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Masters Degrees (Electrical And Electronics)

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The MS program in Electrical and Electronics Engineering aims to provide advanced education and a cutting edge research experience in electrical and electronics engineering, or in electrical and computer engineering crossing the boundary of the two disciplines. Read more
The MS program in Electrical and Electronics Engineering aims to provide advanced education and a cutting edge research experience in electrical and electronics engineering, or in electrical and computer engineering crossing the boundary of the two disciplines. The focus of this program is excellence in research. Graduates of the program can join industry or continue to work in academia.

Current faculty projects and research interests:

• Micro and Nano Systems (MEMS & NEMS)
• Wireless, Acoustic, Nano and Quantum Communication
• Waves, Optics and Photonics
• Electrical, Biological and Nano-Scale Systems
• Signal, Speech, Image and Video Processing
• Multimedia and Networking
• Machine Learning

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The far STEM route is for chemistry, biotechnology, biochemistry, food science or similar first degrees where statistical analysis was a dominant feature of their analytical studies. Read more
The far STEM route is for chemistry, biotechnology, biochemistry, food science or similar first degrees where statistical analysis was a dominant feature of their analytical studies. You will spend four semesters studying towards a General Engineering Transition Masters, studying appropriate Level 5 modules in the first semester then joining the Near STEM cohort, again with the opportunity to specialise in the above options at L6 or L7.7.

Electrical and Electronics degrees available through the Transition Masters:
-MSc in Embedded Intelligent Systems
-MSc in Radio and Mobile Communication System
-MSc in Microelectronics and Computer Engineering
-MSc in Power Electronics and Control
-MSc in Mechatronics
-MSc in Communications and Information Engineering

Why choose this course?

The School has over 25 years' experience of teaching electronic engineering and has established an excellent international reputation in this field;We offer extensive lab facilities for engineering students, including the latest software packages;Study leading-edge applications such as biometric authentication and speech-based interaction.

Structure

Year 1
Core Modules
-Computer Architecture Design
-Computer Programming for Electronics Engineers
-Digital Design & Embedded Systems
-Digital Signal Processing and Processes
-Electrical and Electronic Theory
-Electronic Engineering Practice
-Engineering Application of Mathematics
-Operations Management

Year 2
Core Modules
-Advanced Reconfigurable Systems and Applications-
-Artificial Intelligence
-Individual Masters Project
-Manufacturing Strategy
-Microelectronics and VLSI
-Operations Research
-Quality Reliability & Maintenance

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Electronic and Electrical Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Electronic and Electrical Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

As a student on the Master's course in Electronic and Electrical Engineering, you will develop specialist skills aligned with the College of Engineering’s research interests and reflecting the needs of the electronics industry.

Key Features of MSc in Electronic and Electrical Engineering

The MSc Electronic and Electrical Engineering course covers the ability to apply the knowledge gained in the course creatively and effectively for the benefit of the profession, to plan and execute a programme of work efficiently, and to be able, on your own initiative, to enhance your skills and knowledge as required throughout your career in Electronic and Electrical Engineering.

Students on the Electronic and Electrical Engineering course benefit from the use of industry-standard equipment, such as a scanning tunnelling microscope for atomic scale probing or an hp4124 parameter analyzer for power devices, for simulation, implementation and communication.

During the Electronic and Electrical Engineering course there will be the opportunity to choose and apply suitable prototyping and production methods and components, gain knowledge in constructing and evaluating advanced models of various manufacturing techniques, and be able to differentiate, analyse and discuss various product lifetime management solutions and how they affect different sectors of Electronic and Electrical Engineering industry.

The MSc in Electronic and Electrical Engineering programme is modular in structure. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits in the taught element (Part One) and a project (Part Two) that is worth 60 credits and culminates in a written dissertation in Electronic and Electrical Engineering. Students on the Electronic and Electrical Engineering course must successfully complete Part One before being allowed to progress to Part Two.

Part-time Delivery mode of MSc in Electronic and Electrical Engineering

The part-time scheme of the MSc in Electronic and Electrical Engineering is a version of the full-time equivalent MSc in Electronic and Electrical Engineering scheme, and as such it means lectures are spread right across each week and you may have lectures across every day. Due to this timetabling format, the College advises that the scheme is likely to suit individuals who are looking to combine this with other commitments (typically family/caring) and who are looking for a less than full-time study option in Electronic and Electrical Engineering.

Those candidates seeking to combine the part-time option with full-time work are unlikely to find the timetable suitable, unless their job is extremely flexible and local to the Bay Campus.

Modules on Electronic and Electrical Engineering

Modules on the MSc Electronic and Electrical Engineering course can vary each year but you could expect to study:

Communication Skills for Research Engineers

Energy and Power Electronics Laboratory

Power Semiconductor Devices

Advanced Power Electronics and Drives

Wide Band-Gap Electronics

Power Generation Systems

Modern Control Systems

Advanced Power Systems

Signals and Systems

Digital Communications

Optical Communications

Probing at the Nanoscale

RF and Microwaves

Wireless Communications

Facilities for Electronic and Electrical Engineering

The new home of the Electronic and Electrical Engineering programme is at the innovative Bay Campus which provides some of the best university facilities in the UK, in an outstanding location.

Engineering at Swansea University has extensive IT facilities and provides extensive software licenses and packages to support teaching. In addition the University provides open access IT resources.

Find out more about the facilities used by Electronic and Electrical students at Swansea University, including the electronics lab on our website.

Links with Industry

At Swansea University, Electronic and Electrical Engineering has an active interface with industry and many of our activities are sponsored by companies such as Agilent, Auto Glass, BT and Siemens.

Electronic and Electrical Engineering has a good track record of working with industry both at research level and in linking industry-related work to our postgraduate courses. We also have an industrial advisory board that ensures our taught courses including the MSc in Electronic and Electrical Engineering maintain relevance.

Our research groups work with many major UK, Japanese, European and American multinational companies and numerous small and medium sized enterprises (SMEs) to pioneer research. This activity filters down and influences the project work that is undertaken by all our postgraduate students including those on the MSc in Electronic and Electrical Engineering.

Careers

Electronic and Electrical Engineering graduates find employment in industry, research centres, government or as entrepreneurs in a wide range of careers, from a design and development role for electronic and electrical equipment or as a technological specialist contributing to a multi-disciplinary team in a range of fields, including medicine, travel, business and education.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

With recent academic appointments strengthening electronics research at the College, the Electronic Systems Design Centre (ESDC) has been re-launched to support these activities.

