KR19980027414A - Image difference correction circuit between twin picture and original screen - Google Patents

Abstract

In the case of the original or twin picture screen using the phase comparator of the present invention, due to differences in screen color, color, and white balance due to mismatching of image quality, the viewer does not inconvenience the video when the user views the video. The present invention relates to an image quality correction circuit of a twin picture and an original screen that can be watched. In the conventional TV, when a viewer manipulates a remote control or a key matrix to watch the original or twin picture screen, the screen color, color, Due to differences in white balance and the like, there is a problem in that the user cannot see the image clearly when watching the image.

In order to solve the conventional problems, the present invention uses a phase comparator to correct a difference in screen color, color, white balance, etc. with a mismatch of image quality in the case of an original screen or a twin picture screen. Applied to the TV to make the screen clearly visible.

Description

Image difference correction circuit between twin picture and original screen

1 is a block diagram showing a circuit for correcting image quality difference between a twin picture of a conventional TV and an original screen.

2 is a block diagram showing the image quality difference correction circuit between the twin picture and the original screen of the present invention TV.

3A to 3C are waveform diagrams of respective parts of the present invention twin picture and the original picture quality difference correction circuit.

4 is a flowchart showing a process of correcting a difference in image quality between a twin picture and an original picture of a TV of the present invention.

Explanation of symbols on the main parts of the drawings

7; Mixer section 8; Color & Coder

9; Microcomputer 14; Main screen selection

15; Sub picture selector 16; Phase comparison part

In the case of the original or twin picture screen using the phase comparator of the present invention, due to the difference in screen color, color, white balance, etc. due to mismatching of image quality, the viewer can clearly watch the image when the user views the image. I would have to.

As shown in FIG. 1, the structure of the image quality difference correction circuit in the original screen and the twin picture screen of a conventional TV is selected from the main screen tuner unit 1 for tuning the broadcast signal of the main screen received by the antenna. A main screen processing unit 2 for intermediate frequency processing the main screen broadcast signal, a main screen color decoder 3 for separating the intermediate frequency processed broadcast video signal into a luminance signal and a color signal, and outputting the received main antenna; A sub-screen tuner unit 4 for tuning the sub-screen broadcast signal, a sub-screen processing unit 5 for intermediate frequency processing of the selected sub-screen broadcast signal, and a sub-screen broadcast video signal subjected to the intermediate frequency processing with a luminance signal. A sub picture color decoder 6 for separating and outputting the color signal, a mixer unit 7 for mixing and outputting a luminance signal and a color signal output from the color decoders 3 and 6, and the mixer unit 7 The original luminance and color signals A color and coder (8) for converting and outputting a signal of a signal, a microcomputer (9) for receiving a key signal by a remote controller or a key matrix, and controlling each part of the system when the screen is the one screen or the twin picture screen; The switching unit 10 for switching the selection of the original picture or the twin picture screen outputted from the color and coder 8 by the control signal, and the image signal switched by the switching unit 10 are processed to be displayed on the CRT. An image color deflection unit 11, a matrix / color signal unit 12 for receiving and amplifying the image signal processed by the image color deflection unit 11 and improving the sharpness of the screen, and the matrix / color signal unit It is composed of the CRT 13 to display the image output from (12).

In the conventional TV configured as described above, as shown in FIG. 1, when the viewer selects a key to watch the original screen through a remote controller or a key matrix, the microcomputer 9 detects the input key signal to detect the key signal. (1) will be controlled.

Therefore, when the main screen tuner 1 selects the broadcast signal of the main screen received by the antenna by the one-screen viewing selection signal output from the microcomputer 9 and applies it to the main screen processing unit 2, the switching unit 10 Inputs the main screen broadcast signal processed by the main screen processing unit 2 to the image color deflection unit 11 by the control signal output from the microcomputer 9.

At this time, the image color deflection unit 11 processes the image signal such that the main screen broadcast signal output from the switching unit 10 is displayed on the CRT 13 by the control signal of the microcomputer 9 to display the matrix / color signal unit 12. The matrix / color signal unit 12 amplifies the image signal processed by the image color deflection unit 11 and applies it to the CRT 13 so that the original image is clearly displayed on the CRT. .

On the other hand, if the viewer wants to watch the twin picture screen by manipulating the remote control or key matrix, the microcomputer 9 controls the main screen tuner 1 and the sub-screen tuner 4 to control the main screen broadcast signal received from the antenna. Tunes the sub picture broadcast signal.

