KR101327856B1 - Liquid crystal display device and driving method thereof - Google Patents

Abstract

The present invention relates to a liquid crystal display device for displaying an image based on an input video signal and a driving method thereof; A field memory for storing grayscale data of an input video signal in field units and outputting grayscale data of a previous field; A subtractor for generating a gradation even between the current gradation data inputted and the gradation data outputted from the field memory; An arithmetic unit for outputting a first correction value by multiplying a predetermined coefficient by a system output from the subtractor; A noise detector for detecting a noise amount of the input video signal and outputting a value corresponding to the noise; A histogram detector for detecting a frequency distribution in a predetermined gradation region of the input video signal; A logic circuit for logically calculating an output of the noise detector and an output of the histogram detector; A multiplier for outputting a second correction value by multiplying the output of the logic circuit by the first correction value from the calculating unit; An adder for adding and correcting a second correction value from the multiplier to the current gray level data; An overflow correction unit for correcting and outputting the corrected grayscale data when an overflow occurs in the corrected grayscale data supplied from the adder, and outputting the corrected grayscale data as it is when the overflow does not occur. ; And a driving unit for driving the liquid crystal panel by an image voltage based on the output of the overflow correcting unit.

Description

Liquid crystal display and its driving method {LIQUID CRYSTAL DISPLAY DEVICE AND DRIVING METHOD THEREOF}

1 is a view showing a comparison screen of contrast for explaining a liquid crystal display according to an exemplary embodiment of the present invention.

FIG. 2 is a diagram showing a histogram of grayscale data corresponding to FIG. 1; FIG.

3 is a block diagram illustrating a liquid crystal display according to an exemplary embodiment of the present invention.

Description of the Related Art [0002]

1: field memory 2: subtractor

3: calculation unit 4: coefficient determination unit

5 noise detection unit 6 histogram detection unit

7: logical sum circuit 8: multiplier

9: adder 10: overflow correction unit

11 driver 12 liquid crystal panel

The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device and a driving method thereof for displaying an image based on an input video signal.

Conventionally, a liquid crystal display device that detects noise and slows the response of a liquid crystal has been proposed. (For example, Japanese Patent Laid-Open No. 2004-2461180)

However, in the case of slowing the response of the liquid crystal, the moving picture is blurred, and if the determination of noise or moving picture is not complete, there is a possibility that a blurring effect may occur.

Accordingly, in order to solve the above problems, the present invention is to provide a liquid crystal display device and a driving method thereof capable of reducing noise without degrading the original display image quality.

According to an aspect of the present invention, there is provided a liquid crystal display device including: a field memory configured to store gray data of an input image signal in field units and to output gray data of a previous field; A subtractor for generating a gradation even between the current gradation data inputted and the gradation data outputted from the field memory; An arithmetic unit for outputting a first correction value by multiplying a predetermined coefficient by a system output from the subtractor; A noise detector for detecting a noise amount of the input video signal and outputting a value corresponding to the noise; A histogram detector for detecting a frequency distribution in a predetermined gradation region of the input video signal; A logic circuit for logically calculating an output of the noise detector and an output of the histogram detector; A multiplier for outputting a second correction value by multiplying the output of the logic circuit by the first correction value from the calculating unit; An adder for adding and correcting a second correction value from the multiplier to the current gray level data; An overflow correction unit for correcting and outputting the corrected grayscale data when an overflow occurs in the corrected grayscale data supplied from the adder, and outputting the corrected grayscale data as it is when the overflow does not occur. ; And a driving unit for driving the liquid crystal panel by the image voltage based on the output of the overflow correcting unit.

According to another exemplary embodiment of the present invention, a liquid crystal display includes: a liquid crystal panel configured to display an image by adjusting light transmittance according to a response speed of a liquid crystal according to an image voltage; A data correction unit generating a corrected image signal by correcting the input image signal so that the response speed of the liquid crystal is controlled by using a histogram of each gray level region of the input image signal to be supplied to the liquid crystal panel; And a driving unit for driving the liquid crystal panel by an image voltage based on the corrected image signal.

