SU1149437A1 - Colour-difference pal-signal channel for pal-to-secam decoder - Google Patents

Abstract

A CALIBRARY-SIGNAL CHANNEL OF PAL-SECAM DECODING DEVICE PAL SIGNAL, containing adders and a subtractor, the first combined inputs of which are the first input of the chrominance signal, the second combined inputs are the second input of the chroma signals, the third combined inputs are the outputs, and the third connectors are the displays. the first input of the first demodulator, the second output with the first input of the first phase detector, the output of which is connected to the first input of the reference generator, the first output of which is connected to the second input of the first demodulator, and the second output with the second input of the first phase detector, as well as the first phase-shifting unit, the second demodulator and the second phase detector, the outputs of the first and second demodulators being the outputs of the first and second color difference signals, characterized by that, in order to simplify it by eliminating the second reference oscillator and eliminating the Sigal distortion, it introduced a second photoelectric shift block and a low-pass filter, the input of which is connected to the output of the second phase detector The first output is connected to the second input of the reference oscillator and is the output of the color deactivation signal, and the second output is (L is the output of the phase correction signal, the first input of the second demodulator is connected to the first output of the subtractor, the second input is connected via the second phase shifter With the first output of the reference oscillator, the first input of the second phase detector through the 4C cut of the first phase-shifting unit qoqD 4iai is dinene with the second output of the adder, and the second input - with the second output 00 of the subtractor,

Description

The invention relates to television technology and can be used in receiving equipment of color television. A device is known for decoding PAP-SECAM signals containing a delay unit, the first and second outputs of which are connected to the inputs of the first and second demodulators, respectively, the first outputs of which are connected to the first inputs of the first and second switches, respectively, the second output of the second demodulator is connected to the second input of the first switch and the first input of the third switch, the second input of which is connected to the second output of the first demodulator, and the output to the second input of the second switch, the first and second switches switches are the outputs of the differential signals, and their third inputs are connected to the first and second outputs of the control unit, the first input of which is connected to the output of the relaxation generator, the input of which is the input of the horizontal pulses, the combined third inputs of the third switch, control unit and the second input of the delay unit is connected to the bi-source of the PAL-SEC control voltage source and the input of the delay unit is the input of the chrominance signal pj. The drawback of the device is the presence of sinusoids interference from the generator of the PAL reference subcarrier in the mode of receiving the SECAM signal and the black-and-white image signal, as well as the pronounced quality of the constant component recovery when operating in the SECAM mode. The closest in technical essence to the offer is a decoder with a channel of a color difference signal PAL, containing channels of direct and delayed chroma signals, the combined inputs of which are the input of the chroma signal, and the outputs are connected to the inputs of the switch, the first output of which is connected to the first inputs of the adder and subtractor, the second input of which is connected to the second output of the switch, the output of the adder is connected to the first input of the first demodulator and to the first input of the first phase detector, the output of which is connected to the input of the first reference generator, and the second input is connected to the second input of the first demodulator and the output of the first reference generator, the output of the subtractor directly and via the phase shifter is connected respectively to the first and second inputs of the switch, the third input is connected to the trigger output, and output - with the first inputs of the second demodulator and the second phase detector, the output of which is connected to the input of the second reference generator, the output of which is connected to the second inputs of the second demodule torus and a second phase detector, with the outputs of the first and second demodulators being the outputs of the color difference signals 2. The drawbacks of the device are the complexity due to the presence of two quartz reference oscillators, as well as the difference in sinusoidal interference from the reference oscillators PAL in the mode of receiving a black and white signal and signal. SECAM. The purpose of the invention is to simplify, by HCKJno4eHHH, the second reference oscillator and eliminate signal distortion. The goal is achieved in that the PAL-SECAM decoder channel of the color-difference signal of the PAL-SECAM decoder contains the adder and the subtractor j the first combined inputs of which are the first input of the chrominance signal, the second combined inputs are the second input of the chrominance signal, the third combined inputs are the input of sero-pulses , the first output of the adder is connected to the first input of the first demodulator, the second output to the first input of the first phase detector, the output of which is connected to the first input of the reference generator The first output of which is connected to the second input of the first demodulator and the second output to the second input of the first phase detector, the first phase shifter, the second demodulator and the second phase detector, the outputs of the first and second demodulators signals, a second phase-shifting unit and a low-pass filter, the input of which is connected to the output of the second phase detector, are introduced, the first output is connected to the second input of the reference oscillator and is the output of the off signal color and the second output is the output of the phase correction signal, the first input of the second demodulator is connected to the first output of the subtractor, the second input is connected to the first output of the reference oscillator through the second phase shifter through the first phase shifter the second exit is cjMMaTopa, and the second entry is with the second exit you are a reader. I FIG. Figure 1 shows the structural electrical circuit diagram of the color of the difference signal PAL of the PAL-SECAM decoder; in fig. 2 is a structural electrical circuit of a PALSECAM decoding device; in fig. 3 - time diagrams that show his work. The PAL-CE QAM PAL color difference signal channel of the decoder (FIG. 1) contains adder 1, subtractor 2, first demodulator 3, first phase detector 4, reference generator 5, second demodulator 6, second phase detector | p 7, first phase shifter block 8, low-pass filter 9 (low-pass filter), the second phase-shifting block 10. PAL-SECA decoding device including the proposed channel of the color difference signal PAL, contains, in addition, switch 11, trigger 12, direct channel 13 and delayed 14 signals chromaticity, channel 15 color difference signal SECAM. . The PAL-SECA decoding device including the PAL color-difference channel operates as follows. In the PAL signal reception mode, the PAL input signal of the switch (SECAM) 11 is received from the outputs of the direct 13 and delayed 14 chrominance channels. The vector signal diagrams are shown in FIG. Zoe 38, respectively. The waveforms of the signal diagram at the outputs of the switch 11 with the wrong and correct phase of the trigger 12 are shown in FIG. 3 and o, respectively. When plotting diagrams, it is assumed that at high potential at the output of trigger 12, the signal is c. output (dymoy) channel 13 enters the second output of the switch 11 (Fig. 3a), and at low potential, the first output. The timing diagram of the output voltage of the trigger 12 is shown in FIG. 36. The adder t and subtractor 2 each have two outputs, on the first of which there is a chrominance signal, and on the second one, during the action of the strobe pulse, there is a split flash on the third control inputs. FIG. 3 e and g: vector diagrams of chromatic signals from the first outputs of the adder 1 of the subtractor 2 are presented. FIG. 3J and W are vector diagrams of the flash signals at the second outputs of the adder 1 and subtractor 2. The flash signal from the second output of the adder 1 is fed to the first input of the second phase detector 7 through the first phase-matching unit 8. The vector diagram of the flash signal at the output of the first phase-shifting unit 8 is shown in FIG. S / h From the second output of the subtractor 2, the flash signal is fed to the second input of the second phase detector 7 directly. The polarity of the signal at the output of the second phase detector 7 is determined by the phase difference of the input signals. In case the input signals are in phase, the voltage at the output of the second phase detector 7 is positive. If the input signals are in antiphase, the polarity of the output signal is negative. The signal at the output of the second phase detector 7 occurs only during the action of the flash. Since the signals for turning on the color, turning off the reference oscillator 5, and correcting the phase of the trigger 12 must be potential rather than pulsed, the output of the second phase detector 7 is fed to the low-pass filter 9, which is a constant component. The output voltage of the lowpass filter 9 is depicted in FIG. .3 l. . In the event that the output voltage of the second phase detector 7 is positive, which corresponds to the correct phase of trigger 12, the color is turned on and the reference oscillator 5, and the trigger 12 is resolved. Otherwise, the phase of the trigger 12 is corrected and the reference oscillator 5 is turned off.

