SU1578776A1 - Microwave diplexer - Google Patents

Abstract

The invention relates to radio engineering and can be used in frequency-selective circuits of the microwave path. The purpose of the invention is to increase selectivity and reduce overall dimensions. The microwave diplexer contains the input segment of the waveguide 1 and two output segments of the waveguide 2 and 3, connected with it by means of the first and second band-pass filters (PF), tuned to different resonant frequencies. The FS are made on cylindrical dielectric resonators (DR) 4 and 5 installed in the holes of diaphragm 8 in the plane of the junction of the input 1 and output 2 and 3 of the waveguide segments. DR 4 is oriented coaxially with the hole, and DR 5 is perpendicular to the axis of the hole. The resonant frequency of DR 4 is chosen equal to the frequency of the low-frequency attenuation pole of the second IF, and for DR 5 it is equal to the frequency of the high-frequency attenuation pole of the first IF. This increases the isolation of signals in the PF, increasing the diplexer selectivity with decreasing dimensions. 2 Il.

Description

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The invention relates to a VLF technique and can be used in frequency-selective path chains.

The purpose of the invention is to increase the selectivity by reducing the spurious passage of the signal of the adjacent frequency channel and reducing the overall dimensions.

Figure 1 shows the structure.

Microwave digshexera; in fig. 2 - the same section.

The microwave diplexer contains the input section of the waveguide 1 and two output sections of the waveguide 2 and 3, connected with it by means of the first and second band-pass filters tuned to different resonant frequencies, and each band-pass filter is made on a cylindrical dielectric resonator 4, 5 installed in corresponding to the holes 6 and 7 of the diaphragm 8, located in the plane of the junction of the input segment of the waveguide 1 and the two output segments of the waveguide 2 and 3.

The first cylindrical dielectric resonator 4 is oriented axially with the orifice 6 of the diaphragm 8, and the second cylindrical dielectric resonator 5 is perpendicular to the axis of the orifice 7 of the diaAragm 8, respectively. The resonance frequency of the first cylindrical dielectric resonator 4 is chosen equal to the frequency of the low-frequency extinction pole of the second bandpass filter, and the resonant frequency of the second cylindrical dielectric resonator 5 is equal to the frequency of the high-frequency extinction pole of the first band filter.

The microwave diplexer works as follows.

The two high-frequency signals at frequencies f, and f2 entering the input section of waveguide 1 are passed and separated respectively by output sections of waveguide 2 and 3, due to the frequency selectivity of the first and second bandpass filters of which passband is set to the indicated frequencies ff and f of signals.

The implementation of bandpass filters on cylindrical dielectric resonators 4 and 5, installed in the holes b and 7 of the diaphragm 8, located in the plane of the junction of the input segment of the waveguide I and two output

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waveguide sections 2 and 3, reduces the overall dimensions of the microwave diplexer by reducing the length of the input and output segments of waveguide 1 and 2 and 3 at their junction.

By choosing the orientation of the cylindrical dielectric resonator 4, which is installed coaxially with the aperture 6, the formation of the high-frequency attenuation pole in the frequency response (amplitude-frequency characteristic) of the first band-pass filter when the resonator 4 is excited at EH (f type of working oscillation, and with the orientation of the cylindrical dielectric resonator 5) the axis of the hole 7, the formation of the low-frequency extinction pole in the frequency response of the second band-pass filter when the resonator 5 is excited for the working oscillation vetstvenno.

The choice of tuning the resonant frequency of the first cylindrical dielectric resonator 4 to the frequency of the low-frequency attenuation pole of the second bandpass filter and the resonant frequency of the second cylindrical dielectric resonator 5 to the frequency of the high-frequency extinction pole of the first bandpass filter, respectively, attenuates the parasitic passage of the adjacent frequency channel signal, which leads to an increase in the selective frequency of the diplexer without increasing the number of band filter links,

Adjusting the frequency of the attenuation poles is achieved by selecting the diameter of the holes 6 and 7, the thickness of the diaphragm 8, or in general, using the beyond sections that provide the inductive character of the introduced heterogeneity in the path.

Claims (1)

Invention Formula A microwave diplexer containing an input waveguide section and two output waveguide sections associated with it by the first and second band-pass filters tuned to different resonant frequencies, characterized in that, in order to increase the selectivity by attenuating spurious signal passage and reducing the overall dimensions, each gppos filter is made on a cylindrical dielectric resonator installed in the corresponding aperture of the diaphragm located in the plane of the junction of the input and two output waveguide segments, while the first cylindrical dielectric resonator is oriented coaxially with the aperture of the diaphragm, and the second cylindrical dielectric resonator the torus is perpendicular to the axis of the hole, the resonant frequency of the first cylindrical dielectric resonator being equal to the frequency of the low-frequency attenuation pole of the second band-pass filter, and the resonant frequency of the second cylindrical dielectric resonator being equal to the frequency of the high-frequency extinction pole of the first band-pass filter, respectively.