SU1683099A2 - Microstrip filter - Google Patents

Abstract

This invention relates to microwave technology and can be used in frequency-selective circuits of miniature paths and devices. The goal is to increase selectivity. The microstrip filter contains a dielectric substrate 1 with a grounding base 2 on one side and strip-shaped V-shaped conductors (П) 3 of quarter-wavelength located on the other side, the branches of which are electromagnetically connected to each other, and the non-neighboring P 3 are inductively connected in their middle part of the strip P 6, short-circuited at the ends. Depending on the number of PZs and additional links, attenuation poles may be formed at frequencies from below, above, or on both sides simultaneously from the passband. 1 il.

Description

b 5

The invention relates to microwave technology, can be used in frequency-selective circuits of miniature paths and devices, and is an improvement to the filter by ed. No. 1309125.

The aim of the invention is to increase the selectivity.

The drawing schematically shows a microstrip filter.

The microstrip filter contains a dielectric substrate 1, on one side of which a grounding base 2 is placed, and on the other side - strip U-shaped conductors 3 quarter-wavelength-length, the branches of which are adjacent are electromagnetically connected one with the other, a, them; the claws 4 and 5 are oriented in one direction, and the strip conductors 6, each of which is short-circuited at the ends and inductively connected with two non-adjacent strip V-shaped conductors 3 in their middle part. At the same time, one of the branches of each strip V-shaped conductor 3 is open at end 4, and the other is closed at the end of 5. For two adjacent strip V-shaped conductors 3, the branches are electromagnetically connected, and the remaining strip V-shaped conductors 3 are closed and open branches.

Microstrip filter works as follows.

The strip V-shaped conductors 3 form a system of coupled resonators, transmitting a microwave signal in the transmission band and reflecting in the barrier band. The required shape of the frequency response is ensured by the proper choice of the values of the connections between adjacent and non-adjacent resonators. Connections between adjacent resonators are determined by gaps between the branches of adjacent strip V-shaped conductors 3. Between non-adjacent resonators a connection is established by strip conductors 6, short-circuited at the ends and inductively connected to V-shaped conductors 3 in their middle part. The parasitic connection between non-neighboring resonators in this circuit is practically absent, non-neighboring resonators are connected only by strip conductors 6. The presence of well-defined connections between non-neighboring filter resonators gives attenuation poles in the obstacle band at specified frequencies, which ensures an increase in the filter selectivity.

In the proposed filter thanks to the mode. in the case of a short circuit at the ends of the conductors 6, the additional connection has an inductive character. The additional coupling of the inductive type gives attenuation poles on both sides of the filter passband, which increases the selectivity of the filter as a whole — both below and above the passband. Depending on the number of resonators and additional connections, the formation of damping poles is possible and a corresponding increase in selectivity at frequencies from below, above or on both sides simultaneously from the passband of the filter.

Claims (1)

The invention formula Microstrip filter according to the author. St. No. 1309125, characterized in that, in order to increase the selectivity, at least one conductor, shorted at the ends and inductively coupled to two non-adjacent strip V-shaped conductors in their middle part, is introduced into it.