SU114500A1 - Interference analyzer - Google Patents

Description

Separate attempts have been made to partially automate the obtaining of the probability distribution curve of ner-irregular processes, however, installations practically suitable for studying radio interference under conditions of a continuously varying “Medium-level field” have not yet been created. In the described noise analyzer, the task of directly measuring the likelihood of a voltage being supplied to it with an arbitrary waveform of a given level is solved by applying an indicator that reacts to the sign of the difference of two voltages, one of which is the required part of the peak signal voltage and is obtained from a peak detector having a graduated divider, and the other is removed from the detector reproducing the envelope of the high-frequency voltage under investigation.

FIG. 1 shows the block diagram of the proposed analyzer; in fig. 2 is a block diagram of an analyzer enabling automation of the process of obtaining probability distribution curves. As can be seen from FIG. 1, the interference analyzer consists of the high-frequency part of the high-frequency conventional interference meter (or any other source of the high-frequency voltage under investigation) and the measuring part containing two detectors: Mi and D2. Detector D; reproduces the input voltage envelope, and Da detector represents an accurate peak detector, which can be used as a conventional quasi-peak diode detector with a very small constant charge time and a sufficiently large constant discharge time. The output voltages of both detectors are folded with opposite polarity and, after appropriate amplification, are applied to the probability meter CB, which can be used as a multivibrator, electronic relay, electromagnetic relay, etc., i.e. measure the voltage time at its input by the average value of the output current, measured by the indicator. Regardless of the probability counter circuit, the average value of the output current of the serial 114500-- 2 is a linear function of the voltage time at the counter input, and this current is recorded by a magnetoelectric device - a probability indicator, graded in percent. Peak detector D2 is connected to the input of the probability counter CB through a graduated voltage divider DG, which is used to set any given level at which the probability is determined. The absolute value of the voltage under study at the reference level in the proposed analyzer is not fixed and, therefore, can vary within the same limits in which the linearity of all amplifier stages (and the detectors themselves) is ensured. The latter, however, does not exclude the possibility of connecting to the circuit another detector with a lamp voltmeter at the output for recording the "average value of the interference voltage, as is done in typical interference meters. Thus, the process of removing the probability distribution curve of irregular processes is reduced to a sequential change in the relative level (by switching a graduated divider) and recording the indications of a probability indicator.

The process of removing the probability curves over the points can be automated by applying a scheme (Fig. 2), by means of which it is possible to change the relative level with the help of a smooth divider D, the brush of which is driven by the motor M to rotate. cathode ray tube L on the horizontal axis. The vertical plates of this tube are energized from the output of the probability counter CB. Thus, on the screen of the cathode ray tube, the probability curve in normalized units is plotted.

Subject invention

Claims (2)

1. Interference analyzer for direct measurement of the probability of a voltage exceeding with an arbitrary waveform of a certain predetermined level, characterized in that an indicator is used to measure the measured value, which reacts to the sign of the difference of two voltages, one of which is the required part of the peak voltage. signal is received from the peak detector, which has a graduated divider, and the other is removed from the detector, which reproduces the envelope of the high-frequency voltage under study. 2. The interference analyzer according to claim 1, characterized in that, in order to automate the process of obtaining probability distribution curves, an electron-beam tube is used as an indicator, the sweep of the rays of which is synchronized with a continuous periodic change of the control level. hzT