SU902272A1 - Device for measuring phase fluctuations - Google Patents

Description

(5) DEVICE FOR MEASURING PHASE FLUCTUATION

I

The invention relates to digital black and white color television signaling systems using Pulse Code Modulation (PCM), Differential Pulse Code Modulation (DICM) and other digital methods using coaxial cable, radio relay, satellite, waveguide, optical and other types of communication lines and can be used in digital television transmission systems (SCTP) to measure the intensity of phase fluctuations in the process of tuning, technical operation and standardization of electrical parameters SCTP equipment.

A device for measuring phase fluctuations is known, comprising a series-connected input amplifier, a frequency converter and a first intermediate-frequency amplifier, one output of which is connected through a series connected first

The emitter follower and narrowband filter is connected to the first input of the controlled phase shifter, the output of which is connected via the second intermediate frequency amplifier to the first input of the phase detector, the output of which is connected through the low-pass filter to the input of the amplifier, while the other output of the first intermediate frequency amplifier is connected through the second one the emitter follower and the third intermediate frequency amplifier are connected to the second input of the phase detector, as well as the indicator and the local oscillator, the output of which connected to the corresponding input of frequency converter 1.

However, the known device has a low measurement accuracy.

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

Claims (2)

For this c. A known device for measuring phase fluctuations introduced a phase corrector, a subtraction unit, a quadrant, an output integrator, and an input integrator, the input of which is connected to the output of the amplifier and the first input of the subtraction unit, the output of which is connected through the series-connected quadrator and output integrator to the indicator input, and the output of the input The integrator is connected to the second input of the subtracting unit and the input of the phase corrector, the output of which is connected to the second input of the controlled phase shifter. The phase corrector consists of reversible counters, a control unit and a pulse converter, the first output of which is connected to the first input of the second reversing counter through the first reversible counter, the second input and output of which are connected respectively to the second output of the pulse converter and the control unit; WHICH IS THE OUTPUT OF THE PHASE CORRECTOR, whose input is the input of the pulse converter. FIG. Figure 1 shows the structural electrical circuit of the device proposed; in fig. 2 is a structural electrical phase correction circuit. The device for measuring phase fluctuations contains serially connected input amplifier 1, frequency converter 2 and first intermediate frequency amplifier 3, local oscillator k, first emitter follower 5, narrowband filter 6, controlled phase shifter 7, second intermediate frequency amplifier 8, second emitter follower 9, the third intermediate frequency amplifier 10, phase detector 11, lowpass filter 12, amplifier 13 input integrator I, phase corrector 15, subtraction unit 16, quad 17, output integrator 18 and indicator 19. The phase corrector (Fig. 2) consists of a pulse converter l 20, a first reversing counter 21, a second reversing counter 22, and a control unit 23. The device works as follows. The investigated harmonic timing oscillation, containing phase fluctuations, from the output of the clock timing oscillation extraction unit in the SCTP equipment (not shown) is fed to the input amplifier 1, which provides preliminary amplification of the timing oscillation under study. From the output of the input amplifier 1, the timing oscillation is fed to the first input of the frequency converter 2, to the second input of which the signal generated in the local oscillator j is fed. From the output of the frequency converter 2, the harmonic oscillation of the intermediate frequency enters the first amplifier 3 of the intermediate frequency, which is connected to the first 5 and second 9 (identical) emitter repeaters in parallel, which are used to decouple the measuring and reference paths of the device. In the reference path of the device, the reference oscillation of the intermediate frequency is formed using a narrowband, for example, quartz, ladder type filter 6 having a high quality and a symmetrical amplitude-frequency characteristic. The choice of phase shifts between the harmonic oscillations of the intermediate frequency in the measuring and reference channels connected to the two inputs of the phase detector 11 is provided by means of a controlled phase shifter 7 connected to the reference oscillation circuit and controlled by a signal from the phase corrector 15. The controlled phase shifter 7 allows to select the linear mode of operation of the phase detector 11. The required voltage swing of the intermediate frequency at the two inputs of the phase detector 11 and the required ratio between them is maintained using the third 10 and second 8 intermediate frequency amplifiers having adjustable gain factors. In the