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University of Birmingham Masters Degrees in Electrical Engineering

We have 2 University of Birmingham Masters Degrees in Electrical Engineering

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The 1-year Electrical Power Systems Masters/MSc is good, the 2-year Electrical Power Systems with Advanced Research Masters/MSc is even better!. Read more

The 1-year Electrical Power Systems Masters/MSc is good, the 2-year Electrical Power Systems with Advanced Research Masters/MSc is even better!

The 3rd energy industry revolution is taking place where the key is the development of electrical power systems in the contexts of smart grids. Electrical power systems are playing a pivotal role in the development of a sustainable energy supply, enabling renewable energy generation. Globally there is a big shortage of skilled engineers for designing, operating, controlling and the economic analysis of future electricity networks – smart grids

The new 2-year MSc Electrical Power Systems with Advanced Research will give you the timely advanced skills and specialist experience required to significantly enhance your career in the electrical power industry. The programme builds on a very close involvement with the power industry, the education of power engineers and extensive research work and expertise as well as the successful experience on the 1-year MSc Electrical Power Systems at the University of Birmingham. The 2-year MSc Electrical Power Systems with Advanced Research will be able to fill in the gap of skills between the 1-year MSc and PhD research.

Some modules will be taught by leading industry experts, which will give you the exciting opportunity to understand the real challenges that power industry is facing, hence propose innovative solutions. In addition, students working on relevant MSc projects may have the opportunity to work with leading industry experts directly. 

The new 2-Year MSc Electrical Power Systems with Advanced Research will run in parallel with the existing 1-Year MSc Electrical Power Systems. The taught credits in the 1st year of the 2 Year MSc are identical to that of the 1-Year MSc while the 2nd Year is mainly focused on a research project. 

This programme also aims to provide graduates with the ability to critically evaluate methodologies, analytical procedures and advanced research methods. Year 1 of the programme is focussed on the taught modules covering:

  • Control concepts and methods
  • Advanced energy conversion systems and power electronic applications
  • Advanced power electronic technologies for electrical power networks – HVDC and FACTS
  • Electrical power system engineering - using state-of-the-art computational tools and methods, and design of sustainable electrical power systems and networks
  • Economic analysis of electrical power systems and electricity markets. 

While Year 2 of the programme will give you the opportunity to work on an advanced research project. For some suitable projects, in conjunction with joint industry supervisions, industry placement may be available.

It is envisaged there will be the opportunity for students to transfer between the two programmes using the University’s procedures for transfers between programmes, subject to programme requirements. This opportunity would take place at the end of the taught part of the programme.

Course details

Electrical Power Systems with Advanced Research Masters/MSc (Two Year): 

This 2-year MSc programme meets the industrial demand for the training and education of both existing and future engineers in the advanced concepts of electrical power systems and renewable energy as well as advanced research skills. It aims to produce graduates of the highest calibre with the right advanced skills and knowledge who will be capable of leading in teams involved in the operation, control, design, and economic analysis of the electrical power systems and networks of the future – smart grids as well as developing and managing R&D programmes.

It will meet the demand for the research and development of sustainable electrical power systems and the demand for training and education of existing and future power engineers in the advanced concepts and designing of sustainable electrical power systems and renewable energy with significant research training.

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Learning and teaching

Patterns of study 

The majority of students study our Masters programmes full time. Our programmes are also suitable for practising engineers who wish to study part-time or take a single module to earn Continuing Professional Development (CPD) points. Many modules are completed in three-day sessions allowing you to focus on one topic at a time. Following each session of lectures there is an opportunity for you to deepen your understanding through private study and in most cases there is also an assessed assignment. 

Core modules 

These modules cover the advanced specialist topics required for your specific degree programme, such as Power System Operation and Control, HVDC and FACTS and Power System Economics. These technologies are at the heart of many current developments in electrical power systems. 

Cross-programme option modules 

These options specialize in topics relevant to each degree programme and give you the opportunity to adapt the programme that you have chosen to study. The prior knowledge needed for each module is specified in the student handbook to help you make the most appropriate choice. This allows you the greatest possible freedom to customise your study package appropriately. 

Individual project 

In Year 2, you will have 12-months to work on a dedicated research project to develop your comprehensive research skills, which would be helpful to fill in the gap between the 1-year MSc and PhD. This is an opportunity for you to develop advanced specialist knowledge. Some projects are undertaken in collaboration with companies and, in some cases, you may work on company premises investigating issues of direct concern to future product development. 

