The ICTQual Level 6 Diploma in Automotive Engineering (360 Credits – Three Years) is a comprehensive qualification designed for learners who are ready to advance their knowledge and career prospects in one of the world’s most dynamic industries. This programme is structured to meet the needs of both freshers looking to build a strong academic foundation and professionals aiming to strengthen their technical expertise and leadership capabilities in automotive engineering.
Over the course of three years, learners will gain in-depth insights into modern automotive systems, design principles, manufacturing processes, and advanced technologies shaping the future of mobility. The 360-credit structure ensures a balanced combination of theoretical understanding and practical application, preparing learners to address real-world engineering challenges with confidence and innovation.
By completing this diploma, learners can expect to develop highly relevant skills in automotive design, vehicle dynamics, powertrain systems, quality control, and sustainable engineering practices. These competencies are widely valued across the global automotive sector, opening pathways to roles in design, production, research and development, and technical project management.
The programme not only equips learners with technical proficiency but also enhances critical thinking, problem-solving, and project management skills, all of which are essential for career growth in a competitive marketplace. With its strong academic framework and industry-focused learning outcomes, this diploma offers long-term value, enabling learners to progress into senior professional positions or pursue further study in specialised engineering fields.
This qualification is an ideal choice for learners who aspire to make a lasting impact in the automotive industry, combining academic achievement with career-focused opportunities over a structured three-year journey.
Inspire College of Technologies UK is Directly Approved Training Centre of ICTQual AB
The ICTQual Level 6 Diploma in Automotive Engineering (360 Credits – Three Years) is a specialised qualification designed to provide learners with advanced knowledge and practical expertise in the fast-evolving automotive industry. This course is carefully structured to meet international academic standards while equipping learners with the technical and professional skills required for success in a wide range of automotive engineering roles.
The programme covers essential areas such as automotive design, vehicle dynamics, powertrain systems, manufacturing technologies, quality assurance, and sustainable engineering practices. Over a three-year period, learners will progress through a comprehensive curriculum that blends theoretical concepts with practical applications, ensuring they are fully prepared to meet industry demands and contribute to innovative engineering solutions.
This diploma is ideal for freshers who wish to establish a strong foundation in automotive engineering, as well as for professionals seeking to enhance their expertise and advance into higher-level positions. By completing this 360-credit qualification, learners will gain valuable competencies in critical thinking, problem-solving, project management, and technical analysis—skills that are highly sought after by employers across the global automotive sector.
Upon successful completion, learners can pursue diverse career opportunities in automotive design, research and development, manufacturing, and technical project leadership. The qualification also supports progression to further study in specialised engineering disciplines, enabling learners to expand their professional horizons.
With its strong academic depth, career relevance, and structured three-year duration, the ICTQual Level 6 Diploma in Automotive Engineering offers an outstanding pathway for learners aspiring to build impactful and sustainable careers in the automotive industry.
This qualification, the ICTQual Level 6 Diploma in Automotive Engineering 360 Credits – Three Years, consists of 36 mandatory units.
Year 1: Foundation and Core Engineering Principles
- Introduction to Automotive Engineering
- Mathematics for Automotive Engineering
- Physics for Automotive Engineering
- Mechanical Engineering Principles
- Automotive Systems and Technology
- Electrical and Electronic Systems in Vehicles
- Engineering Materials for Automotive Design
- Vehicle Chassis and Suspension Systems
- Introduction to Vehicle Diagnostics
- Manufacturing Processes for Automotive Engineering
- Automotive Environmental Issues
- Health, Safety, and Environmental Management
Year 2: Advanced Automotive Technologies and Systems
- Advanced Engine Technologies
- Vehicle Dynamics and Handling
- Advanced Automotive Electronics
- Transmission and Powertrain Systems
- Vehicle HVAC Systems
- Vehicle Safety Systems
- Hybrid and Electric Vehicle Technologies
- Automotive Aerodynamics
- Automotive Materials Engineering
- Vehicle Assembly and Production Techniques
- Automotive Diagnostics and Troubleshooting
- Vehicle Testing and Performance Evaluation
Year 3: Industry Applications, Management, and Innovation
- Advanced Vehicle Design and Prototyping
- Automotive Control Systems
- Automotive Quality Control and Assurance
- Sustainability in Automotive Engineering
- Automotive Project Management
- Automotive Research and Development
- Vehicle Electromagnetic Compatibility
- Automotive Business and Marketing
- Autonomous Vehicles and Future Technologies
- Vehicle Fleet Management and Operations
- Automotive Regulatory Compliance and Standards
- Capstone Project in Automotive Engineering
The ICTQual Level 6 Diploma in Automotive Engineering (360 Credits – Three Years) is designed for learners who are passionate about building a successful career in the automotive sector and wish to develop advanced technical and professional skills. This qualification is suitable for a wide range of learners, from freshers taking their first step into automotive engineering to experienced professionals aiming to upgrade their expertise and progress into senior roles.
