KR20000001749A - White balance adjusting device of a plasma display panel - Google Patents

Abstract

PURPOSE: A white balance adjusting device of a plasma display panel is provided to display a full color. CONSTITUTION: The white balance adjusting device of a plasma display panel comprises: a converter for converting digitalized color signals to N-bit data for required gray scale display; and an output treatment circuit for correcting a white balance and a gamma of the color signal converted to the N-bit data. By the device, all levels of required gray scales are obtained.

Description

Apparatus of Adjusting White Balance for Plasma Display Panel

The present invention relates to a white balance adjusting device, and more particularly, to a white balance adjusting device of a plasma display panel capable of full color expression.

Recently, Liquid Crystal Display (hereinafter referred to as "LCD"), Field Emission Display (hereinafter referred to as "FED") and Plasma Display Panel (hereinafter referred to as "PDP") Flat display devices such as PDP have been actively developed. Among them, PDP is easy to manufacture due to its simple structure, high brightness and high luminous efficiency, memory function, and has a wide viewing angle of 160 ° or more, and realizes a large screen of 40 inches or more. It has the advantage of being able to. The PDP obtains a discharge through voltage control applied between vertical and horizontal electrodes of a cell constituting a pixel, and the amount of light discharged is controlled by changing the length of the discharge time in the cell. In such a PDP, many efforts are being made in various fields to realize a natural image. Among them, in particular, research on white balance adjustment method, contrast adjustment method and contour noise reduction method is actively conducted. Here, contrast is an important factor for evaluating the image quality, which is defined as the brightness of the brightest and darkest parts of the screen, and is recognized as the most important factor in improving the image quality of the PDP in the future. In addition, the contrast is determined by the brightness and luminance of the background such as a lamp, and in order to increase the contrast, not only the background needs to be darkened but also the brightness needs to be increased. Ideally, the input signal-to-image signal should be mapped to a linear value, but since the input image signal has nonlinearity in reality, the contrast is improved by using gamma-corrected data to obtain clear image quality.

Referring to FIG. 1, an analog / digital converter (hereinafter referred to as " A / D converter ") connected to input lines of R, G, and B signals, respectively, and an A / D converter R gamma correction and white balance correction unit 2, G gamma correction and white balance correction unit 4, B gamma correction and white balance correction unit 6, respectively, connected to the output terminals of (1, 3, 5) are provided. do. The A / D converters 1, 3, and 5 digitize the input analog R, G, and B signals. The gamma correction and white balance correction units 2, 4, and 6 correct the gamma correction and the white balance of the R, G, and B signals. Here, the gamma correction will be described. When displaying a television (TV) signal with a PDP, gamma correction must be performed on the input television signal. This means that the monitor characteristics of the CRT (Cathode Ray Tube), which are currently used, have a proportional relationship between the input signal and the output signal. This is because the broadcasting station transmits the inversely corrected television signal in consideration of this when the broadcasting station transmits the broadcasting signal. Unlike the CRT, since the luminance of the output is linearly proportional to that of the input signal, the PDP does not need to be inversely corrected. However, since the inversely corrected signal is transmitted, the broadcast signal has to be corrected again. You will get This is called gamma correction, and since gamma correction usually requires exponential operation, it is difficult to implement it as a logic operation circuit. Therefore, a method of mapping an input signal and its corrected signal using a look-up table is used. do. This correction value is implemented using the memory 2a (ie, ROM). The overall configuration is as shown in FIG. 1, and the input image signal is represented by red (Red; " R "), green (hereinafter, " G ") and blue (" B ") color signals. Each color signal is digitally converted by the A / D converter (1, 3, 5) and transmitted to the gamma correction and white balance correction unit (2, 4, 6) as a digital value having the number of bits according to the desired gray scale value. do. The gamma correction and white balance correction units 2, 4, 6 correct and output the reference values stored in the memory 2a. In addition, one of the necessary output corrections in addition to gamma correction in the PDP driver is white balance. In general, the R signal has higher luminous efficiency than the G and B signals. I want to balance. That is, as shown in (a) of FIG. 2, the luminance level of the upper side of the R side is adjusted downward in comparison with the other two color signals to perform output correction to achieve overall color balance. In addition, since it is difficult to further adjust downward in the lower level part, the white balance is adjusted by adjusting the G and B signals up relative to R as shown in FIG. In the gamma correction characteristic diagram shown in FIG. 2, 1 'represents a gamma correction curve of G and B signals, and 3' represents a gamma correction curve of an R signal. In general, an apparatus for simultaneously correcting the white balance is used during gamma correction. That is, the gamma correction memory of the input signal is corrected by adding a correction for each color signal, so that two output corrections are performed at the same time. In this case, the white balance correction level may be adjusted according to the light emission characteristics of the panel.

