Title :
Equivalent Circuit of a Piezomagnetic Unimorph Incorporating Single-Crystal Galfenol
Author :
Marschner, Uwe ; Datta, Soupayan ; Starke, Eric ; Fischer, Wolf-Joachim ; Flatau, Alison B.
Author_Institution :
Inst. for Semicond. & Microsyst. Technol., Tech. Univ. Dresden, Dresden, Germany
Abstract :
In this paper, the reversible transducer properties of a piezomagnetic unimorph are investigated experimentally and aggregated in a linear equivalent circuit. The unimorph consists of a single-crystal Galfenol plate, which is mounted to an aluminum plate. Such two-layer piezomagnetic elements are used in bending actuators or sensors. The completed two-port model of the transducer describes the dynamic behavior in sensing, as well as actuation direction, and includes the magnetomechanical interaction. The coupling of the transducer with a solenoid and demagnetization are considered. A circuit simulator can be used to investigate efficiently the dynamic behavior of the system, and circuit theory can be applied to analyze and simplify the equivalent circuit model.
Keywords :
circuit simulation; demagnetisation; equivalent circuits; gallium alloys; iron alloys; magnetic circuits; magnetic sensors; magnetomechanical effects; magnetoresistive devices; piezoelectric actuators; piezoelectric transducers; FeGa; actuation direction; aluminum plate; bending actuators; circuit simulator; circuit theory; demagnetization; linear equivalent circuit; magnetomechanical interaction; piezomagnetic unimorph; reversible transducer; sensors; single-crystal Galfenol plate; solenoid; two-layer piezomagnetic elements; Integrated circuit modeling; Magnetic circuits; Magnetic domains; Magnetic sensors; Magnetostriction; Demagnetization; lumped parameter model; magnetic circuits; magnetostrictive devices; reversibility; transducers;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2323362