When the broadcast signal is tuned by the main screen tuner 1 and the sub-screen tuner 4, the main screen processor 2 and the sub-screen processor 5 are tuned to the main screen broadcast signal by the control signal of the microcomputer 9. The sub-screen broadcasting signal is processed by the intermediate frequency into the luminance signal and the color signal and output.

In this case, the luminance signal processed at the intermediate frequency by the main screen processing unit 2 and the sub picture processing unit 5 is applied to the A / D conversion unit and the line memory in the mixer unit 7, and the color signals are respectively applied to the main screen color decoder 3. ) And the sub picture color decoder 6.

Accordingly, each color signal input to the main picture color decoder 3 and the sub picture color decoder 6 is decoded as color signals {U (BY), V (RY)} to become a color multiplexer, and A / D is changed. The main screen is input to the mixer section 7 only through the line memory, and the sub screen is input to the mixer section 7 through the line memory and the field memory.

When the luminance signal and the color signal are input to the mixer unit 7 as described above, the luminance signal and the color signal are applied to the color encoder 8 through the D / A converter, so that the color encoder 8 inputs the input color signal. Is converted into an original color signal and a luminance signal and output to the switching unit 10.

Accordingly, the switching unit 10 switches the image signal by the control signal of the microcomputer 9 and applies the image signal to the image color deflection unit 11, so that the image color deflection unit 11 is twin by the control of the microcomputer 9. As the image processing is performed so that the picture screen image is displayed on the CRT, the matrix / color signal unit 12 receives the image signal processed by the image color deflection unit 11 so that the image of the twin picture screen is clearly displayed on the CRT. Amplified and applied to the CRT (13).

However, in the conventional TV, when the viewer manipulates the remote control or the key matrix to watch the original screen or the twin picture screen, the image is clearly mismatched due to the difference in screen color, color, and white balance due to the mismatch of image quality. There was a problem that you can not watch.

In order to solve the conventional problems, the present invention uses a phase comparator to correct a difference in screen color, color, white balance, etc. with a mismatch of image quality in the case of an original screen or a twin picture screen. Referring to the configuration and operation of the present invention by the accompanying drawings as to enable a clear viewing of the screen as follows.

First, the image difference correction circuit of the twin picture and the original picture of the TV of the present invention includes a main picture tuner 1 for tuning the broadcast signal of the main picture received by the antenna, and a selected main picture as shown in FIG. A main picture processor 2 for intermediate frequency processing of a broadcast signal, a main picture color decoder 3 for separating the intermediate frequency processed broadcast video signal into a luminance signal and a color signal, and outputting the separated sub picture received by the antenna; The sub-screen tuner unit 4 for tuning the broadcast signal, the sub-screen processing unit 5 for intermediate frequency processing the selected sub-screen broadcast signal, and the sub-screen broadcast video signal subjected to the intermediate frequency processing are separated into luminance signals and color signals. The sub-screen color decoder 6 to be outputted by the display unit, the mixer unit 7 for mixing and outputting the luminance signal and the color signal output from the color decoder 3, and the luminance signal and the color signal mixed by the mixer unit 7; To the original signal A color and coder 8 for outputting, a microcomputer 9 for receiving a key signal from a remote controller or a key matrix, and controlling each part of the system when the screen is the original screen or the twin picture screen, and the control signal of the microcomputer 9 Switching unit 10 for switching and selecting the twin picture screen output from the original screen or the color and coder 8, and image color deflection for processing the image signal output from the switching unit 10 to be displayed on the CRT. A matrix 11 and a matrix / color signal unit 12 for receiving and amplifying the image signal processed by the image color deflection unit 11 and improving the sharpness of the screen, and the matrix / color signal unit 12 In the TV consisting of the CRT 13 to display the output image,

A main screen selector which receives a signal from the mixer 7 which counted the n1th signal based on the input flyback pulse, selects a signal processed by the main screen processor 2, and outputs a luminance signal and a color signal ( 14) and a signal output from the color and encoder 8 by receiving the signal of the mixer unit 7 which counted the n 1 / 2th signal based on the input flyback pulse, and selecting the luminance signal and the color signal. The luminance signal and the color which are changed by a certain amount based on the main screen selector 14 by receiving the output signal from the subscreen selector 15 and the main screen selector 14 and the subscreen selector 15. The phase comparator 16 applies a signal to the microcomputer 9.

As shown in FIG. 2 and FIG. 4, when the viewer selects the key to view the original screen through the remote controller or the key matrix, the microcomputer 9 receives the input key signal. The main screen tuner unit 1 is detected and controlled.

Therefore, when the main screen tuner 1 selects the broadcast signal of the main screen received by the antenna by the one-screen viewing selection signal output from the microcomputer 9 and applies it to the main screen processing unit 2, the switching unit 10 Inputs the main screen broadcast signal processed by the main screen processing unit 2 to the image color deflection unit 11 by the control signal output from the microcomputer 9.

