General Synthesis of Tapered Matching Sections for Single-Mode Operation Using the Coupled-Mode Theory

General Synthesis of Tapered Matching Sections for Single-Mode Operation Using the Coupled-Mode Theory

In this paper, a novel and general method to synthetize microwave waveguide tapers intended for single-mode operation is proposed. The technique is based on the use of an exact series solution of the inverse scattering synthesis problem. An additional strategy necessary for dealing with waveguides w...

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Bibliographic Details
Published in:IEEE transactions on microwave theory and techniques Vol. 67; no. 9; pp. 3511 - 3526
Main Authors: Percaz, Jon M., Arnedo, Israel, Arregui, Ivan, Teberio, Fernando, Martin-Iglesias, Petronilo, Laso, Miguel A. G., Lopetegi, Txema
Format: Journal Article
Language:English
Published: New York IEEE 01-09-2019
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Aluminum base alloys
Computer simulation
Coupled modes
Coupled-mode theory
Couplings
Cross-sections
Electromagnetic properties
Frequency response
Hecken
Inverse scattering
Klopfenstein
Laser sintering
Microwave devices
microwave tapers
Power transmission lines
Prototypes
Rectangular waveguides
Single mode operation
Synthesis
tapered matching sections
Tapering
Transmission lines
Wave propagation
waveguide
Waveguide theory
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Summary:In this paper, a novel and general method to synthetize microwave waveguide tapers intended for single-mode operation is proposed. The technique is based on the use of an exact series solution of the inverse scattering synthesis problem. An additional strategy necessary for dealing with waveguides where the propagation constant varies with the position is included. The coupled-mode theory is employed to model the electromagnetic behavior of the taper with the inherent mismatch caused by the connection of the waveguides with different cross sections. The novel method allows us to synthesize the (classical) transmission line taper functions of Klopfenstein and Hecken, making them suitable for general waveguide tapers with single-mode operation. Additionally, a new type of taper functions, also suitable for general waveguide tapers, is presented. The novel functions are obtained by partially employing the frequency response of multisection transformers, resulting in fully smooth tapers that can offer shorter lengths than the classical proposals. The taper synthesis procedure is demonstrated in rectangular waveguide technology, by requiring realistic and challenging specifications for different cases with different waveguide cross sections to be matched: height mismatch, width mismatch, and simultaneous height and width mismatch. Several prototypes of Klopfenstein, Hecken, and novel function tapers have been fabricated in an aluminum alloy by means of an Additive Manufacturing technique (Direct Metal Laser Sintering). The simulation and measurement results obtained for the rectangular waveguide taper prototypes confirm the accuracy of the novel synthesis technique proposed.
ISSN:0018-9480
1557-9670
DOI:10.1109/TMTT.2019.2929132