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Balance microstrip line transition full-mode dual-ridged integrated waveguide feed dipole printed antenna

A technology of balancing microstrip lines and symmetrical oscillators, applied in the directions of antennas, electrical components, and radiating element structures, etc., can solve the problems of large radiation loss of antennas and narrow single-mode operating bandwidth of substrate-integrated waveguides, and achieve small size and structure. The effect of compactness and miniaturization

Active Publication Date: 2013-01-30
HARBIN INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The present invention solves the problem that the existing balanced microstrip line feed antenna will produce large radiation loss, which is not conducive to the application in occasions requiring a long feed distance and the problem that the single-mode working bandwidth of the substrate integrated waveguide is narrow, and further proposes Balanced microstrip line transition full-mode double-ridge integrated waveguide-fed symmetrical dipole printed antenna

Method used

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  • Balance microstrip line transition full-mode dual-ridged integrated waveguide feed dipole printed antenna
  • Balance microstrip line transition full-mode dual-ridged integrated waveguide feed dipole printed antenna
  • Balance microstrip line transition full-mode dual-ridged integrated waveguide feed dipole printed antenna

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specific Embodiment approach 1

[0010] Specific implementation mode one: combine Figure 1 to Figure 10Describe this embodiment. The balanced microstrip line transition full-mode double-ridge integrated waveguide-fed symmetrical oscillator printed antenna in this embodiment includes a semicircular symmetrical oscillator assembly, a loading disc 3, an upper dielectric substrate 4, and a middle dielectric substrate. 5. The lower dielectric substrate 6, the metal patch on the upper dielectric substrate 7, the metal patch on the upper dielectric substrate 8, the metal patch on the lower dielectric substrate 9, the metal patch 10 on the lower dielectric substrate, and the upper dielectric substrate Metal patch 11, metal patch 12 under the middle dielectric substrate, metal transition piece 23, metal strips 13 under the two upper dielectric substrates, metal strips 14 on the two middle dielectric substrates, two lower dielectric substrates Metal strip 15, two metal strips 16 on the lower dielectric substrate, two ...

specific Embodiment approach 2

[0013] Specific implementation mode two: combination Figure 5 to Figure 10 Describe this embodiment, the length of the upper dielectric substrate 4 of the balanced microstrip line transition full-mode double-ridge integrated waveguide-fed symmetrical oscillator printed antenna described in this embodiment is 50 mm, the width of the upper dielectric substrate 4 is 35 mm, and the upper dielectric substrate 4 is 35 mm wide. The thickness of the substrate 4 is 1.5mm, the length of the middle dielectric substrate 5 is 112mm, the width of the middle dielectric substrate 5 is 35mm, the thickness of the middle dielectric substrate 5 is 1.5mm, and the length of the lower dielectric substrate 6 is 50mm, The width of the lower dielectric substrate 6 is 35mm, the thickness of the lower dielectric substrate 6 is 1.5mm, the length of the metal patch 11 on the middle dielectric substrate is 50mm, and the width of the metal patch 11 on the middle dielectric substrate is 16mm. The thickness o...

specific Embodiment approach 3

[0014] Specific implementation mode three: combination Figure 7 and Figure 8 Describe this embodiment. The balanced microstrip line transition full-mode double-ridge integrated waveguide integrated waveguide-fed symmetrical oscillator printed antenna in this embodiment has a radius of 11 mm, a radius of the right oscillator 2 is 11 mm, and a wafer 3 is loaded. The radius is 2 mm, and the distance L1 between the left vibrator 1 and the right vibrator 2 is 2 mm. Other components and connections are the same as those in the first embodiment.

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Abstract

The invention provides a balance microstrip line transition full-mode dual-ridged integrated waveguide feed dipole printed antenna which relates to a dipole printed antenna, and particularly to a balance microstrip line transition full-mode dual-ridged integrated waveguide feed dipole printed antenna. The invention solves the problems that the traditional balance microstrip line feed antenna can not be beneficial to application to an occasion needing longer feed distance due to larger radiation loss and a substrate integrated waveguide single-mode working bandwidth is narrower. A left oscillator and a right oscillator are symmetrically printed on the upper surface of the other end of an intermediate medium substrate along a center line of the intermediate medium substrate, the straight side of the left oscillator and the straight side of the right oscillator are respectively in parallel to the center line of the intermediate medium substrate and are far away from the center line, the arc-shaped side of the left oscillator is connected with a short balance microstrip line on the upper surface of the intermediate medium substrate, a load wafer is connected with the arc-shaped side of the left oscillator, and the middle of the arc-shaped side of the right oscillator is provided with a fourth metalized through hole. The invention is used in the field of radio.

Description

technical field [0001] The invention relates to a symmetrical vibrator printed antenna, in particular to a balanced microstrip line transition full-mode double-ridge integrated waveguide fed symmetrical vibrator printed antenna. Background technique [0002] Ultra-wideband antennas have a very wide frequency band and can transmit information at high speed in wireless transmission, so they have received widespread attention. There are many definitions of ultra-wideband at present. The frequency band of civilian ultra-wideband specified by the US Federal Communications Commission (FCC) is 3.1GHz -10.6GHz, its specific bandwidth reaches 3.42:1, and the definition of ultra-wideband antenna is usually more than 2:1. For the research of ultra-wideband antenna, researchers have proposed a variety of schemes: 1. Various special-shaped The monopole of this kind of antenna can obtain omnidirectional radiation, and if its size is miniaturized, it can become a time-domain antenna; Secon...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01Q1/38H01Q13/08
Inventor 林澍田雨陆加刘梦芊荆丽雯刘曦马欣茹
Owner HARBIN INST OF TECH
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