MEMS switching of contour-mode aluminum nitride resonators for switchable and reconfigurable radio frequency filters

Christopher D. Nordquist; Darren W. Branch; Tammy Pluym; Sukwon Choi; Janet H. Nguyen; Alejandro Grine; Christopher W. Dyck; Sean M. Scott; Molly N. Sing; Roy H. Olsson

doi:10.1088/0960-1317/26/10/104001

MEMS switching of contour-mode aluminum nitride resonators for switchable and reconfigurable radio frequency filters

Christopher D. Nordquist, Darren W. Branch, Tammy Pluym, Sukwon Choi, Janet H. Nguyen, Alejandro Grine, Christopher W. Dyck, Sean M. Scott, Molly N. Sing, Roy H. Olsson

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Switching of transducer coupling in aluminum nitride contour-mode resonators provides an enabling technology for future tunable and reconfigurable filters for multi-function RF systems. By using microelectromechanical capacitive switches to realize the transducer electrode fingers, coupling between the metal electrode finger and the piezoelectric material is modulated to change the response of the device. On/off switched width extensional resonators with an area of <0.2 mm² demonstrate a Q of 2000, K ² of 0.72, and >24 dB switching ratio at a resonator center frequency of 635 MHz. Other device examples include a 63 MHz resonator with switchable impedance and a 470 MHz resonator with 127 kHz of fine center frequency tuning accomplished by mass loading of the resonator with the MEMS switches.

Original language	English (US)
Article number	104001
Journal	Journal of Micromechanics and Microengineering
Volume	26
Issue number	10
DOIs	https://doi.org/10.1088/0960-1317/26/10/104001
State	Published - Aug 31 2016

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Mechanics of Materials
Mechanical Engineering
Electrical and Electronic Engineering

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10.1088/0960-1317/26/10/104001

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Nordquist, C. D., Branch, D. W., Pluym, T., Choi, S., Nguyen, J. H., Grine, A., Dyck, C. W., Scott, S. M., Sing, M. N., & Olsson, R. H. (2016). MEMS switching of contour-mode aluminum nitride resonators for switchable and reconfigurable radio frequency filters. Journal of Micromechanics and Microengineering, 26(10), Article 104001. https://doi.org/10.1088/0960-1317/26/10/104001

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title = "MEMS switching of contour-mode aluminum nitride resonators for switchable and reconfigurable radio frequency filters",

abstract = "Switching of transducer coupling in aluminum nitride contour-mode resonators provides an enabling technology for future tunable and reconfigurable filters for multi-function RF systems. By using microelectromechanical capacitive switches to realize the transducer electrode fingers, coupling between the metal electrode finger and the piezoelectric material is modulated to change the response of the device. On/off switched width extensional resonators with an area of <0.2 mm2 demonstrate a Q of 2000, K 2 of 0.72, and >24 dB switching ratio at a resonator center frequency of 635 MHz. Other device examples include a 63 MHz resonator with switchable impedance and a 470 MHz resonator with 127 kHz of fine center frequency tuning accomplished by mass loading of the resonator with the MEMS switches.",

author = "Nordquist, {Christopher D.} and Branch, {Darren W.} and Tammy Pluym and Sukwon Choi and Nguyen, {Janet H.} and Alejandro Grine and Dyck, {Christopher W.} and Scott, {Sean M.} and Sing, {Molly N.} and Olsson, {Roy H.}",

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year = "2016",

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doi = "10.1088/0960-1317/26/10/104001",

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T1 - MEMS switching of contour-mode aluminum nitride resonators for switchable and reconfigurable radio frequency filters

AU - Nordquist, Christopher D.

AU - Branch, Darren W.

AU - Pluym, Tammy

AU - Choi, Sukwon

AU - Nguyen, Janet H.

AU - Grine, Alejandro

AU - Dyck, Christopher W.

AU - Scott, Sean M.

AU - Sing, Molly N.

AU - Olsson, Roy H.

PY - 2016/8/31

Y1 - 2016/8/31

N2 - Switching of transducer coupling in aluminum nitride contour-mode resonators provides an enabling technology for future tunable and reconfigurable filters for multi-function RF systems. By using microelectromechanical capacitive switches to realize the transducer electrode fingers, coupling between the metal electrode finger and the piezoelectric material is modulated to change the response of the device. On/off switched width extensional resonators with an area of <0.2 mm2 demonstrate a Q of 2000, K 2 of 0.72, and >24 dB switching ratio at a resonator center frequency of 635 MHz. Other device examples include a 63 MHz resonator with switchable impedance and a 470 MHz resonator with 127 kHz of fine center frequency tuning accomplished by mass loading of the resonator with the MEMS switches.

AB - Switching of transducer coupling in aluminum nitride contour-mode resonators provides an enabling technology for future tunable and reconfigurable filters for multi-function RF systems. By using microelectromechanical capacitive switches to realize the transducer electrode fingers, coupling between the metal electrode finger and the piezoelectric material is modulated to change the response of the device. On/off switched width extensional resonators with an area of <0.2 mm2 demonstrate a Q of 2000, K 2 of 0.72, and >24 dB switching ratio at a resonator center frequency of 635 MHz. Other device examples include a 63 MHz resonator with switchable impedance and a 470 MHz resonator with 127 kHz of fine center frequency tuning accomplished by mass loading of the resonator with the MEMS switches.

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MEMS switching of contour-mode aluminum nitride resonators for switchable and reconfigurable radio frequency filters

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