RU1775763C - Microwave filter - Google Patents

Abstract

The invention relates to microwave technology and can be used in frequency selective circuit paths. The purpose of the invention is to simplify customization. The microwave filter contains the main and additional segments of a rectangular waveguide. An additional segment is connected by an end face through a resonance gap in the narrow wall of the main segment. A cylindrical dielectric resonator (CDD) is installed in the region of the resonant gap. In order to fasten and move the DAC, an additional antenna antenna of length Л / 2 is introduced; The MDC is mounted symmetrically with respect to the plane of the loop antenna and can be moved along it. 1 ill.

Description

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The invention relates to the field of radio engineering and can be used in multi-link blocking filters in a transceiver apparatus for various purposes.

The purpose of the invention is to simplify filter settings.

The drawing shows the design of the filter.

The microwave filter consists of a rectangular waveguide 1, to the narrow wall of which is attached a segment of a rectangular waveguide 2, forming a branch in the plane N. The connection between the waveguides 1 and 2 is carried out using a resonant diaphragm 3 cut through the narrow wall of the waveguide 1. In the center aperture 3. perpendicular to her

a plane antenna 4 is installed on the plane, with an Al / 2 length (Al is the wavelength in the waveguide).

A dielectric resonator 5 is mounted in the loop antenna 4, with the possibility of longitudinal movement along it, in which Eon-type oscillations are excited. To this end, rectangular grooves are cut in the end surfaces of the resonator 5 in the center.

The microwave filter operates as follows. The electromagnetic wave enters the filter input and passes to its output 2. Under the influence of the incident electromagnetic wave, the frame antenna 4 and the diaphragm 3 are excited, which in turn excite the waveguide 2. where a Nu-type wave also propagates. Along the loop antenna 4 as in the X-axis

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About CO

there is a cylindrical resonator whose resonant frequency is equal to the center frequency of the barrier, and vibrations with other frequencies do not excite it and are reflected from the diaphragm. Thus, if the frequency of the signal received at the input of the filter 1 lies far from the frequency of the obstacle, then it passes to the output of the II filter. In this case, if the signal frequency coincides with the center frequency of the filter, then the signal passes to the arm of the III filter. By moving the dielectric resonator along the loop antenna, it is possible to establish an optimal connection between waveguide 1 and waveguide 2 using a resonator.

Claims (1)

The formula is also invented by a microwave filter containing the main segment of a rectangular waveguide and an additional segment of a rectangular g Ch 5 a waveguide connected to it by an end through a resonant slot in a narrow wall of the main segment of a rectangular waveguide, forming an H-plane branching, and a cylindrical dielectric resonator installed in the region of the resonant gap, characterized in that, in order to simplify the setup, a frame antenna with a length of Al / 2, where L is the wavelength in the main segment of the rectangular waveguide mounted symmetrically with respect to the resonant slit and lying in the plane of the cross section of the main segment of the rectangular waveguide, and a cylindrical dielectric resonator is installed symmetrically with respect to the plane of the frame antenna with the possibility of movement along it. 1