RU61468U1 - MIRROR ANTENNA OF SURFACE WAVES - Google Patents

Abstract

The technical solution (utility model) relates to antenna technology, in particular, to the design of mirror antennas of surface waves. The essence of the claimed technical solution lies in the fact that in a mirror antenna of surface waves containing a parabolic cylinder mirror and an irradiator, the irradiator is made in the form of an emitter mounted on a reflector, a parabolic cylinder is located on the underlying surface, the reflector is located on the underlying surface, the emitter is made in the form of an asymmetric disco cone vibrator, the axis of which is located on the focal line of the parabolic cylinder, and the base of the vibrator is located ENO on the reflector. 1 cpf, 1 ill.

Description

The technical solution (utility model) relates to antenna technology, in particular, to the design of mirror antennas of surface waves.

Mirror antennas are known that comprise a para-cylindrical mirror and an irradiator. [one].

The disadvantage of these mirror antennas is their limited functionality when excited by surface waves.

The closest technical solution to the claimed one is a surface wave mirror antenna containing a parabolocylindrical mirror and an irradiator, the irradiator is made in the form of an emitter mounted on a reflector, a parabolocircular mirror is located on the underlying surface, and the reflector is located on the underlying surface. [2].

The disadvantage of this mirror antenna is its limited functionality for optimal excitation of a surface wave, which substantially depends on the broadband emitter, because the optimal excitation of a surface wave depends on the distance between the reflector and the underlying surface, on the parameters of the underlying surface, its relative permittivity ε and conductivity σ.

The basis of the proposed technical solution is the creation of such a surface-wave mirror antenna, which will provide wider functionality for the optimal excitation of surface waves due to the use of a wider broadband emitter.

The essence of the claimed technical solution lies in the fact that in a mirror antenna of surface waves containing a parabolic cylinder and an irradiator, an irradiator

made in the form of an emitter mounted on a reflector, a parabolic cylinder mirror is located on the underlying surface, the reflector is located on the underlying surface, the emitter is made in the form of an asymmetric disco-cone vibrator, the axis of which is located on the focal line of the parabolic cylinder, and the base of the vibrator is located on the reflector.

In some cases, for optimal irradiation of a parabolic-cylindrical mirror, it is reasonable to perform an irradiator in the form of an emitter and reflector mounted on a reflector.

Figure 1 shows a mirror antenna of surface waves.

The surface wave mirror antenna contains a parabolic cylinder mirror 1 and an irradiator 2. The irradiator is made in the form of an emitter 3 mounted on the reflector 4. The parabolic cylinder 1 is located on the underlying surface 5, and the reflector 4 is located on the underlying surface 5. The emitter 3 is made in the form of an asymmetric disk conical vibrator 6, the axis 7 of which is located on the focal line 8 of the parabolic cylinder 1. The base 9 of the vibrator 6 is located on the reflector 4.

In some cases, for optimal irradiation of the parabolic-cylindrical mirror 1, the irradiator 2 is expediently performed in the form of an emitter 3 and a reflector 10 mounted on the reflector 4.

Thus, a mirror antenna of surface electromagnetic waves was obtained, which allows expanding its functionality for optimal excitation of surface electromagnetic waves due to the use of a wider band emitter 3 in the form of an asymmetric disco-cone vibrator 6, the base 9 of which is located on the reflector 4.

Information sources.

1. A.S. Lavrov, G. B. Reznikov. Antenna feeder devices. M .: "Soviet Radio" 1974 p. 243-239.

2. RF patent No. 466612 by application No. 2005105790 of March 1, 2005 - a prototype.

Claims (2)

1. A surface wave mirror antenna containing a parabolic cylindrical mirror and an irradiator, the irradiator is made in the form of an emitter mounted on a reflector, a parabolic cylindrical mirror is located on the underlying surface, the reflector is located on the underlying surface, characterized in that the emitter is made in the form of an asymmetric disco-cone vibrator, whose axis is located on the focal line of the parabolic cylinder, and the base of the vibrator is located on the reflector. 2. The mirror antenna according to claim 1, characterized in that the irradiator is made in the form of a radiator and reflector mounted on a reflector.