SU628446A1 - Shf range frequency fluctuation measuring arrangement - Google Patents

Description

The invention relates to an instrumentation technique and can be used in constructing an instrument for measuring fluctuations in the frequency of a microwave signal.

A device for measuring is known.

signal frequency fluctuations, consisting of a frequency discriminator, a phase modulator, a calibration generator, a spectrum analyzer, and a Tl transmitter. The device is characterized by the impurity measurement by measuring the spectrum due to the non-uniformity of the frequency response of the measuring path — the resonator, the equalizer, the spectrum analyzer, since these devices are calibrated at one point of the analyzed range. A known level meter of amplitude and frequency noise generators of microwave SKZ-1O, containing a frequency discriminator and spectrum analyzer 2j. A phase modulator and a calibration generator are used to calibrate the device, with the help of which it is investigated. My microwave signal is phase modulated. Thus, a calibrated pilot signal is introduced into the spectrum of the signal under study. Relative to the pilot level, the noise voltage level is counted. In the SKZ-1O meter, the calibration is performed at one frequency of the analyzed range, therefore, the accuracy of determining the level of the noise signal in the range is low.

Claims (2)

 The aim of the invention is to improve the measurement accuracy. This is due to the fact that the device contains a phase detector, the first input of which is connected to the first output of the directional signal divider through the pass-through resonator and phase modulator, the second output of which is connected to the second input of the phase detector, the calibration generator and the serially connected multiplier , ({ml, detector, and indicator, microwave generator, the output of which is connected to the input of the directional signal divider, introduced a tunable generator and a balanced modulator, whose output It is connected to the control input of the phase modulator, the first input of the balanced modulator is connected to the output of the calibration generator, and the second input of the balanced modulator is connected to the output of the tunable generator and the first input of the multiplier, the second input of which is connected to the output of the phase detector, and The multiplier is connected to the input of the filter. The drawing shows the functional diagram of the proposed device. It contains a microwave generator 1, a directional divider 2 signals, a phase modulator 3, a phase shifter 4, a pass-through resonator op 5, phase detector 6, multiplier 7, tunable generator 8, filter 9, detector Yu, indicator 11, balanced modulator 12, and calibration generator 13. The signal from the investigated microwave generator 1 is fed through a directional divider 2 and a pass-through resonator 5 and the input of the phase detector 6. The noise signal from the output of the phase detector 6 enters one of the inputs of the multiplier 7, the second input of which receives a sinusoidal signal from a tunable generator 8, through a filter 9 passes the components of the flash signal enclosed in the range F ti ,, - ,. where} - „is the frequency of the tunable generator S; p is the cutoff frequency of the filter. The components of the noise signal passing through the filter 9 are fed to the detector 1O, in which a constant voltage is proportional to the power of the noise voltage (the quadratic detector or the detector of effective values can be used as the detector 10). A constant voltage from the load of the detector 1O is supplied to the indicator 11. In the calibration mode, a sinusdale signal from the tunable generator 8 is fed to one of the inputs of a balanced modulator 12, to the other input of which a signal is sent from the calibration generator 13 in the form of a sinusoidal or noise voltage, From the output of the balanced modulator 12, a pair of signals with frequencies -yj 1 Pc (in the case of a sinusoidal signal from the calibration generator) is fed to phase modulator 3. Frequency P (choose from condition P "I, where is the average frequency of the phylo 9, of the sinusoidal calibration signal or the average frequency of the noise 1A. In the spectrum of the signal under investigation, as a result of phase modulation, two regular signals appear, which after detection and multiplication with frequency r and fall into the transparency band of the filter 9. The level of the regular components depends on. module / ruego signal from the output of the balanced modulator 12 and from the slope of the modulated characteristics of the phase modulator 3, Thus, the signal from the generator 13 automatically in the entire analysis range falls into the bands 9. In the transparency detection filter Sbtdel load 10 is a DC voltage proportional to the total power of the two molecular weight regulator components. Relative to this level, the level of the noise signal is counted. The proposed device provides simple calibration over the entire range, which improves the accuracy of the noise signal level in the analysis range, since such calibration helps to eliminate the error component due to the uneven frequency response of the measuring path. The invention The device for measuring the frequency fluctuations of the microwave frequency band-1, containing a phase detector, the first input of which is connected to the first output of the directional signal divider through the pass-through resonator and phase modulator, the output of which is connected to the Second input of the phase detector, calibration generator, as well as series-connected multiplier, filter, detector., and indicator, microwave generator, the output of which is connected to the input of the directional signal divider, which is In order to improve accuracy, a tunable generator and a balanced modulator are introduced in it, the output of which is connected to the control input of a phase modulator, the first input of a balanced modulator is connected to the output of a calibration generator, and the second input of a balanced modulator is connected to the output of a tunable generator and to the first the input of the multiplier, the second input of which is connected to the output of the phase detector, and the output of the multiplier is connected to the input of the filter. Sources of information taken into account in the examination: 1. USSR author's certificate number 389467, cl. q 01 E 23/12, 1973. 2. Technical description of the level meter of amplitude and frequency noise of microwave generators RMS-1O.