SU647619A1 - Reflection coefficient measuring method - Google Patents

Claims (1)

(54) METHOD OF MEASURING THE REFLECTION RATIO The device consists of a microwave 1 generator connected through a gate 2 to the main channel of the directional coupler 3, the antenna 4 connected to the main channel output. A calibrator 5 behind it is located. One arm of the reflection channel of the direction of the R5 is connected to the detector head 7 with the measuring amplifier 8, and to the other - the transformer of 9 impedances and the matched load 1O. The method is implemented as follows ..I. The signals reflected from the calibrator 5 and d; the sample to be measured 6, as well as from foreign objects (background), are fed to the input of the antenna 4 and are extracted with the help of a directional response 3 To select the background signal from the external reflections of the total signal reflected from the calibrator and measured sample, the latter are jointly returnable along the direction of maximum radiation. In this case, the readings of the measuring amplifier 8 vary in time with an amplitude proportional to the sum of which signal. In relation to the minimum value of the testimony of an izmer amplifier, to the closest in time to the maximum value of their Schroeder yut KBV. This eliminates the effect on the measurement results of a number of unknown device parameters, such as the magnitude of the measured power, transmittance of return signals, antenna gain, and attenuation in open space. Thus, the calibration process is combined with the measurement process. The measurement threshold is as follows. Calibrator 5 is installed in front of the measured sample 6 at a distance of 6, a multiple of about half wavelength A. The calibrator and the measured sample are brought into reciprocating motion. A change in the small limits of distance 6 achieves the greatest amplitude of oscillations of the readings of the emulsion amplifier 8. They determine the maximum and the maximum readings and their relative readings (IPM). Then, the distance C is set to approximately the raft length of the wavelength. Changing it to a small extent by returning the displacement of the calibrator and the sample to be measured, we achieve a smaller amplitude of oscillation readings of the measuring amplifier. Again, the extreme readings of the measuring amplifier and their ratio (KBV) were determined. Thus, the in phase and out of phase signals reflected from the calibrator and the sample being measured are selected experimentally. The value of the modulus and the QO phase of the measured sample is determined by the formulas / gj " p {l. "/ x / -kk A. The method allows the measurement of QO less than OO. (Across the field) 68: 3 of the decrease in tsknost. Claims of Reflection Measurement (CO), based on comparisons of reflections from a sample to be measured and a calibrator placed in front of it, when coaxially moving them along the propagation direction of a radio wave, characterized in that, in order to extend the lower limit of measurement QoS, while maintaining measurement accuracy, measure the traveling-wave coefficient (IPM) with the common mode; The correlation of the signals reflected from the sample to be measured and the calibrator is then measured by the IPM at their antiphase ratio, and the modulus and phase of the QF of the sample are determined from the expressions I. К-К rlj ii - (- i-}. Where Г | and constant values of the reflection and transmission coefficients caliber; K and K - IPM with the in-phase and anti-phase ratio of reflected signals; C: - .. 6 - distance between calibrator and the measured sample with the antiphase ratio of signals;,, /, Л - wavelength;. phase of the calibrator. Sources of information, take into account during the examination 1, USSR Author's Certificate No. 42O956, 6.01 TR 27 / O6 1973. 5 6