However, in the above method, a problem arises in that the upper and lower levels are not fully represented by the output correction. Normally, digitally converted data for use with 256 gray levels of 0-255 levels to display full color is input to the gamma correction unit with 8 bits of data. The upper and lower levels are adjusted for white balance correction. As a result, the level of the corrected portion cannot be displayed, which leads to a problem in that 256 gray levels cannot be represented sufficiently.

Accordingly, an object of the present invention is to provide an apparatus for adjusting white balance of a plasma display panel capable of full color expression.

1 is a block diagram showing a white balance adjusting device according to the prior art.

2A and 2B are characteristic diagrams showing the signal waveform of FIG.

3 is a block diagram showing a white balance adjusting device according to the present invention;

4 is a characteristic diagram showing an output signal waveform of FIG.

<Description of Symbols for Main Parts of Drawings>

1,3,5,20,22,24: Analog-to-digital converter

2, 4, 6: Gamma correction and white balance correction unit

14,16,18: output processing unit

26,28,30: bit number converter

In order to achieve the above object, a white balance adjusting apparatus of a plasma display panel according to the present invention includes a bit number converting unit for converting each digitized color signal into N bit number data for expressing desired gray scale, and N bit data. And an output processor for gamma correction and white balance correction, respectively.

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

With reference to Figures 3 to 4 will be described a preferred embodiment of the present invention.

Referring to FIG. 3, an apparatus for adjusting white balance of a plasma display panel according to the present invention includes an A / D converter 20, 22, 24 and an A / D converter connected to input lines of R, G, and B signals, respectively. Bit number converters 26, 28 and 30 connected to the output terminals of 20, 22 and 24, respectively, and output processor units 14, 16 and 18 connected to the output terminals of the bit number converters 26, 28 and 30, respectively. It is provided. The A / D converters 20, 22, and 24 digitize and output analog R, G, and B signals. The R and B bit number converters 26 and 30 convert the N-bit R and G signals into N + 1-bit R and B signals. The G-bit number converter 28 converts an N-bit G signal into an N + 2 bit (e.g., 10 bit) G signal. The R, G, and B output processors 14, 16, and 18 adjust gamma correction and white balance of the R, G, and B signals output from the A / D converters 20, 22, and 24 to adjust desired gray levels on the screen. To implement it. In the color separation apparatus, the color signals input separately separated into R, G, and B are converted into digital signals by the A / D converters 20, 22, and 24. In this embodiment, N bits, which are the number of bits forming a desired gray scale, It is converted into digital data represented by more than 8 bits to implement 256 gray scales. In the process of converting analog data into digital data, each data is divided and sampled more finely than the gray scale to express the difference in color signals. In the case of the R and B signals, it is sufficient to digitize it to 9 bits, which is about 1 bit, and in the case of G, where the variation between the color signals is narrow due to the characteristics of the color signals, when the bit is about 10 bits, the original signal can be sufficiently represented with 256 levels. At this time, the number of bits of R, G, and B can be appropriately adjusted according to the desired gradation. The level expressed larger than the display gradation number is converted into 8 bits properly for 256 gradation expression. The 8-bit data converted as described above is data perfectly implemented with 256 levels of luminance of the color signal according to the input signal. Each of the R, G, and B signals represented by 8-bit data is output after white balance correction and gamma correction according to the white balance characteristics. Gamma correction and white balance correction have a process of finding and outputting a reference value corresponding to the input level after storing the calculated correction values in a table and storing them in a memory like a normal correction method. The correction value stored in the memory stores correction data that can simultaneously perform gamma correction and white balance correction for each color level for each input level. do. Referring to FIG. 4, when an R signal having 100 levels is input, the signal is converted into a 102 or 103 level for gamma correction. Since the level is lowered to a level 254 or 253, the brightness is matched with the G and B signals. Alternatively, instead of using a fixed table, a method of adjusting the correction value according to the panel characteristics by using a calculation circuit that can adjust the coefficient may be used. Like the R signal, the gamma correction and the white balance correction are simultaneously performed on the G signal and the B signal, and the corrected R, G, and B color signals are transmitted to the driving unit for driving the PDP panel and used as full color driving data.

As described above, the gamma correction and white balance adjusting apparatus of the plasma display panel according to the present invention digitizes an input color signal into a number of bits having a level in a range larger than a desired gradation, and then converts the bit into a desired gradation level unit. Since the output processing is performed, all levels of the desired gradation can be realized.

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 (3)

An analog-digital converter which digitizes the input color signal separated into red, green, and blue into bits having a value greater than the number of bits N for the desired gray scale expression; A bit number converter for converting each of the digitized color signals into N-bit number data for expressing desired gray scales; And an output processing unit for gamma correction and white balance correction of the color signal converted into the N-bit data, respectively. The method of claim 1, And said analog-to-digital converter digitizes red and blue signals by N + 1 bits. The method of claim 1, And the analog-to-digital converter digitizes the green signal by the number of N + 2 bits.