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Wireless Personal Communications

Erschienen in:

01.08.2015

A Novel Approach for Low Insertion Loss, Multi-band, Capacitive Shunt RF–MEMS Switch

verfasst von: Mahesh Angira, G. M. Sundaram, Kamal Jit Rangra

Erschienen in: Wireless Personal Communications | Ausgabe 3/2015

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Abstract

This paper presents a novel capacitive shunt RF-MEMS switch. In the proposed design, broadside bridge structure joined with two cantilevers on either side has been used to implement the switch. The transmission line and actuation electrodes under the bridge are designed in the interdigitated form to reduce the area. Switch shows an insertion loss better than 0.11 dB, a return loss below 23.67 dB up to 25 GHz. In down-state, three resonant peaks of 34.71, 34.33 and 40.7 dB at 10.4, 11.0 and 21.4 GHz have been achieved as compared to a single peak in the case of the conventional switch. The proposed device has a bandwidth of 2.2 GHz in X-band and 5.2 GHz in K-band. Bridge structure shows a pull-in voltage of 12.25 V, actuation time of 34.40 µs while cantilevers have 7.5 V and 57 µs. Further, the electrical equivalent model has been presented to represent the switch. The model has been implemented in commercially available software. A good agreement with the 3-D electromagnetic simulated results validates the presented model.

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Tilmans, H. A. C., Raedt, W. D., & Beyne, E. (2003). MEMS for wireless communications from RF-MEMS components to RF-MEMS SiP. Journal of Micromechanics and Microengineering, 13, 139–163.CrossRef

Brown, E. R. (1998). RF-MEMS switches for reconfigurable integrated circuits. IEEE Transaction on Microwave Theory and Techniques, 46, 1868–1880.CrossRef

Rebeiz, G. M. (2003). RF MEMS theory, design and technology (2nd ed.). New Jersey: Wiley.

Rangra, K. (2005). Electrostatic low actuation voltage RF MEMS switches for telecommunications, Ph.D. Thesis, Department of Information Technology, University of Trento, Trento, Italy.

Rangra, K., Margesin, B., Lorenzelli, L., Giacomozzi, F., Collinni, C., Zen, M., et al. (2005). Symmetric toggle switch—a new type of rf MEMS switch for telecommunication applications: Design and fabrication. Sensors and Actuators A, 123–124, 505–514.CrossRef

Angira, M., & Rangra, K. J. (2014). Design and investigation of a low insertion loss, broadband, enhanced self and hold down power RF-MEMS switch. Journal of Microsystem Technologies. doi:10.1007/s00542-014-2188-6.

Angira, M., Sundaram, G. M., & Rangra, K. J. (2014). A novel interdigitated, inductively tuned, capacitive shunt RF—MEMS switch for X and K bands applications (pp. 139–142). Hawaii, USA: Proceeding of NEMS.

DiNardo, S., Farinelli, P., Giacomozzi, F., Mannocchi, G., Marcelli, R., Margesin, B., Mulloni, P.M., Russer V., Sorrentino, R., Vitulli, F.,Vietzorreck, L. (2006). Broadband RF-MEMS based SPDT. In Proceeding of European microwave conference, Manchester (pp. 1727–1730).

Entesari, K., & Rebeiz, G. M. (2005). Differential 4-bit 6.5–10 GHz RF MEMS tunable filter. IEEE Transaction on Microwave Theory and Techniques, 53, 1103–1110.CrossRef

10.

Kang, S., Kim, H. C., & Chun, K. (2009). A low-loss, single-pole, four-throw RF MEMS switch driven by a double stop comb drive. Journal of Micromechanics and Microengineering, 19, 35011–35021.CrossRef

11.

Peroulis, D., Pacheco, S., Sarabandi, M., & Katehi, L. P. B. (2000). MEMS devices for high isolation switching and tunable filtering (pp. 1217–1220). Boston: IEEE MTT-S Microwave Symposium Digest.

12.

Entesari, K., & Rebeiz, G. M. (2005). Differential 4-bit 6.5–10-GHz RF MEMS tunable filter. IEEE Transactions on Microwave Theory and Techniques, 53, 1103–1110.CrossRef

13.

Armenta, C. J. A., Porter, S., & Marvin, A. (2012). Reconfigurable phased array antennas with RF-MEMS on a PCB substrate (pp. 1–5). Loughborough: Proceeding of Antennas & Propagation.

14.

Rebeiz, G. M., Tan, G. L., & Hayden, J. S. (2002). RF MEMS phase shifters: Design and applications. IEEE Microwave Magazine, 3, 72–81.CrossRef

15.

Fomani, A. A., & Mansour, R. R. (2009). Miniature RF MEMS switch matrices (pp. 1221–1224). Boston: Proceeding of IEEE MTT-S Microwave Symposium Digest.

16.

Angira, M., Sundaram, G. M., Rangra, K. J., Bansal, D., & Kaur, M. (2013). On the investigation of an interdigitated, high capacitance ratio shunt RF-MEMS switch for X-band applications (Vol. 2, pp. 189–192). Washington, DC: Proceeding of NSTI Nanotech.

17.

Bansal, D., Kumar, A., Sharma, A., Kumar, P., & Rangra, K. J. (2013). Design of novel compact anti-stiction and low insertion loss RF MEMS switch. Journal of Microsystem Technologies. doi:10.1007/s00542-013-1812-1S.

18.

Fouladi, S., & Mansour, R. R. (2010). Capacitive RF MEMS switches fabricated in 0.35 μm CMOS technology. IEEE Transaction on Microwave Theory and Techniques, 58, 478–485.CrossRef

19.

Muldavin, J. B., & Rebeiz, G. M. (2000). High-isolation CPW MEMS shunt switches—Part 1: Modeling. IEEE Transaction on Microwave Theory and Techniques, 48, 1045–1052.CrossRef

20.

Muldavin, J.B., Rebeiz, G.M. (2000). Novel series and shunt MEMS switch geometries for X-band applications. In Proceeding of European Microwave Conference, Paris (pp. 1–4).

21.

Muldavin, J.B., Rebeiz, G.M. (2001). Novel DC-contact MEMS shunt switches and high-isolation series/shunt designs. In Proceeding of European Microwave Conference, London (pp. 1–3).

22.

Mohameed, R., Tanan, M. A. E., & Rebeiz, G. M. (2010). A zipper RF MEMS tunable capacitor with interdigitated RF and actuation electrodes. Journal of Micromechanics and Microengineering, 20, 14–19.

23.

Giacomozzi, F., Calaza, C., Colpo, S., Mulloni, V., Collini, A., Margesini, B., et al. (2008). Development of high con coff ratio RF MEMS shunt switches. Romanian Journal of Information Science and Technology, 11, 143–151.

Titel: A Novel Approach for Low Insertion Loss, Multi-band, Capacitive Shunt RF–MEMS Switch
verfasst von: Mahesh Angira
G. M. Sundaram
Kamal Jit Rangra
Publikationsdatum: 01.08.2015
Verlag: Springer US
Erschienen in: Wireless Personal Communications / Ausgabe 3/2015
Print ISSN: 0929-6212
Elektronische ISSN: 1572-834X
DOI: https://doi.org/10.1007/s11277-015-2521-0

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