KR20050037243A - Setting method for offset and gain value in liquid crystal display device - Google Patents

Abstract

In the offset voltage and gain voltage setting method of the liquid crystal display according to the exemplary embodiment of the present invention, first, an RGB analog signal output from an image signal source is set to an arbitrary gray voltage higher than zero gray voltage to be applied to the liquid crystal panel. . Next, the offset voltage of the A / D converter is set based on any applied gray voltage. Next, the RGB analog signal is set to a maximum gray voltage of 255 gray voltage to be applied to the liquid crystal panel. Next, the level of the 255 gray voltage applied to the liquid crystal panel is set to the gain voltage of the A / D converter. Then, the offset voltage and gain voltage of the obtained A / D converter are calibrated to set all intermediate gray voltage levels between any gray voltage and the maximum gray voltage. Next, the offset voltage and the gain voltage are linearly connected and calibrated from the extension line of the obtained line to set the 0 gray voltage, and set from the remaining 1 gray voltage to the 4 gray voltage.

Description

Setting method for offset and gain value in liquid crystal display device

The present invention relates to a method of setting an offset voltage and a gain voltage of a liquid crystal display, and more particularly, to a method of setting an offset voltage and a gain voltage of an A / D converter of a liquid crystal display device with respect to an applied gray level signal.

The liquid crystal display device includes an A / D converter that receives an RGB analog voltage provided from an image signal source and converts the signal into a digital signal, a memory unit that stores digitally converted image data, and a timing controller that controls image data input and output from the memory unit. And a source driver, a gate driver, and a liquid crystal panel.

The RGB analog voltage provided from the image signal source is digitized through the A / D converter.

At this time, accurate calibration is required in the process of converting the gray level signal (gray signal), which is an analog signal, to a digital signal.

Here, the calibration refers to calculating all gray voltages divided based on the offset voltage and the gain voltage in order to digitize the analog signal. For example, 256 gray voltages are set by keeping the voltage difference constant from 0 to 255 steps. Setting the level to a digital signal

4 is a flowchart illustrating a method of setting an offset voltage and a gain voltage for a gray level signal of a liquid crystal display according to the prior art, and FIG. 5 is a graph illustrating the offset voltage and the gain voltage according to the prior art on a graph.

The offset voltage and gain voltage setting method according to the prior art, as shown in Figs. 4 and 5, first, by setting the RGB analog signal output from the image signal source to 0 gray voltage (full black), the minimum gray voltage It is applied to the liquid crystal panel (S10).

Next, an offset voltage of the A / D converter is set based on the zero gray voltage applied to the liquid crystal panel (S20).

Next, the RGB analog signal is set to a maximum gray voltage of 255 gray voltages (full white) to be applied to the liquid crystal panel (S30).

Next, the level of the 255 gray voltage applied to the liquid crystal panel is set to the gain voltage Gain of the A / D converter (S40).

Next, using the obtained offset voltage and gain voltage of the A / D converter, the offset voltage and the gain voltage are calibrated to set the remaining intermediate gray voltage level (S50).

As described above, according to the prior art, the zero gray signal is set as the offset voltage of the A / D converter.

However, since the gray signal, which is a black signal, may include noise due to a weak ground characteristic, when grayscale signals are calibrated based on this, there is a problem in that accurate gray is not realized.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for setting offset and gain voltage values of an A / D converter that can reduce errors in converting an analog image signal input to a liquid crystal display into a digital signal.

According to an aspect of the present invention, there is provided a method of setting an offset voltage and a gain voltage, the method comprising: setting an offset voltage by applying an arbitrary gray voltage; A second step of applying a maximum gray voltage to set a gain voltage; A third step of calibrating between the set offset voltage and the gain voltage to set an intermediate gray voltage level between the arbitrary gray voltage and the maximum gray voltage; Setting a minimum gray voltage through the calibration on an extension line connecting an offset voltage and a gain voltage; And a fifth step of setting an intermediate gray voltage level between the set minimum gray voltage and the offset voltage.

Here, the arbitrary gray voltage is preferably a gray voltage closer to the minimum gray voltage than the maximum gray voltage.

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

1 is a block diagram schematically illustrating a configuration of a liquid crystal display device to which an offset voltage and a gain voltage setting method according to the present invention can be applied.

As shown in FIG. 1, the liquid crystal display according to the present invention includes an A / D converter 20 that receives an RGB analog voltage provided from an image signal source 10 and converts it into a digital signal, and digitally converted image data. And a memory controller 30 for storing the data, a timing controller 40 for controlling input and output of image data from the memory unit 30, a source driver 50, a gate driver 60, and a liquid crystal panel 70.

Here, the image signal source 10 is a predetermined analog image signal (specifically, R, G and B gradation signals) to be displayed on the screen of the liquid crystal display device, the vertical synchronization signal (Vsync) and the horizontal synchronization signal (Hsync) Outputs

The A / D converter 20 converts analog video signals into digital signals R, G, and B and outputs them.

