SU714307A1 - Method of measuring amplitude-frequency error of phase meters - Google Patents

Description

The invention relates to radio-measuring technique and can be used to measure the amplitude-phase error of phase meters with a dy-g range of input signals. more than 15 dB and a constant value of the phase-frequency error in the frequency range + 2 1 O '*, where i is the measurement frequency. YU

A known method of measuring the amplitude-phase error of the phase meter, which consists in comparing the readings of the phase meter when measured at a fixed constant frequency. _ phase shift of two voltages at equal and unequal voltages at the inputs of the phase meter (1].

However, this method does not provide the necessary measurement accuracy, since the amplitude-phase error of the control circuit of the amplitude of the input signal is not excluded in it.

The aim of the invention is to improve the accuracy of measuring the amplitude-phase error in the extension of the frequency range.

To do this, in the method of measuring the amplitude-phase error of the phase meters by comparing the readings of the phaeo1 <· <· 2 · meter at equal and unequal voltages at the inputs of the phase meter and a fixed phase shift between them, the operation of comparing the readings of the phase meter is performed at different frequencies, the first, the phase meter reading fixed at a frequency corresponding to the intersection point; amplitude-frequency characteristics of a pair of mutually races. filters, and subsequent readings are fixed at frequencies corresponding to the given ratios of signal amplitudes at the input of the reference and measuring channels of the phase meter, set by changing the frequency and signal level, at the filter inputs.

The drawing shows a structural electrical diagram of a device that implements this method.

The device comprises a sinusoidal signal generator 1, an attenuator 2, mutually tuned filters 3, 4, a phase meter 5, a voltmeter b and a switch 7.

The essence of the method is as follows. The signal to both inputs of the phase meter is fed through a pair of mutually detuned filters and change often-G s

I.

This signal until the amplitude — “NYa ddak” of the reference and the yz'merite 'l'no channels of the Phasometer are equal. After that, the voltage amplitude is recorded at the input of the reference channel (and _op ) of the phase meter and its indication where% is the specified phase shift; ίΑ. / Γ · '' · basic error of the phase meter; ''

ΙΔ ^ is the phase-phase frequency error of the Phasometer,. By adjusting the amplitude of the input signal, keeping the amplitude of the signal at the input of the reference channel constant and equal to Uqn, change the frequency of the input signal to obtain the necessary amplitude at the input of the yoko meter of the phase meter channel and fix its reading · 'φ' ^ + Δ / ΡΙΔ ^ ίΑ ^> where Δ are the amplitudes of the no-phase and the error of the phase meter. ··

Due to strict linearity and parallel; the duration of the phase-frequency characteristics of the filters within the passband, the specified phase shift for a small change in the signal frequency is' a — the value is constant, therefore, u = const .. Since the change in the frequency-phase error within the frequency band $ 2 · 10 “4f can be neglected, considering the above, an amplitude and phase error faeomotra defined simply as the difference between his testimony YzMoPoNiepnacheniy'amplitudno ^F-4 "'' new 'phase meters prgroshnorty osuschostvlyaetsya structural scheme iz.obra * zhennoy'nachoetozho7' The `` signal '''of the sinusoidal signal torus 1 through the 7 attenuator 2 · and mutually detuned filters 3, 4 are fed to the input' of the phase meter 5, which are alternately connected to the voltmeter 6 with a switch, 7 ^: V. .J. V · _;

By changing the frequency of the generator of sinusoidal signals 1 and connecting the voltmeter 6 one by one, the equalizer is held constant 2, the voltage at the input of the reference channel is constant, by changing the frequency of the generator of the sinusoidal signal, a predetermined voltage ratio is established at the inputs of the phase meter, and the phase meter readings are again recorded.

’The phase-amplitude error of a phase meter is defined as the difference in its readings.

ί "Using the proposed method for measuring the amplitude-phase error of the phase meter, in comparison with the existing ones, allows to increase the measurement accuracy by eliminating errors due to the influence of the amplitude-phase error of the amplitude control circuit and the input signal clear factor.

5.

