed of the data signal, the data lines DL1 to DLm An image of the previous frame remains in the corresponding pixel area of the resulting motion blur.

Therefore, in order to improve the problem of the hold type driving method, an impulsive type driving method has been proposed.

1 is a view showing a conventional liquid crystal display device.

As shown in FIG. 1, a conventional liquid crystal display device includes a liquid crystal panel 2 for displaying a predetermined image, a gate driver 4 and a data driver 6 for driving the liquid crystal panel 2, The timing controller 8 controls the gate driver 4 and the data driver 6, and a backlight 10 generating predetermined light and irradiating the liquid crystal panel 2.

The liquid crystal display device is driven in an impulsive type.

The impulsive type driving method has been proposed to improve the problems of the above-mentioned hold type driving method.

In the liquid crystal panel 2, a plurality of gate lines GL0 to GLn and data lines DL1 to DLm are arranged, and a thin film transistor TFT and a pixel electrode (not shown) are formed at an intersection thereof. The liquid crystal panel 12 includes first and second substrates and liquid crystals (not shown) injected between the first and second substrates.

The timing controller 8 generates black data for aligning a real data signal supplied from a system (not shown) and generates a black data signal having a gray level of zero, and generates a predetermined control signal.

The real data signal is supplied to the plurality of data lines DL1 to DLm for one half of one horizontal section 1H to which the scan signal is supplied to the gate lines GL0 to GLn, and the black for the other half time. The data signal is supplied. That is, a real data signal and a black data signal are supplied to the plurality of data lines DL1 to DLm during one horizontal section 1H, which is one scan signal width.

As a result, one frame is divided into specific ratios (for example, 7: 3, 5: 5), and a real data signal is input to an unspecified portion of one frame, and a black data signal is input to the remaining portion. Secure the holding time of (DL1 ~ DLm).

For example, suppose that a video is displayed on the liquid crystal panel 2 during the first to third frames.

The timing controller 8 supplies a real data signal corresponding to each frame to the data driver 6. The timing controller 8 also generates a black data signal and supplies it to the data driver 6.

When the scan signal is supplied to the first gate line GL1 for one horizontal section 1H, the real data signal and the black data signal are supplied to the data lines DL1 to DLm. The real data signal is supplied to the data lines DL1 to DLm for one half of one horizontal section 1H, and the black data signal is supplied to the data lines DL1 to DLm for the other half.

Real data signals supplied to the data lines DL1 to DLm are displayed on the liquid crystal panel 2 for 1/2 horizontal section and 1/2 horizontal section for 1 / 2H. While the black data signal is displayed on the liquid crystal panel 2. After the real data signal is displayed on the liquid crystal panel 2 for a predetermined time, a black data signal having a gray level of 0 is displayed, and a real data signal corresponding to the next horizontal section 1H is displayed. The holding time of the data lines DL1 to DLm can be secured.

As a result, an image quality may be improved by solving a motion blur generated in a liquid crystal display device driven by a conventional hold type.

In the impulsive type method, a hold type for supplying a real data signal to the data lines DL1 to DLm for one horizontal section 1H and displaying the same on the liquid crystal panel 102. The luminance was lowered compared to the type).

That is, to solve the motion blur of displaying the real data signal on the liquid crystal panel for one frame, the real data signal is supplied for half of one frame and the black data signal for the other half. As a result, there arises a problem that the overall luminance decreases.

SUMMARY OF THE INVENTION An object of the present invention is to provide a liquid crystal display and a driving method thereof capable of improving luminance.

According to an aspect of the present invention, there is provided a liquid crystal display device comprising: first means for generating a real data signal on a frame-by-frame basis; second means for generating a black data signal and a gray data signal; For comparing the real data signal of the previous frame and the real data signal of the current frame in pixel area units, and inserting any one of the black data signal or the gray data signal according to the comparison result and modulating the current real data signal. A third means and a liquid crystal panel for displaying the real data signal and the black data signal.

According to a second aspect of the present invention, there is provided a liquid crystal display device comprising: first means for generating a real data signal on a frame-by-frame basis; second means for generating a black data signal and a gray data signal; Compare the real data signal of the previous frame and the current frame among the frames, modulate the real data signal of the current frame according to the comparison result, and determine whether the black data and the gray data are inserted according to the gray level of the modulated real data signal. And a liquid crystal panel for displaying the black data, the gray data, and the real data signal.

