EN61984-2016 is a professional technical standard that specifies the communication between networks in industrial automation systems. It provides guidelines for the transmission of data and commands between different devices, such as programmable logic controllers (PLCs), human-machine interfaces (HMIs), and other equipment used in industrial settings.
The Importance of EN61984-2016
In today's highly automated industry, efficient communication between different devices is crucial for smooth operation. EN61984-2016 plays a vital role in ensuring interoperability and compatibility between various networked devices by defining common protocols and message formats.
By adhering to the guidelines set forth in this technical standard, industrial automation systems can be seamlessly integrated, allowing for better coordination and control. This leads to improved productivity, reduced downtime, and enhanced overall system performance.
Main Features of EN61984-2016
EN61984-2016 covers a wide range of topics related to industrial automation network communication. Some of its main features include:
1. Network Architecture: The standard defines the structure and organization of the network, including the types of devices, topologies, and communication protocols to be used.
2. Data Exchange: EN61984-2016 outlines the rules for exchanging data and commands between devices. It specifies the format, coding, and semantics of messages, ensuring consistency and accuracy.
3. Device Configuration: The technical standard provides guidance on how devices should be configured to work within the network. It defines methods for device identification, parameter assignment, and network management.
4. Diagnostic and Maintenance: EN61984-2016 includes provisions for diagnostic and maintenance procedures, allowing for efficient troubleshooting, monitoring, and system maintenance.
Conclusion
EN61984-2016 is an essential technical standard that facilitates communication between devices in industrial automation systems. By following its guidelines, organizations can build robust and interoperable networks, enabling seamless data exchange and control.
By adopting this standard, industries can streamline their operations, enhance productivity, and ultimately achieve more efficient and reliable automation systems.