RU1788540C - Microstrip aerial with linear polarization - Google Patents

Abstract

Usage: in radio communications, radar, radio telemetry. The inventive microstrip antenna contains a radiator in the form of a rectangular conductive plate (SPT) 1, located on one side of the dielectric substrate 2, on one side of which there is a metal screen 3. The feed feeder 4 is connected to the SPT 1. In the SPT 1 microstrip the antenna has a transverse groove 5, the length of which does not exceed half the wavelength in the dielectric, and the width does not exceed the thickness of the dielectric plate 2. In IFR 1 of the microstrip antenna, grooves of shorter length 6, parallel to transverse groove 5. The implementation of the transverse grooves 5, 6 in the IFR 1 microstrip antenna allows to reduce the dimensions of the antenna. 1 ill.

Description

The invention relates to antenna technology and can be used as an independent antenna or as part of a small antenna array in the microwave wavelength range. .

The purpose of the invention is to reduce dimensions and increase broadband.

The drawing shows a microstrip linear polarization antenna design with a middle groove and additional side grooves.

A power line 1 with a standard impedance is connected to the microstrip antenna. Antenna radiating element 2 is made in the form of a rectangle or square with side and end sizes L and I. At the ends of the antenna element there are radiating slots 3 and 4. The power supply lines together with the antenna element are located on a dielectric substrate 5 of thickness t with the lower conductive layer 6 is a screen. Instead of a coaxial microstrip power line, a perpendicular coaxial waveguide can be used. A narrow groove 7 of length a and width a, as well as additional side grooves 8. are cut through the antenna element in the middle of the rectangle perpendicular to the longitudinal high-frequency currents. The length b does not exceed half the wavelength in the dielectric, and the width a is less than the thickness of the substrate t. The choice of a small groove width, including

section of small length, it is possible to obtain matching at a lower resonance frequency in a wider frequency band. The middle groove has the greatest influence on the resonant frequency, and the stronger the greater the length of the groove.

The reduction in antenna size while maintaining the resonant frequency and the increase in broadband with good matching are explained by an increase in the current path length on the surface of the emitter and the formation of a series inductance and parallel capacitance in the transverse gap, which is achieved by using small grooves.

Claims (2)

1. A linear polarization microstrip antenna, comprising an emitter in the form of a rectangular conductive plate located on one side of the dielectric substrate, on the other side of which there is a metal shield, and a power feeder connected to a rectangular conductive plate in which a transverse groove is made characterized in that, in order to reduce the dimensions, the transverse groove is made with a length not exceeding half the wavelength in the dielectric, and a width not exceeding the thickness of the dielectric substrate. 2. The antenna according to claim 1, characterized in that the grooves of a shorter length are made parallel to the transverse groove,