Add to ORKGThe paper proposes a two-stage model able to describe the dynamic behavior of a commercial magnetostrictive actuator in the frequency range of interest for fast actuation purposes. The first stage is a static model of hysteresis, while the second one is a linear dynamic model. The model structure allows to define well-assessed identification procedures for both stages. In particular,the identification of the dynamic stage is realized by the compensation of the transducer’s hysteresis,through the employment of a pseudo-compensator. Experimental validation of the model is also reported and further applications to other magnetostrictive actuators is addressed
studies of a magnetostrictive actuator with varying mechanical and magnetic bias levels by dynamic s...
If there is one actuator technology that is almost exclusively linked to a single application, that ...
In this paper, a dynamic model for the description and design of hysteresis in magnetostrictive devi...
Magnetostrictive actuators featuring high energy densities, large strokes, and fast responses are pl...
One of the most frequent application of magnetostrictive actuator technology is the active structura...
The rate-dependent hysteresis existing in magnetostric-tive actuators presents a challenge in contro...
The rate-dependent hysteresis existing in magnetostrictive actuators presents a challenge in control...
The rate-dependent hysteresis present in thin magnetostrictive actuators can be captured by a dynami...
This paper explores the implementation of a feedforward control method to a nonlinear control system...
The actuating precision of a micro-positioning system, driven by a magnetostrictive actuator, is ad...
AbstractThis paper addresses the modeling of complex hysteresis behavior for giant magnetostrictive ...
In this dissertation, we propose a model and formulate a control methodology for a thin magnetostric...
A magnetostrictive material elongates when it is subjected to a magnetic field. This effect can then...
studies of a magnetostrictive actuator with varying mechanical and magnetic bias levels by dynamic s...
If there is one actuator technology that is almost exclusively linked to a single application, that ...
In this paper, a dynamic model for the description and design of hysteresis in magnetostrictive devi...
Magnetostrictive actuators featuring high energy densities, large strokes, and fast responses are pl...
One of the most frequent application of magnetostrictive actuator technology is the active structura...
The rate-dependent hysteresis existing in magnetostric-tive actuators presents a challenge in contro...
The rate-dependent hysteresis existing in magnetostrictive actuators presents a challenge in control...
The rate-dependent hysteresis present in thin magnetostrictive actuators can be captured by a dynami...
This paper explores the implementation of a feedforward control method to a nonlinear control system...
The actuating precision of a micro-positioning system, driven by a magnetostrictive actuator, is ad...
AbstractThis paper addresses the modeling of complex hysteresis behavior for giant magnetostrictive ...
In this dissertation, we propose a model and formulate a control methodology for a thin magnetostric...
A magnetostrictive material elongates when it is subjected to a magnetic field. This effect can then...
studies of a magnetostrictive actuator with varying mechanical and magnetic bias levels by dynamic s...
If there is one actuator technology that is almost exclusively linked to a single application, that ...
In this paper, a dynamic model for the description and design of hysteresis in magnetostrictive devi...