High-gain dielectric resonator antenna applied to 60 GHz system

A dielectric resonator, high-gain technology, applied in antennas, antenna parts, electrical components, etc., can solve the problems of large signal attenuation in the 60GHz frequency band, unsuitable for long-distance transmission, etc., and achieve excellent bandgap performance, high gain, and profile low effect

Inactive Publication Date: 2012-12-12
BEIJING UNIV OF POSTS & TELECOMM
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The signal attenuation in the 60GHz frequency band is large, which is not suitable for long-distance transmission (Document 1, Ajung Kim, Young Hun Joo, and Yungsoo Kim. 60GHz Wireless Communication Systems with Radio-over

Method used

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  • High-gain dielectric resonator antenna applied to 60 GHz system
  • High-gain dielectric resonator antenna applied to 60 GHz system
  • High-gain dielectric resonator antenna applied to 60 GHz system

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Embodiment Construction

[0034] The specific embodiments of the present invention are as follows.

[0035] First, select a dielectric resonator antenna whose bandwidth meets the requirements. According to the requirements of the 60GHz system for the small size, high efficiency, and broadband of the antenna, and the characteristics of the dielectric resonator antenna with broadband, small size, and high efficiency, the antenna with a working bandwidth including 57GHz-66GHz is selected according to the theory of the dielectric resonator antenna. The overall layout of the antenna is as figure 1 As shown in (a), the specific structural parameters of the antenna are as follows figure 1 (a) and figure 1 (b) shown. The dielectric constant ε of the cylindrical dielectric resonator ra =10.2, dielectric resonator height H d =0.5mm, radius R d = 1.5 mm. Dielectric substrate thickness h 1 =0.257mm, the length of the dielectric substrate SubLength=7.5mm, the width SubWidth=7.5mm, the dielectric constant ε ...

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Abstract

The invention provides a high-gain dielectric resonator antenna applied to a 60 GHz millimeter wave communication system, belongs to the technical field of electromagnetic propagation and receiving and provides a high-gain dielectric resonator antenna based on an H-shaped slot fractal uniplanar compact electromagnetic bandgap (HSF-UC-EBG) structure. The specific implementation is that a circle of HSF-UC-EBG structure is loaded around a radiating main body of a dielectric resonator antenna; and the high-gain dielectric resonator antenna is characterized in that the gain in a working frequency range of the antenna is effectively improved under the conditions of keeping size and section of the dielectric resonator antenna unchanged. The designed high-gain HSF-UC-EBG dielectric resonator antenna can be used in the 60 GHz millimeter wave communication system and provides guidance for designing a high-gain antenna which works in a high-frequency system.

Description

technical field [0001] The invention provides a high-gain dielectric resonator antenna applied to a 60GHz system, belonging to the technical field of electromagnetic transmission and reception. Background technique [0002] Broadband and wireless are two very important aspects of the main development trend of the communication industry. The 60GHz radio-over-fiber (ROF) communication technology has great application prospects because it meets the requirements of high-bandwidth wireless access. The 60GHz ROF system also has special requirements for the antenna. [0003] 1. Antenna in 60GHz system [0004] In the international 60GHz system, the bandwidth of the license-free frequency band is 9GHz, which is the frequency range of 57GHz-66GHz proposed by Europe. The signal attenuation in the 60GHz frequency band is large, and it is not suitable for long-distance transmission (Document 1, Ajung Kim, Young Hun Joo, and Yungsoo Kim. 60GHz Wireless Communication Systems with Radio-...

Claims

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Application Information

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IPC IPC(8): H01Q1/00
Inventor 纪越峰田慧平罗群赵腊梅
Owner BEIJING UNIV OF POSTS & TELECOMM
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