SU930750A1 - Method of monitoring amplitude-frequency characteristic of video channel of colourtelevision receiver - Google Patents

Description

(54) METHOD FOR CONTRACTING THE AMPLITUDE-FREQUENCY CHARACTERISTICS OF THE ACCESS OF THE VIDEO CHANNEL OF THE COLOR TELEVISION

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The invention relates to television and can be used to control amplitude-frequency characteristics (frequency response of color television receivers under mass production conditions).

A known method of controlling the frequency response of a video camera: the SECAM color television receiver system is based on the horizontal sweep of the oscilloscope of the sweeping frequency test signal synchronously with the saw voltage of the sweep frequency and the additional test signal during the reverse sweep of the oscilloscope, the sum of the test signals, the output to the input of the monitored video channel of the test signal with the subsequent selection of the envelope signals of the test signals a controllable video channel output and the total playback test signal 1).

However, the known method has a low measurement accuracy of signal suppression with a notch filter at the frequency of one of the RECEIVER

characteristic rejection band points, since any resonant circuit has a certain bandwidth and, therefore, there is no certainty that measurements are made accurately at a controlled frequency.

The purpose of the invention is to improve the accuracy of signal measurement.

The goal is achieved by the method of controlling the frequency response of the video channel of the remote television receiver of the SCAM system based on the oscilloscope test signal of the sweeping frequency forming synchronously with the saw voltage of the oscilloscope test signal during the forward sweep stroke and the additional test signal during the reverse sweep of the oscilloscope, summation of the test signals, the input to the input of the monitored video channel of the total test signal, followed by the allocation the signals of the envelopes of the extracting signals at the output of the monitored video channel and the reproduction of the total test sitale, form an additional test signal in the form of four packets of sinusoidal oscillations of fixed frequencies of equal amplitudes, and the frequency of one of them, taken as amplitude behind the reference one, corresponds to the frequency of the frequency response at which The sensitivity of the video channel is measured; the frequencies of the remaining three packets of sinusoidal oscillations of fixed frequencies are equal to the specified frequencies in the rejection band. Hovhan and before playing be amplitude envelope of said test signal divided back- specify proportional to values of the frequency response of said fixed frequencies, a playback Cf. NIWA amplitude envelope of each of the three packs of sinusoidal oscillations with am litudoy envelope of said reference p chum. FIG. 1 shows the structural scheme of the proposed device; in fig. 2 - the image on the screen of the oscillographic indicator of the envelopes of the frequency response of the monitored video channel and four packets of sinusoidal oscillations of fixed frequencies. The device contains an amplifier-limiter 1, a horizontal scanning signal generator 2, a sweeping frequency generator 3 connected in series, an adder 4, a video channel 5 monitored by a television receiver using the SKAM system, a detector 6 delayed in parallel by the inputs elements 7-10 of delay, the outputs of which are connected to shaper 11--14 pulses, respectively, generators 15-18 of sinusoidal voltage of fixed frequencies, the outputs of which are connected in parallel to the adder 4, block 19 attenuator control, control first attenuator 20 is connected to the signal output indicator 21. The entry oscillographic generators 15-18 - sinusoidal voltage vyLolneny fixed frequency crystal controlled frequencies: 154, 02 MHz, MHz 16-4,686, 17-4,286 MHz 18-1MGTS. The choice of fixed frequencies is determined by the SECAM standard; frequencies 4.02 MG 4.686 MHz and 4.286 MHz correspond to the frequencies of the characteristic points in the rejection band of the monitored video signal of a color television receiver, frequency 1 MHz, corresponds to the frequency response of the video channel relative to which the signal suppression is measured in the rejection band and on which the sensitivity of the monitored signal is measured video channel The attenuator control unit 19 contains a delay element 22, shapers 23-25 of attenuator control pulses. The controlled attenuator 20 comprises a stepped resistive divider 26 and associated electronic switches 27-29. The divider 26 is made on high-precision resistors. The division coefficients of its division are equal to the suppression at characteristic points of the rejection band indicated by the technical requirements on the video channel, television receiver. Controlled attenuator 20 has a transmission coefficient for the AFC envelope of the video channel and the envelope of a sinusoidal 1 MHz 1: 4 frequency band (positions 26 and 29 in FIG. 1) for an envelope of 4.286 MHz 1: 2 frequency band (positions 26 and 28) and for envelopes 4.02 MHz and 4.686 MHz J: I (positions 26 and 27). The device works as follows. Amplifier 1, which synchronizes the entire device, is powered by sinusoidal voltage, for example, a 50 Hz network voltage. The formed sequence of pointed synchronizing pulses arrives at delay elements 7-10, ensuring the timing of the pulses of the formers 11 - 14. Generators 15-18 of sinusoidal voltage of fixed frequencies produce packets of sinusoidal oscillations of fixed frequencies, the duration and distribution of which is determined by D1-intensity and alignment in time of the pulses of the formers 11-14, respectively. Packages of sinusoidal oscillations are generated by generators 15-18 during, for example, the reverse sweep of the oscillographic indicator (oscilloscope) 21 generated by the horizontal scanning signal generator 2, and the oscillator 3 signal