The data correction unit first corrects the video signal of the current field by using the histogram and the amount of video noise of the video signal of the current field and the histogram, even between the video signal of the previous field and the video signal of the current field. And generating data, and secondly correcting the first correction gray data according to the presence or absence of gray overflow generated in the first correction gray data to generate the corrected image signal.

The data corrector may include: a field memory configured to store grayscale data of the input video signal in field units and to output a video signal of the previous field; A subtractor for generating a system even between the video signal of the previous field and the video signal of the current field output from the field memory; An arithmetic unit for outputting a first correction value by multiplying a predetermined coefficient by a system output from the subtractor; A noise detector for detecting an amount of video noise of a video signal of the current field; A histogram detector for detecting a frequency distribution in a predetermined gradation region of the video signal of the current field and outputting a signal for turning on / off noise processing; Logic circuitry for logically computing the amount of video noise and a signal that turns the noise processing on and off; A multiplier for outputting a second correction value by multiplying the output of the logic circuit by the first correction value; An adder configured to add the second correction value to the video signal of the current field to generate the first correction gray level data; And secondly correcting the first correction gray data when the overflow occurs in the first correction gray data, and supplying the corrected image signal to the driving unit, and correcting the overflow when the overflow does not occur. And an overflow correction unit for supplying the first correction gray level data as the image signal to the driving unit as it is.

The operation unit generates the first correction value by multiplying different coefficients by the gray level data of the current field according to the gray level data of the current field and even when the gray level data of the current field is increased or decreased. Characterized in that.

The calculating unit may store in advance another coefficient indicating the degree of correction at the time of increasing and decreasing the gradation data set by the coefficient determining unit.

The histogram detector outputs a signal for turning on the noise processing when a frequency of gray data of the video signal exceeds a reference value in a predetermined gray area for each field, and when the frequency of the gray data of the video signal is less than the reference value. And generating a signal for turning off the noise processing.

The logic circuit may be a logic sum gate configured to perform an OR operation on the amount of the image noise and a signal for turning the noise processing on and off.

A method of driving a liquid crystal display according to an exemplary embodiment of the present invention includes storing grayscale data of an input image signal in field units using a field memory and outputting grayscale data of a previous field; Generating even a gradation between current gradation data input using a subtractor and gradation data output from the field memory; Outputting a first correction value by multiplying a predetermined coefficient by a system output from the subtractor; Detecting a noise amount of the input video signal using a noise detector; Detecting a frequency distribution in a predetermined gradation region of the input video signal using a histogram detector; Logically calculating an output of the noise detector and an output of the histogram detector; Multiplying the result of the logical operation by the first correction value to output a second correction value; Correcting by adding the second correction value to the current grayscale data; A step of correcting and outputting the corrected gradation data when an overflow occurs in the corrected gradation data using an overflow correction unit, and outputting the corrected gradation data as it is when the overflow does not occur ; And driving the liquid crystal panel by an image voltage based on the output of the overflow correcting unit.

A driving method of a liquid crystal display according to an exemplary embodiment of the present invention is a driving method of a liquid crystal display for displaying an image on a liquid crystal panel by adjusting light transmittance according to a response speed of a liquid crystal according to an image voltage. Generating a corrected video signal by correcting the input video signal so that the response speed of the liquid crystal is controlled by using a histogram for each gray level region of the input video signal; And driving the liquid crystal panel by an image voltage based on the corrected image signal.

The generating of the corrected video signal may include generating a video signal of the current field by using the amount of video noise of the video signal of the current field and the histogram, even between the video signal of the previous field and the video signal of the current field. Generating first corrected grayscale data by correcting the difference, and secondly correcting the first corrected grayscale data according to the presence or absence of grayscale overflow generated from the first corrected grayscale data to generate the corrected image signal. do.