Thus, in the event that a PAL signal is present at the input of the decoder device, the reference generator 5 produces a sinusoidal voltage required for demodulating the chroma signal.

In standby mode or receiving a SECAM signal, the signal at the output of the second phase detector 7 does not have a constant component, the reference generator 5 is turned off and does not cause interference at the output of channel 15 of the SECAM color difference system or distortion of the luminous signal.

Demodulation of signals V-V and K-y is realized. These are demodulators (synchronous detectors) 3 and 6. At the same time, they are the first. the inputs are output signals from adder 1 and subtractor 2

accordingly, and to the second inputs, the signals of the reference subcarrier, whose phases are determined by the phase of the plug from the second output of adder 1.

The phase locked loop of the reference generator 5 to the phase of the flash signal at the second output of the adder 1 contains the first phase detector 4, and the signal of the reference subcarrier to the second demodulator (P-V) .6 is fed through the second phase-shifting unit 10.

Thus, the proposed channel of the color-difference signal PAL of the PAL-SECAM decoder contains only one reference oscillator, which is disconnected during the reception of a black-and-white television signal, or the SECAM signal, which eliminates distortion - sinusoidal interference from the reference generator PAL in these modes

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Claims (1)

PAL SECAM DECODING CHAIN COLOR CHANNEL, comprising an adder and a subtractor, the first combined inputs of which are the first input of the color signal, the second combined inputs are the second input of the color signal, the third combined inputs are the input of the gating pulses, the first output of the first adder is connected to the first adder demodulator, the second output is with the first input of the first phase detector, the output of which is connected to the first input of the reference generator, the first output of which is connected to the second the input of the first demodulator, and the second output with the second input of the first phase detector, as well as the first phase-shifting unit, the second demodulator and the second phase detector, and the outputs of the first and second demodulators are outputs of the first and second color-difference signals, characterized in that, for the purpose of simplification by eliminating the second reference generator and eliminating signal distortion, a second phase-shifting unit and a low-pass filter are introduced into it, the input of which is connected to the output of the second phase detector, the first output connected to the second input of the reference generator and is the output of the color off signal, and the second output is the output of the phase correction signal, the first input of the second demodulator is connected to the first output of the subtractor, the second input through the second phase shifting unit is connected to the first output of the reference generator, the first input of the second phase detector through the first phase-shifting unit is connected to the second output of the adder, and the second input is connected to the second output of the subtractor. OT6FTT ^{, 0_} ns I 1149437 2