阅读说明：本技术 一种低剖面宽带滤波阵列 (Low-profile broadband filter array ) 是由 张�诚 杨兵 丁涛杰 毛臻 孙晓冬 于 2019-10-24 设计创作，主要内容包括：本发明公开一种低剖面宽带滤波阵列,属于微波通信技术领域。所述低剖面宽带滤波阵列包括依次设置的顶层、次顶层、次底层和底层；其中,所述顶层上设有2×2偶极子阵列；所述次顶层包括谐振器和两块贴片,所述谐振器上加载有短路枝节；所述次底层为金属地；所述底层包括功分线和馈线,所述功分线与所述谐振器电连。本发明能够实现拓展工作带宽和提高带外抑制水平的效果；并且通过在偶极子阵列与金属地之间插入谐振器的方式,降低偶极子阵列剖面高度。(The invention discloses a low-profile broadband filter array, and belongs to the technical field of microwave communication. The low-profile broadband filter array comprises a top layer, a secondary bottom layer and a bottom layer which are sequentially arranged; wherein, the top layer is provided with a 2 multiplied by 2 dipole array; the secondary top layer comprises a resonator and two patches, and short circuit branches are loaded on the resonator; the secondary bottom layer is a metal ground; the bottom layer includes a power splitting line and a feed line, the power splitting line being electrically connected to the resonator. The invention can realize the effects of expanding the working bandwidth and improving the out-of-band inhibition level; and the cross-sectional height of the dipole array is reduced by inserting a resonator between the dipole array and the metal ground.)

1. A low-profile broadband filter array is characterized by comprising a top layer (1), a secondary top layer (2), a secondary bottom layer (3) and a bottom layer (4) which are sequentially arranged; wherein the content of the first and second substances,

a 2 x 2 dipole array (10) is arranged on the top layer (1);

the secondary top layer (2) comprises a resonator (21) and two patches (22), and short circuit branches (23) are loaded on the resonator (21);

the secondary bottom layer (3) is a metal ground;

the bottom layer (4) includes a power dividing line (41) and a feed line (42), and the power dividing line (41) is electrically connected to the resonator (21).

2. A low-profile broadband filter array according to claim 1, wherein said metal ground is perforated with circular holes (31).

3. A low-profile broadband filter array according to claim 2, wherein the resonators (21) are provided with metal vias (24), and the power line (41) passes through the circular hole (31) and is electrically connected to the resonators (21) through the metal vias (24).

4. A low-profile broadband filter array according to claim 1, wherein the resonators (21) couple radio frequency signals to both patches (22) and the dipole array (10) simultaneously to achieve radiation characteristics.

5. The low-profile broadband filter array of claim 1, wherein the two patches (22) are both square in shape.

Technical Field

The invention relates to the technical field of microwave communication, in particular to a low-profile broadband filter array.

Background

With the rapid development of wireless communication technology, filter antenna arrays are receiving more and more attention from scholars at home and abroad. The filter antenna array has the advantages that the overall size, the structural complexity and the transmission loss of a system can be effectively reduced, and the mutual coupling problem caused by the close arrangement of a plurality of antennas working at different frequency points can be effectively reduced.

For the existing filter array, the most traditional way is to cascade the antenna array and the band-pass filter to obtain the filter response, but the design method will increase the size of the antenna, causing impedance mismatch and gain loss. In order to improve the gain and impedance matching characteristics of the antenna, two filter antenna array design modes are reported at home and abroad: one is to embed the resonator in the feed network of the array antenna; another employs a conventional power splitting network to feed antenna elements with filtering characteristics. For these two designs, the spacing between the antenna elements usually needs to be larger than 0.5 airwave to obtain effective combination of the element gain, and the size of 0.5 airwave is large, so that it is difficult to realize the miniaturization design of the array.

In addition, the dipole antenna with the close ground is more and more emphasized due to its simple structure and excellent function. Generally, the profile height of a conventional dipole antenna is required to reach 0.25 air wavelength, and when the profile height is reduced to a certain degree, the antenna will have impedance mismatch. In order to realize the low profile of the dipole antenna, various low profile design techniques are reported at home and abroad: a folded dipole is horizontally placed to increase the impedance of an antenna; one is to use a periodic structure to change the reflection phase, such as electromagnetic band gap, artificial magnetic conductor, high resistance surface, and parasitic structure between dipole and metal ground. However, it is difficult to achieve the filtering characteristics of the antenna for these several types of technologies.

Disclosure of Invention

The invention aims to provide a low-profile broadband filter array to solve the problems that the spacing of antenna units in the traditional dipole filter array needs to reach 0.5 air wavelength, and the traditional low-profile design technology is difficult to realize the filter characteristic.

In order to solve the technical problem, the invention provides a low-profile broadband filter array, which comprises a top layer, a secondary bottom layer and a bottom layer which are sequentially arranged; wherein the content of the first and second substances,

a 2 x 2 dipole array is arranged on the top layer;

the secondary top layer comprises a resonator and two patches, and short circuit branches are loaded on the resonator;

the secondary bottom layer is a metal ground;

the bottom layer includes a power splitting line and a feed line, the power splitting line being electrically connected to the resonator.

Optionally, a circular hole is formed in the metal ground.

Optionally, a metal through hole is formed in the resonator, and the power dividing line passes through the circular hole and is electrically connected to the resonator through the metal through hole.

Optionally, the resonator couples the radio frequency signal to the two patches and the dipole array at the same time, so as to implement the radiation characteristic.

Optionally, the two patches are both square.

The invention provides a low-profile broadband filter array, which comprises a top layer, a secondary bottom layer and a bottom layer which are sequentially arranged; wherein, the top layer is provided with a 2 multiplied by 2 dipole array; the secondary top layer comprises a resonator and two patches, and short circuit branches are loaded on the resonator; the secondary bottom layer is a metal ground; the bottom layer includes a power splitting line and a feed line, the power splitting line being electrically connected to the resonator.

The invention has the following beneficial effects:

(1) three reflection zeros are generated in the antenna passband, so that the effect of expanding the working bandwidth is achieved;

(2) the high end and the low end of the antenna passband respectively generate a radiation zero point, so that the effect of improving the out-of-band rejection level is achieved;

(3) the effect of reducing the section height of the dipole array is achieved by inserting the resonator between the dipole array and the metal ground;

(4) the resonator is used for feeding the 2 x 2 dipole array positioned above the resonator, and the effect of reducing the unit distance under the condition of keeping the array gain not to be reduced is achieved.

Drawings

FIG. 1 is a schematic structural diagram of a low-profile broadband filter array provided by the present invention;

FIG. 2 is a schematic diagram of the top layer structure of a low-profile broadband filter array;

FIG. 3 is a schematic diagram of a second-to-top structure of a low-profile broadband filter array;

FIG. 4 is a schematic diagram of a sub-substructure of a low-profile broadband filter array;

FIG. 5 is a schematic diagram of the bottom structure of a low-profile broadband filter array;

FIG. 6 is a schematic diagram of the impedance matching and gain response of a low-profile broadband filter array provided by the present invention;

FIG. 7(a) is an E-plane pattern of a low-profile broadband filter array at an operating frequency;

fig. 7(b) is an H-plane pattern of a low-profile broadband filter array at the operating frequency.

Detailed Description

The following describes a low-profile wideband filter array according to the present invention in further detail with reference to the accompanying drawings and specific embodiments. Advantages and features of the present invention will become apparent from the following description and from the claims. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention.