KR0133458B1 - Method & circuit for automatic revision verticality size - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technique for adjusting the vertical size of a screen in a television receiver. In a typical television receiver, one or two vertical extensions are used to cope with a wide source input in which part of the upper and lower portions of the screen is stored in blocks. There was a defect that the block part could not be removed correctly because only the mode was provided. To solve this problem, the ratio of the upper and lower black screens was calculated based on the upper and lower black line numbers, Based on the ratio of the upper and lower block screens, the screen size is corrected by adjusting the deflection in the horizontal and vertical directions.

Description

Method and Circuit for Automatically Correcting the Vertical Size of TV Receiver

1 is a block diagram of a general wide television receiver.

2 is a ratio table of screens according to the type of source.

3 is a block diagram of automatic screen size adjustment of a television receiver according to the present invention.

4 is a detailed block diagram of the blanking adjustment unit in FIG.

5A to 5C are input and output waveform diagrams of the horizontal blacking adjusting unit in FIG.

6A to 6E are input and output waveform diagrams of the vertical blanking adjustment unit in FIG.

7 is an exemplary view showing an example of adjusting the screen according to the present invention,

a is an example of conversion without subtitles.

b is an example of conversion when there is a subtitle.

* Explanation of symbols for main parts of the drawings

l1M: Intermediate frequency processor for main screen l1S: Intermediate frequency processor for sub picture

12M1: main screen audio processing unit 12M2: sub-screen image saving unit

13: video / audio switching unit 14: eye skin

15A: Color demodulation matrix 15B: H / V oscillator

16: synchronization separator 17: low pass filter

18: comparator 20: blanking adjustment unit

21: color signal amplifier 22: H / V amplifier

The present invention relates to a technology for adjusting the vertical size of a screen in a television receiver, and in particular, in order to respond to various source inputs of a widescreen TV, the vertical portion of the screen is automatically displayed so that the upper and lower ends of the screen are not visible in the zoom mode. The present invention relates to a method and a circuit for automatically correcting the screen vertical size of a television receiver adapted to adjust the size.

1 is a block diagram of a general wide television receiver, the operation of which is as follows.

The video signal input through the path of one side is frequency-converted by the main screen intermediate frequency processing unit (lM), and then the video / audio switching unit through the main screen audio processing unit (2M1) and the main screen image processing unit (2M2), respectively. The video signal inputted to (3) and input through another path is frequency-converted through the sub-screen intermediate frequency processing unit 1S, and then the video / audio switching unit 3 through the sub-screen image processing unit 2S. ) Is entered.

The video / audio switching unit 3 switches the main and sub picture video signals inputted through the path, and outputs the main picture luminance signal YM and the main picture color signal CM to one output terminal. And outputs the sub-screen luminance signal Ys and the sub-screen color signal Cs to the other output terminal, which are included in the main screen through a predetermined process in the PIP 4. As a result, it is output as a luminance signal YM + S and a color signal CM + S.

The luminance signal YM + S and the color signal CM + S output from the eye skin 4 are supplied to the color demodulation matrix 5A, from which red, green, and blue signals R, G, (B) is output, which is supplied to the CPT through the color signal amplifier 6 so that the main screen and the sub-screen are simultaneously displayed on the CPT.

However, as shown in FIG. 2, one or two specific zoom modes are set for various source signals, and the viewer selects a mode according to the source signals. The vertical data is fixed at a constant value.

As described above, in a typical television receiver, only one or two vertical extension modes are provided to cope with the input of a wide source in which part of the upper and lower parts of the screen are processed as blocks. there was.

Accordingly, an object of the present invention is to detect the synchronization signal and the video signal, count the number of lines in the part without the video signal, calculate the appropriate horizontal and vertical size correction data, and change the deflection data to adjust the aspect ratio. A method and a circuit are provided.

Automatic screen vertical size correction method of the present invention for achieving the above object is a screen that determines the time when the vertical synchronization signal is input after confirming the presence or absence of the input signal based on the synchronization signal separated from the video signal for the main screen A first step of initializing various counters by recognizing the starting point of the first step; a second step of detecting a black line number on the upper part of the screen based on the horizontal synchronization signal input; The third process of detecting the number of black lines and the ratio of the upper and lower black screens are calculated based on the number of upper and lower black lines detected in the second and third processes. The fourth step of adjusting the deflection in the horizontal and vertical directions based on the ratio of.

