JPH0157554B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION This invention automatically adjusts the rotational speed of a cylinder and the running speed of a magnetic tape in accordance with the number of scanning lines of a signal recorded on a magnetic tape in a magnetic reproducing device (hereinafter abbreviated as VTR). This invention relates to a switchable automatic switching circuit.

For example, in a helical scan VTR, the rotational speed of the video head installed in the cylinder is determined by the signal recorded on the magnetic tape (NTSC signal,
PAL/SECAM signal) frame frequency. Further, the running speed of the magnetic tape is also set separately for each signal in consideration of H alignment and the like. For example, the rotation speed of a video head is
NTSC signal is 29.98Hz, PAL and
If it is a SECAM signal, it will be 25Hz. As mentioned above, the running speed of the magnetic tape is different for NTSC signals, PAL and
Although it is different from the case of SECAM signals, this value depends on the cylinder diameter and the width of the magnetic tape, and it is not fixed to this value just because it is a helical scan VTR.

From the above explanation, it can be seen that in a VTR, the type of signal recorded on the magnetic tape (NTSC signal or
It is necessary to switch the rotational speed of the video head and the running speed of the magnetic tape depending on the PAL/SECAM signal, but the type of signal recorded on the magnetic tape is accurately detected during playback, and the rotational speed of the video head is It is also difficult to accurately switch the running speed of the magnetic tape. As an example of such a detection means, a method of detecting a control pulse recorded on a magnetic tape to perform switching has been considered. However, in such a method
When a VTR uses a camp stun servo, the servo works to match the control pulse cycle to the reference frequency, so the detected control pulse cycle is affected by the reference frequency and is not accurate. There is a risk of malfunction.

This invention was made in order to deal with the above-mentioned circumstances, and it is determined whether or not the relationship between the signal recorded on the magnetic tape and the rotational speed of the video head is normal. The type of signal is determined by utilizing the difference in the frequency of the synchronization signal, and the rotational speed of the video head and the running speed of the magnetic tape are switched to a state suitable for the type of video signal according to the result of this determination. The purpose of the present invention is to provide an automatic switching circuit for a magnetic reproducing device that can perform the following steps.

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings. First, in Figure 1, f _NC is
f NC is the horizontal scanning frequency when an NTSC signal is played back at the video head rotation speed when playing PAL and SECAM signals, and f _NC is when the PAL and SECAM signals are played back at the video head rotation speed when playing back NTSC signals. f _NN and f _CC are the horizontal scanning frequencies when the signal type and video head rotation speed match, f _NN is for NTSC signals, and f _CC is for PAL and This is the case for SECAM signals.

As shown in the figure, if the relationship between the rotational speed of the video head and the recording signal is normal, then if the relationship is different from f _NN and f _CC , then the horizontal scanning frequency at f _NC and f _CN is approximately 2.5 kHz or more. There is a gap (shift) between the two.
Therefore, it can be easily determined whether the relationship between the rotational speed of the video head and the reproduced signal is normal or not by using a band rejection filter having a pass band as shown by the broken line in the figure. . By the way, since the rotational speed of the video head is generally very stable, the frequency relationship shown in the figure is not disturbed, and the type of signal is determined by detecting the horizontal scanning frequency from the reproduced signal as described above. That is effective.

FIG. 2 is a block diagram showing one embodiment of the present invention. In the figure, 11 is a cylinder, 12 is a cylinder motor, 13 is a video head, 14 is a magnetic tape, 15 is a pinch roller, 16 is a capstan,
17 is a capstan motor. 18 is an FM demodulation circuit that demodulates the video signal detected by the video head 13. 19 is a frequency discriminator having characteristics as shown by the broken line in FIG. 2
0 is a detector, 21 is a bistable multivibrator,
22 is a cylinder motor control circuit, and 23 is a capstan motor control circuit.

