Radio Frequency Microelectromechanical Systems in Defence and Aerospace

  • D.V.K. Sastry Research Centre Imarat, Hyderabad-500 060
Keywords: RF MEMS, microsystems, MEMS in defence, MEMS in aerospace, instrumentation, RF systems, micromechanical components


For all onboard systems applications, it is important to have very low-loss characteristics and low power consumption coupled with size reduction. The controls and instrumentation in defence and aerospace continually calls for newer technologies and developments. One such technology showing remarkable potential over the years is radio frequency microelectromechanical systems (RF MEMS) which have already made their presence felt prominently by offering replacement in radar and communication systems with high quality factors and precise tunability. The RF MEMS components have emerged as potential candidates for defence and aerospace applications. The core theme of this paper is to drive home the fact that the limitations faced by the current RF devices can be overcome by the flexibility and better device performance characteristics of RF MEMS components, which ultimately propagate the device level benefits to the final system to attain the unprecedented levels of performance.
Defence Science Journal, 2009, 59(6), pp.568-567, DOI:
How to Cite
Sastry, D. (2009). Radio Frequency Microelectromechanical Systems in Defence and Aerospace. Defence Science Journal, 59(6), 568-579.