CANoe for CAN Compact Training Training Course

The Allen Bradley platform serves as a widely embraced industrial automation ecosystem, designed for configuring, controlling, and integrating PLCs, HMIs, and networked devices.

This instructor-led training, available both online and onsite, targets intermediate-level automation professionals seeking to interconnect and integrate Allen Bradley automation devices through Ethernet to ensure seamless communication among PLCs, HMIs, servers, and routers.

Upon completing this training, participants will be equipped to:

• Configure Ethernet-based communication within the Allen Bradley ecosystem.
• Integrate PLCs, HMIs, servers, and routers using standard communication protocols.
• Deploy real-world network topologies for automation systems.
• Resolve issues related to device connectivity and data exchange.

Course Format

• Guided instruction with demonstrations utilizing Allen Bradley tools.
• Practical integration exercises involving Ethernet-connected devices.
• Real-time configuration and testing in a live laboratory environment.

Customization Options

• Specialized training versions can be organized based on specific device models or network architectures.

This guided, live training in Sweden (online or onsite) is designed for engineers and technicians at beginner to intermediate levels who wish to master the fundamentals of AB PLCs and apply them to real-world manufacturing scenarios.

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

• Understand the role and applications of AB PLCs in the manufacturing industry.
• Program AB PLCs using RSLogix 5000/Studio 5000.
• Troubleshoot common issues and perform maintenance on PLC systems.
• Design and implement a PLC-controlled system for a manufacturing process.
• Demonstrate proficiency in PLC programming through a practical project.

Artificial Intelligence (AI) in smart factories involves applying AI technologies to automate, monitor, and optimize industrial operations in real time.

This instructor-led, live training (available online or onsite) is designed for beginner-level decision-makers and technical leads who want to gain a strategic and practical introduction to leveraging AI within smart factory environments.

Upon completion of this training, participants will be able to:

• Grasp the core principles of AI and machine learning.
• Identify key AI applications in manufacturing and automation.
• Explore how AI supports predictive maintenance, quality control, and process optimization.
• Evaluate the steps involved in launching AI-driven initiatives.

Format of the Course

• Interactive lecture and discussion.
• Real-world case studies and group exercises.
• Strategic frameworks and implementation guidance.

Course Customization Options

• To request a customized training for this course, please contact us to arrange.

This instructor-led, live training in Sweden (online or onsite) is designed for intermediate to advanced engineers and technicians seeking to learn how to program, operate, and optimize Fanuc and Epson robotic systems for industrial applications.

Upon completion of this training, participants will be able to:

• Understand the architecture and functionalities of Fanuc and Epson robots.
• Program robot movements, logic, and sensor integrations.
• Implement safety protocols and troubleshooting techniques.
• Optimize robotic workflows for improved efficiency.

Industrial Robotics Automation: ROS-PLC Integration & Digital Twins is a practical course designed to bridge the gap between industrial automation and contemporary robotics frameworks. Participants will acquire the skills to integrate ROS-based robotic systems with PLCs for synchronized operations, while exploring digital twin environments to simulate, monitor, and optimize production processes. The curriculum places strong emphasis on interoperability, real-time control, and predictive analysis through the use of digital replicas of physical systems.

This instructor-led, live training (available online or onsite) targets intermediate-level professionals seeking to develop practical competencies in connecting ROS-controlled robots with PLC environments and implementing digital twins to enhance automation and manufacturing efficiency.

Upon completion of this training, participants will be able to:

• Grasp the communication protocols linking ROS and PLC systems.
• Execute real-time data exchange between robots and industrial controllers.
• Create digital twins for monitoring, testing, and process simulation.
• Incorporate sensors, actuators, and robotic manipulators into industrial workflows.
• Design and validate industrial automation systems using hybrid simulation environments.

Format of the Course

• Interactive lectures and architecture walkthroughs.
• Hands-on exercises focused on integrating ROS and PLC systems.
• Implementation of simulation and digital twin projects.

Course Customization Options

• To arrange customized training for this course, please contact us.

This instructor-led, live training in Sweden (online or onsite) is aimed at beginner-level, intermediate-level, or advanced-level engineers and technicians who wish to use XGT Series PLCs to configure hardware, manage modules, and maintain stable PLC systems.