The driving method of the liquid crystal display according to the first embodiment of the present invention for achieving the above object is to generate a real data signal in units of frames, to generate a black data signal, and to Comparing the real data signal of the current frame on a pixel area basis, inserting the black data according to the comparison result, modulating the current real data signal according to the comparison result, and the real data signal And displaying the black data signal.

According to a second aspect of the present invention, there is provided a method of driving a liquid crystal display device, the method comprising: generating a real data signal in units of frames, generating a black data signal and gray data, and realizing a previous frame; Comparing a data signal with a real data signal of a current frame in pixel region units, inserting one of the black data signal and the gray data signal according to the comparison result, and the current according to the comparison result Modulating a real data signal and displaying any one of the real data signal and the black data signal or the gray data signal.

Hereinafter, embodiments according to the present invention will be described with reference to the accompanying drawings.

2 is a view showing a liquid crystal display device according to a first embodiment of the present invention.

As shown in FIG. 2, the liquid crystal display according to the first embodiment of the present invention includes a liquid crystal panel 102 in which a plurality of gate lines GL0 to GLn and data lines DL1 to DLm are arranged, and the liquid crystal. The gate driver 104 and the data driver 106 for driving the panel 102, the timing controller 108 for controlling the gate driver 104 and the data driver 106, and a predetermined light to generate the liquid crystal. A backlight 110 for irradiating the panel 102 and a data modulator 112 for supplying a modulated real data signal to the data driver 106.

In the liquid crystal panel 102, a plurality of gate lines GL0 to GLn and data lines DL1 to DLm are arranged, and a thin film transistor TFT and a pixel electrode are formed at an intersection thereof. The liquid crystal panel 102 is formed of liquid crystal injected between the first and second substrates and the first and second substrates.

The gate driver 104 sequentially supplies a scan signal, that is, a gate high voltage VGH, to the plurality of gate lines GL0 to GLn according to the gate control signal generated by the timing controller 108.

The data driver 106 supplies a real data signal supplied from the data modulator 112 to the plurality of data lines DL1 to DLm according to a data control signal generated by the timing controller 108. do.

The timing controller 108 may include a control signal generator configured to generate a predetermined control signal using a vertical / horizontal synchronization signal (Vsync / Hsync), a data enable (DE) signal, and a clock signal supplied from a system (not shown). 118, a black data generation unit 116 for generating black data having a gray level of zero, and a data alignment unit for aligning and supplying a real data signal supplied from the system to the data modulation unit 112 ( 114).

As illustrated in FIG. 3, the data modulator 112 may include a frame memory 122 that stores a real data signal of a previous frame supplied from the data alignment unit 114, and a real of the previous frame. a comparator 124 for comparing a real data signal with a real data signal of a current frame, and a lookup table for outputting a real data signal or a modulated real data signal according to the comparison result; 126).

The frame memory 122 stores the real data signal supplied to the data driver 106 during the previous frame and supplies the real data signal to the comparator 124 in the current frame.

The comparison unit 124 compares the real data signal of the current frame supplied from the data aligning unit 114 with the real data signal of the previous frame supplied from the frame memory 122 during the current frame. To generate a comparison signal. The comparison unit 124 compares the real data signal of the previous frame and the real data signal of the current frame in pixel area units.

When the real data signal of the previous frame and the real data signal of the current frame are identical to each other, the comparison unit 124 generates a comparison signal of a low signal to generate the lookup table 126. To supply. When the real data signal of the previous frame and the real data signal of the current frame are different from each other, the comparison unit 124 generates a comparison signal of a high signal to generate the lookup table 126. And the data driver 106.

The lookup table 126 is supplied with a real data signal of the current frame from the data alignment unit 114 during the current frame.

The lookup table 126 stores modulation real data signals in pixel region units in a mapping format. The modulated real data signal is an experimental measurement value, and the lookup table 126 is generated by the comparator 124 and the real data signal of the current frame supplied from the data alignment unit 114. The modulated real data signal is output using the comparison signal.

For example, when a comparison signal of a high signal is supplied to the lookup table 126, the lookup table 126 may be applied to a real data signal supplied in units of pixel areas from the data alignment unit 114. The corresponding modulated real data signal is output to the data driver 06. The modulated real data signal is supplied to the data driver 106 and displayed on the liquid crystal panel 102 for a portion of the current frame.

