KR100205823B1 - Luminence signal compensation circuit for ntsc signal reproduction in a pal type vcr - Google Patents

Abstract

The present invention relates to a luminance signal compensating circuit for reproducing NTSC signals in a PAL VCR. When an NTSC video signal is reproduced in a PAL VCR and outputted through a PAL TV, an NTSC video signal is converted into a pseudo horizontal synchronous signal. By compensating by using, it is to prevent the reduction of the screen or the distortion of the screen due to the horizontal length difference between the PAL video signal and the NTSC video signal.

To this end, the present invention provides a luminance signal processing means and a color signal processing means for separately detecting and processing a luminance signal and a color signal of a reproduction signal, and an image synthesizing means for synthesizing the luminance signal and color signals obtained by the processing means to obtain a composite video signal. And detecting a horizontal synchronizing signal outputted from the luminance signal processing means and generating a pseudo horizontal synchronizing signal during the delay time while delaying an output signal of the image synthesizing means from the end of the horizontal synchronizing signal to the next horizontal synchronizing signal. NTSC video signal compensation means for obtaining a composite video signal of the.

Description

Luminance signal compensation circuit during NTSC signal reproduction in PAL VCR

1 is a block diagram of a reproduction signal processing circuit in a conventional PAL VCR.

2 is a block diagram of a reproduction signal processing circuit in a PAL VCR according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: luminance signal processing means 11: high pass filter (HPF)

12: FM demodulator 13: playback equalizer

14 DMMP 15, 21 low pass filter (LPF)

20: color signal processing means 22: frequency converter

23: NAP circuit 24: Band filter (BPF)

30: video synthesizing means 40: NTSC video signal compensation means

41: 100H retarder 42: 525H detector

43: pseudo horizontal synchronous signal generator 44: 100H counter

45: switching circuit 46: second synthesizer

The present invention relates to a playback signal processing circuit in a PAL (Phase Alternation by Line) VCR, and more particularly, to reproduce a video signal of a NTSC (National Television System Committee) type by a PAL type VCR, and then through a PAL type TV. When outputting, the NTSC video signal is compensated with a pseudo horizontal sync signal and converted into a PAL video signal for a period equal to the difference between the horizontal sync signal between the PAL video signal and the NTSC video signal. The present invention relates to a luminance signal compensation circuit during NTSC signal reproduction in a PAL-type VCR, which can prevent screen shrinkage, screen flow, and distortion due to horizontal length differences.

The reproduction signal processing circuit employed in the conventional PAL VCR includes color signal processing means 20 and luminance signal processing means 20 for detecting and processing a luminance signal from a signal reproduced and amplified on a tape as shown in FIG. It is composed of an image synthesizing means 30 for synthesizing the luminance signal and the color signal passed through the color signal processing means 20 to produce the composite image signal CVS1 for the screen configuration.

The luminance signal processing means 10 includes a high pass filter 11 (HPF) for detecting only a luminance signal from a frequency modulated reproduction signal and an FM demodulator 12 for demodulating the luminance signal detected by the high pass filter. A reproduction equalizer 13 which delays the luminance signal demodulated by the auxiliary device for a predetermined time in order to match the timing with the color signal, and attenuates the high-high-high-strength characteristic in the pre-emphasis among the luminance signals delayed by the reproduction equalizer to reduce the original luminance signal. And a low pass filter 15 (LPF) for blocking the FM carrier frequency component among the luminance signals reduced by the diemphasis.

The color signal processing means 20 converts the low frequency filter 21 (LPF) for detecting only the color signal from the reproduction signal and the color signal of the low frequency region (3.58 MHz) detected by the low frequency filter to high frequency (4.43 MHz). A frequency converter 22 for converting the frequency converter, a NSC (NTSC Alterative PAL) circuit 23 for selectively controlling a high to low frequency conversion operation or a low to high frequency conversion operation of the frequency converter; And a band filter 24 (BPF) for filtering the color signal region that is high-pass converted in the frequency converter.

When the NTSC reproduction signal modulated by the reproduction signal processing circuit of the conventional PAL system VCR having such a configuration is input, the luminance signal processing means 10 detects only the luminance signal using the high pass filter 11 and then the FM demodulator 12 Frequency demodulated), delays the FM demodulated luminance signal through the reproduction equalizer 13 for a predetermined time, adjusts the timing with the color signal, and then passes through the de-emphasis 14 to perform high-frequency emphasis on pre-emphasis. Attenuates the signal to reduce the original luminance signal, and blocks the FM carrier frequency component through the low pass filter 15, thereby producing a pure luminance signal.

At the same time, the color signal processing means 20 detects only the color signal from the reproduced signal using the local filter 21 and applies it to the frequency converter 22. In the frequency converter 22, the NAP circuit 23 uses the NTSC method. The low frequency region (3.58MHz) color signal is converted into a PAL high frequency (4.43MHz) color signal to output the PAL color signal, and passes through the band pass filter 24 to produce a pure color signal.

In addition, the image synthesizing means 30 may synthesize the luminance signal and the color signal to obtain a composite image signal CVS1.

