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4 Years On Campus Bachelors Program
University of BrightonThe MEng in Electrical and Electronic Engineering at Brighton ia an integrated master’s degree takes your engineering skills to an advanced level, blending theory with real-world applications in robotics, renewable energy, and smart systems. It’s ideal if you’re aiming for leadership roles in engineering or want to fast-track toward Chartered Engineer status.
Curriculum Structure
Year 1
The first year is all about building firm foundations. You’ll tackle Engineering Mathematics, solidifying quantitative skills, alongside Engineering Practice, where you begin applying engineering concepts in design-focused projects. Introductory modules such as Embedded Systems 1, Analogue and Digital Electronics, and Introduction to Electrical Engineering ground your understanding of both theory and real-world electronic functionality. You even explore Introduction to Artificial Intelligence, giving a taste of modern, intelligent systems.
Year 2
Year 2 deepens your technical breadth. Core modules like Control and Applications, Embedded Systems 2, Digital Systems Design, Engineering Design, Electrical Engineering 2, and Analogue Electronics and Communications expand your hands-on and design abilities, particularly in controls, digital logic, communications, and system integration. You’re encouraged toward deeper design thinking and tackling more complex systems.
Placement Year (Optional)
If you opt for a four-year route, your third year becomes a Professional Placement Year—a paid, industry-based experience designed to bring your learning to life. You’ll work in a real engineering environment, supported by Brighton’s Placement Year Team who help with your CV, applications, and interview prep. You’ll even complete a work-based project, demonstrating your impact in a professional setting
Year 3
The final year brings both focus and creativity. You’ll lead an Individual Project, applying everything you’ve learned to investigate or create a meaningful engineering outcome. Other core modules include Product Design, Electronics, and High Voltage Power, Distribution and Utilisation — enabling advanced expertise in electronics and power systems. You may also choose options such as Digital Signal Processing or Networking, tailoring your skillset to your interests.
Final Year (Year 4)
In the final year, students engage in master's-level study to deepen their technical understanding and develop management and leadership skills. The curriculum includes modules such as Cyber Security, Engineering Management, Major Team Project, Communication Systems, and Professional Development. These modules prepare students for professional practice and leadership roles in the field of electrical and electronic engineering.
Focus Areas
Embedded and digital systems; analogue and electronic design; control and instrumentation; high-voltage power systems; individual project development; signal processing and communications.
Learning Outcomes
You’ll emerge able to design, test, and analyse electronic and electrical systems; manage your own extended engineering project; apply advanced techniques in power and digital signal processing; and bring professional confidence to your first engineering role.
Professional Alignment (Accreditation)
This degree is accredited by the Institution of Engineering and Technology (IET), satisfying academic requirements toward Incorporated Engineer (IEng) status and helping pave the way to Chartered Engineer (CEng) qualification with further accredited study.
Reputation (Employability & Outcomes)
Students on the MEng Electrical and Electronic Engineering degree at the University of Brighton experience learning by doing—from day one, you’re actively building, testing, and designing, not just reading.
You’ll study at Moulsecoomb and Falmer campuses, with access to modern engineering facilities, hands-on labs, and immersive project spaces designed to bring your creativity and technical skills to life. The course structure emphasizes real-world application—project work, simulations, placements, and close connections with industry partners.
Here’s how the experiential learning unfolds:
Experiential Learning Highlights
Specialist, hands-on engineering labs and creative spaces
Learn within project-focused zones featuring electrical engineering labs, a Formula Student lab, wind tunnels, and a Simulation Suite equipped with car and flight simulators, VR and motion platforms. Plus, there’s space for prototyping with 3D printers, CNC machines, and workshop tools.
Cross-disciplinary team projects and the STEP Lab
You'll work in engineering teams across disciplines—designing and building robots, rocket cars, or sustainable technology prototypes. The STEP Lab (Sustainable Technology and Engineering Projects) is a hub where practical and professional skills take shape in collaborative environments.
Research-linked learning and real-world briefs
The school maintains strong industry ties through an Industrial Advisory Board and visiting lecturers. These professionals help shape your course content and bring real-world challenges into the classroom.
Final-year project independence and creativity
In your final year, you'll get to design and build your own project from scratch. For example, one student investigated network traffic configurations using tools like Cisco Packet Tracer and GNS3—creating simulations and presenting their findings through a poster exhibition.
Supportive labs and expert technical staff
Your learning is supported by a skilled technical team dedicated to helping maintain, teach, and guide engineering projects and equipment use.
Graduates of the University of Brighton's MEng Electrical and Electronic Engineering are highly employable, progressing into senior roles such as principal design engineer, power systems specialist, automation lead, and electronics R&D manager. Many alumni also pursue PhD research or leadership positions in sectors including renewable energy, aerospace, transport systems, and advanced manufacturing.
Here's how Brighton specifically prepares you for success:
Career Services & Experiential Learning:
The integrated master's programme includes a guaranteed industrial placement year with partners like Rolls-Royce, Siemens Energy, and National Grid. You'll work on live engineering projects in Brighton's £12 million Advanced Engineering Building, featuring specialist labs for power electronics, control systems, and smart grid technologies. The university's STEM Careers Team provides executive-level employability support, including leadership workshops and direct introductions to graduate recruiters.
Industry Partnerships & Research:
Brighton collaborates with global engineering firms (including Ricardo, EDF Energy, and Thales) on cutting-edge research in sustainable power systems, electric vehicle technologies, and industrial digitalisation. As an MEng student, you'll contribute to real-world research projects through the university's Centre for Advanced Engineering, working alongside academics on solutions to current industry challenges.
Graduate Outcomes:
You'll develop advanced expertise in areas like smart grid design, industrial control systems, power electronics, and embedded technologies, with mastery of professional tools including MATLAB/Simulink, PSCAD, and Altium Designer. These sought-after skills prepare you for senior technical roles in energy, transport and high-value manufacturing sectors.
Further Academic Progression:
Graduates are well-positioned for engineering leadership programmes with major employers or PhD research in specialist areas like renewable energy systems or industrial IoT. Brighton's strong industry connections along the South Coast innovation corridor provide exceptional opportunities for career advancement.
UCAS Application • Official High School Transcripts • Personal Statement • Educational Resume • Letter of Recommendation by School TeacherUCAS Tariff Points: 128–112 points from a Level 3 qualification English test results: IELTS 6.0 (no band below 5.5), TOEFL iBT: 72 overall, 18 in writing, 10 in Reading, 10 in Listening and 17 in Speaking.A Levels: ABB–BBC, must include maths at grade C and a physical scienceInternational Baccalaureate (IB): 28 points, with three subjects at Higher level. Higher level subjects must include maths and physics at grade 5.GCSE: Grade 4/C in English Language, Mathematics, and a scienceThe Year 12/Standard 12 Indian School Certificate: an overall average of 60–65% to include a minimum of five subjects at 40% or higher.USA curriculum: High School Diploma with a GPA of 3.0 out of 4.0. And one of the following: a score of 1600/2400 on pre-2016 SAT Reasoning Test (SAT), a score of 1050/1600 on the new SAT Reasoning Test (SAT), an ACT score of 24+, two Advanced Placement (AP) tests with scores of three or above, and two SAT Subject-specific Tests (SATS) with minimum scores of 580 in each.Offers optional Industrial Placement Year. Tuition Fees: £1,850Embedded Systems EngineerSoftware Developer (Hardware Integration)IoT Solutions ArchitectRobotics EngineerControl Systems EngineerElectronics Design EngineerTelecommunications EngineerData Scientist (Signal Processing)Cybersecurity Analyst (Hardware/Network)Semiconductor Design Engineer
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