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Beranda » 100+ Pelatihan Engineering & Migas Profesional 2026 | Sertifikat Resmi » Electrical » Programmable Logic Controller (PLC) Principle, Practice & Trouble Shooting
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Programmable Logic Controller (PLC) Principle, Practice & Trouble Shooting

Rp 7.950.000
Stok Tersedia
Kategori Electrical, Instrumentation and Control, Maintenance

28 - 30 April 2026, Bandung

24 - 26 Agustus 2026, Bandung

07 - 09 September 2026, Bandung

Trainer: Prof. Endra Joelianto, Ir., Ph.D., SMIEEE

Tentukan pilihan yang tersedia!

Programmable Logic Controller (PLC) Principle, Practice & Trouble Shooting

BACKGROUND:

Programmable Logic Controller (PLCs) are integral to modern industrial automation systems. They control machinery and processes in industries such as manufacturing, oil and gas, automotive, and food production. A PLC consists of hardware and software designed to automate processes that require high reliability, ease of programming, and robustness to environmental factors. As industries increasingly rely on PLCs to streamline operations, it becomes crucial for engineers and technicians to understand how these systems function, how to troubleshoot them effectively, and how to optimize their performance for maximum efficiency. This three-day training program provides a comprehensive understanding of PLC principles, practical applications, and troubleshooting techniques to help professionals maintain and improve automation systems.

OBJECTIVES:

By the end of the training, participants will be able to:

  1. Understand the basic principles of PLCs, including their components, functions, and operation.
  2. Program a PLC using ladder logic and other common programming languages.
  3. Develop practical skills for configuring and implementing PLC systems in various automation environments.
  4. Troubleshoot and diagnose common PLC problems and faults.
  5. Utilize diagnostic tools and techniques to improve system reliability and performance.
  6. Gain knowledge of how to optimize PLC-controlled systems for increased operational efficiency.
  7. Learn about the latest advancements in PLC technology and how they apply to real-world systems.

COURSE OUTLINE:

Introduction to PLCs and Basic Programming

  • Session 1: Introduction to PLCs
    • Overview of PLC components (CPU, I/O, etc.)
    • Types of PLCs and their applications
    • Installation, wiring, and setup basics
  • Session 2: PLC Programming Languages
    • Introduction to Ladder Logic programming
    • Basic syntax and functions in Ladder Logic
    • Hands-on: Creating simple ON/OFF programs
  • Session 3: PLC Communication and I/O
    • Digital vs. analog I/O systems
    • Working with I/O modules
    • Hands-on: Configuring and wiring basic I/O

Advanced Programming, Applications, and Integration

  • Session 4: Advanced Ladder Logic Programming
    • Using timers, counters, and memory management
    • Advanced programming techniques (sequencers, shift registers)
    • Hands-on: Developing a complex program
  • Session 5: PLC Integration with Other Systems
    • PLC and SCADA/HMI systems integration
    • Communication protocols (Modbus, Profibus, etc.)
    • Hands-on: Integration of PLC with SCADA or HMI
  • Session 6: Practical PLC Applications
    • Real-world applications in manufacturing and process control
    • PLC in motion control and robotics
    • Hands-on: Implementing a basic control system

PLC Troubleshooting and Optimization

  • Session 7: Common PLC Faults and Troubleshooting
    • Identifying common PLC faults (I/O, power, communication issues)
    • Troubleshooting tools and diagnostic methods
    • Hands-on: Troubleshooting a PLC fault simulation
  • Session 8: Preventive Maintenance and Optimization
    • Best practices for PLC preventive maintenance
    • Optimizing PLC programs for reliability
    • Hands-on: Optimizing a PLC control system
  • Session 9: Advanced Troubleshooting and Case Study
    • Analyzing a complex PLC failure scenario
    • Review of troubleshooting steps and methods
    • Hands-on: Solving real-world PLC problems

ABOUT THE COURSE LEADER:

Prof. Ir. Endra Joelianto, 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.

Programmable Logic Controller (PLC) Principle, Practice & Trouble Shooting

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