Analysis and development of a sensor concept for multistable actuators with passive magnetic shape memory alloy

Patrick Fleischmann, Julius Happel, Bernd Gundelsweiler
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Abstract

Based on the current state of research, the aim of this paper is to develop a position sensor for actuators using passive magnetic shape memory alloys. The presented sensor concept converts the strain dependent permeability of the magnetic shape memory alloy into an inductance change by using a sensor coil arrangement. The change in inductance of the sensor coil is converted into a change in the resonant frequency of a parallel oscillating circuit. A microcontroller detects the resonant frequency of the circuit and converts it into a position sensor signal. To evaluate the functionality of the sensor, a test rig is developed that deforms the magnetic shape memory element under realistic application conditions. Experimental measurements in a climate chamber are used to evaluate the performance and characteristics of the sensor. The characteristic, temperature drift and hysteresis behavior are analyzed. It is proven that the presented sensor concept can be used to determine the position of passive magnetic shape memory alloy actuators.
分析和开发采用无源磁性形状记忆合金的多稳态致动器传感器概念
基于目前的研究现状,本文旨在利用无源磁性形状记忆合金为致动器开发一种位置传感器。所提出的传感器概念通过使用传感器线圈布置,将磁性形状记忆合金的应变相关磁导率转换为电感变化。传感器线圈的电感变化被转换为并联振荡电路谐振频率的变化。微控制器检测电路的谐振频率,并将其转换为位置传感器信号。为了评估传感器的功能,我们开发了一种测试装置,可在实际应用条件下使磁性形状记忆元件变形。在气候箱中进行的实验测量用于评估传感器的性能和特性。对传感器的特性、温度漂移和滞后行为进行了分析。实验证明,所提出的传感器概念可用于确定无源磁性形状记忆合金致动器的位置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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