SU987721A1 - Microwave filter - Google Patents

Description

 5 4} SUPERHIGHTSKRF WITH 1 SHY FILTER

The invention relates to radio engineering and is used for frequency selection and signal processing in various devices and hybrid integrated circuits on strip transmission lines.

A microwave filter is known that contains segments of input and output stripline transmission lines / perpendicularly to each of which an open stripe loop is connected and magnetized ferrite resonators II are located between the segments of the input and output polyscope transmission lines.

However, a known microwave filter is characterized by a limited frequency tuning range.

The purpose of the invention .- extension of the working range of the full-scale rebuilding,. -

The goal is achieved by the fact that, in an ultra-frequency filter, a hiccup of open strip strips is made with a convex iio width at the middle of its length, with the convexity facing the corresponding segment of the strip transmission line, and the open-strip width.

The woopeup varies from its ends to the region within the limits of

(0, MO, 9; w () b,

W is the width of the open strip; .

- .. b-- thickness of the dielectric substrate of the strip transmission line.

ten

FIG. 1. shows a superfrequency filter, a hypereteral / cross section) in Fig.2 is a section about A – A in FIG. 1 with one ferrite resonator; on Fig.Z - Fo same:, with two ferrtones j e3OHaTopaMH.

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The ultra high frequency filter contains segments, the input and output strip lines 1 and 2 dogs in the dachn / open strip. loops 3 and 4 and a ferritic resonator 5 located on a dielectric substrate 6. In the region of the location of the ferrite resonator 5 a magnetic system 7 is placed.

The ultra-high-pass filter works on the trail} in a real way. .

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Claims (1)

The segments of the input and output KPOBbtx transmission lines 1 and 2 are connected through a ferrite 1 resonator 5 in the ferromagnetic resonance band. In order to achieve a strong connection and / consequently / a minimum level of minimum with a high-frequency magnetic field transverse to the magnetization of the ferrite resonator S, it should be highly concentrated in the region of the latter. Outside the ferromagnetic resonance band, the segments of the input and output lines 1 and 2 of the transmission must be separated. The best parameters of the microwave filter are reached at the frequency at which the input resistances of the open strip lines 4 are zero, i.e. guard at the short circuit to the point of their connection. In this case, the shunting effect of the opened strip lines 3 and 4 is most pronounced, and the ferrite resonator 5 is located in the antinodes of the transverse magnetic fields of the input and output strip lines 1 and 2 of the transmission. In the microwave filter, each open strip train 3 and 4 is made with a convexity in width not in the middle of its length, with the convexity of Obritz towards the corresponding segment of the strip line 1 and 2 of the transmission. The width of each open strip loop 3 (4) varies within the specified limits. With this form of open strip loops, a small deviation of their input resistances from zero is provided in a wide frequency range, i.e. a mode close to a short circuit at the points of connection of the open strip lines 3 and 4 to the input and output segments, strip lines 1 and 2 of the transmission. Due to this, a wider range of frequencies maintains a high level of non-resonant attenuation and a high intensity of the microwave magnetic field in the region of the ferrite resonator 5. The latter causes a strong coupling between the input and output stripe transmission lines 1 and 2 and, consequently, a low level of minimum losses ferromagnetic resonance band. The opening of the broken strip loops 3 and 4 with one-sided convexes and the orientation of the latter in different directions provides an increase in the gap between the pt closed polo;; loosen the microwave filter. In the proposed microwave filter, an extra resonance attenuation of at least 34 dB is provided in the frequency range 0.8-5.4 GHz. The use of an ultra-high-frequency filter using open-ended strip loops having a bulge in the width in the middle of their length allows the use of a planar manufacturing technology and the advantages of printed circuit techniques in the development of multi-octave ultra-high frequency filters. The invention includes a microwave filter containing segments of the input and output strip transmission lines, perpendicular to each of which an open loop strip is connected, and in the attachment region of the open strip strip there are at least one Ferrite resonator and a magnetic circuit between the segments of the input strip strip. system, characterized in that, in order to expand the working range of the frequency tuning, each of the open-loop strip loops is made with convexity the width w at the middle of its length, with the convexity turned towards the corresponding segment stripline transmission line, and the width of the strip open loop varies from its ends to the middle in the range (0, 9). where W is the width of an open stripe-v loop; B is the thickness of the dielectric substrate of the strip transmission line. Sources of information taken into account during the examination 1. USSR author's certificate 701441, cl. H 01 R 1/20, 1979 (prototype) fug. /