• University of Edinburgh Featured Masters Courses
  • Ross University School of Veterinary Medicine Featured Masters Courses
  • University of Edinburgh Featured Masters Courses
  • Swansea University Featured Masters Courses
  • Anglia Ruskin University Featured Masters Courses
  • Jacobs University Bremen gGmbH Featured Masters Courses
  • University of Southampton Featured Masters Courses
  • Goldsmiths, University of London Featured Masters Courses
Middlesex University Featured Masters Courses
FindA University Ltd Featured Masters Courses
Vlerick Business School Featured Masters Courses
FindA University Ltd Featured Masters Courses
Bath Spa University Featured Masters Courses
0 miles
Engineering×

Masters Degrees in Electrical Engineering

We have 206 Masters Degrees in Electrical Engineering

Masters degrees in Electrical Engineering equip postgraduates with the skills to apply engineering principles to the study, design, production and development of electrical systems.

Courses range from taught MSc degrees, to research-based MRes and MPhil programmes. Entry requirements normally include an undergraduate degree in an appropriate Engineering subject.

Why study a Masters in Electrical Engineering?

Read more...

  • Engineering×
  • Electrical Engineering×
  • clear all
Showing 1 to 15 of 206
Order by 
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 October 09, 2017. 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.

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 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.



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_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/

Read less
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

◾Electronic 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).
◾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.
◾With a 92% overall student satisfaction in the National Student Survey 2015, Electronic and Electrical Engineering at the School of Engineering combines both teaching excellence and a supportive learning environment.
◾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 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.

Projects

◾To complete the MSc degree you must undertake a project worth 60 credits. This is an integral part of the MSc programme and many have a technical or business focus.
◾The project will integrate subject knowledge and skills that you acquire during the MSc programme.
◾The project is an important part of your MSc where you can apply your newly learned skills and show to future employers that you have been working on cutting edge projects relevant to the industry.
◾You can choose a topic from a list of MSc projects in Electronic and Electrical Engineering or the Management portion of your degree.
◾Alternatively, should you have your own idea for a project, department members are always open to discussion of topics.
◾Students who start in January must choose an engineering focussed project.

Example projects

Examples of projects can be found online

*Posters shown are for illustrative purposes

Industry links and employability

◾The programme makes use of the combined resources and complementary expertise of the electronic and electrical engineering and business school staff to deliver a curriculum which is relevant to the needs of industry.
◾If you are looking to advance to a senior position in industry and to perform well at this level, knowledge and understanding of management principles will give you a competitive edge in the jobs market.
◾You, as a graduate of this programme, will be capable of applying the extremely important aspect of management to engineering projects allowing you to gain an advantage in today’s competitive job market and advance to the most senior positions within an engineering organisation.
◾The School of Engineering has extensive contacts with industrial partners who contribute to several of their taught courses, through active teaching, curriculum development, and panel discussion. Recent contributions in Electronic and Electrical Engineering include Freescale.
◾During the programme students have an opportunity to develop and practice relevant professional and transferrable skills, and to meet and learn from employers about working in the electronic and electrical engineering industry.

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
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.



Read less
Programme description. This one-year programme is designed to equip graduates and professionals with a broad and robust training on modern power engineering technologies, with a strong focus on renewable energy conversion and smart grids. Read more

Programme description

This one-year programme is designed to equip graduates and professionals with a broad and robust training on modern power engineering technologies, with a strong focus on renewable energy conversion and smart grids. It is suitable for recent graduates who wish to develop the specialist knowledge and skills relevant to this industry and is also suitable as advanced study in preparation for research work in an academic or industrial environment.

In semesters 1 and 2, the programmes comprises a mixture of taught courses, workshops and a group design project, led by leading experts in the field, covering the key topics in power systems, electrical machines and power electronics. The final part of the programme is an individual dissertation, which provides a good opportunity for students to apply their acquired skills to real problems in electrical power engineering.

