SU957126A1 - Method and device for measuring damping - Google Patents

Description

(54) METHOD FOR MEASURING DROP DETERMINATION AND DEVICE FOR ITS IMPLEMENTATION

The invention relates to the field of measurement technology and can be used to measure attenuation in a wide range of measurements.

A known method of measuring attenuation, according to which a signal is fed to the input of two serially connected matched measuring lines, the signal power level in both lines leads to the same value, which is fixed. Between the measuring lines, the measured attenuation is switched on and the signal level is set, at which the initial value of the signal power level is restored at the output of the second measuring line. The value of the signal power level increments is considered the measure of the measured attenuation 1.

The disadvantage of this method is low sensitivity and greater measurement accuracy.

The closest to the technical solution and the effect achieved is the proposed replacement method, in which a certain signal level is established at the output of an exemplary attenuator, the measured attenuation is successively included with the exemplary attenuator, the attenuator of the exemplary attenuator is reduced until the initial level of the output signal is restored and The limiting value of the measured attenuation 2 is determined from the limb of the model attenuator.

However, the known method does not have a sufficiently high sensitivity, it has a large measurement error of large attenuations (more than 100 dB) and a small measurement range.

The purpose of the invention is to increase the sensitivity, reduce the measurement error, 5 generate large attenuations and extend the measurement range.

This goal is achieved by the fact that, according to the attenuation measurement method, which consists in that a signal is sent to the input of the measured level, the signal level is recorded at the output of the measured attenuation, instead of the measured attenuation, an exemplary attenuator is reproduced weekend

the signal, the limiting value of the measured attenuation is determined by the limb of the sample attenuator, a discrete signal is output to the input of the measured attenuation (reference attenuator) at the output of the measured attenuation (reference attenuator), the discrete signal is mixed with noise, and the comparison of the measured attenuation with the sample attenuator is made the same probability value for incorrect reception of single symbols of discrete signals.

The method does not impose restrictions on the magnitude of the measured attenuation. The magnitude of the measured attenuation is limited by the spatial separation between the generator and the demodulator.

A device that implements the proposed method containing serially connected discrete signal generator, a first decoupling attenuator, an exemplary attenuator, a second decoupling attenuator, are in series connected noise generator, a directional coupler, a discrete signal probability recorder, and a second input of a directional the coupler is connected to the output of the second decoupling attenuator.

The drawing shows a block diagram of the device that implements the proposed method.

The device contains a discrete signal generator 1, a decoupling attenuator 2, an attenuation to be measured (or an exemplary attenuator) 3, a second decoupling attenuator 4, a directional coupler 5, a demodulator and a recorder of incorrect reception of a single symbol of discrete signals b, noise generator 7. At that, discrete signal generator 1, decoupling attenuator 2, measured attenuation (or exemplary attenuator) 3, second decoupling attenuator 4, directional coupler 5, demodulator, and recorder of incorrect reception of a single discrete signal symbol 6 are connected in series, generator 7 noise is connected to the second input of the directional coupler 5.

The recorder of the probability of incorrect reception of a single symbol of a discrete signal is a simple logic circuit. The principle of operation of one of these schemes lies in the following. The discrete signal from the output of the demodulator and the modulator output of the generator of discrete signals are summed over rnod 2, the result of the sum is recorded by a counter with a certain counting exposure.

The attenuation meter works as follows.

The measured attenuation is included in the measurement path. At the output of the generator,

modulated by a discrete function, and at the output of the oscillator, a signal-to-noise ratio is established, at which the probability of incorrect reception of a single symbol of a discrete signal is 10 -10. It is practically convenient to use the discrete modulating function with a clock frequency of 0.1-10 MHz. The probability of incorrect reception of a single symbol is measured and recorded. Instead of the measured attenuation, an exemplary attenuator is included, with which the previously measured probability value of an incorrect reception of a single symbol is restored and the value of the measured attenuation is determined from the limber of the exemplary attenuator.

A device that implements the proposed method is relatively simple, a modern noise generator is a miniature, simple and reliable device that requires the simplest

The power source, demodulator, and probability recorder for incorrectly receiving a single character of a discrete signal, performed on elements of a discrete technique, are also simple and reliable.

5 The implementation of the proposed method and device will increase the sensitivity of measurements, reduce the measurement error of large attenuation values (more than 100 dB), and expand the range of attenuation measurements.

Claims (2)

1. The attenuation measurement method, consisting in that the measured attenuation input serves a signal, at the output of the measured attenuation, the signal level is fixed, instead of the measured attenuation, an exemplary attenuator is used to reproduce the previously measured output signal level through the sample base. the attenuator determines the magnitude of the measured attenuation, characterized in that, in order to increase the sensitivity, reduce the measurement error of large attenuations, extend the measurement range to the input of the measured attenuation (reference attenuator) serves a discrete signal, at the output of the measured attenuation (reference attenuator) the discrete signal is mixed with noise and comparison of the measured attenuation with the reference attenuator is performed according to the same probability of incorrect reception of discrete signal single symbols. 2. A device for implementing the attenuation measurement method according to claim 1, comprising sequentially connected discrete signal generator, a first decoupling attenuator, an exemplary attenuator (measured attenuation) and a second decoupling attenuator, characterized in that a sequentially connected noise generator is inserted into it, directional coupler and recorder of improper reception of single characters of discrete signals, and the second input of the directional coupler is connected to the output of the second decoupling attribute yuatora. Sources of information taken into account in the examination 1. Measuring technique on centimeter waves. Per. from ang. “Soviet Radio, 1947, p. 417-418. 2. GOST 8.249-77.