SU1545268A1 - Ferrite filter - Google Patents

Abstract

The invention relates to electronics. The purpose of the invention is to improve the suppression of spurious bandwidths. The filter contains two segments 1 and 2 of rectangular waveguides interconnected through a communication hole 3 in a common wide wall 4, and magnetized ferrite resonators 5 and 6, placed in segments 1 and 2 with narrow walls 7 and 8. When applying microwave - oscillations in resonators 5 and 6 are generated by the main type of oscillations, minor types of oscillations and others. When adjusting the filter, the separation between the resonant frequencies of the main and minor types of oscillations is preserved. Therefore, when combining the resonant frequencies of the main types of oscillations of the resonators 5 and 6, the resonant frequencies of the minor types of oscillations of these resonators 5 and 6 do not coincide. The frequency x-ka filter is determined by multiplying the frequency x-k resonators 5 and 6. The goal is achieved by making resonators 5 and 6 from a material with the same saturation magnetization and choosing the height of narrow walls 7 and 8 of segments 1 and 2 from a given ratio. 1 il.

Description

The invention relates to the field of microwave electronics and can be used in radio installations for various purposes, in particular in receiving systems and radio measuring equipment.

The aim of the invention is to improve the suppression of spurious passband.,

The drawing shows a ferrite filter

The filter contains two segments of rectangular waveguides 1 and 2, connected to each other through a communication hole 3 15 in a common wide wall 4, and magnetized ferrite resonators 5 and 6, located in segments of rectangular waveguides 1 and 2, respectively. Ferrite resonators 5 and 6 20 are made of a material with the same saturation magnetization, and the heights b ₍ -, where i = 1,2, of the narrow walls 7 and 8 of the segments of rectangular waveguides 1 and 2 satisfy the relation 25

where d; - the diameter of the magnetized ferrite resonators 5 and 6;

ar = 11.3.4 (A s / m) ~ ^{1, e} 'k is the wave number;

Δΐ · - defined 'spacing difference of the resonance frequencies of homogeneous and heterogeneous species Ko ³³ oscillations magnetized ferrite resonator 5 or 6 and in the free space in the corresponding segment of the rectangular waveguide 2 and 1 M, /

M _o is the saturation magnetization of ferrite.

Ferrite filter operates as follows.

When microwave oscillations are applied to the magnetized ferrite resonators 5 and 6, the main oscillation mode 110 (uniform precession) and minor modes of oscillation, for example 210, and ^ 0 others (inhomogeneous precession) are excited. Re (dk ₂ ) from the resonance frequency of this type of oscillation in a ferrite resonator 5 (6) located in free space. The influence of the walls of a segment of a rectangular waveguide 1 (2) on the resonant frequencies of minor types of vibrations of a ferrite resonator 5 (6) is negligible, therefore, the difference between the resonant frequencies of the main and minor types of vibrations of a ferrite resonator 5 (6) also depends on the height of the narrow wall of a segment of a rectangular waveguide 1 (2) and differs by a value of q ₅ (dG _t ) from the separation between these frequencies in the case when the magnetized ferrite resonator 5 (6) is in free space. When tuning the filter, the separation between the resonant frequencies of the main and minor modes of vibration is preserved, therefore, when combining the resonant frequencies of the main types of vibrations of ferrite resonators 5 and 6, the resonant frequencies of the minor types of vibrations of these resonators do not coincide. The frequency response of the filter is determined by multiplying the frequency characteristics of the ferrite resonators 5 and 6.

Claims (1)

Claim A ferrite filter containing two segments of rectangular waveguides connected to each other through communication holes in a common wide wall, and magnetized ferrite resonators placed in segments of rectangular waveguides, characterized in that, in order to improve suppression of spurious passband, the magnetized ferrite resonators are made of material with the same saturation magnetization and height b; , where i = 1,2, the narrow walls of each segment of a rectangular waveguide satisfy the relation The resonance frequency of the main mode of oscillation of the ferrite resonator 5 (6) depends on 6m of height 1), (b ₇ ) of the narrow wall 7 (8) of the segment of the rectangular wave-55 water 1 (2) and, provided that the magnetizing external magnetic fields are identical, H _о differs by the value where d · 'is the diameter of the magnetized ferrite resonator; aG = I, 34 (A s / m) ‘^; k is the wave number; M _a - magnetization of saturation of ferrite; ZJf. - the specified difference in the spacing of the resonant frequencies of the homogeneous and inhomogeneous modes of vibrations of the magnetized ferrite resonator in free space and in the corresponding segment of a rectangular waveguide, iff / Af _a .