KR100190958B1 - Color purity control apparatus and method by using wabbling method - Google Patents

Abstract

According to the present invention, an ITC control device for adjusting a CRT or monitor screen instantly captures image data on a CRT screen recognized by a two-dimensional CCD camera and performs image processing on the deviation of the captured image data to measure and adjust color purity. The color purity adjustment method of the method, and the control signal of the frame grabber 30 and the main control unit 40 to measure the color purity by converting the image signal recognized by the CCD camera 20 to process the image signal The current flows through the drive coil 12 by the control signal of the interface 80 for transmitting a signal for driving the CRT driver 90 and the main controller 40 transmitted through the interface 60 to generate an electron beam. In the color purity adjusting device including a driving coil driver 70 that shakes left and right, the image data is recognized by shaking the electron beam of the CRT 10 to the left. The first process of storing the recognized image data in the RAM, the second process of setting the threshold value and binarizing the image data when the image data is stored in the first process, and the digitalization in the second process. If the image data is re-saved in the third process, and the image data is re-stored in the third process, by shaking the electron beam of the CRT 10 to the right (Wabbling) to recognize the image data to recognize the image data A fourth process of storing the data in the RAM; and a fifth process of digitalizing the binarization by setting a threshold value when the image data is stored in the fourth process; and removing the noise when the digitalization is performed in the fifth process. A sixth step of re-storing the data and a deviation if the image data is re-stored in the sixth step [│ Lpixel (x, y)- Rpixel (x, y) │] The color purity adjustment method consists of the seventh step of displaying the result value on the monitor to capture the changing image data on the CRT screen when the electron beam is shaken left and right for color purity measurement. Image processing is performed to reduce the deviation, thereby optimizing the landing state of the electron beam, thereby preventing measurement error of the measurement equipment due to the deviation on the CRT screen.

Description

How to adjust the color purity of the wobbling method

1 is a block diagram showing a conventional color purity adjusting device.

2 is a block diagram showing a device for adjusting color purity of a wabling method employed in accordance with the present invention.

3 is a block diagram showing in detail the frame grabber of FIG.

4 is a flowchart illustrating a process of adjusting color purity of the wobbling method according to the present invention.

* Explanation of symbols for main parts of the drawings

10: CRT 11: Socket

12: drive coil 20: CCD (Charge Coupled Device) camera

30: Frame Grabber

31: A / D Converter (Analog / Digital Converter)

32: LUT (Look Up Table) 33: Video signal controller

34: control signal generator 35: RAM

36: D / A Converter (Digital / Analog Converter)

40: main controller 50: monitor

60,80: Interface 70: driving coil driver

90: CRT driver

The present invention relates to a method for adjusting an integrated tube component (ITC) for adjusting a CRT of a television receiver or a screen of a monitor. In particular, an image data on a CRT screen recognized by a two-dimensional CCD (Charge Coupled Device) camera is instantly captured and captured. The present invention relates to a color purity adjustment method of a wobbling method for measuring and adjusting color purity by performing image processing on the deviation of the image data.

More specifically, when the green electron beam is shaken to the left or right for color purity measurement, the image data that changes on the CRT screen is captured and image processed to reduce the deviation to optimize the landing state of the electron beam. This is to prevent the measurement error of the measuring equipment due to the deviation of the screen (the shape of the phosphor).

Landing refers to a shape in which a phosphor is generated when an electron beam is scanned on a fluorescent surface on a CRT screen. When landing, the landing is elliptical in the shape of a land (Just Landing) and a half moon in the shape of a misalignment (Mis Landing). .

The wobbling refers to shaking the electron beam left and right.

In order to adjust the color purity on the CRT screen in the conventional ITC controller, as shown in FIG. 1, the CRT driver 90 is driven to float a green raster pattern in the main controller 40.

The reason why the green raster pattern is displayed is because the electron gun array is set to R (Red), G (Green), and B (Blue), so that the green (R) electron gun should be positioned at the center to be suitable for color purity adjustment.

At this time, the CCD camera 20 recognizes the image displayed on the screen of the CRT 10, converts the analog signal into a digital signal through the A / D converter 31, processes the recognized image data, and then supplies the video signal to the RAM 35. Save it.

The main controller 40 converts the analog signal back into an analog signal through the D / A converter 36 to display the video signal stored in the RAM 35 and displays it on the monitor 50.

At this time, the shape and area of the phosphor on the screen of the CRT 10 are calculated by using the converted image data, and the landing grade is determined by comparing with the absolute value accurately landed.

However, determining the landing grade by calculating the shape or area of the phosphor on the screen of the CRT 10 by the above-described method is not appropriate for the production line.

