论文信息 - A hysteresis model for piezoceramic materials

A hysteresis model for piezoceramic materials

This paper addresses the modeling of nonlinear constitutive relations and hysteresis inherent to piezoceramic materials at moderate to high drive levels. Such models are necessary to realize the full potential of the materials in high performance control applications, and a necessary prerequisite is the development of techniques which permit control implementation. The approach employed here is based on the quantification of reversible and irreversible domain wall motion in response to applied electric fields. A comparison with experimental data illustrates that because the resulting ODE model is physic-based, it can be employed for both characterization and prediction of polarization levels throughout the range of actuator operation. Finally, the ODE formulation is amenable to inversion which facilitates the development of an inverse compensator for linear control design.

Zoubeida Ounaies | Ralph C. Smith | Z. Ounaies

[1] Ralph C. Smith,et al. Domain wall model for ferroelectric hysteresis , 1999, Smart Structures.

[2] D. Jiles,et al. Theory of ferromagnetic hysteresis , 1986 .

[3] Ralph C. Smith. Inverse compensation for hysteresis in magnetostrictive transducers , 2001 .

[4] Gang Tao,et al. Adaptive Control of Systems with Actuator and Sensor Nonlinearities , 1996 .

[5] Robert C. Rogers,et al. Compensation for hysteresis using bivariate Preisach models , 1997, Smart Structures.

[6] Shirley Dex,et al. JR 旅客販売総合システム（マルス）における運用及び管理について , 1991 .

[7] Yoshihiro Ishibashi,et al. Simulations of Ferroelectric Characteristics Using a One-Dimensional Lattice Model , 1991 .

[8] B. Widrow,et al. Adaptive inverse control , 1987, Proceedings of 8th IEEE International Symposium on Intelligent Control.

[9] Musa Jouaneh,et al. Modeling hysteresis in piezoceramic actuators , 1995 .

[10] Ping Ge,et al. Tracking control of a piezoceramic actuator , 1996, IEEE Trans. Control. Syst. Technol..

[11] C. Rogers,et al. A Macroscopic Phenomenological Formulation for Coupled Electromechanical Effects in Piezoelectricity , 1993 .