The ICTQual AB Level 6 International Diploma in Mechatronics is a dynamic and industry-driven qualification designed for learners aspiring to build successful careers in the ever-evolving fields of automation, robotics, and intelligent systems. This comprehensive programme integrates mechanical engineering, electronics, computer science, and control systems, preparing learners to meet the growing global demand for advanced mechatronic solutions across multiple industries.
Structured over three years with a 360-credit framework, the diploma equips learners with both theoretical knowledge and practical expertise. From understanding the fundamentals of mechanical and electrical systems to mastering robotics, embedded programming, and smart automation, learners gain the skills required to design, develop, and manage complex mechatronic systems. The curriculum is carefully designed to provide a balance between engineering principles, problem-solving, and hands-on applications, ensuring learners are career-ready upon completion.
This course offers exceptional professional value by addressing real-world challenges faced in industries such as automotive, aerospace, manufacturing, renewable energy, healthcare technology, and industrial automation. Learners not only enhance their technical competencies but also develop critical thinking, research, and project management skills that are vital for leadership roles.
Career opportunities for graduates of this diploma are vast and include roles such as mechatronics engineer, robotics engineer, automation specialist, control systems designer, and product development engineer. The qualification also provides a strong platform for further academic progression into postgraduate studies in engineering and technology-related fields.
By completing the ICTQual AB Level 6 International Diploma in Mechatronics, learners position themselves at the forefront of innovation and technology, gaining the expertise and confidence to succeed in a highly competitive and rapidly advancing global engineering landscape.
Inspire College of Technologies UK is Directly Approved Training Centre of ICTQual AB
The ICTQual AB Level 6 International Diploma in Mechatronics is a specialised qualification designed to equip learners with advanced skills in mechanical systems, electronics, robotics, automation, and computer-based control. Combining multidisciplinary knowledge, the programme provides a strong foundation for learners to design, integrate, and manage intelligent mechatronic systems used in modern industries.
Delivered over three years with a 360-credit structure, the diploma offers a balance of theory and practical application, ensuring learners gain hands-on experience alongside academic understanding. The curriculum covers key areas such as robotics and automation, embedded systems, smart manufacturing, industrial control systems, and advanced computer-aided design, enabling learners to solve complex engineering challenges with confidence.
This internationally recognised qualification provides learners with the competencies required to thrive in rapidly evolving sectors such as automotive engineering, aerospace, healthcare technology, advanced manufacturing, and renewable energy. By focusing on innovation, sustainability, and digital transformation, the diploma prepares learners for the future of engineering and technology-driven industries.
Upon completion, learners will be able to pursue diverse career paths as mechatronics engineers, robotics specialists, automation engineers, control system designers, and product development engineers. The qualification also offers an excellent progression route for further studies at postgraduate level, ensuring long-term career development and global opportunities.
The ICTQual AB Level 6 International Diploma in Mechatronics is ideal for learners seeking to gain cutting-edge skills, enhance employability, and establish themselves as innovative professionals in a highly competitive engineering field.
This qualification, the ICTQual AB Level 6 International Diploma in Mechatronics, consists of 36 mandatory units.
Year 1 – Foundation in Mechatronics
- Principles of Mechanical Engineering
- Fundamentals of Electrical and Electronic Engineering
- Engineering Mathematics
- Introduction to Computer Programming
- Materials Science and Engineering
- Engineering Drawing and CAD
- Basics of Control Systems
- Digital Logic and Microprocessors
- Sensors and Instrumentation
- Fundamentals of Robotics
- Health, Safety and Environmental Practices in Engineering
- Communication and Technical Report Writing
Year 2 – Intermediate Studies in Mechatronics
- Advanced Electrical and Electronic Systems
- Applied Thermodynamics and Fluid Mechanics
- Microcontrollers and Embedded Systems
- Automation and PLC Programming
- Mechanical Design and Manufacturing Processes
- Dynamics and Vibration Analysis
- Power Electronics and Drives
- Robotics Systems and Applications
- Mechatronic System Design
- Data Acquisition and Signal Processing
- Industrial Maintenance and Reliability Engineering
- Project Planning and Management in Engineering
Year 3 – Advanced Studies in Mechatronics
- Intelligent Systems and Artificial Intelligence in Engineering
- Advanced Control Engineering
- Robotics and Autonomous Systems
- Smart Manufacturing and Industry 4.0
- Renewable Energy Systems and Applications
- Advanced Computer-Aided Design and Simulation
- Cyber-Physical Systems and IoT in Engineering
- Advanced Mechatronic System Integration
- Engineering Research Methods
- Professional Ethics and Sustainability in Engineering
- Innovation and Entrepreneurship in Technology
- Final Year Major Project (Capstone Project)
The ICTQual AB Level 6 International Diploma in Mechatronics is designed for learners who aspire to build strong careers in robotics, automation, intelligent systems, and modern engineering applications. It is ideal for both freshers looking to enter the field of mechatronics and experienced professionals seeking to upgrade their skills and advance into more specialised or leadership roles.
