SU1317529A1 - Cassegrainian aerial - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to form a fan pattern and reduce the level of side radiation. The two-mirror antenna contains the main and auxiliary mirrors 1 and 4, the focal axes 2 and 5 of the generators, the 3 axis of symmetry of the two-mirror antenna and the horn 6. The formation of the radial directional diagram is achieved by the shape of. According to the opening of the mirror 1, which is made in the form of a semicircle with a ratio of sizes in the vertical and horizontal planes, equal to about 1: 2. Reducing the side-radiation level is provided by removing the horn 6 and the mirror 4 from the aperture of the mirror 1. The antenna in and. The 1 f-ly is characterized by the execution of the mirror 1 in the form of a half, and the mirror 4 - in the form of two half-bodies of a rifle, formed by rotating their segments forming around the axis 3 within the semicircle. Antenna on PP. 2-4 files are distinguished by the cutouts of the two halves of the mirror 4. 3 h. n. f-ly, 5 ill. and (L with JV GO with srig.1

Description

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

The aim of the invention is to form a fan-shaped pattern and reduce lateral radiation.

FIG. 1 shows a schematic diagram of a two-mirror antenna, side view; in fig. 2 - the same, front view; in fig. 3 - the same, top view; in fig. 4 is a side view of a block diagram of a two-mirror antenna; in fig. 5 is a schematic diagram of a two-mirror antenna, side view.

A two-mirror antenna consists of a primary mirror 1 with a parabolic generator of the HD, the focal axis 2 of which is replaced parallel to the axis 3 of the symmetry of the two-mirror antenna, the auxiliary mirror 4 forms the second-order curve with the focal axis 5 tilted about the axis of symmetry two of the mirror antenna and two focal points, the first of which is located on the axis 3 of the symmetry of the two-mirror antenna, and the second one, is with the focus of a parabolic shape, and a horn 6, the phase center of which is combined with its Focus on the auxiliary mirror 4.

The surface of the main mirror 1 of the two-mirror antenna is formed by the obstruction of the formation of the HD around the axis of symmetry 3 of the two-mirror antenna within the semicircle and is half the body of rotation.

The surface of the auxiliary mirror 4 of the two-mirror antenna is formed by rotating the AVB generator in the form of a second-order curve around the axis of symmetry 3 of the two-mirror antenna within the semicircle and representing the two halves of the bodies of rotation cut out of ellipsoids with a common elliptical AVB forming (FIG 1-3), which is facing the main mirror 1 of a two-mirror antenna with its concave side, or having their shape of cuts made of hyperboloids with an AVB hyperbolic shape (Fig. 4-6), far relative to a horn 6 whose branch is facing the main mirror 1 of a two-mirror antenna with its convex side, and also having a cut-out shape of hyperboloids with an obfl, hyperbolic component of the AVB with a horn 6 whose branch is facing the main mirror 1 of a two-mirror antenna with its concave side.

Both halves of the auxiliary mirror 4 of the two-mirror antenna are combined at one point B, which lies on the axis of symmetry 3 of the two-mirror antenna. The edges of the complementary mirror 4 of the two-mirror antenna are relative to the phase center of the horn b in the general case at different angles tp, and g, with s, with Lps

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five

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five

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five

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5 8

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five

Two-mirror antenna works as follows.

The horn 6 emits a non-uniform spherical wave with a phase center at point O in the direction of the auxiliary mirror 4. The field emitted by the horn 6 has an axisymmetric radiation pattern limited by the angular sector 2f. After reflection from the auxiliary mirror 4, all the rays are focused at the point Oi, which describes the focal line in the form of a semi-ring in space and falls on the main mirror 1 as a divergent toroidal wave. The main mirror 1 converts the wave that goes to it into a wave with a flat phase front and emits it into space in the direction parallel to the focal axis of the parabolic component of the primary mirror 1.

The formation of a fan-shaped radiation pattern is achieved by the shape of the radiating-Hiero aperture of the primary mirror 1, which is made in the form of a semicircle with a ratio of sizes in the vertical and horizontal planes of approximately 1: 2.

A reduction in the side-radiation level is provided by removing the horn 6 and the auxiliary mirror 4 from the aperture of the main mirror 1.

Claims (4)

1. The two-mirror antenna is contained, and the main mirror with a parabolic generator, whose focal axis is displaced parallel to the symmetry axis of the two-mirror antenna, the auxiliary mirror with forming one, with a focal axis tilted with respect to the axis of symmetry of the two-mirror antenna, and two foci, the first of which is located on the axis of symmetry of the two-mirror antenna, and the second one is aligned with the focus of the parabolic generator, and a horn, the phase center of which is combined with the first focus of the generator aiding mirror, characterized in that, in order to form a fan-shaped radiation pattern and reduce the level of lateral radiation, the main mirror is made half, and the auxiliary mirror in the form of two halves of rotation bodies formed by rotating their segments forming a two-mirror antenna around the axis of symmetry within the semicircle. 2. Antenna according to claim 1, characterized in that the two halves of the auxiliary mirror are in the form of cutouts of ellipsoids with a common generatrix, which faces the main mirror with its concave side. 3. Antenna according to claim 1, characterized in that both halves of the auxiliary mirror have the form of cuts made of hyperboloids with a common generatrix, the branch of which is far relative to the horn, whose branch is facing to the main mirror with a parabolic generator with its convex side. 4. The antenna according to claim 1, characterized in that both halves of the auxiliary mirror they have the form of cuts made of hyperboloids with a common generatrix, which is near the horn, the branch of which faces the main mirror with a parabolic shape with its concave side. (fue.Z fis L Compiled by .. Prntumann Editor N. Slobod nikTekhred I. VeresKorrektor I. Muska Order 2300/48 Circulation 625 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Design. four