SU415616A1 - - Google Patents

Description

one

The invention relates to the field of antenna measurements.

Devices for measuring isolation between antennas and the amplitude-phase distribution of the microwave field are known, which consist of a source of microwave oscillations, a receiver and adjustment elements in each channel of the antenna system. These devices provide, when determining decoupling, a measurement of the power that seeps into the receiving channel of an adjacent ("idle for radiation") antenna and compare it with the amount of power at the input of the "working antenna." In determining the amplitude-phase distribution, the field is measured in close proximity to the aperture of the antenna system by scanning the plane with a sensitive receiver.

However, the known devices did not allow the measurement of isolation completely between antennas, in addition, it is impossible to separately record the signals of the working and adjacent ("non-working) antennas, measure the radiation characteristics of the antenna operating as part of the antenna system, measure the radiation characteristics of the neighboring ( "Idle" antenna; make similar measurements in the actual design of the antenna system; measurement of the amplitude-phase distribution of the microwave field IB of apertures of antenna systems by known devices is associated with a number of hardware difficulties, the recording time of the amplitude-phase distribution is large.

In order to provide an opportunity for measuring antenna unbundling and amplitude-phase distribution of the microwave field directly in the actual design of the antenna system, a low-frequency generator and a low-frequency switch, the output of which is connected to one of the adjusting elements, and the input to the low-frequency generator are added to the proposed device.

The drawing shows a block diagram of the proposed device.

The proposed device contains a microwave generator 1, a working antenna 2, an adjacent (“idle) antenna 3, a low frequency generator 4, a low-frequency switch 5, adjusting elements 6, a receiving antenna 7, a multiplier 8, a low frequency amplifier 9 and an adjusting phase shifter ten.

The device works as follows.

The microwave signal from the oscillator 1 operating in continuous oscillation mode is fed to the input of the antenna 2. The microwave is not fed to the input of the antenna 3 of the microwave. From the generator 4 low frequency (Q) through the low-frequency coMMutator 5 serves the modulating signal alternately to the adjusting elements 6.

The modulated signal is alternately received by antenna 7 and the receiver input 1 is transmitted to the receiver 8. The input signal is also supplied with a reference signal, which is directly connected from the microwave generator. From the receiver output of the multiplier signal, a signal is fed to the input of the low-frequency amplifier 9 tuned to Q. With the help of the adjusting phase shifter 10, the received signal is adjusted to the maximum.

The received signals from Aptenn 2 and 3 are compared with each other and determine the separation between the antennas due to the mutual influence. The radiation characteristics of an antenna operating as part of an antenna system are measured by the fixed antenna method. In the same way, the radiation characteristics of an adjacent ("idle) antenna are measured. To increase the sensitivity of the device, a reference wave channel is used. As a result, the signal at the output of the low-frequency amplifier looks like

  to a i / on COS (f, - srop) - COS 2 ,. . .

where / С-coefficient of proportionality;

f / A is the amplitude of the signal of the measured antenna;

op is the amplitude of the reference wave signal;

(ph-background) is the phase difference between the signals of the reference and measured wave;

cos Qt - low frequency modulating function.

When measuring the distance between the antennas, choose a sufficiently large level of the reference signal: a, significantly increase the sensitivity of the device. When measuring the amplitude-phase distribution in the aperture of the antenna system, a holographic method is used to obtain these distributions using a microwave hologram, if Ua, and hence t / o, is a function of the coordinates in the aperture of the antenna system. Such a functional dependence is obtained by alternately connecting to the audio frequency generator various antennas that are part of the entire system, marking the number or position of the corresponding antein in space.

Subject invention

Device for measuring isolation between antennas and the amplitude-phase distribution of the microwave field, consisting of a source of continuous microwave oscillations, a receiver and adjustment elements in each channel of the antenna system, characterized in that, in order to measure the possibility of measuring directly in real design antenna system, additionally introduced low-frequency generator and low-frequency switch, the output of which is connected to one of the adjusting elements, and the input to the low-frequency generator.