SU704902A1 - Device for measuring mean-square deviation of radio signal fluctuation - Google Patents

Description

one

The invention relates to a measurement technique and can be used in phase radio engineering.

A device for measuring the root-mean-square deviation of the phase phpuction is known, which contains an amplifier-limiter, an inverter, a driver of time interrupts, two AND schemes, an OR scheme, an average of the device circuit, and an indicator 1

The disadvantage of such a device is an increase in the measurement error with increasing frequency fluctuations due to phase fluctuations.

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

This is achieved by the fact that the device (measurement of the rms of the fluctuation of the phase of the radio signals, containing the amplifier-limiter and shaper of time intervals, the input of which is directly connected to the first input of the first element And through the inverter, the second inputs of the first and second elements And are connected respectively to the direct and inverse outputs of the time interval generator, and the output 1 of the first and second elements AND through the series-connected element OR and BL approx. averaging is connected to the indicator, a frequency divider and a frequency multiplier are entered, the inputs of the frequency divider and frequency multiplier are connected to the output of the amplifier5 limiting device, the output of the frequency divider is connected to the input of the time interval generator, and the output of the frequency multiplier is connected to the third inputs of the first and second elements AND.

The drawing shows a structural diagram of the proposed device.

A device for measuring the root-mean-square deviation of the phase fluctuation of radio signals includes a limiting amplifier 1, a divider 2 frequencies, a multiplier 3 frequencies, an inverter 4, a driver 5 time intervals, the first 6 and second 7 elements AND, the element OR 8, averaging unit 9 and an indicator 10. Device works as follows. The variable signal, the standard deviation of the fluctuation of the phase that needs to be determined, through the amplifier-limiter 1 is fed to the inputs of divider 2 and multiplier 3. The signal from the output of divider 2 is fed to the elements And b and 7 fPb Medium and through the inverter 4, as well as to the input of the inverter 5. From the output of the imaging unit 5, the pulse, the duration of which is chosen based on the independence of the phase fluctuations at the beginning and at the end of the chosen time interval, goes to the second inputs of elements 6 and 7 in antiphase. The division factor of divider 2 is chosen such that the duration of Iy1Pulse at the output of divider 2 in the absence of phase fluctuations would be. la would be equal to the duration of the pulse generated by the shaper 5. These pulses are sent to elements 6 and 7 in antiphase, therefore, at the input of the element OR 8 in the presence of phase frustration, a pulse is formed, the duration of which is equal to the difference of the durations formed by divider 2 and shaper 5 When the specified time interval is filled with pulses from the output of the carbon body 3 at the output of the element OR 8, the bundle of pulses, the number of which ™ is generated by the duration of the formed pulse and the instantaneous value of kib The frequency of the pulse following on the multiplier output is 3. A signal proportional to the change in the initial phase of the radio signal is received at the input of block 9 for a time interval equal to the sampling interval. By changing the division factor of divider 2, and, consequently, the pulse duration at the output of shaper 5, one can achieve independence of the readings of the initial phase change during the sampling interval. So Thus, introducing a frequency divider and a frequency multiplier into a known device allows determining the root-mean-square deviation of the phase fluctuations with greater Accuracy as the frequency fluctuations increase. The formula for measuring the mean square deviation of the phase fluctuations of radio signals has been acquired, containing a limiter and a time interval shaper, the input of which is connected to the first input of the first I element and directly to the first inputs of the second element I through an inverter, the second ones. the inputs of the first and second elements And. connected to the direct and inverse outputs of the time interval shaper, and the outputs of the first and the first elements AND through the series-connected element OR and the averaging unit are connected to an indicator, characterized in that it is equipped with a frequency divider and a frequency multiplier; by entering the frequency divider and frequency multiplier inputs are connected to the output side of the loudspeaker, the output of the frequency splitter is connected to the input of the time interval generator, and the output of the multiplier is you are connected to third inputs of the first and second elements I. Sources of information received note in the examination 1. Copyright certificate USSR № 601631, cl. From 01 R 25/00, 1977.