RU209395U1 - Block of phase shifters - Google Patents

Abstract

The utility model relates to microwave technology and is used in the construction of phased antenna arrays. The block of phase shifters contains a base (1) with ribs (2) located on its both sides, and first and second panels (3) and (4), each of which has stepped windows (7), (8). The phase shifters (5) are installed by the waveguide part between the ribs (2) on both sides of the base (1). Flanges (9) of phase shifters (5) are installed in stepped windows (7), (8), panels (3), (4), in which contact plates (6) are located. Panels (3), (4) are installed on both sides of the phase shifters (5) and are interconnected by the base (1) and racks (10). Achievable technical result of the proposed utility model is to increase the reliability and strength of the block of phase shifters with a dense layout in the shortwave range of waves. 3 z.p., 3 ill.

Description

The utility model relates to microwave technology and is used in the construction of phased antenna arrays.

Known "Module phased antenna array" [SU 1840685 published 27.09.2008 IPC H01Q 13/00], containing a block of horns located with a given step in the nodes of a triangular grid, phase shifters and module mount. In order to ensure a consistent increase in the rectangular aperture of the PAR, the horn block is made of an even number of rows, each of which contains the same number of horns, with each subsequent row of horns alternately shifted by half a step in one direction or the other. The module mounting unit is made in the form of a body placed behind the block of horns in its projection, brackets fixed on the back side of the body and placed on the four side walls of the body of fasteners.

Known "Module phased antenna array" [RU 2704209 published 24.10.2019 IPC H01Q 21/00], containing a housing, components of the phased array beam control system (PAR), phase shifters, emitters placed in a plane in the form of even and odd rows with a fixed step, shifted by half a step relative to each other in a checkerboard pattern. 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 PAA elements that are installed on the end part of one or more printed circuit boards that are components of the beam control system. In this case, even and odd rows of PAR elements are placed respectively 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 means of soldering, and the pitch between the rows is constant, and the module housing as part of the antenna is fastened behind the mounting plane parallel to the plane of the PAR elements. At the same time, a control board is introduced, located in the housing in parallel and from the side of the base, electrically connected to printed circuit boards, on which even and odd rows of PAR elements are placed.

The closest in technical essence is the phasing cell described in the source [Design of phased antenna arrays. / Ed. DI. Voskresensky, 4th edition, revised and supplemented - M .: "Radio engineering", 2012, pp. 549-553]. The cell contains 118 ferrite phase shifters with memory and 6 boards with control circuit elements. On the side of the aperture, the cell has a metal plate with round holes in which 6 rows of phase shifters are installed.

The disadvantages of these technical solutions is the inability to provide a dense layout of the cell (block) with small sizes of the phase shifters.

For short-wave bands of waves, the transverse dimensions of the phase shifters become small, which makes it difficult to assemble them into a single structure. Thus, the technical problem to be solved by the proposed utility model is the creation of a block of phase shifters with a dense arrangement in the short-wave range of waves.

The technical result of the proposed utility model is to increase the reliability and strength of the block of phase shifters with a dense layout in the shortwave range.

The essence of the proposed utility model is that the block of phase shifters contains N phase shifters with flanges, where N is an integer greater than one.

What is new is that a base with ribs, two panels with N stepped windows in each, arranged in two rows, contact plates and racks are additionally introduced. In this case, N phase shifters are installed by the waveguide part between the ribs on both sides of the base, and the phase shifter flanges are installed in the stepped windows of the panels, in which the contact plates are located. The panels are installed on both sides of the phase shifters and are interconnected by the base and racks. The ribs of the base and the rack are made with blind threaded holes, and the panels with through holes. The panels are interconnected by the base and threaded posts with screws installed in the through holes of the panels and blind threaded holes in the base ribs and posts. Phase shifters are located on both sides of the base in a checkerboard pattern.

In FIG. 1 shows a general view of the block of phase shifters.

In FIG. 2 is a front view of the phase shifter assembly.

In FIG. 3 shows an A-A view of the block of phase shifters.

The block of phase shifters contains a base (1) with ribs (2) located on its both sides, and first and second panels (3) and (4), each of which has stepped windows (7), (8). Stepped windows (7), (8) are made in two rows in a checkerboard pattern. The phase shifters (5) are installed by the waveguide part between the ribs (2) on both sides of the base (1) in a checkerboard pattern. Flanges (9) of phase shifters (5) are installed in stepped windows (7), (8) of panels (3), (4), in which contact plates (6) are located. Panels (3), (4) are installed on both sides of the phase shifters (5) and are interconnected by the base (1) and uprights (10) with screws (11) installed in blind threaded holes (12) of the ribs (2) of the base ( 1) and blind threaded holes (13) of the uprights (10) through the through holes (14) in the panels (3), (4).

The block of phase shifters is assembled as follows.

The first panel (3) is connected to the base (1). To do this, the screws (11) are installed through the through holes (14) of the panel (3) into the blind threaded holes (12) of the ribs (2) of the base (1). Contact plates (6) and flanges (9) of one side of the phase shifters (5) are installed in stepped windows (7) of the first panel (3). In this case, the phase shifters (5) are placed on both sides of the base (1). Then, contact plates (6) and flanges (9) are installed in the stepped windows (8) of the second panel (4) on the opposite side of the phase shifters (5). Then racks (10) are installed, and screws (11) are installed in their blind threaded holes (13) through through holes (14) of panels (3), (4). Panels (3), (4), base (1) and posts (10) can be made of various metals, such as steel or aluminum alloys.

Next, the screws (11) are tightly tightened, while the contact plates (6), made, for example, of bronze, are squeezed and fit snugly against the flanges (9) of the phase shifters (5) and the steps of the windows (7), (8) of the panels (3) , (4), and the phase shifters (5) are firmly and securely fixed on the base (1) between the panels (3), (4).

Thus, a strong and reliable combination into a block of a group of N phase shifters (5) with a dense arrangement in the short-wave range of waves is carried out.

Claims (4)

1. A block of phase shifters containing N phase shifters with flanges, where N is an integer greater than one, characterized in that a base with ribs is additionally introduced, two panels with N stepped windows in each, arranged in two rows, contact plates and racks, with In this case, N phase shifters are installed by the waveguide part between the ribs on both sides of the base, and the flanges of the phase shifters are installed in the stepped windows of the panels, in which the contact plates are located, and the panels are installed on both sides of the phase shifters and are interconnected by the base and racks. 2. The block of phase shifters according to claim 1, characterized in that the ribs of the base and the rack are made with blind threaded holes, and the panels - with through holes. 3. Block of phase shifters according to claim 2, characterized in that the panels are interconnected by a base and threaded posts with screws installed in the through holes of the panels and blind threaded holes of the base ribs and posts. 4. Block of phase shifters according to claim 1, characterized in that the phase shifters are located on both sides of the base in a checkerboard pattern.

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