A Bandpass Filter–Polarizer Based on a Dielectric Multilayer with Strip Conductor Gratings

A Bandpass Filter–Polarizer Based on a Dielectric Multilayer with Strip Conductor Gratings

A new design of a multilayer bandpass filter is proposed, in which each resonator consists of two identical dielectric layers with parallel strip conductor gratings on their outer surfaces and an orthogonal strip conductor grating between the layers. The filter designed on the basis of crossed grati...

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Bibliographic Details
Published in:Doklady. a journal of the Russian Academy of Sciences. Physics Vol. 65; no. 7; pp. 225 - 229
Main Authors: Belyaev, B. A., Tyurnev, V. V., Voloshin, A. S., Leksikov, An. A., Galeev, R. G., Shabanov, V. F.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-07-2020
Springer Nature B.V
Subjects:
Bandpass filters
Classical Mechanics
Conductors
Electric fields
Electromagnetic radiation
Frequencies
Mathematical and Computational Physics
Multilayers
Physics
Physics and Astronomy
Polarization
Polarizers
Strip
Theoretical
Three dimensional models
insertion loss
bandpass filter
return loss
frequency response
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Summary:A new design of a multilayer bandpass filter is proposed, in which each resonator consists of two identical dielectric layers with parallel strip conductor gratings on their outer surfaces and an orthogonal strip conductor grating between the layers. The filter designed on the basis of crossed gratings works simultaneously as a polarizer transparent in a specified frequency band if the electric field vector of a wave is parallel to the outer strip conductors but reflects waves with an orthogonal polarization. The data from a numerical electrodynamic analysis of a 3D model of the proposed device agree well with the results of the measurements performed on the fifth-order filter–polarizer prototype with a relative bandwidth of 14% and a central frequency of 13.4 GHz. The microwave power loss in the filter passband is ~1.2 dB under parallel polarization of the electromagnetic wave and more than 40 dB under orthogonal polarization.
ISSN:1028-3358
1562-6903
DOI:10.1134/S1028335820050067