入学要求 Requirement:
学术要求:A good honours degree in mathematics, computing, physical sciences or engineering disciplines. Our normal entry level is a minimum of a Lower Second or equivalent; however, with suitable prior experience, we can be flexible in our entry requirements.
英语要求:Non-native speakers of English will normally be required to have IELTS 6.5 or above (or equivalent).
Please note that the University of Surrey offers English language programmes and is also an IELTS Test Centre.
学费 Tuition Fee:2011/2012 13000pounds
课程特征 Course Features
There is a great shortage of skilled radio frequency (RF) and microwave engineers in industry, at the present time. However, the demand for the implementation of conceptually new wireless systems exists.
We cover a range of modern theory and techniques accompanied by other modules that consider communication systems allied to the student’s interests. We also include all ranges of wireless frequencies and sizes of RF and microwave devices, from the lowest frequencies used in radio frequency identification (RFID) systems through to systems used at microwave frequencies that can have application in satellite communication systems.
Theoretical concepts including radio design and radio systems are established in the lectures, which are complemented by practical implementation in the laboratory sessions. Computer-aided design (CAD) is an essential feature of modern RF and microwave, so students are also given hands-on experience of industry-standard software. A wide range of facilities and expertise is available that is accessed via student projects.
课程内容 Course Content :
Module Overview
In common with many MSc courses, this programme is taught over twelve months and split over three semesters. A dissertation project is carried out during the final semester.
A range of optional modules are offered as part of this programme, which you will choose each semester. Please enquire for further information.
Compulsory Modules
RF and Microwave Fundamentals
This is a level 3 module that provides knowledge of the key foundations for RF and microwave circuit and system design as well as testing. The module discusses electromagnetic wave propagation and essential RF circuits. Application of the basic theory in a typical system is considered through a discussion of modern radar. The module is supported by practical sessions on CAD and RF hardware.
RF Systems and Circuit Design
This module extends your basic knowledge of RF engineering to consider the design and application of practical circuits. Supported by practical and CAD sessions, the module discusses the design of microstrip circuits as well as more on RF systems. The various techniques are put into a practical context through case studies including digital broadcasting and radio frequency identification (RFID).
Microwave Engineering Principles
This module provides an introduction to the special techniques that apply to circuits and devices operating at very high frequencies in the GHz range. The module focuses on the use of these techniques to produce practical microwave components and discusses the influence that the fabrication processes have on the high-frequency performance of microwave circuits.
Extended Project
In the project element of the programme, you will complete a project that will involve undertaking measurements with RF or microwave components.
Programme Structure
In the first semester you will study the compulsory RF and Microwave Fundamentals and RF Systems and Circuit Design modules. The work is supported by a course in Agilent ADS (Advanced Design Suite), which provides all of the fundamental information for using this software for circuit design and simulation. It takes you from the basics of login and circuit layout, through to field simulation, so that you are in a position to employ the software for practical design in the second semester.
The second semester focuses on the application of RF and microwave theory at higher frequency bands through the Microwave Engineering Principles and related modules.
Finally, in the project element, you will have the opportunity to apply your knowledge in realistic design situations and make use of the extensive range of facilities available in the Department.
Semester 1 (October to January)
Compulsory Modules Credits
RF and Microwave Fundamentals 15
RF Systems and Circuit Design 15
Optional Modules
Antennas and Propagation 15
Mobile Communications A 15
Satellite Communications A 15
Principles of Telecommunications and Practice Networks 15
Introduction to Nanotechnology 15
Semester 2 (February to June)
Compulsory Modules Credits
Microwave Engineering Principles 15
Optional Modules
Mobile Communications B 15
Satellite Communications B 15
Nanoelectronics 15
Optoelectronics 15
Semester 3 (June to September)
Compulsory Module Credits
Project 60
教学与评估 Teaching and Assessment:
Teaching and Assessment
Teaching is primarily through lectures, supported by some assessed laboratory activities. Since practical design is a key feature of the programme, the lectures are supplemented by tutorial problems that enable you to apply your theoretical knowledge to practical situations.
The primary means of assessment is through two-hour written examinations, where the theme of practical design is reflected in the format of the questions. Some of the modules involve assessed coursework, where 20 per cent of the marks for the module are given for reports on the directed laboratory activities.
其它信息 Other Information:
Facilities and Equipment
The combined facilities of the RF teaching laboratories and the Advanced Technology Institute provide MSc students with an exceptionally wide range of modern fabrication and measurement equipment. Furthermore a wide variety of RF test and measurement facilities are available through the Surrey Space Centre and Centre for Communication Systems Research, that also involve work in the RF and microwave engineering domain. Equipment includes access to CAD design tools, anechoic chamber, spectrum analysers, network analysers, wideband channel sounder, thick film and thin film circuit etching and circuit testing.
Industrial and Overseas Links
The Microwave Research Group has a range of active links with industry, both in the UK and overseas. During the past few years we have had students taking the MSc through the part-time route and completing their projects in industry. Examples of industrial projects range from looking at new microwave measurement techniques with the National Physical Laboratory (NPL), to antenna design and construction at the Defence Science and Technology Laboratory (Dstl).
We have also sent students overseas to complete their projects, funded through the Erasmus scheme, which is a European programme that provides full financial support for students completing their project work at one of our partner universities in mainland Europe.
Students taking advantage of this opportunity not only enhance their CVs with a European perspective, but also produce excellent project dissertations