Title :
Improved Designs for an Electrothermal In-Plane Microactuator
Author :
Kwan, Alex Man Ho ; Song, Sichao ; Lu, Xing ; Lu, Lei ; Teh, Ying-Khai ; Teh, Ying-Fei ; Chong, Eddie Wing Cheung ; Gao, Yan ; Hau, William ; Zeng, Fan ; Wong, Man ; Huang, Chunmei ; Taniyama, Akira ; Makino, Yoshihide ; Nishino, So ; Tsuchiya, Toshiyuki
Author_Institution :
Dept. of Electron. & Comput. Eng., Hong Kong Univ. of Sci. & Technol., Kowloon, China
fDate :
6/1/2012 12:00:00 AM
Abstract :
Reported presently are two design approaches to improve the performance of an electrothermal in-plane microactuator with “chevron” beams. One incorporates beams with uniform cross sections but nonuniform lengths or tilt angles to accommodate the thermally induced expansion of the “shuttle”; the other incorporates beams with nonuniform cross sections to widen the high-temperature “expansion” zones. It is derived analytically, verified using finite-element simulations, and tested by microfabricating actuators occupying a constrained device area that the incorporation of one or the other proposed features leads to an improved performance figure-of-merit, defined to be the product of the actuation displacement and force. An increase in the figure-of-merit by up to 65% per beam has been measured.
Keywords :
finite element analysis; microactuators; microfabrication; actuation displacement; actuation force; actuators microfabrication; chevron beams; electrothermal in-plane microactuator; figure-of-merit; finite-element simulations; Force; Heating; Microactuators; Temperature distribution; Thermal expansion; Electrothermal microactuators; in-plane chevron microactuators; microelectromechanical systems (MEMS); optimization;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2012.2185820
