Session Overview introduces the basic concepts of Electrical Engineering. Students will understand how electricity works, the types of electrical quantities, and the foundation required to study electrical components and machines in later session.

This Session explains the basics of PLCs, including types, programming, inputs/outputs, and configuration. It also covers sensors, transmitters, valves, PID control, and basic wiring and troubleshooting in industrial automation.

This Session covers PLC programming, ladder logic, analog control, and special functions like PID and communication. It also includes VFD programming and PLC–VFD integration for motor control.

This Session covers the basics of HMI and SCADA systems used for monitoring and controlling industrial processes. It includes system architecture, screen design, tag configuration, alarms, trends, communication protocols, and integration with PLCs and field devices.

Learn the hardware structure, wiring methods, and installation practices of Allen-Bradley Micro800 PLC systems. Gain practical knowledge of PLC modules, power systems, and industrial troubleshooting techniques.

Master the installation, setup, and project configuration using Connected Components Workbench software. Understand controller configuration, communication setup, and project management fundamentals.

Develop strong ladder logic programming skills for industrial automation control systems. Learn timers, counters, interlocks, and motor control programming with practical exercises.

Explore advanced PLC programming techniques including function blocks, PID control, and data handling. Improve system performance, diagnostics, and modular program design for complex automation projects.

Understand installation, wiring, and configuration of PanelView 800 HMI hardware systems. Learn industrial standards, diagnostics, and verification methods for reliable HMI operation.

Design professional HMI screens using PanelView 800 screen editor tools and configuration methods. Create navigation systems, alarms, trends, and operator interaction interfaces.

Develop advanced HMI applications with animations, alarm systems, and data logging features. Enhance system usability, performance optimization, and user security management.

Learn installation, wiring, and safety standards for ABB ACS560 industrial drive systems. Understand drive hardware setup, fault diagnostics, and commissioning procedures.

Master drive parameter configuration for motor control, speed regulation, and energy optimization. Implement PID control, macros, and advanced tuning techniques for industrial applications.

Integrate PLC and VFD systems using hardwired, analog, and industrial communication protocols. Develop control logic, feedback monitoring, and troubleshooting strategies for drive automation.

Learn SCADA system architecture and install FactoryTalk View Studio for industrial monitoring systems. Configure communication drivers, runtime environments, and data logging functions.

Design advanced SCADA visualization systems including alarms, trends, and reports. Improve plant monitoring efficiency through optimized graphics and data management.

Understand industrial networking concepts including Ethernet/IP, Modbus, and RS-485 protocols. Design, configure, and troubleshoot reliable industrial communication networks.

Apply all learned skills to develop a complete industrial automation project from design to commissioning. Perform system testing, documentation, troubleshooting, and final project presentation.