The Centre aims to represent all major electronics research within the College and to promote the Electrical and Electronics Engineering degree.

Best known for its research in ground-breaking Power IC technology, the key technology for more energy efficient electronics, the Centre is also a world leader in semiconductor device modelling, FEM and compact modelling.



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IN THIS INTENSIVE, PART-TIME, 18-MONTH ONLINE PROGRAM YOU WILL GAIN. - Skills and know-how in the latest technologies in electrical engineering. Read more

IN THIS INTENSIVE, PART-TIME, 18-MONTH ONLINE PROGRAM YOU WILL GAIN:

- Skills and know-how in the latest technologies in electrical engineering

- Practical guidance from electrical engineering experts in the field

- Knowledge from the extensive experience of the lecturers, rather than from only the theoretical information gained from books and college

- Credibility as the local electrical engineering expert in your firm

- Networking contacts in the industry

- Improved career prospects and income

- An Advanced Diploma of Applied Electrical Engineering (Electrical Systems)

Next intake starts July 02, 2018, with the following intake starting October 02, 2018. Registrations are now open.

Payment is not required until 2 to 4 weeks before the start of the program.

The EIT Advanced Diploma of Applied Electrical Engineering (Electrical Systems) is recognized worldwide and has been endorsed by the International Society of Automation (ISA). Please ask us about specific information on accreditation for your location.

OVERVIEW

Join the next generation of electrical engineers and technicians and embrace a well paid, intensive yet enjoyable career by embarking on this comprehensive course on electrical engineering. It is presented in a practical and useful manner - all theory covered is tied to a practical outcome. Leading electrical engineers who are highly experienced engineers from industry, having 'worked in the trenches' in the various electrical engineering areas present the course over the web in a distance learning format using our acclaimed live e-learning techniques.

The course starts with an overview of the basic principles of electrical engineering and then goes on to discuss the essential topics in depth. With a total of 16 modules, everything that is of practical value from electrical distribution concepts to the equipment used, safety at work to power quality are all looked at in detail. Each module contains practical content so that the students can practice what they learn including the basic elements of designing a system and troubleshooting.

Most academic courses deal with engineering theory in detail but fall short when it comes to giving practical hints on what a technician is expected to know for a job in the field. In this course, the practical aspects receive emphasis so that when you go out into the field you will have the feeling that ‘you have seen it all.

*JOB OUTCOMES, INTERNATIONAL RECOGNITION AND PROFESSIONAL MEMBERSHIP:

A range of global opportunities awaits graduates of the Advanced Diploma of Applied Electrical Engineering (Electrical Systems). Pending full accreditation you may become a full member of Engineers Australia and your qualification will be recognized by Engineers Australia and (through the Dublin Accord) by leading professional associations and societies in Australia, Canada, Ireland, Korea, New Zealand, South Africa, United Kingdom and the United States. The Dublin Accord is an agreement for the international recognition of Engineering Technician qualifications.

For example, current enrolled students can apply for free student membership of Engineers Australia. After graduation, you can apply for membership to become an Engineering Associate, while graduates interested in UK recognition can apply for membership of the Institution of Engineering and Technology (IET) as a Technician Member of the Institution of Engineering and Technology.

This professional recognition greatly improves the global mobility of graduates, and offers you the opportunity of a truly international career.

You will be qualified to find employment as an Engineering Associate in public and private industry including transportation, manufacturing, process, construction, resource, energy and utilities industries. Engineering Associates often work in support of professional engineers or engineering technologists in a team environment. If you prefer to work in the field you may choose to find employment as a site supervisor, senior technician, engineering assistant, or similar.

WHO SHOULD COMPLETE THIS PROGRAM?

- Electrical Engineers and Technicians

- Project Engineers

- Design Engineers

- Instrumentation and Design Engineers

- Electrical Technicians

- Field Technicians

- Electricians

- Plant Operators

- Maintenance Engineers and Supervisors

- Energy Management Consultants

- Automation and Process Engineers

- Design Engineers

- Project Managers

- Instrument Fitters and Instrumentation Engineers

- Consulting Engineers

- Production Managers

- Chemical and Mechanical Engineers

- Instrument and Process Control Technicians

In fact, anyone who wants to gain solid knowledge of the key elements of electrical engineering – to improve work skills and to create further job prospects. Even those of you who are highly experienced in electrical engineering may find it useful to attend some of the topics to gain key, up to date perspectives on electrical engineering.

PROGRAM STRUCTURE

The course is composed of 16 modules. These cover the following seven main threads to provide you with maximum practical coverage in the field of electrical engineering

- Electrical technology fundamentals

- Distribution equipment and protection

- Rotating machinery and transformers

- Power electronics

- Energy efficiency

- Earthing and safety regulations

- Operation and maintenance of electrical equipment

The 16 modules will be completed in the following order:

- Electrical Circuits

- Basic Electrical Engineering

- Fundamentals of Professional Engineering

- Electrical Drawings

- Electrical Power Distribution

- Transformers, Circuit Breakers and Switchgear

- Electrical Machines

- Power Cables and Accessories

- Earthing and Lightning / Surge Protection

- Power System Protection

- Electrical Safety and Wiring Regulations

- Testing, Troubleshooting and Maintenance of Electrical Equipment

- Energy Efficiency and Energy Use

- Power Quality

- Power Electronics and Variable Speed Drives

- DC and AC High Reliability Power Supplies

COURSE FEES

What are the fees for my country?

The Engineering Institute of Technology (EIT) provides distance education to students located all around the world – it is one of the very few truly global training institutes. Course fees are paid in a currency that is determined by the student’s location. We aim to give you a rapid response regarding course fees that are relevant to your individual circumstances.

We understand that cost is a major consideration before a student begins to study. For a rapid reply to your query regarding course fees and payment options, please contact a Course Advisor in your region via the below button and we will respond within two (2) business days.