This one year programme at the University of Edinburgh will immerse the students in the most current developments in the area of Electrical Power Engineering, through a combination of taught modules, workshops, a research dissertation, and a range of supporting activities delivered by internationally leading experts in the field. The programme develops through the year from advanced fundamental topics and research tools and techniques in electrical power engineering, to specialist courses on emerging technologies and advanced numerical methods for power engineering problems, and culminates in the summer dissertation project where the acquired skills in various areas are put into practice in application to an actual power engineering problem.

Topics covered within the individual courses of the programme, include (but are not limited to):

  • Fundamental and emerging power engineering technologies
  • Advanced numerical methods in application to electrical power engineering problems
  • Modern power conversion components & systems
  • Integration of renewable energy in the power system
  • Distributed energy resources
  • Electrical engineering aspects of energy storage
  • Power, telecommunications & control aspects of smart grids
  • Research and innovation management techniques.

In addition, our MSc students actively engage in research as part of their dissertation projects either within the Institute for Energy Systems or with industry, with some joining our PhD community afterwards.

Programme structure

This programme is delivered over 12 months, with two semesters of taught courses, followed by a research project leading to the submission of a Master’s Thesis.

Semester 1

  • Power Electronics, Machines & Systems
  • Power Engineering Research Techniques
  • Energy & Environmental Economics
  • Technologies for Sustainable Energy

Semester 2

  • Power Conversion and Control
  • Power Systems Engineering & Economics
  • Distributed Energy Resources and Smart Grids

Research Project

  • Electrical Power Engineering Dissertation

The above courses correspond to 120 credits of taught material, plus 60 credits of a research project.

Learning outcomes

The main objective of the programme is to train the next generation of electrical power engineers who:

  • are aware of the most recent, cutting edge developments in power engineering;
  • have skills and training needed in both industrial and academic settings;
  • are able to tackle the global energy trilemma of supplying secure, equitable and environmentally sustainable energy, while appreciating the technical, social and economic challenges faced in both developed and developing countries.

Career opportunities

Governments worldwide are putting in place plans to decarbonise and modernise their electricity sector. A transition to a green economy will require a highly skilled workforce led by electrical power engineers with a solid academic background, an appreciation of the trajectory of the industry and an understanding of the challenges and implications brought about by the introduction of new power technologies.

According to the Institution for Engineering & Technology (IET): “The business of managing and distributing power in the UK is beginning to undergo revolutionary changes and [power] engineers are the people who will play a pivotal role in keeping the lights on”. This also holds true in many other developed and developing countries in the world.

Power engineers are employed in public/governmental organisations as well as in the private sector and cover areas spanning from generation, to conversion and transmission of electrical power, design and manufacturing of power components and systems, and energy policy and commerce. In the UK, experienced, chartered power engineers can earn around £45,000 a year on average*.

The programme will run in a close association with other activities within the broader Electrical Engineering programme within the School, including networking events, industrial presentations and seminars. It will benefit from the current strong connections with industry (coordinated by the Student Industry Liaison Manager, and existing research associations and consortia (such as the EPSRC Centre for Energy Systems Integration).



Read less
The Electrical and Electronic Engineering masters explores the latest in manufacturing and systems engineering at an advanced level. Read more
The Electrical and Electronic Engineering masters explores the latest in manufacturing and systems engineering at an advanced level. You can choose to specialise in communications or mechatronics.

Take the Digital Systems and Telecommunications specialist route and create products and systems using electronics and communication technologies.

Choose the Mechatronics route and study the electronic control of mechanical and intelligent robotic systems.

From either discipline, graduates go on to a wide range of careers in digital communications, robotics, engineering and energy sectors.

With the Electrical and Electronic Engineering masters you will:
-Work with the latest technology and design.
-Graduate with a specialist degree that gives you opportunities for advanced engineering roles.
-Enjoy an international experience with the option of student exchange.
-Further develop your skills through placements and industry-led case studies.
-Qualify with an internationally-recognised degree accredited by the Institution of Engineering and Technology (IET).

This course has several different available start dates and study options - for more information, see the relevant web-page:
SEPTEMBER 2017 (Part Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02535-1PTA-1718/Electrical_and_Electronic_Engineering_(Part-time)?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

JANUARY 2018 (Full Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02519-1FTAB-1718/Electrical_and_Electronic_Engineering?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

JANUARY 2018 (Part Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02535-1PTAB-1718/Electrical_and_Electronic_Engineering_(Part-time)?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

Programme Description

Accredited by the Energy Institute, this Masters programme aims to enable graduates to qualify for entry into the profession of electrical and electronic engineering with a bias towards energy engineering and renewable technologies.

