SU661837A1 - Analyzer of static distribution of signal marginal distortions - Google Patents

Description

The invention relates to telecommunications and can be used in instruments for measuring edge distortion in LINES and apparatus for transmitting discrete messages. A known analyzer of statistical distribution of the edge distortion of a signal contains an input edge selector for the input signal and a clock frequency selector, the second input of which is connected to the output of the master oscillator and the input of the time interval sensor, the first output of which is connected to the integrated reset inputs of the counters of the signal advance and counter counters groups signal groups of lag, and the outputs of the counters of signal advance groups are connected to the corresponding signal inputs of the first indicator, The outputs of the lagging signal group counters are connected to the corresponding signal inputs of the second indicator, and the combined control inputs of the first and second indicators are connected to the second output of the time interval sensor l However, in a known device, it is not possible to analyze the statistical distribution of edge distortion grouping and sign of changing the sign . backlog The aim of the invention is to provide the possibility of analyzing the statistical distribution of the grouping of edge distortions such as advance type and backlog type without changing sign. For this, in the analyzer of statistical distribution of the edge distortion of the signal, containing the input edge selector of the input signal and the clock frequency selector, the second input of which is connected to the output of the master oscillator and the input of the time interval sensor, the first output of the KOTojJoro is connected to the combined counters reset inputs of the signal leading counters groups of signals lag, and the outputs of the counters of the groups of signals advance are connected to the corresponding signal inputs of the first indicator, The lag of the signal group counters are connected to the corresponding signal inputs of the second indicator, and the combined control inputs of the first and second indicators are connected to the second output of the transducer time inter: 181g. shafts, phase gap selector, selector, signal, advance, lag, signalizer, opt, counter, opt, counter, lag, and first, and second decoder, while the output of the front-edge selector is connected to the combined first and second inputs of the phase, and then, opt-in, opt the output signal of the input signal, connected to the combined first and second inputs of the phase, and : ajet: implicitly xS gshrvyyi the second output of the extractor of the so-called frequency, the first output of the phase. YuskriIlinator through the driver; lag and signal counter lag is connected to the signal inputs of the second descrambler, each of the VS: the bdov of which is connected to the signal but the corresponding input its counter rpyrtn signals lag T1ervy th rtSchUoy n | JASPERSON 1SHD - signal selector, transmittances are connected to the control input of the second decoder 15a, respectively: VNO do reset the signal counter, and the first and second control outputs of the output selector. -pearing FIG. 1 shows a structural electrical analyzer circuit; Fig. 2 is a graphic of the first; a random random distribution of the packages in time; in fig. 3 is a histogram of the distribution of groups of fronts of the same sign containing 1,2,3, .... Of the following fronts. . Statistical analyzer of distributions 1s 1x1 1;: 11Rn | 1YaG Yr holds the selector 1 of the front of the input signal, the selector, 2 oscillations of the frequency, the master oscillator 3, the sensor 4 time intervals, the counter 5. groups of signal advance, counters 6 groups of signals bctG , indicators 7 and 8 - phase screen reader 5, advance signal selector U, 11 lag selector signals, 12 counter - “h. -. ,, ..,,,. . - ... -:, counter 13, advance of signals and decryption signals of tori 14 and 15. The analyzer operates in the following way. Highlighter. The 2 clock frequencies of the information message signals realize the selection of the oscillations so YOUR frequencies from the sequence of work packets. A differential rate of inertia of the two clock frequency selector is proposed. Paraphase oscillations of the clock frequency with erci vybdov arrive at the inputs of the arms of the phase discriminator 9, where the comparison is made with the phase position of the message message fronts coming from the output of the edge selector 1 of the ayoD signal. In phase discrimination, T. 9 separates the fronts that fall into the area of operation from the fronts that fall into the area of the laggards, the traces of these fronts. From the outputs of the arms of the phase discriminator 9, the inputs of the selector 10 of the advancing signal and the separator 11 are received. signal lag. The signal selector 0 advance and the signal extractor 11 lag perform the normalization of the edges in terms of duration and formation. nyu commands that allow reading from the decoders 14 and 15 and implemented. set the reset counter. 12 signals advance, and the counter 13 signal-. catch backlog. Commands to allow reading in a reset form. . {fr th gc during the transition of fronts from one area to another. These commands are short, true pulses, and the reset commands are delayed with respect to the read enable commands for the time necessary for resetting the counters of the 5 advance signal groups and the counters of the 6 signal lag groups. Counter 12 of the advance signal and the counter of 13 signals from - stand, count the number of fronts that fall in the area of advances or lag between two Mbmenta sign change. . , FIG. Figure 2 shows a plot of the implementation of a random distribution of the fronts of parcels over a time interval. G -TgQ here C- the duration of the clock interval. On the horizontal zone of boundary distortions:., ± сГ%., On the vertical axis there are discrete moments of the appearance of fronts; take the case when the sequence is discrete; the message looks like dots i.e. fronts occur on every takfovm interval. The fronts of parcels in time are randomly distributed. The horizontal lines show the moments. Of the transition of fronts from the advancing region to the lagging region:, nor vice versa. . /. . Consider a segment of the timing diagram on the time interval T — In MOivieHT of time T, the front falls into the area of advance, at time Tj, in the region of lag, in time of time f, t4, the area of advance. at the moments of time, in the region of lagging, at the moment of 8, the region of advancing, - SG - in the region of lagging, - in the region of advancing. The transition of fronts from one region to another is carried out at times T., T, .T l -. / 7-.jw-1 2, 6 9 -10. Consequently, during the time interval T / tTj of the signal counter 12, the advance is zoomed into three groups The pulses containing one pulse and one group containing three pulses, and the lag counter 13 of the signals will record two groups containing one pulse and one group containing two pulses. At the moment of the next sign change, the command from the selector 10 signals advances the resolution to decipher the number dialed at that moment in the counter 13 signal lag, this set is registered by the counters of 6 groups of signal lag, then the counter 13 signals the lag is given a reset command. The counters of the 5 advance signal groups and the 6 signal groups are lagging behind, counting the number of groups with holding 1,2,3, ... t pulses. Indicators 7 and 8 digitally display the number of counted groups. The histogram of the distribution of edge distortions}, corresponding to the distribution of the fronts shown in FIG. presented on fig.Z. The histogram on the horizontal axis shows the number of pulses in groups ha, on the vertical axis — the number of groups N. The histogram shows that the number of groups in the advance region containing one pulse is 10, two pulses — three, three pulses — two, and four pulses — one In order to settle, they contain one impulse-10 groups, two impulses - four groups, three impulses - one group. The histogram of the distribution of edge distortions by groups obtained on the basis of statistical research during the required time interval will allow us to estimate the probability of the presence of groups containing m pulses, i.e. The proposed analysis of the statistical distribution of the edge distortion of the signal allows to obtain (based on the statistical distribution of the grouping of the edge distortions falling into the leading or lagging region without changing the sign), the new criterion of the edge distortion. The sensor 4 time intervals determine the duration of the session, em reset counters 5 groups of signals ahead of time and counters b groups of signals at the end of each session lag