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Electrical Engineering is not an independent Master of Science programme, but it is an English track available in the Master of Science programme in Electrical Engineering. Read more

Important note

Electrical Engineering is not an independent Master of Science programme, but it is an English track available in the Master of Science programme in Electrical Engineering

Mission & Goals

Electrical Engineering is the branch of engineering that deals with the study and application of electricity, electronics and engineering electromagnetics, with particular focus on electric power systems, electrical machines and their control, electronic power converters, electrical transportation systems, electrical and electronic measurements, circuit theory and electromagnetic compatibility.
An electrical engineer has a wide background of knowledge that is necessary to address ever increasing challenges of the professional and research activities. These activities span not only in the traditional field of electricity generation, transmission and distribution, but also in the multi-faceted reality of industrial and home electrical appliances and systems, the electric systems in the transportation and health-care sectors, the electromagnetic compatibility, and the measurement and diagnosis techniques, just to mention some of the most relevant possible fields of activity.
A wide and in-depth knowledge of mathematics and physics is the essential background of graduates’ qualification in electrical engineering. Fundamental is also the background in computer science, automation and electronics applied to the different areas of electrical engineering.

The programme is entirely taught in English

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electrical-engineering/electrical-engineering-track/

Career Opportunities

There is a steady high demand for electrical engineers: in 2010, the Master of Science graduated of that year were 60, whilst the Politecnico di Milano’s Career Service received 546 requests for employment of electrical engineers. According to the Technical Report of the Evaluation Committee of Politecnico di Milano, 88% of the Master of Science graduated in Electrical Engineer in 2007, interviewed in December 2008, declared that they would have applied again to the same Electrical Engineering Programme and the 90% of the interviewed graduated declared to have a stable, full-time employment.

- Contacts
For further information about didactic aspects of the course and curricula, visit http://www.electre.polimi.it http://www.ingpin.polimi.it or contact didattica.etec(at)polimi.it.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Electrical_eng_energy_ren.pdf
This track of the Master of Science in Electrical Engineering aims to form graduates with a comprehensive scientific and technological background on electrical power systems. It builds on basic disciplines (covering digital signal processing, electromagnetic compatibility and engineering electromagnetics, measurements and diagnosis techniques, power electronics and electrical drives, design of electrical machines and apparatus, etc.) and provides solid skills in the areas of electrical energy and renewable sources, electrical systems in transportation, design and automation of electrical systems. Graduates will be highly employable in the sectors of generation, transmission, distribution and utilization of electrical energy; manufacturing of electrical machines and power electronics equipment; industrial automation; design, production and operation of electrical systems for transportation (rail, automotive, aerospace and marine); companies operating on the electricity market.
The programme is taught in English.

Subjects

Measurement Oriented Digital Signal Processing, Electric Power Systems, Science And Technology of Electrical Materials, Power Electronics, Applied Statistics, Electromagnetic Compatibility, Electrical Switching Apparatus (or other offered courses), Construction and Design of Electrical Machines, Electric Systems for Transportation, Reliability Engineering and Quality Control, Electrical Drives

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electrical-engineering/electrical-engineering-track/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electrical-engineering/electrical-engineering-track/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Power Engineering and Sustainable Energy at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Power Engineering and Sustainable Energy at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The Master's course in Power Engineering and Sustainable Energy places strong emphasis on state-of-the-art semiconductor devices and technologies, advanced power electronics and drives, and advanced power systems. The Power Engineering and Sustainable Energy course also covers conventional and renewable energy generation technologies. Exciting new developments such as wide band gap electronics, energy harvesting, solar cells and biofuels are discussed and recent developments in power electronics are highlighted.

Key Features of MSc in Power Engineering and Sustainable Energy

The College of Engineering has an international reputation for electrical and electronics research for energy and advanced semiconductor materials and devices.

Greenhouse gas emission and, consequently, global warming are threatening the global economy and world as we know it. A non-rational use of electrical energy largely contributes to these.

Sustainable energy generation and utilisation is a vital industry in today’s energy thirsty world. Energy generation and conversion, in the most efficient way possible, is the key to reducing carbon emissions. It is an essential element of novel energy power generation system and future transportation systems. The core of an energy conversion system is the power electronics converter which in one hand ensures the maximum power capture from any energy source and on another hand controls the power quality delivered to grid. Therefore the converter parameters such as efficiency, reliability and costs are directly affecting the performance of an energy system.

Transmission and distribution systems will encounter many challenges in the near future. Decentralisation of generation and storage systems has emerged as a promising solution. Consequently, in the near future, a power grid will no longer be a mono-directional energy flow system but a bi-directional one, requiring a much more complex management.

The MSc in Power Engineering and Sustainable Energy is modular in structure. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits in the taught element (Part One) and a project (Part Two) that is worth 60 credits and culminates in a written dissertation. Power Engineering and Sustainable Energy students must successfully complete Part One before being allowed to progress to Part Two.

Part-time Delivery mode

The part-time scheme is a version of the full-time equivalent MSc in Power Engineering and Sustainable Energy scheme, and as such it means lectures are spread right across each week and you may have lectures across every day. Due to this timetabling format, the College advises that the scheme is likely to suit individuals who are looking to combine this with other commitments (typically family/caring) and who are looking for a less than full-time study option.

Those candidates seeking to combine the part-time option with full-time work are unlikely to find the timetable suitable, unless their job is extremely flexible and local to the Bay Campus.

Modules

Modules on the MSc Power Engineering and Sustainable Energy course can vary each year but you could expect to study:

Advanced Power Electronics and Drives

Power Semiconductor Devices

Advanced Power Systems

Energy and Power Engineering Laboratory

Power Generation Systems

Modern Control Systems

Wide Band-Gap Electronics

Environmental Analysis and Legislation

Communication Skills for Research Engineers

Optimisation

Facilities

The new home of MSc in Power Engineering and Sustainable Energy is at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Engineering at Swansea University has extensive IT facilities and provides extensive software licenses and packages to support teaching. In addition the University provides open access IT resources.

Our new WOLFSON Foundation funded Power Electronics and Power System (PEPS) laboratory well-appointed with the state-of the-art equipment supports student research projects.

Careers

Employment in growing renewable energy sector, power electronic and semiconductor sector, electric/hybrid vehicle industry.

The MSc Power Engineering and Sustainable Energy is for graduates who may want to extend their technical knowledge and for professional applicants be provided with fast-track career development. This MSc addresses the skills shortage within the power electronics for renewable energy sector.

Links with industry

BT, Siemens, Plessey, GE Lighting, Schlumberger, Cogsys, Morganite, Newbridge Networks, Alstom, City Technology, BNR Europe, Philips, SWALEC, DERA, BTG, X-Fab, ZETEX Diodes, IQE, IBM, TSMC, IR, Toyota, Hitachi.

