VIEW OUTLINE PDF
 
Start Date: 1 Feb, 2026
End Date: 5 Feb, 2026
Duration: 5 Days
 
Overall Description:
 
Upon completion of this course, participants will have the knowledge and skills to:
Analyze and explain the fundamental architecture of a modern DCS, including its key hardware and software components.
Differentiate between DCS, PLC, and SCADA systems, and strategically select the appropriate control system for various industrial applications.
Configure and program common DCS modules, including controllers, I/O devices, and human-machine interface (HMI) workstations.
Interpret and troubleshoot process control diagrams and DCS system alarms to quickly resolve operational issues and minimize downtime.
Implement best practices for system redundancy, network security, and data management to ensure the highest levels of system reliability and integrity.
 
Course Objectives: 
 
Upon completion of this course, participants will have the knowledge and skills to:
Analyze and explain the fundamental architecture of a modern DCS, including its key hardware and software components.
Differentiate between DCS, PLC, and SCADA systems, and strategically select the appropriate control system for various industrial applications.
Configure and program common DCS modules, including controllers, I/O devices, and human-machine interface (HMI) workstations.
Interpret and troubleshoot process control diagrams and DCS system alarms to quickly resolve operational issues and minimize downtime.
Implement best practices for system redundancy, network security, and data management to ensure the highest levels of system reliability and integrity.
 
Course Outline: 
 
Introduction to Distributed Control Systems
The Evolution of Control Systems: from Analog to Digital
Core Concepts and Strategic Advantages of DCS
A High-Level Overview of Modern DCS Architectures
DCS Hardware and Software Components
Controllers, Processors, and Redundancy
Input/Output (I/O) Modules and Field Devices
Operator Workstations (HMI) and Engineering Stations
Communication Protocols and Network Topology
DCS Configuration and Programming
Configuring Control Loops: PID, Cascade, and Ratio
Function Block Diagrams and Ladder Logic Programming
System Alarms, Event Logging, and Data Archiving
Developing and Deploying Control Strategies
Operational and Maintenance Best Practices
Navigating the Human-Machine Interface (HMI)
Routine Diagnostics and Predictive Maintenance
Cybersecurity Principles for Industrial Control Systems
Emergency Procedures and System Recovery
Practical Case Studies and Application
Simulated Scenarios for Process Optimization
Troubleshooting exercises for common DCS failures
Integration with other systems (PLCs, SCADA)
System upgrades and lifecycle management
 
Who Should Attend?
 
This specialized course is designed for professionals who are directly involved with industrial automation and control. The ideal participants include:
Process, Control, and Automation Engineers
Instrumentation and Maintenance Technicians
Operations and Plant Supervisors
System Integrators and Technical Consultants
Anyone responsible for the design, operation, or maintenance of a DCS environment.
 
Course Methodology: 
 
We utilize a variety of proven adult learning techniques to ensure maximum understanding, comprehension and retention of the information presented. This training course will be conducted as a highly interactive workshop session. A variety of training methodologies will be used Before and during the course whenever applicable. Some of these methods are gamification, online pre-post test, role plays, self-assessment instruments, group exercises & case studies.