SU1689880A1 - Method of determining side radiation of antenna - Google Patents

Abstract

The invention relates to the technique of antenna measurements, namely to the measurement of the antenna radiation pattern in the presence of reflections. The aim of the invention is to improve the measurement accuracy. The method of determining the lateral radiation level of the antenna is implemented by a device consisting of a generator 1 connected to the auxiliary antenna 2, a receiver 3, whose input is intended to connect the antenna under study 4 mounted on a rotary stand, on which the bracket is fixed 6 with a movable carriage 7 with a reflector 8 placed on it. The method is based on the fact that when the carriage 7 of the reflector 8 moves, the phase of the signal due to the dispersion of the microwave power by the reflector 8 changes. at the location of the antenna 4. In one case, this signal is received by the measured side lobe of antenna 4, the main maximum of which is directed to antenna 2. At the output of antenna 4, the signal directly radiated by antenna 2 and the signal diffused by reflector 8 interfere. the resulting signal is determined by the levels of these signals and the relative magnitude of the side radiation. Wire similar measurements in the case when the main maximum of the antenna pattern 4 is directed to the reflector 8, and the measured side lobe to the antenna 2, and processing the results of these two measurements, determine the level of lateral radiation. 1 il. (L S Os 00 che 00 00 about

Description

This invention relates to a technique of antenna measurements and can be used to measure side lobes of the radiation pattern in anechoic chambers.

The purpose of the invention is to improve the accuracy of measurements in the presence of interfering reflections.

The drawing shows a block diagram of a device that implements a method for determining the lateral radiation level of an antenna,

The device comprises a generator 1 connected to an auxiliary antenna 2, a receiver 3, the input of which is intended to connect the test antenna 4, a rotation unit 5 with the possibility of fixing the test antenna 4, a bracket 6 with a movable carriage 7 on which a reflector 8 is mounted.

The method is implemented as follows.

Orient the antenna under test 4 with the maximum radiation pattern on the auxiliary antenna 2 and, using block 5, deploy the bracket 6 with the carriage 7 fixed on it with the reflector 8 mounted on it so that the measured lobe of the radiation pattern is directed to the reflector 8. Moving the reflector 8 in the direction of the test antenna 4, using the carriage 7, fix the maximum Umax and the minimum 1 Nmin values of the signals, which are used to calculate the spatial coefficient of the standing wave Ki, using the receiver indicator 3:

Ki

Ui

Ui

min

Then, do not change the position of the reflector 8, with the help of block 5, the tested antenna 4 is oriented so that the maximum of the radiation pattern and the measured side lobe are reversed, and moving the reflector 8 in the direction of the tested antenna 4 and fixing the maximum Uhmaks and minimum and 2min values signals at receiver output 3, the spatial coefficient of the standing wave 2 is determined:

U2

min

„U 2 max

of the antenna under test by 4 ratios

AR

to 1 + A R f (a) 1 1 -ARf (a)

+ f (a)

p5)

where A is the relative level of the radiation pattern of the antenna 2 in the direction of the reflector 8;

R is the reflection coefficient from the reflection of 0 bodies 8;

f (a.) is the relative level of the side lobe of the antenna pattern 4.

Solving a system of two equations, given that the values of A and R are the same in both of these equations, and excluding them, get

 Ki -1K2 - 1 0

five

0

five

0

five

0

f (") /

Ki + 1 K2 + 1

In the derivation, it was assumed that (a).

As the reflector 8 can be used a metal cylinder, a sphere or a flat screen.

Claims (1)

Claims The method of determining the lateral radiation level of an antenna, including measuring the signal at the output of a test antenna while moving a reflector, is characterized in that, in order to improve accuracy in the presence of interfering reflections, the test antenna is irradiated with an auxiliary antenna, orienting the maximum of the directional antenna on the auxiliary antenna, set the reflector in the direction corresponding to the position of the measured side lobe, the reflector is moved in the direction of fixing the tested antenna and fixing the minimum Ktmin and maximal values of the signals at its output, orienting the maximum radiation pattern of the tested antenna to the reflector and the measured side lobe to the auxiliary antenna, moving the reflector in the direction of the tested antenna and fixing the minimum 1) 2min and the maximum 112 max value of the signals at its output, and the relative level f (ω) of the lateral radiation is determined by the formula 55 f (a) Ki + 1 K2 + 1 Where