The memory unit 30 stores the digital signals R, G, and B applied from the A / D converter 20, and controls the digital signals R, G, and B under the control of the timing controller 40 to be described later. Outputs

The timing controller 40 serves to adjust timing of the digital signals R, G, and B, and clock to drive the source driver 50 and the gate driver 60.

The liquid crystal panel 70 includes a plurality of gate lines for transmitting a gate driving signal and a plurality of data lines formed to intersect the gate lines and representing image signals. Pixels are formed in a matrix in each region where one gate line and one data line cross each other.

The source driver 50 lowers the voltage value transmitted to each pixel of the liquid crystal panel 70 by one line. Specifically, the digital data (R, G, B) applied from the timing controller 40 is stored in the shift register in the source driver 50, and when a load signal is applied, the voltage corresponding to each data is selected to select the liquid crystal panel. (70) is applied.

The gate driver 60 opens a path through which data from the source driver 50 can be transferred to the pixel.

Next, an offset voltage and a gain voltage setting method of the A / D converter in the liquid crystal display device configured as described above will be described in detail with reference to FIG. 2.

2 is a flowchart illustrating a method of setting an offset voltage and a gain voltage of an A / D converter with respect to a gray level signal of a liquid crystal display according to the present invention.

First, an RGB analog signal output from the image signal source 10 is set to an arbitrary gray voltage higher than zero gray voltage to be applied to the liquid crystal panel 70 (S100).

At this time, assuming that the RGB analog signal is divided from 0 gray levels (full black) to 255 gray levels (full white), any gray voltage higher than 0 gray levels (for example, 5 gray levels) is determined by the liquid crystal panel ( 70). Further, the arbitrary gray voltage is preferably selected as the gray voltage near the zero gray level.

Next, an offset voltage of the A / D converter 20 is set based on an arbitrary gray voltage applied to the liquid crystal panel 70 (S200).

Next, the RGB analog signal is set to a maximum gray voltage of 255 gray voltage to be applied to the liquid crystal panel 70 (S300).

Subsequently, the level of the 255 gray voltage applied to the liquid crystal panel 70 is set as the gain voltage Gain of the A / D converter 20 (S400).

Next, a calibration is performed between the obtained offset voltage and the gain voltage of the A / D converter 20 to set all intermediate gray voltage levels between the arbitrary gray voltage and the maximum gray voltage (S500).

For example, if the arbitrary gray voltage is 5 gray voltage, it can be set from 6 gray voltage to 254 gray voltage.

Next, the offset voltage and the gain voltage are linearly connected to be calibrated from the extension line of the line, and the zero gray voltage is set (S600), and the remaining one gray voltage is set to four gray voltages (S700).

3 is a graph illustrating an offset voltage and a gain voltage according to an embodiment of the present invention.

That is, as shown in Fig. 3, after setting an arbitrary gray voltage level as an offset voltage and setting a 255 gray voltage level as a gain voltage, two points are connected to make a linear line, and 0 gray is extended on this line. The voltage can be set.

Therefore, according to the embodiment of the present invention, since the zero gray signal, which is the black gray signal, has a high probability of noise, the A / D converter is set by setting an arbitrary gray signal to the offset voltage without setting the zero gray signal to the offset voltage. An accurate gray implementation of is possible.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments and can be variously modified and implemented by those skilled in the art without departing from the technical scope of the present invention.

According to the present invention, by setting an arbitrary gray voltage as an offset voltage of the A / D converter instead of a zero gray voltage having a noise problem, accurate calibration of the gray level signal is possible, thereby enabling accurate image display of the liquid crystal display device.

1 is a block diagram schematically illustrating a configuration of a liquid crystal display device to which an offset voltage and a gain voltage setting method according to the present invention can be applied.

2 is a flowchart illustrating a method of setting an offset voltage and a gain voltage of an A / D converter with respect to a gray level signal of a liquid crystal display according to the present invention.

3 is a graph illustrating an offset voltage and a gain voltage according to an embodiment of the present invention.

4 is a flowchart illustrating a method of setting an offset voltage and a gain voltage with respect to a gray level signal of a liquid crystal display according to the related art.

5 is a graph illustrating an offset voltage and a gain voltage according to the related art.

Claims (2)

In the A / D converter offset voltage and gain voltage setting method of the liquid crystal display device, A first step of applying an arbitrary gray voltage to set an offset voltage; A second step of applying a maximum gray voltage to set a gain voltage; A third step of calibrating between the set offset voltage and the gain voltage to set an intermediate gray voltage level between the arbitrary gray voltage and the maximum gray voltage; Setting a minimum gray voltage through the calibration on an extension line connecting an offset voltage and a gain voltage; And And a fifth step of setting an intermediate gray voltage level between the set minimum gray voltage and offset voltage. In claim 1, And wherein the arbitrary gray voltage is a gray voltage closer to the minimum gray voltage than the maximum gray voltage.