As a student on the MSc Power Engineering and Sustainable Energy course, you will learn about numerical simulation techniques and have the opportunity to visit electronics industries with links to Swansea.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

With recent academic appointments strengthening electronics research at the College, the Electronic Systems Design Centre (ESDC) has been re-launched to support these activities.

The Centre aims to represent all major electronics research within the College and to promote the Electrical and Electronics Engineering degree.

Best known for its research in ground-breaking Power IC technology, the key technology for more energy efficient electronics, the Centre is also a world leader in semiconductor device modelling, FEM and compact modelling.



Read less
Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Electronic and Electrical Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Electronic and Electrical Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

As a world-leader in the research areas of power semiconductor technology and devices, power electronics, nanotechnology and biometrics, and advanced numerical modelling of micro and nanoelectronic devices, Swansea University provides an excellent base for your research as a MSc by Research student in Electronic and Electrical Engineering.

Key Features of MSc by Research Electronic and Electrical Engineering

The Electronic Systems Design Centre (ESDC) is known for its ground-breaking research into Power IC technology, the key technology for more energy efficient electronics. The Centre is also a world-leader in semiconductor device modelling, FEM and compact modelling.

The MSc by Research Electronic and Electrical Engineering has a wide range of subject choice including areas such as:

- Parallel 3D Finite Element Monte Carlo Device Simulations Of Multigate Transistors

- Modelling of Metal-Semiconductor Contacts for the Next Generation of Nanoscale Transistors

- Novel GaN HEMT Switches for Power Management: Device Design, Optimization and Reliability Issues

MSc by Research in Electronic and Electrical Engineering typically lasts one year full-time, two to three years part-time. This is an individual research project written up in a thesis of 30,000 words.

Facilities

The new home of the Electronic and Electrical Engineering programme is at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Engineering at Swansea University has extensive IT facilities and provides extensive software licenses and packages to support teaching. In addition the University provides open access IT resources.

Students on the Electronic and Electrical Engineering research programme benefit from the Electronic Systems Design Centre (ESDC) facilities.

Links with industry

At Swansea University, Electronic and Electrical Engineering has an active interface with industry and many of our activities are sponsored by companies such as Agilent, Auto Glass, BT and Siemens.

Electronic and Electrical Engineering has a good track record of working with industry both at research level and in linking industry-related work to our postgraduate courses. We also have an industrial advisory board that ensures our taught courses maintain relevance.

Our research groups work with many major UK, Japanese, European and American multinational companies and numerous small and medium sized enterprises (SMEs) to pioneer research. This activity filters down and influences the project work that is undertaken by all our postgraduate students including those on the Electronic and Electrical Engineering.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

World-leading research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

Highlights of the Engineering results according to the General Engineering Unit of Assessment:

Research Environment at Swansea ranked 2nd in the UK

Research Impact ranked 10th in the UK

Research Power (3*/4* Equivalent staff) ranked 10th in the UK

With recent academic appointments strengthening electronics research at the College, the Electronic Systems Design Centre (ESDC) has been re-launched to support these activities.

The Centre aims to represent all major electronics research within the College and to promote the Electrical and Electronics Engineering degree.

Best known for its research in ground-breaking Power IC technology, the key technology for more energy efficient electronics, the Centre is also a world leader in semiconductor device modelling, FEM and compact modelling.



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The Masters in Electronics & Electrical Engineering & Management introduces you to contemporary business and management issues while increasing your depth of knowledge in your chosen speciality of electronics and electrical engineering. Read more

The Masters in Electronics & Electrical Engineering & Management introduces you to contemporary business and management issues while increasing your depth of knowledge in your chosen speciality of electronics and electrical engineering.

Why this programme

  • Electronics and Electrical Engineering at the University of Glasgow is consistently highly ranked recently achieving 1st in Scotland and 4th in the UK (Complete University Guide 2017). It was also ranked 1st in Scotland in the Guardian and Complete University Rankings 2018.
  • You will be taught jointly by staff from the School of Engineering and the Adam Smith Business School. You will benefit from their combined resources and expertise and from an industry-focused curriculum.
  • If you have an engineering background, but with little management experience and are wanting to develop your knowledge of management while also furthering your knowledge of electronics and electrical engineering, this programme is designed for you.
  • You will gain first-hand experience of managing an engineering project through the integrated system design module, allowing development of skills in project management, quality management and accountancy.
  • You will benefit from access to our outstanding laboratory facilities and interaction with staff at the forefront of research in electronics and electrical engineering.
  • This programme has a September and January intake.

Programme structure

There are two semesters of taught material and a summer session working on a project or dissertation. September entry students start with management courses and January entry students with engineering courses.

Semester 1

You will be based in the Adam Smith Business School, developing knowledge and skills of management principles and techniques. We offer an applied approach, with an emphasis on an informed critical evaluation of information, and the subsequent application of concepts and tools to the core areas of business and management.

Core courses

  • Contemporary issues in human resource management 
  • Managing creativity and innovation 
  • Managing innovative change 
  • Marketing management 
  • Operations management 
  • Project management.

Semester 2

You will study engineering courses, which aim to enhance your group working and project management capability at the same time as improving your depth of knowledge in chosen electronics and electrical engineering subjects.

Core course

  • Integrated systems design project

Optional courses (a choice of two)

  • Computer communications
  • Electrical energy systems
  • Micro- and nano-technology
  • Microwave and millimetre wave circuit design
  • Microwave electronic and optoelectronic devices
  • Optical communications
  • Real-time embedded programming.

Project or dissertation

You will undertake an individual project or dissertation work in the summer period (May - August). This will give you an opportunity to apply and consolidate your newly learned skills and show to future employers that you have been working on cutting edge projects relevant to the industry. Project and dissertation options are closely linked to staff research interests. September entry students have a choice of management dissertation topics in addition to electronics and electrical engineering projects, and January entry students have a choice of electronics and electrical engineering projects. 

Career prospects

Career opportunities include software development, chip design, embedded system design, telecommunications, video systems, automation and control, aerospace, development of PC peripherals and FPGA programming, defence, services for the heavy industries, for example electricity generation equipment and renewables plant, etc.

Graduates of this programme have gone on to positions such as:

Project Engineer at TOTAL

Schedule Officer at OSCO SDN BHD

Control and Automation Engineer at an oil and gas company.



