Training on Industrial Robotics for Electrical Engineers

Industrial robots are widely used in manufacturing, automotive assembly, material handling, electronics production, packaging, welding, painting, and precision machining industries. This specialized training helps electrical engineers gain practical knowledge of robotic systems, control mechanisms, automation integration, industrial communication, and maintenance of robotic equipment used in modern industries.

The course focuses on skill assessment, skill gap training, and certification, equipping learners with the competencies required to work in industrial robotic operations, integration, programming, and maintenance.

Who Should Attend?

  • Electrical, Electronics, Mechatronics, and Instrumentation engineers

  • Professionals working in automation, manufacturing, or robotics

  • Students preparing for robotics and industrial automation careers

  • Engineers who want certification in robotic systems

Learning Outcomes

Participants will learn to:

  • Understand robotic kinematics and dynamics

  • Integrate robots with PLC, sensors, vision systems, and actuators

  • Program robotic arms for industrial applications

  • Analyze motion planning and trajectories

  • Maintain and troubleshoot industrial robotic systems

  • Understand safety protocols, servo control, and automation networks

Topics Covered

Introduction to Industrial Robotics

  • Types of industrial robots

  • Robot configuration, workspace, DOF (Degrees of Freedom)

  • Applications in manufacturing, EV production, electronics, packaging

Robot Kinematics & Dynamics

  • Forward and inverse kinematics

  • Joint manipulation, motion control, velocity & acceleration

  • Trajectory planning and workspace analysis

Robot Sensors, Actuators & Drives

  • Servo motors, stepper motors, and actuators

  • Proximity and vision sensors

  • Encoders, force and torque sensors

Robotic Control & Programming

  • PID control for robotic systems

  • Motion planning algorithms

  • Teach pendant programming

  • Basics of ROS (Robot Operating System)

Integration with Industrial Automation

  • PLC interface with robots

  • SCADA and HMI interaction

  • Industrial communication protocols (EtherCAT, Modbus, Profibus)

  • Vision systems and AI-based automation introduction

Maintenance & Safety

  • Preventive and corrective maintenance of robots

  • Calibration and alignment

  • Safety standards: ISO 10218, risk assessment, safe zones

Career Opportunities

Learners can work as:

  • Industrial Robotics Engineer

  • Automation & Control Engineer

  • Robotics Maintenance Engineer

  • Manufacturing Automation Specialist

  • Robotics System Integrator

  • EV & Electronics Assembly Robotics Engineer