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基于磁敏元件的寄生式时栅传感器仿真分析
引用本文:李志明,武亮,彭东林,汤其富,王阳阳. 基于磁敏元件的寄生式时栅传感器仿真分析[J]. 工具技术, 2017, 51(6): 130-133
作者姓名:李志明  武亮  彭东林  汤其富  王阳阳
作者单位:重庆理工大学机械检测技术与装备教育部工程研究中心
基金项目:国家自然科学基金,重庆市研究生科研创新项目,重庆理工大学研究生创新基金资助项目
摘    要:传统寄生式时栅位移传感器采用线圈传输电信号,不能保证线圈本身及绕线质量,导致寄生式时栅位移传感器体积大、灵敏度低、功耗大。根据寄生式时栅位移传感器的工作原理,选择一种基于磁敏元件代替绕制线圈的方法。用ANSOFT/Maxwell对磁钢和磁敏元件的气隙磁场、磁敏元件与被测齿轮之间的距离、磁钢大小和形状进行仿真,比较分析可知3mm×3mm×2mm的长方体磁钢在气隙为3mm的情况下能够满足磁敏元件的工作要求。

关 键 词:寄生式时栅  线圈  磁敏元件  磁钢

Simulation Analysis of Parasitic Time Grating Sensor Based on Magnetic Sensor
Li Zhiming,Wu Liang,Peng Donglin,Tang Qifu,Wang Yangyang. Simulation Analysis of Parasitic Time Grating Sensor Based on Magnetic Sensor[J]. Tool Engineering(The Magazine for Cutting & Measuring Engineering), 2017, 51(6): 130-133
Authors:Li Zhiming  Wu Liang  Peng Donglin  Tang Qifu  Wang Yangyang
Abstract:The traditional parasitic time-grating displacement sensor adopts coil to transmit electric signal,but it not only has large volume,low sensitivity but also high power consumption due to the coil and the winding quality can't be guaranteed.According to the working principle of the parasitic time-grating displacement sensor,a new method based on magnetic sensor instead of winding coil is selected.The experiment is conducted by simulation with ANSOFT/Maxwell,includes the air gap magnetic field of permanent magnet and magnetic sensors,the distance between the magnetic sensors and the measured magnetic gear,the size and shape of magnetic steel.The comparative analysis shows that 3mm×3mm×2mm cuboid magnetic steel can meet the work requirement of magnetic sensitive element in the case of the air gap is 3mm.
Keywords:parasitic time-grating  coil  magnetic sensitive element  magnetic steel
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