多通道振弦传感器同步测量系统
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摘要
桥梁健康监测中需要对多个传感器进行同步测量,目前的振弦传感器测量系统所采用的多个传感器分时异步测量方式,无法满足实际应用需求。提出一种多通道同步激励,同步测量的设计方案,给出了系统总体结构。硬件方面详细介绍了信号调理、激励驱动电路以及温度测量模块的设计思路。软件部分给出了系统软件工作流程,并详细阐述了扫频激励策略和振弦信号多通道同步测量方法的实现。实际应用证明,设计方案合理,系统运行可靠,测量精度高。
Bridge health monitoring requires synchronous measurement on multiple sensors,while the existing measuring system uses time-sharing measurement for multiple sensors which can not satisfy the actual application requirement.A design scheme of synchronous excitation and synchronous measurement for multichannel sensor is raised,a general system structure is defined.In hardware section,the design scheme of signal conditioning,excitation-driving circuit and temperature measuring module is also illustrated.In software section,the working process of the system software is defined and the scanning-frequency excitation strategy and the realization of synchronous measurement on multiple channels of vibrating wire signal are elaborated as well.The actual application proves that the design is reasonable,the system running is reliable,and the measuring accuracy is superior.
Bridge health monitoring requires synchronous measurement on multiple sensors,while the existing measuring system uses time-sharing measurement for multiple sensors which can not satisfy the actual application requirement.A design scheme of synchronous excitation and synchronous measurement for multichannel sensor is raised,a general system structure is defined.In hardware section,the design scheme of signal conditioning,excitation-driving circuit and temperature measuring module is also illustrated.In software section,the working process of the system software is defined and the scanning-frequency excitation strategy and the realization of synchronous measurement on multiple channels of vibrating wire signal are elaborated as well.The actual application proves that the design is reasonable,the system running is reliable,and the measuring accuracy is superior.
引文
[1]裴强,郭迅,张敏政.桥梁健康监测及诊断研究综述[J].地震工程与工程振动,2003,23(2):61-67.
[2]高怀志,王君杰.桥梁检测和状态评估研究与应用[J].世界地震工程,2000,16(2):60-64.
[3]赵莉丽,季诚响,孙维瑾.振弦式传感器压力测量系统设计及分析[J].装甲兵工程学院学报,2009,23(3):91-94.
[4]秦权.桥梁结构的健康监测[J].中国公路学报,2000,13(2):37-42.
[5]毛良明,王为胜,沈省三.振弦式传感器及自动化网络测量系统在桥梁安全监测系统中的应用[J].传感技术学报,2002,15(1):73-76.
[6]袁广超,田旭东,陈恩,等.基于CPLD的振弦式传感器的频率测量技术[J].自动化仪表,2009,30(11):63-66.
[7]崔军辉,张恩亮,张培仁,等.提高振弦式传感器测量精度的方法的研究[J].传感技术学报,2009,22(9):1276-1279.
[8]张卫钢,晋琰.振弦式传感器测频系统的设计[J].传感器技术,2003,22(7):28-32.
[9]吕国芳,李东明,刘希涛.振弦式传感器扫频激振技术[J].自动化与仪表,2006(3):79-81.
[10]高友.振弦式传感器测量过程中干扰问题的解决[J].仪表技术与传感器,2007(2):54-55.
[11]贺虎,王万顺,田冬成,等.振弦传感器激振策略优化[J].传感技术学报,2010,23(1):74-77.
[12]白泽生.一种基于振弦式传感器测频方法的实现[J].传感器与微系统,2007,26(8):81-83.
[2]高怀志,王君杰.桥梁检测和状态评估研究与应用[J].世界地震工程,2000,16(2):60-64.
[3]赵莉丽,季诚响,孙维瑾.振弦式传感器压力测量系统设计及分析[J].装甲兵工程学院学报,2009,23(3):91-94.
[4]秦权.桥梁结构的健康监测[J].中国公路学报,2000,13(2):37-42.
[5]毛良明,王为胜,沈省三.振弦式传感器及自动化网络测量系统在桥梁安全监测系统中的应用[J].传感技术学报,2002,15(1):73-76.
[6]袁广超,田旭东,陈恩,等.基于CPLD的振弦式传感器的频率测量技术[J].自动化仪表,2009,30(11):63-66.
[7]崔军辉,张恩亮,张培仁,等.提高振弦式传感器测量精度的方法的研究[J].传感技术学报,2009,22(9):1276-1279.
[8]张卫钢,晋琰.振弦式传感器测频系统的设计[J].传感器技术,2003,22(7):28-32.
[9]吕国芳,李东明,刘希涛.振弦式传感器扫频激振技术[J].自动化与仪表,2006(3):79-81.
[10]高友.振弦式传感器测量过程中干扰问题的解决[J].仪表技术与传感器,2007(2):54-55.
[11]贺虎,王万顺,田冬成,等.振弦传感器激振策略优化[J].传感技术学报,2010,23(1):74-77.
[12]白泽生.一种基于振弦式传感器测频方法的实现[J].传感器与微系统,2007,26(8):81-83.
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