In this case, the modulated real data signal output from the lookup table 126 is a signal having a larger gray level than the real data signal of the current frame supplied to the lookup table 126.

The comparison signal of the high signal output from the comparator 124 is supplied to the data driver 106 to control the black data supplied to the data driver 106. That is, the comparison signal is the black so that the modulated real data signal is displayed on the liquid crystal panel 102 for a portion of the current frame and the black data is displayed on the liquid crystal panel 102 for the rest. Control the data.

In addition, when a comparison signal of a low signal is supplied to the lookup table 126, the lookup table 126 may receive a real data signal supplied in units of pixel areas from the data alignment unit 114. Output to the data driver 106. Real data signals of the current frame are displayed on the liquid crystal panel 102 during the current frame.

The comparison signal of the low signal output from the comparator 124 is supplied to the data driver 106 to control the black data supplied to the data driver 106. That is, the comparison signal controls the black data not to be displayed on the liquid crystal panel 102 during the current frame.

The liquid crystal display according to the present invention compares the real data signal of the previous frame and the current frame, and when the real data signal of the previous frame and the real data signal of the current frame are different from each other, The luminance of the real data signal may be modulated to display a modulated real data signal for a certain portion of the current frame and to display black data for the remainder of the frame.

In addition, when the real data signal of the previous frame and the real data signal of the current frame are the same, the liquid crystal display of the present invention displays the real data signal of the current frame during the current frame. The luminance can be improved as compared with the liquid crystal display.

4 is a view showing a liquid crystal display device according to a second embodiment of the present invention.

As shown in FIG. 4, the liquid crystal display according to the second exemplary embodiment of the present invention includes a liquid crystal panel 202 for displaying a predetermined image, a gate driver 204 for driving the liquid crystal panel 202, and A data driver 206, a timing controller 208 that controls the gate driver 204 and the data driver 206, a backlight 110 and a real that generate predetermined light and irradiate the liquid crystal panel 102. and a data modulator 212 that modulates a (real) data signal and supplies the modulated data signal to the data driver 206.

In the detailed description of the liquid crystal display, the same parts as those of the first embodiment of the present invention will be omitted.

The timing controller 208 includes a data alignment unit 214 for aligning a real data signal supplied from a system (not shown), a black data generation unit 216 for generating black data having a gray level of 0, and a gray level. A gray data generation unit 218 for generating gray data having an intermediate value and a control signal generation unit 220 for generating a predetermined control signal.

The data aligner 214 supplies a real data signal in units of frames supplied from the system to the data modulator 212.

The black data generator 216 supplies the black data having the gray level 0 to the data driver 206, and the gray data generator 218 sends the gray data having the gray level to the data driver 206. Supply.

The control signal generator 220 generates a gate control signal for controlling the gate driver 204 and a data control signal for controlling the data driver 206.

As illustrated in FIG. 5, the data modulator 212 may include a frame memory 222 for storing a real data signal of a previous frame supplied from the data aligner 214, and the previous frame of the previous frame. A comparator 224 for comparing a real data signal with a real data signal of a current frame, and a lookup table for outputting a real data signal or a modulated real data signal according to the comparison result 226 and a data selector 206 for generating a selection signal for selecting black data or gray data according to the comparison result and the modulated real data signal supplied from the lookup table 226.

The frame memory 222 stores the real data signal of the previous frame from the data aligning unit 214 and supplies it to the comparing unit 224 in the current frame.

The comparison unit 224 compares the real data signal of the previous frame supplied from the frame memory 222 with the real data signal of the current frame supplied from the data alignment unit 214. A comparison signal according to the result is generated and supplied to the lookup table 226 and the data selector 228.

When the real data signal of the previous frame and the real data signal of the current frame are the same as each other, the comparison unit 224 generates a comparison signal of a low signal to generate the lookup table 226. To supply. When the real data signal of the previous frame and the real data signal of the current frame are different from each other, the comparison unit 224 generates a comparison signal of a high signal to generate the lookup table 226. And the data selector 228.

The lookup table 226 is the same as described in the first embodiment of the present invention.

The lookup table 226 may output the data driver 206 and the data selector 228 to a real data signal or a modulated real data signal of a current frame according to a comparison signal supplied from the comparator 224. ).

