SU1555654A1 - Method of determining parameters of unstationary objects - Google Patents

Abstract

The invention relates to radio measurements. The purpose of the invention is to improve the measurement accuracy. The essence of this method is explained by a device in which for synchronous measurements of the intensity of the intrinsic and scattered radiation of a non-stationary object (BUT) with the help of Mr 2 of the probe signal (ES) and modulator 1, an ES developed by a meander with a modulation period is produced shorter characteristic time of state change BUT. Then, attenuators 4 and 7 set the optimum power level of the ES and the sensitivity of the measuring receiver 8, respectively, so that the maximum expected sum of self and scattered radiation BUT corresponded to the full scale of the osphilograph 9 and was recorded without distortion. In the zone of radiation and reception of the AP by antennas 5 and 6, the test HO 10 is generated, which can be, for example, a low-threshold collective optical discharge created by a laser in an aerosol medium. The oscilloscope 9 records oscillograms corresponding to the sum of its own and scattered in the forward direction of the radiation. In this case, the intensities of the intrinsic and scattered radiations correspond to the amplitudes of the unmodulated and modulated meander signal. The magnitudes of these amplitudes are measured by comparison with the amplitude of the calibration signal. 1 il.

Description

The invention relates to a technique of radiophysical measurements, in particular to methods for measuring the intrinsic and scattered radiation of non-stationary objects at ultrahigh frequencies, and can be used in laboratory studies of high-frequency discharges in electromagnetic fields, shock waves and other non-stationary objects that do not save the course of time its statistical parameters.

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

The drawing shows an electrical structural diagram, a device with which the proposed method for determining parameters of non-stationary objects can be implemented.

The device consists of a modulator 1, a probe signal generator 2, a ferrite valve 3, an attenuator 4 and 7, antennas 5 and 6, a measuring receiver 8, an oscilloscope 9, and a camera with the object under study 10.

A device that implements the method of determining the parameters of non-stationary (objects, works as follows.

For synchronous measurements of the intensity of the intrinsic and scattered radiation of a non-stationary object, using the probe 2 generator 2 and modulator 1 produce a probe signal modulated by a meander with a modulation period much shorter than the characteristic time of the change in the state of the non-stationary object. Then attenuators 4 and 7 set the optimum power level of the probing signal and sensitivity of the measuring receiver 8, respectively, such that the maximum expected

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The sum of the intrinsic and scattered radiation of a nonstationary object would correspond to the full scale of the oscilloscope 9 and be recorded without distortion. In the zone of radiation and reception of the probing signal, antennas 5 and 6 generate the object under study 10. The object may be, for example, a low-threshold collective optical discharge created by a laser in an aerosol medium. The oscilloscope 9 records oscillograms corresponding to the sum of its own and scattered in the forward direction of the radiation. In this case, the intensity of self-radiation corresponds to the amplitude of the unmodulated, and the intensity of the scattered radiation, the amplitude of the modulated meander signal. The magnitudes of the signal amplitudes are measured by comparison with the amplitude of the wave signal.

Claims (1)

Invention Formula The method of determining the parameters of non-stationary objects, which consists in irradiating a non-stationary object with a probe signal, measures the amplitudes of the scattered and self-radiation of a non-stationary object, which determine its parameters, characterized in that, in order to increase the accuracy of measurement, the probe signal is modulated in amplitude by a meander with a modulation period much shorter than the characteristic time of a change in a non-stationary object, and the power of the probing signal is chosen commensurate with the power of its own and radiation of non-stationary object.