Design and Simulation of a Low Actuation Voltage Capacitive MEMS Switch

Soltani, Ayub; Ghasemi, Mahmoud; Mafinezhad, Khalil

Document Type : Review Article

Authors

Sadjad Institute of Higher Education, Mashhad, Iran

Abstract

In this paper we have proposed a new switch or structure for reducing actuation voltage. This switch is compared with four conventional structures considering the force range of 1uN to 3uN. We have used the ANSYS software for design and simulation for the switch parameters such as actuation voltage, collapse voltage, spring constant and resonant frequency. Small size (half the size of other proposed materials), which can reduce the manufacturing cost, and also low-valued spring constant, which results inactuation voltage reduction, are among more noticeable features of the proposed switch.

Keywords

References

[1] S., Lucyszyn, “Advanced RF Mems”, New York: Cambridge University Press, 2010.

[2] G.M., Rebeiz, “RF MEMS Theory, Design, and Technology”, John Wiley & Sons, 2003.

[3] G.M., Rebeiz, "RF MEMS Switches: Status of Technology," in The 12 th International Conference On Solid State Sensors, Actuators and Microsystems, Boston, 2003, pp. 1726-1729.

[4] D., Hyman, J., Lam, B., Warneke, A., Schmitz, T.Y., Hsu, J., Brown, J., Schaffner, A., Walston, R.Y., Loo, M., Mehregany, and J., Lee, “Surface-micromachined RF MEMS switches on GaAs substrates,” Int. J. RF Microwave Computer-Aided Eng., vol. 9, pp. 348-361, Apr. 1999.

[5] J.B., Muldavin , G.M., Rebeiz, “High-isolation CPW MEMS shunt switches-Part 2: Design,” IEEE Trans. Microwave Theory Techn, Vol.48, pp. 1053-1056, June 2000.

[6] C.L., Goldsmith, Z., Yao, S., Eshelman, and D., Denniston, “Performance of low-loss RF MEMS capacitive switches,” IEEE Microw. GuidedWave Lett., Vol. 8, pp. 269-271, Aug. 1998.

[7] D., Hyman , M., Mehregany, “Contact physics of gold microcontacts for MEMS switches,” IEEE Trans. Components Packaging Technol., Vol. 22, pp. 357–364, Sept. 1999.

[8] R.E., Mihailovich, M., Kim, J.B., Hacker, E.A., Sovero, J., Studer, J. A., Higgins, and J. F., DeNatale, “MEM relay for reconfigurable RF circuits,” IEEE Microw. Wireless Compon. Lett., Vol.11, pp. 53-55, Feb. 2001.

[9] B., Pillans, S., Eshelman, A., Malczewski, J., Ehmke, and C., Goldsmith, “X-band RF MEMS phase shifters for phased array applications,” IEEE Microw. Guided Wave Lett., Vol. 9, pp. 517-519, Dec. 1999.

[10] M., Kim, J.B., Hacker, R.E., Mihailovich, and J.F., DeNatale, “A dc-to-40 GHz four-bit RF MEMS true-time delay network,” IEEE Microw. Wireless Compon. Lett., Vol.11, pp. 56–58, Feb. 2001.

[11] J., Bernhard, N.W., Chen, R., Clark, M., Feng, C., Liu, P., Mayes, E., Michielssen, and J., Mondal, “Mechanically conformal and electronically reconfigurable apertures using low voltage MEMS and flexible membranes for space based radar applications,” in Proc. IEEE Antennas and Propagation Society International Symposium, 2000, p. 99.

[12] Y., Mafinejad, A., Kouzani, K., Mafinejad, “Review of low actuation voltage RF MEMS electrostatic switches based on metallic and carbon alloys,” Journal of Microelectronics, Electronic Components and Materials, Vol.43, No.2, pp. 85-96. , 2013.

[13] J.M., Huang, K.M., Liew, C.H., Wong, S., Rajendran, M.J., Tan and A.Q., Liu, “Mechanical design and optimization of capacitive micromachined switch,” Sensors and Actuators A 93, Elsevier, pp. 273-285, May 2001.

Majlesi Journal of Electrical Engineering

Design and Simulation of a Low Actuation Voltage Capacitive MEMS Switch

References

References

Volume 8, Issue 3 - Serial Number 3
September 2014
Pages 67-73

Design and Simulation of a Low Actuation Voltage Capacitive MEMS Switch

References

References

Volume 8, Issue 3 - Serial Number 3September 2014Pages 67-73

Volume 8, Issue 3 - Serial Number 3
September 2014
Pages 67-73