JPS6122378Y2 - - Google Patents

Description

[Detailed explanation of the idea] The present invention relates to a video reproduction processing circuit for a television receiver.

Video signals obtained by playing back a tape on a VTR (video tape recorder) may contain jitter (time axis fluctuations) due to changes in tape running speed, uneven rotation of the head, and other causes. Also, in a VDR (video disc recorder), a video signal containing jitter may be reproduced due to uneven rotation of the disc. For this reason, in the video reproduction processing circuit of the receiver, the oscillation frequency and phase of horizontal synchronization oscillation subcarrier generation etc. are controlled so as to be synchronized with the video signal having jitter.

On the other hand, external noise may be mixed into a video signal obtained by receiving broadcast waves from a television broadcast station. Therefore, in such a video reproduction processing circuit, if the synchronization control range is wide for a video signal with noise, synchronization blur or color noise will occur on the screen due to the noise, so the synchronization control range is determined in consideration of the noise level. Ta. However, recently, low-cost consumer VTRs have come into widespread use, and the video signals played by such VTRs often contain large jitters due to the above-mentioned reasons. However, such a video reproduction processing circuit has a problem in that the jitter contained in the video signal exceeds the synchronization control range and generates synchronization blur or color noise, degrading the video image quality.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a video reproduction processing circuit that can solve the above-mentioned problems and prevent deterioration of image quality.

In the video reproduction processing circuit according to the present invention, the synchronization separation means separates and extracts a horizontal synchronization signal and a vertical synchronization signal from an input video signal, and the period-voltage conversion means generates a voltage according to the period of the horizontal synchronization signal. death,
a signal generating means compares the voltage with a predetermined voltage;
When there is no vertical synchronization signal, the subcarrier is separated from the frequency control range and the video signal according to the comparison result at that time, and when a vertical synchronization signal is present, the frequency control range of the subcarrier is determined according to the comparison result immediately before extraction of the vertical synchronization signal. The present invention is characterized in that at least one of the high-frequency removal range of the brightness signal and the synchronization control range of the horizontal oscillation frequency are changed.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 4.

FIG. 1 shows a video reproduction processing circuit according to the present invention. In FIG. 1, a synchronization separation circuit 1 separates and extracts a horizontal synchronization signal and a vertical synchronization signal from a video signal supplied to an input terminal IN. One output of the synchronization separation circuit 1 that generates the horizontal synchronization signal has an FM
A detection circuit 2 is connected. The output voltage of the FM detection circuit 2 is supplied to one input terminal of the comparator circuit 4 via the AC-DC converter 3, and is compared with a predetermined voltage _Vref supplied to the other input terminal of the comparator circuit 4. The output of the comparison circuit 4 which generates the switching signal is connected to the temporary storage circuit 5 and the make contact of the switch 6. The output of the temporary memory circuit 5 is connected to the break contact of the switch 6, and when the temporary memory circuit 5 is supplied with the vertical synchronization signal extracted from the other output of the sync separation circuit 1, the output of the temporary memory circuit 5 is connected to the comparator circuit 4 immediately before supplying the vertical synchronization signal. generates an output signal. The other output of the synchronous separation circuit 1 is also connected to the switch 6.
When the vertical synchronizing signal is supplied, the movable contact is driven so that the selected output of the switch 6 is switched from the direct output signal of the comparison circuit 4 to the output signal of the temporary storage circuit 5. A movable contact of the switch 6 is connected to a horizontal synchronous oscillation circuit 7, a subcarrier generation circuit 8, and a noise canceller 9, which are video reproduction control means.

In the video playback processing circuit according to the present invention having the above configuration, the horizontal synchronization signal separated from the video signal in the synchronization separation circuit 1 is subjected to FM detection and converted into a voltage according to its cycle, and then rectified in the AC-DC converter 3. be done. The periodic voltage of the output of this AC-DC converter 3 is a voltage corresponding to the amount of jitter of the video signal, and when the periodic voltage becomes larger than the predetermined voltage _Vref , the output of the comparator circuit 4 changes from a low level to a switching signal. Invert to high level. The switching signal is supplied to the horizontal synchronization oscillation circuit 7, the subcarrier generation circuit 8, and the noise canceller 9 via the switch 6 during a period when the vertical synchronization signal is not generated, that is, when there is no vertical synchronization signal, thereby changing the time constants of each of them.

On the other hand, during the generation period of the vertical synchronization signal, that is, when it exists, the periodic voltage may increase rapidly due to the influence of the equivalent pulse included in the separated horizontal synchronization signal. The output signal of the comparator circuit 4 immediately before the signal is generated is supplied via the switch 6 to the video reproduction control means 7, 8, and 9, respectively.

FIG. 2 shows the horizontal synchronous oscillation circuit 7.
In FIG. 2, the control voltage generation circuit 71 is supplied with a horizontal synchronization signal separated from the video signal.
Further, the output of a VCO (voltage controlled oscillator) 72 is supplied via an integrating circuit 73. The control voltage generation circuit 71 compares the frequency and phase of the horizontal synchronization signal and the VCO 72 and generates a control voltage according to the difference.
Supplied to VCO72. When the switching signal is supplied from the switch 6, the time constant circuit 74 changes the time constant and changes the output voltage to the VCO 72.
This is to expand the control range of the oscillation frequency and its synchronization to the horizontal output circuit (not shown) of the VCO 72.

