KR19980031543A - Automatic Method of Color Signal Processing in VSI Playback - Google Patents

Abstract

The present invention relates to a method for automatically determining a color signal processing method when playing a BSI. The microprocessor can automatically detect whether a color signal processing method of a tape currently playing on a BSI is an anti-SSI or an ARM-Am. This is to reduce the cost of circuit configuration and to facilitate the design.

To this end, the present invention provides a first step in which a microprocessor detects a color burst gate pulse (BGP) obtained from a video signal processing IC during video playback, and counts a frequency of the BGP interval; A second step of comparing the BGP frequency counted in the first step with a reference frequency which is a reference for NTSC signal processing and determining a color signal processing method according to the comparison result: counted BGP result of the frequency comparison in the second step When the frequency and the reference frequency match, the color signal processing method is recognized by the NTSC method and the determination signal is output. When the counted BGP frequency and the reference frequency do not match, And a third step of recognizing the color signal processing method using the amplifier (PAL-M) method and outputting the determination signal.

Description

Automatic Method of Color Signal Processing in VSI Playback

The present invention relates to NTSC and PAL-M combined VSI. More specifically, the color signal processing method of the tape currently being reproduced when the tape is reproduced in VSI is ANTIE. The microprocessor automatically detects whether it is sushi or arm-am and outputs the discrimination signal, so that the color signal processing circuit can be omitted so that the cost can be reduced and the design is convenient for the playback of VSI. An automatic discrimination method of a signal processing method.

In general, in the case of Anti-Sushi / Pal-Am VSI (especially for Brazil), the luminance signal processing method is the same as the Anti-Sushi method and the Arm-Am method, but the color signal processing method is 3.579545 MHz carrier The phase-inversion method by frequency, while the arm-amp method, is divided into phase shifting method using 3.582056MHz as the reference frequency.

Therefore, in VSI which uses the above two processing methods in common, a color signal processing method discrimination circuit capable of distinguishing each case is provided.

The conventional color signal processing circuit discrimination circuit provided in the anti-SSI / ARM-AM combined VSI removes noise from the reproduced color signal separated from the luminance signal after being reproduced from the tape as shown in FIG. 2H comb filter (1) having a 1H comb filter (1) and a 1H comb filter (1) and 1H comb (1) A switch 9 for switching the output of the filter 3 according to the color signal processing method discrimination signal to the Y / C mixer, a balance modulator 5 for modulating a reproduction color signal by a carrier of 3.58 MHz, and The playback tape is provided with a low pass filter (7) which outputs a 1H section pulse in the anti-Sushi system and a 1 / 2H section pulse in the arm-amp system from the output signal of the balance modulator (5). Collar Call were to determine the processing method.

In the operation of a conventional color signal processing circuit discrimination circuit having such a configuration, first, when a video signal is reproduced on a tape, the color signal is pre-amplified together with the luminance signal, separated from the luminance signal while passing through the color filter, and then subjected to a 1 / 2H interval pulse. The noise is removed and output through the 2H comb filter 1 having the 1H comb filter 3 having the 1H interval pulse.

In addition, the color signal is modulated by a carrier of 3.58 MHz while passing through a balance modulator (5), and then made into an anti-sh / a-arm discrimination signal through a low pass filter (7). By outputting to switch 9 which selects one of 1) and 1H comb-type filter 3, it is provided as a switching control signal for selecting 1H section pulse or 1 / 2H section pulse.

At this time, the low pass filter 7 outputs a 1H section pulse as shown in the waveform (A) of FIG. 2 when the color signal processing method is anti-SSI, and conversely, when the color signal processing method is an arm-amp (B) of FIG. Since the output of 1 / 2H section pulse like a waveform is output, the switch 9 is operated by the signal thus output, and then is switched to the Y / C mixer through the low pass filter 7 according to the color signal processing type discrimination signal. It becomes possible.

However, in the conventional VSI, since the color signal processing method determination circuit must be configured in hardware, the circuit configuration around the microprocessor is complicated, and the design process is cumbersome, and there are problems of cost increase.

Therefore, the present invention was created to solve the above problems, and the present invention counts the frequency of the burst gate pulse section obtained by the video signal processing IC during VSI playback and compares it with an arbitrary reference frequency. The color signal processing method automatically determines the color signal processing method based on the comparison result, and outputs a discrimination signal for discriminating whether it is an NTSC or PAL-M method. It is an object of the present invention to provide an automatic discrimination method of color signal processing method when reproducing VSI that can increase the convenience and cost competitiveness of circuit design by eliminating the signal processing method detection circuit.

In order to achieve the above object, the present invention provides a first step in which a microprocessor detects a color burst gate pulse (BGP) obtained from an IC for video signal processing and counts the frequency of the BGP section during the playback of a BSI; A second step of comparing the BGP frequency counted in the first step with a reference frequency which is a reference for NTSC signal processing and determining a color signal processing method according to the comparison result: counted BGP result of the frequency comparison in the second step When the frequency and the reference frequency match, the color signal processing method is recognized by the NTSC method and the determination signal is output. When the counted BGP frequency and the reference frequency do not match, A third step of recognizing a color signal processing method using an AM (PAL-M) method and outputting the determination signal is provided.

1 is a block diagram of a conventional color signal processing type discrimination circuit

2 is a reference diagram illustrating an output waveform of an anti-SH and ARM-M scheme in the low pass filter of FIG.