Read less
Electrical Engineering is not an independent Master of Science programme, but it is an English track available in the Master of Science programme in Electrical Engineering. Read more

Important note

Electrical Engineering is not an independent Master of Science programme, but it is an English track available in the Master of Science programme in Electrical Engineering

Mission & Goals

Electrical Engineering is the branch of engineering that deals with the study and application of electricity, electronics and engineering electromagnetics, with particular focus on electric power systems, electrical machines and their control, electronic power converters, electrical transportation systems, electrical and electronic measurements, circuit theory and electromagnetic compatibility.
An electrical engineer has a wide background of knowledge that is necessary to address ever increasing challenges of the professional and research activities. These activities span not only in the traditional field of electricity generation, transmission and distribution, but also in the multi-faceted reality of industrial and home electrical appliances and systems, the electric systems in the transportation and health-care sectors, the electromagnetic compatibility, and the measurement and diagnosis techniques, just to mention some of the most relevant possible fields of activity.
A wide and in-depth knowledge of mathematics and physics is the essential background of graduates’ qualification in electrical engineering. Fundamental is also the background in computer science, automation and electronics applied to the different areas of electrical engineering.

The programme is entirely taught in English

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electrical-engineering/electrical-engineering-track/

Career Opportunities

There is a steady high demand for electrical engineers: in 2010, the Master of Science graduated of that year were 60, whilst the Politecnico di Milano’s Career Service received 546 requests for employment of electrical engineers. According to the Technical Report of the Evaluation Committee of Politecnico di Milano, 88% of the Master of Science graduated in Electrical Engineer in 2007, interviewed in December 2008, declared that they would have applied again to the same Electrical Engineering Programme and the 90% of the interviewed graduated declared to have a stable, full-time employment.

- Contacts
For further information about didactic aspects of the course and curricula, visit http://www.electre.polimi.it http://www.ingpin.polimi.it or contact didattica.etec(at)polimi.it.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Electrical_eng_smartgrid.pdf
This track of the Master of Science in Electrical Engineering provides tools to manage the new challenges of electricity systems involving increasing presence of Renewable Energy Sources (RES) and Dispersed Generation. Such a new generation paradigm drives the evolution of distribution networks towards Smart Grids. Mastering the evolution requires new professional skills, ranging from the use of information-communication technology as enabling key for enhancing traditional networks to a full knowledge of the regulation of power systems operated in liberalized energy markets. Graduates will be highly employable in the following sectors: planning and operation of distribution systems; manufacturing of RES power plants; energy market operators.
The programme is taught in English and supported by ENEL Distribuzione S.p.A

Subjects

Electric power systems; Project management: principles & tools; Electricity Market; TLC networks for electricity systems Sensors, measurements and smart metering; Electromagnetic compatibility; Electric switching apparatus (or other offered courses); Planning & operation of distribution grids with a high penetration of RES; Renewable energy sources and network interface; Regulation of electric power systems; Network automation and protection systems; tools for network simulation; Smart grids: components, functionalities & benefits

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electrical-engineering/electrical-engineering-track/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electrical-engineering/electrical-engineering-track/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

Read less
Are you interested in working in the electrical power engineering and renewable energy sectors? This course will give you a thorough understanding of power electronics, electric drive systems, smart grids, wind power, photovoltaic and other distributed generation systems. Read more
Are you interested in working in the electrical power engineering and renewable energy sectors? This course will give you a thorough understanding of power electronics, electric drive systems, smart grids, wind power, photovoltaic and other distributed generation systems.

The course, which enjoys very high student satisfaction rates, has been carefully designed to meet the needs of industry. It also meets the academic requirements of the Institution of Engineering and Technology (IET), by whom it is fully accredited.

Electrical power engineers need to be able to work in multidisciplinary teams and to show organisational and commercial skills alongside technical knowledge. The course therefore has a strong focus on project management, self-development and employability.

You’ll benefit from the University’s excellent facilities that include specialist electrical and electronics laboratory resources. Northumbria has a well-established reputation for producing graduates who can apply their knowledge to generate creative solutions for sustainable electrical power systems.

In the second year, for one semester, you’ll undertake an internship, study in another country or join a research group. This valuable experience will enhance your employability and further develop your theoretical and practical skills.

This course can also be started in January - for more information, please view this web-page: https://www.northumbria.ac.uk/study-at-northumbria/courses/electrical-power-engineering-msc-ft-dtfepz6/

Learn From The Best

Our teaching team includes experts from the Northumbria Photovoltaics Application Centre (NPAC) and Power and Wind Energy Research (PaWER) group. Their experience, combined with their on-going active research, will provide an excellent foundation for your learning.

The quality of their research has put Northumbria University among the UK’s top 25% of universities for the percentage of research outputs in engineering that are ranked as world-leading or internationally excellent (Research Excellence Framework 2014).

Our reputation for quality is reflected by the range and depth of our collaborations with industry partners. Our industrial links help inform our curriculums and ensure a variety of site visits and input from practitioners via guest lectures.

Teaching And Assessment

Our teaching methods include lectures, seminars, laboratory sessions, computer workshops, individual tutorials, and group projects. As this is a master’s course there is a significant element of independent learning and self-motivated reflection.

You’ll undertake a practical or theoretical master’s dissertation that will hone your skills in evaluating and applying research techniques and methodologies.

Assessments are designed to give feedback as well as to monitor your level of achievement. The assessed projects will enable you to test your skills in ways that relate to current industrial practice. Specific assessment methods include assignments, exams, technical reports and presentations.

The Advanced Practice semester will be assessed via a report and presentation about your internship, study abroad or research group activities.

Learning Environment

Northumbria University provides outstanding facilities for electrical power engineering. Our laboratories have equipment that includes oscilloscopes, signal generators and Labview software as well as National Instruments Educational Laboratory Virtual Instrumentation Suite (NI ELVIS) to measure and control signal voltages.

Our New and Renewable Energy Laboratory is an excellent resource for research into power networks, wind energy, photovoltaics and battery testing for electric vehicles. All our facilities are backed up by a team of technicians who will give support and advice when you need it.

Technology Enhanced Learning (TEL) is embedded throughout the course with tools such as the ‘Blackboard’ eLearning Portal and electronic reading lists that will guide your preparation for seminars and independent research. Our use of lecture capture software will help you revise challenging material.

