5 March 2018 Study on dynamic actuation in double microcantilever-based electrostatic microactuators with an in-house experimental set-up
Banibrata Mukherjee, Kenkere Balashanthamurthy Mruthyunjaya Swamy, Siddhartha Sen
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Abstract
This paper investigates the effect of dynamic excitation and its utility for enhancement of stable displacement range for a double cantilever-based electrostatic microactuator. A coupled electromechanical problem has been formulated using Galerkin method and solved considering dynamic actuation. The effect of excitation frequency is analyzed thoroughly to estimate the maximum stable displacement range of the actuator. Extensive studies illustrate that for suitable ac voltage–frequency combination, the maximum stable tip deflection for the cantilevers can be obtained even in the range of 50% to 90% of initial gap under specific damping. Such inherent dynamic characteristic of the actuator has been exploited here to achieve larger travel range. Furthermore, the theoretical observation has been experimentally demonstrated with a double microcantilever-based structure fabricated using silicon-on-insulator based process. The experimentation has been carried out using a developed in-house set-up. The major advantage in the present study is that unlike reported literature, the extended range has been achieved here without any additional complex circuits or design modifications. The proposed concept can be extended further to improve the displacement range of other microstructures toward different applications.
© 2018 Society of Photo-Optical Instrumentation Engineers (SPIE) 1932-5150/2018/$25.00 © 2018 SPIE
Banibrata Mukherjee, Kenkere Balashanthamurthy Mruthyunjaya Swamy, and Siddhartha Sen "Study on dynamic actuation in double microcantilever-based electrostatic microactuators with an in-house experimental set-up," Journal of Micro/Nanolithography, MEMS, and MOEMS 17(1), 015004 (5 March 2018). https://doi.org/10.1117/1.JMM.17.1.015004
Received: 3 August 2017; Accepted: 2 February 2018; Published: 5 March 2018
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Cited by 1 scholarly publication and 2 patents.
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KEYWORDS
Microactuators

Capacitance

Actuators

Silicon

Photomasks

Calibration

Deep reactive ion etching

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