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Planar horn antenna for phase amplitude calibration

A horn antenna and amplitude calibration technology, applied in waveguide horns, circuits, etc., can solve the problems of radiation directivity and gain reduction, phase asynchrony, uneven distribution of the electric field intensity and amplitude of the aperture, etc., to increase the aperture efficiency, gain, and amplitude. Evenly distributed effect

Inactive Publication Date: 2015-01-28
SOUTHEAST UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In addition to the characteristics of the horn antenna, the planar substrate-integrated waveguide horn antenna based on the planar substrate-integrated waveguide also realizes the miniaturization and light weight of the horn antenna, and is easy to integrate in the microwave and millimeter-wave planar circuits. The gain of the traditional substrate-integrated waveguide planar horn antenna is relatively low. The reason is that due to the continuous opening of the horn mouth, the phase is not synchronized when the electromagnetic wave propagates to the horn aperture surface, the amplitude distribution of the aperture electric field intensity is not uniform, and the radiation Directionality and Gain Reduction
At present, methods such as dielectric loading and dielectric prisms have been used to correct the horn aperture field, but these methods can only improve the consistency of the phase distribution, but cannot improve the uniformity of the amplitude distribution, and these phase calibration structures increase the overall structural size of the antenna

Method used

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  • Planar horn antenna for phase amplitude calibration
  • Planar horn antenna for phase amplitude calibration

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Embodiment Construction

[0020] The present invention will be further described below in conjunction with drawings and embodiments.

[0021]The embodiment adopted in the present invention is: the planar horn antenna with phase amplitude calibration includes microstrip feeder 1, substrate integrated waveguide horn antenna 2 and embedded metallized via hole 3, and these three parts are all integrated on the same dielectric substrate 4 , one end of the microstrip feeder 1 is the input and output port 5 of the antenna, the other end of the microstrip feeder 1 is connected to the narrow port 6 of the substrate-integrated waveguide horn antenna 2, and the guide strip 7 of the microstrip feeder 1 is connected to the substrate-integrated waveguide The first metal plane 8 of the horn antenna is connected, and the ground plane 9 of the microstrip feeder 1 is connected to the second metal plane 10 of the substrate-integrated waveguide horn antenna; the substrate-integrated waveguide horn antenna 2 is composed of ...

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Abstract

The invention relates to a planar horn antenna, in particular to a planar horn antenna for phase amplitude calibration. The antenna comprises a micro-strip feeder (1), a substrate integrated waveguide horn antenna (2) and embedded plated-through holes (3) which are integrated on a dielectric substrate (4), the micro-strip feeder (1) is connected with an antenna port (5) and a narrow horn antenna port (6), the horn antenna (2) is composed of a first metal plane (8), a second metal plane (10) and two rows of plated-through hole horn side walls (11), a middle plated-through hole array (12), a left plated-through hole array (16) and a right plated-through hole array (17) which are composed of the plated-through holes (3) form four dielectric-filled waveguides in the horn antenna (2), and one ends of the four dielectric-filled waveguides are close to the narrow antenna port (6) while the other ends of the four dielectric-filled waveguides are disposed on an antenna aperture surface (15). The antenna is capable of increasing antenna gain.

Description

technical field [0001] The invention relates to a planar horn antenna, in particular to a planar horn antenna with phase amplitude calibration. Background technique [0002] Horn antennas are widely used in systems such as satellite communications, ground microwave links, and radio telescopes. However, the larger geometric size of the three-dimensional horn antenna and the incompatibility with the planar circuit process make its cost higher, thus limiting the development of its application. In recent years, the proposal and development of substrate-integrated waveguide technology have greatly promoted the development of planar horn antennas. The substrate-integrated waveguide has the advantages of small size, light weight, easy planar integration and simple processing. In addition to the characteristics of the horn antenna, the planar substrate-integrated waveguide horn antenna based on the planar substrate-integrated waveguide also realizes the miniaturization and light w...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01Q13/02
Inventor 殷晓星赵洪新赵嘉宁
Owner SOUTHEAST UNIV
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