SU1029133A1 - Ppr meter of group lag time of two-port - Google Patents

Abstract

A PANORAMIC METER OF A NEW TIME LAYOUT FOR FOUR-POLES LAG, containing a sweeping frequency generator, two mixers, a follow-up local oscillator, a saw generator and an indicator, the first output of the sweeping frequency generator is connected to the input of the reference channel mixer and a subwoofer, and a one-dimensional transducer is connected to one of the main channels of the sweeping frequency generator. , the input terminal of the meter is connected to the input of the mixer of the measuring channel, the heterodyne inputs of both Nsme1) and the channel of the channel L mixers are combined and connected with the output of the following local oscillator, the first input of which is connected to the second output of the oscillating frequency generator, and the second input - with the first input of the oscillating frequency generator and the first output of the sawtooth voltage generator, the second output of which is connected to the synchronizing input of the indicator This is because, in order to improve the measurement accuracy while simplifying the meter, phase and synchronous detectors, a band-pass filter and a modulating frequency generator were introduced into it, and the outputs of the mixers of both als are connected to inputs of the phase detector, the output (A through which serially coupled bandpass filter and synchronous detector connected to an indicator, and the modulation frequency generator connected between the input vtormi gene-, Rhatore swept frequency .nogo and synchronous detector. pl

Description

The invention relates to a radio measuring technique and can be used to measure the group delay time (GDT) of two-port networks in a wide frequency range, in particular, on a microwave. A known four-port meter group meter contains a generator of ga mono oscillations, an amplitude modulator, a quadrupole under investigation, a modulating frequency generator, two mixers, an auxiliary frequency generator, two pole filters, and a phase meter. The meter operation is based on the use of amplitude-modulated harmonic oscillation. The principle of operation is to measure the phase difference of the envelope of the amplitude-modulated signal at the input and output of the four-pole 1 The disadvantage of the known meter is the impossibility of measuring the GW of microwave devices containing limiters when using a signal with amplitude modulation .. The closest to the proposed method is the panoramic meter A four-port motor starter set containing a sweep-frequency frequency (HKCH) heater, a follow-up local oscillator, two mixers and two frequency discriminators included in The measuring and measuring channels, as well as the subtraction unit, the differentiator, the divider, the sawtooth generator (FPG), the control unit and the indicator. The first output of the GCF is connected to the input of the mixer of the reference channel, and the quadrupole under study is included between the output of the SCI and the input mixer measuring channel. The heterodyne inputs of both mixers are combined and connected to the output of the next local oscillator, the first input of which is connected to the second output of the SFC, and the second input with the first input of the SSC and the first output of the FCN, the second output of which is connected to the second input of the indicator. In the moves of the mixers through the frequency dis. criminators are separately connected to the Benefits of the subtraction unit, the output of which is connected via a divider to the first input of the indicator. The differentiator is connected between the third output of the GCh and the second input of the divider, the third input of which is connected to the control unit, the other two outputs of which are separately connected to the FPG and the second input of the GCh. The second output G is connected to the input of the control unit, and the third output - to the clock input indicator. Panoramic meter GVZ four pole | It works as follows. The oscillating frequency generator generates a signal varying in frequency. Part of this signal is fed to the input of the studied quadrupole, and the other part of the signal is fed to the first input of the reference channel mixer. The output signal of the studied quadrupole, containing information about the measured TLD, is fed to the first input of the mixer of the measuring channel. The input signals of the mixers under the influence of the signal of the following local oscillator in the mixers are converted into intermediate frequency (IF) signals, which are fed to the inputs of frequency discriminators. The output signals of frequency discriminators, proportional to the derivative of the instantaneous phase of the output signals of the mixers, are sent to a subtraction unit, the output of which is a signal proportional to the product of the coefficient of the rate of change of the oscillating frequency tL and the measured value of the group delay. The output of the subtractor in the divider is divided by the coefficient csi, which is formed by the differentiator from the voltage of the switchgear and is fed to the second input of the divider. The divider output signal, proportional to the ratio of the difference between the instantaneous frequencies in the measuring and reference channels to the sweep rate variation rate factor, determines the TOT of the quadrupole under study and feeds the indicator to display the frequency response of the TOT. The control unit synchronizes the operation of the main control unit, the state control unit and the divider, and the main control unit imposes a signal for frequency tuning of the following local oscillator 2 3 The disadvantage of this device is the dependence of the accuracy of measurement of the GDT on the frequency linearity; At the same time, in order to achieve the required accuracy of measurement of the GDT, there are strict requirements to the linearity of the frequency response of the GCB. For example, in the working frequency range of 0.5-1300 MHz with a non-linearity of the frequency characteristic of the GCh 1%, the measurement error of the GDT is 1 not. The aim of the invention is to improve measurement accuracy while at the same time simplifying the meter. This goal is achieved in that the panoramic four-terminal delay group time meter, containing a sweeping frequency generator, two mixers, a follow-up local oscillator, a sawtooth voltage generator, and an indicator, the first output of the sweeping frequency generator and connected to the output terminal for connecting the tested quadrupole, input terminal

Claims (1)

. FOUR-POLE PANORAMIC GROUP DELAY TIME METER, comprising a sweep frequency generator, two mixers, a local oscillator, a sawtooth voltage generator and an indicator, while the first output of the sweep frequency generator is connected to the input of the reference channel mixer and to the output terminal for connecting the analyzer / four-pole connected to the input of the mixer measuring channel, and the heterodyne inputs of both. mixers are combined and connected to the output of the tracking oscillator, the first input of which is connected to the second output of the oscillating frequency generator, and the second input to the first input of the oscillating frequency generator and the first output of a sawtooth voltage generator, the second output of which is connected to the synchronizing input of the indicator, and especially with the fact that, in order to increase the accuracy of measurement while simplifying the meter, into it _; phase and synchronous detectors, a band-pass filter and a modulating frequency generator are introduced, the outputs of the mixers of both channels being connected to the inputs of a phase detector, the output of which through a series-connected band-pass filter and a synchronous detector is connected to the indicator, and the modulating frequency generator is connected between the second inputs of the generator oscillating frequency and synchronous detector.