Broadband Circularly Polarized Microstrip Antenna

Abstract

The invention discloses a broadband circularly polarized microstrip antenna, which is used to solve the problem of narrow working frequency band of the existing circularly polarized microstrip antenna. It includes a dielectric material board (1), a radiation unit (2), a radiation floor (3) and a coaxial line (4); the upper and lower surfaces of the dielectric material board (1) are respectively printed with the radiation unit (2) and the radiation floor (3 ), the radiant floor (3) is made up of a square patch (33), eight quasi-fractal units (31) and metal strips (32); there are four symmetrically etched on the diagonal of the square patch (33) Composite structure slot (331) and equi-arm L-shaped slot (332), eight quasi-fractal units (31) are uniformly distributed on the outer side and connected by metal strips (32); Two outward U-shaped grooves (21) are etched diagonally symmetrically. The invention has the advantages of wide band and miniaturization, and can be applied to radio frequency identification, radar and wireless communication.

Description

technical field [0001] The invention belongs to the technical field of antennas, and relates to a broadband circularly polarized microstrip antenna, which can be used for radio frequency identification, radar and wireless communication to receive and transmit circularly polarized electromagnetic waves within a wide frequency band. Background technique [0002] According to the polarization characteristics, antennas can be divided into three types: linear polarization, circular polarization and elliptical polarization. The bandwidth refers to the main performance parameters of the antenna in the frequency range that can meet the design index requirements, such as input impedance, pattern, gain , main lobe width and side lobe level, etc. In general, antenna performance parameters vary with frequency, so the antenna bandwidth depends on the frequency characteristics of each performance parameter. For circularly polarized antennas, their polarization characteristics are often th...

AI Technical Summary

Problems solved by technology

Chinese patent authorization number CN 203503788 U discloses a microstrip antenna, its structure is as follows figure 1 As shown, the front of the dielectric material board is printed with a square radiating patch with cut corners, and any side of the radiating patch is provided with a slot that extends deeply toward the other opposite side, and the two slots on the same pair of opposite sides The length of the slots is less than half of the vertical distance of the pair of sides, and they are parallel to each other and staggered from each other. The four slots are in a centrally symmetrical relationship with respect to the geometric center of the radiation patch, and the coaxial line passes through the radiation unit and the opening on the radiation floor. Feed, the antenna can achieve miniaturization and wide frequency band, but its frequency band is still not wide enough

[0005] Due to the shortcomings of the traditional microstrip antenna's small impedance bandwidth and narrow axial ratio bandwidth, the application range of the antenna is limited, making it impossible to use on multiple platforms, nor can it be used in multiple frequency bands on one platform

The simple and effective way to increase the bandwidth is to increase the thickness of the medium and reduce the relative permittivity value of the substrate, but the excessive thickness of the medium will cause obvious excitation of surface waves and may excite some high-order modes in the thickness direction, which will reduce the radiation efficiency, worsens the radiation pattern and poses some problems for the feed

Reducing the relative permittivity of the substrate can reduce surface waves, but the potential for this improvement is limited, and its minimum value ε r = 1, that is, use air medium

Images