以太网CAN总线数据采集技术在SMART综合录井仪中的应用

doi:10.3969/j.issn.1672-9803.2022.01.015

录井工程 ›› 2022, Vol. 33 ›› Issue (1): 85-89.doi: 10.3969/j.issn.1672-9803.2022.01.015

以太网CAN总线数据采集技术在SMART综合录井仪中的应用

李荣^①, 李军^①, 武刚^②

①思凡(上海)石油设备有限公司;
②中国石油大港油田分公司天津储气库分公司

收稿日期:2022-01-04 出版日期:2022-03-25 发布日期:2022-04-08
作者简介:李荣,讲师,1967年生,1989年毕业于成都地质学院工业分析专业,学士学位,现在思凡(上海)石油设备有限公司从事录井相关研发工作。通信地址:201116 上海市闵行区万康路290号。电话:13681740806。E-mail:dqlirong@126.com

Application of Ethernet CAN bus data acquisition technology in SMART comprehensive logging tool

LI Rong^①, LI Jun^①, WU Gang^②

①Sifan(Shanghai)Petroleum Equipment Company,Shanghai 201116,China;
②Tianjin Gas Storage Branch of PetroChina Dagang Oilfield Company,Tianjin 300280,China

Received:2022-01-04 Online:2022-03-25 Published:2022-04-08

摘要/Abstract

摘要： 总线型传感器采集系统在综合录井系统中广泛应用,SMART综合录井仪采用CAN总线传感器信号采集系统,通过安装在计算机内部的PCI CAN采集卡实现对现场各个传感器节点的信号采集并发送至录井软件,实现各个录井参数计算。由于采集系统与计算机紧密绑定,严重制约了录井软件系统升级和计算机性能提升,为设计更加灵活的采集系统,通过对以太网CAN采集模块的研究,替代SMART综合录井仪正在使用的PCI CAN采集卡,将采集系统与计算机脱离,实现网络化的传感器采集模式,从而提升了录井系统的可靠性和灵活性。

关键词: 综合录井, CAN, 以太网, 分布式, 数据采集

Abstract: Bus-type sensor acquisition system is widely used in comprehensive mud logging system. The SMART comprehensive logging tool adopts CAN bus sensor signal acquisition system. Through the PCI CAN acquisition card installed in the computer,the signal acquisition of each sensor node on site is realized and sent to mud logging software to realize the calculation of each mud logging parameter. The acquisition system is tightly bound to the computer,which seriously restricts the upgrading of the logging software system and the improvement of computer performance. For more flexible acquisition systems,through the research on the Ethernet CAN acquisition mode,the PCI CAN card used by the SMART comprehensive mud logging tool is replaced,the acquisition system is separated from the computer,and the networked sensor acquisition mode is realized,thereby improving the reliability and flexibility of the logging system.

Key words: comprehensive mud logging, CAN, Ethernet, distributed, data acquisition

中图分类号:

TE132.1

李荣, 李军, 武刚. 以太网CAN总线数据采集技术在SMART综合录井仪中的应用[J]. 录井工程, 2022, 33(1): 85-89.

LI Rong, LI Jun, WU Gang. Application of Ethernet CAN bus data acquisition technology in SMART comprehensive logging tool[J]. Mud Logging Engineering, 2022, 33(1): 85-89.

参考文献 8

[1]	陈强,马继兵,谢洪武,等. DLS综合录井仪CAN总线传感器采集系统设计[J]. 石油管材与仪器,2016,2(5):15-17.CHEN Qiang,MA Jibing,XIE Hongwu,et al.Design of CAN-bus sensor acquisition system applied to DLS comprehensive mud logging unit[J]. Petroleum Tubular Goods & Instruments,2016,2(5):15-17.
[2]	魏阳庆,魏飞龙,姜钧,等. 基于CAN总线的石油录井仪系统设计[J]. 石油仪器,2014,28(4):25-28.WEI Yangqing,WEI Feilong,JIANG Jun,et al.Design of petroleum logging instrument system based on CAN-bus[J]. Petroleum Instruments,2014,28(4):25-28.
[3]	王林涛,马继兵,苑洪伟,等. DHI综合录井仪CAN总线传感器采集系统设计[J]. 石油管材与仪器,2020,6(5):31-34.WANG Lintao,MA Jibing,YUAN Hongwei,et al.Design of CAN-bus data acquisition system of DHI comprehensive mud logging unit[J]. Petroleum Tubular Goods & Instruments,2020,6(5):31-34.
[4]	杨春杰,王曙光,亢红波. CAN总线技术[M]. 北京:北京航空航天大学出版社,2010.YANG Chunjie,WANG Shuguang,KANG Hongbo.CAN bus technology[M]. Beijing:Beihang University Press,2010.
[5]	贾建波. 基于CAN总线的录井数据采集传输系统设计[D]. 山东:中国石油大学(华东),2008.JIA Jianbo. Design of logging data acquisition and transmission system based on CAN bus[D]. Shandong:China University of Petroleum(East China),2008.
[6]	张根源. 基于CAN总线的数据采集系统设计[J]. 机电工程,2006,23(8):44-46.ZHANG Genyuan.Design of data acquisition system based on CAN-bus[J].Journal of Mechanical & Electrical Engineering,2006,23(8):44-46.
[7]	程希明. CAN现场总线数据采集系统设计方案[J]. 自动化仪表,2004,25(6):21-25.CHENG Ximing.Design strategy of CAN field bus data acquisition system[J]. Process Automation Instrumentation,2004,25(6):21-25.
[8]	王印,贾建波,于云华,等. 录井数据采集系统CAN节点设计[J]. 仪表技术与传感器,2007(11):75-76,78.WANG Yin,JIA Jianbo,YU Yunhua,et al.Design and development of logging data acquisition and transmission system based on CAN bus[J]. Instrument Technique and Sensor,2007(11):75-76,78.

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以太网CAN总线数据采集技术在SMART综合录井仪中的应用

Application of Ethernet CAN bus data acquisition technology in SMART comprehensive logging tool

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