Journal of Shandong University(Engineering Science) ›› 2020, Vol. 50 ›› Issue (1): 49-55.doi: 10.6040/j.issn.1672-3961.0.2019.228

• Control Science & Engineering • Previous Articles     Next Articles

Multi-protocol heterogeneous fieldbus control system regulated by GPRS

Pengfei HOU(),Zhumei SUN,Qi WANG,Jianyun BAI   

  1. Department of Automation, Shanxi University, Taiyuan 030013, Shanxi, China
  • Received:2019-05-16 Online:2020-02-20 Published:2020-02-14
  • Supported by:
    国家自然科学基金项目(61803244);山西省科技基础条件平台建设项目(2015091005-0101)

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Abstract:

The current fieldbus control system usually only supports one or two kinds of fieldbus protocols. In view of the current situation that there were many standards of fieldbus protocols and many types of bus devices, a multi-protocol heterogeneous compatible fieldbus control system with three layers of monitoring level, control level and field equipment level was constructed for the purpose of supporting multiple protocols. By configuring gateway to solve the communication problems of heterogeneous fieldbus between PROFIBUS-DP and PROFIBUS-PA, HART, Modbus, DeviceNet, GPRS, etc., a fieldbus monitoring system with Siemens PCS7 as the upper monitor system and heterogeneous controller as the field control system was built, and the wireless and real-time embedded remote monitoring function of FCS and fieldbus intelligent instrument was realized by GPRS. The test results showed that the monitoring level could monitor and control heterogeneous fieldbus devices with different protocols remotely and real-time, and realize remote management and start-stop control of fieldbus devices. This system could be used as the feasibility verification of multi-protocol heterogeneous compatible FCS.

Key words: measurement and control system integration, GPRS, FCS, internetwork protocol converter, heterogeneous compatibility, mobile terminal, remote monitoring

CLC Number: 

  • TP274.2

Fig.1

Structure diagram of system network"

Fig.2

Structure chart of control network of deaerator levelcontrol system based on Modbus protocol"

Fig.3

PM-160 gateway data processing program"

Fig.4

Remote monitoring screen of deaerator level control system"

Fig.5

Remote monitoring screen of hydraulic tanklevel control system"

Fig.6

DP and PA communication hardware configuration"

Fig.7

Field process variables received at the control level"

Fig.8

Monitoring data acquisition screen"

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