JPH0740322B2 - Video tape recorder - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention uses one of two types of heads.
The present invention relates to a double azimuth 4-head system video tape recorder for deep recording of FM audio signals.

(Prior Art) FIG. 7 shows the arrangement of the heads in a video tape recorder (VTR) of the double azimuth four-head system, and FIGS. 5 and 6 show the conventional arrangement using this head system.
The frequency distribution by the multiplexing method of VHS Hi-Fi is shown. That is, the FM audio signal (see FIG. 6) is recorded in the deep layer of the magnetic tape. Also at this time,
By changing the azimuth angles of the two types of heads (H ₁ , H ₂ and h ₁ , h ₂ ), mutual crosstalk is sufficiently suppressed.

(Problems to be solved by the invention) However, in this case, since the band of the luminance signal is limited by the FM transmission band, it is difficult to realize a wide band of the video signal, that is, a high resolution while ensuring compatibility. There was such a problem.

(Means for Solving Problems) A video tape recorder according to the present invention is a double azimuth 4-head system video tape recorder for performing deep recording of an FM audio signal by one of two types of heads. First recording means for mixing a high frequency component with the FM audio signal and recording it in a deep layer portion of the magnetic tape, and mixing a low frequency component of a luminance signal with a low frequency conversion chroma signal and recording it in a surface layer portion of the magnetic tape. And a second recording means.

(Operation) The high frequency component of the luminance signal is mixed with the FM audio signal by the first recording means and recorded on the magnetic tape. In other words, after converting the high frequency component of the luminance signal to low frequency, it is superimposed with the synchronization signal,
The superposed signal is FM-modulated and band-limited, then mixed with an FM audio signal and recorded in the deep layer of the magnetic tape. As a result, it is possible to effectively use the recording area that has been conventionally used only for recording the FM audio signal.

On the other hand, the low frequency component of the luminance signal and the low frequency conversion chroma signal are mixed by the second recording means and recorded on the magnetic tape. That is, the low-frequency component of the luminance signal is delayed by a time difference according to the mounting positions of the two types of heads, FM-modulated, and then mixed with the low-frequency conversion chroma signal, and the high-frequency component of the luminance signal is mixed by the first recording means. The components are recorded on the deep layer of the magnetic tape and then on the surface of the magnetic tape. in this way,
Since the low-frequency conversion chroma signal and the low-frequency component of the luminance signal are combined and recorded on the surface layer of the magnetic tape, if the low-frequency component of the luminance signal is configured to include almost the same components as before, It is compatible with conventional video tape recorders.

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

FIG. 1 shows a schematic configuration of a recording system of the video tape recorder of the present invention.

In the figure, 1 is an input terminal, 2 is a comb filter, and 3 is
Is a low pass filter (LPF), 4 is a delay circuit, 5 is an emphasis circuit, 6 is a W / D (white / dark) clip circuit, 7 is an FM modulation circuit, 8 is a mixer, 9 is a recording amplifier,
10 is a high pass filter (HPF), 11 is a frequency converter, 12
Is a bandpass filter (BPF), 13 is a superposition circuit, 14 is a sync signal separation circuit, 15 is an FM modulation circuit, 16 is a bandpass filter (BPF), 17 is a mixer, and 18 is a recording amplifier. H ₁ , H ₂ and h ₁ , h ₂ are magnetic heads having different azimuth angles.

Next, the operation of the recording system of the video tape recorder having the above structure will be described with reference to the signal waveform diagram of FIG.

The video signal input from the input terminal 1 is a comb filter 2
Are separated into a luminance signal [see FIG. 2 (a)] and a chroma signal. The separated luminance signals are LPF3, HPF10,
And to the sync signal separation circuit 14, respectively.

