A novel nanoionics-based switch for microwave applications

This paper reports the development and characterization of a novel switching device for use in microwave systems. The device utilizes a switching mechanism based on nanoionics, in which mobile ions within a solid electrolyte undergo an electrochemical process to form and remove a conductive metallic...

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Published in2008 IEEE MTT-S International Microwave Symposium Digest pp. 1051 - 1054
Main Authors Nessel, James A., Lee, Richard Q., Mueller, Carl H., Kozicki, Michael N., Minghan Ren, Morse, Jacki
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.06.2008
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Abstract This paper reports the development and characterization of a novel switching device for use in microwave systems. The device utilizes a switching mechanism based on nanoionics, in which mobile ions within a solid electrolyte undergo an electrochemical process to form and remove a conductive metallic "bridge" to define the change of state. The nanoionics-based switch has demonstrated an insertion loss of ∼0.5dB, isolation of ≫0dB, low voltage operation (1V), low power (∼¼W) and low energy (∼nJ) consumption, and excellent linearity up to 6 GHz. The switch requires fewer bias operations (due to non-volatile nature) and has a simple planar geometry allowing for novel device structures and easy integration into microwave power distribution circuits.
AbstractList This paper reports the development and characterization of a novel switching device for use in microwave systems. The device utilizes a switching mechanism based on nanoionics, in which mobile ions within a solid electrolyte undergo an electrochemical process to form and remove a conductive metallic "bridge" to define the change of state. The nanoionics-based switch has demonstrated an insertion loss of ∼0.5dB, isolation of ≫0dB, low voltage operation (1V), low power (∼¼W) and low energy (∼nJ) consumption, and excellent linearity up to 6 GHz. The switch requires fewer bias operations (due to non-volatile nature) and has a simple planar geometry allowing for novel device structures and easy integration into microwave power distribution circuits.
Author Kozicki, Michael N.
Morse, Jacki
Lee, Richard Q.
Nessel, James A.
Minghan Ren
Mueller, Carl H.
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  organization: Arizona State University, Tempe, 85287, USA
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  organization: Arizona State University, Tempe, 85287, USA
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Snippet This paper reports the development and characterization of a novel switching device for use in microwave systems. The device utilizes a switching mechanism...
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StartPage 1051
SubjectTerms Electrodes
Ions
Metals
Microwave circuits
microwave switches
nanotechnology
Silver
Solids
Switches
Title A novel nanoionics-based switch for microwave applications
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