SU1358022A1 - Radar reflector - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to increase the effective scattering surface and narrow the effective reflection frequency band. The reflector contains hollow conductive cylinders 1 with longitudinal slots 2. An electromagnetic wave incident on the reflector excites both the space between cylinders 1 and their cavities due to the presence of longitudinal slots 2. The goal is achieved by rapidly decreasing the backscattered cross section when the length of the incident the waves. 1 il. SL C 00 SP 00 about 1C

Description

The invention relates to radio engineering, namely to antenna technology ..

The purpose of the invention is to increase the effective scattering surface and narrow the effective reflection frequency band.

The drawing shows a structural diagram of the radar reflector, side view.

The radar reflector contains hollow conductive cylinders 1 with longitudinal slots 2.

The radar reflector works as follows.

The electromagnetic wave incident on the radar reflector excites both the space between the hollow conducting cylinders 1 and their cavities due to the presence of longitudinal slots 2. The dependence of the reduced backscatter section of the radar reflector 6 / ITa on the frequency parameter ka (where g is the backscatter cross section , a is the radius of a hollow conducting cylinder 1; k is the wave number), has pronounced resonant properties, which are determined by both the resonant properties of the actual hollow conducting cylinders 1 and their mutual nym location. To combine these resonances, the angular size of the longitudinal slits 2 and the distance R between the axis of the radar reflector and the axes of the hollow conducting cylinders 1 are related to the radius a, the number N of hollow conducting cylinders 1 and the wavelength ratios obtained from the experiment

R k, - a-N, (1) .9 2 arcsin exp (a), (2) where k, e 1,2; 1.25.

When performing a radar reflector in accordance with expressions (1) and (2), the most effective re-radiation of an electromagnetic signal with a wavelength L in the direction of the source occurs. The maximum resonant cross section of backscatter i, / Tga can reach values of 49 and 63 for a three element

0

five

five

0

five

0

five

0

(N 3) and six-element (N 6) radar reflector, respectively.

Thus, an increase in the effective surface is provided. the scattering and narrowing of the effective reflection frequency band due to a rapid decrease in the backscattering cross section with a change in the incident wavelength.

Claims (1)

Invention Formula A radar reflector consisting of hollow conductive cylinders with a longitudinal slit located symmetrically with respect to the axis of the radar reflector with equal angular intervals, and the longitudinal axes of symmetry of the longitudinal slits lie in the same planes with the axis of the radar reflector and the axes of the hollow conductive cylinders from l In order to increase the efficiency of the scattering surface and narrow the effective reflection frequency band, hollow conducting cylinders are oriented with longitudinal holes Ms as well. the distance between the axis of the radar reflector and the axes of the hollow conductive cylinders with a longitudinal slit, as well as the angular size of the longitudinal slits are chosen from the ratios R k ,. aN; arcsin exp (- / lV87r% 2) j where R is the distance between the axis of the radio-focal reflector and the axes of the hollow conductive cylinders with a longitudinal slit j k I is the coefficient, 1.2 s k 1 25; a is the radius of hollow conductive cylinders with a longitudinal slit; N is the number of hollow conductive cylinders with a longitudinal slit j 8 - the angular size of the longitudinal slits, f is the wavelength.