Title :
Control system design for piezoelectric actuator based on hysteresis compensation
Author :
Yanfang Liu ; Jinjun Shan ; Naiming Qi
Author_Institution :
Dept. of Astronaut. Eng., Harbin Inst. of Technol., Harbin, China
Abstract :
To improve the performance of piezo nano-positioning system, feedback controller is designed based on the linearized hysteresis-compensated model of piezoelectric actuator (PEA). Nonlinear hysteresis is compensated for using Maxwell resistive capacitor (MRC) model. Then, a linear system is identified with this hysteresis-compensated dynamics. Based on the identified linear model, a trajectory preshaping method is employed for open-loop scanning application and a proportional plus integral (PI) controller is designed for closed-loop tracking application. Experimental results demonstrate the effectiveness of the proposed method.
Keywords :
PI control; closed loop systems; compensation; control system synthesis; hysteresis; linear systems; nanopositioning; nonlinear control systems; open loop systems; piezoelectric actuators; state feedback; MRC model; Maxwell resistive capacitor model; PEA; PI controller; closed-loop tracking; control system design; feedback controller design; hysteresis-compensated dynamics; identified linear model; linearized hysteresis-compensated model; nonlinear hysteresis compensation; open-loop scanning application; piezo nano-positioning system; piezoelectric actuator; proportional plus integral controller design; trajectory preshaping method; Creep; Feedforward neural networks; Hysteresis; Mathematical model; Piezoelectric actuators; Trajectory; hysteresis; linearization; nano-positioning; piezoactuator (PEA); proportional plus integral (PI) control;
Conference_Titel :
Control Conference (ECC), 2014 European
Conference_Location :
Strasbourg
Print_ISBN :
978-3-9524269-1-3
DOI :
10.1109/ECC.2014.6862214
