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.
Session 2: PLC, Sensors and Process Control Systems
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.
Introduction to industrial automation systems, components, and key concepts including PLCs, HMIs, VFDs, SCADA, sensors, and actuators. Students learn the basic architecture and applications of automation in industry.
Hands-on training on EcoStruxure Machine Expert software for creating PLC projects, configuring hardware, and establishing communication. Focus on project navigation, program management, and device setup.
Detailed study of Modicon TM221 hardware, CPU architecture, and I/O modules. Covers wiring techniques for digital/analog inputs and outputs, power, grounding, and electrical panel best practices.
Introduction to ladder logic programming concepts, including NO/NC contacts, coils, and self-holding circuits. Students develop motor control logic and basic automation programs.
Exploration of TON, TOF, TP, and RTO timers and counter instructions. Students learn programming, practical applications, and sequencing for industrial processes.
Covers PLC memory organization, data types, bit and word-level instructions, MOV, and compare functions. Focus on efficient data handling and programming techniques.
Study of voltage and current analog signals, sensor integration, and analog input/output configuration. Includes scaling, monitoring, and control of analog devices in automation.
Hands-on training for Schneider ATV320 VFD installation, wiring, parameter configuration, and motor control. Includes integration with PLC for start/stop and speed control.
Integration of PLC with VFD for industrial motor control. Covers digital/analog control, speed regulation, direction control, status monitoring, and fault handling.
Introduction to HMI fundamentals, project creation, screen layout, PLC communication, tag linking, navigation, and real-time monitoring. Students design and download HMI projects.
Focus on industrial communication protocols like Modbus TCP/RTU, tag mapping, data exchange, PLC–HMI testing, and troubleshooting communication errors in integrated systems.
Hands-on integration of PLC, HMI, VFD, and SCADA. Includes network design, tag management, testing, fault handling, system optimization, documentation, and backup procedures.
