ICTQual Level 6 Diploma in Automotive Engineering 360 Credits – Three Years

The ICTQual Level 6 Diploma in Automotive Engineering is a prestigious qualification designed for individuals aspiring to excel in the dynamic world of automotive engineering. Spanning three years, this comprehensive course offers an in-depth exploration of the technical, practical, and theoretical aspects of automotive technology. With the automotive industry continually evolving, this diploma prepares students for a successful career in a sector that is essential to global economies.

The ICTQual Level 6 Diploma in Automotive Engineering is a robust program that provides students with the skills and knowledge needed to thrive in the automotive industry. This diploma is ideal for those looking to pursue managerial or technical roles within the field. Whether you want to work on advanced vehicle systems or lead engineering teams, this qualification will help you achieve your career goals.

Upon completion of the ICTQual Level 6 Diploma in Automotive Engineering, graduates are well-equipped to pursue various careers in the automotive industry. Whether working with manufacturers, research institutions, or service companies, the skills gained throughout the course open up numerous job opportunities.

The ICTQual Level 6 Diploma in Automotive Engineering is a comprehensive, three-year qualification that prepares students for a successful career in one of the most dynamic industries in the world. By combining technical knowledge, practical skills, and real-world experience, this diploma equips graduates with everything they need to thrive in the automotive engineering sector. Whether you are looking to advance in your current career or start a new one, this qualification provides a clear pathway to success.

Study Units:

Year 1: Foundation and Core Engineering Principles

1. Introduction to Automotive Engineering
2. Mathematics for Automotive Engineering
3. Physics for Automotive Engineering
4. Mechanical Engineering Principles
5. Automotive Systems and Technology
6. Electrical and Electronic Systems in Vehicles
7. Engineering Materials for Automotive Design
8. Vehicle Chassis and Suspension Systems
9. Introduction to Vehicle Diagnostics
10. Manufacturing Processes for Automotive Engineering
11. Automotive Environmental Issues
12. Health, Safety, and Environmental Management

Year 2: Advanced Automotive Technologies and Systems

13. Advanced Engine Technologies
14. Vehicle Dynamics and Handling
15. Advanced Automotive Electronics
16. Transmission and Powertrain Systems
17. Vehicle HVAC Systems
18. Vehicle Safety Systems
19. Hybrid and Electric Vehicle Technologies
20. Automotive Aerodynamics
21. Automotive Materials EngineeringLearning Outcomes:
22. Vehicle Assembly and Production Techniques
23. Automotive Diagnostics and Troubleshooting
24. Vehicle Testing and Performance Evaluation

Year 3: Industry Applications, Management, and Innovation

25. Advanced Vehicle Design and Prototyping
26. Automotive Control Systems
27. Automotive Quality Control and Assurance
28. Sustainability in Automotive Engineering
29. Automotive Project Management
30. Automotive Research and Development
31. Vehicle Electromagnetic Compatibility
32. Automotive Business and Marketing
33. Autonomous Vehicles and Future Technologies
34. Vehicle Fleet Management and Operations
35. Automotive Regulatory Compliance and Standards
36. Capstone Project in Automotive Engineering

Learning Outcomes:

Learning Outcomes for the Level 6 Diploma in Automotive Engineering 360 Credits – Three Year:

Year 1: Foundation and Core Engineering Principles

1. Introduction to Automotive Engineering
   Understand the evolution and key components of automotive engineering, and identify the roles and responsibilities of engineers within the industry.
2. Mathematics for Automotive Engineering
   Apply advanced mathematical methods to solve engineering problems, with a focus on vehicle systems and technology.
3. Physics for Automotive Engineering
   Demonstrate a fundamental understanding of the physical principles underlying automotive technologies, including mechanics and thermodynamics.
4. Mechanical Engineering Principles
   Apply basic mechanical engineering principles, such as material properties and thermodynamics, in the context of automotive design and manufacturing.
5. Automotive Systems and Technology
   Gain knowledge of key automotive systems, including engines, transmissions, braking, and suspension systems.
6. Electrical and Electronic Systems in Vehicles
   Understand the role of electrical and electronic systems in modern vehicles, including their applications in vehicle control, safety, and efficiency.
7. Engineering Materials for Automotive Design
   Identify and assess materials used in automotive manufacturing and design, and understand their properties in relation to vehicle performance and safety.
8. Vehicle Chassis and Suspension Systems
   Understand the design, operation, and importance of vehicle chassis and suspension systems in ensuring stability, handling, and safety.
9. Introduction to Vehicle Diagnostics
   Develop skills in diagnosing vehicle issues using diagnostic tools and techniques, understanding common vehicle faults.
10. Manufacturing Processes for Automotive Engineering
    Understand key manufacturing processes in automotive engineering, including assembly, welding, and quality control in mass production.
11. Automotive Environmental Issues
    Evaluate the environmental impact of automotive technologies, focusing on emissions, fuel efficiency, and the transition to green technologies.
12. Health, Safety, and Environmental Management
    Apply health and safety principles to automotive engineering, ensuring compliance with industry standards and promoting sustainable practices.

