City
Duration
Year
| Venue | Start Date | End Date | Net Fees | Details & Registration |
|---|---|---|---|---|
| Munich | July 28, 2025 | August 1, 2025 | 6900 GBP | PDF Register |
| Munich | September 1, 2025 | September 5, 2025 | 6900 GBP | PDF Register |
| Munich | September 29, 2025 | October 3, 2025 | 6900 GBP | PDF Register |
| Munich | October 6, 2025 | October 10, 2025 | 6900 GBP | PDF Register |
| Munich | November 3, 2025 | November 7, 2025 | 6900 GBP | PDF Register |
| Munich | December 8, 2025 | December 12, 2025 | 6900 GBP | PDF Register |
| Munich | December 15, 2025 | December 19, 2025 | 6900 GBP | PDF Register |
About corse
Mechatronics is a multidisciplinary approach that combines principles from mechanical engineering, electronics, computer science, and control engineering to create intelligent systems and advanced products. As industries evolve, the demand for professionals who understand the integration of these fields has surged. This course aims to provide participants with a comprehensive understanding of mechatronic systems, empowering them to design and implement solutions that enhance functionality and efficiency in various applications. By exploring both theoretical concepts and practical implementations, learners will gain valuable insights into the intricacies of modern technological advancements. Throughout the duration of this training, participants will engage in hands-on activities that reinforce learning and foster innovation. The curriculum is designed to bridge the gap between theory and practice, ensuring that attendees can apply their knowledge in real-world scenarios. By the end of the course, participants will be equipped with the skills necessary to tackle complex engineering challenges and contribute to the development of cutting-edge mechatronic systems.The Objectives
- Understand the fundamental principles of mechatronics.
- Analyze and design mechatronic systems effectively.
- Integrate mechanical and electronic components in projects.
- Develop skills in programming and control systems.
- Explore applications of robotics within mechatronic systems.
- Foster teamwork and collaboration in engineering projects.
Training Methodology
The training will utilize a blend of theoretical lectures, hands-on workshops, group discussions, and case studies. Participants will work on practical projects that simulate real-world challenges, encouraging collaborative problem-solving and innovation. Additionally, expert instructors will provide guidance and feedback throughout the course.WHO SHOULD ATTEND
This course is designed for engineers, technicians, and professionals involved in design, manufacturing, and automation. It is ideal for those looking to enhance their knowledge in mechatronics, including mechanical engineers, electrical engineers, software developers, and project managers.Course Outlines
Day 1: Introduction to Mechatronics- Overview of mechatronics and its significance.
- Key components of mechatronic systems.
- Historical development and future trends.
- Discussion of interdisciplinary applications.
- Introduction to sensors and actuators.
- Overview of course objectives and structure.
- Fundamental principles of mechanics.
- Kinematics and dynamics of mechanical systems.
- Mechanical design for mechatronic applications.
- Introduction to CAD tools for design.
- Prototyping techniques and materials.
- Basic concepts of electronics in mechatronics.
- Circuit components and schematic design.
- Introduction to microcontrollers and their applications.
- Hands-on circuit assembly and testing.
- Signal processing in mechatronic systems.
- Troubleshooting common electronic issues.
- Fundamentals of control theory.
- Types of control systems: open-loop and closed-loop.
- Introduction to PID controllers and their applications.
- Implementing control algorithms using software.
- Automation frameworks in industrial settings.
- Case studies on automation success stories.
- Overview of robotics and its components.
- Kinematic chains and robotic motion planning.
- Introduction to robotic programming languages.
- Hands-on activities with robotic kits.
- Applications of robotics in various industries.
- Ethical considerations in robotics development.
Training Method?
- Pre-assessment
- Live group instruction
- Use of real-world examples, case studies and exercises
- Interactive participation and discussion
- Power point presentation, LCD and flip chart
- Group activities and tests
- Each participant receives a copy of the presentation
- Slides and handouts
- Training Method?
Training Method?
The course agenda will be as follows:- Technical Session 30-10.00 am
- Coffee Break 00-10.15 am
- Technical Session 15-12.15 noon
- Coffee Break 15-12.45 pm
- Technical Session 45-02.30 pm
- Course Ends 30 pm
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