Recent Trends in Electronics and Communication Systems

Micro Electromechanical Systems (MEMS) actuators experience pull-in effect in their actuation range. MEMS actuating elements are thin parallel plate capacitor electrodes separated with air gap. Parallel plate electrostatic micro actuators are known to have the pull-in effect, where electrostatic attractive force exceeds the mechanical restoring force of the suspending spring, and that the movable plate spontaneously pulled into physical contact with the opposite electrode. In our model the effect of dielectric layer thickness is taken into account for predicting the pull-in voltage. The critical role of different dielectric layer materials in bringing down the static pull-in voltage is verified by using COMSOL.

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Saucedo-Flores E, RuelasR, FloresM, et al.Study of pull-in voltage for MEMS parallel plate capacitor actuators. Proceedings of the MRS Materials society fall Meeting December 1-5 2003 Boston, A5. 86.1-A5.86.3.

Rajeshwari Sheeparamatti, HalseSV, Vinayaka SwamyKM, et al.Study of Pull-in Voltage using ANSYS & COMSOL, 9th International Workshop on Nanomechanical Sensing (NMC- 2012), IIT Bombay, Mumbai, India, June 6-8; 2012.

SiddiqueJI, An experimental investigation of the theory of electrostatic deflections, Journalof Electrostatics 2011; 69: le6.

Emmanuel Saucedo-Flores Study of the Pull-InVoltage for MEMS Parallel Plate Capacitor Actuators, MRS Materials Research SocietyFall Meeting, Boston; Dec. 1-5 2003.