When the comparison signal of the high signal is supplied from the comparator 224, the lookup table 226 outputs a modulated real data signal corresponding to the current real data signal supplied in pixel area units. Supply to the data driver 206 and the data selector 228.

When the comparison signal of the low signal is supplied from the comparator 224, the lookup table 226 uses the data driver 206 and the data selector as they are. To 228.

The data selector 228 receives a real data signal from the lookup table 226 and selects black or gray data by dividing a gray level of the real data signal of each pixel area unit. Generate a signal.

That is, the data selector 228 divides the black data and the gray data into the first and second regions A and B according to the gray level of the real data signal supplied from the lookup table 226. Generate a selection signal to determine the presence or absence.

The data selector 228 does not operate when a comparison signal of a low signal is supplied from the comparator 224.

When the comparison signal of the high signal is supplied from the comparator 224, the data selector 228 selects black or gray data according to the gray level of the real data signal supplied from the lookup table 226. Generate a selection signal for selection.

For example, as illustrated in FIG. 6, the data selector 228 may be divided into a first area A from 0 to 140 gray levels, and a second area B from 141 to 256 gray levels, respectively. When a real data signal corresponding to Rx is supplied from the lookup table 226, a selection signal of a low signal is generated. The selection signal of the low signal is supplied to the data driver 206.

When the selection signal of the low signal is supplied to the data driver 206, the data driver 206 inserts black data for a predetermined portion of the current frame. As a result, the black data is displayed on the liquid crystal panel 202 for a portion of the current frame.

The data selector 228 generates a high signal selection signal when a real data signal corresponding to the second area B is supplied from the lookup table 226. The selection signal of the high signal is supplied to the data driver 206.

When the selection signal of the high signal is supplied to the data driver 206, the data driver 206 inserts gray data for a predetermined portion of the current frame. As a result, the gray data is displayed on the liquid crystal panel 202 for a portion of the current frame.

Referring to FIG. 6, when a real data signal is displayed without inserting black data or gray data (hereinafter, referred to as “normal mode”), luminance corresponding to 256 gray levels is 100. In this case, when the black data is inserted to display a real data signal (hereinafter referred to as a "black data mode"), the luminance corresponding to 256 gray levels is 40.

When the luminance corresponding to the real data signal of 100 gray scales in the normal mode is 25, the luminance 25 is the same as the luminance of the real data signal of 150 gray scales in the black data mode. When the luminance corresponding to a real data signal of 140 gray levels is 40 in the normal mode, the luminance 40 is equal to the luminance corresponding to 256 real data signals of 256 gray levels in the black data mode.

In the black data mode, a luminance corresponding to a 256 gray level real data signal is the same as a luminance of a 140 gray level real data signal in the normal mode. In the normal mode, the luminance corresponding to a real data signal of 140 gray or more is represented only by the luminance of a real data signal of 256 gray levels in the black data mode.

In the black data mode, since the luminance corresponding to 256 gray scales is the same as the luminance corresponding to 140 gray scales in the normal mode, the luminance in the black data mode is lower than in the normal mode.

Therefore, when the gray level of the real data signal supplied from the lookup table 226 to the data selector 228 is 0 to 140 gray levels, black data is inserted for a predetermined portion of the current frame, and 141 to 256 In the case of gray level, luminance is improved by inserting gray data having a larger gray level than the black data during a certain portion of the current frame.

The liquid crystal display according to the present invention is divided into the first and second regions A and B according to the gray level of the real data signal of the current frame, and is divided into the first region A by the data driver 206. When the real data signal of the corresponding current frame is supplied, the real data signal is displayed for a certain portion of the current frame and black data for the remaining portion. In addition, when the real data signal of the current frame corresponding to the second area B is supplied to the data driver 206, the real data signal is displayed for a predetermined portion of the current frame, and By displaying gray data, luminance can be improved as compared with a conventional liquid crystal display.

As mentioned above, the liquid crystal display according to the present invention compares the real data signal of the previous frame and the current frame so that the real data signal of the previous frame and the real data signal of the current frame are mutually different. If different, the modulated real data signal of the current frame is modulated, and if the modulated real data signal is a gray level corresponding to the first region, then the modulated real data signal is modified for a portion of the current frame. By displaying and displaying black data for the remainder, luminance can be improved as compared with the conventional liquid crystal display.