The generating of the corrected video signal may include storing grayscale data of the input video signal in field units by using a field memory and outputting a video signal of the previous field; Generating a system between the video signal of the previous field and the video signal of the current field output from the field memory using a subtractor; Outputting a first correction value by multiplying a predetermined coefficient by a system output from the subtractor; Detecting a video noise amount of a video signal of the current field by using a noise detector; Detecting a frequency distribution in a predetermined gradation region of the video signal of the current field by using a histogram detector to output a signal for turning on / off noise processing; Logically computing the amount of image noise and a signal that turns the noise processing on and off; Multiplying the result of the logical operation by the first correction value to output a second correction value; Generating the first correction gray level data by adding the second correction value to the image signal of the current field; And secondly correcting the first correction gray data when the overflow occurs in the first correction gray data, and generating the corrected image signal, and when the overflow does not occur, the first correction gray data. And generating the corrected video signal as it is.

The outputting of the first correction value may be performed by multiplying different coefficients by the gray level data of the current field according to the gray level data of the current field when the gray level data of the current field is increased or decreased. And generating the first correction value.

The histogram detector outputs a signal for turning on the noise processing when a frequency of gray data of the video signal exceeds a reference value in a predetermined gray area for each field, and when the frequency of the gray data of the video signal is less than the reference value. And generating a signal for turning off the noise processing.

The logical operation may include performing an OR operation on the amount of image noise and a signal for turning off the noise processing.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings and embodiments.

1A and 1B are diagrams illustrating a comparison screen of contrast for explaining a liquid crystal display according to an exemplary embodiment of the present invention.

In the one-frame screen shown in Figs. 1A and 1B, as shown in Fig. 1A, noise remains on the screen with high contrast, making it invisible to the eye. However, as shown in Fig. 1B, noise is visible on the screen with low contrast. Accordingly, in the present invention, by slowing the response of the liquid crystal based on the result of the histogram of the display screen, the noise is reduced without lowering the original display image quality.

2 (a) and 2 (b) are diagrams showing histograms of grayscale data corresponding to FIGS. 1 (a) and (b).

In the present invention, the histogram is extracted for each frame, and as shown in (b) of FIG. 2, when the screen data is inclined to lightness, the reduction of noise is effective, and the brightness of the screen data is shown in FIG. 2 (b). If there is no bias, noise reduction is invalid.

Specifically, in the present invention, the screen where the noise is actually visible is not the screen with the high contrast, but the part with the low contrast, so that control is performed only on the display screen (display portion) where the noise is visible by taking a histogram of the display screen information. To remove only noise. As a result, noise can be reduced without lowering the original display image quality.

3 is a block diagram illustrating a configuration of a liquid crystal display according to an exemplary embodiment of the present invention.

The liquid crystal display shown in FIG. 3 includes a field memory 1 for storing the grayscale data of an input video signal in field units and outputting the grayscale data of a previous field, and the current grayscale data and the field memory 1 inputted thereto. The correction value A is output by multiplying the subtractor 2 which generates even the gradation data and the system output from the subtractor 2 by a predetermined coefficient (degree of correction) set by the coefficient determination unit 4. An arithmetic unit 3 for detecting a noise amount of the input video signal and outputting a value corresponding to the noise, and a histogram detector 6 for detecting a frequency distribution in a predetermined gradation region of the input video signal. ), A logic sum circuit 7 for ORing the output of the noise detector 5 and the output of the histogram detector 6, and the output of the logic sum circuit 7 to the correction value A from the calculator 3. Multiply by the correction value B The overflow is caused by the multiplier 8, the adder 9 which adds the correction value B from the multiplier 8 to the current grayscale data, and the correction value B in the corrected grayscale data supplied from the adder 9. Recalibrates the corrected gradation data when it occurs (e.g., the corrected gradation data is greater than or less than the maximum value of the gradation data) and outputs the corrected gradation data as it is when no overflow occurs. The overflow correction unit 10 and the drive unit 11 for driving the liquid crystal panel 12 by the image voltage based on the output of the overflow correction unit 10 are configured.

