RU2054767C1 - Asymmetric vertical shunt dipole - Google Patents

Abstract

FIELD: antenna equipment. SUBSTANCE: asymmetric vertical shunt dipole has two parallel conductors. First conductor 1 is fabricated flat and is connected with lower end to central conductor 2 of coaxial cable and to upper end of second conductor 3 which is grounded with its lower end. Hole is made in first conductor between its point of connection to central conductor and point of connection to second conductor through which second conductor is passed. Its upper and lower parts being parallel to first conductor are arranged on opposite side of it and are approximately equal in length. EFFECT: equalization of powers emitted in different directions, provision for circular radiation pattern. 3 dwg

Description

 The invention relates to antenna technology.

 One of the ways to expand the frequency range of antennas is to use a shunt vibrator proposed by G.Z. Eisenberg. An asymmetric version of such a vibrator is described in the book of A. Lavrov. and Reznikova G.B. Antenna feeder devices. M. Owls radio, 1974, p.129, fig. 6.9, b, c.

 It consists (see Fig. 1) of two parallel vertical wires, one of which has a large diameter and is excited at the base with a coaxial cable, and the other is an inductive shunt, the upper end of which is connected to the first wire and the lower one is grounded.

 The radiation pattern of a known antenna in the horizontal plane (H plane) is distorted in the upper part of the frequency range, where the distance between the parallel wires is comparable to the wavelength.

 The purpose of the invention is the provision of a circular radiation pattern in the horizontal plane in a wide frequency range.

 To do this, in an asymmetric vertical shunt vibrator containing two parallel conductors, the first of which is connected to the central conductor of the coaxial cable by the lower end, is grounded by the second lower end and is connected to the first conductor by the upper end, the first conductor is flat and in the middle between the connection point the central conductor of the coaxial cable and the connection point with the second conductor is a hole through which the second conductor is passed so that the upper and lower parts are located along different sides of the first conductor.

 A diagram of the proposed antenna is shown in figure 2. The antenna consists of two vertical wires. One of them (wire 1) is made flat and connected at the base with the central core 2 of the coaxial cable. The second wire 3 at point 4 is connected to the first wire, and at point 5 is grounded, with points 4 and 5 located on opposite sides of the first wire. The upper and lower parts of the second wire are parallel to the first and approximately equal in length. They are connected to each other by a piece of wire passing through an opening in the first wire.

 As a result, the powers radiated in different directions are equalized, i.e., a circular radiation pattern is provided. The effective heights of the upper and lower parts of the wire 3 for this should be approximately equal.

 Figure 3 shows the experimental radiation patterns of the proposed antenna (solid curves) and prototype (dotted) at different frequencies of the range. The height of each antenna is 0.47 mm, the width is 0.17 m. It can be seen that at frequencies above 200 MHz the known antenna produces unidirectional radiation, while the radiation pattern of the proposed antenna remains almost circular up to 400 MHz.

Claims (1)

 An asymmetric vertical shunt vibrator containing two parallel conductors, the first of which is connected by the lower end to the central conductor of the coaxial cable, the second lower end is grounded and the upper is connected to the first conductor, characterized in that the first conductor is made flat and in the middle between the connection point with the central conductor of the coaxial cable and the connection point with the second conductor is a hole through which the second conductor is passed so that the upper and lower parts are located wives on opposite sides of the first conductor.

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