Design of Industrial Field Intelligent Temperature Acquisition System Based on Timestamped Anti-Interference Algorithm

Chunjie Yang, Bingchun Jiao, Hongbo Kang, Yanwei Li, Yan Liu, Yifan Wu, Shujie Ma
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Abstract

At present, wired method is used widely in the acquisition and transmission of field signals in industrial field acquisition system. There are some problems such as long cables, difficult wiring, analog signals that are susceptible to interference and so on. A new design of industrial field intelligent temperature acquisition system based on timestamped anti-interference algorithm is presented in the paper. The system can collect analog signals of PT100 and convert that to digital signals which are transmitted to the control center by Data Transceiver. When the signals reach the control center, the system will process digital signals, and set up T-R relation table based on least square algorithm, and at last, the signals are restored to resistance signals of PT100 by using multichannel digital potentiometers. The system uses wireless transmission instead of wired transmission, to realize the collection, transmission and recovery of thermal resistance information, and solve the interference problem of long-distance wireless communication. Experimental test verify that the system communication is normal, stability and accurate, which provides a reasonable design scheme for the application of data transmission technology in industrial field.
基于时间戳抗干扰算法的工业现场智能温度采集系统设计
目前,在工业现场采集系统中,广泛采用有线方式进行现场信号的采集和传输。存在电缆长、布线困难、模拟信号容易受到干扰等问题。提出了一种基于时间戳抗干扰算法的工业现场智能温度采集系统的设计方案。该系统可以采集PT100的模拟信号,并将其转换为数字信号,通过数据收发器传输到控制中心。当信号到达控制中心后,系统对数字信号进行处理,并基于最小二乘算法建立T-R关系表,最后通过多路数字电位器将信号还原为PT100的电阻信号。该系统采用无线传输代替有线传输,实现了热阻信息的采集、传输和恢复,解决了远距离无线通信的干扰问题。实验测试验证了系统通信正常、稳定、准确,为数据传输技术在工业领域的应用提供了合理的设计方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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