FIG. 3 shows an APC type subcarrier generation circuit 8. In FIG. 3, the phase difference detection circuit 81
is supplied with a color burst signal separated and amplified from among the carrier color signals of a band amplification circuit (not shown), and is also supplied with the output of an oscillator 82. The phase difference detection circuit 81 detects the phase difference between the 3.58 MHz subcarrier output by the oscillator 82 to the color demodulation circuit (not shown) and the color burst signal, and supplies a voltage corresponding to the phase difference to the reactor 83. . Reactor 83 controls the oscillation frequency of oscillator 82 according to the supplied voltage. The output of the switch 6 is also connected to the reactor 83, and when a switching signal is supplied, the time constant changes to widen the control range.

FIG. 4 shows the noise canceller 9. In FIG. 4, a luminance signal separated from the video signal is supplied to an HPF (high pass filter) 91, and the output of the HPF 91 is sent to an inverter 92.
It becomes one input of the adder 93 via the adder 93.
A luminance signal is supplied to the other input of the adder 93, and its output is supplied to a video amplification circuit (not shown). The high-frequency component of the luminance signal passes through the HPF 91 and is sent to the adder 9 in reverse phase via the inverter 92.
3. Therefore, the output of the adder 93 becomes a signal from which the high-frequency components of the luminance signal have been removed. The HPF 91 also has a supply terminal for a switching signal from the switch 6, and is configured to change its frequency characteristics when the switching signal is supplied.

As described above, the video reproduction processing circuit according to the present invention generates a voltage according to the period of the horizontal synchronization signal of the input video signal, compares the voltage with a predetermined voltage, and generates a switching signal according to the comparison result. Then, at least one of the frequency control range of the subcarrier, the high-frequency removal range of the luminance signal separated from the video signal, and the synchronization control range of the horizontal oscillation frequency changes, and when a vertical synchronization signal is present, The control range is configured to change only when a switching signal is generated immediately before vertical synchronization signal extraction.
Therefore, it is possible to prevent deterioration in image quality due to synchronization shift for video signals containing jitter in VTRs and the like. It also prevents image deterioration due to the removal of high-frequency components of the video signal from the VTR by a noise canceller provided for TV broadcast reception.

[Brief explanation of the drawing]

Fig. 1 is a block diagram showing an embodiment of the video reproduction processing circuit of the present invention, Fig. 2 is a block diagram specifically showing the horizontal synchronous oscillation circuit of Fig. 1, and Fig. 3 is a subcarrier generation circuit of Fig. 1. A block diagram specifically showing the circuit,
FIG. 4 is a block diagram specifically showing the noise canceller of FIG. 1. Explanation of symbols of main parts, 1... Synchronization separation circuit,
2...FM detection circuit, 3...AC-DC converter, 4...Comparison circuit, 5...Temporary memory circuit, 6...
...Switch, 7...Horizontal synchronous oscillation circuit, 8...Subcarrier generation circuit, 9...Noise canceller.

Claims (1)

[Claims for Utility Model Registration] (1) Synchronization separation means for separating and extracting a horizontal synchronization signal and a vertical synchronization signal from an input video signal, and a cycle for generating a voltage corresponding to the cycle of the horizontal synchronization signal.
voltage converting means; signal generating means for comparing the voltage with a predetermined voltage and generating a switching signal according to the comparison result; a switch means for outputting the output signal of the signal generation means immediately before extraction of the vertical synchronization signal when a synchronization signal is present; a frequency control range of the subcarrier when generating the subcarrier; and a luminance signal separated from the video signal. video reproduction control means for changing a circuit time constant for adjusting the control range in response to the switching signal from the switch means in order to adjust at least one of the high frequency removal range and the synchronization control range of the horizontal oscillation frequency; A video playback processing circuit for a television receiver, characterized in that: (2) The video reproduction processing circuit for a television receiver according to claim 1, wherein the video reproduction control means includes a horizontal synchronization oscillation circuit, a subcarrier generation circuit, and a noise canceller. (3) The horizontal synchronous oscillator circuit includes a voltage controlled oscillator that oscillates according to an input voltage, an integrating circuit that integrates the output signal of the voltage controlled oscillator, and a phase of the output signal of the integrating circuit and the horizontal synchronous signal. a control voltage generation circuit that compares and generates a control voltage;
The image receiver according to claim 1 or 2, characterized in that the image receiver comprises a time constant circuit that adjusts the control voltage according to the switching signal and supplies it to the voltage controlled oscillator. Reproduction processing circuit. (4) The subcarrier generation circuit includes an oscillator whose oscillation frequency changes according to an input capacitance signal, and a phase difference detection circuit that generates a voltage according to a phase difference between the oscillation signal of the oscillator and the color burst signal; Video reproduction of a television receiver according to claim 1 or 2 of the utility model registration claim, characterized in that it comprises a reactor that generates the capacitance signal according to the switching signal and the output voltage of the phase difference detection circuit. processing circuit. (5) The noise canceller includes a high-pass filter that extracts high-frequency components of the luminance signal and whose extraction range changes according to the switching signal, an inverter that generates an opposite phase signal of the output of the high-pass filter, and an output of the inverter. 3. A video reproduction processing circuit for a television receiver as claimed in claim 1 or 2, characterized in that the circuit comprises an adder for adding together a luminance signal and a luminance signal.