JPH0636610B2 - Video processor - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a video processing device, and more particularly to a video processing device obtained from a recording medium by an information reproducing device.

2. Description of the Related Art A video processing device that can play a realistic video game or the like by synthesizing a video recorded on a recording medium such as a video disc and characters, graphics, etc. generated by a personal computer has already been available. Invented.

Such a conventional video processing device is shown in FIG. In FIG. 2, the RF signal obtained from the recording disk (not shown) by the pickup 1 is supplied to the video signal demodulation circuit 2 including an FM demodulator or the like to obtain a reproduced video signal. This reproduced video signal is supplied to the sync separation circuit 3 and the hue correction circuit 4. The sync separation circuit 3 is configured to separate the horizontal sync signal and the color burst signal from the video signal. The horizontal sync signal output from the sync separation circuit 3 is supplied to the spindle servo circuit 5 and the tangential servo circuit 6 as a reproduction horizontal sync signal H ₁ . 15.75K output from the reference signal generating circuit 7 to the spindle servo circuit 5 and the tangential servo circuit 6.
A reference horizontal synchronizing signal H _{R of} Hz is supplied. Reference signal generating circuit 7 includes an oscillator 14.3 MHz, reference horizontal synchronizing the output at the same time the oscillator when this output of the oscillator divided by four to generate a reference subcarrier SC _R of 3.58MHz and 910 divided It is configured to generate the signal H _R.

The spindle servo circuit 5 is configured to drive a spindle motor 7 for rotating the recording disk according to the phase difference between the reproduction and reference horizontal synchronizing signals. Further, the tangential servo circuit 6 drives the driving coil 10 of the tangential mirror 9 for moving the information detection point of the pickup 1 in the recording track direction according to the phase difference between the reproduction and reference horizontal synchronization signals. Has become. The spindle servo circuit 5 and the tangential servo circuit 6 control the relative moving speed of the information detection point of the pickup 1 in the circumferential direction of the recording disk so that the phases of the reproduction and reference horizontal synchronizing signals coincide with each other.

On the other hand, the color burst signal SC ₁ output from the sync separation circuit 3 is supplied to the residual jitter detection circuit 11. The residual jitter detection circuit 11 reference sub-carrier signal SC _R of 3.58MHz which is outputted from the reference signal generating circuit 7 is supplied. The residual jitter detection circuit 11 is configured to output a jitter error signal according to the phase difference between the color burst signal SC ₁ and the reference subcarrier signal SC _R. This jitter error signal is supplied to the hue correction circuit 4. The hue correction circuit 4 is composed of, for example, a phase shift circuit that does not change the amplitude of the input reproduced video signal but changes only the phase according to the jitter error signal. In the hue correction circuit 4, the reproduced video signal is phase-modulated by the jitter error signal and the time axis error including the residual jitter is corrected. The reproduced video signal output from the hue correction circuit 4 is led to an output terminal OUT ₁ of a video disc player 13 as information reproducing means via an amplifier 12.

The reproduced video signal derived to the output terminal OUT ₁ is supplied to the sync separation circuit 22 and the synthesis circuit 23 via the input terminal IN ₁ of the screen synthesis device 20 and the amplifier 21. The sync separation circuit 22, like the sync separation circuit 3, is configured to separate the vertical sync signal V _{2, the} horizontal sync signal H ₂ , and the color burst signal SC ₂ from the video signal. The vertical and horizontal sync signals output from the sync separation circuit 22 are supplied to the primary color signal generation circuit 24. The primary color signal generating circuit 24 is composed of, for example, a personal computer, and red, green and blue signals R and G corresponding to pattern information such as characters and figures obtained by processing digital data.
And B are generated in synchronization with the vertical and horizontal sync signals. The red, green and blue signals R, G and B output from the primary color signal generating circuit 24 are supplied to a matrix circuit 25 to form color difference signals RY and BY and a luminance signal Y. The color difference signals R-Y and B-Y are supplied to the balanced modulation circuit 26. The balance modulation circuit 26 has a PL
The color subcarrier SC ₃ output from the L (Phase Locked Loop) circuit 27 is supplied. PLL circuit 27
Is a VCXO (voltage controlled crystal oscillator) 28 for outputting a color subcarrier SC ₃ , and a color burst signal SC output from the output of this VCXO and the sync separation circuit 22.
A signal corresponding to the phase difference between the ₂ is formed by a phase comparator 29 to the control input terminal of the VCXO.

In the balanced modulation circuit 26, the color subcarrier SC ₃
Is double-balanced by the color difference signals R-Y and B-Y to form a carrier color signal. The carrier color signal is combined with the luminance signal Y in a combining circuit 30 including an adding circuit to form a combined video signal, which is supplied to the combining circuit 23. The synthesizing circuit 23 selectively outputs a portion of the synthesized video signal output from the synthesizing circuit 30 in which the level of the luminance signal is not the black level, in place of the reproduced video signal output from the video disc player 13. The reproduction video signal and the composite video signal are composed. The video signal output from the synthesizing circuit 23 is led to the output terminal OUT ₂ via the amplifier 31 and supplied to a video processing device such as a color monitor.

In the video disc player 13 having the above configuration, the residual phase error of the video signal derived to the output terminal OUT ₁ by the operation of the spindle servo circuit 5, the tangential servo circuit 6 and the residual jitter detection circuit 11 is 8
Compressed to about °. This is a sufficient value for color reproduction on a normal monitor television. On the other hand, in the screen synthesizing device 20, the vertical and horizontal sync signals separated from the reproduced video signal by the sync separation circuit 22 and the PLL.
Since the circuit 27 forms a composite video signal in accordance with a pattern such as a character or a figure by the color subcarrier SC ₃ having a predetermined phase difference from the color burst signal in the reproduced video signal, the reproduced video in the normal operation mode. It is possible to satisfactorily synthesize the image by eliminating the vertical and horizontal synchronizing signals between the signal and the synthesized video signal and the phase difference of the color subcarriers.

