MRes Leadership and Strategy
The University of Greater Manchester offers a wide array of undergraduate and postgradu...
MSc Electrical and Electronic Engineering
Bolton
INTAKE: January
Program Overview
The MSc Electrical and Electronic Engineering program with a January start at the University of Greater Manchester offers a focused and intensive study of advanced electrical and electronic engineering principles and their industrial applications. The program's structure and learning outcomes are equivalent to the September intake, ensuring a high-quality educational experience for students commencing their studies in January. It aims to equip graduates with the advanced analytical and design skills necessary to excel in a wide range of electrical and electronic engineering roles, building upon their existing engineering foundation. The curriculum combines theoretical learning with practical laboratory work and advanced simulation exercises.
Curriculum: The curriculum for the MSc Electrical and Electronic Engineering (Jan Start) is designed to provide in-depth knowledge across core areas of modern electrical and electronic engineering, mirroring the September intake. Core modules often include advanced engineering modeling and analysis, smart engineering systems, product innovation and new technologies, advanced power system control and electrical machines, 1 and pervasive embedded system design. The program may also offer pathways for specialization. A significant component remains the individual major project, allowing students to apply their learning to a specific research or industrial problem, regardless of their start date.
Research Focus: The MSc Electrical and Electronic Engineering program, including the January start cohort, benefits from the research expertise within the University of Greater Manchester in relevant areas. Faculty actively engaged in research inform the curriculum and supervise student projects. The program encourages students to critically apply their knowledge to investigate and solve industrial and research-related problems, utilizing advanced software tools. The individual major project provides an opportunity for students commencing in January to contribute to research and development in specific areas of electrical and electronic engineering.
Industry Engagement: The University of Greater Manchester's commitment to preparing graduates for successful careers in the electrical and electronic engineering industry extends to the January intake. The program often incorporates industry-relevant case studies, and the curriculum is designed to address the demands of Industry 4.0. Graduates from the January cohort acquire skills in areas such as product design and industrial applications, enhancing their employability in sectors including robotics, transportation, healthcare, manufacturing, energy, and communication.
Global Perspective: The field of electrical and electronic engineering is inherently global, and the MSc program, regardless of the start date, aims to equip graduates to contribute to the international landscape of advanced technologies. By exploring contemporary requirements and utilizing industry-standard approaches, the program prepares graduates from the January intake to play a key role in the global implementation of electrical and electronic engineering innovations.
Location
Bolton
Score
IELTS 6.5
Tuition Fee
£ 15950
Postgraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed a bachelor's degree or its equivalent from a recognized institution with a minimum overall score of 60% or equivalent.
English language proficiency:
- IELTS: A minimum overall score of 6.5 or 7.0 with no individual component below 6.0.
- TOEFL: A minimum overall score of 79.
- PTE Academic: A minimum overall score of 59.
- Some postgraduate programs may have specific subject prerequisites or additional requirements.
The University of Greater Manchester offers a variety of scholarships to support international students in financing their education. These scholarships are designed to reward academic excellence and assist students in pursuing their studies in the UK.
Global Futures Scholarships: The university provides the Global Futures Scholarships, which offer financial support to international students. These scholarships are available to both undergraduate and master's students holding an offer for full-time study on campus in Manchester.
Equity and Merit Scholarships: The university offers Equity and Merit Scholarships to academically excellent international students. These scholarships are available to postgraduate taught students commencing their studies. The scholarships aim to support students who demonstrate strong academic performance and their chosen field of study.
Engineering the Future Scholarships: The School of Engineering at the University of Greater Manchester provides scholarship awards to academically excellent international students commencing their postgraduate taught studies. These scholarships aim to support students pursuing careers in engineering and related fields.
Graduates from the IET-accredited MSc Electrical and Electronic Engineering program at the University of Greater Manchester, including those who commenced their studies in January, acquire advanced knowledge and specialist skills highly valued across a wide range of technology-driven industries. The January start offers flexibility without compromising the comprehensive career preparation. Their expertise in areas such as embedded systems, smart engineering, and power electronics opens doors to diverse and impactful career paths.
Advanced Embedded Systems Designer: Graduates can design and develop sophisticated embedded systems for applications ranging from autonomous vehicles and robotics to advanced industrial control and IoT devices.
Specialist in Power Electronics and Drives: Graduates can work on the design, analysis, and control of high-efficiency power electronic converters and electric motor drives for renewable energy systems, electric transportation, and industrial automation.
Smart Grid and Energy Systems Engineer: Graduates can contribute to the development and implementation of intelligent power grids, focusing on renewable energy integration, energy storage solutions, and smart metering technologies.
Robotics and Automation Engineer: Applying their advanced control systems knowledge, graduates can design, simulate, and implement robotic systems and automated processes for manufacturing, logistics, and healthcare.
Advanced Electronics Design Engineer: Graduates can work on the design and simulation of complex analog and digital electronic circuits for high-performance computing, communication systems, and specialized instrumentation.
Product Innovation Engineer (Electronics Focused): Graduates can lead the research, design, and development of innovative electronic and electrical products, incorporating the latest technological advancements.
Research and Development Scientist/Engineer: Graduates can pursue research careers in academic institutions or industrial R&D centers, focusing on cutting-edge advancements in electrical and electronic engineering.
Signal Processing and Communication Systems Engineer: Graduates can work on the design and implementation of advanced signal processing algorithms and communication systems for wireless networks, data transmission, and sensor technologies.
Control and Instrumentation Engineer (Advanced Applications): Graduates can design and implement sophisticated control and instrumentation systems for complex industrial processes, aerospace applications, and scientific research.
Technical Consultant (Electrical and Electronic Engineering): With a strong theoretical foundation and practical skills, graduates can provide expert technical advice and solutions to companies across various sectors in the field of electrical and electronic engineering.
