NL8403382A - METHOD AND APPARATUS FOR DETECTING INTERVALS BETWEEN AUDIO SIGNALS - Google Patents

Description

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Method and device for detecting intervals between audio signals.

The present invention relates to methods and devices for detecting intervals between audio signals, and in particular to a method and apparatus for detecting intervals between audio signals for a PCM (pulse code modulation) audio data processor as can be used in a VBO (videotape recorder).

In a domestic PCM processor, an audio signal such as a music signal is converted into a digital signal using a PCM device.

The synchronizing signal of a composite video signal is added to the digital signal in order to obtain a so-called video format signal. The video format signal is then recorded on a video tape.

When displaying the audio data, the PCM signal is separated from the video format signal to thereby obtain an audio signal. In such a device, an interval between audio signals can be detected by a method that uses the counter of the VBO or by a method that uses the audio signal. In the first method, the count of the counter that occurs during intervals between audio signals is read and recorded, and during playback, the intervals between the audio signals are detected by referring to the count thus recorded. In the second method, the "fast rinse", "rewind" or "picture search" button is operated so that the intervals between the audio signals can be detected while listening to the audio signal.

The method in which the counter is used is disadvantageous because the counting positions corresponding to the intervals between the audio signals must be known. On the other hand, the method employing the audio signal is equally 8403382

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- 2 - disadvantageous because during the fast rinse there is a lot of noise on the sound signal.

Accordingly, an object of this invention is to provide a method and apparatus for detecting intervals between audio signals with which intervals between audio signals can be easily and positively detected.

A special feature of this method and device according to the present invention is based on the fact that by recording digitized audio data on a predetermined recording medium in such a way that the audio data is superimposed on a video format signal, a part thereof, corresponding to an interval is recorded in the audio data between the audio signals, omitting the synchronization signals, and that, during playback of the audio data, part of an audio signal having no synchronization signal is thereby detected to detect the interval.

Figure 1 is a block diagram of an exemplary embodiment of a device and method for detecting intervals between audio signals; Figure 2 is a circuit diagram showing an example of a damping circuit in Figure 1; Figure 3 is a block diagram of a playback portion of an apparatus of the invention for detecting intervals between audio signals; Figure 4 is a circuit diagram showing a 7 'example of a synchronization signal detector in Figure 3; and Figure 5 is a time sequence diagram showing the active signal shapes in the device of Figure 3.

The present invention will be described with reference to the accompanying drawings.

8403382 «'-S» - 3 -

Figure 1 is a block diagram showing part of an apparatus of the invention for detecting intervals between audio signals used to record audio signals. An audio signal to be recorded, such as a music signal, is converted into a digital signal by sampling an A / D (analog-digital) converter 1.

The output of the A / D converter 1 is subjected to pulse code modulation (PCM) by a PCM circuit 2. The output of the PCM circuit 2 is supplied to a synthesizer 4 where it is combined with a synchronization signal provided by a synchronization signal generator 3 into a video format signal.

The video format signal is output as a recording signal to a recording and playback circuit 7 via a mute circuit 5. In the mute circuit 5, the video format signal is interrupted, ie the supply of the video format signal to the recording and playback circuit 7 is interrupted during the length of time that the muting switch 6 is closed.

Figure 2 shows an example of the damping circuit 5. A switching transistor which is the connection between a video format signal voltage / and ground is turned on and off by the damping switch 6.

A bias, triggered when the attenuation switch 6 is closed, is applied to the junction of the resistors R1 and connected to the base of the transistor and ground. When the attenuation switch 6 is closed, the transistor Q1 conducts, so that the signal voltage 8dm is the ground potential and the feeding of the video format signal is interrupted. Accordingly, by closing the mute switch 6 in an interval between audio signals which occurs during the signal recording operation, the supply of the video format signal to the recording and playback circuit 7 is interrupted, and consequently neither the PCM signal nor 8403382 - 4 - the synchronization signal recorded on the video tape.

Figure 3 is a block diagram of the playback circuit. The playback signal (.a) outputted from the recording and playback circuit 7 (Fig. 1) is applied to a sync signal separator circuit where only the sync signal is extracted.

The synchronization signal (B) thus selected is applied to a synchronization signal detector 10, which provides an output signal (C) in the active state when the synchronization signal (B) is absent. The detection output signal (C) is supplied by a control circuit 11 to a reading unit 12 for intervals between audio signals.