3 is a block diagram showing an internal configuration of a microprocessor for implementing the present invention.

4 is a flowchart illustrating an automatic discrimination operation of a color signal processing method of VSI according to the present invention.

** description of symbols for the main parts of the drawings **

10: microprocessor 11: frequency counter

12: comparator X1: crystal oscillator

Hereinafter, a configuration of a method for automatically determining a color signal processing method at the time of playing a BSR according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram showing an internal configuration of a microprocessor for implementing a method of automatically determining a color signal processing method when reproducing a BCial according to the present invention.

In the drawing, the frequency of the burst gate pulse interval is detected and counted, and the counted frequency is compared with an arbitrary reference frequency, and if the counted frequency value and the reference frequency value are the same, an anti-sushi method is used. A microprocessor 10 having a series of control programs for recognizing a color signal processing method using an amplifier method and outputting and terminating a system discrimination signal is shown.

At this time, the microprocessor 10 separates the horizontal synchronization signal from the video signal reproduced from the tape, delays by the portion having the color burst signal, and counts the frequency of the color burst gate pulse interval obtained by the video signal processing IC ( 11) and compare the frequency counted by the frequency counter to the carrier frequency as a reference to the NTSC signal processing method, and change the logic value according to the comparison result. In the case of an arm-amp system, a comparator 12 for outputting an anti-speech / arm-amp discrimination signal having a low-level logic value L is incorporated.

In addition, the microprocessor 10 includes a crystal oscillator X1 for generating a reference frequency to the comparator by generating an arbitrary frequency signal, that is, 3.579545 MHz, which is the carrier frequency of an anti-SSI method. .

4 is an operation flowchart for explaining a method of automatically determining a color signal processing method when reproducing a BCial of the present invention.

As shown in the figure, the first step is a step in which the microprocessor detects a color burst gate pulse (BGP) obtained from a video signal processing IC during VSI reproduction (S11), and counts the frequency of the detected BGP section. Step S12 is made.

The second step is a step of comparing the BGP frequency counted in the first step with an arbitrary reference frequency and determining the color signal processing method according to the comparison result (S13).

In the third step, if the counted BGP frequency and any reference frequency coincide with each other as a result of the frequency comparison in the second step, outputting and ending the determination signal that recognizes the color signal processing method as the NTSC method (NTSC). S14) and outputting a determination signal for recognizing a color signal processing method using a PAL-M method when the counted BGP frequency does not coincide with an arbitrary reference frequency as a result of the comparison of the second step, and terminating it. It is made of (S15).

The operation of the present invention having the configuration as described above is as follows.

First, when processing color signals, the anti-SSI method uses a 3.579545 MHz phase inversion method and the arm-amp method uses a phase shift method with 3.582056 MHz as a reference frequency, so the anti-SSI / arm-amp The color signal processing method should be able to be distinguished when the tape is played in the combined VSI. Therefore, in the present invention, the microprocessor 10 can determine the system by counting only the frequency of the color burst part, and according to the determination result. By automatically outputting the system discrimination signal in each case, the system can automatically process the color signal processing when the tape is reproduced in the above-mentioned two V's without the intentional operation of the user or the hardware configuration. Allows you to determine and print

That is, in the present invention, the microprocessor 10 detects the frequency of the burst gate pulse section of the color signal obtained by separating the horizontal synchronizing signal from the video signal processed by the video signal processing IC and delaying it by the portion having the color burst signal. In operation S11, the first step of counting the frequency of the detected burst period using the frequency counter 11 (S12) is performed.

Next, the comparator 12 inside the microprocessor 10 receives the frequency counted by the frequency counter 11 as an input terminal, and simultaneously references the oscillation frequency output of the crystal oscillator X1 for oscillating an anti-sushi carrier. In step S13, the inputted frequency is compared with the input frequency, and the operation frequency is determined according to the result of the determination. do.

As a result of the determination in the second step, when the counted frequency value and the reference frequency value are the same, the color signal processing method is recognized as the anti-SSH method, and the system determination signal is output as a high level logic value H (S14). And the third step to end.

Contrary to the above, when the counted frequency value and the reference frequency value are not the same as the determination result of the second step, the color signal processing method is recognized as the arm-amp method, and the system discrimination signal is determined as the low level logic value (L). A series of control operations are performed to output (S15) and terminate.

According to the automatic discrimination method of the color signal processing method in the playback of the VSI according to the present invention having the above-described configuration, the color signal processing method is automatically determined by detecting the frequency of the BGP section obtained by the video signal processing IC during the tape playback. Since the color signal processing method detection circuit around the processor can be omitted, it is useful to increase the convenience and cost competitiveness of the circuit design.

Claims (1)

A first step of detecting, by the microprocessor, a color burst gate pulse (BGP) obtained from a video signal processing IC at the time of playing BSI, and counting a frequency of the BGP interval; A second step of comparing the BGP frequency counted in the first step with a reference frequency as a reference for NTSC signal processing and determining a color signal processing method according to the comparison result; As a result of the frequency comparison in the second step, if the counted BGP frequency and the reference frequency coincide, the color signal processing method is recognized by the NTSC method and the determination signal is output. When the BGP frequency and the reference frequency do not match, a third step of recognizing the color signal processing method using the PAL-M method and outputting the determination signal is performed. Automatic determination method.