Master the creation of Industrial Digital Twins from scratch

Practical Industrial Automation course

Learn to design and control industrial systems using Digital Twin technology. This course focuses on practical application, teaching you how to build and manage complex machinery in a virtual space. You will work through real-world scenarios to understand both the technical execution and the strategy behind industrial virtualization.

Original price was: 150,00 €.Current price is: 95,00 €.Aprox: $109.41 USD

Note: The English version features Spanish audio with English subtitles.

The practical learning revolution

Your own virtual factory

In this course you don’t just get video lessons. You receive the key to a virtual industrial plant. Thanks to the included Digital Twin simulation software, we have eliminated the barrier between software and reality. You will no longer program “blindly”. You’ll program to see immediate results in a highly accurate 3D environment.

What is the Digital Twin?

The Digital Twin is an exact virtual replica of a physical system that connects directly to a real or virtual PLC, allowing you to visualize real-time movements such as conveyor belts or sorters as you program them. It enables you to learn from mistakes and collisions without the risk of costly repairs, while providing a realistic environment that simulates gravity, friction, and actual response times.

Target Audience

This course is designed for those working in or studying industrial automation, specifically:

Engineers & Technicians: Industrial, automation, and maintenance specialists.
✔ Developers: PLC programmers and systems integrators.
✔ Students: Engineering and vocational training students.
✔ Professionals who want to stand out in the job market.

No prior simulation experience is required. We move from foundational concepts to advanced industrial applications.

100% project-based training

What will you learn in this Video-Course?

Smart Conveyor Belts

Implement motor control and part classification logic.

 

  •  Motion Control: Programming motor start/stop sequences and variable speed management.
  • Industrial Sensing: Integration of inductive and capacitive sensors for object detection.
  • Part Classification: Developing logic for sorting different components based on sensor feedback.

Lifting Roller Conveyors

Design and automate vertical positioning systems using scissor-lift mechanisms.

 

  • Mechanical Design: Developing scissor-type structures for controlled vertical displacement.
  • Motion Control: Implementing automated movement via KeyFrame animation for predefined paths.
  • Dynamic Positioning: Using Inverse Kinematics (IK) for precise, real-time height adjustment.
  • Control Integration: Linking mechanical movement with PLC logic for synchronized industrial workflows.

Fluid Filling Tanks

Design and simulate automated filling and emptying workflows.

 

  • Closed-Loop Control: Implementing and tuning PIDs for precise liquid level management.
  • Process Automation: Sequencing automated filling and emptying cycles based on real-time feedback.
  • Modular Architecture: Creating and implementing User-Defined Components (UDC) to streamline system design.
  • System Scalability: Developing cascade connections to reuse tank models across multiple applications and complex production lines.

Articulated Industrial Robot

Assemble and program articulated robots for object manipulation.

 

  • Mechanical Assembly: Full robot construction and integration of End-of-Arm Tooling (gripping, suction).
  • Axis Control (v1): Implementation of direct PLC control for angular rotation and joint positioning.
  • Advanced Kinematics (v2): Applying Inverse Kinematics for dynamic path planning and trajectory creation.
  • PLC Management: Real-time control of programmed positions with feedback loops for final positioning.

Ready to take your simulations to the next level?

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