Figure 4 shows an example of a synchronization signal detector 10 in Figure 3. A synchronization signal (B) is applied to the base of a transistor through a base bias circuit consisting of the resistors R_ and R .. The collector output signal of the ó4 transistor Q is applied to a time constant circuit with a resistor and a capacitor C1. The output 20 signal of the time constant circuit is applied to a level comparator, namely a differential amplifier A ^, where it is compared to a reference level provided by a voltage dividing circuit formed by the resistors Rg and R ^, the level comparator output of the amplifier A ^ is the signal (C).

An effective level comparison output signal is not provided as long as the sync signal is present. However, if a synchronization signal is not supplied in the time period determined by the time constant R ^ C ^ and the reference level, the level comparison output signal (C) has risen from the low to the high level.

Figure 5 is a time sequence diagram for a description of the operation of the device shown in the block diagram in Figure 3. In particular, the signal 8403382 - 5 -% '* ï show shapes (A), (B) and (C) of Figure 5, respectively, the signals (A), (B) and (C) of Figure 3.

If a video format signal recorded on the videotape has no signal for a time S duration T, corresponding to an interval between audio signals as in signal form (A), the audio signal has no synchronization signal for the duration T as shown in signal form (B). Accordingly, the output of the detector 10 is as shown at (C) in Figure 5.

Therefore, whenever an interval between audio signals occurs, the interval unit between the audio signals is controlled to turn on a lamp or the like. For example, the interval between the audio signals has been positively detected and indicated.

As is apparent from the above description, in accordance with the invention, during the superimposing of the PCM signal on the video format signal, the portions corresponding to the intervals between the audio signals are omitted, and during playback, the portions are that do not have a sync signal, detecting the intervals between the audio signals. Thus, the intervals between the audio signals can be easily and positively detected. Furthermore, an interval between audio signals can be easily detected during fast winding, rewinding or image search, and therefore this operation can be accomplished with the volume control turned low, with the result that noise generation is prevented.

In the above-described exemplary embodiment, the damping circuit 5 is provided behind the synthesizer 4. However, only the synchronizing signal can be remembered in the synthesizer. Furthermore, the device for detecting intervals between audio signals can be designed such that, due to the level of the analog audio signal being lower than a certain value when an interval between audio signals occurs. occurs, the video format signal or the synchronization signal is attenuated in the corresponding time period.

The arrangement of the synchronizing signal-5 detector 10 is not limited to that shown in Figure 4. For example, it can be provided with an oscillator of the same frequency as that of the synchronization signal, in which, when the frequency of the output signal of the oscillator does not match that of the playback synchronization signal, the lack of signal is detected.

Furthermore, the lack of signal can be detected by connecting the detector to a self-recovering MMV (monostable multivibrator) as well as being triggered by a playback sync signal. If the time-15 constant of the MMV is set a little longer than the period of the sync signal, the MMV will restore itself when the playback sync signal is absent. Therefore, the lack of signal can be detected. Furthermore, instead of the display unit, a sound alarm such as a buzzer can be used.

In the above-described exemplary embodiment, recording is effected on a video tape, but a video disc can also be used if desired.

8403382

Claims (3)

1. A method of detecting intervals between audio signals in which an audio signal in digital form and with the accompanying synchronizing signal is superimposed on a video format signal and recorded on a recording medium, and is played back from the recording medium, characterized in that during recording of the audio signal the synchronization signal is omitted from parts corresponding to the intervals between the audio signals, and that after the audio signal has been played, the presence of intervals between audio signals is indicated by detecting an absence of the synchronization signal. 2. An apparatus for detecting 15 intervals between audio signals for use in a recording and playback device in which an audio signal containing a synchronizing signal is superimposed on a video format signal, characterized in that it comprises: to record the audio signal, attenuations -20 means to mute the sync signal during the intervals between the audio signals, and to play, means to detect an absence of the sync signal, and means operating in response to an output from the detecting means to indicate the presence of intervals between audio signals. A device for detecting intervals between audio signals according to claim 2, characterized in that the damping means comprise: a transistor receiving the synchronization signal at a control input thereof, a capacitor connected between the output contacts of the transistor, a comparator with a first input terminal coupled to the capacitor to provide a voltage across the capacitor, and means for supplying a reference voltage to a second terminal of the comparator. 8403382