**6. References**


<sup>\*</sup> Corresponding Author

	- Jensen, B. D. & Howell, L. L. (2004). Bistable Configurations of Compliant Mechanisms Modeled Using Four Links and Translational Joints. *Journal of Mechanical Design*. Vol. 126 , pp. 657-666
	- Kosa, E.; Sonmez, U., Kizil, H. & Trabzon L. (2010). The Design and Analysis of a Novel MEMS Force Amplifier. *Turkish Journal of Engineering & Environmental Sciences*, Vol. 34, pp. 253–259
	- Kota, S.; Joo J., Li Z., Rodgers, S. M. & Sniegowski J. (2001). Design of Compliant Mechanisms: Applications to MEMS. *Analog Integrated Circuits and Signal Processing*, Vol. 29, pp. 7-15
	- Krishnan , G. & Ananthasuresh G. K. (2008). Evaluation and Design of Displacement-Amplifying Compliant Mechanisms for Sensor Applications. *Journal of Mechanical Design*, Vol. 130, pp. 1-9
	- Lai, Y.; McDonald , J., Kujath, M. & Hubbard, T., (2004). Force, Deflection and Power Measurements of Toggled Microthermal Actuators. *Journal of Micromechanics and Microengineering*, Vol. 14, pp. 49–56
	- Larry, H. L. (2001). *Compliant Mechanisms*, John Wiley & Sons, ISBN 0-471-38478-X, USA.
	- Li, J.; Liu, Z. S., Lu, C., Zhang, Q. X. & Liu, A. Q. (2005). A Self Limited Large Displacement Ratio Micromechanical Amplifier*. Proceedings of The 13th International Conference on Solid-State Sensors, Actuators and Microsystems*, ISBN 0-7803-8952-2, Seoul, Korea, June, 2005
	- Lobontiu, N.; Paine, J. S. N., Garcia, E. & Goldfarb, M. (2001). Corner-Filleted Flexure Hinges. *Journal of Mechanical Design*, Vol. 123, pp. 346-352
	- Millet, O.; Bernardoni, P., Régnier, S., Bidaud, P., Tsitsiris, E., Collard, Dominique. & Buchaillot, Lionel. (2004). Electrostatic Actuated Micro Gripper using an Amplification Mechanism, *Sensors and Actuators A*, Vol. 114, pp. 371–378
	- Nathan, D. & Howell, Larry L. (2003). A Self-Retracting Fully Compliant Bistable Micromechanism. *Journal of Microelectromechanical Systems*, Vol. 12, pp. 273-280
	- Parkinson, M. B.; Jensen, B. D. & Kurabayashi K. (2001). Design of Compliant Force and Displacement Amplification Micro-Mechanisms. *Proceedings of DETC'01 ASME, Design Engineering Technical Conferences and Computers and Information in Engineering Conference*, Pittsburgh, Pennsylvania, September, 2001
	- Pedersen, C. B. W. & Seshia, A. A. (2004). On the Optimization of Compliant Force Amplifier Mechanisms for Surface Micromachined Resonant Accelerometers. *Journal of Micromechanics and Microengineering*, Vol. 14, pp. 1281–1293
	- Sreekumar, M.; Nagarajan, T. & Singaperumal, M. (2008). Experimental Investigations of the Large Deflection Capabilities of a Compliant Parallel Mechanism Actuated by Shape Memory Alloy Wires. *Smart materials and structures,* Vol. 17, pp. 1-12
	- Tantanawat , T. & Kota, S. (2007). Design of Compliant Mechanisms for Minimizing Input Power in Dynamic Applications. *Journal of Mechanical Design*, Vol. 129, pp. 1064-1075
	- Terre, J. C. & Shkel, A. (2004). Dynamic Analysis of a Snap-Action Micromechanism, *IEEE*, pp. 1245-1248
	- Wilcox, D. L. & Howell, L. L. (2005). Fully Compliant Tensural Bistable Micromechanisms (FTBM). *Journal of Microelectromechanical Systems*, Vol. 14, pp. 1-8
