SU1277256A1 - Microstrip filter - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to increase the selectivity. The device contains dielectric. substrate 1 metallized on one side 2, on the other side of the cut are placed electromagnetically coupled half-wave strip resonators (SPR) 3 open at the ends, the extreme ones of which are connected with input and output pole corresponding resonant resonators, respectively. Each SPR 3 is electromagnetically connected on one part of the length with the previous SPR 3, and on the other parts of the length - with the subsequent SPR 3. The ends of SPR 3 lie on two straight lines, perpendicular to them. 2 Il. (L

Description

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Claims (1)

The invention relates to radio engineering and can be used in radio engineering devices for various purposes, in particular in frequency selection devices. The aim of the invention is to increase the selectivity. FIG. 1 shows a microlap filter; in fig. 2 is a view A of FIG. 1 A microstrip filter contains a dielectric substrate 1 metallized on one side 2, on the other side of which there are electromagnetically coupled semi-oscillatory strip resonators 3 open at the ends, the outermost of which are connected to the input 4 and output strip 5 resonators respectively, while each half-wave strip resonator 3 is electromagnetically coupled on one part of the length with the previous half-wave strip resonator 3, and on the other part of length - with the subsequent half-wave strip resonator 3. At the same time, the middle of each of the half-wave strip resonators 3 is located between two straight lines passing through the opposite ends of any half-wave strip resonator 3 perpendicular to it. Microstrip filter works as follows. The microstrip filter is a complex multi-wire structure with a varying in length interaction between adjacent half-wave. strip resonators 3. In a first approximation, neglecting the electromagnetic coupling between parts of neighboring half-wave strip resonators 3 located at a greater distance, the microstrip filter can be represented as a cascade of elementary units composed of segments of connected parts neighboring half-wave strip resonators 3, the total interaction of which forms the amplitude-frequency characteristic (AFC) of the microstrip filter. Each elementary link forms its own decay pole, the location of which on the frequency axis is determined by the length of the communication region. At the phase velocities of even and odd waves, the attenuation bands are realized in the associated microstrip lines and are always located to the left of the center frequency f of the passband and the frequency response of the microstrip filter has higher selectivity in the upper frequencies. A microstrip filter containing a dielectric substrate, metallized on one side, on the other side of which half-wave strip resonators are open, open at the ends and electromagnetically interconnected, and the extreme ones of which are associated with the input and output strip resonators, respectively, with the middle each of the half-wave strip resonators is located between two straight lines passing through the opposite ends of any half-wave strip perper resonator Dikulja angles to it, characterized in that, in order povyleni selectivity poloskovsh each half-wave resonator electromagnetically coupled to one part of the length of the half-wave resonator with predschuschim and the other part of its length - followed by a half-wave resonator stripe. 3 j -5 -J (plf.2