JPH0370870B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for recording video and audio signals on a video disc.

As shown in Figure 1, the conventional method for recording onto video discs, etc. is to convert input video signals into FM
The input audio signal is FM modulated by the modulator 1, the input audio signal is FM modulated by the FM modulator 2, and the output signal of the FM modulator 1 and the signal of the FM modulator 2 are added by the adder circuit 3. , a limiter 4 performs signal processing to limit the amplitude of the output signal of the adder circuit 3.

However, since the modulation index is less than 1, the band required for demodulating the video RF signal FM modulated by the FM modulator 1 is the band occupied by the primary sideband of the highest frequency of the modulated frequency (3.9 to 13.5 MHz). It is. For this reason, the audio subcarrier is set to 2.3 and 2.8MHz so as not to be affected by the primary sideband. However, since audio signals are multiplexed using a pulse width modulation method in a video disc, the carrier level of the FM modulator 2 is set to about 1/10 of the video carrier level for mixing. However, in the limiter, it is further reduced by 6 dB. Therefore, the level of the secondary sideband of the video RF signal is lower than that of the primary sideband, but the level of the secondary sideband of the video RF signal is lower than that of the primary sideband.
The RF signal is interfered with by the higher orders of the video RF signal, especially the secondary sideband, and the S/S of the audio RF signal.
There were drawbacks such as deterioration of N and sound quality.

The present invention has been made in view of the above, and it is an object of the present invention to provide a recording method for a recording medium that eliminates the above-mentioned drawbacks.

The present invention will be explained below with reference to Examples.

FIG. 2 is a block diagram showing one embodiment of the present invention.

An embodiment of the present invention further provides an output signal of the FM modulator 1 to an audio RF band filter 5, and an output signal of the filter 5 to a detector 6 in the conventional modulation system shown in FIG. The output signal of the wave detector 6 is supplied to a control voltage generation circuit 7 that controls a voltage controlled attenuator 8 . On the other hand, FM modulator 2
The output signal is supplied to the summing circuit 3 via the voltage controlled attenuator 8. The output voltage of the control voltage generating circuit 7 is supplied to a voltage controlled attenuator to control the output of the FM modulator 2 via the voltage controlled attenuator 8.

In one embodiment of the present invention configured as described above, the video RF signal modulated by the FM modulator 1 is supplied to the adder circuit 3. On the other hand, components of the video RF signal modulated by the FM modulator 1 that overlap the audio RF band are output from the filter 5 and detected by the detector 6. The output level of the detector 6 corresponds to the level of the component overlapping the audio RF band in the video RF signal modulated by the FM modulator 1.
An output corresponding to this level is output from the control voltage generating circuit 7, and the audio subcarrier level of the FM modulator 2 is changed by the voltage control attenuator 8 according to the detected disturbance level. That is, when the interference level is large, the audio subcarrier level is raised to cope with it, and when the interference level is small, the audio subcarrier level can be lowered within a range that does not deteriorate the S/N of the audio signal.

Therefore, the video RF signal modulated by the FM modulator 1 and the audio RF modulated by the FM modulator 2, which is attenuated by the voltage-controlled attenuator 8, are added in the adder 3, and this added signal is supplied to the limiter 4. and the amplitude will be limited.

Therefore, interference with the audio RF signal by higher order, especially secondary sidebands of the video RF signal is reduced.

FIG. 3 is a block diagram showing another embodiment of the invention.

In another embodiment of the present invention, the conventional modulation system shown in FIG. vessel 10
, a limiter 11 that limits the amplitude of the output signal of the adder 10, and an audio output signal from the limiter output signal.
a filter 13 for extracting RF signal band components; a demodulator 14 for demodulating the output signal of the filter 13;
A control voltage generation circuit 15 that is supplied with the output signal of the demodulator 14 and outputs a control voltage of the voltage-controlled attenuator 8.
and a voltage controlled attenuator 8 which is inserted between the FM demodulator 2 and the adder circuit 3 and whose attenuation rate is controlled by the output voltage of the control voltage generating circuit 14.

In another embodiment of the present invention configured as described above, the output signal of the oscillator 9 and the output signal of the FM modulator 1 are added by the adder 10 and the amplitude is limited by the limiter 11. The output signal will contain the audio signal that has been interfered with by the video RF signal. The output signal of the limiter 11 is supplied to the filter 12,
Filter 12 extracts only the audio RF signal band. Therefore, the filter 12 outputs an audio RF signal that has been interfered with by the video RF signal. This signal is demodulated by a demodulator 13 and converted into a low frequency signal, and a control voltage generating circuit 14 generates a control signal for the voltage controlled attenuator 8. Therefore, the voltage control attenuator 8 uses the output voltage of the control voltage generation circuit 14 to cope with the interference by increasing the audio subcarrier level when there is a lot of interference, and when there is little interference, the S/N of the audio RF signal is increased. Reduce the audio subcarrier level to the extent that it does not deteriorate.

Therefore, it is possible to reduce interference with the audio RF signal caused by higher-order, particularly secondary sidebands, of the video RF signal.

Further, a voltage controlled attenuator may be further provided between the oscillator 9 and the adder 10, and the output voltage of the control voltage generating circuit 14 may be used to control the attenuation rate of the voltage controlled attenuator to perform closed loop control. . In this case, the level control of the audio subcarrier against interference can be performed more stably.

Furthermore, it is clear that the same effect can be obtained even if the voltage controlled attenuator is replaced with a voltage controlled amplifier.

In addition, in the above, the FM audio signal is
In order not to interfere with the FM video signal, the carrier level of the FM audio signal is approximately 26 dB lower than the carrier level of the FM video signal after being processed by the limiter 4. In this embodiment, the carrier level of the FM audio signal is changed based on -26 dB.

-26dB carrier level of FM audio signal
If you raise it to an extreme value, the FM video signal's S/
Although there is a risk that N may deteriorate, if you change it within the range of +2 dB to 6 dB compared to -26 dB, you can maintain the S/N of the FM video signal almost and also improve the S/N of the FM audio signal. There is no way that it will deteriorate.

As explained above, according to the present invention, audio
By varying the level of the audio subcarrier in response to the amount of sideband interference of the video RF signal with respect to the RF signal, the interference of the video RF signal with the audio RF signal can be substantially reduced.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a conventional recording method for a recording medium, FIG. 2 is a block diagram showing one embodiment of the present invention, and FIG. 3 is a block diagram showing another embodiment of the present invention. 1 and 2...FM modulator, 3...addition circuit,
4 and 11... Limiter, 5 and 12... Filter, 6... Detector, 7 and 14... Control voltage generation circuit, 8... Voltage control attenuator, 9... Oscillator, 11... Adder, 13 ...Demodulator.

Claims (1)

[Claims] 1. FM video signals and FM audio signals obtained by frequency modulation processing of video signals and audio signals are multiplexed such that the carrier level of the FM audio signal is lower than the carrier level of the FM video signal. This recording method detects a signal component in the FM video signal that overlaps with the FM audio signal band, and changes the carrier level of the FM audio signal according to the level of that signal component. A method for recording a recording medium, characterized in that the recording medium is multiplexed with an FM video signal and then recorded.