is generated with a swing band corresponding to the entire bandwidth of the monitored video signal 5 respectively, during the forward sweep stroke. The sweeping frequency signal further performs the role of the main test signal, and the sinusoidal oscillations of the fixed frequencies provide an additional, facilitating simultaneous observation of the suppression band in the rejection band and the sensitivity of the monitored video channel with observation of the shape of the frequency response. The main and additional test signals are summed by adder 4 from the output whose total test signal, whose amplitude amplitudes of the components are equal to each other and are determined by the value my video channel for measuring sensitivity, are input to the controlled vvdeokanala 5. Simultaneously with starting the delay elements 7-10. the sequence of synchronizing sludge pulses from the output of the limiter amplifier 1 is used to synchronize the horizontal scanner 2 and the attenuator control unit 10, providing a delayed element 22 to work on the serially connected controllers 23-25 of the control pulses of the attenuator 20 controlled. The pulses of the controllable attenuator 20 are generated synchronously with the pulses that ensure the operation of the generators 15-18, but cover them in duration, and the generator 15 (the frequency is filled and 4.02 MHz and 16 (the fill rate is 4.686 MHz) corresponds to one driver of the control pulses 23 and one electronic switch 27 in the controlled attenuator 20, since the transmission coefficient for these two frequencies is 1: 1. The control coils are fed to the corresponding inputs of the controlled attenuator 20, electronic switches 27-29. The total test signal from the output of the adder 4, having passed the monitored video channel 5, varies in amplitude in accordance with the frequency response of the monitored video channel and through the detector 6 is fed and a controlled attenuator input, 20, step resistive divider 26. At the input of the step resistive divider 26, a test signal is received in the form of an AFC envelope during the forward sweep stroke and the envelope of four sinusoidal oscillations during the reverse sweep stroke, and the amplitudes of the envelopes of all components The test signal is directly proportional to the frequency response values of the monitored video signal 5 at the respective frequencies. A controlled attenuator 20 divides the amplitudes of the envelopes of the frequency response and four packets of sinusoidal oscillations inversely proportional to the values of the frequency response of the monitored video signal at the respective frequencies and ensures that the indicator 21 passes the output signal of the envelopes of the amplitude of the three pulses of which (frequencies 4.02 MHz, 4.286 MHz, 4.686 MHz ) for an extremely tuned amplifier, are equal to each other and equal to the amplitude of the pulse corresponding to a frequency of 1 MHz and taken as the reference when measuring the sensitivity of the video channel and suppression rejection frequency response characteristic points video channel. 6 On the display of the indicator 21, an image of the envelope of the frequency response (position 30 in Fig. 2), following the forward sweep, is superimposed with the image of the envelopes of four pulses, following in its reverse direction (positions 31-34 in Fig. 2) corresponding to frequencies 1, 0 MHz, 4.286 MHz, 4.686 MHz and 4.02 MHz. Visually, on the screen of the indicator 21, they control the shape of the frequency response, compare the amplitudes of the envelopes of the three pulses (position 32-34 in Fig. 2) with the amplitude of the reference (position 31 in Fig. 2) and judge the quality of the signal suppression at the notch frequencies and about the sensitivity of the video channel. The use of the present invention will improve the measurement of the signal suppression of the notch filters in the characteristic points of the rejection band and improve the measurement performance. It is known that in the color receivers of television receivers of the SECAM system, the chromaticity signals are transmitted in the luminance signal spectrum. In order to obtain a high-quality image on a color TV screen, it is necessary to suppress those portions of the frequency spectrum where the chroma signal energy is greatest. However, the suppression of these portions of the spectrum should not affect that part of the frequency response that provides reproduction of the luminous cn.al.v The document specifying the requirements for the luminous channel of the CECAM color television receiver is GOST2 1042-75 TV color channels. On the basis of this document, technical specifications TU 4-77 of the module of the channel and the matrix of the MIND 2-3-1 YAH were developed. Compared to the known device, the technical and economic effect of increasing the measurement accuracy of signal suppression by a notch filter and an increase in the measurement performance is achieved by processing the additionally generated signal in order to simultaneously measure the sensitivity of the amplifier and suppress the signal at the notch points. not prior to the submission to the video channel whose characteristics are monitored, but after its passage through this video channel. In addition, an additional signal is formed in the form of packets of sinusoidal oscillations of fixed frequencies of equal amplitudes — in the proposed Method, and in a known device — in the form of a continuous signal with discontinuously varying frequencies in its composition. The presence of individual packets eliminates interference (noise) that occurs at the boundaries of abrupt frequency changes, i.e. error from this interference is excluded. Processing the signal after passing through the video channel eliminates the error of changing the operation mode of the said video channel, and simultaneously with the control of suppression at the notch points, makes it possible to control the sensitivity of this video channel, thereby improving the measurement performance.

