摘要
为提高电气设备信号传输效率,提升电气设备状态检测的及时性和准确性,研究基于半导体激光干涉技术的电气设备状态检测方法。应用半导体激光干涉技术结合光纤压力传感技术,获得运行中设备的压力参数,调用相应的知识规则判断设备的运行状况,实现电气设备状态检测,并依据信号数据分析判断电气设备故障原因,提出相应维修措施。实验证明:该方法可通过检测电气设备的振动频率特性,准确衡量设备的运行状态和故障状态,具备较好的电气设备故障状态检测效果;且该方法应用后,信号由电气设备传输到控制室上位机的延时最短,信号平均传输率高、信号传输平均误码率低,可实现电气设备状态的高效、准确检测。
In order to improve the signal transmission efficiency of electrical equipment and improve the timeliness and accuracy of electrical equipment condition detection,the state detection method of electrical equipment based on semiconductor laser interference technology is studied. Using semiconductor laser interference technology combined with optical fibre pressure sensing technology,the pressure parameters of the equipment in operation are obtained,and the corresponding knowledge rules are used to judge the operation status of the equipment. The status detection of the electrical equipment is realised. The fault causes of the electrical equipment are analysed and judged according to the signal data,and the corresponding maintenance measures are proposed. Experiments show that: this method can accurately measure the running state and fault state of electrical equipment by detecting the vibration frequency characteristics of electrical equipment,and has good detection effect of fault state of electrical equipment;and after the application of this method,the delay time of signal transmission from electrical equipment to the upper computer in the control room is the shortest,the average transmission rate of the signal is high,and the average bit error rate of signal transmission is low high efficiency and accurate detection of standby state.
作者
刘俊
章磊
LIU Jun;ZHANG Lei(School of Electrical and Electronic Information Engineering,Hubei Polytechnic University,Huangshi Hubei 435003,China)
出处
《激光杂志》
CAS
北大核心
2021年第5期52-56,共5页
Laser Journal
基金
国家自然科学基金项目(No.61871178)
中央引导地方科技发展专项(No.2018ZYYD006)
湖北省自然科学基金项目(No.2017CFB195)
湖北省教育厅中青年人才项目(No.Q20204506)
湖北理工学院重点项目(No.2019B03)。
关键词
半导体激光
干涉技术
电气设备
状态检测
光纤压力传感
信号传输
semiconductor laser
interference technology
electrical equipment
state detection
optical fibre pressure sensing
signal transmission