3 is an exemplary circuit diagram of a screen vertical size automatic correction circuit of a television receiver according to the present invention. As shown therein, an output signal from a main screen image processing unit 12M2 and a sub screen image processing unit 12S is supplied. The main / sub picture luminance signal is supplied with the video / audio switching unit 13 for switching the main signal luminance signal and the color signal, the sub picture luminance signal and the color signal, and the output signal of the video / audio switching unit 13. And a PI skin 14 for separately outputting the main and sub picture color signals, and a color demodulation matrix 15A for receiving the output signals of the PI skin 14 and restoring the original color signals R, G, and B. And a low pass filter 17 which detects an input signal of the main screen and separates the sync signal, a low pass filter 17 for low-pass filtering the output signal of the main image processing unit 12M2, and the low pass filtered signal. To compare the reference signal with the reference signal The comparator 18 for outputting a call and the sync separator 16 and the comparator 18 detect the sync signal and the video signal, and count the number of lines in the part without the video signal, and then select the appropriate horizontal / vertical number. A microcomputer 19 that calculates correction data and a portion that is overscanned based on the horizontal / vertical correction data output from the microcomputer 19 to protect the CPT when the vertical screen is expanded as a zero beam. With the blanking adjustment unit 20 to be made, it will be described in detail with reference to FIGS. 4 to 8 attached to the operation and effect of the present invention configured as described above.

The video signal input through the path of one side is frequency-converted through the main screen intermediate frequency processing unit (l1M), and then the video / audio switching unit through the main screen audio processing unit 12M1 and the main screen image processing unit 12M2, respectively. The video signal inputted to (13) and input through another path is frequency-converted through the sub-screen intermediate frequency processing unit 11S, and then the video / audio switching unit 13 through the sub-screen image processing unit 12S. ) Is entered.

In addition, the video / audio switching unit 13 switches the video signal for the main and sub-screens input through the path, and the main output luminance signal YM and the main screen color signal CM as the one output terminal. And outputs the sub-screen luminance signal Ys and the sub-screen color signal Cs to the other output terminal. The sub-screens are included in the main screen through a predetermined process in the pia skin 14 and accordingly It is output as a luminance signal YM + S and a color signal CM + S.

The luminance signal YM + S and the color signal CM + S output from the eye skin 14 are supplied to the color demodulation matrix 15A, from which the red, green, and blue signals R, G, (B) is output, which is supplied to the PPT through the blacking adjusting unit 20 and the color signal amplifying unit 21 so that the main screen and the sub-screen are simultaneously displayed on the CPT.

Hereinafter, the process of adjusting the screen ratio by detecting the synchronization signal and the video signal, counting the number of lines in the portion without the video signal, calculating the horizontal / vertical size correction data corresponding to the count number, and then changing the deflection data will be described. do.

The synchronizing separator 16 separates the synchronizing signal from the output image signal of the main image processing unit 12M2 and supplies it to the microcomputer 19, and the comparator 18 is supplied through the low pass filter 17. The presence or absence of an image signal per horizontal line is compared with the output signal frame reference signal of the main image processing unit 12M2, and the result is supplied to the microcomputer 19.

The microcomputer 19 determines the presence or absence of an input signal based on the output signal of the synchronization separator 16, and if there is an input signal, the vertical synchronization signal Vsync is input from the H / V oscillator 15B. It checks if the vertical sync signal (Vsync) is input and recognizes it as starting point of one screen.

At this time, the microcomputer 19 initializes the internal line counter and the upper line counter, checks whether the horizontal synchronous signal Hsync is input, and counts the count value of the line counter whenever the horizontal synchronous signal Hsync is input. Increase.

The microcomputer 19 checks the presence or absence of a video signal for each horizontal line based on the output signal of the comparator 18, and if the video signal does not exist, increases the count value of the upper block line counter. Check if the count value of the counter exceeds 130.

As a result, if the count value of the line counter is greater than 130, it is regarded as a screen having only a synchronization signal and no video signal, and returns to the main program. However, if it is not larger than 130, the horizontal sync signal (Hsync) is detected and the count value of the line counter is increased every time. Then, the output of the comparator 18 is again checked high. However, if the output of the comparator 18 is high, the number of block lines in the upper portion of the screen is detected using a line counter, and the number of lines is stored.

Thereafter, the microcomputer 19 initializes the lower block line counter to determine whether to extend the signal at the lower side of the screen, and then checks whether the count value of the line counter is greater than 262 and detects the horizontal sync signal Hsync. Each time the count value of the line counter is increased and the output of the comparator 18 is detected to determine that there is a video signal (high), the process is performed again from the above line count value comparison step S9. If (low) is determined, increase the count value of the lower block line counter, and then repeat from the above line count value comparison step (S9). If the line counter is larger than 262, the upper and lower block lines are used using the data of the upper and lower block lines. Blocking Of

Calculate the percentage of cotton and remember it.

