SU254559A1 - DEVICE FOR PROCESSING COLOR - Google Patents

Description

Color signal processing devices are known in which the chrominance signal is extracted by subtracting the narrowband luminance signal received on the low-pass filter output from the full color signal. In a narrowband luminance signal, the regenerated damping and synchronizing pulses are kneaded, after which it is mixed with the chrominance signal to form an output signal. With this separation of luminance and chroma signals, most of the high-frequency noise and interference enters the channel of the chroma signal and distorts the regenerated output signal pulses.

In the described device, the output of the bandpass filter is connected to one LZ of the inputs of the subtracting unit through a series of decorrection series, a limiter with the current threshold, a correction circuit, and an electronic switch controlled by the output voltage of the amplitude detector. The luminance signal is formed by subtracting an amplitude limited chroma signal from the full color signal. In this case, the main part of the noise that distorts the damping and synchronizing pulses, is absorbed into the luminance channel and is suppressed during its processing.

The device receives a full color signal from the output of a VCR or some other transmission. Using bandpass filter / bandwidth

3-6 MHz allocates the high-hundredth part of the input signal spectrum. This signal is a combination of a frequency modulated chroma signal and high frequency components of a luminance signal. Interference,

lying in the selected private spectrum, lead to irasit amplitude and phase modulation of the color subcarrier.

From the output of the bandpass filter / chrominance signal enters the circuit 2 decorrection,

which has a standard frequency response and eliminates the luminous subunit module luno resulting from the frequency pre-correction in the SECLM system. From the output of the decorrection circuit signal

arrives at amplitude limiter 3. With this limiter, which suppresses the parasitic amplitude modulation of the subcarrier, most of the interference and signal components are removed from the chroma signal

luminance.

The signal processed in this way is through a correction circuit 4, restoring the original chrominance waveform, and an electronic switch 5, which is located in the conductive block 6. The second input of this block through the delay line 7 receives the full input signal. The delay time of the line is chosen equal to the delay time of the chroma signal in the circuit "filter 1 - input of block 6. At the output of the subtracting block, a luminance signal is formed, containing spectral components in almost the entire frequency band of the input signal. In order to more fully suppress the frequency-modulated iodo carrier in the output of the subtractive unit, it is necessary that the level of the output voltage of the limiter 3 be changed in accordance with changes in the subcarrier level of the input signal. This is achieved by using a double-sided stopper with automatic or external offset as the limiter 3. The bandwidth of the color channel is limited to suppress the higher harmonics of the color subcarrier generated during the limiting process. The output signal of the subtracting unit 6 is subjected to conventional processing: mixing the regenerated damping pulses in the damping mixer 8 and limiting the black and white levels in the limiter 9. The processed luminance signal is fed to the input of the chromaticity mixer 10, where it is mixed with a limited chroma signal, coming from the output of the electronic switch 5 through a cascade of anti-co-incidence 11. A complex color signal with regenerated damping pulses comes from the output of the mixer 10. to the mixer clock sync 12, dd .regenerirovannym or mixed with an external clock. The anti-cascade cascade 11 serves to suppress the remnants of the old synchronizing pulses, switching pulses of the heads and transients that occur when the time distortion correction system is in operation. To prevent these signals from being mixed into the processed luminance signal, cascade 11 is locked with special key pulses from the output of circuit 13 for forming these pulses, which follow the horizontal frequency, coincide in phase with the leading edge of the extinguishing pulse. The duration of the key pulses (about 7.5 microseconds) is chosen such that the anti-coincidence cascade is unlocked at the time of the appearance of the subcarrier frequency of each row. Cascades 14, 15 and 16 are designed to automatically change the processing mode when the device is operated with monochromatic signals. The change in processing mode is as follows. The chroma signal from the output of the limiter 3 is applied to a matching stage 14, controlled by damping pulses from the output of the damping pulse forming circuit 17. At the output of the cascade 14, high-frequency oscillations are transmitted, which are transmitted to the presence of damping pulses. These signals are filtered by a selective amplifier (cascade 15) tuned to the subcarrier frequency and detected by an amplitude detector .16. The constant voltage from the output of the detector 16 is fed to the electronic switch 5, maintaining its conductive state and the input signal processing mode described above. When a monochromatic television signal or a color signal that does not contain a single carrier at damping pulses is applied to the input, the direct voltage at the output of the amplitude detector 16 disappears and the electronic switch 5 goes to the non-conducting state. In this case, the subtracting unit 6 functions as a conventional amplifier, and the input signal is subjected to conventional processing. Object of the Invention A device for processing a color television signal encoded by the SECAM system for video recorders, comprising a phasing delay line, a subtraction unit, a damper mixer, a black and white level limiter, a chrominance level mixer, a clock mixer, a band-pass filter, a cascade anti-staging, coincidence cascade, selective amplifier, amplitude detector, key pulse shaping circuit and damping pulse formation |, characterized in that, in order to interference removal for blanking pulses and below black level, the bandpass filter output is connected to one input of the subtracter unit via a series connection dekorrektsii chain variable limiter threshold correction circuit and an electronic switch controlled by the output voltage amplitude detector.