SU1061069A2 - Radio circuit characteristic measuring method - Google Patents

Abstract

METHOD OF MEASUREMENT XftPAKtE RISK OF RADIOTRACTS auth. - 855538, differing from the fact that, in order to increase the accuracy in assessing the state of complex transfer coefficients of space-extended linear charges. radio paths according to one integral characteristic, after filing short video pulses at the outputs of the reference path and the studied radio path, simultaneously create short-circuit or idling modes and compare the parameters of the responses reflected from the outputs from the inputs of the radio path and the reference path.

Description

a: s The invention relates to the field of radio measurements and can be used to measure and control the complex transmission coefficients of space-spreading linear propagation values of pulsed radio signals. According to the main auth. No. 855538 and the well-known method for measuring the characteristics of radio paths consists in forming a measurement signal in the form of a discrete set of frequencies with a uniform amplitude-frequency and linear phase-frequency spectra, which in the time domain forms a sequence of short video pulses with a temporal position of the working signals and a repetition frequency of no more than iairin band of the studied radio frequency frequencies is fed to the input of the reference path and each even pulse of this sequence is fed to the input of the studied radio frequency act, compare the parameters of the received signals by subtracting the pulses of the output responses to the effects of each even short pulses from the outputs of the radio path and the reference path normalize the width of the spectrum of the difference pulse response and the pulse response of the reference path for each odd short pulse and measure the ratio of the amplitudes normalized by the spectrum the differential impulse response and impulse response of the reference path at the moment of time determined by the temporary position of the first max. the full response of the reference path fll. I- According to a known method, when measuring the characteristics of radio paths with an input and output separated by large distances, JTK6O must be removed from the indication signal source or the measurement signal source is connected to the remote radio path input and an additional radio path is impossible in the first case. measurement directly before the measurement, and also requires a long reference path, and in the second case it is difficult to take into account when calibrating mistakes made by the additional radio path. All this ultimately leads to an increase in measurement error. The aim of the invention is to increase the accuracy in assessing the state by the complex transmission coefficients of space-extended linear mutual radio paths according to one integral characteristic. The goal is achieved by the method of measuring the characteristics of radio paths, which consists in forming a measurement signal in the form of a discrete set of frequencies with a uniform amplitude-frequency and linear phase-frequency spectra, which in the time domain forms a sequence of short video pulses with a temporal position of the working signals and frequencies repetition is not more than the width of the band of the studied frequencies of the radio path, is fed to the input of the reference path and every even pulse of this sequence Spins - to the input of the studied radio path, compare the parameters of the received signals by subtracting the pulses of the output responses to the effect of each even short pulses from the outputs of the radio path and the reference path, normalize the difference of the reference path for each odd short pulse and measure the amplitude ratio normalized according to the spectrum; 1 ru differential impulse response and impulse response of the reference path at the moment of time, determined by the temporary position of the first m after the submission of short video pulses at the outputs of the reference path and the radio path under study, simultaneously create short-circuit or idling modes and compare the parameters of the responses reflected from the outputs of the radio path and the reference path. The drawing shows a diagram of a device implementing the method. The device consists of a generator of short video pulses connected via directional couplers 2 and 3, respectively, to the reference path 4 and the radio path under study 5, the outputs of which are connected to modulators 6 and 7, and the second outputs of directional couplers with inputs of the difference device 8 connected through a 9 sec filter indicator 10, the control inputs of generator 1, mode ;. The tori 6 and 7 and the indicator 10 are connected to the chronizer 11. The method is carried out as follows. The generator 1 of short video pulses forms two sequences of short video pulses with equal amplitudes and identical initial phases, the spectrum width of which is much larger than the studied radio frequency band. The reference path 4 is fed through a directional coupler 2 (forward channel) with a pulse train with a frequency of much less than the passband of filter 9 and a period of not less than twice the group delay time of this path. Only every even pulse of this sequence comes through the directional coupler 3 (forward channel) to the radio path 5 under study. At the outputs of both paths 4 and 5, with the help of modulators 6 and 7, controlled by chronization of generator 11, after applying a short video impulse, they create a short circuit or idle mode, which are impulse responses from the outputs of paths 4 and 5 to each even short pulse received from the inputs of the same paths through the directional couplers 2 and 3 (branch channels), respectively, to the inputs of the differential device 8, where the vector-based subtraction of the spectral components of these responses occurs. The reflected pulse response of the reference path 4 to Each odd short pulses through the differential device 8 without changing. Filter 9 limits spectra

Obbih responses to the studied band of the radio path 5, and the indicator 10 measures the ratio of the amplitudes of the spectrum-normalized differential pulse response and the reflected pulse response of the reference path 4 at the time, determined by the temporal position of the first maximum of the reflected pulse response of the reference path and specified by the synchronizer 11 The magnitude of this ratio is proportional to both the difference phase-frequency and relative amplitude-frequency characteristics of the compared paths 4 and 5, taking into account the doubling, their an insulating length.

The use of the invention will make it possible to measure the characteristics of spaced radio paths satisfying the reciprocity principle with higher accuracy, "- since in this case the source of the measurement signal is not required to be removed from the indicator part of the measurement circuit and the long reference path or additional radio path.

Claims (1)

METHOD FOR MEASURING CHARACTERISTICS OF RADIOTRACTS according to ed. "855538, I also distinguish with the fact that, in order to increase the accuracy in assessing the state by the complex transmission coefficients of linear reciprocal radio paths extended in space by one integrated characteristic, after applying short video pulses at the outputs of the reference path and the studied radio path, simultaneously create short circuit or idle and compare the parameters reflected from the outputs of the responses received from the inputs of the studied radio path and the reference path.