The use of the proposed method allows to achieve a positive effect on improving the measurement accuracy of signal suppression with a notch filter and an increase in the measurement performance as compared with the base sample, since with the base method it is necessary to tune the generator, control the frequency counter at characteristic points of the rejection band and maintain a constant output level from the generator, controlling it with a millivoltmeter.

In addition, when measuring by the proposed method, before visual estimation of the amplitude of the envelope signals from the output of the measured video channel is inversely proportional to the required frequency response values at the corresponding frequencies and the amplitude of the envelopes of the above packets is compared and, according to the obtained results, the signal is suppressed at rejection frequencies and video channel sensitivity. With the same measurement method, taken as the baseline, it is necessary to measure the output signal at each notch point, and then calculate the signal suppression.

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Claims (1)

The invention method for monitoring the amplitude-frequency characteristics of the frequency response of the video signal of a color television receiver system SCAM, based on the formation of the sweep frequency test oscilloscope and an additional test signal synchronously with the ramp voltage of the horizontal sweep 10 signals - during the reverse sweep of the oscilloscope, summing the test signals, applying the total test signal to the input of the monitored video channel and then highlighting the envelopes of the test signal envelopes at the output of the monitored video channel and reproducing the total test signal, characterized in that in order to improve the measurement accuracy of the signal 2Q La, an additional test signal is formed in the form of four packets of sinusoidal oscillations of fixed frequencies equal to plods, and, the frequency of one of. them, received amplitude for the reference, 25 correspond to the frequency response, at which the sensitivity of the video channel is measured, the frequencies of the remaining three sinusoidal oscillations of fixed frequencies are equal to the specified frequencies in the rejection band, and before reproducing the amplitudes of the envelopes of the above test signals are divided inversely proportional to the specified values of the frequency response of the fixed frequencies, and during playback, the amplitudes of the envelopes of each of the three packets of sinusoidal oscillations are compared with the amplitudes of the envelope of the reference packet. Sources of information taken into account in the examination 1. Japanese Application No. 51-4620, 0 cl. G 01 R 31/00, 1976 (prototype). " eight ys 15 sixteen 12 ten n R-her Id 17 H one IB 25 2 18 2f Rig 1 31 dg J5 J4 // / /  -