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Dynamic modeling and characteristics analysis of a modal-independent linear ultrasonic motor

2016; Elsevier BV; Volume: 72; Linguagem: Inglês

10.1016/j.ultras.2016.07.018

1874-9968

Xiang Li, Zhiyuan Yao, Shengli Zhou, Qibao Lv, Zhen Liu,

Innovative Energy Harvesting Technologies

In this paper, an integrated model is developed to analyze the fundamental characteristics of a modal-independent linear ultrasonic motor with double piezoelectric vibrators. The energy method is used to model the dynamics of the two piezoelectric vibrators. The interface forces are coupled into the dynamic equations of the two vibrators and the moving platform, forming a whole machine model of the motor. The behavior of the force transmission of the motor is analyzed via the resulting model to understand the drive mechanism. In particular, the relative contact length is proposed to describe the intermittent contact characteristic between the stator and the mover, and its role in evaluating motor performance is discussed. The relations between the output speed and various inputs to the motor and the start-stop transients of the motor are analyzed by numerical simulations, which are validated by experiments. Furthermore, the dead-zone behavior is predicted and clarified analytically using the proposed model, which is also observed in experiments. These results are useful for designing servo control scheme for the motor.