JPH054110Y2 - - Google Patents

Description

[Detailed Description of the Invention] (a) Field of Industrial Application The present invention relates to an 8 mm video tracking error detection circuit.

(b) Prior art 8mm video uses a tracking pilot signal instead of a control signal. This tracking pilot signal is the first signal f ₁
is 102KHz, the second signal f ₂ is 118KHz, and the third signal f ₃ is
164KHz, 4th signal _f4 is selected as 148KHz,
It is switched sequentially at the field period, and the video signal and
It is recorded in a superimposed manner on the same recording track along with the PCM signal. A tracking error output obtained by reproducing such a recording tape is supplied to a DTF servo that displaces the video head in the width direction of the recording track, and an ATF servo that controls the running of the tape. Figure 1 is an explanatory diagram of the scanning trace during odd-numbered speed playback in 8mm video with DTF servo. As is clear from this figure, the reproduction pilot signals during normal reproduction are switched in the normal order, and the reproduction pilot signals during triple speed reproduction are switched in the reverse order. In this relationship, the reproduction pilot signals are switched in the normal order during reproduction at (4n+1) times the speed, and in the reverse order during reproduction at the (4n-1) times speed. Therefore, conventionally, the frequency switching order of the pilot signal of the tracking oscillator is switched in the forward direction or the reverse direction depending on the reproduction speed, but the switching order of the pilot signal frequency cannot be fixed, and the circuit becomes complicated. It became.

(c) Purpose of the invention Therefore, the present invention aims to propose a tracking error detection circuit whose configuration is simpler than that of the conventional circuit described above.

(d) Structure of the invention Therefore, the present invention combines a tracking error detection circuit for an 8mm video ATF with a low-pass filter that separates the reproduced pilot signal containing crosstalk components, and a constant switching order regardless of the speed. a tracking oscillator that derives a pilot signal;
A mixing circuit that mixes the low-pass filter output and the pilot signal, a 16K filter that separates the 16KHz beat component in the mixed output, a 46K filter that separates the 46KHz beat component in the mixed output, and the output level of both filters. The present invention is characterized in that it is composed of a comparison circuit that compares the two fields, and a sampling circuit that samples the comparison output at two-field intervals.

(E) Embodiment FIG. 2 shows a circuit block diagram of an embodiment of the present invention. In this embodiment, first, a reproduced pilot signal containing a crosstalk component is separated in a low-pass filter 1 to which the reproduced output is input. This filter output is
This is one input of the mixing circuit 2. The output of the tracking oscillator 3 which inputs the head output switching signal (RF) and changes the dividing value of the stable high-frequency oscillation output with the field period and derives the tracking pilot in a positive switching order is connected to the mixing circuit 2. It is considered as another input. Among the beat components in the mixed output, the 16KHz component and 46KHz component, which are the beat components of the crosstalk component and the tracking pilot signal, are separated by a 16K filter 4 and a 46K filter 5, respectively, and then sent to the first and second detection circuits. 6 and 7. Both detection outputs are input to a comparison circuit 8, and the comparison output is input to a sampling circuit 9. The sampling circuit 9 performs sampling once per two fields using sampling pulses. Therefore, the sampling pulse generating circuit 10 which receives the head output switching signal RF generates a sampling pulse once every two fields at the timing when the video head scans the center of the top of the video track. The tracking error output obtained by this sampling is input as an ATF servo signal to the capstan motor drive circuit, and the capstan causes the tape to be transported at a desired speed.

Therefore, according to the embodiment described above, a tracking error is detected once every two fields at the timing when the same video head scans the middle point of the video track. Therefore, regardless of the double speed during playback, the tracking error obtained has a constant polarity, and there is no need to provide a polarity switching circuit as in the prior art.

Furthermore, the circuit of this embodiment detects a tracking error at the midpoint of the scan of the video track because it is used for 8mm video that does not have a DTF servo. If the video head is similarly displaced in a direction perpendicular to the scanning direction, there is no need to specify the sampling timing.

In this embodiment, the tracking pilot signal is switched in a predetermined order, but the circuit configuration can be further simplified if the tracking pilot signal frequency is kept constant without switching and sampling is performed once every four fields.

(f) Effects of the invention Therefore, according to the invention, ATF servo can be realized by simply switching the tracking pilot signal frequency in a fixed order, regardless of the double speed during playback. However, since the obtained sampling outputs have the same polarity, there is no need to provide a polarity inversion circuit as in the prior art, and the effect is great.

[Brief explanation of drawings]

Figure 1 is an explanatory diagram of track pattern scanning;
The figure shows a circuit block diagram of one implementation of the present invention. Explanation of main figure numbers, 3...Tracking oscillator, 2...Mixing circuit, 4...16K filter, 5...
…46K filter.

Claims (1)

[Claims for Utility Model Registration] A videotape made by switching four types of tracking pilot signals with predetermined frequency differences at field intervals and superimposing them on a recording track at (2n-1) times the speed (where n is an integer) In an 8mm video to be played back, a low-pass filter separates a reproduced pilot signal containing a crosstalk component, a tracking oscillator derives a pilot signal in a fixed switching order regardless of the speed, and the output of the low-pass filter. A mixing circuit that mixes the pilot signal, a 16K filter that separates the 16KHz beat component in the mixed output, a 46K filter that separates the 46KHz beat component in the mixed output, and a comparison circuit that compares the output levels of both filters. and a sampling circuit for sampling the comparison output at a two-field or four-field period, respectively, and the sampling output is used as a tracking error detection output.