Workshop Industrial Communications Protocols Training.
MODBUS - DNP3 - IEC 60870-5-101/104 - IEC 61850
Basic Theory of Digital Networks:
Know basic theories of digital networks and its elements (Routers, Switch, firewall) and communication between intelligent electronic devices, with the purpose of learning the terminology, the specifications and the tools of remote control systems and process control.
MODBUS:
It is one of the first and most used protocols in the industrial world, for monitoring and remote control. The first standard was proposed by the company Modicon in the seventies and has evolved until today with the extension to connect via Ethernet network (Modbus-TCP). In the Workshop we will show about the benefits and limitations of this protocol, how each of the functions works and compare with other protocols covered in the course.
IEC 60870-5:
It is an international standard developed by the International Commission IEC (International Electrotechnical Commission) for monitoring power systems, control systems and associated communications. In this protocol, there are several extensions, which will be detailed:
IEC 60870-5-101 (IEC101): represents the basic application of specific documents described in 1 and 5 of the standard and defines the protocol for monitoring DTE-DCE devices connected via serial cable.
IEC 60870-5-104 (IEC 104): is the extension of the IEC 101 protocol with the necessary changes to the Ethernet network and TCP/IP interface connection. The IEC 104 protocol is generally used for remote power systems in Control Centers and IEC 101/103 protocol is used for field remote interaction.
Köln, Germany November 29th, 30th & December 1st
Workshop Information:
Duration: 3 days
Schedule: 9:00 – 17:00 hrs
Language: English
Limited places! ¡¡imitadas!
IEC 61850:
The IEC 61850 protocol standard is designed to support the communication of all functions being performed in the substation. Its’ main goal is interoperability; this is the ability for IEDs from one or different manufacturers to exchange information and use the information for their own functions. Moreover, the standard allows a free allocation of these functions and accepts any system philosophy, from a distributed architecture (for example, decentralized substation automation) to a centralized configuration (for example, RTU based).
DNP3:
Is originally proposed by a subsidiary of General Electric Company when 60870-5 protocol at the time was not yet the gold standard, but many of its features are derived from it, improving them. It is mainly used in the system of production and distribution of electricity and public services such as electricity and water companies. During the course of DNP3 protocol will be discussed in detail and make a comparison between this protocol and 60870-5.
Who should attend this course?
This course is designed to train technicians and engineers involved in the development and implementation of utility protocols in an industrial environment and specific production and distribution of electricity. It is primarily targeted at technical staff involved in architecture design, installation, configuration, maintenance and commissioning of automation projects electrical substations and remote systems.
▪ Engineers
▪ System Integrators
▪ Manufacturers equipment
▪ Maintenance Personnel
▪ Systems Designers
About the Workshop:
Full 3-day workshop with theory and practice on the use of standards protocols for automating electrical substations and remote projects, MODBUS, DNP3, IEC 61850 and IEC 60870-5 101/104
After completing the workshop, students will get theory and practical skills for:
- Understand the specifications and terminology of a control system.
- Choose the connection model and the most appropriate protocol according to their needs.
- Install and configure devices and applications that use these protocols.
- Optimize performance, diagnose and fix common problems in production environment and energy distribution.
This training is designed to provide valuable knowledge about the standards used in the electric and remote control industry. Widely recommended for people involved in the designing, implementation and commissioning of automation solutions.
Materials Included:
- A computer per student for completing the workshop
- Welcome Material
- Training Manual
- Certificate of Successful Completion
- Meals: Coffee Break and lunch
Day 1
9:00 – 10:45
Network theory
- Introduction and history
- The IEEE committee
- Distributed and centralized access
- Models connection (DCE-DTE, client-server)
- ISO-OSI Model
- Architecture and devices
- Fieldbus and Ethernet
- Fieldbus Protocols
- ICMP, SNTP, PTP, SNMP
10:45 - 11:00
Coffee Break
11:00 - 12:30
Theory and practice of networking
Internet Protocols
- Implementation of the ISO-OSI model in the Internet protocols
- Network Security
- Integration of information in industrial processes: architecture, alarms, events, data
- MRP, RSTP, VLAN
- Design a system for process control and data acquisition
- Practice settings and access to a network.
12:30 - 13:30
Lunch
13:30 -15:00
MODBUS Protocol
- History and applications
- Comparison with other protocols
- Communication modes ASCII and RTU
- Plot ASCII / RTU Message
- Class 0,1,2 Posts
- Data Format
- Control of communication errors and link maintenance
- Synchronization
- Common and specific controllers Commands
15:00 - 15:15
Coffee Break
15:15 - 17:00
MODBUS-TCP protocol
- Specific features and differences with Modbus
- Frames
- Extensions
- Client and server
- Practice and interrogation facility of a device
Day 2
9:00 – 10:45
DNP3 Protocol
- History -
Features
- Architecture
- Format of frames
- Model and data classes
- Commands
- Unsolicited Events
- Practice
10:45 - 11:00
Coffee Break
11:00 - 12:30
DNP3 Protocol
- Operational messages
- Error Handling
- Levels of integration
- DNP3 and Ethernet
- Security
- Queue configuration
- Interoperability profiles
- Practice
12:30 - 13:30
Lunch
13:30 -15:00
IEC Protocols 101, 104
- Time Synchronization
- Features specific to the electrical environment
- Error Handling
- Maintenance of the communication link
- Practical simulation problems and common mistakes
- Specifications and Related Documents IEC 61870-5-1,2,3,4,5,6,7
- Format of frames
- Balanced and Unbalanced Communication
15:00 - 15:15
Coffee Break
15:15 - 17:00
Protocols IEC 101, 104
- Fields of intervention
- Differences and commonalities
- Variable and fixed frames
- Commands, Data, Features
- Practice and interrogation facility of a device
Day 3
Protocol 61850
- Introduction
- Specifications and Related Documents
- History
- Features
- Architecture
- Data Classes, attributes, functional constraints
- Format of frames
- Practice
10:45 - 11:00
Coffee Break
11:00 - 12:30
- Model and data classes
- Commands
- Network architectures according to the IEC 61850 compliance
- QoS + VLAN
- Multicast address in 61850
- Practice
12:30 - 13:30
Lunch
13:30 -15:00
- Comparison and differences with IEC 60870-5 protocols
- ICD, CID, SCL, SCD format files
- Substation Configuration Language (SCL)
- Practice
15:00 - 15:15
Coffee Break
15:15 - 17:00
Comparison between
60870-5, DNP3, Modbus TCP, IEC 61850
- Differences and commonalities - How to choose the remote control protocol
Requirements for course completion:
There is no specific requirements, ideal participant’s profile for our courses: Technical staff that participates in the design of architectures, Installation, configuration, maintenance and commissioning of automation projects for electrical substations and telecontrol systems.
Specifically for the OPC UA * course: * theory and practice and the OPC course UA: theory, practice and application development, it is convenient to have previous experience about OPC technology acquired through daily use.
In regards of aspects that stand out:
- In all workshops different gifts are provided to participants
- In Spain, Tripartite Foundation recognizes our workshops
- Courses:
OPC Technology and Advanced Architecture Development
OPC UA: Theory and Practice are certified by Matrikon
- In all our workshops we provide a completion certificate
- All workshops include practices with real hardware and simulation of issues that might occur in industrial plants today