SU1524112A1 - Bandpassing microwave filter - Google Patents

Abstract

This invention relates to a microwave technique. The purpose of the invention is to increase the selectivity by increasing the self-quality of the filter. The filter contains a segment 1 of the limiting waveguide, dielectric resonators / DP / 2, dielectric supports / DP / 3, equipped with axial rotation screws 7, input and output conductors having a wedge-shaped section 6. The RF signal enters the input conductor, excites electromagnetic oscillations in the chain DR 2 and passes to the output conductor without attenuation if the frequency of the RF signal lies in the passband of the filter. Performing PD 2 in the form of elliptical cylinders, evenly spaced along the length inside segment 1 and installed on DP 3 with the possibility of axial rotation, allows for optimal filter setting. The goal is achieved by increasing the quality factor of the DR 2. 2 Il.

Description

.S g

t

Ukfi

/////

SP Is9

Ji

to

Phie, 2

J j

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

The aim of the invention is to increase the selectivity by increasing the self-quality of the filter. .

Figure 1 shows the schematic design of a microwave pass filter; figure 2 - section aa in Fig.I.

The microwave pass-through filter contains a segment of the outbound waveguide 1, inside of which dielectric resonators 2 are cascade-mounted, mounted on dielectric supports 3, mounted with the possibility of rotation around its axis, and electromagnetically connected with each other, and most of them are connected with input and output conductors 4 n 5. Dielectric resonators 2 are made in the form of elliptical cylinders, and input and output conductors 4 and 5 have a wedge-shaped AopNry with a cut-off length of 6 equal to the larger axis of the elliptical ring Indra. The dielectric stand 3 is equipped with screws 7 axial rotation, and above the dielectric resonators 2 screws 8 adjust the resonance frequency.

The band-pass microwave filter works as follows.

The high-frequency signal coming from the input conductor 4 excites electromagnetic oscillations in the chain of dielectric resonators 2 and passes to the output conductor 5 without weakening if the frequency of the high-frequency signal lies in the passband of the filter.

Performing dielectric resonators 2 in the form of elliptical cylinders uniformly placed along the length inside the segment of the outlying waveguide 1 and installed on the dielectric supports 3 with the possibility of axial rotation allows independent adjustment of the mutual relationship between the dielectric resonators

0

five

0

five

0

five

0

0

t-ai 2 and between the extreme dielectric resonators 2 and the input and output conductors 4 and 5, i.e. ensure optimal tuning of the microwave passband filter. At the same time, due to the choice of dielectric resonator 2 in the form of elliptical cylinders, in which there are no central holes and radial slits, an increase in the quality factor of dielectric resonators 2 is achieved due to a decrease in the concentration of the electromagnetic field of the operating mode of oscillations in the dielectric resonator 2. Additional losses in the extreme dielectric resonators 2 is associated with the implementation of the input and output conductors 4 and 5, having YUSHNOVID1SH1Y cut 6, whose length is equal to the largest size of the ellipse nical tsiliidra, wherein the achieved increase dobrotiosti extreme dielectric resonators 2 by reducing the area of the cut 6 kliiopndiogo input and output conductors 4 and 5 is not accompanied by a decrease in external sp.chzi.

Claims (1)

Invention Formula A microwave pass-through filter containing a segment of an outlying waveguide, inside of which dielectric resonators are mounted in cascade, mounted on dielectric supports, fixed with rotation around its axis, and electromagnetically coupled with each other, and the outermost of which are connected with secondary II output 1L1m conductors, respectively, but with the fact that, in order to increase the selectivity by, increasing their own quality factor, the dielectric resonators are made in the form of elliptic rings ndrov and installed along the length of the wave beyond the limit of the waveguide uniformly, and the input and output conductors are wedge-shaped with a cut length equal to the major axis of the elliptical cylinder. 1