SU240768A1 - HORN ANTENNA - Google Patents

Description

The novelty of the described antenna lies in the fact that it is formed by two diverging and expanding plates of a two-wire LINE, connected at the ends by conductors.

This feature makes it possible to significantly reduce the size of the radiating system and improve coordination.

The proposed horn antenna is shown in the drawing.

Crane plates}, forming a horn, are interconnected by two wires 2. These wires shunt the opening of the horn. The reflection from the edges of the plates is capacitive in nature, and the resistance of the shunting wires is inductive in nature, which provides some compensation for reflections. The currents in the wires also radiate energy. Mutual resistances between conduction currents and displacement currents on the aperture increase the radiation efficiency of the antenna. Theoretical calculations and conducted experiments show that the antenna effectively radiates energy at an aperture height of / r 0, ЗЗЗ, i.e. at antenna sizes smaller than the length of a resonant half-wave vibrator.

wires. Except for this area, the antenna CWS does not exceed 1.4.

At the lower limit of the working frequency range, the antenna pattern is the same as that of a symmetric vibrator. A low gain factor ensures efficient radiation at small actor sizes. As the frequency increases, the current through the shunt decreases, the radiation pattern becomes unidirectional and takes on the shape of a horn antenna.

The inductive tongue can be made with one wire, but at the same time the wire diameter is too large.

Thus, the proposed antenna can operate in an extremely wide frequency range, limited only by permissible phase distortions on the opening.

antennas. The linear dimensions of the antenna in any direction are less than 0.5 °.

Subject invention

A horn antenna made up of two expanding and fiks consumption conductors of a two-wire LINE, made in the form of plates, characterized in that, in order to reduce overall dimensions and improve the consistency