However, in the conventional video processing apparatus as described above, when the reproduced video signal disappears temporarily by the jump operation of the video disc player 13, that is, the operation of the information detection point of the pickup 1 jumping over the recording track,
Sync separation circuit 22 and PLL in the screen synthesizer 20
Since it takes time for the operation of the circuit 27 to stabilize, there are drawbacks that the image due to the composite video signal combined with the reproduced video signal is disturbed and the color becomes unstable.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a video processing device that does not disturb the video recorded on a recording medium, such as characters and graphics that are combined with the video.

A video processing apparatus according to the present invention comprises a sync separation means for separating and extracting a sync signal and a color burst signal from a reproduced video signal obtained from a recording medium, and a reference signal generation for generating a reference signal having the same frequency as the color burst signal. Means, a time axis correction means for correcting the time axis of the reproduced video signal according to the phase difference between the reference signal and the color burst signal, and a color difference signal and a luminance signal based on predetermined pattern information as the synchronization signal. Color signal generation means that are generated in synchronization with each other, carrier color signal generation means that generates a carrier color signal by balance-modulating the reference signal with the color difference signal, and the carrier color signal and the luminance signal are combined. The composite video signal obtained by the above and the reproduction video signal whose time axis is corrected by the time axis correction means are composed. .

Embodiment Hereinafter, an embodiment of the present invention will be described in detail with reference to FIG.

In the video disc player 13 in FIG. 1,
Big-up, video signal demodulation circuit 2, sync separation circuit 3, hue correction circuit 4, spindle servo circuit 5, tangential servo circuit 6, reference signal generation circuit 7, spindle motor 8, drive coil 10 for tangential mirror 9, residual The jitter detection circuit 11, the amplifier 12, and the output terminal OUT ₁ are connected in the same manner as the device of FIG. However, the reference signal generating circuit 7 a reference output from Sabikyariya SC _R and synchronous reproduction output from the separation circuit 3 vertical synchronizing signals V ₁ and reproduced horizontal synchronizing signal H ₁ respectively output terminal OUT ₃ in this example, OUT ₄ , OUT ₅ are derived.

Further, the screen synthesizing device 20 in this example has the reference subcarrier SC _R which is obtained by removing the sync separation circuit 22 and the PLL circuit 27 from the configuration in FIG. ₂ and is led to the output terminal OUT ₃ via the input terminal IN _2. Is supplied to the balanced modulation circuit 26, and at the same time, the reproduction vertical synchronization signal V ₁ and the reproduction horizontal synchronization H ₁ derived to the output terminals OUT ₄ and OUT ₅ through the input terminals IN ₃ and IN ₄ , respectively, are the primary color signals. It is supplied to the generation circuit 24.

In the above configuration, the red, green, and blue signals are formed in synchronization with the vertical and horizontal sync signals separated from the reproduced video signal by the sync separation circuit 3 in the video disc player 13, and the color subcarrier of the reproduced video signal is generated. since the reference subcarrier SC _R to synchronize vital this reference sub-carrier SC _R is a reference signal at the time of generation of the carrier chrominance signal in the composite video signal, including even the color signal component from the reproduced video signal and the composite video signal In the normal operation mode, the image can be properly synthesized as in the conventional device.

When the reproduced video signal is temporarily disappeared by the jump operation of the video disc player 13, the vertical and horizontal synchronizing signals V ₁ and H ₁ are generated as primary color signals at the same time when the reproduced video signal is generated after the temporary disappearance. Circuit 24
Since the reference subcarrier SC _R to color subcarrier has a phase match of the supplied and the reproduced video signal is always supplied to the balanced modulator circuit 26, the disturbance to the image by the synthesized video signal to be combined with the reproduced video signal Does not occur.

Effects of the Invention As described in detail above, the video processing device according to the present invention includes a synchronization signal extracted from a reproduction video signal before time axis correction, and a reference signal for synthesis, which is generated based on pattern information such as character graphics. Since the configuration is such that the sub-carrier synchronizes and the synchronized composite video signal and the reproduction video signal after the time axis correction are combined, reproduction is performed from the reproduction video signal output from the information reproducing means. The circuit that separates the sync signal and the circuit that generates the color subcarrier are not required, and the configuration is simplified, and the image by the composite video signal that is composited with the reproduction video signal after recovery of the temporary disappearance of the reproduction video signal There is no disturbance or unstable color.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a block diagram showing a conventional video processing device. Description of symbols of main parts 3 ... Sync separation circuit, 7 ... Reference signal generation circuit 13 ... Video disc player, 20 ... Screen synthesizing device 24 ... Primary color signal generation circuit, 26 ... Balanced modulation circuit

Claims (1)

[Claims] 1. A sync separation means for separating and extracting a sync signal and a color burst signal from a reproduced video signal obtained from a recording medium, and a reference signal generation means for generating a reference signal having the same frequency as the color burst signal. A time axis correction means for correcting the time axis of the reproduced video signal according to the phase difference between the reference signal and the color burst signal; and a color difference signal and a luminance signal based on predetermined pattern information in synchronization with the synchronization signal. A color signal generating means for generating, a carrier color signal generating means for generating a carrier color signal by balance-modulating the reference signal with the color difference signal; and a carrier color signal and a luminance signal. Image processing apparatus, characterized in that it has a synthesizing means for synthesizing the synthesized video signal and the reproduction video signal which has been time-axis corrected by the time-axis correcting means. .