Analytical behavior of rectangular electrostatic torsion actuators with nonlinear spring bending
In this paper, we study the pull-in effect for rectangular electrostatic torsion actuators by using analytical calculations that include the higher order effects of nonlinear spring bending. The calculation approach speeds the design of such systems. The method is found to be suitable for actuators...
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| Published in | Journal of microelectromechanical systems Vol. 12; no. 6; pp. 929 - 936 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.12.2003
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | In this paper, we study the pull-in effect for rectangular electrostatic torsion actuators by using analytical calculations that include the higher order effects of nonlinear spring bending. The calculation approach speeds the design of such systems. The method is found to be suitable for actuators with single long beam springs where the ratio of the resonant frequencies for the torsion and bending modes is up to at least 3.5, in the region where bending dominates torsion. After fitting the theory in this paper to Coventor simulation results with three nonphysical coefficients, the fractional differences between Coventor simulation and analytical calculation results are smaller than 6%. The method is also suitable for at least one class of folded spring designs, with greatly decreased bending mode displacement. The main results are also verified by comparing them with published experimental results. |
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| AbstractList | In this paper, we study the pull-in effect for rectangular electrostatic torsion actuators by using analytical calculations that include the higher order effects of nonlinear spring bending. The calculation approach speeds the design of such systems. The method is found to be suitable for actuators with single long beam springs where the ratio of the resonant frequencies for the torsion and bending modes is up to at least 3.5, in the region where bending dominates torsion. After fitting the theory in this paper to Coventor simulation results with three nonphysical coefficients, the fractional differences between Coventor simulation and analytical calculation results are smaller than 6 %. The method is also suitable for at least one class of folded spring designs, with greatly decreased bending mode displacement. The main results are also verified by comparing them with published experimental results. |
| Author | Wuyong Peng Farmer, K.R. Zhixiong Xiao |
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| Cites_doi | 10.1109/84.735344 10.1109/MEMSYS.1994.555830 10.1109/84.967384 10.1016/S0924-4247(01)00855-X 10.1088/0960-1317/10/3/201 10.1109/84.585790 10.1109/JMEMS.2002.803280 10.1109/84.809065 10.1016/S0924-4247(97)80004-0 10.1016/S0924-4247(97)01770-6 10.1109/84.967379 10.1109/84.546402 10.1088/0960-1317/12/1/312 |
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| Keywords | Capacitive transducer Pull in voltage Index Terms-Nonlinear bending mode effect Modelling rectangular electrostatic torsion actuators Non linear effect Experimental study Torsion Electrostatic actuators Microelectromechanical device |
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| References | ref13 ref12 ref14 coventor inc (ref18) 0 fischer (ref6) 1998; 67 ref11 ref10 osterberg (ref8) 1995 ref2 davis (ref17) 2001 ref1 gupta (ref9) 1997 ref19 bochobza-degani (ref15) 2002; 97–98 ref3 ref5 chung (ref4) 1996; 54 hornbeck (ref7) 1989; 1150 timoshenko (ref16) 1970 |
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| SubjectTerms | Actuators Analytical models Bending Design engineering Electrodes Electrostatic actuators Electrostatic analysis Exact sciences and technology Instruments, apparatus, components and techniques common to several branches of physics and astronomy Mathematical analysis Mechanical instruments, equipment and techniques Microelectromechanical systems Micromechanical devices and systems Nonlinearity Optical attenuators Physics Resonant frequency Simulation Springs Torque Torsion Voltage |
| Title | Analytical behavior of rectangular electrostatic torsion actuators with nonlinear spring bending |
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