Ridge waveguide branch-line directional couplers for wideband applications and LTCC technology

A new branch-line directional coupler is proposed for achieving wide bandwidth. The device is implemented in ridge waveguide to exploit its wide monomode band. It can be physically realized either in empty ridge waveguide or in LTCC for integration in a chip module. Two prototypes of two and five br...

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Hauptverfasser:	Ruiz-Cruz, J.A., Yunchi Zhang, Zaki, K.A., Piloto, A.J., Rebollar, J.M.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bandwidth Directional couplers Equivalent circuits Finite element methods Manufacturing Mode matching methods Optimization methods Prototypes Software prototyping Wideband
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creator	Ruiz-Cruz, J.A. Yunchi Zhang Zaki, K.A. Piloto, A.J. Rebollar, J.M.
description	A new branch-line directional coupler is proposed for achieving wide bandwidth. The device is implemented in ridge waveguide to exploit its wide monomode band. It can be physically realized either in empty ridge waveguide or in LTCC for integration in a chip module. Two prototypes of two and five branches are designed following a systematic procedure. An appropriate equivalent circuit provides initial dimensions and the desired optimum response is obtained by means of a final full-wave optimization based on the rigorous and efficient Mode-Matching method. The results are verified with the Finite Element Method of the HFSS software and a prototype will be manufactured for testing.
doi_str_mv	10.1109/MWSYM.2005.1516896
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Bandwidth Directional couplers Equivalent circuits Finite element methods Manufacturing Mode matching methods Optimization methods Prototypes Software prototyping Wideband
title	Ridge waveguide branch-line directional couplers for wideband applications and LTCC technology
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