SU1617390A1 - Method of measuring directional pattern of aerial - Google Patents

Abstract

The invention relates to the field of antenna measurements and can be used to measure the radiation pattern of the antenna. The purpose of the invention is to improve the accuracy in measuring the antenna DN in the region of the main beam at a distance to the measuring probe, which is less than the distance to the border of the far zone. The method includes the radiation of an electromagnetic wave by the antenna under investigation (IA), its reception by a measuring probe (IZ) when it is moved around the AI at a given distance R * 98 R _min from it, R _min = 2D ² / λ, where D is the maximum size of the opening of the IA , λ - working wavelength

measuring the amplitude of the received signal A _R and the coordinates of IZ, the amplitudes of the received signal of the measuring probe A _R @ and A _R @ being measured at distances R ₁ and R ₂ from the EI to OUT at an angle Θ ₀ to the direction of the maximum of the main beam its DN, and R ₁ and R ₂ satisfy the relations R ₁ / R ₂ = R _min / R

R ₂ = 2D ² COS ² Θ ₀ / λ

and determine the unnormalized DN IA by f-le F () = A _R () ^. A _R @ / A _R @. In the process of measurements at distances x R√ _min DNI IA in the region of the main maximum, the measured amplitude value A _R (Θ) is corrected by measuring the amplitudes in the side lobe region at distances x R ₁ and R ₂ , and the distance R ₂ is equal to below the boundary of the far zone of the IA in the region of side lobes. 1 il.

Description

The invention relates to antenna measurements and can be used to measure the antenna radiation pattern (DN).

The purpose of the invention is to improve the accuracy in measuring the antenna DN in the region of the main beam at a distance to the measuring probe, which is less than the distance to the border of the far zone.

The drawing shows a structural electrical cxjMa device that implements the proposed method.

The device contains a generator 1, the input of which is an input for connecting the antenna under study 2, the measuring probe 3, the output of which is connected to the input of the receiver 4, while the measuring probe 3 can move around the antenna under study Z at a distance Γ from it, less to the far zone, and can be placed at distances x r and r 0t of the antenna 2 under study at an angle of 0 to the direction of its maximum DN.

The method of measuring the antenna DN is implemented as follows.

Before starting the measurements, the measuring probe 3 with the receiver 4 is placed in the side lobe region of the antenna pattern of the antenna 2 under study, first at a distance of r and then at a distance of r.

. V - 2Dicos26o.

tj r,,

de D - the maximum size of the open

of the antenna under study ;, /) (- working wavelength, At the indicated locations of the Iserial probe 3 with a receiver 4 la distances x and T from the aperture surface of antenna 2, is measured with | measuring probe 3 and determining the value of the ratio A. / A. In the future, proceed to measuring the DN, moving the measurement-) test probe 3 with the receiver 4 around the measured antenna 2 along the circumference of the radius r (0) at the output of the measuring probe 3 in each i-th measured point in the region of the main of maximum DN. In this case, the distance g and g should

satisfy the relation

2

 g min

| where g, d „„,

At the next measurement stage, the amplitude of the radiation signal is determined, which exists in the main maximum of the beam at a distance g DANI antenna 2 using the formula A (0) AFCQ) A, (&)

XAg2 / A-L1

When implementing the method, information is used on the degree of influence of the distance from the antenna to the probe on the measurement result, obtained by moving the probe in the area of the side DND arrays, where the distance H. H decreases, thereby determining the absolute the amplitudes of the signals at the probe output in the region of the main lobe of the DN of the measured antenna without forming

and

five

0 5

a quasi-flat floor at the real location of the probe,

This method of measuring the DND can be used to measure the absolute and relative radiation levels of antenna systems, it is advisable to use it when measuring antenna gain in a wide frequency range and other antenna parameters. The principle of reciprocity of transmitting and receiving antennas allows measure their parameters in this way when the probe is operating on the radiation and the antenna being measured is on reception.

Claims (1)

 Formula invented and A method of measuring the antenna pattern, including the radiation of an investigated electromagnetic antenna, receiving it by measuring when moving around the antenna, measuring the amplitude of the received signal Ap (b) and the angular coordinates of the measuring probe b relative to the direction maximum of the antenna pattern of the investigated antenna, and determining the pattern of the investigated the antenna according to the measurement results, about the tl and h a - y y and with the fact that, in order to improve the accuracy in measuring the direction diagram the antenna in the region of the main beam at a distance to the measuring probe, a shorter distance to the far zone, the amplitudes of the signal Ap received by the measuring probe, and At at distances x 1: and J from the measuring probe to the antenna being studied, respectively, are measured the angular coordinate of the measuring probe Oo R2,. 2U2cosf 6o g7 g and determine the irregular radiation pattern of the antenna under study by the formula F (9) A (e).  Shi  G .. m is the distance from the measuring- Call to the antenna under study; U is the maximum size of the aperture of the antenna under study ;; - working wavelength of the antenna under study. Domnea border