12/7/2023 0 Comments Ultrasonic piezo motorIEEE Trans Ultrason Ferroelectr Freq Control 55:2266–2276 Shigematsu T, Kurosawa MK (2008a) Friction drive of a SAW motor. Sashida T (1985) Motor device utilizing ultrasonic oscillation. In: IEEE ultrasonics symposium, pp 467–470 Sano A, Matsui Y, Shiokawa S (1997) A new manipulator based on surface acoustic wave streaming. Sakano K, Kurosawa MK, Shigematsu T (2010) Driving characteristics of a surface acoustic wave motor using a flat-plane slider. Sakano K, Kurosawa MK, Shigematsu T (2008) Surface acoustic wave motor with flat plane slider. Royer D, Dieulesaint E (1999) Elastic waves in solids: generation, acousto-optic interaction, applications, vol 2. Royer D, Dieulesaint E (1996) Elastic waves in solids: free and guided propagation, vol 1. In: Proceedings of the IEEE (IEEE), pp 390–395 Osakabe N, Kurosawa M, Higuchi T, Shinoura O (1998) Surface acoustic wave linear motor using silicon slider. In: IEEE Ultrasonics Symposium (IEEE Press), pp 1766–1769 Nakamura Y, Kurosawa MK, Shigematsu T (2003) Effects of ceramic thin film coating on friction surfaces for surface acoustic wave linear motor. Moroney RM, White RM, Howe RT (1990) Ultrasonic micromotors: physics and applications. IEEE Trans Ultrason Ferroelectr Freq Control 46:929–934 Morita T, Kurosawa MK, Higuchi T (1999) Simulation of surface acoustic wave motor with spherical slider. Morita T (2003) Review on miniature piezoelectric motor. Morgan D (2007) Surface acoustic wave filters with applications to electronic communications and signal processing. Mamishev AV, Sundara-Rajan K, Yang F, Du Y, Zahn M (2004) Interdigital sensors and transducers. Lavrinenko V, Nekrasov M (1965) Piezoelectric motor. Kurosawa MK, Chiba M, Higuchi T (1998b) Evaluation of a surface acoustic wave motor with a multi-contact-point slider. IEEE Trans Ultrason Ferroelectr Freq Control 45:1188–1195 Kurosawa MK, Kodaira O, Tsuchitoi Y, Higuchi T (1998a) Transducer for high speed and large thrust ultrasonic linear motor using two sandwich-type vibrators. IEEE Trans Ultrason Ferroelectr Freq Control 43:901–906 Kurosawa MK, Takahashi M, Higuchi T (1996) Ultrasonic linear motor using surface acoustic waves. IEEE Trans Ultrason Ferroelectr Freq Control 38:89–92 Kurosawa M, Ueha S (1991) Hybrid transducer type ultrasonic motor. In: Proceedings of IEEE ultrasonics symposium (IEEE Press), pp 1096–1105 Kurosawa MK (2009) Ultrasonic linear motor using travelling surface acoustic wave. IEEE Trans Ultrason Ferroelectr Freq Control 47:836–843 Koc B, Bouchilloux P, Uchino K (2000) Piezoelectric micromotor using a metal-ceramic composite structure. lEEE Trans Ultrason Ferroelectr Freq Control 40:402–406 Hirata H, Ueha S (1993) Characteristics estimation of a traveling wave type ultrasonic motor. Gu H, Ma D, Zhang S, Cheng L, Shui X (2008) Theoretical analysis of non-contact linear motors driven by surface acoustic waves. In: Proceedings of mechatronics, pp 24–26įujii Y, Kotani H, Masaya T, Mizuno T (2007) Surface acoustic wave linear motor using segment-structured diamond-like carbon films on contact surface. Elsevier Ultrason 39:591–594įeenstra PJ, Breedveld PC, Vermeulen MMP, Peeters FGP (2002) Modelling and experimental validation of a linear surface acoustic wave motor prototype. Academic, BostonĬheng LP, Zhang GM, Zhang SY, Yu J, Shui XJ (2002) Miniaturization of surface acoustic waves rotary motor. In: IEEE Ultrasonics Symposium, pp 1–4Ĭampbell C (ed) (1989) Surface acoustic wave devices and their signal processing applications. IBM Tech Discl Bull 16(7):2263īehera B, Nemade HB, Trivedi S (2016) Modelling and finite element simulation of a dual friction-drive SAW motor using flat slider. Wiley, Mississaugaīarth HV (1973) Ultrasonic drive motor. ![]() Auld BA (1973) Acoustic fields and waves in solids, vol 1.
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