In addition to the knowledge and understanding of electrical and electronic engineering there will be an integrated understanding of power systems, instrumentation systems, telecommunications systems and technologies, and business, reinforced with personal and inter-personal skills.

The programme prepares students for the next stage in their careers, whether entering employment or to enable those undertaking the programme to contribute towards research in the discipline. It also provides continuing professional development opportunities related to the electrical and electronic engineering professions and sectors.

Industries where graduates are likely to find employment opportunities include electrical power generation and distribution, renewable energy engineering, telecommunications engineering, transport engineering and electronic engineering.

Career Opportunities

The programme will provide an excellent opportunity for students wishing to pursue a professionally qualified career in the electrical power industry, the renewable energy sector, the offshore industry and in industrial power electronics design.

Assessment

Students will be assessed via a combination of examinations, coursework, presentations,case study analysis, reports and the final dissertation.

Accreditation

MSc Electrical and Electronic Engineering is accredited by the Institution of Engineering and Technology (IET) and its students meet the UK Engineering Council’s further learning requirements for registration as a Chartered Engineer.

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

◾Electronic 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).
◾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.
◾With a 92% overall student satisfaction in the National Student Survey 2015, Electronic and Electrical Engineering at the School of Engineering combines both teaching excellence and a supportive learning environment.
◾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.

Projects

◾To complete the MSc degree you must undertake a project worth 60 credits.
◾The project will integrate subject knowledge and skills that you acquire during the MSc programme.
◾The project is an important part of your MSc where you can apply your newly learned skills and show to future employers that you have been working on cutting edge projects relevant to the industry.
◾You can choose a topic from a list of MSc projects in Electronics and Electrical Engineering. Alternatively, should you have your own idea for a project, department members are always open to discussion of topics.

Example projects

Examples of projects can be found online

*Posters shown are for illustrative purposes

Industry links and employability

◾This programme is aimed at training new graduates as well as more established engineers , covering a broad spectrum of specialist topics with immediate application to industrial problems.
◾The School of Engineering has extensive contacts with industrial partners who contribute to several of their taught courses, through active teaching, curriculum development, and panel discussion. Recent contributions in Electronics and Electrical Engineering include: Freescale.
◾During the programme students have an opportunity to develop and practice relevant professional and transferrable skills, and to meet and learn from employers about working in the electronic and electrical engineering industry.

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
EIT is pleased to bring you the Master of Engineering (Electrical Systems)** program. IN THIS ACCREDITED AND PRESTIGIOUS PROGRAM YOU WILL GAIN. Read more
EIT is pleased to bring you the Master of Engineering (Electrical Systems)** program.

IN THIS ACCREDITED AND PRESTIGIOUS PROGRAM YOU WILL GAIN:
- Skills and know-how in the latest and developing technologies in electrical systems
- Practical guidance and feedback from experts from around the world
- Live knowledge from the extensive experience of expert instructors, rather than from just theoretical information gained from books and college
- Credibility and respect as the local electrical systems expert in your firm
- Global networking contacts in the industry
- Improved career choices and income
- A valuable and accredited Master of Engineering (Electrical Systems)** qualification

The next intake will start on the week of June 27, 2016.

Contact us to find out more and apply (http://www.eit.edu.au/course-enquiry).

** A note regarding recognition of this program in the Australian education system: EIT is the owner of this program. The qualification is officially accredited by the Tertiary Education Quality and Standards Agency (TEQSA). EIT delivers this program to students worldwide.

Visit the website http://www.eit.edu.au/master-engineering-electrical-systems

PROFESSIONAL RECOGNITION

This Master Degree (or Graduate Diploma) is officially accredited by the Tertiary Education Quality and Standards Agency (TEQSA) in Australia.

