1 |
Hieu, N.T., Odomari, S. and Yoshida, T. (2013), "Nonlinear adaptive control of ultrasonic motors considering dead-zone", IEEE Tran. Indus. Inform., 9(4), 1847-1854.
DOI
|
2 |
Hojjat, Y. and Karafi, M.R. (2010), "Introduction of roller interface ultrasonic motor", Sens. Actuat. A, 163(1), 304-310.
DOI
|
3 |
Qu, J.F. (1993), Movable tooth drive theory, Mechanical Industrial Press, Beijing. China. (in China)
|
4 |
Rho, J.S., Lee, C.H. and Jung, H.K. (2008), "Characteristic analysis and design of a small size rotary ultrasonic motor using the cutting method", Int. J. Appl. Electrom. Mech., 28(4), 469-500.
|
5 |
Sashida, T. (1982), "Trial construction and operation of an ultrasonic vibration driven motor", Oyo Butsiuri, 51(6), 713-718.
|
6 |
Sashida, T. (1984), "Motor device utiliaing ultrasonic oscillation", US Patent, 4562374.
|
7 |
Shi, J.Z. and You, D.M. (2014), "Characteristic model of travelling wave ultrasonic motor", Ultrasonics, 54(2), 725-730.
DOI
|
8 |
Stepanenko, D.A. and Minchenya, V.T. (2012), "Development and study of novel non-contact ultrasonic motor based on principle of structural asymmetry", Ultrasonics, 52(7),866-872.
DOI
|
9 |
Tokushima, A. and Harao, N. (1987), "Ultrasonic motor", Nat. Tech. Report, 33, 542-550. (in Japan)
|
10 |
Ueha, S., Hashimoto, Y. and Koike, Y. (2000), "Non-contact transportation using near-field acoustic levitation", Ultrasonics, 38(1-8), 26-32.
DOI
|
11 |
Xu, L.Z. and Li, H.Y. (2013), "Free vibration for an electromechanical integrated harmonic piezodrive system", Int. J. Appl. Electrom. Mech., 42(2), 269-282.
|
12 |
Yamayoshi, Y. and Hirose, S. (1992), "Ultrasonic motor not using mechanical friction force", Int. J. Appl. Electrom. Mech., 3, 179-182.
|
13 |
Yang, B., Liu, J.Q. and Chen, D. (2006), "Theoretical and experimental research on a disk-type non-contact ultrasonic motor", Ultrasonics, 44(3), 238-240.
DOI
|