摘要
针对差动变压器式位移传感器的性能及其在高温磁悬浮轴承中的应用,对环境温度升高影响差动变压器式位移传感器(DTDS)性能的机理和特征以及所采用的温度补偿技术进行了研究。采用比值方式的处理电路以及加入补偿电阻的方法改善了温度升高所带来位移传感器灵敏度升高、温度漂移和时间漂移的问题。对不同温度下的差动变压器式位移传感器进行标定得到了位移传感器的动静态性能,并将其应用到单自由度高温磁悬浮轴承(HTAMB)试验台上进行静态和模拟动态悬浮。研究结果表明,环境温度为550℃,被测物体移动范围在-0.35^+0.35mm时,位移传感器的灵敏度在19.62mV/μm,线性度为±0.74%,迟滞性为±0.40%,重复性为±0.97%,传感器截止频率在800Hz左右;在单自由度高温磁悬浮轴承试验台上使用所研制的高温位移传感器,能实现被悬浮物体的稳定悬浮。
The influence of high operating temperature on the differential transformer displacement sensor (DTDS) mecha- nism and characteristics and the following temperature compensation technology are mainly analyzed in view of the perform-ance of DTDS and its application in high temperature active magnetic bearing (HTAMB). The technical problems of sensor sensitivity increase, temperature and time drift caused by the temperature rise are improved through the processing circuit of ratio mode and compensation resistance. The DTDS at high temperature is statically and dynamically calibrated and applied to a single degree-of-freedom (DOF) HTAMB system for static and dynamic simulation suspension. When the measurement range is -0.35-+ 0.35 mm with the working temperature 550 ℃, the DTDS has the following characteristics: sensitivity is 19.62 mV/μm, linearity is + 0.74%, hysteresis is + 0.40%, repeatability is -+ 0.97% and the cutoff frequency reaches 800 Hz. Finally, this DTDS is successfully used in a DOF HTAMB test bed. The results provide promotion for the HTAMB ap-plication in more-electric gas turbine engines system.
出处
《航空学报》
EI
CAS
CSCD
北大核心
2014年第1期230-239,共10页
Acta Aeronautica et Astronautica Sinica
基金
国家自然科学基金(51075200)
江苏省自然科学基金(BK2011070)~~
关键词
高温
位移测量
传感器
变压器
磁悬浮轴承
航空发动机
high temperature
displacement measurement
sensors
transformer windings
active magnetic bearing
air-craft engines
作者简介
通讯作者:金超武 男,讲师。主要研究方向:磁悬浮技术,位移传感器机电系统控制等。Tel:025—84892594 E—mail:jinchaowu@nuaa.edu.cn
徐龙祥 男,教授。主要研究方向:磁悬浮技术,计算机与机电系统控制,旋转机械动力学等。Tel:025-84892598 E—mail:fql:l@nuaa.edu.cn