Assessment and awards 

Assessment is by a combination of written examination and course work. There is a strong emphasis on course work to deepen understanding. The pass mark is 50%. A merit is awarded to students with an average of 60% or more and a distinction is awarded to students with an average of 70% or more, in both taught and project modules. There are prizes for students who perform especially well overall and for those who complete exceptionally good individual projects.



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Postgraduate degree programme. Electrical Power Systems Masters/MSc. The 3rd energy industry revolution is taking place where the key is the development of electrical power systems in the contexts of smart grids. Read more

Postgraduate degree programme: Electrical Power Systems Masters/MSc:

The 3rd energy industry revolution is taking place where the key is the development of electrical power systems in the contexts of smart grids. Electrical power systems are playing a pivotal role in the development of a sustainable energy supply, enabling renewable energy generation. Globally there is a big shortage of skilled engineers for designing, operating, controlling and the economic analysis of future electricity networks – smart grids

The MSc Electrical Power Systems will give you the timely skills and specialist knowledge required to significantly enhance your career prospects in the electrical power industry. This programme will develop your power engineering skills through expert teaching and extensive research work undertaken in collaboration with power industry partners.

Some modules will be taught by leading industry experts, offering exciting opportunities to understand the real challenges that the power industry is facing and will work with you to develop and provide innovative solutions. In addition, students working on relevant MSc projects may have the opportunity to work with leading industry experts directly.

Course details

This MSc programme meets the industrial demand for the training and education of both existing and future engineers in the advanced concepts of electrical power systems and renewable energy. It aims to produce graduates of the highest calibre with the right skills and knowledge who will be capable of leading in teams involved in the operation, control, design, and economic analysis of the electrical power systems and networks of the future – smart grids.

It will meet the demand for the research and development of sustainable electrical power systems and the demand for training and education of existing and future power engineers in the advanced concepts and understanding of sustainable electrical power systems and renewable energy.

This programme also aims to provide graduates with the ability to critically evaluate methodologies, analytical procedures and research methods in:

  • Control concepts and methods
  • Advanced energy conversion systems and power electronic applications
  • Advanced power electronic technologies for electrical power networks – HVDC and FACTS
  • Electrical power system engineering - using state-of-the-art computational tools and methods, and design of sustainable electrical power systems and networks
  • Economic analysis of electrical power systems and electricity markets.

Related links

Learning and teaching

Patterns of study

The majority of students study our taught Masters programmes full time. Our programmes are also suitable for practising engineers who wish to study part-time or take a single module to earn Continuing Professional Development (CPD) points. Many modules are completed in three-day sessions allowing you to focus one topic at a time. Following each session of lectures there is an opportunity for you to deepen your understanding through private study and in most cases there is also an assessed assignment.

Overview module

There is a shared introduction to topics from communications engineering, requirements analysis and object-oriented design, and an introduction to and recap of C programming. For the communications engineering programmes there is an introduction to key issues in the design of antennas, radio frequency circuits and link budgets. For the computing programmes there is an introduction to object-oriented programming.

Core modules

These modules cover the advanced specialist topics required for your specific degree programme, such as statistical signal processing and coding and advanced digital design. These technologies are at the heart of many current developments in modern electronic systems. 

Cross-programme option modules

These options specialize in topics relevant to each degree programme and give you the opportunity to adapt the programme that you have chosen to study. The prior knowledge needed for each module is specified in the student handbook to help you make the most appropriate choice. This allows you the greatest possible freedom to customise your study package appropriately.

Individual project

This is an opportunity for you to develop specialist knowledge. Some projects are undertaken in collaboration with companies and, in some cases, you may work on company premises investigating issues of direct concern to future product development. Typical projects include the development of hardware for automotive radar signal processing and the detection of leaks in landfill sites, wireless access systems, 3G mobile radio for light aircraft, the creation of 3D worlds for surgery simulation and wearable computing.

Assessment and awards

Assessment is by a combination of written examination and course work. There is a strong emphasis on course work to deepen understanding. The pass mark is 50%. A merit is awarded to students with an average of 60% or more and a distinction is awarded to students with an average of 70% or more, in both taught and project modules. There are prizes for students who perform especially well overall and for those who complete exceptionally good individual projects.

Employability

This course meets the industrial demand for the training and education of both existing and future engineers in the advanced concepts of electrical power systems and renewable energy. It aims to produce graduates of the highest calibre who will be much in demand due to their skills, knowledge and ability to lead in teams involved in the operation, control, design, and economic analysis of the electrical power systems and networks of the future – smart grids.



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