To facilitate group projects there is a working space called The Hub that’s well equipped for meetings and working with IT. The Zone is another area that’s popular with students undertaking group work or individual study.

Research-Rich Learning

Northumbria’s strong research ethos is an essential aspect of how you will develop as a critical, reflective and independent thinker. With our problem-solving approach you’ll acquire a wide range of research and analytical skills as you progress through the course. These skills will come together in the practical/theoretical dissertation that you’ll undertake, which will require independent research and appropriate techniques of inquiry, critical evaluation and synthesis.

Throughout the course your learning will be directly impacted by the teaching team’s active research. Our specialist interests include electrical and electronic engineering, mobile communication, microelectronic, renewable and sustainable energy technologies, and advanced materials.

Give Your Career An Edge

The course will equip you with the knowledge and skills you’ll need to work in the electrical power engineering and renewable energy sectors. At the same time you’ll develop transferable key skills and personal attributes that promote employability and lifelong learning.

The group projects will provide experience of working with others while also raising your awareness of commercial considerations and how industry operates. One project involves the development of an innovative product that must satisfy pre-determined criteria including a realistic business model.

Your dissertation can be linked to the University’s on-going research, giving you experience of being incorporated into a pre-existing working team and environment. Alternatively you can undertake a practice-based dissertation that’s linked to a project that you’ve chosen for its relevance to your interests, self-development and career prospects.

The Advanced Practice semester will help you develop a track record of achievement that will help you stand out from other job applicants.

A two-year master’s course, like this one, will carry particular weight with employers. They’ll understand that you’ll have a deeper understanding of topics as well as more hands-on practical experience.

When it comes to applying for jobs our Careers and Employment Service offers resources and support that will help you find roles matching your interests and skills. You will be able to access a range of workshops, one-to-one advice, and networking opportunities.

Your Future

By the end of this course you’ll be in an excellent position to start or continue a career in electrical power engineering and/or the renewable energy industry. Roles could include designing, developing and maintaining electrical control systems and components.

You could also undertake a postgraduate research degree such as an MPhil, PhD and Professional Doctorate. If you decide to start up your own business, it’s good to know that the combined turnover of our graduates’ start-up companies is higher than that of any other UK university.

Whatever you decide to do, you will have the transferable skills that employers expect from a master’s graduate from Northumbria University. These include the ability to tackle complex issues through conceptualisation and undertaking research, the ability to contribute to new processes and knowledge, and the ability to formulate balanced judgements when considering incomplete or ambiguous data.

Read less
This Masters in Electronics & Electrical Engineering is designed for both new graduates and more established engineers. It covers a broad spectrum of specialist topics with immediate application to industrial problems, from electrical supply through systems control to high-speed electronics. Read more

This Masters in Electronics & Electrical Engineering is designed for both new graduates and more established engineers. It covers a broad spectrum of specialist topics with immediate application to industrial problems, from electrical supply through systems control to high-speed electronics.

Why this programme

  • Electronics and Electrical Engineering at the University of Glasgow is consistently highly ranked recently achieving 1st in Scotland and 4th in the UK (Complete University Guide 2017). It was also ranked 1st in Scotland in the Guardian and Complete University Rankings 2018.
  • If you are an electronics and electrical engineering graduate wanting to improve your skills and knowledge; a graduate of another engineering discipline or physical science and you want to change field; looking for a well rounded postgraduate qualification in electronics and electrical engineering to enhance your career prospects, this programme is designed for you.
  • The MSc in Electronics and Electrical Engineering includes lectures on "Nanofabrication", "Micro- and Nanotechnology", "Optical Communications" and "Microwave and Millimetre Wave Circuit Design", "Analogue CMOS circuit design", VLSI Design and CAD", all research areas undertaken in the James Watt Nanofabrication Centre.
  • This programme has a September and January intake*.

         *For suitably qualified candidates.

Programme structure

Modes of delivery of the MSc in Electronics and Electrical Engineering include lectures, seminars and tutorials and allow students the opportunity to take part in lab, project and team work. 

You will undertake a project where you will apply your newly learned skills and show to future employers that you have been working on cutting-edge projects relevant to the industry.

Courses include (six normally chosen)

  • Bioelectronics
  • Computer communications
  • Control
  • Digital signal processing
  • Electrical energy systems
  • Energy conversion systems 
  • Micro- and nano-technology
  • Microwave electronic and optoelectronic devices
  • Microwave and millimetre wave circuit design
  • Optical communications
  • Power electronics and drives
  • Real-time embedded programming
  • VLSI design
  • MSc project.

Career prospects

Career opportunities include chip design, embedded system design, telecommunications, video systems, automation and control, aerospace, software development, development of PC peripherals and FPGA programming, defence, services for the heavy industries, for example electricity generation equipment and renewables plant, etc.



Read less
Are you interested in working in the electrical power engineering and renewable energy sectors? This course will give you a thorough understanding of power electronics, electric drive systems, smart grids, wind power, photovoltaic and other distributed generation systems. Read more
Are you interested in working in the electrical power engineering and renewable energy sectors? This course will give you a thorough understanding of power electronics, electric drive systems, smart grids, wind power, photovoltaic and other distributed generation systems.

The course, which enjoys very high student satisfaction rates, has been carefully designed to meet the needs of industry. It also meets the academic requirements of the Institution of Engineering and Technology (IET), by whom it is fully accredited.

Electrical power engineers need to be able to work in multidisciplinary teams and to show organisational and commercial skills alongside technical knowledge. The course therefore has a strong focus on project management, self-development and employability.

You’ll benefit from the University’s excellent facilities that include specialist electrical and electronics laboratory resources. Northumbria has a well-established reputation for producing graduates who can apply their knowledge to generate creative solutions for sustainable electrical power systems.

In the second year, for one semester, you’ll undertake an internship, study in another country or join a research group. This valuable experience will enhance your employability and further develop your theoretical and practical skills.

Learn From The Best

Our teaching team includes experts from the Northumbria Photovoltaics Application Centre (NPAC) and Power and Wind Energy Research (PaWER) group. Their experience, combined with their on-going active research, will provide an excellent foundation for your learning

The quality of their research has put Northumbria University among the UK’s top 25% of universities for the percentage of research outputs in engineering that are ranked as world-leading or internationally excellent (Research Excellence Framework 2014).