It is particularly well-suited for learners who:
- Aspire to establish a strong foundation in automotive design, vehicle systems, and engineering principles.
- Are working professionals in the automotive industry seeking to enhance their technical knowledge and leadership potential.
- Wish to pursue career opportunities in areas such as automotive design, research and development, manufacturing, quality control, and project management.
- Want to gain an internationally recognised qualification that supports long-term professional growth and academic advancement.
- Are motivated to contribute to the future of the automotive industry through innovation, sustainability, and cutting-edge engineering practices.
Whether learners aim to begin their career journey or move into specialised, high-level positions, this three-year, 360-credit diploma provides the academic depth, practical training, and professional recognition needed to succeed. With its global relevance and industry-focused outcomes, the course is an excellent choice for anyone committed to achieving excellence in automotive engineering.
Here are the learning outcomes for each study unit:
Year 1: Foundation and Core Engineering Principles
- Introduction to Automotive Engineering
- Understand the history, scope, and significance of the automotive industry
- Identify core principles of automotive engineering and technology
- Recognise key career pathways in automotive design, production, and management
- Mathematics for Automotive Engineering
- Apply mathematical principles to solve engineering problems
- Use calculus, algebra, and statistics in automotive system analysis
- Develop quantitative reasoning for engineering applications
- Physics for Automotive Engineering
- Apply mechanics, thermodynamics, and fluid dynamics to vehicle systems
- Analyse the physical behaviour of automotive components
- Understand energy transfer and material properties in engineering contexts
- Mechanical Engineering Principles
- Demonstrate knowledge of mechanical forces, stresses, and dynamics
- Apply mechanical principles to automotive systems and components
- Analyse problem-solving approaches in mechanical design
- Automotive Systems and Technology
- Identify the main subsystems of modern vehicles
- Explain the integration of mechanical, electrical, and electronic systems
- Evaluate current and emerging automotive technologies
- Electrical and Electronic Systems in Vehicles
- Understand the fundamentals of automotive electrical systems
- Analyse circuit design, sensors, and control units in vehicles
- Apply diagnostic methods to vehicle electrical issues
- Engineering Materials for Automotive Design
- Identify and select appropriate engineering materials for vehicles
- Evaluate material properties in terms of strength, durability, and sustainability
- Apply material science principles to automotive design solutions
- Vehicle Chassis and Suspension Systems
- Understand the design and function of chassis and suspension systems
- Analyse the impact of suspension design on vehicle performance
- Apply engineering solutions to improve handling and ride quality
- Introduction to Vehicle Diagnostics
- Understand principles of diagnostic testing in automotive systems
- Use diagnostic tools and software to detect vehicle faults
- Apply systematic troubleshooting methods to resolve issues
- Manufacturing Processes for Automotive Engineering
- Understand modern manufacturing processes in the automotive sector
- Analyse production techniques for efficiency and quality improvement
- Apply lean manufacturing concepts to automotive engineering
- Automotive Environmental Issues
- Identify key environmental challenges in the automotive industry
- Evaluate the role of emissions control and sustainable technologies
- Apply eco-friendly practices in automotive engineering solutions
- Health, Safety, and Environmental Management
- Understand workplace safety principles in automotive engineering
- Apply risk assessment and hazard control methods
- Implement health, safety, and environmental regulations effectively
Year 2: Advanced Automotive Technologies and Systems
- Advanced Engine Technologies
- Analyse the operation of modern combustion and hybrid engines
- Apply principles of engine efficiency, performance, and emissions control
- Evaluate advanced fuel technologies and innovations
- Vehicle Dynamics and Handling
- Understand the forces affecting vehicle stability and motion
- Apply dynamics principles to handling, braking, and cornering performance
- Analyse techniques to optimise vehicle control and safety
- Advanced Automotive Electronics
- Understand advanced electronic control units (ECUs) and integration
- Apply electronic systems in vehicle performance and safety enhancement
- Diagnose and troubleshoot advanced electronic systems
- Transmission and Powertrain Systems
- Understand the design and operation of manual and automatic transmissions
- Analyse powertrain configurations and efficiency
- Evaluate innovations in driveline and gearbox technologies
- Vehicle HVAC Systems
- Understand the operation of heating, ventilation, and air conditioning in vehicles
- Apply engineering principles to optimise HVAC efficiency
- Diagnose and resolve common HVAC system issues
- Vehicle Safety Systems
- Understand the function of passive and active safety systems
- Analyse the role of safety technologies in accident prevention
- Apply safety engineering principles in vehicle design
- Hybrid and Electric Vehicle Technologies
- Understand the principles of hybrid and electric powertrains