After checking this operation for 15 fields or more, if there is no problem, the horizontal and vertical deflections are adjusted with the stored values.

7 is a view illustrating a form in which a screen is adjusted according to the present invention, (a) shows a screen in the case where there is no subtitle, and shows that the top and bottom are vertically extended equally, and (b) the subtitle. In this case, it is shown in the case where the vertical is expanded and then moved to the upper side so that the subtitle can be seen, and the horizontality is adjusted in proportion to the vertical expansion.

When the screen is extended in the horizontal and vertical directions, the blanking adjusting unit 20 is used to block the beam of the portion which is overscanned, which damages the CPT. Referring to the drawings as follows.

When the horizontal blanking signal BH as shown in (b) of FIG. 5 is supplied high, the horizontal blanking adjusting unit 2OB inputs the horizontal signal H as shown in FIG. C) and extends to the output in the transverse (T ₂₎ predetermined as shown in, and also, the vertical blanking adjusting section (20A) also to a vertical sawtooth signal (STWv) such as by using a voltage controlled oscillator in the sixth degree (a) of claim 6 degrees The vertical blanking pulse width T ₃ is expanded in the process of converting the square wave to ( _b ).

At this time, a waveform as shown in FIG. 6D is outputted to the collector of the transistor Q1 by the vertical blanking signal Bv as shown in FIG. 6C supplied to the base side of the transistor Q1. It is inverted again through the transistor Q2 and outputted as a waveform as shown in FIG.

The reason for generating the divided waveform in FIG. 6E is that in the case of the TV having the auto-cutoff function, a reference pulse is added between the vertical blanking periods, and thus the red, green, and blue signals (R, G, B) is outputted because blanking up to this pulse causes the R, G, B output to be blanked so that the pulse must not be applied.

The horizontal and vertical blanking signals BH and Bv, in which the collector output of the transistor Q2 is extended through the transistor Q3, are mixed with the R, G and B signals so that the R, G and B amplifiers 21 ) Is entered.

As described in detail above, the present invention detects a synchronization signal and a video signal, counts the number of lines in a portion where there is no video signal, calculates an appropriate horizontal / vertical size correction data, and changes the aspect ratio data accordingly. By adjusting, the vertical size of the screen can be automatically corrected in response to the source input.

Claims (2)

A first process of initializing various counters by recognizing the timing of inputting a vertical synchronization signal as a starting point of a screen after checking the presence or absence of an input signal on the basis of the synchronization signal separated from the main image video signal; A second step of detecting the number of black lines in the upper part of the screen based on the synchronization signal; a third step of detecting the number of black lines in the lower part based on the horizontal synchronization signal input; and in the second and third processes The ratio of the upper and lower black screens is calculated based on the detected number of upper and lower black lines, and if there is no abnormality up to a predetermined field, the deflection to the horizontal and vertical directions is adjusted based on the ratio of the upper and lower black screens. Automatic screen vertical size correction method for a television receiver comprising a fourth step. The video / audio switching unit 13 which receives the output signals of the main screen image processing unit 12M ₂ and the sub screen image processing unit 12S to switch the luminance signal and color signal for the main screen, and the luminance signal and color signal for the sub-screen. And an eye skin 14 which receives the output signal of the video / audio switching unit 13 and outputs the luminance signal for the main and sub picture and the color signal for the main and sub picture separately, and the output of the eye skin 14. A color demodulation matrix 15A for receiving the signal and restoring the original color signals R, G, and B, a synchronization separator 16 for detecting an input signal of the main screen, and separating the synchronization signal, and a main screen The low pass filter 17 for low-pass filtering the output signal of the image processing unit 12M ₂ and the comparator 18 for comparing the low-pass filtered signal with a reference signal and outputting a determination signal for the presence or absence of a video signal according thereto; The separation unit 16 and the comparator 18 detect the synchronization signal and the video signal so that the video signal is Is a microcomputer 19 that counts the number of lines of a portion and then calculates appropriate horizontal / vertical correction data, and horizontal / outputs output from the microcomputer 19 to protect the CPT during vertical screen expansion. A screen vertical size automatic correction circuit for a television receiver, characterized in that it comprises a blanking adjustment unit (20) which makes a part of the overscan based on the vertical correction data into a zero beam.