The piezo model can also be used to predict the current usage of the PZT which depends on the slew rate of the voltage applied to the PZT. Modeling of the piezo stack capacitive hysteresis is achieved using backlash basis functions. This model allows for easy integration of the piezo stack with a structural finite element model (FEM) and includes the flow of energy into and out of the piezo element, which is governed by the transducer constant of the piezo element.
#DYNAMIC RESPONSE OF STACK PIEZO ACTUATORS FULL#
IEEE Transactions on Magnetics, 24(1), 212–217.In this chapter a full electromechanical model of piezoceramic actuators is presented. Generalized Preisach model of hysteresis. Neural networks dynamic hysteresis model for piezoceramic actuator based on hysteresis operator of first-order differential equation. IEEE Transactions on Control Systems Technology, 23(6), 2432–2439.ĭang, X., & Tan, Y.
Rate-dependent modeling and H∞ robust control of gma based on hammerstein model with Preisach operator. IEEE Transactions on Industrial Electronics, 68(4), 3348–3358. Modeling and control of piezoelectric hysteresis: A polynomial based fractional order disturbance compensation approach. Motion control of piezoceramic actuators with creep, hysteresis and vibration compensation. Modeling of hysteresis nonlinearity in piezoelectric ceramic micro-positioning platform based on generalized rate-dependent Prandtl-Ishlinskii model, 2017. Dynamic Preisach model and inverse compensation for hysteresis of piezoceramic actuator based on neural networks: Proceedings of the 29th Chinese Control Conference Proceedings of the 29th Chinese Control Conference, 2010. IEEE/ASME Transactions on Mechatronics, 10(2), 230–239. Enhancement of tracking ability in piezoceramic actuators subject to dynamic excitation conditions. Modeling and measurement of creep- and rate-dependent hysteresis in ferroelectric actuators. Mechanical systems and signal processing, 106, 466–478. Robust independent modal space control of a coupled nano-positioning piezo-stage. International Journal of Precision Engineering and Manufacturing, 21(12), 2277–2286. High-precision tracking control of a piezoelectric micro-nano platform using sliding mode control with the fractional-order operator. Modeling and identification of the rate-dependent hysteresis of piezoelectric actuator using a modified Prandtl-Ishlinskii model. Precision tracking of a 2-DOF stick-slip positioner using modeling-free inversion-based iterative control and modified inverse hysteresis compensator.
Compensation of hysteresis on piezoelectric actuators based on Tripartite PI model. Generalized Prandtl-Ishlinskii hysteresis model: Hysteresis modeling and its inverse for compensation in smart actuators, 2008. IEEE, 2009.Īl Janaideh M, Mao J, Rakheja S, et al. Hysteresis modeling of piezo actuator using neural networks, 2009. A new approach to hysteresis modelling for a piezoelectric actuator using Preisach model and recursive method with an application to open-loop position tracking control.
Real-time compensation of hysteresis in a piezoelectric-stack actuator tracking a stochastic reference, 2008. Weibel F, Michellod Y, Mullhaupt P, et al. Chinese Journal of Scientific Instrument, 35(S1), 68–72. Dual-loop control strategy for fast-steering mirror driven by PZT. Optics and Precision Engineering, 03, 270–275. Causes for hysteresis and nonlinearity of piezoelectric ceramic actuators. Institute for computer applications in science and engineering hampton VA, 2001. Section A, Accelerators, spectrometers, detectors and associated equipment, 467, 252–255. Nuclear instruments & methods in physics research. Blade-type X-ray beam position monitors for SPring-8 undulator beamlines. A review on the fabrication technology of X-ray reflector. Ming, L., Jieli, W., Yongqian, W., et al. The race to X-ray microbeam and nanobeam science.
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