KR940004434B1 - Method of adjusting white balance - Google Patents

Abstract

outputting a DC control signal and gain control signals and displaying a video signal; checking whether the video signal is in its vertical blanking period, and if so, producing the minimum and maximum of R, G and B video signals; and comparing the drive current of the R, G and B video signals with a reference value to output a variable DC control value and gain control value corresponding to the current difference. The method prevents errors due to poor components.

Description

How to adjust the white balance automatically

1 is a block diagram of a white balance adjustment circuit according to the present invention.

2 is a white balance control flowchart according to the present invention.

* Explanation of symbols for main parts of the drawings

10: microcomputer 20: video signal processing unit

30: OSD generator 40: switching circuit

50: DC control unit 60: gain control unit

70: drive circuit 80: CRT

90: A / D converter 100: D / A converter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for automatically adjusting white balance in an image device having an OSD (On Screen Display: OSD) function. In particular, the present invention relates to a white balance which automatically adjusts the white balance using the OSD during vertical line registration. It relates to a control method.

The conventional white balance adjustment is shipped from the manufacturing factory by adjusting the R, G, B drive and cut off voltage, so there are errors in each product according to the environment and surrounding environment of the coordinator during production, and the parts deteriorate during distribution and use. There was a problem that white due to unbalance (unbalance).

Accordingly, an object of the present invention is to provide a white balance adjustment method that can automatically adjust the white balance by varying the gain and DC value using the R. G. B signal of the OSD during the vertical retrace period.

It is another object of the present invention to automatically adjust the white balance that changes according to the environment by using the RG B signal of the OSD for each period of the large resin period to prevent the error caused by the adjuster's surrounding environment or the deterioration of parts. To provide a white balance adjustment method.

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

1 is a block diagram of a white balance control circuit according to the present invention, by inputting a horizontal synchronous signal and a vertical synchronous signal to sequentially receive feedback input of the minimum and maximum currents for each RG B signal of the OSD during the vertical retrace period. A microcomputer 10 generating a variable DC control signal and a gain control signal corresponding to a current difference, and a D / A converting the DC control signal and the gain control signal generated from the microcomputer 10 into analog signals and outputting the analog signals. The converter 100, a video signal processor 20 for processing a composite video signal and outputting an RG B video signal, and a control signal of the microcomputer 10 determine the minimum and maximum values of each RG B video signal in the OSD. An OSD generator 30 which sequentially generates and outputs a blanking signal, and inputs an output signal of the image signal processor 20 and an output signal of the OSD generator 90 from the OSD generator 30. Exodus A digitally controlled DC control output from the D / A converter 100 by inputting a switching circuit 40 for selectively outputting one signal by the blanking signal thus obtained, and a RG B video signal switched from the switching circuit 40. Gain by the gain control signal output from the D / A converter 100 by inputting the RG B image signal output from the DC control unit 50 and the DC control unit 50 by adjusting the DC value to the signal. A gain control unit 60 for adjusting and outputting the control signal, and a drive circuit 70 for inputting and displaying the gain-adjusted RG B image signal of the gain control unit 60 to the CRT 80 and detecting and feeding back a drive current. And an A / D converter 90 for digitally converting the current detected by the drive circuit 70 and outputting it to the microcomputer 10.

Based on the above configuration, an embodiment of the present invention will be described with reference to FIG.

The switching circuit 40 for inputting the RG B image signal output from the image signal processing unit 20 and the OSD signal output from the OSD generation unit 30 by the blanking signal of the OSD generation unit 30. Selective switching of the OSD signal. At this time, the microcomputer 10 generates and outputs a reference DC control signal or a gain control signal. Then, the reference DC control signal or the gain control signal generated from the microcomputer 10 is converted into an analog signal by the D / A converter 100 and applied to the DC control unit 50 or the gain control unit 60.