The operation in the above configuration will be explained. First, consider a case where the rotational speed of the video head 13 and the video signal recorded on the magnetic tape 14 do not have a normal relationship. The video signal demodulated by the FM demodulation circuit 18 is supplied to a frequency discriminator 19. In this case, since the horizontal scanning frequency of the demodulated signal is the aforementioned f _NC or f _CN , this horizontal scanning frequency component is supplied to the detector 20 through the frequency discriminator 19 and detected. This detection output is supplied to the bistable multivibrator 21. This inverts the output of the bistable multivibrator 21. The cylinder motor control circuit 22 and the capstan motor control circuit 23 respectively control the rotational speed of the video head 13 and the running speed of the magnetic tape 14 according to the binary signal (H or L) output from the bistable multivibrator 21. signal or PAL and
It is configured to be able to switch to a state suitable for reproducing SECAM signals. Therefore, the rotational speed of the video head 13 and the magnetic tape 14
If the relationship between the signals recorded on the video head 13 is not a normal relationship, the rotational speed of the video head 13 and the running speed of the magnetic tape 14 change in accordance with changes in the output of the bistable multivibrator 21.

On the other hand, if the relationship between the recorded signal and the rotational speed of the video head 13 is normal, the horizontal scanning frequency of the demodulated signal is f _NN or f _CC , so this horizontal scanning frequency component is passed through the frequency discriminator 19. cannot pass. Therefore, the detected output of the detector 20 cannot be obtained, and the output of the bistable multivibrator 21 is not inverted, so the video head 13
The rotational speed of the magnetic tape 14 and the running speed of the magnetic tape 14 do not change.

As described in detail above, the present invention allows the frequency of the horizontal synchronizing signal reproduced from the magnetic tape to deviate depending on whether or not the relationship between the signal recorded on the magnetic tape and the rotational speed of the video head is normal. By taking advantage of the fact that If the image is not obtained by rotational scanning at a rotational speed of
This configuration automatically changes the traveling speed of No. 4 to a state suitable for the type of recording signal. In this case, since the rotation of the video head 13 is very stable as described above, the horizontal scanning frequency obtained from the reproduced signal always settles at a similar value. Furthermore, there is a large deviation in the reproduction horizontal scanning frequency, which occurs depending on whether or not the relationship between the signal recorded on the magnetic tape and the rotational speed of the video head is normal. Therefore, the reliability of the result of determining whether the reproduced signal is obtained by normal rotational scanning of the video head 13 is high, and an accurate reproduced image can be obtained.

This invention is based on the helical scan method.
The present invention is not only applicable to VTRs, but can also be applied to VTRs in general that have rotating video heads.

[Brief explanation of drawings]

FIG. 1 is a diagram showing the relationship between the rotational speed of a video head and the horizontal scanning frequency of a reproduction signal to explain the present invention, and FIG. 2 is a block diagram showing an automatic switching circuit of a magnetic reproduction device according to the present invention. be. 19... Frequency discriminator, 20... Detector, 21... Bistable multivibrator, 22... Cylinder motor control circuit, 23... Capstan motor control circuit.

Claims (1)

[Scope of Claims] 1. Tape driving means for switching and running a magnetic tape at a first running speed and a second running speed different from the first running speed; a rotary head driving means for switching and rotating at a second rotational speed different from the first rotational speed, the rotary head traveling at the first running speed and rotating at the first rotational speed; Therefore, the first television signal having the first horizontal frequency is recorded on the first magnetic tape or the rotary head running at the second running speed and rotating at the second rotational speed. The second horizontal frequency is different from the first horizontal frequency.
A second magnetic tape on which a second television signal having a horizontal frequency of When reproducing in a second reproduction mode based on the running speed and the rotation speed of the second rotary head, the magnetic reproducing device automatically switches the reproduction mode according to the type of television signal recorded on the magnetic tape. In the switching circuit, the frequency of the horizontal synchronizing signal when the first magnetic tape is reproduced in the second reproduction mode and the second
a frequency discrimination circuit for discriminating the frequency of a horizontal synchronizing signal when the magnetic tape is played back in the first reproduction mode; and a switching means for switching the reproduction mode to another reproduction mode based on the output of the frequency discrimination circuit; An automatic switching circuit for a magnetic reproducing device, characterized by comprising: