DNP3介绍

通过 Paul Smart | 更新: 01/20/2016 | 评论: 0

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DNP3

Have you heard of DNP3 but been unsure of what it is or what it’s used for? In this brief article, I’ll introduce you to this communications protocol, its role in SCADA applications, and how you can use it with your Campbell Scientific equipment and software.

What is DNP3?

DNP3 refers to “Distributed Network Protocol.” It is a communications protocol designed to optimize the transmission of data and control commands from a master to one or more remote devices or outstations. DNP3 is an open standard that was developed by Westronic, Inc., specifically for use in SCADA (supervisory control and data acquisition) applications.

How is DNP3 different from Modbus?

Compared to Modbus, DNP3 is a more sophisticated protocol that has the ability to use report-by-exception (RBE) functionality. With RBE functionality, only a change in data is reported rather than reporting all data each time a device is polled. This feature of DNP3 allows historical and event-driven data to be transmitted while ensuring that no critical data is lost. (The ability to report event and historical data is not available in the Modbus protocol.)

Where is DNP3 used?

The DNP3 protocol is commonly used to report event and historical data to SCADA systems in the water and energy sectors in the United States, as well as in other countries throughout the world. As real-time weather data and energy production have become more intertwined with the deployment of wind and solar farms, transferring critical weather data via SCADA protocols has become more and more commonplace.

How does Campbell Scientific equipment and software support DNP3?

Weather stations based on Campbell Scientific data loggers are used worldwide because of their capability, flexibility, accuracy, and reliability. In addition to their flexibility in measuring sensors, our data loggers are also very flexible in how they transfer data, which includes communicating with SCADA systems via the DNP3 protocol.

For a number of years, our data loggers have supported the DNP3 protocol. As the needs of our customers evolve, we continue to add enhanced DNP3 functionality to our data logger operating systems.

Recommended for You: For information on how to implement the DNP3 protocol on your Campbell Scientific data logger, read the “DNP3 with Campbell Scientific Dataloggers” application note.


In the CRBasic Editor of our LoggerNet software, there are three instructions you can use to implement the DNP3 protocol over TCP/IP, RS-232, or RS-485 connections:

  • DNP()
  • DNPUpdate()
  • DNPVariable()

The CRBasic Editor Help files include assistance for using these instructions to turn your weather station into a DNP3 outstation that is ready to connect to a SCADA system.

Tip: To access the CRBasic Editor Help files, highlight the DNP instruction in the instruction list of the CRBasic Editor, and click the Help button above the instruction list. For a demonstration, watch the "CRBasic | Help System" video.

Instruction list with Help button



Recommended for You: For a real-life example of how DNP3 is used, read the “California: Wind Farm Monitoring” case study. Renewable-energy-producing facilities in California are required to report high-accuracy weather data, along with their current power production, to the California Independent Service Operator (CAISO), via the DNP3 protocol.

Conclusion

I hope this brief introduction to DNP3 has helped you better understand what this protocol is and how you can use it with your SCADA system. Look for more articles in the future with further DNP3 protocol implementation details and tips.

Do you have DNP3 comments or questions? Feel free to post them below.


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关于作者

paul smart Paul Smart is the Vice President of Sales and Marketing at Campbell Scientific, Inc. His first experience with Campbell equipment came soon after graduating from college while working on a series of plant-growing experiments conducted on the International Space Station. Paul enjoys leveraging unique Campbell Scientific technology to solve challenging measurement problems. He has a bachelor’s degree in Electrical Engineering and an MBA. Paul also enjoys the outdoors, fly fishing, and spending time with his family.

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