Claims (1)

661837 and determines the duration of the display of indicators 7 and 8. All analyzer nodes are made on the basis of typical logic elements. Formula of Investigation of statistical distribution of edge distortion of a signal, containing an input edge selector of an input signal and a clock frequency extractor, the second input of which is connected to the output of the master oscillator and the input of the time interval sensor, the first output of which is connected to the combined counters reset inputs of signal groups the lead and the signal group lag counters, the outputs of the signal group counters of the lead are connected to the corresponding signal inputs of the first the indicator, the lag group counter outputs are connected to the corresponding signal inputs of the second indicator, and the combined control inputs of the first and second indicators are connected to the second output of the time interval sensor, characterized in that, in order to enable analysis of the statistical distribution of edge distortion grouping. and the type of lag without a change of sign, introduced phase discriminator, selector signal advance, selector signal, count of sitals of operas signal lag counter and the first and second decoders, while the output of the input edge selector is connected to the combined first and second inputs of the phase discriminator, the third and fourth inputs of which are connected respectively to the first and second outputs of the clock separator, the first output of the phase discriminator through the series connected signal advance and signal counter, the advance is connected to the signal inputs of the first decoder, each of whose outputs are connected to The signal input of the corresponding counter of signal groups is advancing. The second output of the phase discriminator is connected through series-connected separator lag connected to signals from the signal inputs of the second decoder, each of whose outputs is connected to the signal input of the corresponding counter of signal groups of lag, the first and second control outputs of the signal selector are ahead of the second decoder and input reset counter 66.1837 signal lag, and the first and second control outputs of the signal lag selector are connected respectively to the control input of the first decoder and the reset input of the signal counter advance. eight Sources of information taken into account in the examination 1, Elements of the theory of discrete information transfer, under. ed. Purtova L.P. M., Svy, 1972, p.19-20.