Here, the field memory 1, the subtractor 2, the calculation unit 3, the coefficient determination unit 4, the noise detector 5, the histogram detector 6, the logical sum circuit 7, the multiplier 8, the adder ( 9) and the data compensating unit composed of the overflow correcting unit 10, the amount of noise of the image corresponding to the gray level data of the current field and the gray level data of the current field, even the gray level data of the current field and the gray level data of the previous field. The histogram is used to firstly correct the gradation data of the current field to generate the first correction gradation data, and to perform the second correction of the first correction gradation data by the first correction to generate a corrected image signal and supply it to the driver 11. do.

The subtractor 2 detects even the gradation data of the current frame and the gradation data of the previous frame.

The calculation unit 3 previously stores different coefficients indicating the degree of correction when the gray data is increased and decreased, and even the gray level data and the output of the field memory 1, i.e., the gray level data of the previous one field, are stored. The correction amount A is obtained by multiplying the increments of the gradation data of the current field with the sign by multiplying the coefficients different from each other when the gradation data is increased and decreased.

This is based on the following reasons. In the liquid crystal panel 12, by changing the image voltage applied to the liquid crystal, the arrangement of the liquid crystal molecules is changed, and as a result, the transmittance of the liquid crystal is changed to perform predetermined gradation display. In this case, when the image voltage is increased, the arrangement change of the liquid crystal molecules is caused by the electric field applied to the liquid crystal. When the image voltage is decreased, the arrangement change of the liquid crystal molecules is caused by the intermolecular force. The rate of change in the arrangement of the liquid crystal molecules is faster than the rate of change in the alignment of the liquid crystal molecules due to intermolecular forces.

For this reason, the response speed when the gray scale data increases (when the image voltage increases) becomes faster than the response speed when the gray scale data increases (when the image voltage decreases), so that the difference in the response speed of the liquid crystal when the gray data increases and decreases. Is generated, it is preferable to set the coefficients separately for each, and set the coefficient at the time of decreasing the gray scale data to a value larger than the coefficient at the time of increasing the gray scale data.

In addition, the noise detector 5 controls the response speed of the liquid crystal to be faster when there is no noise or very small, that is, by outputting "1" normally. On the other hand, when there is too much noise, a value close to "0" is output so that the response speed of the liquid crystal is slowed down according to the amount of noise.

The histogram detection unit 6 turns the noise processing ON / OFF according to the histogram, for example, in the region of gray level within a predetermined data section in FIG. 2B in the range of "0" to "100". "1" is output to turn on the noise processing when the frequency of the " That is, the histogram detection unit 6 extracts a histogram for each field and outputs "1" to enable noise reduction when biasing the brightness of the screen data, and disables noise reduction when there is no bias in the brightness of the screen data. Outputs "0"

The OR circuit 7 performs an OR operation on the output of the noise detector 5 and the output of the histogram detector 6. For example, when the output of the noise detector 5 is "0" and the output of the histogram detector 6 is "0", the OR circuit 7 outputs "0" so that the response speed of the liquid crystal is slowed. do. In addition, when the output of the noise detector 5 is "1" and the output of the histogram detector 6 is "0", the OR circuit 7 outputs "1" to control the response speed of the liquid crystal to be faster. When the output of the histogram detector 6 is "1", regardless of the output of the noise detector 5, the OR circuit 7 outputs "1" to control the response speed of the liquid crystal to be faster.

The multiplier 8 multiplies the correction value A from the calculating part 3 and the output of the OR circuit 7 to obtain the correction value B.

The adder 9 adds the correction value B from the multiplier 8 to the input tone data, and supplies the corrected tone data to the overflow correction unit 10.

