WO1999066594A1

WO1999066594A1 - A wideband microstrip element for array antenna

Info

Publication number: WO1999066594A1
Application number: PCT/CN1999/000080
Authority: WO
Inventors: Kunjie Zhuang; Limeng Xiao; Haijuan Fan; Zhijun Liu
Original assignee: Kunjie Zhuang; Limeng Xiao; Haijuan Fan; Zhijun Liu
Priority date: 1998-06-12
Filing date: 1999-06-11
Publication date: 1999-12-23
Also published as: CN2329091Y; AU4255399A

Abstract

A wideband microstrip element for array antenna has a microstrip feed line, a dielectric layer, a metal ground plate, a coupling window, a first patch and its dielectric substrate, a second patch and its dielectric substrate. Hollow metal pedestal and dielectric abutments are mounted on a metal ground plate in sequence, the dielectric substrate of the first patch is arranged on an opening of the hollow metal pedestal and the dielectric substrate of the second patch is fixed on dielectric abutments, forming resonance cavity between metal ground plate and first patch and between rfirst patch and second patch, respectively. The antenna array described above has characteristics of wide operation frequency band, higher gain, high efficiency, simple structure and easy fabrication.

Description

TECHNICAL FIELD

The present invention relates to an antenna used as a front end of a transmitter and a receiver, in particular to a microstrip array antenna unit.

Background technique

Microstrip antennas, as transceiver front-ends, are widely used in satellite communications, radar, weapon fuze and other systems. At present, practical microstrip array antenna units are mostly single patch units. The center frequency of the work is determined by the size of the patch. The working frequency is narrow, the gain is low, and the efficiency is low. Applications are limited.

Summary of the Invention

An object of the present invention is to overcome the disadvantages of the foregoing prior art and provide a microstrip array antenna unit with a wide frequency band, high gain, and high efficiency.

The object of the present invention is achieved by the following technical solution: A wideband microstrip array antenna unit having a microstrip feeder, a dielectric layer, a grounded metal plate, a coupling window opened on the grounded metal plate, a metal patch, and a patch medium The substrate is characterized by having a first patch and its dielectric substrate and a second patch and its dielectric substrate. The hollow metal support and the dielectric pillar are fixedly connected to the ground metal plate in this order. The sheet is fixed on the hollow hole of the metal support, the dielectric substrate of the second patch is fixed on the dielectric pillar, one is formed between the grounded metal plate and the first patch, and the other is formed between the first patch and the second patch. Resonant cavity.

According to the above structure, the ground metal plate separates the feeder portion from the radiating portion. During operation, the input energy on the feeder line can be coupled into the two resonant cavities through the coupling window, and the first and second two-layer patches are excited by the resonant cavity. Get better impedance matching and radiate as much input energy as possible.

Practice has proved that the working frequency bandwidth (20%), high gain (9dB), and high efficiency of the present invention have the advantages of simple structure and convenient processing. When using it to make an array antenna, each unit can share a ground metal plate, and the hollow metal support can also be made of a thick metal plate to form a microstrip array antenna as a whole.

1

Confirm this Overview of the drawings

The present invention is described in detail below with reference to the drawings and embodiments.

FIG. 1 is a schematic diagram of a longitudinal section of an embodiment of the present invention.

FIG. 2 is a top view of an embodiment of the present invention.

Preferred embodiment of the invention

As shown in FIG. 1 and FIG. 2, the broadband microstrip array antenna unit of the present invention has a microstrip feed line 1, a dielectric layer 2, a ground metal plate 3, a coupling window 4 opened on the ground metal plate, and a first metal patch 6. And its dielectric substrate 7, the second metal patch 8 and its dielectric substrate 9, the hollow metal support 13 and the dielectric pillar 12 are fixedly connected in order on the ground metal plate 3, and the dielectric substrate 7 of the first patch 6 passes through The screw 10 is fixed on the edge step 11 of the hollow hole of the metal support 13, and the dielectric substrate 9 of the second patch 8 is fixed on the dielectric pillar 12. Therefore, between the ground metal plate 3 and the first patch 6, the first A resonant cavity 51, 52 is formed between each of the patch 6 and the second patch 8.

In the embodiment, the area of the first metal patch 6 is smaller than the cross section of the resonant cavity 51 where the first metal patch 6 is located, so that the resonant cavity 51 can excite the first and second metal patches. The cross section of the two resonant cavities can be square, rectangular, or circular, and the shape of the two metal patches corresponds to the cross sectional shape of the resonant cavity.

In order to make the present invention work better, further features are: 1) the areas of the two metal patches are different, 2) the coupling window 4 is located on the center line of the ground metal plate 3 under the resonant cavity 51, and spans Microstrip feeder.

Claims

Rights request

1. A broadband microstrip array antenna unit, comprising a microstrip feed line, a dielectric layer, a grounded metal plate, a coupling window opened on the grounded metal plate, a metal patch, and a patch dielectric substrate, characterized in that it has a first patch The sheet and its dielectric substrate and the second patch and its dielectric substrate are sequentially fixedly connected to the hollow metal support and the dielectric pillar on the grounded metal plate, and the dielectric substrate of the first patch is fixed to the hollow hole of the metal support. The dielectric substrate of the second patch is fixed on the dielectric pillar, and a resonant cavity is formed between the ground metal plate and the first patch, and between the first patch and the second patch.

2. The wideband microstrip array antenna unit according to claim 1, characterized in that the closing window is located on the center line of the ground metal plate under the resonant cavity and spans the microstrip feed line.

3. The wideband microstrip array antenna unit according to claim 1, wherein the areas of the two metal patches are not equal.

4. The wideband microstrip array antenna unit according to claim 1 or 2 or 3, characterized in that the cross-section of the two resonant cavities is square, and the shape of the two metal patches and the cross-sectional shape of the resonant cavity should be.

5. The wideband microstrip array antenna unit according to claim 1 or 2 or 3, characterized in that the cross section of the two resonant cavities is rectangular, and the shape of the two metal patches corresponds to the shape of the cross section of the resonant cavity.

6. The wideband microstrip array antenna unit according to claim 1 or 2 or 3, characterized in that the cross section of the two resonant cavities is circular, and the shape of the two metal patches corresponds to the shape of the cross section of the resonant cavity.