Our reputation for quality is reflected by the range and depth of our collaborations with industry partners. Our industrial links help inform our curriculums and ensure a variety of site visits and input from practitioners via guest lectures.

Teaching And Assessment

Our teaching methods include lectures, seminars, laboratory sessions, computer workshops, individual tutorials, and group projects. As this is a master’s course there is a significant element of independent learning and self-motivated reflection.

You’ll undertake a practical or theoretical master’s dissertation that will hone your skills in evaluating and applying research techniques and methodologies.

Assessments are designed to give feedback as well as to monitor your level of achievement. The assessed projects will enable you to test your skills in ways that relate to current industrial practice. Specific assessment methods include assignments, exams, technical reports and presentations.

The Advanced Practice semester will be assessed via a report and presentation about your internship, study abroad or research group activities.

Learning Environment

Northumbria University provides outstanding facilities for electrical power engineering. Our laboratories have equipment that includes oscilloscopes, signal generators and Labview software as well as National Instruments Educational Laboratory Virtual Instrumentation Suite (NI ELVIS) to measure and control signal voltages.

Our New and Renewable Energy Laboratory is an excellent resource for research into power networks, wind energy, photovoltaics and battery testing for electric vehicles. All our facilities are backed up by a team of technicians who will give support and advice when you need it.

Technology Enhanced Learning (TEL) is embedded throughout the course with tools such as the ‘Blackboard’ eLearning Portal and electronic reading lists that will guide your preparation for seminars and independent research. Our use of lecture capture software will help you revise challenging material.

To facilitate group projects there is a working space called The Hub that’s well equipped for meetings and working with IT. The Zone is another area that’s popular with students undertaking group work or individual study.

Research-Rich Learning

Northumbria’s strong research ethos is an essential aspect of how you will develop as a critical, reflective and independent thinker. With our problem-solving approach you’ll acquire a wide range of research and analytical skills as you progress through the course. These skills will come together in the practical/theoretical dissertation that you’ll undertake, which will require independent research and appropriate techniques of inquiry, critical evaluation and synthesis.

Throughout the course your learning will be directly impacted by the teaching team’s active research. Our specialist interests include electrical and electronic engineering, mobile communication, microelectronic, renewable and sustainable energy technologies, and advanced materials.

Give Your Career An Edge

The course will equip you with the knowledge and skills you’ll need to work in the electrical power engineering and renewable energy sectors. At the same time you’ll develop transferable key skills and personal attributes that promote employability and lifelong learning.

The group projects will provide experience of working with others while also raising your awareness of commercial considerations and how industry operates. One project involves the development of an innovative product that must satisfy pre-determined criteria including a realistic business model.

Your dissertation can be linked to the University’s on-going research, giving you experience of being incorporated into a pre-existing working team and environment. Alternatively you can undertake a practice-based dissertation that’s linked to a project that you’ve chosen for its relevance to your interests, self-development and career prospects.

The Advanced Practice semester will help you develop a track record of achievement that will help you stand out from other job applicants.

A two-year master’s course, like this one, will carry particular weight with employers. They’ll understand that you’ll have a deeper understanding of topics as well as more hands-on practical experience.

When it comes to applying for jobs our Careers and Employment Service offers resources and support that will help you find roles matching your interests and skills. You will be able to access a range of workshops, one-to-one advice, and networking opportunities.

Your Future

By the end of this course you’ll be in an excellent position to start or continue a career in electrical power engineering and/or the renewable energy industry. Roles could include designing, developing and maintaining electrical control systems and components.

You could also undertake a postgraduate research degree such as an MPhil, PhD and Professional Doctorate. If you decide to start up your own business, it’s good to know that the combined turnover of our graduates’ start-up companies is higher than that of any other UK university.

Whatever you decide to do, you will have the transferable skills that employers expect from a master’s graduate from Northumbria University. These include the ability to tackle complex issues through conceptualisation and undertaking research, the ability to contribute to new processes and knowledge, and the ability to formulate balanced judgements when considering incomplete or ambiguous data.

Read less
The progress made in telecommunications and information technology allows you to benefit from greater access to entertainment, health, and commerce. Read more
The progress made in telecommunications and information technology allows you to benefit from greater access to entertainment, health, and commerce. A range of multimedia services underpins the growth in these areas. This programme focuses on practical and theoretical aspects of electronics and provides a solid foundation for engineering a wide range of electrical systems, such as embedded microcontrollers, renewable energy, power converters and high frequency communications.

Key features

-Gain hands-on experience in signal processing and embedded systems programming.
-Benefit from the industrial collaboration with British Telecommunications plc (BT) and Bombardier Transportation. Strong collaboration with BT's Goonhilly Satellite Earth Station and other companies such as Orange (France Telecom).
-Progress in a school that has gained national and international recognition for its research in satellite communications, data storage, and digital signal processing (Research Assessment Exercise RAE 2008).
-Develop research skills in leading edge technology. and advance with the support of our Centre for Security, Communications and Network Research.
-Develop your knowledge in our Digital Signal Processing [DSP] laboratory, a new networks laboratory funded in part by CISCO, a separate postgraduate study room with full internet and specialist software, and a dedicated communications laboratory.
-Explore the option of completing the programme over two years with an integral work placement year.
-Draw on the expertise of our lecturers who are nationally and internationally recognised leading researchers. Professor Martin Tomlinson is internationally recognised for the invention of the Tomlinson-Harashima precoder – a key component of any telecommunications modem.
-Benefit from Institution of Engineering and Technology (IET) accreditation. The MSc is a significant step towards the status of Chartered Engineer (CEng) which is highly sought after in industry.
-You are eligible to apply for an IET postgraduate scholarship. Amounts can vary between £2,500 and £10,000, tenable for one year, which are intended to reward excellence rather than alleviate financial hardship. For more information on the different scholarships available, details on how to apply and confirmed closing dates for applications, please visit the IET Awards and Scholarships.
-Stand out from the crowd by completing an integrated placement as part of your masters degree.

Course details

The MSc Electrical and Electronic Engineering will appeal to you if you are a design engineer. The programme provides an in-depth knowledge of specialist areas in electrical and electronic engineering underpinned by the theory and practice of modern electronics and renewable energy systems, together with the associated signal processing and embedded programming techniques. The modules have been selected to give you an even balance of essential modern areas of electrical and electronic engineering. The communications content will give you a broad grounding in communication theory and systems while the signal processing content is generally biased toward applications in communications engineering. From our experience of intensive courses, and our work with partner companies, this programme meets the current needs of electrical and electronics industry. The programme is taught in autumn and spring blocks and includes a project.

