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Thin-substrate phase amplitude correction broadband difference-beam planar horn antenna

A horn antenna and amplitude correction technology, applied in waveguide horns, circuits, etc., can solve problems such as low gain of horn antennas, zero depth of differential beam antennas, out-of-phase synchronization, etc., to correct phase and amplitude inconsistencies, feed loss is small, The effect of operating frequency bandwidth

Inactive Publication Date: 2014-02-19
SOUTHEAST UNIV
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  • Abstract
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Problems solved by technology

In addition, 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, and the amplitude distribution of the aperture electric field intensity is not uniform. The radiation directivity and gain are reduced, making the zero depth of the formed differential beam antenna shallower and the slope lower, which affects the direction finding accuracy of the radar
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

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Embodiment Construction

[0026] The embodiment adopted in the present invention is: thin substrate phase amplitude correction broadband difference beam planar horn antenna includes a microstrip feeder 2 arranged on a dielectric substrate 1, a substrate integrated horn antenna 3 and a plurality of logarithmic periodic oscillators 4; The first port 5 of the microstrip feeder 2 is the input and output port of the antenna, and the second port 6 of the microstrip feeder 2 is connected to the substrate integrated horn antenna 3; The first metal plane 7, the second metal plane 8 located on the other side of the dielectric substrate 1, and two rows of metallized via hole horn sidewalls 9 passing through the dielectric substrate 1 to connect the first metal plane 7 and the second metal plane 8, basically The width between the two rows of metallized via hole horn side walls 9 of the chip integrated horn antenna 3 gradually increases to form a horn-shaped opening, and the end of the opening is the aperture surfac...

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Abstract

The invention provides a thin-substrate phase amplitude correction broadband difference-beam planar horn antenna and relates to a horn antenna. The thin-substrate phase amplitude correction broadband difference-beam planar horn antenna comprises a micro-strip feeder line (2), a horn antenna body (3) and log-periodic oscillators (4) which are located on a dielectric substrate (1), wherein the horn antenna body (3) consists of a first metal plane (7), a second metal plane (8) and two rows of metalized via hole horn side walls (9). The horn antenna body (3) is provided with an odd number of metalized via hole arrays (11) and an even number of dielectric-loaded waveguides (15), the dielectric-loaded waveguides (15) on the caliber face (10) of the horn antenna body (3) are identical in width and respectively connected with one of the log-periodic oscillators (4), and a left-half antenna (13) and the log-periodic oscillators (4) connected with the left-half antenna (13) are symmetric with a right-half antenna (14) and the log-periodic oscillators (4) connected with the right-half antenna (14). The polarization direction of a radiation field is parallel to the substrate. The thin-substrate phase amplitude correction broadband difference-beam planar horn antenna can be manufactured by using the thin substrate and is wide in frequency band, high in gain, large in null depth, low in cost and compact in structure.

Description

technical field [0001] The invention relates to a horn antenna, in particular to a planar horn antenna with thin substrate phase amplitude correction broadband difference beam. Background technique [0002] Horn antennas are widely used in systems such as satellite communications, ground microwave links, and radio telescopes. However, the huge geometric size of the three-dimensional horn antenna restricts its application and development in planar circuits. 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 integration and fabrication. The planar substrate-integrated waveguide horn antenna based on the planar substrate-integrated waveguide not only has the characteristics of the horn antenna, but also realizes the miniaturization and light weight of the horn antenna, and is easy to in...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01Q13/02
Inventor 殷晓星赵洪新王磊
Owner SOUTHEAST UNIV
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