基于STM32F4的时栅位移传感器信号处理系统集成化设计
|
摘要
设计了一种基于单片STM32F4芯片的时栅位移传感器信号处理系统,将驱动电源、信号采样以及数据处理与误差补偿集成在一片芯片中完成,采用数字频率直接合成(DDS)技术进行激励源的设计,利用输入捕获方式进行高频时钟脉冲插补来采集测量信号,由芯片集成的单周期DSP指令部件完成数据计算,并采用傅氏级数谐波修正技术来进行误差修正。实验表明:采用该系统后,72对极时栅误差峰峰值为3.29″,在保证精度的同时实现了时栅信号处理系统的集成化、小型化,降低了生产成本。
A signal processing system of time grating displacement sensor based on MCU STM32F4 is designed.It integrates the signal acquisition and data processing,drive power and error compensation on one chip,and develops design of driving source with DDS. By the means of input capture,for high frequency clock pulse interpolation to collect measurement signals. This system manages to complete data computation in a one-cycle DSP instruction part integrated by chips and error correction with harmonic correction techniques of Fourier series.Experiment indicates that the 72 pairs polar time grating error peak-to-peak value is only 3. 29″,since this system is adopted,which ensure precision at the same time achieve integration and miniaturization of time-grating signal processing system and reduce the cost.
A signal processing system of time grating displacement sensor based on MCU STM32F4 is designed.It integrates the signal acquisition and data processing,drive power and error compensation on one chip,and develops design of driving source with DDS. By the means of input capture,for high frequency clock pulse interpolation to collect measurement signals. This system manages to complete data computation in a one-cycle DSP instruction part integrated by chips and error correction with harmonic correction techniques of Fourier series.Experiment indicates that the 72 pairs polar time grating error peak-to-peak value is only 3. 29″,since this system is adopted,which ensure precision at the same time achieve integration and miniaturization of time-grating signal processing system and reduce the cost.
引文
[1]彭东林,张兴红,刘小康,等.基于时空转换的精密位移测量新方法与传统方法的比较[J].仪器仪表学报,2006,27(4):423-426.
[2]张慧娟.STM32F4系列抢占Cortex—M4内核先机[J].EDN CHINA电子设计技术,2011,18(11):16-18.
[3]彭东林.时栅位移传感器与新型机床动态检测系统[M].北京:科学出版社,2010:56-86.
[4]彭东林,陈锡侯,朱革,等.时栅的波动方程分析和行波形成新办法[J].机械工程学报,2006,42(11):113-115.
[5]周文利,胡自洁.基于DDS技术的程控双通道正弦PWM脉冲源[J].仪表技术与传感器,2009(9):58-60.
[6]刘小康.时栅数控转台回转位置动态预测与实时误差修正研究[D].合肥:合肥工业大学,2008:21-56.
[7]张天恒,彭东林.时栅传感器的电气误差分析与修正[J].工具技术,2009(8):107-109.
[8]刘小康.基于电气制导与误差修正的几何量计量新方法及新型栅式智能位移传感器研究[D].重庆:重庆大学,2005:93-101.
[2]张慧娟.STM32F4系列抢占Cortex—M4内核先机[J].EDN CHINA电子设计技术,2011,18(11):16-18.
[3]彭东林.时栅位移传感器与新型机床动态检测系统[M].北京:科学出版社,2010:56-86.
[4]彭东林,陈锡侯,朱革,等.时栅的波动方程分析和行波形成新办法[J].机械工程学报,2006,42(11):113-115.
[5]周文利,胡自洁.基于DDS技术的程控双通道正弦PWM脉冲源[J].仪表技术与传感器,2009(9):58-60.
[6]刘小康.时栅数控转台回转位置动态预测与实时误差修正研究[D].合肥:合肥工业大学,2008:21-56.
[7]张天恒,彭东林.时栅传感器的电气误差分析与修正[J].工具技术,2009(8):107-109.
[8]刘小康.基于电气制导与误差修正的几何量计量新方法及新型栅式智能位移传感器研究[D].重庆:重庆大学,2005:93-101.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |