Silicon 9 MHz MEMS Based Oscillator with Low Phase Noise and High Quality Factor

Lo Conte, F.; Grogg, F. D.; Ionescu, A. M.; Kayal, M.

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Tytuł artykułu

Silicon 9 MHz MEMS Based Oscillator with Low Phase Noise and High Quality Factor

Autorzy

Lo Conte F. , Grogg F. D. , Ionescu A. M. , Kayal M.

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http://ijet.pl/index.php/ijet

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Języki publikacji

Abstrakty

A 9.4MHz micro-electromechanical oscillator based on a Vibrating Body Field Effect Transistor (VB-FET) is presented in this work. The electrical characteristics of this active MEM resonator are detailed for static and dynamic operation. In open-loop configuration the tuning fork resonator provide a quality factor of 9400. The benefit of the intrinsic gain for oscillator design is analyzed and an oscillator design is proposed based on these findings. The proposed oscillator is fully CMOS compatible. The achieved performance shows the advantages of an active MEM resonator for the construction of MEM based oscillators

Słowa kluczowe

active MEMS resonator tunable oscillator tuning fork phase noise

MEMS rezonator oscylator przestrajalny generator kamertonowy szum fazowy

Wydawca

Polish Academy of Sciences, Committee of Electronics and Telecommunication

Czasopismo

Electronics and Telecommunications Quarterly

Rocznik

2009

Tom

Vol. 55, No 4

Strony

625--637

Opis fizyczny

Bibliogr. 17 poz., wykr.

Twórcy

autor

Lo Conte F.

autor

Grogg F. D.

autor

Ionescu A. M.

autor

Kayal M.

Electronic Laboratory, EPFL, 1015 Lausanne, Switzerland, fabrizio.loconte@epfl.ch ; daniel.grogg@epfl.ch ; adrian.ionescu@epfl.ch ; maker.kayal@epfl.ch

Bibliografia

1. C. T. C. Nguyen: MEMS technology for timing and frequency control, Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on, vol. 54, pp. 251-270, 2007.
2. J. H. C. Nathanson and R. A. Wickstrom: A Resonant-Gate Silicon Surface Transistor With High-Q Band-Pass Properties, Applied Physics Letters, vol. 7, pp. 84-86, 1965.
3. N. Abele, R. Fritschi, K. Boucart, F. Casset, P. Ancey, and A. M. Ionescu: Suspended-gate MOSFET: bringing new MEMS functionality into solid-state MOS transistor, in Electron Devices Meeting, 2005. IEDM Technical Digest. IEEE International, pp. 479-481, 2005.
4. D. Grogg, M. Mazza, D. Tsamados, and A. M. Ionescu: Multi-Gate Vibrating-Body Field Effect Transistors (VB-FETs), in Electron Devices Meeting, 2008. IEDM 2008. IEEE International, pp. 663-666, 2008.
5. C. T. C. Nguyen and R. T. Howe: Design and performance of CMOS micromechanical resonator oscillators, in Frequency Control Symposium, 1994. 48th., Proceedings of the 1994 IEEE International, pp. 127-134, 1994.
6. C. T. C. Nguyen and R. T. Howe: An integrated CMOS micromechanical resonator high-Q oscillator, Solid-State Circuits, IEEE Journal of, vol. 34, pp. 440-455, 1999.
7. L. Yu-Wei, L. Seungbae, L. Sheng-Shian, X. Yuan, R. Zeying, and C. T. C. Nguyen: Series-resonant VHF micromechanical resonator reference oscillators, Solid-State Circuits, IEEE Journal of, vol. 39, pp. 2477-2491, 2004.
8. L. Seungbae and C. T. C. Nguyen: Influence of automatic level control on micromechanical resonator oscillator phase noise, in Frequency control symposium and pda exhibition jointly with the 17th European frequency and time forum, 2003. Proceedings of the 2003 IEEE International, pp. 341-349, 2003.
9. D. Grogg, F. Lo Conte, M. Kayal, A. M. Ionescu: 9 MHz. Vibrating Body FET Tuning Fork Oscillator, EFTF-IFCS, Besancon, 2009.
10. F. Lo Conte, D. Grogg, A. M. Ionescu, M. Kayal: High-Quality factor MEMS based oscillator, MIXDES, Łódź, 2009.
11. D. Grogg, C. Meinen, D. Tsamados, H. C. Tekin, M. Kayal, and A. M. Ionescu: Double gate movable body Micro-Electro-Mechanical FET as hysteretic switch: Application to data transmission systems, in Solid-State Device Research Conference, 2008. ESSDERC 2008. 38th European, pp. 302-305, 2008.
12. M. Blagojevic, M. Pastre, M. Kayal, P. Fazan, S. Okhonin, M. Nagoga, M. Declercq:, SOI Capacitor-Less 1-Transistor DRAM Sensing Scheme with Automatic Reference Generation, IEEE Symposium on VLSI Circuits, pp. 182-183, June 2004.
13. M. Blagojevic, M. Kayal, M. Pastre, L. Harik, S. Okhonin, P. Fazan: Capacitor-Less IT DRAM Sensing Scheme with Automatic Reference Generation, IEEE Journal of Solid-State Circuits (JSSC), Vol. 41, pp. 1463-1470, June 2006.
14. M. Pastre, M. Kayal, H. Blanchard: A Hall Sensor Analog Front End for Current Measurement with Continuous Gain Calibration, IEEE Sensors Journal, Special Edition on Intelligent Sensors, Vol. 7, Number 5, pp. 860-867, May 2007.
15. V. Kaajakari,T. Mattila,A. Oja, and H. A. S. H. Seppa: Nonlinear limits for single-crystal silicon microresonators, Microelectromechanical Systems, Journal of, vol. 13, pp. 715-724, 2004.
16. M. Agarwal, S. A. Chandorkar, H. Mehta, R. N. Candler, B. Kim, M. A. Hopcroft, R. Melamud, C. M. Jha, G. Bahl, G. Yama, T. W. Kenny, and B. Murmann: A study of electrostatic force nonlinearities in resonant microstructures, Applied Physics Letters, vol. 92, no. 10, pp. 104 106-3, 2008.
17. V. Kaajakari, J. K. Koskinen, T. Mattila: Phase Noise in Capacitively Coupled Micromechanical Oscillators, Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on, vol. 52, pp. 2322-2331, 2005.

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Bibliografia

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bwmeta1.element.baztech-article-BWAD-0016-0007