The overflow correction unit 10 recalibrates the corrected gradation data and outputs it to the driving unit 11 when overflow occurs due to the correction value B in the gradation data corrected by the correction value B, and overflow does not occur. In this case, the corrected gradation data is output to the driver 11 as it is.

The driver 11 supplies the image voltage based on the output of the overflow corrector 10 to the liquid crystal panel 12 to drive the liquid crystal panel 12.

Therefore, according to the exemplary embodiment of the present invention illustrated in FIG. 3, by controlling the response speed of the liquid crystal based on the result of the histogram of the display screen, the contrast is low, and the noise reduction is effective only when the noise is visible. Noise can be reduced without degrading the image quality.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Will be apparent to those of ordinary skill in the art.

The liquid crystal display and the driving method thereof according to the embodiment of the present invention as described above effectively control the noise reduction based on the result of the histogram of the display screen to reduce the noise and effectively reduce the noise only when the noise is visible. Thus, noise can be reduced without degrading the original display image quality.

Claims (15)

A field memory for storing grayscale data of an input video signal in field units and outputting grayscale data of a previous field; A subtractor for generating a gradation even between the current gradation data inputted and the gradation data outputted from the field memory; An arithmetic unit for outputting a first correction value by multiplying a predetermined coefficient by a system output from the subtractor; A noise detector for detecting a noise amount of the input video signal and outputting a value corresponding to the noise; A histogram detector for detecting a frequency distribution in a predetermined gradation region of the input video signal; A logic circuit for logically calculating an output of the noise detector and an output of the histogram detector; A multiplier for outputting a second correction value by multiplying the output of the logic circuit by the first correction value from the calculating unit; An adder for adding and correcting a second correction value from the multiplier to the current gray level data; An overflow correction unit for correcting and outputting the corrected grayscale data when an overflow occurs in the corrected grayscale data supplied from the adder, and outputting the corrected grayscale data as it is when the overflow does not occur. ; And And a driving unit for driving the liquid crystal panel by the image voltage based on the output of the overflow correcting unit. A liquid crystal panel which displays an image by adjusting light transmittance according to a response speed of the liquid crystal according to the image voltage; A data correction unit generating a corrected image signal by correcting the input image signal so that the response speed of the liquid crystal is controlled by using a histogram of each gray level region of the input image signal to be supplied to the liquid crystal panel; And A driving unit for driving the liquid crystal panel by an image voltage based on the corrected video signal; The data correction unit first corrects the video signal of the current field by using the histogram and the amount of video noise of the video signal of the current field and the histogram, even between the video signal of the previous field and the video signal of the current field. And generating data and generating the corrected image signal by secondly correcting the first correction gray data according to the presence or absence of gray overflow generated in the first correction gray data. delete The method of claim 2, The data correction unit, A field memory for storing the grayscale data of the input video signal in field units and outputting the video signal of the previous field; A subtractor for generating a system even between the video signal of the previous field and the video signal of the current field output from the field memory; An arithmetic unit for outputting a first correction value by multiplying a predetermined coefficient by a system output from the subtractor; A noise detector for detecting an amount of video noise of a video signal of the current field; A histogram detector for detecting a frequency distribution in a predetermined gradation region of the video signal of the current field and outputting a signal for turning on / off noise processing; Logic circuitry for logically computing the amount of video noise and a signal that turns the noise processing on and off; A multiplier for outputting a second correction value by multiplying the output of the logic circuit by the first correction value; An adder configured to add the second correction value to the video signal of the current field to generate the first correction gray level data; And When the overflow occurs in the first correction grayscale data, the first correction grayscale data is second-corrected to supply the corrected image signal to the driving unit, and the corrected image when the overflow does not occur. And an overflow correction unit for supplying the first correction gray level data as the signal to the driving unit as it is. The method according to claim 1 or 4, The operation unit generates the first correction value by multiplying different coefficients by the gray level data of the current field according to the gray level data of the current field and even when the gray level data of the current field is increased or decreased. Liquid crystal display characterized in that. 6. The method of claim 5, And said calculating section stores in advance different coefficients each indicating the degree of correction at the time of increasing and decreasing the gradation data set by the coefficient determining section. 