TY - GEN
T1 - Design and simulation of a micro-electro-mechanical switch
AU - Tekin, Halil
AU - Ikizoǧlu, Serhat
PY - 2009/12/14
Y1 - 2009/12/14
N2 - This study contains the design and simulation of a MEMS switch for a micro piezoelectric voltage generator system. This switch is electro-statically actuated by the voltage generated by the micro piezoelectric system that has a low range as 0.6-1V. Thus, an optimization is required to decide the size of the switch and the material to be used that are suitable for pull-in voltage range. In this optimization, a closed form model of pull-in voltage is used. The switch should work far away from resonant frequencies. Due to this constraint, a resonant frequency analysis must be investigated and it is required to decide which sizes and materials are convenient. Also, the system needs an ideal switch meaning that it should have a low resistance. What is more, we want the switch to have a hysteretic behavior meaning that pull-in and pull-out voltages should be different. As the system will work in a vibrating environment, not only electrical but also mechanical analyses like tip deflection analysis and response under instant accelerations play a big role to decide whether the switch pulls in below the required voltage, or not.
AB - This study contains the design and simulation of a MEMS switch for a micro piezoelectric voltage generator system. This switch is electro-statically actuated by the voltage generated by the micro piezoelectric system that has a low range as 0.6-1V. Thus, an optimization is required to decide the size of the switch and the material to be used that are suitable for pull-in voltage range. In this optimization, a closed form model of pull-in voltage is used. The switch should work far away from resonant frequencies. Due to this constraint, a resonant frequency analysis must be investigated and it is required to decide which sizes and materials are convenient. Also, the system needs an ideal switch meaning that it should have a low resistance. What is more, we want the switch to have a hysteretic behavior meaning that pull-in and pull-out voltages should be different. As the system will work in a vibrating environment, not only electrical but also mechanical analyses like tip deflection analysis and response under instant accelerations play a big role to decide whether the switch pulls in below the required voltage, or not.
UR - http://www.scopus.com/inward/record.url?scp=76249107421&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:76249107421
SN - 9789944898188
T3 - ELECO 2009 - 6th International Conference on Electrical and Electronics Engineering
SP - II191-II194
BT - 6th International Conference on Electrical and Electronics Engineering, ELECO 2009
T2 - 6th International Conference on Electrical and Electronics Engineering, ELECO 2009
Y2 - 5 November 2009 through 8 November 2009
ER -