This diploma is suitable for learners who want to:
- Gain advanced knowledge of mechanical systems, electronics, robotics, and automation.
- Pursue careers in industries such as automotive engineering, aerospace, healthcare technology, industrial manufacturing, renewable energy, and smart systems development.
- Develop practical expertise in robotics, control systems, embedded programming, and computer-aided engineering design.
- Strengthen their understanding of innovation, sustainability, and digital transformation in modern engineering.
- Progress academically towards postgraduate studies in engineering, technology, or related fields.
Whether you are a school leaver eager to start a technical career or a professional engineer aiming to specialise in cutting-edge technologies, this qualification provides the knowledge, practical skills, and international recognition to achieve your career goals.
By enrolling in the ICTQual AB Level 6 International Diploma in Mechatronics, learners ensure they are well-prepared to meet the global demand for skilled engineers who can design, develop, and manage advanced mechatronic systems across diverse industries.
Here are the learning outcomes for each study unit:
Year 1 – Foundation in Mechatronics
1. Principles of Mechanical Engineering
- Understand fundamental mechanical engineering concepts applied in mechatronic systems
- Analyse mechanical forces, motion, and energy transfer in engineering applications
2. Fundamentals of Electrical and Electronic Engineering
- Apply basic principles of electricity, circuits, and electronic components
- Develop skills in analysing and troubleshooting simple electrical systems
3. Engineering Mathematics
- Solve engineering problems using advanced mathematical techniques
- Apply algebra, calculus, and statistics to mechanical and electronic systems
4. Introduction to Computer Programming
- Write, test, and debug simple programmes for engineering applications
- Use programming logic to control basic automation systems
5. Materials Science and Engineering
- Identify properties of engineering materials used in mechatronics
- Select appropriate materials for mechanical and electronic applications
6. Engineering Drawing and CAD
- Create and interpret engineering drawings using CAD tools
- Apply design principles for manufacturing and mechatronic systems
7. Basics of Control Systems
- Understand open-loop and closed-loop control concepts
- Apply control theory to simple mechatronic processes
8. Digital Logic and Microprocessors
- Explain digital logic principles and microprocessor architecture
- Develop basic applications for digital and embedded systems
9. Sensors and Instrumentation
- Understand sensor technologies for measurement and control
- Apply instrumentation techniques in mechatronic system design
10. Fundamentals of Robotics
- Learn the principles of robotic systems and kinematics
- Apply robotics concepts to basic automation tasks
11. Health, Safety and Environmental Practices in Engineering
- Apply workplace safety procedures in engineering environments
- Understand environmental sustainability in mechatronic practices
12. Communication and Technical Report Writing
- Develop effective technical writing and presentation skills
- Communicate engineering solutions clearly and professionally
Year 2 – Intermediate Studies in Mechatronics
13. Advanced Electrical and Electronic Systems
- Analyse complex electronic circuits and systems
- Integrate electronic design into mechatronic applications
14. Applied Thermodynamics and Fluid Mechanics
- Apply thermodynamic principles to engineering processes
- Analyse fluid mechanics in hydraulic and pneumatic systems
15. Microcontrollers and Embedded Systems
- Program microcontrollers for automation tasks
- Design embedded systems for mechatronic applications
16. Automation and PLC Programming
- Develop control programmes using PLCs
- Apply automation solutions in industrial engineering environments
17. Mechanical Design and Manufacturing Processes
- Apply design principles for manufacturing systems
- Understand modern techniques in mechanical production processes
18. Dynamics and Vibration Analysis
- Analyse vibration and dynamic behaviour in mechanical systems
- Apply damping and balancing techniques to engineering designs
19. Power Electronics and Drives
- Understand principles of power electronics and motor drives
- Apply drives in automation and robotics applications
20. Robotics Systems and Applications
- Integrate robotics in industrial and engineering systems
- Apply robotics concepts to real-world automation tasks
21. Mechatronic System Design
