SU1053195A1 - Horn radiator - Google Patents

Abstract

A HATTIC TRANSMITTER containing two coaxial horn parts with an angle of a solution of a horn part, with -. legagostey to the pitacade waveguide, smaller angle of the horn solution, adjacent to the aperture, emitters connected: between each other by a ledge, 6 tons; so that, in order to stabilize the position of the phase center in a wide frequency range, the tops of both horn the parts are aligned, and the ledge is made in the form of a spherical surface with a radius equal to the distance from the point where the vertices of the horn parts coincide to the extreme point of the horn part adjacent to the power waveguide. 5 O. ate mom ate

Description

The invention relates to antenna technology and can be used in the design of wide-range horn and mirror antennas of the microwave range. ·. A horn emitter is known that contains two coaxial-horn parts, with an opening angle of the horn adjacent to the supply waveguide, smaller than the opening angle of the horn adjacent to the opening of the emitter, interconnected by step C1]. However, the known device is characterized by an unstable position of the phase center of the emitter in a wide frequency range.

The purpose of the invention is the stabilization of the position of the phase center of the emitter in a wide range of frequencies.

The indicated goal is achieved by the fact that in a core emitter comprising two coaxial horn parts with a solution angle of the horn part adjacent to the supply waveguide; a smaller angle of the horn solution; adjacent to the emitter opening, interconnected by a ledge,. the vertices of both horn parts are aligned, and the ledge is made in the form of a spherical surface with a radius equal to the distance from the point of coincidence of the vertices of the horn parts to the extreme point. ^υ opening of the horn part adjacent to the supply waveguide.

The drawing shows a horn emitter.

The emitter contains a supply waveguide 1, two coaxial horn parts 2 and 3 connected by a step 4. The supply waveguide 1 is connected to the out-of-phase horn part 2, the phase out of which is selected in the range of (0.5-1.2) L. The horn part 2 is connected to the horn part 3, which is also a phase-out ru, p. out of phase within (3 ~ 6) A, ^ with the help of step 4, made in the form of a spherical surface with a radius equal to the distance from the point of alignment of the vertices of the horn parts 2 and 3 to the extreme opening point of the horn part 3 adjacent to the feed waveguide 1. The angle of the solution ι of the horn part 2 is less than the angle of the solution of the horn part 3, while both horn parts have a common vertex of conical generators converging at point O.

The emitter operates as follows.

The horn part connected to pi. a dissipating waveguide, is out of phase, and the phase center of the field emitted by it is located near its peak at point O. This part of the horn is supplying for the second horn part 3, which is also out of phase and has a significantly larger phasing • θ * 'than in the horn part 2, adjacent to the supply waveguide 1. The phase center of the emitted, horn, part 3 waves is also close to the vertex. Since the vertices of both horn parts are aligned with each other, their phase and center centers are practically combined, which ensures a stable position of the phase center of the horn emitter in a wide frequency range. Inside the horn emitter, the field retains a spherical take-off, and therefore the boundary conditions are best fulfilled when the horn parts are joined by a step 4 having the shape of a side surface (spherical layer with a radius equal to

- the distance from the point of coincidence of the peaks of both horn parts'2 and 3 to. extreme point of the opening of the horn. part 2 adjacent to the supply waveguide 1..

A horn emitter with a stable position of the phase center in a wide frequency range can be constructed not only on the basis of out-of-phase conical horns, but also on the basis of out-of-phase pyramidal horns, all the laws of construction construction (remain valid, and the ledge has a shaped part of a cylindrical surface.

To increase the steepness of the slopes of the diagram, it is advisable to cover the inner surface of the conical part with a large angle of absorption with absorbing material or the inner surface of the conical part: adjoining the waveguide, cut 3-4 quarter-wave grooves near the opening, _ 'the invention provides a stable position, the phase center in a wide range working frequencies, axisymmetric shape of the radiation pattern with a larger (its steepness

1.5 stingrays.

Claims (1)

Horn radiator containing two coaxial horn parts with a solution angle of the horn part adjacent to the feed waveguide, smaller by a solution angle of the horn part,. adjacent to the opening of the emitter, interconnected by a ledge, including the fact that, in order to stabilize the position of the phase center in a wide frequency range, the vertices of both horn parts are aligned, and the ledge is made in the form of a spherical surface with a radius of! !, equal to the distance from the point of alignment of the vertices of the horn parts to the extreme opening point of the horn part adjacent to the supply waveguide.