SU1026203A1 - Microstrip anti-parallel rod filter - Google Patents

Abstract

MICROPOSTER FILTER ON COUPLING RODS, containing a dielectric substrate with a grounding base, on the one hand, on the other side are connected parallel quarter-wave half-resonant resonators, and one opposite end of the quarter-wave strip resonators are connected to the grounding base of the diagrams, connected to the grounding base of the resonators; open and at and so that, in order to increase the selectivity, each quarter-wave strip resonator is made in the idea of several connected conductors, one the ends of which are connected to the grounding base ..

Description

The invention relates to radio engineering and can be used in radio engineering devices, in particular, in microelectronic devices of frequency selection of VHF and UHF ranges with increased requirements for selectivity and dimensions.

A microstrip filter is known. On the opposite rods, there is a dielectric substrate with a grounding base on one side, on the other side of which there are parallel-connected quarter-wave strip resonators, with one opposite ends of the adjacent quarter-wave strip resonators connected to the grounding base, and the others are open. Jl i

This filter is compact, has attenuation poles at a frequency of 1.5 d., Which increases its selectivity, however, due to the presence of parasitic passbands at harmonics, selectivity is insufficient.

The purpose of the invention is to increase the selectivity.

To achieve this goal, a microstrip filter on counter-rods containing a dielectric substrate with a grounding base on one side, on the other side of which are parallel-connected quarter-wave strip resonators, with one opposite end of adjacent quarter-wave strip resonators connected to the grounding base, and the others are open, each quarter-wave strip resonator is made in the form of several connected conductors, whose ends of the same name are dinene with grounding base.

FIG. 1 shows a microstrip filter on the counter rods, end view; in fig. 2 - quarter-wave strip resonators.

. The microstrip filter on the opposite rods contains a dielectric substrate 1 with a grounding base 2, on the other side of the dielectric substrate 1 there are parallel connected quarter-wave strip resonators 3. Some opposite ends of the neighboring quarter-wave stripes of the resonators 3 are connected to the grounding base 2, and others are open. At the same time, each quarter-wave losine resonator 3 is made in the form of several connected conductors 4, whose ends of the same name are connected to the grounding base 2.

The proposed microstrip filter operates as follows. The input signal is fed to one of the outermost conductors 4, and the output one is removed from the other outermost conductor 4. Partial wiring (conductive coupling) is used to match the 5.0 ohm load. The selective properties of such a filter are determined by its structure, t, e, the relative position of the conductors 4, and the boundary conditions at their ends (idle, short opening). A microstrip filter is a structure consisting of two types of links that are distributed among themselves.

A link of the same type is composed of conductors 4, some of the same name, the ends of which are connected to the grounding base 2, and the others open. Such a link has two attenuation poles, one of which is located in the frequency range, & l, 5fo, and the second -, 1, f. 2fQ (where f is the central frequency of the first bandwidth) ..

This achieves an increase in selectivity.

A link of a different type is made up of conductors 4, some opposite, the ends of which are connected to the grounding base 2, and the others are open, the extinction pole of such a link is located in the frequency range

l, 5fo f

 2f ,,. Each of the idealized links has spurious bandwidths at frequencies, KpaiT foj and attenuation poles in the frequency range fg. f 2fj ,, In this case, the characteristic resistances of both idealized links differ by an order of magnitude or more, i.e. in case of a cascade connection, they will be inconsistent, and the principle

5 works of each of the links, since one link serves as a distributed Load for the other, and the filter as a whole is matched at a frequency fg, At multiple frequencies

Q this condition is not met / what

leads to attenuation in the region of these frequencies,

The micro-bandpass filter on the counter rods as compared to the known one provides a higher attenuation in the obstacle band, and at the frequencies of the attenuation poles more than 70 dB is suppressed, harmonics are suppressed

0 not less than 20 dB,

Claims (1)

MICRO-STRIP FILTER ON BRIDGE SURFACES, containing a dielectric substrate with a grounding base on one side, on the other side of which are parallel-connected quarter-wave strip resonators, with one opposite end of the adjacent quarter-wave strip resonators connected to the ground base, and the other open and And with the fact that, in order to increase selectivity, each quarter-wave strip resonator is made in the form of several connected conductors of the same name e ends of which are connected to the ground base. . > i