presence of phase fluctuations of a digital television signal, the amplitude-modulated random signal at the output of phase detector 11 is extracted using a low-pass filter 12 and an amplifier 13 having uniform amplitude-frequency characteristics in the phase fluctuation frequency band. As a result, the output of amplifier 13 characterizes the instantaneous phase fluctuations of a digital television signal. In the input integrator AND, the subtraction unit 16, quad 1 and output integrator 18, the averaged estimates of phase fluctuations in the next sequence are effectively averaged; the current average value Y (t) of phase fluctuations Y (s) is worked out, the difference f (t) -H (t) is formed, the value tf (t) -f (t;) l is calculated and the value of the current dispersion Cf (t ) - H (t) The voltage at the output of the output integrator 18, directly proportional to the variance of the phase fluctuations, is measured using the indicator 19, the scale of which is graduated in the mean-square values of the intensity of the phase fluctuations. The actual automatic zero setting of the phase detector 11 using the phase corrector 15 is as follows (Fig. 2) The second output of the input integrator 1A is an analog signal, the level of which is proportional to the current average value of the measured phase fluctuations, is fed to the pulse converter 20 average value pulses that discretizes the process being analyzed in time and level. As a result, the two outputs of the pulse converter 20 form a sequence of A group of binary pulses, the number of pulses in which is proportional to the average value of phase fluctuations. At the initial moment of the measurement cycle, a first reversible counter 21 is connected to the pulse converter 20, which records the number of pulses directly proportional to the initial average value of phase fluctuations. with a possible change in the average value of the phase fluctuations of the measurement process, the output of the pulse converter 20 is connected to a second reversible counter 22, in which From the group of binary pulses, the number of pulses in which is directly proportional to the relative changes in the current average value of the analyzed phase fluctuations. At the moments of the measurement result, information from the second reversible counter 22 is taken into account in the first reversible counter 21. According to the corrected sequence of groups of pulses coming from the output of the first reversible counter 21 to the control unit 23, the phase detector 11 is automatically stabilized by changing the static phase shift of the harmonic oscillation of the intermediate frequency in the control phase shifter 7. The use of the proposed device for measuring intensive Phase fluctuations in the process of setting up, technical operation and rationing of electrical parameters of the SCTP equipment allows improving the quality indicators of digital television transmission over communication lines and can be most efficiently performed by optimally adjusting the video signal decoding equipment and regenerative amplifier circuits in linear SPTP paths . Claim 1. Device for measuring phase fluctuations, containing serially connected input amplifier, frequency converter and first intermediate frequency amplifier, one output of which after the first emitter follower and narrowband filter is connected to the first input of the controlled phase shifter, the output of which is through the second the intermediate frequency amplifier is connected to the first input of the phase detector, the output of which is connected to the amplifier input through a low-pass filter, This other output of the first intermediate frequency amplifier is connected via a second emitter follower connected in series and the third intermediate frequency amplifier is connected to the second input of the phase detector, as well as an indicator and a local oscillator, the output of which is connected to the corresponding input of the frequency converter, so as to improve accuracy 7 These measurements, a phase corrector, a subtraction unit, a quadrator, an output integrator, and an input integrator, whose input is connected to the amplifier output and the first input of the subtraction unit, whose output is connected to the second input through the serially connected quadrant and output integrator, are entered. the input of the subtracting unit and the input of the phase corrector, the output of which is connected to the second input of the controlled phase shifter. 2. The device according to claim 1, which is based on the fact that the phase corrector consists of reversible counters, a control unit and a pulse counter. 022728 converter, the first output of which through the first reversible counter is connected to the first input of the second reversible counter, the second input 5 and the output of which are connected respectively to the second output of the pulse converter and the input of the control unit whose output is the output of the phase corrector, whose input is the input of the pulse converter P Sources of information taken into account in the examination 1. Veshkurtsev Yu, M. Some theoretical issues of measuring signal phase fluctuations. Issues of radio electronics. Seri radio communication technology. Issue 4, 1968, p. 133-139. rv tv. "M ivi ca M "N