KR100274795B1 - Method of eliminating block driving noise in lcd and apparatus thereof - Google Patents

Abstract

The present invention relates to a noise removing apparatus for removing noise of vertical lines generated during sampling / holding in a TFT-LCD which performs block driving.

According to an exemplary embodiment of the present invention, a luminance is detected for each pixel in a display panel, and the luminance detected by the n-th pixel is compared with any one of the first to n-th pixels, and detected by any one of the first to n-th pixels. A predetermined weight is added to or subtracted from the n th video data until the luminance is equal to the luminance detected at the n th pixel, and then the luminance detected at any one of the first to n-1 th pixels and the luminance detected at the n th pixel. When is matched to store the n-th video data to which the predetermined weight is added or subtracted.

The block driving noise removing method and apparatus of the liquid crystal display according to the present invention can reduce the noise pattern caused by the block driving by feedback control of the input signal using the luminance difference detected by the display panel.

Description

Methods Of Eliminating Block Driving Noise in Liquid Crystal Display and Apparatus Thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a flat panel display (FPD) having a matrix form, such as a liquid crystal display (hereinafter referred to as "LCD"), and more particularly to a thin film transistor ("TFT") for block driving. The present invention relates to a noise removing device for removing noise of vertical lines generated during sampling / holding in an LCD.

Recently, display devices using liquid crystals have been developed for commercial use or for home use. Poly Si-TFT LCD used for LCD projection uses a method called block driving to lower the operating frequency because the internal driving circuit is slow. Block driving means that the input video signal of high frequency, that is, the input video signal of high resolution, does not scan the input video signal like the cathode ray tube (CRT). In this method, the frequency of the signal is lowered, and the signal input to one line is sampled, and the signal is separated into several lines to simultaneously output a few lines of signals as input data of the LCD and drive them. The video signal operating voltage of the LCD is more than 10 Vpp, which is higher than 0.7 Vpp, and more than 13V at the DC signal level. Accordingly, since the LCD samples and holds the high frequency signal having a high operating voltage, the LCD operates to generate a sample / hold noise. Such noise may also be caused by the driving clock (horizontal synchronization signal) of the LCD.

1 is a circuit diagram schematically showing a conventional sample / hold circuit.

Referring to FIG. 1, a conventional sample / hold circuit includes first to third sample / holders 2 and 4 that sequentially sample / hold an input video signal according to first to third clocks Clk1, Clk2, and Clk3. 6 and the fourth to sixth samples / holders 8, 10 that simultaneously sample / hold the signals stored in the first to third samples / holders 2, 4 and 6 according to the fourth clock Clk4. 12). The first to third samples / holders 2, 4, and 6 are connected in parallel to the input lines to supply the first to third clocks Clk1, Clk2, and Clk3, respectively, and to supply the fourth clock Clk4 in common. do. The fourth to sixth samples / holders 8, 10 and 12 are connected in series to the output terminals of the first to third samples / holders 2, 4 and 6, respectively, and in series to the LCD panel 1. The fourth to sixth samples / holders 8, 10, and 12 are simultaneously applied to the fourth to fourth samples Clk4 by applying the fourth clock Clk4 to the first to third samples / holders 2,4,6. Accordingly, the signals stored in the first to third samples / holders 2, 4, and 6 are input and the stored signals are simultaneously supplied to the LCD panel 1 according to the clock A (Clk A). The LCD panel 1 is supplied with first and second horizontal synchronization signals HCK1 and HCK2 as driving clock signals.

The waveforms of the input video signal and the clock signal are shown in FIG. Here, the first to third clocks Clk1, Clk2, and Clk3 sequentially enable the first to third sample / holders 2, 4, and 6, and the fourth clock Clk4 to first to third. 3 Outputs the signal stored in the sample / holder (2, 4, 6) to the rear stage at the same time. In this case, when the three-phase signal processing is performed, as shown in part “A” of FIG. 2, the third clock Clk and the fourth clock Clk are in phase so that the third sample / holder 6 immediately starts the third sample / holder 6. The output signal of the third sample / holder 6 input to the six samples / holders 12 may be different from the output signals of the first and second samples / holders 2 and 4. In addition, since the first and second horizontal synchronizing signals HCK1 and HCK2 for driving the LCD are changed as shown in the "B" portion of FIG. 2 at the falling edge of the third clock Clk3, noise may occur at this time. .

