SU1522117A1 - Method of measuring delay time of the second pulse of pair of periodic two-pulse sequence - Google Patents

Abstract

The invention relates to a radio metering technique and can be used to measure the delay time of a second pulse of a pair of a periodic two-pulse sequence produced by generators, the frequency of which can be changed. The invention solves the problem of increasing the accuracy of measurements of the delay time by the spectral method. To implement the proposed method, it is necessary to establish the critical value of the period _Tcr (frequency _Fcr ) of the signal of the generator being monitored, corresponding to the minimum level of harmonics at the frequencies of the interference minima of the spectral envelope of the amplitudes of the signal harmonics and exceeding the specified maximum doubled absolute error (2Σ _M ) measuring the frequency interval ( ΔF). FURTHER, THE INSTALLED CRITICAL VALUE OF THE FREQUENCY (PERIOD) OF REPEATING THE SIGNAL MUST BE MEASURED. THEN YOU NEED TO MEASURE THE FREQUENCY INTERVAL (ΔF) between adjacent interference minima in the signal spectrum. Then finally calculate the desired value of the delay time (Τ ₃ ) using the formula Τ ₃ = T _cr / N = 1 / (F _cr ^. N), where N is the nearest integer to the number ΔF / F _cr . 4 il.

Description

The invention relates to a radio metering technique and can be used to measure the delay time of a second pulse of a pair of a periodic two-pulse sequence produced by generators, the frequency of which can be changed. By pulses we mean video pulses of identical shape and amplitude.

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

FIG. 1 is a structural diagram of the device; FIG. 2 - controlled impulse sequence; in fig. 3 - the spectrum of the monitored pulse sequence with a repetition period that is a multiple of the delay time (the dotted line shows the envelope of the spectrum).

The method of measuring the delay time includes measuring the frequency interval (dF) between adjacent interference minima in the spectrum of the signal while monitoring the generators (according to the delay time of the second pulse of a periodic double pulse pulse).

31

sequence). To do this, set the critical value of the frequency () of the signal of the monitored generator, corresponding to the minimum level of harmonics at the frequencies of the interference minima of the spectral envelope of the amplitudes of the signal harmonics and exceeding the specified maximum doubled value of the absolute error (2) measuring the frequency interval (4F), measure the set period value () (frequency (Hzr) (repetition of the signal and calculate the desired value of the delay time (f) by the formula

T TU 1- SP

Fn

where n is the nearest integer to the number L-E lu -.

FKP

 Example. To measure the delay time of the second pulse of a pair of a periodic, two-pulse sequence when monitoring generators allowing the frequency to be adjusted, according to the proposed method, it is necessary to set the critical period value (frequency) of the signal of the controlled generator corresponding to the minimum level of harmonics on. the frequencies of the interference minima of the spectral envelope of the amplitudes of the signal harmonics and exceeding the specified maximum twice the value of the absolute error (2f) of measuring the frequency interval / 3Fv measure the set critical value of the frequency (period) of the signal repetition; measure the frequency interval (dF) between adjacent interference minima in the signal spectrum,; calculate the desired value of the delay time by the formula (1).

For definiteness, let us specify the following parameters: pulse duration 10–20 HCJ pulse amplitude 1–1 V; delay range 50-100 n

2 d. Ch 4 60 Hz

The block diagram of the device implementing the proposed method is shown in FIG. 1. The device includes a source of monitored signal 1 (generator G5-67), a spectrum analyzer 2 () and frequency meter 3 (ЧЗ-З).

The output of the main signal of the source of the monitored signal 1

0

2

Q with

five ,

.

0

0

1174

connected to the input of the spectrum analyzer 2, and the output of the clock signal - to the input of the frequency meter 3.

The device works as follows.

The voltage from the output of the source of the monitored signal 1 is fed to the inputs of the spectrum analyzer 2 and frequency counter 3.

The operator changes the frequency of the signal by means of adjustments of the controlled oscillator 1 and observes the signal spectrum on the screen of the spectral analyzer 2. When the critical repetition frequency of the signal corresponding to the minimum level of harmonics at the frequencies of the interference minima of the spectral envelope of the amplitudes of the harmonics of the signal and satisfying the condition Fp 26 is reached, the operator stops frequency control, measures the set critical value of the repetition frequency using a frequency meter 3, measures the frequency inte shaft between adjacent minima in the interference signal spectrum using the spectrum analyzer 2 and the calculated desired value of the delay time according to the formula (1).

With a small ratio, it is more convenient for the operator to measure the parameter n (the number of bands with a width of F cr in the frequency range U7) directly. This is equivalent to measuring the frequency interval AF in units of the number of bands of width F, given by the harmonics of the signal, i.e. measurement of the normalized frequency interval value.

The measuring instruments mentioned in the description of the example implementation of the proposed method are commercially available and do not need a special description.

The value of the relative measurement error when using modern standard measuring devices does not exceed 10.

Claims (1)

Invention Formula A method for measuring the delay time of a second pulse of a pair of a periodic two-pulse sequence, which consists in measuring the frequency interval between adjacent interference minima in the spectrum of a signal, by which the delay time is calculated, which is By the fact that, in order to improve the measurement accuracy when monitoring generators, the critical value of the repetition frequency of the signal of the controlled generator is preset, corresponding to the minimum level of harmonics at the frequencies of the interference minima of the spectral envelope of the amplitudes of the signal harmonics and exceeding a predetermined double maximum value of the absolute error in measuring the frequency interval, after which measure the established cree 1176 tic value of the period or you repeat the signal, and time fj. delays are determined from the expression Tcr 1 3 P -cr where n is the nearest integer to uF CRT CR number --- where uF frequency interval; critical values of frequency and period. Fig. { Gz FIG. 2 27 ST Fi.T