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Microsystem Technologies

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01.10.2011 | Technical Paper

Analysis and suppression of spurious modes of the ring shape anchored RF MEMS contour mode disk resonator

verfasst von: Masoud Baghelani, Habib Badri Ghavifekr, Afshin Ebrahimi

Erschienen in: Microsystem Technologies | Ausgabe 10-11/2011

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Abstract

One of the most encumbering issues in RF MEMS resonators is spurious modes. The problem of spurious modes becomes more critical, when the ring type resonators are used. In the ring shape anchored contour mode disk resonator, for achieving a low serial resistance, the inner radius of the disk must be increased. This causes the spurious modes to become too close to the desired mode and degrade the operation of the resonator. In this work, spurious modes of before-mentioned device are introduced and their characteristics are evaluated by exact analytical approach. Based on those analytical approaches, we introduce two techniques for spurious mode suppression. The first technique is based on exciting the desired mode by proper electrode engineering and hence is an electrical approach. The second technique is reconfiguring of the anchor from a continuous ring to crossed ring segments and locating the segments on the phase discriminating lines to increase the insertion loss for spurious modes and decrease the losses for the fundamental mode. The final harmonic analysis verifies that the proposed techniques result a resonator with a pure frequency spectrum and spurious modes excluded over a very wide frequency range.

Vorheriger Artikel A top-down design methodology of MEMS varactor for RF applications based on a substrate-induced capacitive model

Nächster Artikel Fabrication of large-area microfluidics structures on glass by imprinting and diode-pumped solid state laser writing techniques

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Titel: Analysis and suppression of spurious modes of the ring shape anchored RF MEMS contour mode disk resonator
verfasst von: Masoud Baghelani
Habib Badri Ghavifekr
Afshin Ebrahimi
Publikationsdatum: 01.10.2011
Verlag: Springer-Verlag
Erschienen in: Microsystem Technologies / Ausgabe 10-11/2011
Print ISSN: 0946-7076
Elektronische ISSN: 1432-1858
DOI: https://doi.org/10.1007/s00542-011-1352-5

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