Year 2: Advanced Automotive Technologies and Systems

13. Advanced Engine Technologies
    Develop an advanced understanding of internal combustion engines, hybrid systems, and alternative powertrains, focusing on performance, efficiency, and innovation.
14. Vehicle Dynamics and Handling
    Analyze the dynamics of vehicle motion, including handling, stability, and the effects of forces on vehicle performance.
15. Advanced Automotive Electronics
    Explore advanced electronic systems in vehicles, including automated systems, advanced driver-assistance systems (ADAS), and infotainment technologies.
16. Transmission and Powertrain Systems
    Understand the design, function, and optimization of transmission and powertrain systems, with a focus on efficiency and performance.
17. Vehicle HVAC Systems
    Understand the design and operation of vehicle heating, ventilation, and air conditioning systems, and their impact on comfort and energy efficiency.
18. Vehicle Safety Systems
    Study the design, implementation, and effectiveness of passive and active vehicle safety systems, including airbags, crash sensors, and collision avoidance.
19. Hybrid and Electric Vehicle Technologies
    Develop expertise in hybrid and electric vehicle systems, including battery technologies, energy storage, and electric drive systems.
20. Automotive Aerodynamics
    Apply the principles of aerodynamics to improve vehicle performance, focusing on fuel efficiency, handling, and stability at high speeds.
21. Automotive Materials Engineering
    Investigate the selection and application of advanced materials in vehicle design, including lightweight and high-strength materials for improved performance.
22. Vehicle Assembly and Production Techniques
    Understand the techniques and tools used in vehicle production, including robotic automation, lean manufacturing, and quality control.
23. Automotive Diagnostics and Troubleshooting
    Apply diagnostic techniques to identify and resolve issues in complex automotive systems, improving vehicle performance and reliability.
24. Vehicle Testing and Performance Evaluation
    Develop skills in testing and evaluating vehicle performance, including fuel efficiency, emissions, safety, and durability.

Year 3: Industry Applications, Management, and Innovation

25. Advanced Vehicle Design and Prototyping
    Apply advanced design techniques and technologies to prototype vehicles, using CAD, simulations, and rapid prototyping methods.
26. Automotive Control Systems
    Analyze and design control systems used in modern vehicles, including electronic stability control, automatic transmission, and active safety systems.
27. Automotive Quality Control and Assurance
    Implement quality control techniques in automotive production, focusing on defect prevention, process control, and continuous improvement.
28. Sustainability in Automotive Engineering
    Develop sustainable engineering solutions for the automotive industry, including energy-efficient designs and green manufacturing processes.
29. Automotive Project Management
    Manage automotive engineering projects, including budgeting, scheduling, risk management, and team collaboration.
30. Automotive Research and Development
    Contribute to R&D activities in the automotive industry, focusing on the development of new technologies, products, and solutions.
31. Vehicle Electromagnetic Compatibility
    Understand the principles of electromagnetic compatibility in vehicles, focusing on interference and the design of systems to minimize it.
32. Automotive Business and Marketing
    Apply business and marketing principles to the automotive industry, including market analysis, brand development, and sales strategies.
33. Autonomous Vehicles and Future Technologies
    Explore the technologies driving the future of autonomous vehicles, including AI, sensor systems, and the legal and ethical implications.
34. Vehicle Fleet Management and Operations
    Learn the principles of fleet management, focusing on maintenance, logistics, and operational efficiency for managing vehicle fleets.
35. Automotive Regulatory Compliance and Standards
    Understand automotive regulations, including safety standards, environmental compliance, and industry certifications that govern vehicle design and production.
36. Capstone Project in Automotive Engineering
    Apply knowledge and skills gained throughout the course to complete a comprehensive automotive engineering project, demonstrating your ability to solve complex industry problems.