RU2704209C1 - Phased antenna array module - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention can be used for systems with phased antenna arrays of reflective type. Essence of the invention consists in that the phased antenna array module comprises a housing, components of a phased antenna array (PAA) beam control system, phase shifters, emitters arranged in plane in the form of even and odd rows with fixed pitch, shifted by half a step relative to each other in staggered order, wherein radiators made in the form of a dielectric antenna and phase changers, made in the form of ferrite reflecting phase changers, are components of PAA elements, which are installed on the end part of one or more printed circuit boards, which are components of the beam control system, wherein the even and odd rows of the phased antenna array elements are placed on the first and second sides of the printed circuit boards, the phased antenna array control circuits are connected to the corresponding contact pads on the printed circuit boards by soldering, wherein pitch between rows is constant, and attachment of housing of module in antenna is implemented as mounting plane, parallel to plane of arrangement of PAA elements.

EFFECT: possibility of simplifying the design, reducing labor intensity.

4 cl, 2 dwg

Description

The invention relates to antenna-feeder devices and can be used in systems with phased reflective array antennas.

A phased antenna array of a reflective type is known, comprising an irradiator located along the central axis of the array, the aperture of which is made in the form of a regular hexagon, in the nodes of the hexagonal grid of which there are circularly polarized radiators, control cells, the outputs of which are connected to the inputs of the control unit, the outputs of which are connected to the inputs a beam control unit containing a first special calculator, wherein each control cell consists of a line of phase shifters and a printed circuit board, while rtura antenna array is in the form of three sublattices of identical rhombic shape, each of which consists of columns and N _o N _o +1 rows disposed at an angle of 120 ° to each other, in each control cell, wherein the aperture is formed as a parallelogram with sides oriented along the rows and columns of the corresponding sublattice, parallel lines of phase shifters and a control board are introduced, and two special computers identical to the first are introduced into the beam control unit, with each special computer connected to the output the control cells of the corresponding sublattice (RF patent No. 2048699, H01Q 21/00, 1995).

The disadvantages of this technical solution are:

- the complexity of the power supply system of large antennas when using this phased reflective array antenna as a base module;

- the non-optimal design of large reflective antennas when using this phased reflective antenna array as a base module, due to the inability to use part of the base module nodes (e.g., irradiator, waveguide path, radiolucent cover) as part of the antenna for their intended purpose.

- high complexity and cost associated with a high range of incoming nodes and components, their structural complexity, as well as a large number of technological processes necessary to ensure the manufacture of this phased reflective array antenna.

- low maintainability associated with high design complexity.

Closest to the claimed technical solution is a phased array antenna module, comprising a block of horns located at a given pitch in the nodes of a triangular grid, phase shifters and a module mounting unit, in which, in order to ensure the sequential build-up of a rectangular aperture of the HEADLIGHT, the block of horns is made of an even number of rows, each of which has the same number of horns, and each subsequent row of horns is alternately shifted by half a step in one direction or the other, and the mounting unit of the module It is made in the form of a housing placed behind a block of horns in its projection, brackets mounted on the back of the housing and placed on the four side walls of the housing of fasteners (USSR AS No. 1840685, H01Q 13/00, H01Q 21/00, 2008).

The disadvantages of this technical solution are:

- high complexity and cost associated with a high range of incoming nodes and components, their structural complexity, as well as a large number of technological processes necessary to ensure the manufacture of this phased reflective array antenna;

- the complexity of the implementation of this technical solution in the millimeter range of operating frequencies.

- low maintainability associated with high design complexity.

The authors were faced with the task of creating a phased array antenna module, devoid of the above disadvantages.

The technical result, the achievement of which the proposed technical solution is aimed at, is to expand the functionality, simplify the design, reduce the complexity and cost.

The technical result is achieved due to the fact that the phased array antenna module, comprising a housing, components of a phased array antenna beam control system (PAR), phase shifters, emitters placed in the plane in the form of even and odd rows with a fixed pitch, shifted by half a step relative to each other each other in a staggered manner, and emitters made in the form of a dielectric antenna and phase shifters made in the form of ferrite reflective phase shifters are components of PAR elements, which are installed on the end part of one or more printed circuit boards that are components of the beam control system, while the even and odd rows of PAR elements are located respectively on the first and second sides of the printed circuit boards, the control circuits of the PAR elements are connected to the corresponding pads on the printed circuit boards using soldering, and the step between the rows is constant, and the mounting of the module casing as part of the antenna is realized for the installation plane parallel to the plane of placement of the PAR elements, while Eden control board located in the housing parallel to and at the base side, electrically connected with the printed circuit boards, which has even and odd rows of elements PAR.

On the printed circuit boards, grooves can be made in which the PAR elements are fixed.

PAR elements can be fixed on printed circuit boards with glue.

In the housing of the phased array antenna module, parallel grooves can be made with a step equal to twice the distance between the even and odd rows of the PAR elements, while the width of the grooves corresponds to the thickness of the printed circuit boards with the PAR elements that are positioned and fixed in these grooves.

The inventive module phased antenna array has a set of essential features not known from the prior art products for this purpose, which allows us to conclude that the criterion of "novelty" for the invention.

The inventive module phased antenna array, according to the applicant and the authors, meets the criterion of "inventive step", because for specialists, it does not explicitly follow from the prior art, i.e. not known from available sources of scientific, technical and patent information at the filing date.