It is a professional development program and is not currently an entry-to-practice qualification. Engineers Australia are considering this and other programs for those students desiring professional status (e.g. CPEng). However, the outcome of this review may or may not result in a student gaining chartered professional status if he or she does not already possess this.

Additional Entry Requirements

An appropriate level of English Language Proficiency equivalent to an English pass level in an Australian Senior Certificate of Education, or an IELTS score of 6.5 (with no individual band less than 6.0) or equivalent as outlined in the EIT Admissions Policy.

Congruent field of practice means one of the following with adequate electrical engineering content (with fields not listed below to be considered by the Dean and the Admissions committee on a case-by-case basis):

• Electrical Engineering

• Electronic and Communication Systems

• Industrial Engineering

• Instrumentation, Control and Automation

• Mechatronic Systems

• Manufacturing and Management Systems

• Industrial Automation

• Production Engineering

Overview

Electrical power is an essential infrastructure of our society. Adequate and uninterrupted supply of electrical power of the required quality is essential for industries, commercial establishments and residences; and almost any type of human activity is impossible without the use of electricity. The ever-increasing cost of fuels required for power generation, restricted availability in many parts of the world, demand for electricity fueled by industrial growth and shortage of skilled engineers to design, operate and maintain power network components are problems felt everywhere today. The Master of Engineering (Electrical Systems) is designed to address the last-mentioned constraint, especially in today’s context where the field of electrical power is not perceived as being ‘cool’ unlike computers and communications and other similar nascent fields experiencing explosive growth. But it is often forgotten that even a highly complex and sophisticated data centre needs huge amounts of power of extremely high reliability, without which it is just so much silicon (and copper).

This program presents the topics at two levels. The first year addresses the design level where the student learns how to design the components of a power system such as generation, transmission and distribution as well as the other systems contributing to the safety of operation. The topics in the first year also cover the automation and control components that contribute to the high level of reliability expected from today’s power systems. Because of the constraints imposed by the fuel for power generation and the environmental degradation that accompanies power generation by fossil fuels, the attention today is focused on renewable energy sources and also more importantly how to make the generation of power more efficient and less polluting so that you get a double benefit of lower fuel usage and lower environmental impact. Even the best designed systems need to be put together efficiently. Setting up power generation and transmission facilities involves appreciable capital input and complex techniques for planning, installation and commissioning. Keeping this in view, a unit covering project management is included in the first year.

The second year of the program focuses on the highly complex theory of power systems. If the power system has to perform with a high degree of reliability and tide over various disturbances that invariably occur due to abnormal events in the power system, it is necessary to use simulation techniques that can accurately model a power system and predict its behavior under various possible disturbance conditions. These aspects are covered in the course units dealing with power system analysis and stability studies for steady-state, dynamic and transient conditions. The aspect of power quality and harmonic flow studies is also included as a separate unit.

The study of power systems has an extensive scope and besides the topics listed above, a student may also like to cover some other related topic of special interest. The ‘Special Topics in Electrical Power Systems’ unit aims to provide students with the opportunity for adding one ‘state-of-the art’ topic from a list of suggested fields. Examples are: Smart grids, Micro-grids and Geographic Information System (GIS) application in utility environment.

The Masters Thesis which spans over two complete semesters is the capstone of the program, requiring a high level of personal autonomy and accountability, and reinforces the knowledge and skill base developed in the preceding units. As a significant research component of the course, this program component will facilitate research, critical evaluation and the application of knowledge and skills with creativity and initiative, enabling the students to critique current professional practice in the electrical power industry.

WHO WOULD BENEFIT

Those seeking to achieve advanced know-how and expertise in industrial automation, including but not limited to:

- Electric Utility engineers

- Electrical Engineers and Electricians

- Maintenance Engineers and Supervisors

- Energy Management Consultants

- Automation and Process Engineers

- Design Engineers

- Project Managers

- Consulting Engineers

- Production Managers

Read less
Our Masters in Electrical and Electronic Engineering is an advanced course designed for engineering graduates to enhance their skills in this area of high technology. Read more
Our Masters in Electrical and Electronic Engineering is an advanced course designed for engineering graduates to enhance their skills in this area of high technology. The ever increasing pace of developments in all areas of electrical and electronic engineering, (and in particular in the systems that are related to energy and the environment), requires engineers with a thorough understanding of operation principles and design methods for various modern electrical and electronic systems. As a graduate you'll be able to not only respond to the latest changes but also to look ahead and help in shaping future developments.

