SU1406674A1 - Waveguide power divider for phase-locked aerial grid - Google Patents

Abstract

The invention relates to the field of radio engineering and m. B. used in the microwave paths for dividing the power and adjusting the phase of the signal in the output channels. The purpose of the invention is to reduce the longitudinal overall size of the device. The device contains a segment of the input waveguide 1 connected to a waveguide splitter (BP) 2, segments of output waveguides 3, phase shifters 4, corner bends 5, made 90-degree, tees (T) 6, raised by H-plane and connected through Herringbone corner bends, inductive pins 7, installed at branch points T 6. The shoulders 8 of the last row of T 6 and BP 2 are parallel and are its outputs. The adjustment of T 6 is done by adjusting the position of the inductive pins 7. If necessary, increasing the separation between the shoulders T 6, the latter are made double and loads are established in their arms E. If there are three or more power dividing levels to increase the operating frequency band T 6 even power dividing levels are performed with a difference in arm lengths equal to LL / 4 (L (, is the wavelength in the waveguide), excluding the last row of T 6. 6 . (L

Description

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The invention relates to radio engineering and can be used in microwave paths for dividing power and adjusting the phase of a signal in output channels.

The purpose of the invention is to reduce the longitudinal overall size of the device.

The drawing shows the structure of a wave divider mosh.nost for phased antenna array.

Waveguide divider for phased antenna repgatki contains a segment of the input waveguide 1, connected to the waveguide splitter 2, segments of the output waveguides 3, connected to the outputs of the waveguide splitter 2 and arranged in parallel, phase shifters 4, installed in each of the segments of the output waveguides 3, angled bends 5, made 90-degree, tees 6, made H-plane and connected through:, 1k bends 5 according to the herringbone-type scheme 7. installed in the branches of the tees 6. The shoulders 8 of the last row of tees 6 in the waveguide splitter are pairs 2 pairs and in-; | ei o exits.

A waveguide power divider for a phased antenna receptacle operates as follows.

The microwave signal enters the segment of the input waveguide 1 and is successively divided by means of tees 6 in waveguide splitter 2. Adjusting the phase of the signal in the output channels. 1x is carried out with the help of phase shifters. Setting 4. Troy

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NIKS 6 is produced by adjusting the position of the inductive pins 7 at the branch points of the signal. If it is necessary to increase the separation between the shoulders of the tees 6, the latter are made double and loads are established in their shoulders E. When there are three or more levels of dithering to increase the operating frequency band, the tees 6 even levels of power dividing are performed with a difference in arm lengths equal to L (, / 4, l is the wavelength in the waveguide), excluding the last row of tees 6.

Claims (1)

Invention Formula A waveguide power divider for a phased antenna array, containing a segment of the input waveguide connected to a waveguide splitter, made on tees and corner bends, n segments of output waveguides connected to the outputs of the waveguide splitter and arranged in parallel and in each of which a phase shifter is installed, characterized in that, in order to reduce the longitudinal overall size, in the waveguide branching., the tees through angular bends, which are made 90-degree, are connected according to e type “herringbone, with the tees on the top, 1 naps of the N-plane and in the areas of their branching are installed inductive pins, and n, 1 and the last row of tees are parallel and in the output of the waveguide) - tel.