SU1700652A1 - Microstrip filter - Google Patents

Abstract

The invention relates to radio engineering and can be used in devices for frequency selection of VHF and microwave bands. The goal is to increase selectivity. A microstrip filter contains dielectric substrate 1 with metallization 2 on one side and ROLOSK electromagnetically coupled resonators (PR) 3.4 and 5 on the other side, which are open at one end and short-circuited with the other. To the extreme PR 3 and 5 are connected to the input and output strip conductors 6 and 7, respectively. The electrical length I of the central PR 4 is equal to a quarter of the wavelength, and the electrical length of the PR 3 and 5 is less than the electrical length of the PR 4 by the value of D | 1/5 I. Reducing the electrical length of the PR 3 and 5 weakens the direct transmission of the input signal from the PR 3 to the PR 5 due to partial shielding of the electromagnetic field at their open ends, which increases the slope of the low-frequency slope of the amplitude-frequency characteristic, increasing the selectivity, 1 silt

Description

The invention relates to radio engineering and can be used in radio engineering devices, in particular in devices for frequency selection of VHF and microwave ranges.

The aim of the invention is to increase the selectivity.

The drawing shows the design of a microstrip filter.

The microstrip filter contains a dielectric substrate 1 with a metallization 2 on one side. On the other side of the substrate 1 are located the electromagnetically coupled strip resonators 3,4 and 5, open at one end and shorted from the other ends connected to the metallization 2. To the last strip conductors 3 and 5, the input and output strip conductors 6 and 7 are connected. The electrical length I of the center strip resonator 4 is A / 4, where I is the wavelength of the center tuning frequency. And the electrical lengths of adjacent strip resonators 3 and 5 are less than the length of the central one by the amount (AI) up to 1/5 of its electrical length I.

To match the 50 ohm load and the input source, a partial turn-on (conductive connection) of the input and output strip conductors 6 and 7 is used in the extreme strip resonators 3 and 4, respectively.

Microstrip filter works as follows.

The input signal is fed to the input strip conductor b and at the frequencies of the passband is transmitted resonantly through the strip resonators 3-5 to the output strip conductor 7, and in the band the obstacle is reflected from them. The transmission of the input signal between the strip resonators 3, 4, and 5 is carried out by electromagnetic coupling, determined by the width of the gaps between them, by the dielectric constant of the materials of the dielectric substrate 1.

The reduction of the electrical length of the strip resonators 3 and 5 relative to

the central strip resonator 4 (with an odd number of the total number of strip resonators 3,4,5) up to 1/5 of the electrical length I of the central weakens the direct electromagnetic (capacitive) transmission of the input signal from the strip resonator 3 to the strip resonator 5, min central strip resonator 4. The weakening of this direct electromagnetic transmission occurs due to

partial shielding of the electromagnetic field at the open ends of the strip resonators 3 and 5 by the central strip resonator 4 having a large electrical length. Loss of transmission

leads to an increase in selectivity up to 1.5 times due to an increase in the steepness of the low-frequency slope of the amplitude-frequency characteristic (AFC) by about 2 times and a decrease in the asymmetry of the frequency response, since the high-frequency slope of the frequency response does not change.

Claims (1)

Claims of the invention A microstrip filter containing a dielectric substrate metallized on one side and on the other side of which electromagnetically coupled strip resonators are placed, the ends of which are shorted and the central one has a quarter-wavelength electric length, characterized in that, to increase the selectivity, the length of the strip resonators decreases in the direction from the central to the extreme and the ratio of the difference of the electric lengths of the central and extreme strip resonators to the electric length of the central strip resonator does not exceed 1/5.