This is because there is a problem that it is impossible to determine whether the purity test in the color purity measurement is correct by using only the absolute landing grade according to the deviation of different products.

In order to solve the above-mentioned shortcomings, the present invention is designed to sequentially capture image data on a CRT screen recognized by a two-dimensional CCD camera and to process the image data to accurately correct the color purity. It is to provide a color purity adjustment method that can measure).

Another object of the present invention is to capture the image data changes on the CRT screen when the green electron beam is shaken left and right for color purity measurement, and to process the image data by reducing the deviation to optimize the landing state of the electron beam. It is possible to prevent the measurement error of the measurement equipment due to the deviation (fluorescence shape deviation) on the CRT screen.

In the present invention, the CRT driver 90 by the control signal of the frame grabber 30 and the main controller 40 to measure the color purity by converting the image data recognized by the CCD camera 20 to process the video signal Waving the electron beam to the left and right by flowing a current through the drive coil 12 by the control signal of the interface 80 for transmitting a signal for driving the drive and the main controller 40 transmitted through the interface 60 In the color purity adjusting apparatus including the drive coil driver 70, the first step of recognizing the image data by shaking the electron beam of the CRT 10 to the left, and storing the recognized image data in the RAM; A second process of setting a threshold value when the image data is stored in the first process and binarizing it to digitize it; and a third process of re-storing the image data by removing noise when digitalizing in the second process. And a fourth process of recognizing the image data by waving the electron beam of the CRT 10 to the right when the image data is re-stored in the third process, and storing the acquired image data in the RAM; and the fourth process. A fifth step of digitalizing the threshold value by binarizing the image data when the image data is stored in the second step; and re-storing the image data by removing noise when the digitalization is performed in the fifth step; If the image data is resaved during the process, the deviation [│ Lpixel (x, y)- And a seventh step of obtaining Rpixel (x, y) │] and displaying the result on the monitor.

This will be described with reference to the accompanying drawings.

2 is a block diagram illustrating a color purity adjusting device of the wobbled method employed in accordance with the present invention, and includes a main control unit 40 and a main control unit in which a control program for adjusting phosphor color purity on a screen of the CRT 10 is embedded. CRT driver 90 for displaying a green raster pattern signal according to the control signal of 40 and supplying it to the screen of the CRT 10 through the socket 11 and a CCD camera 20 for recognizing image data on the screen of the CRT 10. ) And the digital signal converted by the A / D converter 31 and the A / D converter 31 for converting the signal recognized by the CCD camera 20 into a digital signal by the control signal of the main controller 40. Color purity adjustment provided with a RAM 35 for storing and a D / A converter 36 for converting the signal stored in the RAM 35 into an analog signal by a control signal of the main controller 40 and outputting the analog signal to the monitor 50. The device converts the digital signal into image data recognized by the CCD camera 20. A frame grabber 30 for processing an image signal to measure color purity, an interface 80 for transmitting a signal for driving the CRT driver 90 according to a control signal of the main controller 40, and an interface ( The driving coil driver 70 further includes a driving coil driver 70 for flowing current to the driving coil 12 by a control signal of the main controller 40 transmitted through the driving unit 60, and shaking the electron beam left and right.

Meanwhile, as shown in FIG. 3, the frame grabber 30 includes an A / D converter 31 for converting image data recognized by the CCD camera 20 into a digital signal, and the A / D converter ( 31 is a video signal processing control unit 33 for exclusively processing the video signal by the digital signal converted in step 31, and a control signal for shaking the electron beam left and right by the digital signal converted in the A / D converter 31. LUT 32 for performing basic image data conversion by the control signal supplied from the control signal generator 34 for generating a signal, the video signal processing controller 33, the LUT 32, and the control signal generator 34 RAM 35 to store a signal of the signal, and a D / A converter 36 for converting the digital signal output from the LUT 32 into an analog signal and inputting it to the main controller 40.

On the other hand, Figure 4 is a flow chart illustrating a color purity adjustment process of the wobbling method according to the present invention, by shaking the electron beam of the CRT (10) to the left (Wabbling) to recognize the image data to store the recognized image data in the RAM A second process of setting a threshold value and binarizing it if the image data is stored in the first process, and reconstructing the image data by removing noise if it is digitalized in the second process. A third process of storing, and a fourth process of storing the recognized image data in the RAM by recognizing the image data by shaking the electron beam of the CRT 10 to the right when the image data is re-saved in the third process; When the image data is stored in the fourth process, a threshold value is set and a binarization is performed to digitalize the image data. When the image data is digitalized in the fifth process, noise is removed to remove the image data. When the sixth process of storing, the image data is re-stored in the sixth process, the deviation [│ Lpixel (x, y)- And the seventh step of obtaining Rpixel (x, y) │] and displaying the result on the monitor.

