SU1474764A1 - Higher-frequency filter - Google Patents

Abstract

This invention relates to a microwave technique. The purpose of the invention is to simplify tuning, provide the possibility of tuning the cut-off frequency and increasing the attenuation in the barrier band. When a microwave signal is applied to transmission line 1, the field of line 1 interacts with a guide system of two conductive pipes 3. The closure of pipes 3 by conductive plates 5, having a rectangular shape, excludes from the spectrum of excited natural waves of such a system a TEM wave and a slit wave . A low cut-off appears, the cut-off frequency of which coincides with the transverse resonance frequency of the magnetic field of two pipes 3 with conductive cuts 4. The value of this frequency is determined by the distance between the pipes 3 and the magnetizing field applied by the magnetic system 6 to two ferrite rods. At microwave frequencies of high cut-off frequency, electromagnetic energy in a guide system from pipes 3 is transferred by a dipole-slit wave and, when it interacts with transmission line 2, is transmitted to the output of the filter. For microwave signals, the frequency of which is less than the cutoff frequency, a portion of hollow tubes 3 with plates 5 forms an outlying waveguide with a large attenuation. 2 Il.

Description

This invention relates to a microwave technique and is intended for high-pass filtering with control of the cutoff frequency.

The aim of the invention is to simplify the tuning, to provide the possibility of tuning the cut-off frequency and to increase the attenuation in the barrier band.

Figure 1 presents the high-pass filter; Figure 2 is the same, frontal projection.

The high-pass filter contains input 1 and output 2 transmission lines, made in the form of segments of the transmission line of the surface wave, two conductive tubes 3 with longitudinal notches 4, two conductive plates 5 of a rectangular shape, magnetic sieve 6 and two ferrite rod The high pass filter works as follows.

When a microwave signal is fed into the input line 1, the field of this line interacts with a guide system of two conductive tubes 3. The closure of the conductive tubes by 3 conductive plates 5 excludes the TEM wave and the slit wave from the spectrum of the excited natural waves of such a system. As a result, a low cut-off appears, the frequency of which (cut-off frequency) coincides with the frequency of the transverse resonance of the two conductive tubes 3 with the conductive cuts 4 antiphased in the magnetic field. The value of this frequency is determined by the distance between the conductive tubes 3 and a magnetizing field applied by a magnet system 6 to two ferrite rods 7.

At frequencies of the microwave signal of high cut-off frequency, the electromagnetic energy in the guide system from conductive tubes 3 is transferred to a dipole-gap full and when it interacts with the output transmission line 2 the transmission is transmitted to the output of the high-pass filter.

For microwave signaling whose carrier frequency is lower than the cutoff frequency, a portion of hollow tubes 3 with conductive plates 5 forms an outlying waveguide with a large attenuation.

Claims (1)

Invention Formula A high-pass filter containing input and output transmission lines and reactive elements connected between them, characterized in that, in order to simplify tuning, to ensure the possibility of tuning the cut-off frequency and increasing attenuation in the barrier band, the reactive elements are made in the form of two conducting pipes with longitudinal cuts , installed symmetrically between two inserted rectangular-shaped conducting plates with the possibility of changing the distance between them, a magnetic system is additionally introduced, whose field perpendicular to the surface of the conductive plates, and two ferrite rods, each of which is placed inside a corresponding conductive tube in a section with conductive plates in the region diametrically opposite to the notches, while the longitudinal axis of the input and output transmission lines, made in the form of surface line segments the waves, the axes facing one another the longitudinal notches of each of the conductive pipes and the longitudinal axes of the ferrite rods lie in the same plane, and the ends of the input and output transmission lines are located etrichno on different sides of the conductive plates between the same ends of the conductive pipe. H -V- " / Have N FIG. 2