Core modules
-ROCO503 Sensors and Actuators
-BPIE500 Masters Stage 1 Placement Preparation
-PROJ509 MSc Project
-ELEC512 Nanotechnology and Nanoelectronics
-ELEC518 Digital and Wireless Communications
-SOFT561 Robot Software Engineering
-ELEC517 Integrated Power Systems
-ELEC516 Advanced Signal Processing

Optional placement year
-BPIE502 Electrical/Robotics Masters Industrial Placement

Every postgraduate taught course has a detailed programme specification document describing the programme aims, the programme structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

Read less
This MSc course in Advanced Electronic and Electrical Engineering is specifically designed for students who wish to pursue a broad programme of advanced studies, whilst also offering a wide range of specialist modules which open a variety of career pathways on graduation. Read more

About the course

This MSc course in Advanced Electronic and Electrical Engineering is specifically designed for students who wish to pursue a broad programme of advanced studies, whilst also offering a wide range of specialist modules which open a variety of career pathways on graduation. The distinctive feature of the MSc is its flexible structure – you are able to customise the content of your programme to meet your academic interests and career aspirations. Core modules are used to ensure there is depth and breadth in key areas of electronic and electrical engineering – notably sensors and instrumentation, control, photonics, sustainable power systems, telecommunications, intelligent systems, medical systems, integrated circuits and embedded systems.

Aims

Having an advanced, broad level of engineering knowledge and skills is a prerequisite for improving your career options in a demanding and dynamic sector. The course allows graduates with an electronic and electrical engineering background to further develop their skills as well as allowing able students from other numerate degree backgrounds to build up strong expertise in this area to complement their original undergraduate studies.
On the MSC programme you will:
Gain the in-depth knowledge you need to resolve new, complex and unusual challenges across a range of electrical and electronics issues.
Develop imagination, initiative and creativity to allow you to problem solve effectively.
Become work ready for a career with leading engineering organisations.

Women in Engineering Scholarships

Both the Government and Brunel University are keen to promote women taking up degrees in Engineering, and we are offering exciting scholarships linked to a bespoke mentoring programme to eligible Home / EU applicants. Please read more about these Women in Engineering Scholarships. http://www.brunel.ac.uk/study/postgraduate-fees-and-funding/funding

Course Content

Core Modules

Project Management
Advanced Analogue Electronics & Photonics
Applied Sensors, Instrumentation and Control
AEEE Group Project
Power Electronics and FACTS

Optional Modules

Choose three modules with at least one from:
Analogue Integrated Circuit Design
Embedded Systems Engineering
DSP for Communications
Intelligent Systems
Project/Dissertation

Special Features

The Electronic and Computer Engineering discipline is one of the largest in the University, with a portfolio of research contracts totalling £7.5 million, and has strong links with industry.
We have a wide range of research groups, each with a complement of academics and research staff and students. The groups are:
Media Communications
Wireless Networks and Communications
Brunel Institute for Power Systems
Electronic Systems
Sensors and Instrumentation
Our laboratories are well equipped with an excellent range of facilities to support the research work and courses. We have comprehensive computing resources in addition to those offered centrally by the University. The discipline is particularly fortunate in having extensive gifts of software and hardware to enable it to undertake far-reaching design projects.
This course is accredited by the Institution of Engineering and Technology (IET).

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Teaching and Assessment

Teaching

This course in Advanced Electronic and Electrical Engineering blends lectures, tutorials, laboratories, individual and group projects with presentations and a major research based dissertation project.
External lectures and research seminars will be used to enhance the student experience and highlight the application of the technologies in industry.

Assessment

You will be assessed on your written assignments, presentations, examinations and a major dissertation project.
The course comprises a blend of lectures, tutorials, laboratories, individual and group projects, presentations and a major research-based dissertation project, with external lectures and research seminars used to enhance your experience and highlight the application of the technologies in industry.

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This course delivers a broad coverage of all major disciplines in Electrical Power, including power electronics, electric drives, electrical machine design and power systems. Read more
This course delivers a broad coverage of all major disciplines in Electrical Power, including power electronics, electric drives, electrical machine design and power systems. It also covers important electrical power themes such as renewable energy systems and electric vehicles.

The Electrical Power MSc covers the following key subject areas:
-Electrical Machines
-Power Electronics
-Electric Drives
-Power System Operation
-Control of Electrical Power

A feature of the course is design of electrical systems for transportation and renewable energy applications. This is a particular specialisation of researchers in the School of Electrical and Electronic Engineering.

You will develop a knowledge of industry standard computer aided design and analysis techniques appropriate to electrical power such as the use of software packages such as MagNet, MATLAB, Simulink, PSpice and ERACS.

Throughout the course you use industry standard test and measurement equipment, experimental hardware, and software packages relevant to the field of electrical and power engineering.

The course comprises a mixture of lectures, tutorials, coursework and practical laboratory classes. You will research a specialist topic of your choice through an in-depth project. Innovative educational techniques are designed to equip you with practical design skills and research methodologies.

As a graduate of this course you are equipped with the knowledge and practical experience to embark on a career as an engineer in the field of Electrical Power. You will also have skills in research and knowledge acquisition and a solid foundation for further postgraduate studies in the field of electrical engineering and power engineering.

Delivery

You take modules to a total value of 180 credits over three semesters. Taught modules, worth 120 credits, take place during the first and second semesters with exams held in January and May/June. An individual project, worth 60 credits, is undertaken over semesters two and three.

Background reading and design work take place during the second semester. The majority of experimental work and preparation of your dissertation takes place during the semester three.

Teaching takes place in lecture theatres equipped with audio visual equipment. Blackboard, a web based Virtual Learning Environment (VLE) supports your taught modules. Practical sessions are in small groups with experts in the field of Power Electronics, Electric Drives, Machines, and Power Systems and in modern laboratory and computing facilities.

Employability

We collect information from our graduates six months after they leave University. This is part of the Destination of Leavers from Higher Education (DLHE) survey that every UK higher education institution takes part in.

Accreditation

The course is accredited by the Institution of Engineering and Technology (IET) and Engineering Council, and therefore provides a good foundation for professional registration.

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