SU930439A1 - Band-pass rejection filter - Google Patents

Description

(54) STRIPED REJECTOR FILTER

one

This invention relates to radio engineering and can be used in high frequency circuits of radio engineering systems.

A notch filter is known that contains a main line and half-wave resonators associated with the main line of the distributed link, the length of the communication area of each half-wave resonator being less than its length and a quarter of the wavelength at the center frequency of the obstacle 1.

However, the known strip notch filter has a low dielectric strength due to the concentration of a significant part of the electrical energy of the resonators in the region of the edge capacitances formed by the open ends of the resonators.

The purpose of the invention is to increase the electrical strength of the filter.

This goal is achieved by the fact that in a band reject filter containing a main line and half-wave resonators associated with the main line of a distributed link, with the length of the link area of each half-wave resonator less than its length, each half-wave resonator is short-circuited at both ends and its length

. 2

the communication area is less than AJS, where A ,, is the wavelength at the center frequency of the barrier. The drawing shows a schematic representation of the design of the band notch filter.

5The strip notch filter contains the main line 1 and half-wave resonators 2 connected to the main line of the distributed link, and the length of the communication area 3 of each half-wave Qo 2 of Q 2 is less than Яо / 8, the half-wave resonators 2 are short-circuited at both ends. Since the half-wave resonators 2 are short-circuited at both ends, there is no concentration in the resonators associated with the edge capacitances. On the other hand,

15, since the length of the communication region 3 is less than AO / 4, the maximum voltage between each resonator and the body of the band-rejection filter is in the region of the non-coupled part of the resonator 2,

However, depending on the cross-section of the strip line used and the configuration of its bending, a small reduction in the length of the communication region 3 relative to I, / 4 can lead to a very small increase, or not to increase at all.

electrical strength. The greatest effect is achieved when not only the maximum voltage, but also the maximum intensity of the electric field is in the region of the unrelated part of the resonator 2. The bending of the strip line has a twice smaller discharge power than its regular portion. Consequently, the square of the stress at the point of the bend of the line should be 1/2 or less than the square of the maximum stress. Since V2 (x) sin 271-- -, the length of the communication area 3 must be less than.

In addition, with this limitation on the length of the communication area 3, it is possible to arrange the resonators on one side of the main line 1, which allows us not to increase the size of the strip notch filter.

The possibility of increasing the electric strength was experimentally confirmed.

in the filter of this design in comparison with the known filters 4-5 times.

Claims (1)

1. Wenzel R. I. Printed-circuit Complementary Filters for Narrow Bandwidth multiplexers, Theory and Techniques, v. MTT-16, 1968, No. 3, p. 150