JPH0552597B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a tape running amount display device for linearly displaying the running amount of a magnetic tape in a video tape recorder.

BACKGROUND TECHNOLOGY AND PROBLEMS The linear tape counter used in conventional video tape recorders (VTRs), that is, the tape travel distance display device that linearly displays the travel distance of the magnetic tape, uses a control track signal for the servo during playback. It counts and displays the amount of tape travel in hours, minutes, and seconds.

However, this device cannot be used for the so-called 8mm video that has been proposed recently. That is, in 8 mm video, four pilot signals are used as control signals, and these four pilot signals are frequency-multiplexed and recorded with the video signal by a rotating magnetic head. Therefore, no dedicated control track or fixed head is provided, and no control track signal can be obtained.

OBJECTS OF THE INVENTION In view of the above-mentioned problems, the present invention is capable of linearly displaying the amount of tape travel even without a control track signal.

SUMMARY OF THE INVENTION The present invention provides rotating magnetic heads H A , H _B from an inclined track sequentially formed on a magnetic tape by a plurality of heads having different azimuth angles, as shown in FIGS. 3 to 5, for _example . In the tape running distance display device for a video tape recorder, the running distance of the magnetic tape is linearly displayed based on a playback signal from the rotating magnetic head, and each of the inclined tracks having an azimuth different from that of the rotating magnetic head is reproduced by the rotating magnetic head. Envelope detection means 8 and 11 detect the envelopes of the modulated video signals S ₁ and S ₂ whose envelopes change as shown in FIG. waveform shaping means 9, 12 for generating pulses having a period; tape running amount detecting means 10 for detecting the tape running amount by counting the number of the pulses within the period related to the reproduction signal; The tape running amount display means 14 displays the tape running amount. Therefore, according to the present invention, the amount of tape travel can be displayed linearly even without a control track signal.

Embodiment An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows a rotary head device, in which 1 is a magnetic tape, and a tape guide drum 2
The vehicle travels diagonally over an angular range of approximately 180°. This magnetic tape 1 includes, for example,
A composite signal of an FM-modulated luminance signal and a low-frequency-converted chroma signal is recorded in what is called a tilt azimuth. That is, as shown in FIG. 2, one field is recorded on each magnetic tape 1 as a tilted track, and the recording azimuths between adjacent recording tracks A and B are made to be different from each other.

Further, H _A and H _B are rotating magnetic heads, which are installed with an angular interval of 180°, for example.
Each rotates once in one frame. In this case, the respective azimuth angles (angles in the width direction of the gap with respect to the scanning direction) are made different from each other,
The angles correspond to the recording azimuths of tracks A and B, respectively, described above.

FIG. 3 shows the circuit configuration of this example, in which H _A and H _B are the above-mentioned rotating magnetic heads. In this case, in the normal playback mode, heads H _A and H _B scan tracks A and B, respectively, and in modes such as fast forward, rewind, queue (fast forward play), review (rewind play), etc. Tape running speed can be changed, head H _A and
H _B is configured to scan a plurality of tracks A and B, respectively. Signals are then reproduced from heads H _A and H _B during the scanning period.

Signals obtained from heads H _A and H _B are supplied to the a side and b side of the switch circuit 4 via preamplifiers 3A and 3B, respectively. This switch circuit 4
A switching pulse P _SW obtained according to the rotational position of heads H _A and H _B is supplied from terminal 5, and during one field period when head H _A is scanning track A, it is connected to the terminal on the a side. On the other hand, during one field period when head H _B is scanning track B, it is connected to the b side terminal.

The continuous signal obtained from this switch circuit 4 is supplied to a video signal reproducing circuit 7 via a reproducing amplifier 6, from which a luminance signal Y and a chroma signal C are obtained in modes such as normal reproduction, cue, and review. .

Further, the signal S ₁ obtained from the preamplifier 3B is detected by an envelope detection circuit 8, the detected output is waveform-shaped by a waveform shaping circuit 9, and this waveform-shaped signal S ₁ ' is sent to a microcomputer (hereinafter referred to as microcomputer). 10. Also,
The signal S ₂ obtained from the reproducing amplifier 6 is detected by an envelope detection circuit 11 , the detected output is waveform-shaped by a waveform shaping circuit 12 , and the waveform-shaped signal S ₂ ' is further supplied to the microcomputer 10 . Further, the microcomputer 10 is supplied with a mode information signal S ₁ from a terminal 13 and a pulse P _SW from a terminal 5.
is supplied.

