A design method of traveling wave rotary ultrasonic motors driving circuit under high voltage using single-sided hertzian contact forced oscillator model
A design method of traveling wave rotary ultrasonic motors driving circuit under high voltage using single-sided hertzian contact forced oscillator model
Traveling wave rotary ultrasonic motors (TRUMs) are widely used in various industrial processes due to their attractive features, such as compact structure, high accuracy, and fast response. However, the major limiting factors of the operational performance of TRUMs under high-voltage excitation are the nonlinear behavior caused by the nonlinearities of the piezoelectric materials and the friction between the stator and rotor of the motor. In this study, a nonlinear dynamics model and an identification method are presented to directly design the driver circuit for suppressing the nonlinear behavior under high voltage excitation. Firstly, by studying the time–frequency characteristics of the isolated electrode voltage, a single-sided Hertzian contact forced oscillator model of TRUMs is established, involving the nonlinearities of the piezoelectric material and friction. Secondly, a harmonic balance nonlinear identification is proposed in the time domain for TRUMs. The influence of the voltage and preload on the nonlinear phenomena is discussed. Lastly, a novel driver circuit is proposed to suppress the nonlinearities using feedback from the isolated electrode. Experiments showed that the total harmonic distortion decreased by 89.4% under 500 Vpp. The proposed drive circuit design method is used to find a high excitation voltage and preload to achieve greater motor output power.
Li, Xiaoniu
b68184df-ff23-410b-9e12-03cd98bb0141
Huang, Tianlu
d5614463-a701-4e37-a75a-822644e737f6
Zhao, Ning
3b81126d-6a29-46a9-a0ee-416989484afe
Shen, Youtao
22fa181e-5e38-4fd3-99bc-1bd48c23e09b
Huang, Jiada
561f5d58-8962-4ea5-b1da-385c8374773a
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Li, Jiayi
858335c4-5b3f-44ec-91cf-7b26b738bb04
Yang, Lin
11f4f7ec-52cc-4146-b1c0-86bb399038c5
January 2023
Li, Xiaoniu
b68184df-ff23-410b-9e12-03cd98bb0141
Huang, Tianlu
d5614463-a701-4e37-a75a-822644e737f6
Zhao, Ning
3b81126d-6a29-46a9-a0ee-416989484afe
Shen, Youtao
22fa181e-5e38-4fd3-99bc-1bd48c23e09b
Huang, Jiada
561f5d58-8962-4ea5-b1da-385c8374773a
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Li, Jiayi
858335c4-5b3f-44ec-91cf-7b26b738bb04
Yang, Lin
11f4f7ec-52cc-4146-b1c0-86bb399038c5
Li, Xiaoniu, Huang, Tianlu, Zhao, Ning, Shen, Youtao, Huang, Jiada, Li, Xuan, Li, Jiayi and Yang, Lin
(2023)
A design method of traveling wave rotary ultrasonic motors driving circuit under high voltage using single-sided hertzian contact forced oscillator model.
Micromachines, 14 (1), [64].
(doi:10.3390/mi14010064).
Abstract
Traveling wave rotary ultrasonic motors (TRUMs) are widely used in various industrial processes due to their attractive features, such as compact structure, high accuracy, and fast response. However, the major limiting factors of the operational performance of TRUMs under high-voltage excitation are the nonlinear behavior caused by the nonlinearities of the piezoelectric materials and the friction between the stator and rotor of the motor. In this study, a nonlinear dynamics model and an identification method are presented to directly design the driver circuit for suppressing the nonlinear behavior under high voltage excitation. Firstly, by studying the time–frequency characteristics of the isolated electrode voltage, a single-sided Hertzian contact forced oscillator model of TRUMs is established, involving the nonlinearities of the piezoelectric material and friction. Secondly, a harmonic balance nonlinear identification is proposed in the time domain for TRUMs. The influence of the voltage and preload on the nonlinear phenomena is discussed. Lastly, a novel driver circuit is proposed to suppress the nonlinearities using feedback from the isolated electrode. Experiments showed that the total harmonic distortion decreased by 89.4% under 500 Vpp. The proposed drive circuit design method is used to find a high excitation voltage and preload to achieve greater motor output power.
Text
micromachines-14-00064-with-cover
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Accepted/In Press date: 20 December 2022
e-pub ahead of print date: 26 December 2022
Published date: January 2023
Identifiers
Local EPrints ID: 497965
URI: http://eprints.soton.ac.uk/id/eprint/497965
ISSN: 2072-666X
PURE UUID: fd724176-bdde-48e9-b1d1-d7441d539f97
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Date deposited: 05 Feb 2025 17:46
Last modified: 22 Aug 2025 02:46
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Contributors
Author:
Xiaoniu Li
Author:
Tianlu Huang
Author:
Ning Zhao
Author:
Youtao Shen
Author:
Jiada Huang
Author:
Xuan Li
Author:
Jiayi Li
Author:
Lin Yang
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