- Analyse battery management, charging systems, and electric motors
- Evaluate the challenges and opportunities of sustainable mobility solutions
- Automotive Aerodynamics
- Understand airflow dynamics in vehicle design
- Apply aerodynamic principles to reduce drag and improve efficiency
- Evaluate the impact of aerodynamics on performance and fuel economy
- Automotive Materials Engineering
- Apply advanced material science to automotive design
- Understand the use of composites, alloys, and lightweight materials
- Evaluate material selection for safety, performance, and sustainability
- Vehicle Assembly and Production Techniques
- Understand modern vehicle assembly processes
- Apply quality control principles in automotive production
- Evaluate automated and robotic systems in manufacturing
- Automotive Diagnostics and Troubleshooting
- Apply advanced diagnostic tools and software to vehicle systems
- Analyse complex automotive faults systematically
- Develop troubleshooting strategies for efficient problem resolution
- Vehicle Testing and Performance Evaluation
- Understand testing methods for vehicle performance and safety
- Apply experimental and simulation techniques in automotive testing
- Evaluate test results to enhance vehicle design and operation
Year 3: Industry Applications, Management, and Innovation
- Advanced Vehicle Design and Prototyping
- Apply advanced design principles to create innovative vehicle models
- Use computer-aided design (CAD) tools for prototyping
- Evaluate prototype testing for design optimisation
- Automotive Control Systems
- Understand the role of control systems in vehicle performance
- Apply control engineering to engine, braking, and steering systems
- Analyse innovations in intelligent automotive control
- Automotive Quality Control and Assurance
- Apply quality management systems in automotive engineering
- Analyse methods for ensuring reliability and safety in vehicles
- Implement quality assurance practices in production and design
- Sustainability in Automotive Engineering
- Understand sustainable practices in automotive design and manufacturing
- Apply eco-friendly technologies to reduce environmental impact
- Evaluate long-term strategies for sustainable mobility
- Automotive Project Management
- Understand project planning and resource allocation in automotive projects
- Apply project management tools to achieve engineering objectives
- Evaluate project outcomes using cost, quality, and time benchmarks
- Automotive Research and Development
- Understand the role of R&D in advancing automotive technologies
- Apply research methods to solve engineering challenges
- Evaluate innovation strategies for future vehicle development
- Vehicle Electromagnetic Compatibility
- Understand electromagnetic interference in automotive systems
- Apply testing methods to ensure vehicle compliance
- Evaluate design strategies to minimise EMC issues
- Automotive Business and Marketing
- Understand business models and marketing strategies in the automotive sector
- Analyse market trends influencing vehicle design and production
- Apply strategic approaches to automotive product promotion
- Autonomous Vehicles and Future Technologies
- Understand the principles of autonomous driving systems
- Analyse sensor technologies, AI, and machine learning in vehicles
- Evaluate the future impact of autonomous vehicles on mobility
- Vehicle Fleet Management and Operations
- Understand fleet management principles and logistics
- Apply efficiency strategies to reduce operational costs
- Evaluate technologies for smart fleet management systems
- Automotive Regulatory Compliance and Standards
- Understand global automotive regulations and standards
- Apply compliance requirements to vehicle design and production
- Evaluate the role of regulations in ensuring safety and sustainability
- Capstone Project in Automotive Engineering
- Integrate knowledge gained throughout the programme into a practical project
- Apply research, design, and analysis skills to solve complex engineering problems
- Present and evaluate innovative solutions to real-world automotive challenges
Learners enrolling in the ICTQual Level 6 Diploma in Automotive Engineering (360 Credits – Three Years) will follow a structured certification pathway designed to ensure comprehensive knowledge, skill development, and professional recognition.
- The qualification is completed over a period of three years, with a total of 36 mandatory units covering foundation principles, advanced automotive technologies, and industry-focused applications.
- Each year builds progressively on prior learning, enabling learners to develop strong technical expertise, analytical ability, and applied engineering skills relevant to the global automotive sector.
- Learners are assessed through a combination of assignments, projects, research activities, and practical applications, ensuring both academic depth and industry relevance.
- To achieve the diploma, learners must successfully complete all 360 credits, demonstrating competence across technical, theoretical, and managerial aspects of automotive engineering.
- The final stage includes a Capstone Project, where learners integrate and apply their knowledge to a real-world automotive engineering challenge, showcasing innovation, problem-solving, and professional practice.
Upon successful completion, learners are awarded the ICTQual Level 6 Diploma in Automotive Engineering, an internationally recognised qualification that supports career progression into advanced professional roles or further study at higher levels in specialised engineering fields.
