Title :
Modeling and Tracking Control of a Magnetostrictive Actuator
Author :
Ma, Yanhua ; Mao, Jianqin
Author_Institution :
Seventh Res. Div., Beijing Univ. of Aeronaut. & Astronaut.
Abstract :
Due to the rate-dependent hysteresis nonlinearity in the magnetostrictive actuator, the tracking control accuracy is limited. This paper presents a new method of modeling the hysteresis in the actuator and a dSPACE-based tracking control approach. The relationship between input and output of the actuator is approximately described by a dynamic differential equation with two rate-dependent coefficients. Each coefficient is expressed as a polynomial of frequency. For a fixed frequency, the coefficients will be able to be estimated by approximating the experimental data of the output of the magnetostrictive actuator. Based on this model, a quasi-PID controller is designed. In the space of the coefficients and frequency, the stable domain of the close-loop system with hysteresis is analyzed. By the numerical simulations and experiments of tracking sinusoidal wave with frequency ranging 1 Hz to 100 Hz, the results show that the proposed method is efficient
Keywords :
closed loop systems; differential equations; electromagnetic actuators; hysteresis; magnetostrictive devices; three-term control; tracking; 1 to 100 Hz; approximation; close-loop system; coefficient estimation; dSPACE-based tracking control approach; dynamic differential equation; magnetostrictive actuator; quasi PID controller; rate-dependent hysteresis; Actuators; Differential equations; Frequency domain analysis; Frequency estimation; Hysteresis; Magnetic analysis; Magnetic domains; Magnetostriction; Numerical simulation; Polynomials;
Conference_Titel :
TENCON 2006. 2006 IEEE Region 10 Conference
Conference_Location :
Hong Kong
Print_ISBN :
1-4244-0548-3
Electronic_ISBN :
1-4244-0549-1
DOI :
10.1109/TENCON.2006.344007