In other words, analog driven LCDs, such as Poly Si-TFT LCDs used in LCD projections, block and drive the input image signal, causing noise to occur in specific pixel columns at every pixel column period. If the input signal is sampled and held by the sample / hold circuit and is displayed as 3 block driving, in the display panel, as shown in FIG. 3, the two pixel columns PC1 and PC2 are displayed at normal luminance while the adjacent third pixel columns ( PC3) causes noise. Since the noise pattern is pointed out as a major factor that significantly lowers the display quality, there is a demand for a method for removing the noise pattern.

Accordingly, an object of the present invention is to provide a block driving method for sampling / holding a signal input into one line and dividing the signal into multiple lines and simultaneously supplying multiple signals as input data of a display panel. Disclosed is a block driving noise removing method and apparatus for a liquid crystal display device to remove generated streak noise patterns.

1 is a circuit diagram showing a conventional sample / hold circuit.

FIG. 2 is a waveform diagram illustrating input video signals and clock signals applied to the sample / hold circuit shown in FIG.

3 is a diagram illustrating noise of a stripe pattern on a screen.

4 is a block diagram illustrating a block driving noise removing device of a liquid crystal display according to an exemplary embodiment of the present invention.

Fig. 5 is a flowchart showing the processing procedure of the block driving noise removing method of the liquid crystal display according to the embodiment of the present invention step by step.

<Description of the code | symbol about the principal part of drawing>

1: LCD panel 2,4,6,8,10,12: Sample / holder

22,38: A / D converter 24: ROM

26: MUX 28: D / A converter

30: PLL 32: Counter

34 controller 36 data comparison unit

40: photometer 42: sample / hold

In order to achieve the above object, the block driving noise removing method of the liquid crystal display according to the present invention comprises the steps of detecting the luminance of each pixel in the display panel, and in any one of the first to n-1 th pixel and the n th pixel Comparing the detected luminances, adding or subtracting a predetermined weight to the n-th video data until the luminance detected at any one of the first to n-1th pixels and the luminance detected at the nth pixel match; And storing the n-th video data to which a predetermined weight is added when the luminance detected in any one of the first to n-1th pixels and the luminance detected in the n-th pixel are matched.

The block driving noise removing device of the liquid crystal display according to the present invention includes a display panel in which pixels are arranged in a matrix, luminance detection means for detecting luminance at each pixel in the display panel, and any one of the first to n-th pixels. Luminance comparison means for comparing the luminance detected in one and the n-th pixel, and luminance detected in any one of the first to n-1th pixels and luminance detected in the n-th pixel according to the comparison signal generated from the luminance comparison means Control means for adding or subtracting a predetermined weight to the n-th video data until it matches, and the luminance detected by any one of the first to n-1th pixels under the control of the control means and the luminance detected by the n-th pixel And a memory in which the n-th video data to which the predetermined weight is added or subtracted when matched is stored.

Other objects and features of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, a preferred embodiment of the present invention will be described with reference to FIG. 4.

In the configuration of FIG. 4, the block driving noise removing device of the liquid crystal display according to the present invention includes an LCD panel 1 in which pixels are arranged in a matrix form, and a first analog / digital converter for sampling and digitizing an input analog video signal. (Hereinafter referred to as an "A / D converter") 22, the optical measuring device 40 for detecting the brightness of the LCD panel 1, and the luminance data detected in the pixel string including the normally displayed pixel string and noise The output signal of the data comparator 36 when the luminance detected by the second A / D converter 38 and the data comparator 36 and the pixel string including noise that are normally displayed are equal to each other. ROM (Read Only Memory) 24 in which the DMA is stored, and a phase locked loop for generating a counter clock signal Clk signal by multiplying the input horizontal synchronization signal Hsync by frequency. 30 and the counter clock signal Clk According to the counter 32 for counting the input horizontal synchronizing signal Hsync, the controller 34 for controlling the ROM 24 and the counter 32, and the output signal of the counter 34. A multiplexer (hereinafter referred to as "MUX") 26 which selects and outputs the output signal of the D converter 22 or the output signal of the ROM 24, and converts the output signal of the MUX 26 into an analog video signal. Digital / analog converter (hereinafter referred to as " D / A converter ") 28, and a sample / holder portion for dividing digital video data supplied from the D / A converter 28 into three video data. (42) is provided. When the input grayscale video signal (for example, 256 grayscale video signal) is input to the first A / D converter 22, the first A / D converter 22 samples and digitizes the input grayscale video signal. For every three pixels of the output signal of the first A / D converter 22, the first and second pixel data are directly input to the MUX 26 and the third pixel data is input to the ROM 24. The ROM 24 inputs the correction value for the input third pixel data to the MUX 26. The correction value calculation method stored in the ROM 24 will be described later. The MUX 26 converts the pixel data supplied from the first A / D converter 22 into the D / A converter 28 for the first and second pixel data every three pixels according to the count signal supplied from the counter 32. The third pixel data supplies the correction value supplied from the ROM 24 to the D / A converter 28. The D / A converter 28 converts the digital pixel data string supplied from the MUX 26 into an analog form and supplies it to the sample / holder 42. The sample / holder 42 is provided to the LCD panel 1 by dividing it into three pieces by sequentially sampling / holding the analog video data. The sample / holder part 42 is substantially the same as the conventional sample / holder circuit shown in FIG. 1, and thus a detailed description thereof will be omitted. The LCD panel 1 displays a video output signal simultaneously supplied from the sample / hold unit 42 in synchronization with the first and second horizontal synchronization signals HCK1 and HCK2.

