Semispherical broadband electrified small antenna based on near-field coupling principle

A near-field coupling and electrically small antenna technology, applied in the field of antennas, can solve the problems of inapplicability to wireless communication systems, little expansion of the bandwidth of electrically small antennas, and low radiation efficiency

Active Publication Date: 2018-11-09
上海东洲罗顿通信股份有限公司
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  • Abstract
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Problems solved by technology

However, traditional electrically small antennas are limited by the Chu limit, so the bandwidth and radiation efficiency of electrically small antennas are low, and cannot be applied to wireless communication systems
[0003] In recent years, for the inherent defects of electrically small antennas, methods of loading active circuits and loading metamaterial near-field coupling structures to improve the radiation efficiency of electrically small antennas have been proposed, but the bandwidth of electrically small antennas has rarely been expanded.

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  • Semispherical broadband electrified small antenna based on near-field coupling principle
  • Semispherical broadband electrified small antenna based on near-field coupling principle
  • Semispherical broadband electrified small antenna based on near-field coupling principle

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[0031] An overall three-dimensional view of a hemispherical broadband electrically small antenna based on the principle of near-field coupling of the present invention, as shown in figure 1 Shown: A hemispherical broadband electric small antenna based on the principle of near-field coupling, including an outer metal radiation strip 1, a ground plate 2, a hemispherical dielectric substrate 3, an inner metal radiation strip 4, and a coaxial cable inner conductor 5 outer Conductor 6. In this embodiment, the copper thickness of the radiating strips 1 and 4 is SH=0.017mm, and the copper thickness of the ground plate 2 is 2mm. The outer metal radiation strip 1 is close to the outer surface of the hemispherical dielectric substrate 3, and the inner metal radiation strip 4 is close to the lower surface of the hemispherical substrate. The overall structure of the antenna is as follows: figure 2 shown. The hemispherical dielectric substrate is ABS resin, its relative permittivity is ...

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Abstract

The invention discloses a hemispherical broadband electrified small antenna based on the near-field coupling principle, and belongs to the technical field of antenna design. The antenna consists of outer metal radiation strips, an inner metal radiation strip, a hemispherical dielectric substrate, a grounding plate and a coaxial cable. The outer surface of the dielectric substrate is closely provided with the annular outer metal radiation strips with different lengths at regular intervals in an attached manner. The inner surface of the dielectric substrate is provided with the inner metal radiant strip in a pasted manner. The hemispherical dielectric substrate covers the grounding plate. The antenna adopts a bottom feed mode, an outer conductor of a feeder is connected with the grounding plate, and an inner conductor is connected with a metal strip on the inner surface of the dielectric substrate. The antenna provided by the invention has the advantages of small size and wide bandwidth,and the antenna structure is novel, simple to manufacture and easy to install. The antenna has low profile characteristics, has the advantage of working in a wide frequency range, and can be appliedto application communication, such as satellite navigation and wireless local area networks.

Description

technical field [0001] The invention belongs to the technical field of antennas and relates to a hemispherical broadband electrically small antenna based on the principle of near-field coupling. Background technique [0002] Because the size of the electrically small antenna is only one-tenth or even lower than the wavelength of the working frequency band, it is very suitable for use in integrated communication systems. However, traditional electrically small antennas are limited by the Chu limit, so the bandwidth and radiation efficiency of electrically small antennas are low, and cannot be applied to wireless communication systems. [0003] In recent years, for the inherent defects of electrically small antennas, methods of loading active circuits and loading metamaterial near-field coupling structures to improve the radiation efficiency of electrically small antennas have been proposed, but the bandwidth of electrically small antennas has rarely been expanded. Therefore,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01Q1/38H01Q1/48H01Q1/50
CPCH01Q1/38H01Q1/48H01Q1/50
Inventor 唐明春陈晓明胡坤志李梅陈世勇刘书君理查德·齐奥尔科夫斯基
Owner 上海东洲罗顿通信股份有限公司
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