The unique features of this course are that the traditional electrical and electronic engineering subjects are supported by the more modern topics of computer control and machine learning techniques, which are at the forefront of modern electrical and electronic systems in the industry today. This course offers an integrated systems approach to engineering, incorporating modules in advanced power electronics and renewable energy systems, advanced instrumentation and control with signal processing, real-time systems and machine learning techniques.

There is an increasing demand for skilled engineers who are able to design and maintain electrical and electronic systems that are at the forefront of current technologies. These positions cover many industries, hence graduates from this course can expect significantly enhanced job prospects in electrical, electronic as well as systems engineering.

Modules

Digital signal processing
Pattern recognition and machine learning
Advanced Instrumentation and Design
Advanced power electronics and renewable energy systems
Technology evaluation and commercialization
Technical, research and professional skills
MSc engineering project

Professional links

The School has a strong culture of research and extensive research links with industry through consultancy works and Knowledge Transfer Partnerships (KTPs). Teaching content on our courses is closely related to the latest research work.

This course is accredited by the IET as meeting the further learning requirements for CEng registration. The IET is one of the world’s largest engineering institutions with over 167,000 members in 127 countries.

Employability

The acquired skills in computer control and AI techniques offer additional scope for jobs in the design of decision support systems that cross traditional boundaries between engineering and other disciplines. (i.e. medical, finance). Successful graduates will enjoy exciting career opportunities from a wide range of industries, such as electrical energy supply and control, electronics and instrumentation products and services, intelligent systems and automation to include: automotive, aerospace, electrical and electronic consumer products, telecommunications. The students can also pursue PhD studies after completing the course.

Engineering management skills

Engineering employers have expressed their need for engineers with a solid grasp of the business requirements that underpin real engineering projects. Our course incorporates a management-related module focused on entrepreneurship and project management. This management module develops our graduates' commercial awareness and ensures that they have the skill-set valued by industry employers.

LSBU Employability Services

LSBU is committed to supporting you develop your employability and succeed in getting a job after you have graduated. Your qualification will certainly help, but in a competitive market you also need to work on your employability, and on your career search. Our Employability Service will support you in developing your skills, finding a job, interview techniques, work experience or an internship, and will help you assess what you need to do to get the job you want at the end of your course. LSBU offers a comprehensive Employability Service, with a range of initiatives to complement your studies, including:

• Direct engagement from employers who come in to interview and talk to students
• Job Shop and on-campus recruitment agencies to help your job search
• Mentoring and work shadowing schemes.

Read less
This programme provides an opportunity to specialise in the field of electrical power. It builds on a first degree in electrical/electronic engineering and explores how modern power systems from drives to power distribution are designed and implemented. Read more
This programme provides an opportunity to specialise in the field of electrical power. It builds on a first degree in electrical/electronic engineering and explores how modern power systems from drives to power distribution are designed and implemented. This programme develops technical skills and knowledge at an advanced level, as well as developing the professional, analytical and management skills of students. This programme includes a major research project. Many of the projects reflect the key interests of the Faculty, such as power electronics, renewable and alternative energy systems. There is the opportunity for projects to be derived from our industrial links, and a number are proposed by students, reflecting their own personal interests or experience.

The aims of the programme are:

- To provide an enhanced base of knowledge and current and reflective practice necessary to initiate a career in electrical engineering at the professional level

- To enhance specialist knowledge in the area of electrical engineering which build upon studies at the undergraduate level

- To further develop improved skills of independent learning and critical appraisal

- To develop an extensive insight into industrial applications and requirements

- To develop an extensive insight of management issues relating to engineering business

- To develop a comprehensive knowledge of leading-edge ICT tools and techniques in electrical engineering

- To provide the ability to progress to the next level of study.

