SU855538A1 - Method of radio section characteristic measuring - Google Patents

Description

The invention relates to radio measurements and can be used to measure and monitor the complex transmission coefficients of the propagation paths of pulsed pafffio signals. The known method of measuring the characteristics of radio paths, the formation of the measuring signal in the form of a discrete set of frequencies, the comparison of the parameters of sigiapas through the staging path and the radio path under study, and the measurement of the results of the comparison in the Disadvantage of this method is very large, there are many of them. It is also possible to measure the phase difference between the harmonic components of the measurement array and the need to measure this parameter for several components of the phase slope determination the frequency response, as well as the lack of I11Fo cation based on the measurement results of the amplitude-frequency response of the radio frequency tract. The purpose of the invention is to reduce the time of measuring ayrett assessing the state of radio paths by one intrinsic characteristic. The goal is achieved by the fact that the method of measuring the characteristics of radio paths consists in forming a measurement signal in the form of a discrete set of frequencies (equal to 1 m of metrc signals passed through the path and the radio path under study, and the measurement of the results of the comparison, the radiation signal is formed in a discrete frequency array with a uniform frequency-linear and linear phase Oscillating spectra, a sequence of short video pulses with a temporal position that is not coincidentally with the same position of the working signals, and a repetition frequency "more than the width of the radio frequency path studied at the tsjennoy region, and the even current pulse of this sequence is input the radio path under study, compare the parameters of the received signals by subtracting the pulses of the output responses to the effects of the even-numbered KOpOTjcHx pulses from the outputs of the studied the adiotrack and the zonal path, the pulse width response and the pulse response of the reference path for each odd short pulse are measured across the width of the spectrum, and the ratio of amplitudes normalized by the spectrum of the difference pulse response and the pulse response of the reference path at the time determined by the temporal the position of the first maximum of the impulse response of the reference path.

The drawing shows a diagram of the device that implements the method ,,

The device consists of a generator of short video pulses connected to the reference path 2 and the studied ratiot path 3, the outputs of which are connected to the inputs of the differential device 4 connected through filter 5 to the indicator 6, and the control inputs of the generator 1 and indicator 6 are connected to the clock 7,

The device works as follows

The generator 1 of short video pulses forms two sequences of short video pulses with equal amplitudes and identical initial phases, the width of the spectrum of which is larger than the studied frequency band of the radio path. The reference path 2 receives a sequence of pulses with a repetition frequency lower than the passband of filter 5, and the radio path 3 under study receives only every even pulse of this sequence. From the outputs of both paths 2 and 3, the pulse responses for each even short pulse arrive at the inputs of difference device G. 4, where the vector subtraction of the spectral components of these responses takes place. The impulse response of the reference path 2 for every odd short pulse passes through the differential device 4 without change. Filter 5 limits the response spectra to the studied radio path band 3, and indicator b measures the ratio of the amplitudes normalized by the spectrum of the differential impulse response and the impulse response of the reference path 2 at the time determined by the temporal position of the first maximum of the impulse response of the reference path and given by the clock 7, Value this ratio is proportional to both the differential phase-frequency and relative amplitude-frequency characteristics of the compared paths 2 and 3,

The use of the invention makes it possible to shorten the measurement time, since only one time reference is sufficient to measure the resulting ratio, which characterizes the state of the radio paths. In addition, the method allows measurement and control of radio paths without removing the latter from the operating mode, since the measuring and operating signals differ in their temporal position.

Claims (1)

Invention Formula A method of measuring the characteristics of radio paths, consisting in forming a measuring signal in the form of a discrete set of frequencies, comparing parameters. signals transmitted through the reference path and the radio path under study, and measurement of the comparison results that distinguishes with the fact that, in order to shorten the time and measure by evaluating the state of the radio paths by one integral characteristic, the measurement signal is formed as a discrete set of frequencies with 1 amplitude-frequency and linear phase-frequency spectra, in the time domain, a sequence of short video pulses with a temporal position is not compatible with the temporal position of the working signals And repetition frequency is not more than the bandwidth of the radio frequency investigated. The signal is fed to the input of the reference path and every even pulse of this sequence — to the input of the radio path under study, the parameters of the received signals are computed by subtracting the pulses of the output responses to the effects of each even short and pulse from the outputs of the radio path and the reference path under study. the response and impulse response of the reference path to each odd short pulse, and the ratio of the amplitudes normalized by the spectrum of the differential impulse off is measured ka, and the impulse response of the reference path at the time defined by the temporal position of the first peak of the impulse response of the reference path, Sources of information taken into account in the examination 1, USSR Author's Certificate 435491, cl. G 01 R 29/00, 1972,