- Design integrated mechatronic systems combining mechanics, electronics, and control
- Apply system-level engineering principles to innovative designs
22. Data Acquisition and Signal Processing
- Apply data acquisition techniques in engineering systems
- Use signal processing methods to interpret engineering data
23. Industrial Maintenance and Reliability Engineering
- Apply preventive and predictive maintenance strategies
- Improve reliability and efficiency of industrial systems
24. Project Planning and Management in Engineering
- Apply project management tools and techniques to engineering projects
- Manage resources, risks, and timelines effectively
Year 3 – Advanced Studies in Mechatronics
25. Intelligent Systems and Artificial Intelligence in Engineering
- Apply AI techniques in mechatronic problem-solving
- Design intelligent systems for automation and robotics
26. Advanced Control Engineering
- Analyse and design advanced control strategies
- Apply adaptive and predictive control methods in engineering
27. Robotics and Autonomous Systems
- Develop advanced robotics applications for autonomous operation
- Apply navigation and sensor integration in robotic systems
28. Smart Manufacturing and Industry 4.0
- Apply digital technologies in smart factories and manufacturing
- Integrate IoT, cloud, and automation into Industry 4.0 systems
29. Renewable Energy Systems and Applications
- Understand principles of renewable energy technologies
- Apply renewable energy integration in mechatronic systems
30. Advanced Computer-Aided Design and Simulation
- Use advanced CAD tools for mechanical and electronic design
- Apply simulation techniques to test and optimise designs
31. Cyber-Physical Systems and IoT in Engineering
- Integrate IoT technologies with mechatronic systems
- Design cyber-physical systems for industrial applications
32. Advanced Mechatronic System Integration
- Integrate mechanical, electrical, and digital components in complex systems
- Develop innovative solutions for multi-disciplinary engineering challenges
33. Engineering Research Methods
- Apply research methodologies in engineering projects
- Conduct independent research and technical investigations
34. Professional Ethics and Sustainability in Engineering
- Apply ethical principles in professional engineering practice
- Incorporate sustainable development into engineering decisions
35. Innovation and Entrepreneurship in Technology
- Develop entrepreneurial skills for technology-based ventures
- Apply innovation to create solutions for emerging engineering challenges
36. Final Year Major Project (Capstone Project)
- Undertake a substantial project integrating mechatronic knowledge and skills
- Present innovative solutions to real-world engineering problems
The ICTQual AB Level 6 International Diploma in Mechatronics follows a structured and progressive certification pathway that enables learners to develop advanced technical expertise and professional competence over a three-year period. The programme is delivered through a 360-credit framework, ensuring a comprehensive balance between academic knowledge, practical skills, and applied learning.
Learners begin their journey in Year 1 by building a strong foundation in mechanical engineering, electrical and electronic systems, programming, materials science, robotics, and control systems. This stage provides the essential knowledge and technical grounding required to progress into more specialised areas.
In Year 2, learners advance into applied mechatronics, exploring automation, PLC programming, embedded systems, power electronics, robotics, vibration analysis, and system design. This level emphasises problem-solving, integration of technologies, and the application of mechatronic principles in real-world industrial scenarios.
Year 3 focuses on advanced studies, where learners engage with intelligent systems, artificial intelligence, Industry 4.0, renewable energy applications, advanced CAD and simulation, IoT, and cyber-physical systems. This stage also develops research, ethics, sustainability, and entrepreneurship skills, leading to the completion of a Final Year Major Project (Capstone Project) that demonstrates the learner’s ability to integrate and apply their knowledge.
Upon successful completion of all mandatory units and assessments, learners are awarded the ICTQual AB Level 6 International Diploma in Mechatronics, a globally recognised qualification that opens pathways to employment in robotics, automation, manufacturing, aerospace, and other high-technology sectors. It also provides a strong progression route to postgraduate studies in engineering, technology, and related disciplines.
