Patent
Monolithically integrated switched capacitor bank using micro electro mechanical system (MEMS) technology
J. L. Julian Tham,James L. Bartlett,Mau-Chung Frank Chang,O. Marcy th Henry,Deepak Mehrotra,Kenneth D. Pedrotti,David R. Pehlke,Charles W. Seabury,Jun J. Yao +8 more
TLDR
In this paper, a monolithically integrated switched capacitor bank using MEMS technology that is capable of handling GHz signal frequencies in both the RF and millimeter bands while maintaining precise digital selection of capacitor levels over a wide tuning range is presented.Abstract:
A monolithically integrated switched capacitor bank using MEMS technology that is capable of handling GHz signal frequencies in both the RF and millimeter bands while maintaining precise digital selection of capacitor levels over a wide tuning range. Each MEMS switch includes a cantilever arm that is affixed to the substrate and extends over a ground line and a gapped signal line. An electrical contact is formed on the bottom of the cantilever arm positioned above and facing the gap in the signal line. A top electrode atop the cantilever arm forms a control capacitor structure above the ground line. A capacitor structure, preferably a MEMS capacitor suspended above the substrate at approximately the same height as the cantilever arm, is anchored to the substrate and connected in series with a MEMS switch. The MEMS switch is actuated by applying a voltage to the top electrode, which produces an electrostatic force that attracts the control capacitor structure toward the ground line, thereby causing the electrical contact to close the gap in the signal line and connect the MEMS capacitor structure between a pair of output terminals. The integrated MEMS switch-capacitor pairs have a large range between their on-state and off-state impedance, and thus exhibit superior isolation and insertion loss characteristics.read more
Citations
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References
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Journal ArticleDOI
Micromechanical membrane switches on silicon
TL;DR: In this paper, the authors describe the design, fabrication, operating behavior, and potential applications of voltage-controlled, micromechanical switches, which are basically extremely small, electrostatically controlled mechanical relays, typically less than 100 µm long.
Patent
Micro electromechanical RF switch
TL;DR: In this article, a micro electromechanical RF switch is fabricated on a substrate using a suspended microbeam as a cantilevered actuator arm, and the switch is actuated by application of a voltage on the top electrode, which causes electrostatic forces to attract the capacitor structure toward the ground line.
Proceedings ArticleDOI
A Surface Micromachined Miniature Switch For Telecommunications Applications With Signal Frequencies From DC Up To 4 Ghz
J.J. Yao,M.F. Chang +1 more
TL;DR: In this paper, a surface micromachined miniature switch has been made on a semi-insulating GaAs substrate using a suspended silicon dioxide micro-beam as the cantilevered arm, a platinum-to-gold electrical contact, and electrostatic actuation as the switching mechanism.
Patent
Micro-machined switch and method of fabrication
TL;DR: In this paper, a miniature electrostatically actuated switch and process for fabricating it in which the switch is operable to connect and disconnect one or more transmission lines laid down on a dielectric substrate of an integrated circuit wafer.
Patent
Non-contact two position microeletronic cantilever switch
TL;DR: In this paper, a microelectrostatic cantilever switch that has a thin impermeable oxide layer on the surface of a contact pad which is engaged by an unsupported portion of a cantilev beam when the switch is in a closed position is described.