Characteristic Impedances of Rectangular and Circular Waveguides for Fundamental Modes

In this paper we analyze possible approaches for the calculation of characteristic impedances of rectangular and circular waveguides operating at their fundamental modes. Theoretical estimation and comparison of characteristic impedances is necessary for designing of modern microwave devices based o...

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Bibliographic Details
Published in2021 IEEE 3rd Ukraine Conference on Electrical and Computer Engineering (UKRCON) pp. 46 - 51
Main Authors Herhil, Yevhenii, Piltyay, Stepan, Bulashenko, Andrew, Bulashenko, Oleksandr
Format Conference Proceeding
LanguageEnglish
Published IEEE 26.08.2021
Subjects
characteristic impedance
circular waveguide
Circular waveguides
Conferences
current
Cutoff frequency
Estimation
Microwave devices
power
rectangular waveguide
Rectangular waveguides
TE mode
TEM mode
Voltage
wave impedance
waveguide
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DOI10.1109/UKRCON53503.2021.9575359

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Summary:In this paper we analyze possible approaches for the calculation of characteristic impedances of rectangular and circular waveguides operating at their fundamental modes. Theoretical estimation and comparison of characteristic impedances is necessary for designing of modern microwave devices based of guides with different types of cross-sections. For waveguides the characteristic impedance is not a unique value. The paper presents three possible approaches to determine the characteristic impedances of waveguides. The definitions of the maximum voltage and current in the waveguide are proposed. Obtained formulas for characteristic impedances can be used in the development of various microwave devices based on rectangular and circular waveguides. The maximal voltage, current and average power have been defined for the fundamental TE 10 mode of a rectangular waveguide. Based on these values the characteristic impedances for a rectangular waveguide have been obtained. The characteristic impedance for a rectangular waveguide is a product of a coefficient, ratio of narrow and broad wall sizes of a waveguide and its wave impedance. Besides, the maximal voltage, current and average power have been defined for the fundamental TE 11 mode of a circular waveguide. Using these values, the characteristic impedances for a circular waveguide were obtained. The characteristic impedance for a circular waveguide equals to a product of a coefficient and its wave impedance.
DOI:10.1109/UKRCON53503.2021.9575359