SU1501197A1 - Microwave filter - Google Patents

Abstract

This invention relates to a microwave technique. The purpose of the invention is to reduce losses by increasing the self-quality of the filter. The microwave filter contains waveguides 1,2 and 3, the dielectric insert 4 and the flanges 5. The microwave signal coming from the input segment 1 passes to the output segment 2 due to the excitation of the insert 4, which has resonant dimensions and is installed in section 3, when the frequency of the signal is close to its resonant frequency. Near the longitudinal ribs of the insert 4, the electromagnetic field is significantly weakened, thereby reducing the amplitudes of conduction currents in the metal walls of segment 3. This leads to an increase in the Q-factor of the microwave filter and to a decrease in losses. An effective increase in the intrinsic quality factor of the filter is also achieved by allowing the two-view excitation of orthogonal oscillations of the same resonant frequency in the insert 4. 2 Il.

Description

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The invention relates to a microwave technique and is intended for use in frequency selective devices of the microwave paths.

The purpose of the invention is to reduce. losses by lowering its own quality factor of the filter.

Figure 1 shows the construction of a microwave filter; FIG. 2 is a section A-A in FIG. 1. FIG.

The microwave filter contains an input and output segments of a rectangular waveguide 1.2, the walls of which are parallel and between which a segment of the waveguide 3 is included, in which the dielectric contribution 4 is divided, in the form of a rectangular parallelepiped of resonant sizes. The waveguide 3 has a rhombus cross section, the axes of which are perpendicular to the wide and narrow walls of the input and output segments of the waveguide 1,2, respectively, and the dielectric insert 4 is attached to the walls of the waveguide 3 by the longitudinal ribs 3. The input and: output segments of a rectangular waveguide 1 , 2 are connected to the waveguide length 2 by flanges 5.

The device works as follows.

The high frequency signal from the input segment of the rectangular waveguide 1 passes to the output segment of the rectangular waveguide 2 due to the excitation of the dielectric insert 4 of the resonant dimensions of the waveguide 3 installed in the segment when the signal frequency is close to its resonant frequency.

Due to the choice of the cross-sectional shape of a waveguide segment 3 in the form of a diamond, the axes of which are perpendicular to the wide and narrow walls of the input and output segments of the rectangular waveguide 1,2, the dielectric contribution 4 in the form of a rectangular parallelepiped of resonant dimensions only metal longitudinal ribs.

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In this case, the electromagnetic field of the operating mode of oscillation is concentrated mainly in the dielectric insert 4 so that near the longitudinal edges it is significantly weakened, thereby reducing the amplitudes of conduction currents in the metal walls of the waveguide 3 and, therefore, reducing the losses and increasing the Q-factor of the microwave filter.

Due to the indicated selection of the cross section of the waveguide 3 and its orientation relative to the wide and narrow walls of the input and output segments of the rectangular waveguide 1.2, the electric field vector of the main feed wave H / s decomposes into orthogonal components in the waveguide 3, which allows two-way excitation of orthogonal oscillations of the same resonant frequency in the dielectric contribution 4, thereby achieving an effective increase in the self-quality of the filter.

Claims (1)

Formula invented and A microwave filter containing input and output segments of a rectangular waveguide whose walls are parallel and connected between them is a segment of a waveguide, inside of which is placed a dielectric contribution in the form of a rectangular parallelepiped of resonant dimensions, losses by increasing the quality factor, the waveguide section has a diamond shaped cross section, the axes of which are perpendicular to the wide and narrow walls of the input and output segments of the rectangular waveguide, respectively, dielectric-. Comical insert with longitudinal ribs. mounted on the walls of the segment of the waveguide.