The luminance signal input to the HPF10 is the high frequency component [second
FIG. (C)] is extracted and input to the frequency converter 11. Then, the signal is converted into a low frequency band by the frequency converter 11 [see FIG. 2 (d)], and then band-limited by the BPF 12 and input to the superimposing circuit 13. In addition to this signal, the superimposing circuit 13 receives the synchronizing signal extracted from the luminance signal by the synchronizing signal separating circuit 14. Therefore, BP
The signal passed through F12 is superposed [see FIG. 2 (e)] on the synchronizing signal by the superposing circuit 13, FM-modulated by the FM modulating circuit 15, band-limited by the BPF 16, and input to the mixer 17. Then, after being mixed with the FM audio signal by the mixer 17 (see FIG. 2 (f)), it is recorded on the deep layer of the magnetic tape (not shown) via the recording amplifier 18 and the magnetic heads h ₁ and h _2. To be done. That is, since the FM audio signal and the high frequency component of the luminance signal are combined and recorded in the deep portion of the magnetic tape, the recording area which has not been used conventionally can be effectively used.

On the other hand, in the luminance signal input to the LPF 3, low frequency components are extracted here and are input to the delay circuit 4. The delay time of the delay circuit 4 is set to a time corresponding to the time difference between the mounting positions of the two types of magnetic heads H ₁ , H ₂ and h ₁ , h _{2 on} the head drum (not shown). The low-frequency component of the luminance signal delayed by the delay circuit 4 for a certain time is then emphasized by the emphasis circuit 5, and the W / D clip circuit 6 cuts white levels above a certain value and black levels below a certain value. After that, it is FM-modulated by the FM modulation circuit 7 and input to the mixer 8. The reduced conversion chroma signal is input to the mixer 8, and the low frequency component of the luminance signal input from the FM modulation circuit 7 is mixed with this low frequency conversion chroma signal [see FIG. 9. Through the magnetic heads H ₁ and H ₂ , the high frequency component of the luminance signal is already recorded on the surface layer portion of the magnetic tape where the magnetic heads h ₁ and h ₂ have recorded on the deep layer portion. In other words, since the low-frequency conversion chroma signal and the low-frequency component of the luminance signal are combined and recorded on the surface layer of the magnetic tape, it is possible to include almost the same components as the conventional low-frequency component of the luminance signal. For example, compatibility with the conventional video tape recorder can be achieved, and the magnetic tape recorded by the video tape recorder of the present invention can be reproduced by the conventional video tape recorder.

Thus, two types of magnetic heads (H ₁ , H ₂ and h ₁ , h ₂ )
By effectively using, the high frequency component of the luminance signal can be recorded in the deep portion of the magnetic tape.

FIG. 3 shows a schematic block diagram of a reproducing system for reproducing the video signal recorded as described above.

In the figure, 21 and 28 are head amplifiers, 22 and 30 are demodulation circuits, 23 is a de-emphasis circuit, 24 is a noise elimination circuit, and 25
Is a synthesizing circuit, 26 is a luminance signal / color signal (Y / C) mixing circuit, 2
7, 38 is a sync signal separation circuit, 29, 35 are bandpass filters (BPF), 31 is a delay circuit, 32 is a delay circuit using a CCD whose delay time is variable, 33 is a sync signal removal circuit, 34
Is a frequency converter, 36 is a VCO, and 37 is a phase comparison circuit.

Next, the operation of the reproducing system of the video tape recorder having the above structure will be described with reference to the signal waveform diagram of FIG.

The low frequency component of the FM luminance signal reproduced from the magnetic tape by the magnetic heads H ₁ and H ₂ and the chroma signal are separated via the head amplifier 21, and then the FM luminance signal is input to the demodulation circuit 22 and demodulated there. Then, it is input to the synthesis circuit 25 and the synchronization signal separation circuit 27 through the de-emphasis circuit 23 and the noise removal circuit 24 [see FIG. 4 (a)].