In the liquid crystal display according to the present invention, if the real data signal of the previous frame and the real data signal of the current frame are different from each other, and the real data signal of the current frame is a gray level corresponding to the second area, In addition, the luminance may be improved in comparison with the conventional liquid crystal display by modulating real data of the current frame, displaying real data modulated for a certain portion of the current frame, and displaying gray data for the remaining portions.

In addition, when the real data signal of the previous frame and the real data signal of the current frame are the same, the liquid crystal display of the present invention displays the real data signal of the current frame during the current frame. The luminance can be improved as compared with the liquid crystal display.

As described above, the liquid crystal display according to the present invention compares the real data signals of the previous frame and the current frame by pixel area unit and supplies the real data signals during the corresponding frame when the same is the same. If different, the real data signal of the corresponding frame is modulated, and the black or gray data signal is supplied for a predetermined portion of the frame according to the gradation of the modulated real data signal, thereby improving luminance over the conventional LCD. You can.

Claims (15)

First means for generating a real data signal in units of frames; Second means for generating a black data signal and a gray data signal; For comparing the real data signal of the previous frame and the real data signal of the current frame in pixel area units, and inserting any one of the black data signal or the gray data signal according to the comparison result and modulating the current real data signal. Third means; And And a liquid crystal panel displaying the real data signal and the black data signal. The method of claim 1, The third means, A frame memory configured to store the real data signal generated in the frame unit; A comparator for comparing the real data signal of the previous frame supplied from the frame memory with the real data signal of the current frame supplied from the first means; And And a lookup table configured to output a modulated data signal based on the real data signal of the current frame according to the comparison result. 3. The method of claim 2, And when the real data signal of the previous frame and the real data signal of the current frame are the same, the lookup table outputs the real data signal of the current frame as it is during the current frame. The method of claim 1, And displaying the real data signal during the current frame in a pixel area in which the real data signal of the previous frame and the real data signal of the current frame are the same. 3. The method of claim 2, When the real data signal of the previous frame and the real data signal of the current frame is different from each other, the lookup table modulates the real data signal of the current frame and outputs a modulated real data signal during a certain portion of the current frame. Display. The method of claim 1, When the real data signal of the previous frame and the real data signal of the current frame are different from each other, the liquid crystal panel displays the modulated real data signal for a certain portion of the current frame and the black data for the remaining portion. LCD display device. 3. The method of claim 2, And a gray scale larger than the real data signal of the current frame. First means for generating a real data signal in units of frames; Second means for generating a black data signal and a gray data signal; Compare the real data signal of the previous frame and the current frame among the frames, modulate the real data signal of the current frame according to the comparison result, and determine whether the black data and the gray data are inserted according to the gray level of the modulated real data signal. Third means for making; And And a liquid crystal panel for displaying the black data, gray data, and real data signal. 9. The method of claim 8, Third means, A frame memory configured to store the real data signal generated in the frame unit; A comparator for comparing the real data signal of the previous frame supplied from the frame memory with the real data signal of the current frame supplied from the first means; And And a lookup table configured to output a modulated data signal based on the real data signal of the current frame according to the comparison result. 10. The method of claim 9, And when the real data signal of the previous frame and the real data signal of the current frame are the same, the lookup table outputs the real data signal of the current frame as it is during the current frame. 9. The method of claim 8, And displaying the real data signal during the current frame in a pixel area in which the real data signal of the previous frame and the real data signal of the current frame are the same. 10. The method of claim 9, When the real data signal of the previous frame and the real data signal of the current frame is different from each other, the lookup table modulates the real data signal of the current frame and outputs a modulated real data signal during a certain portion of the current frame. Display. 10. The method of claim 9, And a gray scale larger than the real data signal of the current frame. Generating a real data signal in units of frames; Generating a black data signal; Comparing the real data signal of the previous frame with the real data signal of the current frame on a pixel area basis; Inserting the black data according to the comparison result; Modulating the current real data signal according to the comparison result; And And displaying the real data signal and the black data signal. Generating a real data signal in units of frames; Generating a black data signal and gray data; Comparing the real data signal of the previous frame with the real data signal of the current frame on a pixel area basis; Inserting one of the black data signal and the gray data signal according to the comparison result; Modulating the current real data signal according to the comparison result; And And displaying one of the real data signal, the black data signal, and the gray data signal.

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