However, the reproduction signal processing circuit of the conventional PAL type VCR converts NTSC signals into PAL signals using a NAP circuit, and does not convert NTSC signals, which are 525H horizontal synchronization signals, to PAL signals, which are 625H horizontal synchronization signals. In this case, when the NTSC video signal is reproduced in the PAL type VCR, the screen is reduced in the PAL type TV and the video screen flows or distorts.

Accordingly, the present invention has been made to solve the above problems, and the present invention retards the PAL video signal and the NTSC video signal while delaying the PAL video signal and the NTSC video signal when the NTCS video signal is reproduced by a PAL VCR and output through a PAL TV. By synthesizing the pseudo horizontal sync signal to the NTSC video signal for every period equal to the difference between the horizontal sync signal and the NTSC video signal, the screen is reduced or the flow of the screen due to the horizontal length difference between the PAL video signal and the NTSC video signal. It is an object of the present invention to provide a luminance signal compensation circuit for reproducing an NTSC signal in a PAL type VCR capable of preventing an error.

In order to achieve the above object, according to the present invention, a luminance signal processing means and a color signal processing means for separately detecting and processing a luminance signal and a color signal of a reproduction signal, and a composite video signal by synthesizing the luminance signal and the color signal obtained by each processing means. A reproduction signal processing signal of a PAL system VCR having an image synthesizing means for obtaining a signal, wherein the horizontal synchronizing signal output from the luminance signal processing means is detected and outputted from the end of the horizontal synchronizing signal to the next vertical synchronizing signal. NTSC image signal compensation means for synthesizing a pseudo horizontal synchronization signal to an output area signal of the image synthesizing means and delaying the signal to obtain a second composite image signal compensated for the luminance signal. A luminance signal compensation circuit is provided during signal reproduction.

Hereinafter, a luminance signal compensation circuit during NTSC signal reproduction in a PAL VCR according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram of a luminance signal compensation circuit during NTSC signal reproduction in a PAL VCR according to the present invention. As shown in the figure, luminance signal processing means 10 for separately detecting and processing a luminance signal and a color signal of a reproduction signal, respectively. And a color signal processing means 20, an image synthesizing means 30 for synthesizing a luminance signal and a color signal obtained by each of the processing means to obtain a composite video signal, and a horizontal synchronizing signal output from the luminance signal processing means. The second composite video signal CVS2 having the luminance signal compensated by synthesizing the pseudo horizontal sync signal with the output delay signal of the video synthesizing means by delaying the output signal of the video synthesizing means from the end of the synchronizing signal to the next horizontal synchronizing signal. It is preferable that the obtained NTSC video signal compensation means 40 is configured.

The luminance signal processing means 10 has the same configuration as the conventional case, and includes a high pass filter 11 (HPF) for detecting only a luminance signal from a frequency modulated reproduction signal, and a luminance signal detected by the high pass filter. The FM demodulator 12, a reproduction equalizer 13 for delaying the luminance signal demodulated by the FM demodulator for a predetermined time to match the timing of the color signal, and a pre-emphasis high-band-high-weighted characteristic among the luminance signals delayed in the reproduction equalizer; And a low pass filter (LPF) 15 for blocking the FM carrier frequency component of the luminance signal reduced by the diemphasis.

The color signal processing means 20 also has the same configuration as the conventional case, and includes a low pass filter 21 (LPF) for detecting only a color signal from a reproduction signal and a color signal of a low frequency region (3.58 MHz) detected by the low pass filter. A frequency converter 22 for converting a frequency into a high frequency (4.43 MHz), a NAP circuit 23 for selectively controlling a frequency conversion operation from a high frequency to a low frequency frequency or a low frequency frequency conversion operation of the frequency converter; A frequency filter 24 includes a band filter 24 (BPF) for filtering the high frequency converted color signal region.

As a main part of the present invention, the NTSC image signal compensating means 40 is driven by the output of the 525H detector 42 and the output of the 525H detector, which detects the end of the luminance signal output from the luminance signal processing means and generates an output. And a 100H delayer 41 for delaying the composite video signal obtained by the video synthesizing means for a predetermined time (hereinafter, a case in which the horizontal synchronization signal difference between the PAL method and the NTSC method is set to 100H as an example). A pseudo horizontal synchronous signal generator 43 which receives the luminance signal outputted from the luminance signal processing means and outputs a horizontal level synchronous signal of a black level, and counts 100H from the output of the 525H detector 42 to generate a 625H timing signal. An output 100H counter 44 and an output of the 525H detector 42 and an output of the 100H counter to pass through the output of the pseudo horizontal synchronous signal generator And a second synthesizer 46 for synthesizing or blocking the switching circuit 45 and the output of the 100H retarder and the pseudo horizontal synchronization signal passing through the switching circuit to obtain a second composite video signal CVS2. Do.

As described above, the operation of the luminance signal compensation circuit during PAL type NTSC signal reproduction according to the present invention will be described in detail.