Visit the website http://www2.gre.ac.uk/study/courses/pg/electr/elecpow

Engineering - Electrical and Electronic

The Department of Electronic, Electrical & Computer Engineering has a focus on innovation, analysis and development within a wide range of advanced engineering technologies. Students develop an understanding of both hardware and software, enabling them to design electronic and electrical systems capable of meeting the exacting demands of a diverse range of applications.

What you'll study

Full time
- Year 1:
Students are required to study the following compulsory courses.

Smart Grids and Sustainability (15 credits)
Electrical Machines and Drives (15 credits)
Group Power Project (15 credits)
Power Systems Analysis (15 credits)
Technology Integration and Interfacing (15 credits)
Power Electronic Converters (15 credits)
Individual Research Project (60 credits)
Research, Planning and Communication (15 credits)
Strategy & Management (15 credits)

Part time
Year 1
Students are required to study the following compulsory courses.

Electrical Machines and Drives (15 credits)
Group Power Project (15 credits)
Power Systems Analysis (15 credits)
Power Electronic Converters (15 credits)

- Year 2:
Students are required to study the following compulsory courses.

Smart Grids and Sustainability (15 credits)
Technology Integration and Interfacing (15 credits)
Individual Research Project (60 credits)
Research, Planning and Communication (15 credits)
Strategy & Management (15 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Assessment

Students are assessed through examinations, case studies, assignments, practical work and a dissertation.

Career options

Graduates can pursue a wide variety of opportunities exist for electrical power engineers in both the power supply sector and large industrial consumers.

Find out about the teaching and learning outcomes here - http://www2.gre.ac.uk/__data/assets/pdf_file/0010/643915/MSc-Electrical-Power-Engineering.pdf

Find out how to apply here - http://www2.gre.ac.uk/study/apply

Read less
Advance your career with a master’s degree in engineering. Our convenient evening classes provide the flexibility your schedule demands. Read more
Advance your career with a master’s degree in engineering. Our convenient evening classes provide the flexibility your schedule demands.

MSOE’s Master of Science in Engineering (MSE) program is an interdisciplinary engineering program with primary emphases in the areas of electrical engineering (EE) and mechanical engineering (ME). A key component of the MSE program is the breadth of engineering background that students gain in areas of systems engineering, EE and ME. Additionally, each student is offered some degree of concentration through the selection of an engineering option and electives.

This interdisciplinary approach is a distinguishing feature of MSOE’s program and students are encouraged to take engineering courses both within and outside of their discipline. Courses cover topics like simulation and modeling, operations research, quality engineering, advanced engineering mathematics, finite element analysis, advanced mechanics, fluid power systems, data communications, control systems and advanced electronic systems.

The MSE program’s major emphasis is on the further development of engineering knowledge and skills in an effort to enhance the productivity of the practicing engineer. The program provides a flexible platform for students to take either an integrated approach or a specialized approach to meet the demands of their career. The course work emphasizes engineering concepts and theory through presentation, and faculty bring extensive industry experience to the classroom.

A nine-credit capstone engineering project option is included as part of the program. A non-project option is also available, which includes two specialty courses and a three-credit engineering paper in the specialty.

Curriculum Format

All classes are offered in the evening, providing convenient scheduling. The program is designed for individuals who hold bachelor degrees in engineering, engineering technology or other closely related areas. Each student works with the program director to plan a course of study tailored to his or her needs. Typically, a total of 45 graduate credits is required to complete the program, but degree requirements may vary depending upon the type of bachelor’s degree.

MSE Program Options

Each student selects either a capstone engineering project or the non-project option.

The engineering project option can either draw from the multiple disciplines studied within the program or focus more on technical areas within the student’s chosen engineering discipline. After consulting with a faculty advisor, each student develops an engineering project proposal and presents it for approval before a committee.

The non-project option requires a two-course sequence in 700- or 800-level EE/ME specialty courses and a final course (GE-791) in which a specialty paper is written. Each student completes an analysis/design of a certain aspect of the chosen specialty and presents it both orally and in writing.

100% Online delivery

Geography is not a constraint for students interested in completing the MSE at a distance. In addition to the face-to-face class format, there is also the option to take courses via 100% online distance delivery. The rich faculty, student interaction that is the hallmark of the MSE is replicated in online classes creating dynamic and flexible learning environments. Students can choose which format best fits their lives, while advancing their learning and professional skills.

