基于CAN总线的旋转导向仪器控制节点设计
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中海油田服务股份有限公司油田技术研究院 北京 101149

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TE927

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863计划(2013AA092401)资助项目


Design of control node based on CAN bus for rotary steerable tool
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WellTech R&.D Institutes China Oilfield Service Ltd.,Beijing 101149,China

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    摘要:

    为了克服井下的高温、高压、强振动、强冲击等苛刻环境,旋转导向仪器对通信系统的要求很高。CAN总线技术具有较高的抗干扰性和可靠性,且系统连接线少,可扩展性高,使其成为模块间通信的合适选择。设计了一种基于CAN总线的旋转导向仪器各控制节点,包括主控制模块的功能设计和可移植的CAN通信固件设计。主控制模块作为上下端通信的枢纽,能有效实现对指令和数据的传递和分析;设计的CAN通信系统不仅有效保证了各个模块间通信的可靠性和安全性,更使其可以方便地扩展至不同模块。实验结果表明,该控制节点在高温环境(如125 ℃)下,通信稳定性和控制可靠性均满足旋转导向仪器的要求。

    Abstract:

    In order to overcome the harsh environment such as high temperature, high pressure, strong vibration, and strong impact and so on, rotary steerable rool requires high standard of communication system. Due to the advantage of the high antijamming and reliability, CAN bus technology with less connection lines and better scalability is regarded as the appropriate choice of communication among every module. A control node based on can bus for rotary steerable tool was designed, includes the design of master control module and portable firmware. The master control module, as the communication center of the upper and lower terminal, can realize the instructions transmission and data analysis.The portable firmware design guarantees the reliability and safety of the communication among each module; meanwhile, this design is easily extended to different modules. The experimental results show that this control node for rotary steerable drilling tool meets the requirement of stability and reliability in a high temperature environment (such as 125℃).

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尚捷,吉玲,孙师贤,孙龙飞,贾建波.基于CAN总线的旋转导向仪器控制节点设计[J].电子测量技术,2017,40(11):230-234

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  • 在线发布日期: 2018-01-02
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