By the end of this training, participants will be able to identify XGT hardware components, configure PLC system modules, perform backup and diagnostic tasks, and troubleshoot common hardware issues.

This instructor-led, live training in Sweden (online or onsite) is aimed at PLC users who wish to use XG5000 to create, test, download, monitor, and troubleshoot PLC programs.

By the end of this training, participants will be able to: create and manage projects, configure hardware and communications, develop ladder logic, and diagnose PLC faults.

This instructor-led live training in Sweden (available online or onsite) is tailored for intermediate-level automation engineers and control system designers seeking to implement motion control solutions using Omron PLCs.

Upon completion of this training, participants will be capable of:

• Grasping core motion control concepts and their practical applications.
• Configuring motion-related hardware and software within Sysmac Studio.
• Programming and optimizing motion control for both single-axis and multi-axis setups.
• Executing coordinated motion strategies, encompassing interpolation and synchronization.

This instructor-led, live training in Sweden (online or onsite) is aimed at intermediate-level programmers who wish to enhance their skills in Omron PLC programming, HMI configuration, motion control, and safety systems.

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

• Configure and program Omron PLCs using Sysmac Studio.
• Understand and apply IEC concepts in ladder logic and structured text programming.
• Develop motion control programs for single-axis and coordinated movements.
• Create HMI interfaces using the NA series and integrate them with Sysmac controllers.
• Implement and simulate safety standards and programs using NX series safety hardware.

This course provides an overview of Programmable Logic Controllers (PLC) fundamentals. After exploring the core principles of PLCs, students will learn and apply essential Ladder Diagram instructions to practical Industrial Automation scenarios. Target audience includes Electrical Specialists, Mechanical Engineers, and Programmers interested in Industrial Automation.

A Remote Terminal Unit (RTU) serves as a vital field device designed to gather data, relay signals, and execute control commands within automation and power system networks.

This instructor-led, live training (available online or onsite) targets intermediate-level professionals seeking to configure RTUs for automation and control operations within power cell environments.

Upon completing this training, participants will be capable of:

• Installing RTU hardware and correctly mapping input/output channels.
• Setting up communication parameters to integrate with SCADA and control systems.
• Deploying logic, alarms, and control strategies within RTU platforms.
• Effectively diagnosing and resolving RTU performance and communication issues.

Format of the Course

• Instructor-guided presentations supported by real-world examples.
• Practical exercises and hands-on configuration activities.
• Live demonstrations of RTU communication and control workflows.

Course Customization Options

• Tailored course versions are available, adjusted to specific RTU hardware models or control environments.

A Smart Robot is an Artificial Intelligence (AI) system that can learn from its environment and its experience and build on its capabilities based on that knowledge. Smart Robots can collaborate with humans, working along-side them and learning from their behavior. Furthermore, they have the capacity for not only manual labor, but cognitive tasks as well. In addition to physical robots, Smart Robots can also be purely software based, residing in a computer as a software application with no moving parts or physical interaction with the world.

In this instructor-led, live training, participants will learn the different technologies, frameworks and techniques for programming different types of mechanical Smart Robots, then apply this knowledge to complete their own Smart Robot projects.

The course is divided into 4 sections, each consisting of three days of lectures, discussions, and hands-on robot development in a live lab environment. Each section will conclude with a practical hands-on project to allow participants to practice and demonstrate their acquired knowledge.

The target hardware for this course will be simulated in 3D through simulation software. The ROS (Robot Operating System) open-source framework, C++ and Python will be used for programming the robots.

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

• Understand the key concepts used in robotic technologies
• Understand and manage the interaction between software and hardware in a robotic system
• Understand and implement the software components that underpin Smart Robots
• Build and operate a simulated mechanical Smart Robot that can see, sense, process, grasp, navigate, and interact with humans through voice
• Extend a Smart Robot's ability to perform complex tasks through Deep Learning
• Test and troubleshoot a Smart Robot in realistic scenarios

Audience

• Developers
• Engineers

Format of the course

• Part lecture, part discussion, exercises and heavy hands-on practice

Note

• To customize any part of this course (programming language, robot model, etc.) please contact us to arrange.