|Study location||United Kingdom, Birmingham|
|Type||Master courses, full-time|
|Nominal duration||1 year|
Undergraduate diploma (or higher)
At least a Bachelor degree or postgraduate diploma from a UK university or equivalent. The degree must be in a relevant subject
The entry qualification documents are accepted in the following languages: English.
Often you can get a suitable transcript from your school. If this is not the case, you will need official translations along with verified copies of the original.
Upload documents in original language and translations. Take originals along when you go to study.
IELTS : Score 6.5 with no less than 6.0 in any band. Or Cambridge English(CAE): Advanced Minimum overall score of 176, with no less than 169 in any component.
Please note: TOEFL IBT test will not be accepted for September 2015 entry.
At least 2 reference(s) should be provided.
Two academic references (or if appropriate to the programme applied for, one could be from your employer).
Interested? To learn more about this study programme, entry requirements and application process, please contact one of our consultants in a country nearest to you.
In an increasingly overcrowded electromagnetic spectrum, the efficient and reliable operation of wireless, mobile and satellite communication systems, and of radar and remote sensing systems, relies upon advanced components and subsystems that exploit ongoing developments in technologies such as microfabrication, nanotechnology and high frequency semiconductor devices.
This programme provides training for engineers to become innovators in these rapidly expanding markets. A firm grasp of the fundamentals is established through modules in the foundations of communications engineering and in satellite, cellular and optical fibrte communications, electromagnetics and antennas, propagation, radio frequency and microwave engineering and computer and communications networksprovide advanced knowledge in an aspect of the relevant component technologies.
The programme will help you to develop an ability to interpret user requirements and component specifications, to engineer effective designs within the constraints imposed by the available resources and the fundamental physical limits. The programme provides a theoretical basis from which the design, construction and operation of satellite and cellular radio communications can be understood
Examples of employers
Aero Engine Controls
Jaguar Land Rover
Ministry of Defence
Price Waterhouse Coopers
Ernst and Young
Examples of occupations
Communications (Electronic) Engineer – Officer
Junior Business Analyst
Further study – examples of courses
MSc Project Management
MSc Radio Frequency and Microwave Engineering
MSc Electronic and Computer Engineering
MSc Physics and Technology
Postgraduate Certificate in Education – teaching
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