SU1234899A1 - Versions of power distributor of radiating array of hybrid reflector antenna - Google Patents

Abstract

The invention relates to radio engineering. Loss is reduced. The device contains multichannel power dividers 1, arranged in M rows and W columns: distribution block 2, consisting of a multichannel switch (MP) 3 and a distribution multipolar circuit (PM) 4. H-ucirrajiSeu iiini instil JIIIIHL lzhI JUiliU JQ III fit tj (L with tc CO 4; 00CD CO

Description

; 1 pfl of PM 4 Made of directional couplers with adjustable coupling. Under paragraph 2, f-ly of PM 4 is made of controlled power dividers and switches. The energy of the microwave signal is fed to the input of the MP 3 and from one of its outputs is directed to the PM 4. From each input of the PM 4 is not excited

The invention relates to radio engineering, namely to SBChS antennas,

The purpose of the invention is to reduce losses.

FIG. Figure 1 shows the functional diagram of the power distribution distributor of the irradiating lattice of the hybrid mirror antenna (GSA); in fig. 2 and 3 - the distributor structural scheme (its variants).

The power distribution distributor of the GZA irradiating lattice contains multichannel power dividers 1 (FIG) located in / and rows N columns, and distribution block 2, which in turn consists of a multichannel switch 3 and a distribution multipole 4.

In the first embodiment (clause 1 of the claims), the distribution multi-terminal 4 is made of directional couplings 5 with adjustable coupling. According to claim 2, the distribution multi-terminal 4 is made up of controllable power dividers 6 and switches 7.

The power distributor of the irradiating grid GSA works as follows.

The energy of the useful signal of the microwave signal is fed to the input of a multi-channel switch, 3 and sent from one of its outputs to a distribution multi-port 4. Not every output of its multi-pole 4 is output to its multi-terminal 4 m. and M N.

Due to this, discrete movement of the excitation zone is provided.

all of its M N N outputs, and only M T n outputs, with no. Signal loss is reduced by 5 dB compared to the loss at the base object. 1 h, para. f-ly, 3 ill.

five

0

Day, which allows changing the orientation in space of the radiation pattern (DH) of the formed GSA.

In this case, the proposed power allocator reduces the signal loss by 5 dB compared to the loss in the base object,

Claims (2)

Invention Formula 1, the power distribution grid of the hybrid mirror antenna irradiating lattice, comprising multichannel power dividers arranged in M rows and W columns, and a distribution unit whose outputs are connected to the inputs of the respective multichannel power dividers, in order to reduce losses, the unit is made of a multi-channel switch and a distribution multi-terminal, and the number of outputs of the multi-channel switch is chosen to be (M - 1) x X (N / 2 - 1) in the case of even N and N 2 N, each output of the multi-channel switch is connected to one of the inputs of the distribution multi-terminal whose outputs are outputs of the distribution block, and B1y) of the multi-channel switch is the input of the distribution block, while the distribution multi-terminal is executed from the directional taps with adjustable coupling, directed response (M - 1) X in the case of odd Adjustable link drivers are arranged in rows and columns so that even directional couplers with regulated linkage, belonging to rows, belong simultaneously to the columns, and between them in each capital are located the input directional linkers with adjustable linkage, the outputs of all odd directional couplers with an adjustable link of each row are the outputs of a distribution multipole, the first inputs of the input directional couplers with adjustable link are the inputs of a distribution multipole yusnik, the first outputs of the input directional couplers with adjustable coupling are connected to the first inputs of the nearest even directional couplers with adjustable connection of the previous line, and the second outputs of the input directional taps with adjustable communication are connected to the second inputs of the nearest even directional taps with adjustable connection of the subsequent line the first outputs of the even directional taps with adjustable communication of each line are connected to the second inputs of the previous previous odd directional taps with each second line is connected to the first inputs of the next consecutive odd directional couplers with an adjustable line connection. 2. The power distributor of the hybrid mirror antenna irradiating lattice, comprising multichannel power dividers located in M rows and W columns, and a distribution unit, each output of which is connected to the inputs of the respective multichannel power dividers, in order to reduce losses distribution block is made of mnogok the switch and the distribution are 50 Schch.c in the last columns of the sub-switch multipole, the number of inputs of the multi-channel switch is chosen to be (M - 1) x X (N - 1), the outputs of the multi-channel switch are connected to the corresponding inputs of the distribution multipole, the outputs of which are distribution outlets The second outputs of all the input controlled power dividers, except the input controlled power dividers, which are the first in the columns, are connected to the first outputs of the closest to them pre 5 10 15 20 25 Q 0 S five block, and the input of the multi-channel switch is the input of the distribution block, while the distribution multi-terminal is made of controllable power dividers and switches, while the controllable power dividers and switches are arranged in rows and columns so that in each row the controllers are odd power, and even - switches the controlled power dividers simultaneously belong to the columns and between them in the columns there are input controlled power dividers and switches, the inputs of all input controlled power dividers are the inputs of a distribution multi-terminal, switchable switch outputs located in the rows, as well as the first outputs of controlled dividers the powers of all rows belonging to the first column and the second outputs of the controlled power dividers of all rows belonging to the last column are outputs distribution multipole, the first pins of the switches of each row are connected to the second outputs of the nearest previous controlled power dividers of a given line, and the second outputs of the switches of each row are connected to the first outputs of the next subsequent controlled power dividers of a given line, the second outputs of the first input controlled power dividers of all columns connected to the inputs of the closest controlled power dividers installed in the same columns and the first row; the first outputs of the last input channeling proxy power dividers all columns are connected to the inputs of the next actuated power dividers set in the same column and last row, the first outputs of all the input power actuated divisors except input yn. equal power dividers are assigned to the second terminals of the next switches next to them in the respective columns, the second outputs of all input controlled power dividers, except for the input controlled power dividers that are in the first columns, are connected to the first positions of the nearest to them the previous switches in the corresponding columns, switchable outputs, switches of switches in all columns are connected to the inputs of the nearest controls. the power dividers pertaining to this column and the corresponding subsequent row, except for the last 5. J-u C (HALF & C t-nempst Z-fc / f KO M- Cfnpofia NI2-0, S cmoflSetj VNIIPI Order 2988/54 Random polygons pr-tie, Uzhgorod, st. Project, 4 Circulation 597 Subscription