SU1684836A1 - Microstrip line antenna of linear polarization - Google Patents

Abstract

The invention relates to antenna technology and can be used in radar systems and communication systems. The purpose of the invention is to expand the operating frequency range and reduce the size. The microstrip antenna (MPA) of linear polarization is enclosed by an emitter made in the form of a conductive plate 1 of U-shaped cross section, placed above the metal screen (ME) 2 on dielectric columns 3, the coaxial cable 4, the central conductor 5 of which is connected to the radiator, and conductor 6 to ME 2. Conductive plate 1 is oriented sideways to ME 2, and its middle part is parallel to ME 2, with the full length of the radiator section being OS A, where X is the working wavelength. The absence of a dielectric in the space between the emitter and the ME 2 and the choice of the distance between the middle part of the emitter and the ME 2, of the order of 0.14, provides an extension of the working wave range. The reduced dimensions of the proposed MPA are due to the selected shape of the section. 2 Il. S (l

Description

1

The invention relates to antenna technology and can be used in radar systems and communication systems.

The purpose of the invention is to expand the operating frequency range and reduce the size.

FIG. 1 shows a block diagram of a microstrip antenna (MPA) of linear polarization (section)} in FIG. 2, the same, top view.

The linear polarization MPA contains an emitter made in the form of a conductive plate 1 of a rectangular U-shaped cross section, placed above the metal screen 2 by means of dielectric columns 3, and a coaxial cable 4, the central conductor 5 of which is connected to the radiator at a point lying the symmetry of the MPA, at a distance (0.03-0.04) where is the working wavelength, from its center, and the outer conductor 6 is towards the metal screen 2. Conductive plate 1 of U-shaped cross section is oriented sideways to the metal screen 2 , its middle portion parallel to the metal screen 2, wherein the length of the middle portion of the emitter section is selected within (ft / 6 -fl / 4), and the overall length of the conductive plate 1-A is 0.5.

MPA linear polarization works as follows.

When voltage is applied to the input of the coaxial cable 4, an electric current is induced on the metal plate 1 of the U-shaped section, which

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provides electromagnetic radiation in the direction normal to the plane of the metal shield 2. The matching of the radiator with the excitation coaxial cable 4 is ensured by an appropriate choice of the connection point.

The absence of a dielectric in the space between the radiator and the metal screen 2 and the choice of the distance between the middle part of the radiator and the metal screen 2, of the order of 0.14, extends the working frequency range to 12% in terms of VSWR-2. The reduced dimensions of the proposed MPA are due to the cut shape of the section.

Claims (1)

Invention Formula Linear polarized microstrip antenna containing an emitter made in the form of a conductive U-shaped plate plate placed above a metal screen and a coaxial cable, the center conductor of which is connected to the radiator and the outer one to the metal screen in order to expand the working frequency range and reduce the size, the U-shaped cross-section plate is oriented sideways to the metal screen, and its middle part is parallel to the metal screen, while The total section length is 0.5ft, where A is the working wavelength. one Schi I