6. The method of claim 5, The histogram detector outputs a signal for turning on the noise processing when a frequency of gray data of the video signal exceeds a reference value in a predetermined gray area for each field, and when the frequency of the gray data of the video signal is less than the reference value. And generating a signal to turn off the noise processing. The method of claim 7, wherein And the logic circuit is a logic sum gate for performing an OR operation on the amount of the image noise and the signal for turning the noise processing on and off. Storing grayscale data of an input video signal in field units by using a field memory and outputting grayscale data of a previous field; Generating even a gradation between current gradation data input using a subtractor and gradation data output from the field memory; Outputting a first correction value by multiplying a predetermined coefficient by a system output from the subtractor; Detecting a noise amount of the input video signal using a noise detector; Detecting a frequency distribution in a predetermined gradation region of the input video signal using a histogram detector; Logically calculating an output of the noise detector and an output of the histogram detector; Multiplying the result of the logical operation by the first correction value to output a second correction value; Correcting by adding the second correction value to the current grayscale data; Correcting and outputting the corrected grayscale data when an overflow occurs in the corrected grayscale data by using an overflow corrector, and outputting the corrected grayscale data as it is when the overflow does not occur; And And driving the liquid crystal panel by an image voltage based on the output of the overflow correcting unit. In a driving method of a liquid crystal display device for displaying an image on a liquid crystal panel by adjusting the light transmittance according to the response speed of the liquid crystal according to the image voltage, Generating a corrected video signal by correcting the input video signal such that the response speed of the liquid crystal is controlled by using a histogram for each gray level region of the input video signal to be supplied to the liquid crystal panel; And Driving the liquid crystal panel by an image voltage based on the corrected video signal; The generating of the corrected video signal may include firstly a video signal of the current field by using the histogram and the amount of video noise of the video signal of the current field and the histogram. Generating first corrected gradation data by performing correction, and secondly correcting the first corrected gradation data according to the presence or absence of gradation overflow generated from the first corrected gradation data to generate the corrected image signal. Method of driving a liquid crystal display device. delete 11. The method of claim 10, Generating the corrected video signal, Storing grayscale data of the input video signal in field units using a field memory and outputting a video signal of the previous field; Generating a system between the video signal of the previous field and the video signal of the current field output from the field memory using a subtractor; Outputting a first correction value by multiplying a predetermined coefficient by a system output from the subtractor; Detecting a video noise amount of a video signal of the current field by using a noise detector; Detecting a frequency distribution in a predetermined gradation region of the video signal of the current field by using a histogram detector to output a signal for turning on / off noise processing; Logically computing the amount of image noise and a signal that turns the noise processing on and off; Multiplying the result of the logical operation by the first correction value to output a second correction value; Generating the first correction gray level data by adding the second correction value to the image signal of the current field; And When the overflow occurs in the first correction gradation data, the first correction gradation data is second-corrected to generate the corrected image signal, and when the overflow does not occur, the first correction gradation data is generated. And generating the corrected image signal as it is. The method according to claim 9 or 12, The outputting of the first correction value may be performed by multiplying different coefficients by the gray level data of the current field according to the gray level data of the current field when the gray level data of the current field is increased or decreased. And generating the first correction value. 14. The method of claim 13, The histogram detector outputs a signal for turning on the noise processing when a frequency of gray data of the video signal exceeds a reference value in a predetermined gray area for each field, and when the frequency of the gray data of the video signal is less than the reference value. And generating a signal for turning off the noise processing. 15. The method of claim 14, And the logical operation comprises performing an OR operation on the amount of the image noise and the signal for turning off the noise processing.

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