Hereinafter, the operation and effects according to the present invention will be described with reference to the accompanying drawings.

In order to measure the color purity on the screen of the CRT 10, the main controller 40 outputs a control signal set through the interface 80 to drive the CRT driver 90.

Since the CRT driver 90 is driven, a green raster pattern signal is displayed and supplied to the CRT 10 through the socket 11.

When the green raster pattern signal is displayed on the CRT driver 90 and supplied to the CRT 10, the main control unit 40 operates the driving coil driver 70 through the interface 60 to enable the wobbling. When a current flows through the driving coil 12, a magnetic field is generated above and below the driving coil 12, and the electron beam generated on the screen of the CRT 10 is bent to the left (right).

The CCD camera 20 recognizes and photographs the electron beam generated on the screen of the CRT 10, that is, the image data is bent left or right.

In this case, the image data photographed by the CCD camera 20 is image processed by the frame grabber 30.

The main control unit 40 operates the driving coil driver 70 to drive the driving coil 12 to wave the electron beam of the CRT 10 to the left, thereby causing the CCD camera 20 to image data on the CRT 10. Recognize.

The image data recognized by the CCD camera 20 is converted into a digital signal through the A / D converter 31 and input to the video signal processing controller 33.

The image data input to the video signal processing controller 33 is stored in the video RAM 35 as a video signal under the control of the control signal generator 34.

When the image data is stored in the video RAM 35, the main controller 40 outputs an address ADD signal to the control signal generator 34 so that the control signal generator 34 generates a control signal to generate a LUT. Enter in (32).

The LUT 32 sets a threshold value in the image data applied for each pixel in gray level, binarizes a pixel above the threshold value to 1 and a pixel smaller than the threshold value to 0, and removes noise from an arbitrary region. After removal, the signal is converted into an analog signal through the D / A converter 36 and input to the main controller 40, and the video signal is stored in the RAM 35.

When the video signal is stored in the RAM 35, the main control unit 40 operates the driving coil driver 70 to drive the driving coil 12 to shake the electron beam of the CRT 10 to the right, thereby moving the CCD camera. The 20 recognizes the image data on the CRT 10.

The image data recognized by the CCD camera 20 is converted into a digital signal through the A / D converter 31 and input to the video signal processing controller 33.

The image data input to the video signal processing controller 33 is stored in the RAM 35 as a video signal.

When the image data is stored in the RAM 35, the main controller 40 outputs an address ADD signal to the control signal generator 34, so that the control signal generator 34 generates a control signal to generate a LUT 32. ).

The LUT 32 sets a threshold, binarizes it, removes noise, converts the analog signal into an analog signal through the D / A converter 36, and inputs the main control unit 40 to the RAM 35. Store the video signal in

When the image data is stored in the RAM 35, the main controller 40 generates a deviation by processing the input image data [│ Lpixel (x, y)- Rpixel (x, y) |] is obtained and the result is displayed on the monitor 50.

As described above, the present invention provides a color purity adjusting device and method capable of accurately measuring and adjusting color purity by instantly capturing image data on a CRT screen recognized by a two-dimensional CCD camera and performing image processing on the deviation of the captured image data. When the green electron beam is shaken left and right for color purity measurement, it captures the image data changing on the CRT screen, and processes the image data to reduce the deviation to optimize the landing state of the electron beam. It has the effect of preventing the measurement error of the measuring equipment due to the deviation (deviation of the shape of the phosphor).

Claims (1)

In the color purity adjustment method, the first step of recognizing the image data by wavering the electron beam of the CRT (10) to the left and storing the image data in the RAM, and if the image data is stored in the first process the threshold value A second process of digitizing and binarizing it, a third process of removing noise and re-storing image data Lpixel (x, y) when the second process is digitized, and the third process In the fourth process of re-storing the image data in the CRT (10) by shaking the electron beam of the CRT (10) to the right to recognize the image data to store the recognized image data in the RAM, and if the image data is stored in the fourth process A fifth process of digitalizing the threshold value by setting a threshold and performing binarization; and a sixth process of re-storing image data Rpixel (x, y) by removing noise when the digitalization is performed in the fifth process; Video from the 6th process When itaconic the restored difference [│ Lpixel (x, y)- A method of adjusting color purity of a wobbling method, comprising a seventh process of obtaining Rpixel (x, y) │] and displaying a result value on a monitor.