Objectives and Outcomes

Program Educational Objectives

- Graduates create new value in a process or product at their workplace through application of advanced engineering skills and knowledge
- Graduates advance in their careers as a direct result of completing the degree

Student Outcomes

Graduates of the MSE program will:
- be able to utilize advanced mathematics, with a primary focus on numerical methods and models, to solve engineering problems involving multivariate differential systems
- have demonstrated an ability to apply advanced engineering principles to complex problems in his or her chosen specialty
- have demonstrated an ability to integrate and analyze information in a chosen specialty in the form of scholarly work, either as an independent specialty paper or as an independent engineering project
- have the ability to effectively present and communicate technical concepts, both orally and in writing

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.

Read less
This Electrical and Electronic Engineering MSc aims to further develop students' knowledge of and expertise in specialist engineering subjects associated with the main application areas of electrical and electronic engineering. Read more
This Electrical and Electronic Engineering MSc aims to further develop students' knowledge of and expertise in specialist engineering subjects associated with the main application areas of electrical and electronic engineering. Particular prominence is given to electrical power systems and machines, robotics and sensors, digital systems incorporating VHDL and signal processing.

An emphasis on applied technical work will strengthen the engineering development skills of students from an academic background.

WHY CHOOSE THIS COURSE?

-The programme is delivered by a specialist team of academics
-Electrical and electronic research carried out in the Faculty is recognised as 5% World-leading, 45% Internationally Excellent, 25% International, 25% National (RAE 2008)
-Access to state-of-the-art studio, laboratory and computing facilities within the new Engineering and Computing building
-Personal tutor support throughout the postgraduate study
-Excellent links with a number of industrial organisations enable access to the latest technology and real-world applications

WHAT WILL I LEARN?

The work carried out on this course will provide the demonstrable expertise necessary to help secure professional level employment in related industries. The topic areas also provide opportunities for interaction with the Faculty’s Research Centres who will source some of the individual projects for the programme.

The MSc in Electrical and Electronic Engineering curriculum consists of a fixed menu of study and a substantial MSc project. Successful completion of all elements leads to the award of MSc in Electrical and Electronic Engineering. Completion of the taught modules without a project leads to the award of a Postgraduate Diploma.

The mandatory modules are as follows:
-Digital System Design with VHDL
-Electrical Machines and Drives
-Power Systems
-Digital Signal and Image Processing
-Robotics: Kinematics, Dynamics and Applications
-Measurement and Sensor Technology
-Microprocessor Applications
-Renewable Energy and Smart Grid
-Individual Project

The substantial individual project gives students the opportunity to work on a detailed area of related technology alongside an experienced academic supervisor. Some projects are offered in conjunction with the work of the Faculty’s Research Centres or industry.

Typical project titles include:
-Embedded network interface development for measurement instruments
-Wireless sensors for industrial thermocouple temperature monitoring
-Power system network simulation
-Wind turbine generator simulation

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

The specialist topics studied on the programme will prepare you for work in specialist companies involved with electrical and electronic engineering. There are also many roles in related industries that rely on the technology.

Possible destinations include:
-Electrical power supply generation and distribution including renewables;
-Transport and industrial equipment manufacturers employing electrical drives; electrical vehicles are anticipated to create an increased demand in this area
-Industrial measurement and monitoring systems
-Robotics and associated activities
-Microelectronic applications

Opportunities also exist to complete a PhD research degree upon completion of the master’s course.

Electrical and electronic technology is now indispensible for modern life. We rely on electricity for the reliable supply of essential energy to our homes and businesses. Electronics is at the heart of products enabling our transport and communication systems.

GLOBAL LEADERS PROGRAMME

To prepare students for the challenges of the global employment market and to strengthen and develop their broader personal and professional skills Coventry University has developed a unique Global Leaders Programme.

The objectives of the programme, in which postgraduate and eligible undergraduate students can participate, is to provide practical career workshops and enable participants to experience different business cultures.

Read less

Show 10 15 30 per page



Cookie Policy    X