SU1700498A1 - Method for determining effective area of aerial - Google Patents

Abstract

The invention relates to microwave measurement techniques and can be used in radio astronomy, radio communications. The purpose of the invention is to improve the noise immunity. The method for determining the effective antenna area in the frequency range is as follows. A repetitive probe is irradiated monotonously with an amplitude-varying electromagnetic signal at the frequency f / n, where n is the number of the working harmonic. The probe is designed as an antenna with a non-linear load, in which the dependence of the total radiated power at the frequency of the working harmonic of the irradiating signal has a point at which the function describing these dependencies is discontinued or its derivative vanishes with a non-zero argument value. The signal re-reflected by the probe is taken by the antenna being investigated, and the signal power is fixed at its output at the same characteristic point of dependence of this power on time. These measurements are carried out for each of the predetermined frequencies of the investigated range. 1 il. (L

Description

yu

00

The invention relates to a microwave technique, namely to the measurement of antenna radiation patterns, intended to measure the effective antenna area in the frequency range and can be used in radio astronomy, radio communications, etc.

The purpose of the invention is to improve the noise immunity.

The drawing shows a structural electrical circuit of a device that implements a method for measuring the effective area of an antenna.

The device contains a probe 1 and an antenna under investigation 2, connected via a measuring receiver 3 to a recorder 4, a source 5 of an irradiating signal with an antenna 6 of a specific implementation, including a master oscillator 7, connected to one of the inputs of the attenuator 8, to another input of which control unit 9 is connected, output attenuator 8 is connected to

amplifier 10, the output of which is the output of source 5.

Probe 1 is designed as an antenna with a non-linear load, in which the dependence of the total radiated power at the frequency of the working harmonic of the irradiating signal on the flux density of the power of the irradiating signal contains a characteristic point where the function describing this dependence is discontinued or its derivative turns into null if the argument is continuous. In a specific implementation, probe 1 can be made, for example, in the form of a dipole or frame, loaded on a GI401 type semiconductor diode, for which the dependence of the total radiated power at the frequency of the second harmonic of the irradiating signal on the power flux of the irradiating signal has a pronounced maximum. The value of the total radiated power Pi of the diode, corresponding to this maximum, is determined during calibration or by calculation.

The method for measuring the effective area of the antenna is implemented as follows.

The probe 1 is placed at a fixed distance r from the antenna under study 2.

The probe 1 is irradiated with a monotonously varying electromagnetic signal at a frequency of fo / n. To do this, using a master oscillator 7, an electromagnetic signal is generated at the frequency W2 and is fed to the attenuator 8, to the control input of which the voltage from the control unit 9 smoothly varying according to a linear law is applied. The amplifier 10 amplifies the signal coming from the output of the attenuator 5, and radiates towards the probe 1 with the help of the antenna 6.

The electromagnetic signal at the frequency f0 is received by the probe 1 radiated in the direction of the antenna under investigation with the aid of the antenna under study 2.

The value of the received signal power is recorded at a characteristic point. For this

measured by the receiver 3, the signal at the output of the studied antenna 2 at the frequency f0, register its dependence in time using the recorder 10 and find

the maximum value of the received power P2 in this dependence.

The effective area A of the antenna 2 under study is determined at a frequency f0 by the formula A 4m2 Pa / Pi.

These steps are repeated for each given frequency range under study.

Calibration of probe 1 can be performed by performing the indicated actions on a single frequency for an antenna with a known effective area.

Claims (1)

Invention Formula The method of determining the effective antenna area, which includes irradiating the probe with an electromagnetic signal, receiving the antenna under investigation from the probe at frequency f, measuring the signal at the output of the antenna under study, and calculating the effective antenna area from the ratio of the radiated and received signals, in order to increase the noise immunity The probe is irradiated with an electromagnetic signal monotonically varying in amplitude at the frequency f / n, where n is the number of the working harmonic, and an antenna with nonlinear load, in which the dependence of the total radiated power at the frequency of the working harmonic of the irradiating signal on the power flux density of the irradiating signal has a characteristic point at which the function describing this dependence has a discontinuity, or its derivative vanishes with a nonzero value of the argument, while measuring the output of the antenna under study is performed at the same characteristic point dependence of this power on time. Yy