The RG B image signal of the OSD selected and switched by the switching circuit 40 is cut off by adjusting the DC value by a reference DC control signal output from the D / A converter 100 by analog conversion in the DC controller 50. off) to adjust the voltage. The signal whose DC value is adjusted by the DC controller 50 is input to the gain controller 60 to adjust and output the gain by the reference gain control signal. The gain-controlled signal of the gain controller 60 is applied to the CRT drive circuit 70 to display an image signal on the CRT 80 and to detect the current of the drive circuit 70 to detect the current of the A / D converter 90. Is fed back through the port (C) of the microcomputer (10). The microcomputer 10 inputting the signal fed back through the A / D converter 90 detects the maximum value of the OSD image signal, outputs a gain control signal of the image signal through the port a, and minimum value of the OSD image signal. Detects and outputs the DC control signal of the video signal through the port (b). The gain control signal and the DC control signal output through the ports (a, b) of the microcomputer 10 are converted into analog signals through the D / A converter 100 to the DC control unit 50 and the gain control unit 60 ) To adjust the white balance. Here, the white balance adjustment is to adjust the luminescence of three colors of RG B to be white, and to adjust the cutoff voltage and the saturation voltage of the amplifying transistor driving the electron gun to be the same brightness with respect to RG B. . The saturation voltage is controlled to be white by the gain adjustment by the maximum current from the CRT drive circuit 70, and the cutoff voltage is adjusted to be white by the DC value adjustment by the minimum current from the CRT drive circuit 70. .

2 is a flowchart of a white balance control according to an embodiment of the present invention, in which a first process of displaying a video signal by outputting a reference DC control signal and a gain control signal at power-on, and displaying the video signal in the first process, and then vertically A second step of generating a minimum value and a maximum value of each RG B video signal for the OSD in order during the vertical retrace period, and sequentially outputting each of the RG B video signals for the OSD output in the second step. And a third process of outputting these control values and a variable DC control value corresponding to the current difference by comparing the drive current with the reference value.

Referring to the flow chart according to the present invention based on the above configuration is as follows.

After the power is turned on in step (2a), in step (2b), the reference DC control value and the gain control value are output through the output ports (a, b) of the microcomputer 10 to produce the RG B selected by the switching circuit 40. The signal is displayed on the CRT 80 and step (2c) is performed. In the step (2c), it is checked whether it is during the vertical retrace period, and the general TV routine is performed if it is not during the vertical retrace period, and the step (2d) is performed during the vertical retrace period. In the step (2d), the switching control signal by the blank signal is sent from the OSD generator 30 to the switching circuit 40, the minimum value and the maximum value of each RG B image signal for the OSD generated from the OSD generator 30 Output the values sequentially and perform step (2e). In step (2e), the microcomputer 10 displays the RG B image signal for the sequentially output OSD, and feeds back the current values sequentially detected from the CRT drive circuit 70 through the A / D converter 90. Pressure and perform step (2f). In step (2f), the microcomputer 10 sequentially detects and compares the input current value with a reference value to detect the difference. For example, when the R. G. B image signal output from the OSD generator 30 is displayed, the maximum value of the detected current value is 1 mA, and the rated rectification is 0.9 mA, so that 0.9-1 = -0.1 mA. Here the rated current is 0.9mA and the maximum value is 1mA.

In addition, in step (2g), the microcomputer 10 outputs the DC control value and the gain control value of the corresponding variable value through the output ports (a, b) according to the difference of the current value detected in the step (2f) to adjust the white balance. Adjust

As described above, when the RG B video signal is displayed using the OSD during the vertical retrace period, the white balance is automatically adjusted by changing the DC control value and the gain control value according to the current detection. B, there is an advantage that can prevent errors due to component deterioration.

Claims (1)

In the method of automatically adjusting the white balance of an image device having an OSD function, the power source outputs a time-based DC control signal and a gain control signal to display an image signal, and displays the image signal in the first process. A second step of generating a minimum value and a maximum value of each RG B video signal for the OSD and sequentially outputting the vertical return period during the vertical retrace period; and each RG B of the OSD output in the second step. And a third process of outputting a variable DC control value and a gain control value corresponding to the current difference by comparing the drive current of the image signal with a reference value.

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