ICTQual AB Level 6 International Diploma in Electronics Engineering

Here are the learning outcomes for each study unit:

Year 1 – Foundation in Electronics Engineering

1. Principles of Electrical and Electronics Engineering

• Understand the basic laws and principles of electricity and electronics.
• Apply fundamental electrical theories to practical engineering problems.
• Develop essential problem-solving skills in circuit behaviour and system design.

2. Introduction to Circuit Theory

• Analyse electrical circuits using Ohm’s law, Kirchhoff’s laws, and network theorems.
• Calculate current, voltage, and resistance in linear and non-linear circuits.
• Apply theoretical concepts to real-world circuit design.

3. Digital and Analogue Electronics Fundamentals

• Differentiate between analogue and digital systems.
• Design simple analogue and digital circuits for practical applications.
• Evaluate the performance of circuits in real-world contexts.

4. Electronic Components and Devices

• Identify and classify key electronic components such as resistors, capacitors, diodes, and transistors.
• Explain the functions and applications of electronic devices in circuits.
• Implement components in circuit building and troubleshooting.

5. Fundamentals of Signal Processing

• Understand the properties of analogue and digital signals.
• Apply filtering and transformation techniques to signal analysis.
• Gain introductory knowledge of real-time signal applications.

6. Introduction to Microcontrollers and Embedded Systems

• Explore microcontroller architecture and programming basics.
• Design simple embedded systems for automation tasks.
• Integrate sensors and actuators with microcontrollers.

7. Health, Safety, and Environmental Awareness

• Apply health and safety practices in electronics laboratories and industries.
• Recognise environmental sustainability issues in electronics engineering.
• Comply with industry-standard safety protocols.

8. Electrical Measurement and Instrumentation

• Use measurement tools to test voltage, current, resistance, and frequency.
• Interpret measurement data with precision and accuracy.
• Apply instrumentation techniques in engineering experiments.

9. Laboratory Techniques in Electronics

• Conduct hands-on experiments with electronic devices and circuits.
• Apply laboratory safety and quality procedures.
• Develop practical troubleshooting and problem-solving skills.

10. Technical Report Writing

• Communicate engineering findings in a professional technical format.
• Structure and present laboratory and project reports effectively.
• Develop writing skills suitable for industry and academia.

11. Introduction to Simulation and Design Software

• Use CAD and simulation tools for electronic circuit design.
• Model and test systems virtually before implementation.
• Improve accuracy and efficiency in engineering projects.

12. Basics of Power Electronics

• Understand the principles of rectifiers, inverters, and converters.
• Apply power electronics in energy conversion and motor control.
• Analyse efficiency and applications of basic power systems.

Year 2 – Intermediate Electronics Engineering

13. Advanced Circuit Design and Analysis

• Apply advanced circuit theories to complex electrical systems.
• Optimise circuits for improved performance and reliability.
• Use simulation tools to validate circuit designs.

14. Embedded System Programming

• Develop advanced coding skills for microcontrollers.
• Implement real-time embedded solutions for automation.
• Debug and optimise embedded software.

15. Communication Systems Fundamentals

• Understand modulation, demodulation, and transmission processes.
• Analyse data transfer techniques in wired and wireless systems.
• Evaluate system performance under varying conditions.

16. Sensors, Transducers, and Instrumentation

• Explain the operation of sensors and transducers.
• Apply sensor technologies in industrial and consumer electronics.
• Integrate instrumentation in monitoring and control systems.

17. Power Electronics and Motor Control

• Explore advanced motor drive systems.
• Design and test power electronic circuits for industrial use.
• Implement control strategies for efficient energy use.

18. Microprocessor Architecture and Applications

• Analyse microprocessor organisation and functionality.
• Apply microprocessors in real-world engineering applications.
• Interface peripheral devices with processors effectively.

19. Process Control and Automation in Electronics

• Apply control strategies for automated systems.
• Implement PLCs and electronic controllers in industrial environments.
• Evaluate efficiency and performance in automation systems.

20. Data Acquisition and Signal Conditioning

• Collect, process, and analyse engineering data using sensors.
• Implement conditioning techniques for accurate signal representation.
• Apply systems for monitoring and control applications.

21. Project Planning and Technical Communication

• Develop project planning, scheduling, and management skills.
• Communicate project outcomes through professional presentations.
• Work effectively within multidisciplinary teams.

22. Quality Control and Assurance in Electronics Systems

• Apply quality control techniques in electronics production.
• Evaluate compliance with international standards.
• Implement continuous improvement practices.

23. Advanced Laboratory Techniques

• Conduct complex experiments with advanced electronic equipment.
• Improve precision and reliability in laboratory investigations.
• Document and interpret experimental outcomes effectively.

24. Electronics Standards, Safety, and Compliance

• Understand international electronics safety and compliance standards.
• Apply risk management in electronics projects.
• Ensure systems meet regulatory requirements.

Year 3 – Advanced Electronics Engineering

25. Advanced Embedded Systems and IoT Applications

• Develop advanced IoT solutions with embedded systems.
• Integrate cloud computing and wireless technologies.
• Apply smart connectivity in modern electronic applications.

26. Robotics and Automation Systems

• Understand robotics principles and control systems.
• Design robotic systems for industrial and service applications.
• Integrate sensors, actuators, and controllers in robotics.

27. Advanced Signal Processing Techniques

• Apply advanced filtering, sampling, and transformation techniques.
• Analyse real-time signals for communication and automation.
• Use signal processing for biomedical and industrial systems.

28. Wireless and Telecommunication Systems

• Understand wireless transmission and networking technologies.
• Design communication systems for mobile and broadband applications.
• Evaluate emerging technologies in telecommunications.

29. Electronic System Design and Optimisation

• Apply system-level design approaches in electronics.
• Optimise electronic systems for cost, performance, and sustainability.
• Use simulation and modelling tools for validation.

30. Power Systems and Renewable Integration

• Analyse renewable energy integration in power systems.
• Design electronic solutions for solar, wind, and hybrid systems.
• Implement sustainable power management strategies.

31. Risk Assessment and Safety in Electronics Projects

• Conduct structured risk assessments in engineering projects.
• Apply risk mitigation and safety management frameworks.
• Ensure compliance with occupational health and safety practices.

32. Advanced Laboratory Experiments and Testing

• Perform advanced testing of electronic systems under different conditions.
• Validate system performance with precision tools.
• Develop experimental designs for innovative projects.

33. Supply Chain and Logistics in Electronics Industry

• Understand supply chain management in electronics production.
• Apply logistics strategies for timely delivery and cost efficiency.
• Manage resources effectively in global supply chains.

34. Capstone Project in Electronics Engineering

• Undertake an independent research-based engineering project.
• Apply theoretical knowledge to solve real-world challenges.
• Demonstrate innovation, design, and technical reporting skills.

35. Professional Development and Leadership in Engineering

• Develop leadership and teamwork skills in engineering contexts.
• Apply professional ethics and industry best practices.
• Prepare for global careers with strong interpersonal skills.

36. Strategic Decision-Making in Electronics Projects

• Apply strategic management principles to large-scale projects.
• Evaluate technical, financial, and ethical aspects of decision-making.
• Lead projects to successful completion with innovation and foresight.