Rotated Serpentine Spring Structure for Low Actuation Voltage CPW RF MEMS Switch

Title:Rotated Serpentine Spring Structure for Low Actuation Voltage CPW RF MEMS Switch

Volume: 9 Issue: 2

Author(s): Hassan Saffari, Reza Askari Moghadam*Javad Koohsorkhi

Affiliation:

• Faculty of New Sciences and Technologies, University of Tehran, Tehran,Iran

Keywords: RF MEMS switch, low actuation voltage, spring structure, RF signal, microstrip, radio frequency.

Abstract: Background: RF MEMS switches can be used in radars, wireless systems, communication systems, phase shifters and switch matrices in order to achieve low power consumption, high isolation, small size and weight.

Objective: This paper reports a low actuation voltage Capacitive Shunt RF MEMS Switch with two flexures, based on rotated serpentine spring concept.

Method: The switch is designed on a CPW line with an impedance of 50 Ω. The dielectric is used is silicon nitrate with the thickness of 0.1 µm. Also, a cantilever beam switch and a switch with the serpentine spring structure based on meanders are simulated with the Comsol software and compared with the proposed switch.

Conclusion: The results show actuation voltages of 15.89 V, 10 V and 7.755 V for the cantilever beam structure, serpentine spring structure and the proposed switch, respectively. RF scattering parameters are simulated by HFSS.

Result: The results show that the return loss is -0.18 at 9.3GHz and the isolation is -37 dB at 9.3 GHz.

Cite this article as:

Saffari Hassan, Moghadam Askari Reza *, Koohsorkhi Javad, Rotated Serpentine Spring Structure for Low Actuation Voltage CPW RF MEMS Switch, Micro and Nanosystems 2017; 9 (2) . https://dx.doi.org/10.2174/1876402909666171117151304