SU1169047A1 - Band-pass filter - Google Patents

Abstract

one . BAND-SKIP FILTER, containing a cavity resonator, part of one of the walls of which is made in the form of a dielectric substrate, on which a metallization is applied on the side of the cavity of the cavity resonator, and on the outside side there is a strip conductor forming with a metallization a transfer line, one end of which is the entrance and the other the output of the band-pass filter, the communication hole in the metallization, crossed by the strip conductor in the middle part D, is located perpendicularly to the power l The magnetic field of the operating mode of the cavity resonator is characterized in that, in order to reduce losses, the communication hole is in the form of a slit perpendicular to the strip conductor and forming a half-wave slit line, the characteristic impedance of which is equal to , cottages. 2. Filter POP.1, characterized in that, with the aim of -. In the case of selectivity, additional slots are made in the metallization, and the phase shift in the section of the transmission line jagged between adjacent slots is equal to the phase shift of the working voltage of the cavity resonator in the middle of the adjacent slots. О): о о ||; ь si

Description

The invention relates to microwave technology and can be used in the construction of frequency-selective paths.

The purpose of the invention is to reduce losses and increase selectivity.

Figure 1 shows the construction of a band-pass filter; figure 2 - section aa in figure 1.

The band-pass filter (Fig. 1 and 2) contains a cavity resonator 1, part of one of the walls of which is made in the form of a dielectric substrate 2, on which a metallization 3 is applied on the side of the cavity of the cavity resonator 1, and on the outer side - a strip conductor 4 forming the metallization 3 is a segment of the transmission line, the one end of which is the input 5, and the other the output 6 of the band-pass filter; moreover, the metallization 3 has a communication opening in the form of a slit 7, crossed in the middle part by the strip conductor 4, m perpendicular to the force lines of the magnetic field H of the working oscillation mode of the cavity resonator 1.

The slit 7 is located perpendicular to the slope of the conductor 4 and forms a half-wave segment of the slot line, the characteristic impedance of which is equal to the characteristic resistance of the transmission line segment.

In metallization 3, additional slits 8 can be made; the phase shift in section 9 of the transmission line between the adjacent slits 7 and 8 is equal to the phase shift of the operating voltage of the cavity resonator 1 in the middle of the adjacent slits 7 and 8.

Band-pass filter works as follows.

The configuration and arrangement of the slots 7 and 8 provides an electromagnetic coupling of the field of the cavity resonator 1 with half-wave slots and half-wave slots with a transmission line;

Half-wave segments of the slot line create discontinuities in one of the guides of a segment of the transmission line (in metallization 3) near the resonant frequency. At the resonant frequency, the cavity resonator 1 shunts through the microwave gap 7 and thereby eliminates the breaks in one of the conductors of the segment of the transfer line. Input power passes to output 6 with low losses. When detuning in any direction from the resonant frequency, the shunting effect of the cavity resonator 1 weakens and the input signal is reflected from the sections in which slots 7 and 8 are located.

The equality of the characteristic resistance of the transmission line segment and the wave resistance of the half-wave segments of the slit line ensures their maximum interconnection, thereby reducing insertion losses in the case of selectivity.

ItpK there are several slots (7 and 8) the equality of the phase shift on the section 9 of the transmission line, enclosed between adjacent slots 7 and 8, the phase shift of the working voltage of the oscillating cavity resonator 1 in the middle of the adjacent slots 7, 8 is necessary to ensure shunting of the slots 7 and 8 volume resonator 1 at the resonant frequency. If there are several slots 7 and 8, selectivity increases due to a more dramatic increase in mismatch losses.

Claims (2)

1. A BAND-TRANSMISSION FILTER containing a volume resonator, part of one of the walls of which is made of a dielectric substrate, on which metallization is deposited on the side of the cavity of the volume resonator, and on the outside, a strip conductor forming a section of the transmission line with metallization, one end of which is the input, and the other is the output of the band-pass filter, and in the metallization a communication hole is made, which is blocked in the middle part by a strip conductor located perpendicular to the power line magnetic field working mode of the cavity resonator oscillations, characterized in that, to reduce losses, communication hole formed in the form of slits situated perpendicularly to the strip conductors and forming a half-wave length of the slit line characteristic impedance is equal to the characteristic impedance of the line segment transferred, cottages. 2. Filter pop. 1, characterized in that, in order to increase selectivity, additional slots are made in metallization, while the phase shift in the portion of the transmission line enclosed between adjacent slots is equal to the phase shift of the working voltage of the oscillations of the volume resonator in the middle of adjacent slots.