EA034417B1 - Polarization selector - Google Patents

Abstract

The invention relates to the field of antenna technology and can be used as an element of a receiver-transmitter unit (RTU) to connect the antenna input/output of the RTU to the input of the reflector feed. The objective of the invention is to reduce signal loss between the polarization selector (PS) and the RTU, as well as interfacing the RTUs with each other without introducing additional UHF tracts in the "1+1" mode, in which two communication intervals are organized which transmit the same information, with automatic selection of the best communication channel. PS consists of two identical sequentially connected sections, arranged coaxially, each of which contains a circular waveguide, with an attached rectangular waveguide. Each section contains two short-circuited stubs in a circular waveguide, and in a rectangular waveguide there is a pin probe that is connected by a loop vibrator. First section of the PS is installed in the first RTU and is connected via a rectangular waveguide to the antenna input of the first RTU, and the second section is installed in the second RTU and is connected through a rectangular waveguide to the antenna input of the second RTU, whereas the second RTU is connected coaxially with the first RTU and rotated by 90°.

Description

The invention relates to the field of antenna technology and can be used as an element of the transceiver unit (hereinafter - VII) for connecting the antenna input / output of the VII to the input of the irradiator of the mirror antenna.

Known polarization selector (see patent RU 2265259, MIC N01P1 / 161, publ. November 27, 2005 bull. No. 33), made on a round waveguide in the form of a waveguide tee, containing segments of waveguides of circular and rectangular sections, as well as the transition from round to rectangular the waveguide section, at the output of the rectangular section of the waveguide and at the exit of the transition from round to rectangular section of the waveguide, is established by the polarization lattice. A metal plate, an inductive rod, a tuning screw are installed in a segment of a circular waveguide, and matching diaphragms are installed in a segment of a rectangular waveguide, and the space in a segment of a rectangular waveguide with matching diaphragms is filled with a dielectric with a low dielectric constant. The disadvantage of such a polarization selector is the additional attenuation of the signal due to the need to introduce additional interface devices (microwave paths) between the polarization selector and the WII.

Known polarization selector (see patent RU 2440646, MIC N01P1 / 161, publ. 01/20/2012 bull. No. 2), including a square waveguide, two rectangular smoothly tapering waveguides symmetrically fit to the side walls, at the inputs of which rods are vertically mounted, and behind them in a square waveguide are a metal plate and a transforming step transition to a rectangular cross section, and symmetrically located rectangular waveguides end with internal coaxial waveguide transitions, which go to two narrower symmetrically arranged rectangular waveguide, rotated through 90 ° relative to the input waveguide, and are summarized in a rectangular waveguide. The disadvantage of such a polarization selector is the additional attenuation of the signal due to the need to introduce additional interface devices (microwave paths) to connect the polarization selector (hereinafter - IC) and BII, as well as large dimensions.

The closest technical solution (prototype) is a polarization selector (see patent SU 1756983, MIC N01P1 / 161, publ. 08/23/1992 bull. No. 31), containing segments of a circular waveguide, located coaxially, to each of which is attached a segment of a rectangular waveguide, whose wide wall is parallel to the axis of the segment of the circular waveguide, and the segments of the rectangular waveguide are orthogonal. In each segment of the circular waveguide, a matching element and a metal plate are installed, which is located along its diameter in the connection region of the segment of the rectangular waveguide in a plane perpendicular to its wide wall. The metal plate has an I-shaped shape, a length equal to the length of a segment of a circular waveguide, and a distance between the sides, which is equal to the diameter of a segment of a circular waveguide. Each matching element is made in the form of a short-circuited segment of a rectangular waveguide connected to a segment of a circular waveguide and located diametrically opposite to the corresponding segment of a rectangular waveguide. The wide walls of the short-circuited segment of the rectangular waveguide are parallel to the wide walls of the corresponding segment of the rectangular waveguide, and each segment of the circular waveguide is made of two half-cylinders.

The disadvantage of the prototype is the use of additional microwave paths to connect the IS and BII, which lead to additional signal loss in the antenna path.

The objective of the invention is to reduce signal loss between the IS and VII, as well as pairing the BIL with each other without introducing additional microwave paths in the 1 + 1 mode, in which two communication intervals are organized, along which the same information is transmitted, with automatic selection of the best channel communication.

The problem is solved in that the IP consists of two identical sections connected in series, located coaxially. Each section contains a circular waveguide with a rectangular waveguide attached, two short-circuited loops in a circular waveguide, and a pin probe connected to a loop vibrator in a rectangular waveguide. In this case, the first IC section is installed in the first VII unit and connected through a rectangular waveguide directly to the antenna input of the first VII, and the second section is installed in the second VII and connected through the rectangular waveguide to the antenna input of the second VII. The first VII is connected to the second VII coaxially with a 90 ° rotation.

The invention is illustrated in the drawing, which shows one section of the IP in the context.

The IC consists of two identical coaxially arranged sections, each of which contains an input 1 to which a microwave signal is supplied, a rectangular waveguide 2, a circular waveguide 3, an output 4 of a rectangular waveguide 2, an input 5 of a circular waveguide 3, a pin probe 6 connected to a loop a vibrator 7, through which a wave is excited in a rectangular waveguide 2, and short-circuited loops 8 and 9.

IP works as follows.

If a microwave signal is input to input 1 of the first section of the IC, which coincides in polarization with the probe 6 of the first section of the IC, the microwave signal excites a loop vibrator 7. And the microwave signal does not pass to

- 1 034417 input 5 of the circular waveguide 3, reflected from the short-circuited loops 8 and 9 located from the probe 6 at distances multiple of λ / 4. The loop vibrator 7 excites the wave at the output 4 of the first section of the PS in the rectangular waveguide 2 without loss and is connected directly to the antenna input of the first BPP (not shown in the figure).

When applying to the input 1 of the first section of the PS of the microwave signal in orthogonal polarization relative to the pin probe 6 of the first section of the PS, the microwave signal passes to input 5 of the circular waveguide 3 without loss, and to the output 4 of the rectangular waveguide 2 with attenuation of 35-40 dB. Next, the microwave signal enters the input 1 of the second section of the PS located in the second BPP coaxially with the first section of the PS and rotated relative to the latter by 90 ° along with the second BPP. In this case, the microwave signal coincides in polarization with the pin probe 6 of the second section of the PS, it is extracted without loss at the output 4 of the second section of the PS, and is connected directly to the antenna input of the second BPP.

Thus, this technical solution allows to reduce the signal loss between the PS and the BPP, as well as to pair the BPP with each other without introducing additional microwave paths in the 1 + 1 mode, in which two communication intervals are organized, along which the same information is transmitted, with automatic selection of the best communication channel.

Claims (1)

CLAIM A polarization selector, consisting of two identical sections connected in series coaxially, each of which contains a round waveguide, with a rectangular waveguide attached, characterized in that it further comprises two short-circuited loops in a circular waveguide in each section and a pin probe connected to a loop vibrator, in a rectangular waveguide, while the first section of the polarizing selector is installed in the first block of the transceiver (BPP) and connected through a rectangular waveguide backhoes to the antenna input of the first PPO and the second section is set in the second PPO and through a rectangular waveguide connected directly to the aerial input of the second PPO, PPO and wherein the second attached coaxially with the first PPO rotated by an angle of 90 °.