Broadband low profile microstrip antenna suitable for dual mode operation in microwave millimeter wave frequency band

A millimeter wave frequency band, microstrip antenna technology, applied in the direction of antenna, antenna grounding switch structure connection, radiating element structure form, etc., can solve the problems of increased feed mode complexity, unstable radiation pattern, and high structural complexity, Achieve the effect of simple structure, easy plane integration and low profile

Active Publication Date: 2019-03-29
SOUTHEAST UNIV
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  • Claims
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AI Technical Summary

Problems solved by technology

By using feeding methods such as L-shaped probes and T-shaped feeders, the bandwidth of the microstrip antenna can be significantly improved, but it will bring disadvantages such as increased complexity of the feeding method and increased antenna profile.
Stacked microstrip antennas, E-shaped antennas, and microstrip antennas loaded with U-shaped slots also have a relatively wide operating bandwidth, but there are also high cross-polarization, unstable radiation patterns, and higher structural complexity than traditional microstrip antennas. shortcoming
At the same time, many ways to improve bandwidth are in the millimeter wave frequency band. Due to complex structures, limited processing accuracy, and high processing costs, it is difficult to widely use them in engineering.

Method used

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  • Broadband low profile microstrip antenna suitable for dual mode operation in microwave millimeter wave frequency band
  • Broadband low profile microstrip antenna suitable for dual mode operation in microwave millimeter wave frequency band
  • Broadband low profile microstrip antenna suitable for dual mode operation in microwave millimeter wave frequency band

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Embodiment Construction

[0031] In the following, the present invention will be further clarified with reference to specific examples. It should be understood that these examples are only used to illustrate the present invention and not to limit the scope of the present invention. After reading the present invention, those skilled in the art will understand various equivalents All the modifications fall within the scope defined by the appended claims of this application.

[0032] Such as figure 1 with Picture 11 As shown, a broadband low-profile microstrip antenna suitable for dual-mode operation in the microwave and millimeter wave frequency bands is mainly composed of the antenna body, the SIW feed network composed of metalized holes 5-2, and the rectangular longitudinal slit 4 for coupling feed A short-circuit metallized through hole 5-1 for adjusting impedance matching, a rectangular patch antenna unit 1 (a low-profile broadband antenna unit) loaded with a horizontal rectangular slot 3 and a longitu...

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Abstract

The invention discloses a broadband low profile microstrip antenna suitable for dual mode operation in a microwave millimeter wave frequency band. The antenna is a rectangular patch loaded with a specific transverse slit and a longitudinal slit. The antenna is coupled and excited by a substrate integrated waveguide feeding slot. The antenna has advantages of simple structure, low profile, easy processing, wide bandwidth, low cross-polarization in a design frequency band and stable radiation pattern. Influence of an adhesion layer between an antenna dielectric layer and a feeding network can beconsidered in design by using a cavity model and a perturbation theory, to improve accuracy of calculating theoretical size of the antenna.

Description

Technical field [0001] The invention relates to a dual-mode working broadband low-profile microstrip antenna. The antenna is excited through a slit at the end of a substrate integrated waveguide (Substrate Integrated Waveguide, SIW), and belongs to the technical field of antennas. Background technique [0002] The antenna is an important part of the wireless communication system. The rapid development of wireless communication has created an urgent demand for antennas with small size, low cost, high gain, easy integration and broadband. Traditional microstrip antennas have the advantages of low profile, low cost, small size, light weight, easy planarization, and easy integration, but they also have the disadvantage of narrow bandwidth. [0003] There are many technologies to improve the bandwidth of microstrip antennas. Through the use of L-shaped probes, T-shaped feeders and other feeding methods, the bandwidth of the microstrip antenna can be significantly improved, but it will...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01Q1/38H01Q1/50H01Q25/04
CPCH01Q1/38H01Q1/50H01Q25/04
Inventor 王海明尹杰茜无奇余晨洪伟
Owner SOUTHEAST UNIV
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