First, when the frequency-modulated NTSC signal is reproduced and inputted, the luminance signal processing means 10 detects only the luminance signal using the high pass filter 11 and passes the frequency through the FM demodulator 12 and the reproduction equalizer 13. After demodulating and delaying for a certain time to adjust the timing with the color signal, it is passed through the de-emphasis 14 and the filter 15 again to attenuate the high frequency characteristic to obtain a pure luminance signal in which the FM carrier frequency component is cut off. At the same time, when the color signal processing means 20 detects only the color signal from the reproduction signal using the low pass filter 21 and applies it to the frequency converter 22, the frequency converter 22 uses the NAP circuit 23 to perform the NTSC low frequency region. Since the pure color signal can be obtained by converting the (3.58 MHz) color signal into a high frequency (4.43 MHz) color signal of the PAL method, the image synthesizing means 30 synthesizes the luminance signal and the color signal to obtain a first composite image signal CVS1. It is supplied to the SC video signal compensation means 40.

In the NTSC image signal protection means 40, the pseudo horizontal synchronous signal generator 43 receives the luminance signal output from the luminance signal processing means and arbitrarily outputs the black level horizontal synchronous signal to the switching circuit 45. At the same time, the 525H detector 42 recognizes the 525th horizontal synchronization signal, which is the horizontal synchronization end signal of the first composite video signal CVS1, and generates the 525H detection signal. Thus, the 100H delay unit 41 and the 100H counter 44 And the switching circuit 45 are not operated from the first horizontal synchronization signal to the 525th horizontal synchronization signal, and are simultaneously controlled by the 525H detection signal of the 525H detector 42 generated when the 525th horizontal synchronization signal is detected. The operation starts and the NTSC video signal is compensated until the next vertical synchronization signal is input.

At this time, the 100H delay unit 41 does not operate from the first horizontal synchronization signal to the 525th horizontal synchronization signal, but is operated by the 525H detection signal at the time when the 525th horizontal synchronization signal is detected to operate the NTSC composite video signal. While outputting, and at the same time, the switching circuit 45 is turned on so that the output of the pseudo horizontal synchronous signal generator 43 is applied to the second synthesizer 46 and the 100H retarder 41 in the second synthesizer 46. The second composite video signal CVS2 is output by synthesizing the delayed first composite video signal CVS1 and the pseudo horizontal synchronizing signal.

On the other hand, the 100H count 44 starts counting by the 525H detection signal in which the 525th horizontal synchronous signal is detected, and counts 100H from the output of the 525H detector 42 to the timing signal up to 625H where the next vertical synchronous signal enters. When 625H is calculated, an output is generated to turn off the switching circuit 45, thereby preventing the pseudo horizontal synchronizing signal from being applied to the second synthesizer 46 to stop the fluctuation compensation operations.

Accordingly, the first composite video signal can be obtained from the first to the 525th horizontal synchronous signal at the output terminal of the NTSC video signal compensating means 40, and from the 525th horizontal synchronous signal to the 625th horizontal synchronous signal to which the next vertical synchronous signal is input. The second composite video signal CVS2 obtained by converting the NTSC signal of the 525H reproduced by the PAL system VCR into the PAL signal of the 625H can be obtained.

According to the luminance signal compensation circuit in the NTSC signal reproduction in the PAL VCR of the present invention as described above, the PAL image is compensated by the pseudo horizontal synchronizing signal during the time difference between the PAL image signal and the NTSC image signal. Since it can be converted into a signal, there is an advantage in that it is possible to watch a correct screen without the reduction of the screen or the flow and distortion of the screen due to the horizontal length difference between the PAL video signal and the NTSC video signal.

Claims (2)

Image synthesis which obtains a composite video signal by combining the luminance signal processing means 10 and the color signal processing means 20 which separately detect and process the luminance signal and the color signal of the reproduction signal, and the luminance signal and the color signal obtained by the respective processing means. A reproduction signal processing circuit of a PAL system VCR having a means 30, comprising: detecting a horizontal synchronizing signal output from the luminance signal processing means and outputting the output signal of the image synthesizing means from the end of the horizontal synchronizing signal to the next vertical synchronizing signal; NTSC video signal compensating means (40) for synthesizing a pseudo horizontal synchronizing signal to an output delay signal of said video synthesizing means and obtaining a second composite video signal while delaying Luminance signal compensation circuit. The 525H detector 42 according to claim 2, wherein the NTSC image signal compensating means 40 generates an output by detecting the end of the luminance signal output from the luminance signal processing means. 100H retarder 41 for delaying the composite video signal obtained from the synthesizing means for a predetermined time (100H): a pseudo horizontal synchronizing signal generator for receiving a luminance signal output from the luminance signal processing means and outputting a horizontal level synchronizing signal of black level (43): 100H counter 44 for counting 100H of the output of the 525H detector 42 as a starting point and outputting a 625H timing signal: turned on at the output of the 525H detector 42 and off at the output of the 100H count A switching circuit (45) for passing or interrupting the output of the pseudo horizontal synchronous signal generator; NTSC signal reproduction in a PAL VCR comprising a second synthesizer 46 which synthesizes the output of the 100H delay unit and the pseudo horizontal synchronizing signal that has passed through a switching circuit to obtain a second composite video signal CVS2. Luminance signal compensation circuit.