Claims (1)

 1 - ;: -; The invention relates to radio and radiation equipment and can be used to measure the amplitude phase error of phase meters with a dynamic range of input signals of not more than 15 dB and a constant value of phase-frequency error in the frequency range of ± 2 10, where f is the measurement frequency . .: A method is known for measuring the amplitude-phase tolerance of phase L1tra, which consists in comparing the readings of phase 1me when measured at a fixed constant frequency; phase shift of two voltages at equal and unequal voltages at the inputs of phase meter 1. However, this method does not provide the necessary measurement accuracy, since it does not exclude the amplitude-phase error of the amplitude control circuit of the input signal. The aim of the invention is to improve the accuracy of measuring the amplitude-phase error in the extended frequency range. To this end, in the method of measuring the amplitude and phase error fazomet trench by comparing readings phasemeter for equal and unequal voltages on the inputs fazszmetra and fiksirovanHotii phase shift between readings comparing step phasemeter produced at different frequencies, the first 1 reading phase meter is fixed at a frequency sootvotstvunltsoy the intersection point of i-amplitude-frequency characteristics of a pair of The built-in filters, and subsequently, the readings are recorded at frequencies with the response of TVs at their specified ratios of signal amplitudes at the input of the reference and measuring channels of the phase meter, which are set by changing the frequency and signal level at the inputs of the filter. . The drawing shows a structural electrical circuit of the device implementing this method. The device contains a generator of sinusoidal signals 1, an attenuator 2, mutually rasterized filters 3, 4, a phase meter 5, a voltmeter b and a switch 7. The essence of the method is as follows. The signal to both inputs of the phase meter is fed through, a pair of mutually frustrated filters and change the signal frequency until the amplitude 1Y On 1 | Hod5c of the fundamental and Yzmyo of the Fasmetr channels is equal. Then, the voltage amplitude is recorded at the input of the reference channel (op) of the phase meter and its indication “f-t &amp; CPiug,: where sz is the specified phase shift, the main error is phase-. ; : meter). - - frequency-phase error.;. ;; / ;. . n-phase meter,. ".. ,,.;. By adjusting the amplitude of the input signal, keeping the signal amplitude on the inside of the reference channel constant and equal to Uon I, the frequency of the input signal is changed until the required signal is obtained: the amplitude at the input kaHa of the phase meter and its reading is ± A, “o-1” 5 where AS - ip-Phase error of the meter; the strength of strict linearity and parallelism (the phase-frequency characteristics of the filters within the transmission band, the specified phase shift is small change in the frequency of the signal The value is constant, therefore, the const lgC. Since the change in the frequency-phase error within the frequency band i2 is negligible, The above phase error of the phase meter is simply defined as the difference in its readings. The values of amplitude phase phase error of the phase meter are as follows, from. The signal from the generator of sinusoidal signals 1 through attenuator 2 and mutually frustrating filters 3, 4 is fed to the inputs of phase meter 5, which are alternately connected to the voltmeter 6 switches, 7. .. D By changing the frequency of the sinusoid generator signals 1 and alternately, the BOjfeTMeTp 6 key is set equal to the highest levels at the inputs of the phase-meter 5. They are fixed by the poje-eani.With the attenuator 2, the voltage at the input of the reference channel is constant, and the frequency of the sinus-shaped signals is set by changing given the relation of the voltages at the inputs of the phase meter, and again fixing the phase meter reading, the amplitude-phase error of phase meter is defined as the difference of its readings. Using the proposed method of measuring the amplitude-phase error of the phase network, compared to existing ones, makes it possible to increase the measurement accuracy by eliminating errors / caused by the influence of the amplitude-phase error of the amplitude control circuit and the clear factor of the input signal. The invention of the method for measuring the amplitude-phase error of phase meters by comparing the phase meter readings at equal and unequal voltages at the phase meter inputs and fixing the phase shift between NIMI and that with the aim of increasing the accuracy of measurement comparing the readings of the phas / etra prod: -1ts at the critical frequencies, the Tsurvoe reading of the phase meter being fixed at a frequency corresponding to the intersection point of the amplitude-frequency characteristics of a pair of mutually frustrated fUeTres, and the subsequent The readings are recorded at frequencies corresponding to the assignments of the amplitude ratios of the e1 signals on the reference and measurement channels of the phase meter, which are set by changing the frequency and level of the signal inputs of the filters, Information sources taken into account in Examination 1, KolMAx API. Development and research of methods and means of verification of phase-measuring equipment in the range of UHFs. on the competition Degree, degree to-tech, science. Novosibirsk, 1973 C, 96, h -