At this time, the image color deflection unit 11 processes the image signal such that the main screen broadcast signal output from the switching unit 10 is displayed on the CRT 13 by the control signal of the microcomputer 9 to display the matrix / color signal unit 12. The matrix / color signal unit 12 amplifies the image signal processed by the image color deflection unit 11 and applies it to the CRT 13 so that the original image is clearly displayed on the CRT. .

On the other hand, if the viewer wants to watch the twin picture screen by manipulating the remote control or key matrix, the microcomputer 9 controls the main screen tuner 1 and the sub-screen tuner 4 to control the main screen broadcast signal received from the antenna. Tunes the sub picture broadcast signal.

When the broadcast signal is tuned by the main screen tuner 1 and the sub-screen tuner 4, the main screen processor 2 and the sub-screen processor 5 are tuned to the main screen broadcast signal by the control signal of the microcomputer 9. The sub-screen broadcasting signal is processed by the intermediate frequency into the luminance signal and the color signal and output.

In this case, the luminance signal Y _{2 that} is processed by an intermediate frequency by the main picture processor 5 is mixed through an A / D converter, a line memory and a field memory in the mixer 7, and the color signal C ₂ . Is inputted to the sub-screen color decoder 6 and converted and output to the mixer unit 7 as color signals {U ₂ (BY), V ₂ (RY)}, so that the color signal is converted into the A / D conversion unit in the mixer unit 7. And through line memory and field memory.

On the other hand, the luminance signal (Y ₁ ) output by processing the intermediate frequency in the main screen processing unit 2 is mixed through the A / D conversion unit and the line memory in the mixer 7 and the color signal (C ₁ ) is the main screen The color signals are inputted to the color decoder 6 and output to the mixer unit 7 as color signals {U ₁ (BY), V ₁ (RY)} so that the color signals are converted into the A / D conversion unit and the line memory in the mixer unit 7. The twin picture is generated in the mixer 7 while being mixed through the mixer.

At this time, when the twin picture is made in the mixer 7, the luminance signal Y ₁ and the color signal C _{1 that} are processed by the image frequency by the main screen processor 2 are input to the main screen selector 14. When the mixer unit 7 counts the n1-th signal as shown in (b) of FIG. 3 based on the input flyback pulse as shown in (a) of FIG. The main screen selector 14 applies the luminance signal Y ₁ and the color signal C ₁ inputted by the count signal output from the mixer 7 to the phase comparator 16.

On the other hand, when the luminance signal and the color signal of the sub-screen restored by the color and coder 8 are input to the sub-screen selector 15, the sub-screen selector 15 is a mixer as shown in (c) of FIG. The luminance signal Y ₂ and the color signal C ₂ are applied to the phase comparator 16 by receiving a signal counting the n 1 / 2th signal based on the flyback pulse input to the unit 7. .

Therefore, the phase comparator 16 receives the luminance signal and the color signal selected and output from the main screen selector 14 and the subscreen selector 15 and converts the predetermined amount by a predetermined amount based on the main screen selector 14. Luminance signal Y) and color signal ( By applying C) to the microcomputer 9, the microcomputer 9 applies the signal converted and output from the phase comparator 16 to the image color deflection unit 11 to correct the shifted signal so that the matrix / color signal unit 12 The same picture quality is displayed on the CRT 13 when the original screen and the twin picture screen are displayed, so that a clear image can be viewed.

As described above, in the case of the original screen or twin picture screen using a phase comparator, the viewer can clearly see the original screen or twin picture screen by compensating for differences in screen color, color, and white balance by mismatching the image quality. It is effective to improve the quality of the product.

Claims (2)

A main screen selector which receives a signal from the mixer 7 which counted the n1th signal based on the input flyback pulse, selects a signal processed by the main screen processor 2, and outputs a luminance signal and a color signal ( 14) and a signal output from the color and encoder 8 by receiving the signal of the mixer unit 7 which counted the n 1 / 2th signal based on the input flyback pulse, and selecting the luminance signal and the color signal. The luminance signal and the color which are changed by a certain amount based on the main screen selector 14 by receiving the output signal from the subscreen selector 15 and the main screen selector 14 and the subscreen selector 15. And a phase comparator (16) for applying a signal to the microcomputer (9) to optimally correct the difference between the image quality of the original picture and the twin picture picture. The image quality difference correction circuit according to claim 1, wherein the phase compensating unit compensates for a difference in screen color, color, and white balance due to mismatching of image quality.