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Gain-adjustable bidirectional end-fire antenna and optimization method thereof

An end-fire antenna and optimization method technology, which is applied in the directions of antenna arrays, antennas, antenna arrays, etc. that are powered separately, can solve the problems of gain reduction, unmanned two-way end-fire antennas, and doubling of the antenna volume, so as to reduce the size of the antenna, Convenient and flexible configuration, the effect of reducing the workload

Inactive Publication Date: 2019-11-01
NANJING UNIV OF INFORMATION SCI & TECH
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AI Technical Summary

Problems solved by technology

The traditional way to achieve two-way end-fire radiation is to place two antenna arrays back to back, such as placing two Yagi antennas in opposite directions. However, this design method will undoubtedly double the volume of the antenna, but it is different from the one-way Yagi antenna Compared with the design, the gain is reduced by about 3dB, and so far no one has done research on the control of the end-to-end radiation gain of the bidirectional end-fire antenna

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  • Gain-adjustable bidirectional end-fire antenna and optimization method thereof
  • Gain-adjustable bidirectional end-fire antenna and optimization method thereof
  • Gain-adjustable bidirectional end-fire antenna and optimization method thereof

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Embodiment Construction

[0037] The present invention; a gain-adjustable two-way end-fire antenna, comprising a dielectric substrate, an antenna array, and a feed network circuit board; the antenna array is etched on the dielectric substrate as the antenna substrate, and the output excitation of the feed network circuit board The port is connected to the feed port of the antenna unit through a signal line.

[0038] The antenna array is formed by longitudinal arrangement of four half-wave printed dipoles with the same size and uniform spacing.

[0039] Wherein, the antenna substrate is selected from Rogers 4003 substrate, and the dielectric substrate of the feed network circuit board is selected from FR-4 substrate;

[0040]The antenna substrate is obtained by etching the copper skin on the dielectric substrate according to the shape and size of the antenna array by a laser engraving machine; the dielectric substrate is a Rogers 4003 dielectric substrate.

[0041] The feed network circuit board is div...

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Abstract

The invention discloses a gain-adjustable bidirectional end-fire antenna and an optimization method thereof and belongs to the technical field of antennae. According to the invention, the unit form, the working frequency and the unit number of the antenna are not limited at all. On the basis that the efficiency in power transmission is maximized, a weighting matrix is introduced so as to realize the manual distribution of the receiving antenna power. That means, the regulation and control of each beam gain of a transmitting array is realized. by adopting the above design, the coupling among units and the influence of a complex environment can be included in a scattering matrix, so that array units can be configured more conveniently and more flexibly. The workload of array antenna design is reduced. Compared with a traditional array design method, the design method provided by the invention has obvious advantages. Under the condition that the end-fire gain is not changed at all, the purpose of greatly reducing the size of the antenna is achieved. The complex electromagnetic environment can be considered, and the antenna design process is greatly simplified. The effect of manually regulating and controlling the bidirectional end-fire gain is achieved.

Description

technical field [0001] The invention belongs to the technical field of antennas, and relates to a gain-adjustable bidirectional end-fire antenna and an optimization method thereof. Background technique [0002] At present, bidirectional endfire antennas are widely used in narrow, long, and straight communication scenarios (such as long streets, long bridges, tunnels, highways, railways, subways, and corridors, etc.) due to their high gain and bidirectional radiation characteristics. Bidirectional end-fire antennas are often used as microwave relays to suppress multipath effects and improve link efficiency. In the traditional array design, people largely rely on the antenna array factor, and the antenna array factor is based on some simplifications and assumptions. Therefore, in order to use the antenna array factor concept, additional effort, such as element decoupling, is sometimes required. The traditional way to achieve two-way end-fire radiation is to place two antenna...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01Q1/38H01Q1/50H01Q21/00H01Q21/06H01Q23/00G06F17/50
CPCH01Q1/38H01Q1/50H01Q21/0006H01Q21/061H01Q23/00
Inventor 文舸一郭华东
Owner NANJING UNIV OF INFORMATION SCI & TECH
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