In addition, 14 indicates the tape running amount, for example, "hours.
This is a display device that displays minutes and seconds.
Display is performed under the control of 0.

This example is constructed as described above, and in the normal playback mode, the head H _B scans the track B for each field, so the preamplifier 3B outputs the signal S for each field as shown in FIG. 4A. ₁ is obtained. Then, this signal is subjected to envelope detection and waveform shaping, and the waveform shaping circuit 9 obtains a signal S ₁ ' that becomes high level every other field, that is, every other track, as shown in FIG. 4B, for example. , this is supplied to the microcomputer 10. The microcomputer 10 counts, for example, the rising edge of this signal _S1 , detects the amount of tape travel, and displays the signal S1 on the display device 1.
4 shows the amount of tape travel.

Also, when in fast forward mode, the head H _A and
Since H _B alternately scans a plurality of tracks A and B for each field, as shown in FIG. 5A, for example, a signal S ₂ as shown in FIG. 5B is obtained from the reproduction amplifier 6. It will be done. This signal _S2 is subjected to envelope detection and waveform shaping, and the waveform shaping circuit 12 outputs a signal _S2 which becomes high level at every other track except at the head switching end, as shown in FIG. ' is obtained and supplied to the microcomputer 10. The microcomputer 10 counts, for example, the rise of this signal S ₂ ', detects the amount of tape travel, and displays the amount of tape travel on the display device 14. Incidentally, FIG. 5D shows the switching pulse _PSW .

Also, when in rewind mode, the head H _A and
Since H _B alternately scans a plurality of tracks A and B for each field as shown in FIG. 6A, for example, a signal _S2 as shown in FIG. 6B is obtained from the reproduction amplifier 6. . This signal _S2 is subjected to envelope detection and waveform shaping, and the waveform shaping circuit 12 outputs a signal S2 which becomes high level at every other track except for the head switching end, as shown in FIG. 6C, for example. ₂ ' is obtained and supplied to the microcomputer 10. The microcomputer 10 counts, for example, the rise of this signal S ₂ ', detects the amount of tape travel, and displays the amount of tape travel on the display device 14. Incidentally, FIG. 6D shows the switching pulse _PSW .

Further, in the queue mode and the review mode, the tape running amount is displayed in the same manner as in the above-mentioned fast forward mode and rewind mode, respectively.

As described above, according to the present example, the amount of tape travel can be displayed linearly even without a control track signal.

Effects of the Invention As is clear from the embodiments described above, according to the present invention, the traveling distance of the magnetic tape is linearly displayed based on the reproduction signal from the inclined track formed on the magnetic tape by the rotating magnetic head. This makes it possible to linearly display the amount of tape travel even without a control track signal. Therefore, the present invention is suitable for application to so-called 8 mm video that uses four pilot signals for tracking, that is, employs a four-frequency system.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a rotary head device, FIG. 2 is a block diagram showing a recording pattern on a magnetic tape, FIG. 3 is a block diagram showing an embodiment of the present invention, and FIGS.
The figures are for explanation. 1 is a magnetic tape, 2 is a tape guide drum, 7 is a video signal reproducing circuit, 8 and 11 are each an envelope detection circuit, 9 and 12 are each a waveform shaping circuit, 1
0 is a microcomputer, 14 is a display device,
H _A and H _B are each rotating magnetic heads.

Claims (1)

[Scope of Claims] 1. The traveling distance of the magnetic tape is linearly displayed based on a reproduction signal by a rotating magnetic head from an inclined track sequentially formed on the magnetic tape by a plurality of heads having different azimuth angles. In a tape running amount display device for a video tape recorder, envelope detection means detects an envelope of a modulated video signal that is reproduced by the rotating magnetic head and whose envelope changes for each of the inclined tracks having an azimuth different from that of the rotating magnetic head; Waveform shaping means for shaping the output of the envelope detection means to generate pulses having a period corresponding to a change in the envelope of the modulated video signal; and counting the number of the pulses within the period related to the reproduction signal. A tape running amount display device for a video tape recorder, comprising: a tape running amount detection means for detecting a tape running amount; and a tape running amount display means for displaying the detected tape running amount.