High-Capacitance-Ratio Warped-Beam Capacitive MEMS Switch Designs

This paper presents a detailed analysis of the design, fabrication, and testing of a high-isolation electrostatically actuated capacitive shunt switch for X-band applications. The dual-warped-beam switch's RF performance is fine-tuned simultaneously in the off and on states by introducing warped bimetallic beams to the switch's edge to increase the effective capacitive area in the downstate and to the switch's center to decrease the effective capacitive area in the upstate. As a result, the dual-warped-beam switches demonstrate an off-to-on capacitive ratio of up to 170 without the need for thin dielectrics or high dielectric constant materials, exhibiting excellent RF performance. High isolation at X-band of less than 40 dB is also obtained with the introduction of inductive meandered springs into the switch structure. This novel tuning design mechanism for capacitive switches utilizing warped bimetallic beams has the advantage of simplicity and flexibility without the added complexity of using thinner dielectrics, tuned circuits, or larger size.

[1]  Gabriel M. Rebeiz,et al.  Distributed MEMS true-time delay phase shifters and wide-band switches , 1998 .

[2]  S. Senturia Microsystem Design , 2000 .

[3]  C. Nguyen,et al.  Design of low actuation voltage RF MEMS switch , 2000, 2000 IEEE MTT-S International Microwave Symposium Digest (Cat. No.00CH37017).

[4]  S. Eshelman,et al.  Performance of low-loss RF MEMS capacitive switches , 1998 .

[5]  R. Drangmeister,et al.  MEMs microswitch arrays for reconfigurable distributed microwave components , 2000 .

[6]  C. Nguyen,et al.  Micromechanical electrostatic K-band switches , 1998, 1998 IEEE MTT-S International Microwave Symposium Digest (Cat. No.98CH36192).

[7]  Gabriel M. Rebeiz,et al.  High-isolation CPW MEMS shunt switches. 2. Design , 2000 .

[8]  Y. Loke,et al.  Fabrication and characterization of silicon micromachined threshold accelerometers , 1991 .

[9]  Ki-Woong Chung,et al.  Fully integrated micromachined capacitive switches for RF applications , 2000, 2000 IEEE MTT-S International Microwave Symposium Digest (Cat. No.00CH37017).

[10]  D. Peroulis,et al.  Electrostatic Liquid-Metal Capacitive Shunt MEMS Switch , 2006, 2006 IEEE MTT-S International Microwave Symposium Digest.

[11]  D. W. Hoffman,et al.  Stress-related effects in thin films , 1989 .

[12]  J.R. Reid,et al.  RF actuation of capacitive MEMS switches , 2003, IEEE MTT-S International Microwave Symposium Digest, 2003.

[13]  Gabriel M. Rebeiz RF MEMS: Theory, Design and Technology , 2003 .

[14]  Chienliu Chang,et al.  Innovative micromachined microwave switch with very low insertion loss , 2000 .

[15]  K. Sarabandi,et al.  Electromechanical considerations in developing low-voltage RF MEMS switches , 2003 .

[16]  J.L. Ebel,et al.  A Latching Capacitive RF MEMS Switch in a Thin Film Package , 2006, 2006 IEEE MTT-S International Microwave Symposium Digest.

[17]  Kamal Sarabandi,et al.  Alleviating the Adverse Effects of Residual Stress in RF MEMS Switches , 2001, 2001 31st European Microwave Conference.

[18]  R. Mansour,et al.  A Novel Warped-Beam Design that Enhances RF Performance of Capacitive MEMS Switches , 2007, 2007 IEEE/MTT-S International Microwave Symposium.