SU1075342A1 - Slotted-guide aerial - Google Patents

Abstract

WAVEGNATING AND CROSSING ANTENNA, containing a segment of a rectangular waveguide, a feeder line connected to the center of a segment of a rectangular waveguide, absorbing loads installed at the ends of a segment of a rectangular waveguide, longitudinal slits made in its wide wall on either side of its middle, different so that, in order to improve the matching of the antenna with the feeder line in the frequency range with maximum emission in the direction normal to the antenna, the distance between the longitudinal slots made on one side from the middle of the wide wall, selected equal to 6

Description

I.ooiiereniic belongs to radio engineering, 1.:ch - ;, () (; ill to waveguide-gap antenna ;:, 1. And;., To be used as iinhi. Working in the i-shaped i; i; -i () T iinij the maximum radiation in the direction of the normal to the antenna.

1 l: fBfcIpa waveguide-antenna, 1.ccr / kashan segment of a rectangular waveguide, ()) ideer line, connected to itcnipy of a segment of a rectangular waveguide, to () |)) tkaza.myku.e pistons installed and assembled rectangular waveguide, |; genus, 1 slit, made in its wide cTLMiKu on opposite sides of the middle niHpoKoii wall, and the distance between adjacent slits is equal to I / 2, where A is the dt wave in the rectangular waveguide 1.

The drawback of the antenna is the impossibility of matching the antenna with the feeder line in the frequency range.

Closest to the invention is a waveguide beam antenna comprising a rectangular waveguide segment, a feeder line connected to the center of a rectangular waveguide segment, absorbing loads installed at the ends of the rectangular waveguide section, longitudinal slits made in its wide wall along different sides of its middle 2.

A disadvantage of the known antenna is the mismatch of the antenna with the feeder line in the frequency range with maximum emission in the direction normal to the antenna.

The aim of the invention is to improve the matching of the antenna with the feeder line in the frequency range with maximum emission in the direction normal to the antenna.

The goal is achieved by the fact that in a waveguide antenna containing a rectangular waveguide segment, a feeder line connected to the center of a rectangular waveguide segment, absorbing loads installed at the ends of a rectangular waveguide segment, absorbing loads installed at the ends of a rectangular waveguide segment made in its wide wall on opposite sides of its middle, the distances between the longitudinal slots made on one side of the middle of the wide wall are equal to AB (1 + 1 / 2N), and The distances between the longitudinal slots made on the other side of the middle of the wide wall are chosen to be L6 (l - l / 2N), where Lp is the wavelength in the rectangular waveguide at the center frequency of the range; N is the number of longitudinal slits.

FIG. 1 shows a waveguide-slot antenna; in fig. 2 — dependences on the frequency of the standing wave ratio (CWS) in the feeder line of the waveguide-slot antenna; in fig. 3 - radiation pattern of a waveguide-slot antenna at the edge of the frequency range and at the center frequency of the range.

Wave-wave antenna contains a segment of a rectangular waveguide 1, a feeder line 2 connected to the center of a segment of a rectangular waveguide 1, absorbing loads 3 installed at the ends of a segment of a rectangular waveguide 1, longitudinal slits 4 and 5, made in a wide wall of a segment of a rectangular wave of occasion 1.

Wave-gap antenna works as follows.

The energy coming from the feeder line 2 propagates into the two arms of the antenna, formed by a segment of the rectangular waveguide 1. Each arm of the waveguide-slot antenna can be considered as a non-resonant waveguide-slot antenna. In contrast to the well-known non-resonant waveguide-slot antenna, in which

The maximum radiation in the direction normal to the antenna exhibits a so-called "normal effect, consisting in a sharp mismatch of the antenna with the feeder line proposed by the antenna due to the placement of longitudinal slots 4 in the wide wall of the rectangular waveguide 1 by distances equal to L g (1 + + 1) 2N), and the longitudinal slits 5 - at distances x equal to yie (1 - 1) 2N), the waves reflected from each pair of slits located on opposite sides of the middle of the wide wall are almost completely are compensated for. The maximum of the partial radiation pattern formed by the longitudinal slots 4 is deflected from the normal to the antenna in the direction of the traveling wave, and the maximum of the partial radiation pattern formed by the longitudinal slots 5. is deflected in the opposite direction. The resulting radiation pattern of each antenna arm thus maintains the direction of the maximum in the normal region

 to the antenna. The maximum radiation of a waveguide-slot antenna is generated in the direction of the normal. When the working frequency is changed, there is a gradual change in the level of matching the antenna with the feeder line 2 and the width of the main beam pattern (Fig. 2). The frequency band of the waveguide-slot antenna at the VSWR 42 level is at the VSW-1.4 level of 12%.

0 It is possible to use one half of a waveguide-slot antenna as a radiating element in antennas, with frequency scanning while ensuring that the antenna matches the feeder line at the moment of maximum radiation in the direction of the normal.

Technical and economic effect when using a waveguide-slot antenna

due to an improvement in the quality of matching with the feeder line, which leads to a more complete emission of energy supplied to the antenna in the direction of the normal. Use half waveguide antenna

as a radiating agent;) when performing frequency scanning, it allows to improve the quality of matching, thereby expanding the scanning sector.

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Claims (1)

A waveguide-slit antenna containing a segment of a rectangular waveguide, a feeder line connected to the center of a segment of a rectangular waveguide, absorbing loads mounted at the ends of a segment of a rectangular waveguide, longitudinal slots made in its wide wall on different sides from its middle, characterized in that that, in order to improve the matching of the antenna with the feeder line in the frequency range for maximum radiation in the direction normal to the antenna, the distance between the longitudinal slots made on one side of the one broad wall ds chosen equal to (1 + 1 / 2N), and the distance between the longitudinal slots, made on the other side of the middle wide wall, chosen equal to I ₈ (1 -1 / 2N), gdeD ₆ - wavelength in a rectangular waveguide at the center frequency of the range; N is the number of longitudinal slots.