5 is a flowchart illustrating a step of setting a ROM table stored in the ROM 24. In FIG. 5, the block driving noise removing device shown in FIG. 4 will be described.

First, the photometer 40 detects the luminance of each pixel in the LCD panel 1 and supplies the luminance to the second A / D converter 38. (Step S1) The second A / D converter 38 provides light. The luminance data input from the measuring device 40 is digitized and supplied to the data comparator 36. Then, the data comparator 36 compares the luminance data detected by the pixel including noise with the pixel represented by the normal luminance by the sample / hold process and compares the same (step S2). The data comparator 36 compares the second pixel data PC1 displayed with normal luminance in FIG. 3 with the third pixel data PC3 displayed with higher or lower luminance than the second pixel data with noise. . Of course, the data comparison unit 36 may compare the first pixel data PC1, which is displayed in the same manner as the second pixel data PC2, with the third pixel data PC3. The data comparison unit 36 supplies the comparison data corresponding to the difference between the second pixel data PC2 and the third pixel data PC3 to the ROM 24. Then, the ROM 24 adds or subtracts a predetermined weight to the third pixel data supplied from the first A / D converter 22 by the control of the controller 34 and supplies it to the MUX 26 as a correction value (S3). Steps) Steps S1 to S3 are re-executed until the luminance detected by the first pixel and the second pixel is the same every three pixels, and the weight is added or subtracted to the third pixel data.

Although the exemplary embodiment has been described with respect to three block driving, the weight is added to the input signal by using the luminance difference detected in the normal pixel adjacent to the last pixel in the block driving unit where the noise pattern occurs in every block driving unit even in the three block driving. Stripe noise patterns can be removed in any block drive.

As described above, the method and apparatus for removing block driving noise of the liquid crystal display according to the present invention can reduce the noise pattern due to block driving by controlling feedback of the input signal using the luminance difference detected by the display panel. do.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (4)

In the block driving display method of sample / hold the video signal input to one line to be divided into first to n lines to display the first to n video data at the same time, Detecting luminance at each pixel in the display panel; Comparing the luminance detected by the n-th pixel with any one of the first to n-th pixels; Adding or subtracting a predetermined weight to the n-th video data until the luminance detected in any one of the first to n-th pixels matches the luminance detected in the n-th pixel; And storing the n-th video data to which the predetermined weight is added or decreased when the luminance detected in any one of the first to n-th pixels matches the luminance detected in the n-th pixel. Block driving noise removal method of liquid crystal display device. The method of claim 1, Digitizing the input video signal into n horizontal pixel clocks; Selecting any one of the first to nth video data according to the coefficient information; Analogizing, sampling / holding the selected video data streams and dividing them into n video data; The method of claim 1, further comprising displaying the data divided into n pieces. A block driving display device which samples / holds a video signal input through one line and divides the video signal into first to n lines to display first to n video data simultaneously. A display panel in which pixels are arranged in a matrix form; Brightness detecting means for detecting brightness at each pixel in the display panel; Luminance comparison means for comparing the luminance detected by any one of the first to n-1th pixels with the nth pixel, According to the comparison signal generated from the luminance comparing means, a predetermined weight is added to the n-th video data until the luminance detected in any one of the first to n-th pixels matches the luminance detected in the n-th pixel. Control means, A memory in which the n-th video data to which the predetermined weight is added or reduced is stored when the luminance detected in any one of the first to n-1th pixels and the luminance detected in the nth pixel match by the control means; Block driving noise removing device of the liquid crystal display device comprising a. The method of claim 3, wherein First analog / digital converting means for digitizing an input video signal; counting means for counting with n horizontal pixel clocks; Switching means for selecting any one of the first to nth video data according to the coefficient information; Digital / analog conversion means for analogizing the selected video data streams; Sample / hold means for sampling / holding the analogized video data streams into n video data; And block driving means for driving the display panel with the n divided data.