The energy-based nonlinear command shaper developed by the authors has been used in this paper to suppress the motion-induced vibration of an electromagnetically actuated flexible structure. Both finite element dynamic simulation and experimental investigation are performed and demonstrated. The results indicate that the performance of the energy-based nonlinear shapers is much superior to that of the traditional linear design such as zero-vibration and zero-vibration-and derivative shapers. However, based on the result of the finite element simulation and its equivalent lumped modeling, it can also be found that the existence of higher order modes would involve the energy interactions which result in slight residual vibration in steady state and cause the sensitivity curves to be slightly deviated from that of their single degree-of-freedom model. Nevertheless, the performance is still acceptable for real applications. Using the concept of system analogy and dimensional analysis, the conclusions obtained from this study would be naturally applicable to electrostatically actuated MEMS structures.
Chen, K.S., Trumper, D.L., and Smith, S.T., 2002, "Design and control for an electromagnetically driven X-Ytheta stage," Precision Engineering - Journal of the International Societies for Precision Engineering and Nanotechnology26(4), 355-369.
2.
Chen, K.S., Ou, K.S., and Li, L.M., 2004, "Development and accuracy assessment of simplified electromechanical coupling solvers for MEMS applications," Journal of Micromechanics and Microengineering14(2), 159- 169.
3.
Chen, K.S. and Ho, C.C., 2004, "Electromagnets calibration utilizing the pull-in instability ," Precision Engineering - Journal of the International Societies for Precision Engineering and Nanotechnology28(1), 106-115.
4.
Chen, K.-S., Yang, T.-S., and Yin, J.-F., 2006, "Residual vibration suppression for Duffing nonlinear systems with wlectromagnetical actuation using nonlinear command shaping techniques ," Journal of Vibration and Acoustics128(6), 778-789.
5.
Chen, K.S. and Ou, K.S., 2007a, "Command-shaping techniques for electrostatic MEMS actuation: analysis and simulation," Journal of Microelectromechanical Systems16(3), 537-549.
6.
Chen, K.S. and Ou, K.S., 2007b, "Development and verification of 2D dynamic electromechanical coupling solver for micro-electro static-actuator applications," Sensors and Actuators A-Physical136(1), 403-411.
7.
Daqaq, M.F. and Masoud, Z.N., 2006, "Nonlinear input-shaping controller for quay-side container cranes," Nonlinear Dynamics45(1-2), 149-170.
8.
Daqaq, M.F., Reddy, C.K., and Nayfeh, A.H., 2008, "Input-shaping control of nonlinear MEMS," Nonlinear Dynamics54(1-2), 167-179.
9.
Gorinevsky, D. and Vukovich, G., 1998, "Nonlinear input shaping control of flexible spacecraft reorientation maneuver," Journal of Guidance Control and Dynamics21(2), 264-270.
10.
Holmes, M. and Trumper, D., 1996, "Magnetic/fluid-bearing stage for atomic-scale motion control (the angstrom stage)," Precision Engineering - Journal of the American Society for Precision Engineering18(1), 38-49.
11.
Jones, S.D. and Ulsoy, A.G., 1999, "An approach to control input shaping with application to coordinate measuring machines," Journal of Dynamic Systems Measurement and Control-Transactions of the ASME121(2), 242- 247.
12.
Kim, B., Schmittdiel, M.C., Degertekin, F.L., and Kurfess, T.R., 2005, "Actively controlled diffraction grating interferometer MEMS devices," in Proceedings of SPIE 5721, San Jose, CA, USA, January 24, pp. 151-158.
13.
Kozak, K.C., 2003, "Robust command generation for nonlinear systems ," Ph.D. Thesis, Department of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA, USA.
14.
McCarthy, B., Adams, G.G., McGruer, N.E., and Potter, D., 2002, "A dynamic model, including contact bounce, of an electrostatically actuated microswitch," Journal of Microelectromechanical Systems11(3), 276-283.
15.
Mohamed, Z. and Tokhi, M.O., 2004, "Command shaping techniques for vibration control of a flexible robot manipulator," Mechatronics14(1), 69-90.
16.
Osterberg, P.M. and Senturia, S.D., 1997, "M-TEST: A test chip for MEMS material property measurement using electrostatically actuated test structures," Journal of Microelectromechanical Systems6(2), 107-118.
17.
Pao, L.Y. and Lau, M.A., 2000, "Robust input shaper control design for parameter variations in flexible structures," Journal of Dynamic Systems Measurement and Control - Transactions of the ASME122(1), 63-70.
18.
Rebeiz, G.M., 2003, RF MEMS: Theory, Design, and Technology, Wiley, Hoboken, New Jersey.
Singer, N.C. and Seering, W.P., 1990, "Preshaping command inputs to reduce system vibration ," Journal of Dynamic Systems Measurement and Control - Transactions of the ASME112(1), 76-82.
21.
Singhose, W.E., 1997, "Command generation for flexible systems," Ph.D. Thesis , Department of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA.
22.
Smith, O.J.M., 1957, "Posicast control of damped oscillatory systems ," Proceedings of the Institute of Radio Engineers45(9), 1249-1255.
23.
Stergiopoulos, J. and Tzes, A., 2007, "Adaptive input shaping for nonlinear systems: A case study," Journal of Dynamic Systems Measurement and Control - Transactions of the ASME129(2), 219-223.
24.
Teymoori, M.M. and Abbaspour-Sani, E., 2005, "Design and simulation of a novel electrostatic peristaltic micromachined pump for drug delivery applications" Sensors and Actuators A - Physical117(2), 222-229.
25.
Timoshenko, S.P. and Woinowsky-Krieger, S., 1959, Theory of Plates and Shells, McGraw-Hill , New York.
26.
van Kessel, P.F., Hornbeck, L.J., Meier, R.E., and Douglass, M.R., 1998, "A MEMS-based projection display," Proceedings of the IEEE86(8), 1687-1704.
27.
Williams, M.E., Trumper, D.L., and Hocken, R., 1993, "Magnetic bearing stage for photolithography," CIRP Annals - Manufacturing Technology42(1), 607-610.
28.
Yang, T.S. and Liang, W.L., 2003, "Suppression of nonlinear forced waves by input shaping ," Wave Motion37(2), 101-117.
29.
Yeh, T.J., Chung, Y.J., and Wu, W.C., 2001, "Sliding control of magnetic bearing systems," Journal of Dynamic Systems Measurement and Control - Transactions of the ASME123(3), 353-362.
30.
Yin, J-F., 2004, "Development of nonlinear input shaping methods and its application on residual vibration suppression of electro-mechanical systems ," S. M. Thesis, National Cheng-Kung University , Tainan, Taiwan, Republic of China.
