SCADA Operation and Maintenance

Background:

SCADA (Supervisory Control & Data Acquisition) systems serve as the backbone for monitoring and controlling various industrial processes, from power generation to manufacturing. They integrate hardware and software components to gather, process, and visualize real-time data. Maintaining smooth SCADA operations requires a proactive approach to troubleshooting and maintenance. By implementing best practices and staying vigilant, we can ensure the reliability and efficiency of industrial processes.

Proper Supervisory Control & Data Acquisition Operation Maintenance program is one of the steps to ensure the plant to meet stake holder requirements.

Common Issues and Solutions:

1. Communication Failures: Check network connections, troubleshoot routers and switches, and verify protocol configurations.
2. Data Integrity Problems: Monitor data transmission for errors, validate sensor readings, and implement checksum verification.
3. Hardware Malfunctions: Replace faulty components promptly, conduct preventive maintenance on critical equipment, and keep spare parts on hand.

Maintenance Best Practices:

1. Regular Updates: Keep SCADA software and firmware up-to-date to leverage the latest features and security patches.
2. Backup Systems: Implement redundant systems and backup procedures to mitigate the impact of failures.
3. Scheduled Inspections: Establish routine maintenance schedules to inspect hardware, software, and network infrastructure.
4. Training Programs: Provide comprehensive training for SCADA operators and maintenance personnel to enhance troubleshooting skills.

Troubleshooting SCADA Systems:

1. Diagnostic Tools: Utilize specialized software tools to identify system anomalies and pinpoint potential issues.
2. Network Analysis: Conduct thorough network analysis to detect communication failures or bottlenecks.
3. Component Inspection: Regularly inspect hardware components such as PLCs (Programmable Logic Controllers) and HMIs (Human-Machine Interfaces) for signs of wear or malfunction.
4. Protocol Analysis: Analyze communication protocols like Modbus or DNP3 to diagnose communication errors.

Recommended Participants:

• Control & Instrumentation Engineer
• Controls Technologist
• Instrumentation Technician / Systems Control Tech
• Senior Control & Instrumentation Engineer
• Maintaining Equipment Engineer
• Facilities I&E / Controls Engineer
• Offshore Instrumentation Engineer

ABOUT THE COURSE LEADER:

Endra Joelianto, Ir., Ph.D., SMIEEE is an expert in control engineering. His outstanding research is: Hybrid Control Systems, Discrete Event Control Systems, Petri Nets Analysis and Application on PLC, Robust PID Controller, Advanced Process Control, Industrial Automation using PLC/ DCS. He received first degree (Ir.) in Engineering Physics in 1990 from Department of Engineering Physics, ITB and Doctor of Philosophy (PhD.) in Control Engineering in 2001 from Department of Engineering, The Australian National University, Australia.

Public Training berikutnya : 14 – 16 September 2026