Page 292 - Mechanical design of microresonators _ modeling and applications
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Resonant Micromechanical Systems
Resonant Micromechanical Systems 291
23. A. Satoh, K. Ohnishi, and Y. Tomikawa, Characteristics of the piezoelectric
vibratory gyrosensor constructed using a trident tuning-fork resonator,
Proceedings of IEEE Ultrasonics Symposium, 1, 1998, pp. 555–558.
24. K. Sato, A. Ono, and Y. Tomikawa, Simulation of quartz crystal gyro-sensor
using double-ended tuning fork resonator for detection of two-axial angular
velocity, 2003 IEEE Symposium on Ultrasonics, 2, 2003, pp. 1350–1353.
25. E. Momosaki, A brief review of progress in quartz tuning fork resona-
tors, 1997 IEEE International Frequency Control Symposium, 1997,
pp. 352–365.
26. L. F. Matsiev, Application of flexural mechanical resonator to high
throughput liquid characterization, Proceedings of the IEEE Ultrasonics
Symposium, 1, 2000, pp. 427–434.
27. P. Ohlckers, R. Holm, H. Jakobsen, T. Kvisteroy, G. Kittisland, M. Nese,
S. M. Nilsen, and A. Ferber, An integrated resonant accelerometer
microsystem for automotive applications, International Conference on Solid
State Sensors and Actuators, 2, 1997, pp. 843–846.
28. C. Burrer, J. Esteve, and E. Lora-Tamayo, Resonant silicon accelerometers
in bulk micromachining technology—an approach, Journal of Micro-
electromechanical Systems, 5(2), 1996, pp. 122–130.
29. T. V. Roszhart, C. de Cotiis, H. Jerman, and J. Drake, An inertial-grade
micromachined vibrating beam accelerometer, IC Sensors Custom Product
Papers and Briefs, 1998, pp. 19–22.
30. M. J. Tudor, M. V. Andres, K. V. H. Foulds, and J. M. Naden, Silicon
resonator sensors: interrogation techniques and characteristics, IEE
Proceedings on Control Theory and Applications, 135(5), 1988, pp. 364–368.
31. S. Huang, X. Li, Y. Wang, J. Jiao, X. Ge, D. Lu, L. Che, K. Zhang, and
B. Xiong, A piezoresistive accelerometer with axially stressed tiny beams
for both much increased sensitivity and much broadened bandwidth,
International Conference on Solid State Sensors, Actuation and Micro-
systems, 1, 2003, pp. 91–94.
32. M. Esashi, Resonant sensors by silicon micromachining, Proceedings of
the 1996 IEEE International Frequency Control Symposium, 1996, pp.
609–614.
33. D. W. Burns, R. D. Horning, W. R. Herb, J. D. Zook, and H. Guckel,
Resonant microbeam accelerometers, The 8th International Conference on
Solid State Sensors and Actuators, 2, 1995, pp. 659–662.
34. A. A. Seshia, M. Palaniapan, T. A. Roessig, R. T. Howe, R. W. Gooch, T. R.
Schimert, and S. Montague, A vacuum packaged surface micromachined
resonant accelerometer, Journal of Microelectromechanical Systems, 11(6),
2002, pp. 784–795.
35. N. Aikele, K. Bauer, W. Ficker, F. Neubauer, U. Prechtel, J. Schalk, and
H. Seidel, Resonant accelerometer with self-test, Sensors and Actuators
A, 96, 2002, pp. 145–151.
36. H. Lefevre, The Fiber-Optic Gyroscope, Artech House, Norwood, 1993.
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