SU63530A1 - Noise analyzer - Google Patents

Description

As is well known, in a noise analyzer with visual observation built on the principle of frequency conversion, the frequency reproduction accuracy depends on the filter's bandwidth. The smaller it is, the more accurately you can analyze the spectrum under study. However, at a given analysis time, i.e., at a given rate of change of the frequency of the non-random frequency generator entering the analyzer, the filter band cannot be reduced unlimitedly. As the analysis shows, in order for non-stationary processes in the filter to not introduce large errors in the measurement, the ratio, / ;; must be not less than one, where F is the filter bandwidth, T is the rate of change of frequency.

This circumstance greatly reduces the possible accuracy of the analysis in the noise analyzer.

Her invention relates to a noise analyzer with a visual observation of the frequency spectrum, in which, in order to increase the accuracy of the analysis, two filters with fixed tuning frequencies are used, differing from each other

friend at a frequency equal to half of the studied frequency range; these filters are connected to the indicator via an automatic switch having a switching frequency many times higher than the frequency of the sweep, and serving to displace individual parts of the frequency spectrum under study relative to each other.

The invention is illustrated in the drawing, which shows a skeleton c. Schema of a visual noise analyzer, where indicated; 1 — input device, 2 — converter, 3 — variable frequency generator, 4 — filter I, 5 — filter II, 6 — switching device, 7 — cathode tube, 8 — sweep generator, and 9 — control circuit for periodically changing the frequency of the generator .

The principle of the device is as follows. The whole range of frequencies under study is divided into two equal parts. At the output of converter 2, two filters 4 and 5 with a fixed tuning are set, the frequencies of which foj and fQ ,, differ from each other by half the range of the spectrum under study. Frequency generator 3 variable frequency periodically measuredV

foi + - - then applied from o1 to

the voltage on filter 4 will correspond to the amplitude of the components of the first half of the range under study and at the same time the voltage of filter 5 will correspond to the amplitude of the components of the second part of the range. The voltage from both filters is supplied to a switching device 6, which automatically turns on the voltage of one or the other filter on the oscilloscope plate 7, creating a corresponding displacement of the displayed spectra relative to each other. It should be noted that, in order to obtain the analysis time gain we are interested in, it is necessary that both spectra be represented on a day, in order for the switching frequency of the switching device to be many times greater than the frequency of sweep of the generator.

When sampling the frequencies of both filters, it is necessary to provide that the differential and total frequencies of the variable frequency generator and both halves of the studied spectrum do not overlap each other.

The present invention makes it possible to double the analysis time or, equivalently, to increase the analysis accuracy by анализа 1.41 times.

Subject invention

Shu.m analyzer with an input device for converting noise into electrical oscillations and with visual observation of the spectrum of the studied frequencies using an indicator to which these oscillations are supplied, on the one hand, through a frequency converter and filter, and on the other, through a variable frequency generator and generator sweep, characterized in that, in order to increase the accuracy of the analysis, the above filter is composed of two elements, the fixed settings of which differ by a frequency equal to half of the di frequency range, and which are adventitious to the ipdicator via an automatic switch operating at the switching frequency, which is often glutting to the sweep frequency, which serves to displace individual parts of the studied frequency spectrum relative to each other.