On the other hand, the FM audio signal reproduced from the magnetic tape by the magnetic heads h ₁ and h ₂ and the high frequency component of the FM luminance signal are separated via the head amplifier 28, and then the FM luminance signal is passed to the demodulation circuit 30 via the BPF 29. It is input and demodulated here. The signal demodulated by the demodulation circuit 30 (see FIG. 4 (b)) has a frequency which is shorter than the delay time obtained by delaying the luminance signal during recording by one horizontal scanning period, and the frequency for one horizontal scanning period. After being delayed by a delay circuit (for example, CCD delay line) 32 that can be varied by a predetermined time, the synchronization signal is separated from the output by the synchronization signal separation circuit 33 and input to the phase comparison circuit 37. On the other hand, the synchronization signal separated from the luminance signal by the synchronization signal separation circuit 27 is also input to the phase comparison circuit 37. The phase comparison circuit 37 compares the phases of the two synchronization signals, inputs the phase error signal to the VCO 36, changes the frequency of the VCO 36, and changes the delay time of the delay circuit 32 to adjust the phases. Do [fourth
See FIG. (C)]. After this, the synchronizing signal removing circuit 33 removes the synchronizing signal [see FIG. 4 (d)], and the frequency converter 34
With the BPF35
The high frequency component of the luminance signal is reproduced through [see FIG. 4 (e)] and input to the synthesizing circuit 25. The synthesizing circuit 25 synthesizes the low-frequency component of the luminance signal from the noise removing circuit 24 and the high-frequency component of the luminance signal from the BPF 35 to reproduce a broadband luminance signal [see FIG. 4 (f)]. After that, with the Y / C mixing circuit 26
Outputs mixed with 3.58MHz color signal. As a result, high resolution can be realized.

(Effects of the Invention) As described above, according to the video tape recorder of the present invention, the high frequency component of the luminance signal is mixed with the FM audio signal and recorded in the deep portion of the magnetic tape, and the low frequency component of the luminance signal is recorded. By mixing the component with the low-frequency conversion chroma signal and recording it on the surface layer of the magnetic tape, it is possible to reduce the influence of other signals and realize a wide band of the reproduced luminance signal during reproduction, that is, high resolution. it can. Also, FM
Since the audio signal and the high frequency component of the luminance signal are combined and recorded in the deep layer portion of the magnetic tape, it is possible to effectively use the recording area which has not been used conventionally.
Furthermore, since the low frequency conversion chroma signal and the low frequency component of the luminance signal are combined and recorded on the surface layer of the magnetic tape,
If the low-frequency component of the luminance signal is configured to include almost the same component as the conventional one, compatibility with the conventional video tape recorder can be obtained, and the magnetic tape recorded by the video tape recorder of the present invention can be used in the conventional case. It can also be played back on a video tape recorder.

[Brief description of drawings]

1 to 4 show an embodiment of a video tape recorder of the present invention, FIG. 1 is a schematic block diagram of a recording system, and FIG. 2 is a signal waveform diagram of each part of the recording system shown in FIG. FIG. 3 is a schematic block diagram of the reproducing system, FIG. 4 is a signal waveform diagram of each part of the reproducing system shown in FIG. 3, and FIGS. 5 and 6 are VHSHi-Fi.
FIG. 7 is a frequency distribution diagram by the multiplexing method of FIG. 7, and FIG. 7 is a diagram showing an arrangement state of magnetic heads. 2 ... Comb filter 3 ... Low-pass filter 4 ... Delay circuit 5 ... Emphasis circuit 6 ... W / D clip circuit 7, 15 ... FM modulator circuit 8, 17 ... Mixer 9, 18 ... Recording amplifier 10 ... High-pass filter 11 ... Frequency converter 12 and 16 ... band-pass filter 13 ... adding circuit 14 ... synchronizing signal separating circuit _{H 1, H 2, h 1} , h 2 ... magnetic head

Claims (1)

[Claims] 1. A double azimuth 4 for deep recording an FM audio signal by one of two types of heads.
In a head type video tape recorder, first recording means for mixing a high frequency component of a luminance signal with the FM audio signal and recording it in a deep layer of a magnetic tape; and a low frequency component of a luminance signal for a low frequency conversion chroma signal. A video tape recorder provided with a second recording means for mixing and recording on a surface layer portion of a magnetic tape.