The essence of the proposed technical solution is illustrated using the drawings, where:

- in FIG. 1 shows an embodiment of a phased array antenna module (part of the printed circuit boards with PAR elements mounted on them are not conventionally shown);

- in FIG. Figure 2 shows an embodiment of a printed circuit board with PAR elements installed on it (some of the PAR elements are not conventionally shown).

The phased array antenna module consists of a housing 1, in parallel grooves of which 2 are installed printed circuit boards 3, on which the components of the headlight beam control system are mounted.

PAR elements 4, the constituent parts of which are emitters made in the form of a dielectric antenna, and phase shifters made in the form of ferrite reflective phase shifters, are installed with a fixed pitch on the first and second sides of the printed circuit boards 3. Moreover, the PAR elements 4 installed on the first and second the sides of the printed circuit boards 3, form even and odd rows, which are shifted relative to each other in a checkerboard pattern. For ease of installation of the PAR 4 elements in the printed circuit boards 3, grooves 5 can be made in which the PAR 4 elements are fixed using mainly adhesive.

The parallel grooves 2 are made in the housing 1 with a step equal to twice the distance between the even and odd rows of the PAR 4 elements. This, as well as the fact that the width of the grooves corresponds to the thickness of the printed circuit boards with the PAR 4 elements, which are positioned and fixed in these grooves, ensures constancy step between rows of PAR 4 elements.

In the installation area of the PAR 4 elements, on the printed circuit board 3, contact pads 6 are made, to which, when mounted by soldering, the control circuits of the PAR 4 elements are connected.

A control board 7 is mounted on the base of the housing 1, on which connectors 8 are placed, electrically connected to the connectors 9 mounted on the printed circuit boards 3.

On the housing 1 from the side opposite to the plane of placement of the emitters that make up the PAR 4 elements, a parallel mounting plane is made for which the phased array antenna module is mounted in the antenna.

The assembly of the phased array antenna module is as follows.

In the grooves 5 of the pre-assembled (e.g., according to the SDM-mounting technology of the printed circuit boards 3, the headlights 4 are installed using glue). After the glue dries, the control circuits of the headlights 4 are mounted to the contact pads 6 on the printed circuit boards 3.

Next, the control board 7 is installed on the base of the housing 1, after which circuit boards 3 are installed in the parallel grooves 2 of the housing 1, which are fixed after installation. Moreover, due to the choice of the thickness of the printed circuit boards 3, the configuration and location of the grooves 5 on them, as well as the design of the housing 1 and the location of the parallel grooves 2 in it, positioning of the PAR 4 elements in the plane of their placement is ensured. In addition, the proposed module allows for unlimited increase in the dimensions of the reflective antenna on their basis in two axes, ensuring a constant positioning step both along the rows and across.

The operation of the phased array antenna module, taking into account the above description, is carried out as follows.

As part of the reflective antenna, the signal from the irradiator is fed to dielectric antennas and phase shifters of the PAR 4 elements. After that, the totality of the converted signals from the PAR 4 elements is radiated into free space, ensuring the formation of the necessary radiation pattern of the reflective antenna.

The formation of the control signals for the elements of the PAR 4 is carried out by a beam control system located on the printed circuit boards 3, which are controlled using the control board 7.

At the applicant enterprise, design documentation was developed for the inventive phased array antenna module, a batch of modules was made from which a reflective type headlamp was assembled operating in the eight-millimeter wavelength range, tests of which confirmed the advantages of the claimed solution compared to known devices, including the prototype.

At the same time, it is provided:

- the minimum number of structural elements included in the phased array antenna module, their structural simplicity.

- ease of manufacture due to the use of a small nomenclature of the simplest technological operations, including those performed with minimal human involvement.

- high maintainability due to the use of the same structural elements, the replacement of which does not require additional adjustment or adjustment.

- simplicity of ensuring the minimum pitch of the PAR elements in the plane of their placement, which ensures the simplicity of the implementation of this technical solution in the millimeter range of operating frequencies.

These circumstances allow us to conclude that the phased array antenna module meets the criterion of "industrial applicability" for the invention.

Claims (4)

1. Phased array antenna module, comprising a housing, components of a phased array antenna beam control system (PHA), phase shifters, emitters arranged in a plane in the form of odd and even rows with a fixed pitch, shifted by half a step relative to each other in a checkerboard pattern, characterized the fact that the emitters made in the form of a dielectric antenna and phase shifters made in the form of ferrite reflective phase shifters are components of the PAR elements that are mounted on the end part one or more printed circuit boards that are components of the beam control system, with even and odd rows of PAR elements located on the first and second sides of the printed circuit boards, the control circuits of the PAR elements are connected to the corresponding contact pads on the printed circuit boards by soldering, and the step between the rows is constant, and the mounting of the module housing as part of the antenna is realized for the installation plane parallel to the plane of placement of the PAR elements, while a control board is inserted, located parallel to and on the base side, electrically connected to printed circuit boards on which the even and odd rows of PAR elements are placed. 2. The phased array antenna module according to claim 1, characterized in that the grooves in which the PAR elements are fixed are made on the printed circuit boards. 3. The phased array antenna module according to claim 1, characterized in that the PAR elements are fixed on the printed circuit boards with glue. 4. The phased array antenna module according to claim 1, characterized in that parallel grooves are made in its housing with a step equal to twice the distance between the even and odd rows of PAR elements, while the width of the grooves corresponds to the thickness of the printed circuit boards with the PAR elements that are positioned and are fixed in these grooves.

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