The field of electronics deals with circuits and their electrical components. Circuit design may be a main focus and areas might be specialized in such as telecommunication, network management, network engineering and microelectronic engineering.
This integrated MEng Electrical and Electronic Engineering degree offers the most direct route to chartered engineer status.
Electrical and Electronics Engineering is all about designing, developing and maintaining electrical control systems. This MEng Electrical and Electronics Engineering offers an integrated route that combines undergraduate and postgraduate levels of study over 4 years.
7 reasons to study here
No. 1: London modern uni overall for Electrical and Electronic Engineering, Guardian League Table 2018.
Professional accreditation: Accredited by the Institution of Engineering and Technology (formerly the IEE) under license from the Engineering Council, and offer fast track progression to Chartered Engineer status.
Industry relevant: We have a panel of advisers from the industry, to help ensure our course coverage is up-to-date and relevant to employment needs.
Career progression: Extends studies to Masters level and provides greater breadth and depth of study which is the quickest and easiest way to become a Chartered Engineer (CEng).
Wide-reaching: Many career options, few parts of our life that don't owe at least something to the work of electrical and electronics engineers.
European study: You can choose to spend your third year studying with one of our partner institutions.
Work experience: Option to complete your third year in a paid professional work placement.
This degree course covers:
We encourage you to acquire a deeper understanding of the essential facts, concepts, theories, and principles of electrical engineering and its underpinning science and mathematics. This course covers:
You can apply for undergraduate student funding for this course, so you can gain a postgraduate level qualification...
Industrial Engineering research focuses on quantitative analysis, synthesis, and management of such complex systems. The limited faculty members come from the Industrial
M.Sc. in Electrical & Electronics Engineering
Portable design and operation of modern industrial and service systems require integration of human, material, equipment and financial resources. In recent years this integration has become tighter due to the inclusion of information technology and resulted in more complex systems.
Industrial Engineering research focuses on quantitative analysis, synthesis, and management of such complex systems. The limited faculty members come from the Industrial Engineering department of the College of Engineering, the Operations and Information Systems group of the College of Administrative Sciences and Economics, and other related fields....
Glasgow Caledonian University - The School of Engineering and Built Environment
Take the masters route and reach the academic levels of Chartered Engineer status. This five-year MEng course is accredited by the Institution of Mechanical Engineers.
Accredited by: IMechE
Engineers are involved in a number of design and development activities. Mechanical Electronic Systems Engineering is a blend of mechanical engineering, computer-aided engineering, control engineering, systems design engineering and electronic engineering in order to design and manufacture useful products.
This programme, developed in partnership with industry, will produce well-rounded engineers able to exercise leadership, initiative, personal responsibility and decision-making in complex and unpredictable situations. You will have access to cutting-edge laboratories and equipment including CAD, CAM and FEA software, as well as to electrical, control systems and instrumentation and electronic laboratories. There is also the opportunity for a 48-week industry placement. The BEng (Hons) degree is accredited by the Institution of Mechanical Engineers (IMechE) as fulfilling the academic requirements for Chartered Engineer (CEng), with the addition of the MEng year or an accredited Masters degree. Successful completion of the BEng (Hons) degree allows transfer to the MEng....
The Master Course Advanced Electronics in Intelligent Systems is a two-year full-time English-taught study programme which focuses on producing highly-skilled engineers t
Requirements: Bachelor’s degree (or equivalent)
Duration: 2 years (4 semesters)
Teaching language: English
Form of studies: Full time
Advanced Electronics in Intelligent Systems
The Master Course Advanced Electronics in Intelligent Systems is a two-year full-time English-taught study programme which focuses on producing highly-skilled engineers to cover the growing needs of the industry, both locally and globally. Students can enhance their training through internships, and by working on their master thesis in the many companies headquartered in Timisoara which are active in this field. At the same time, the programme develops the innovation and research skills of the students....
The master study programme provides the specialized university education to the graduates of the previous bachelor study in all engineering branches of small-power, as of
Electrical, Electronic, Communication and Control Technology
Level of course unit: Master's
Faculty: Faculty of Electrical Engineering and Communication
Academic year: 2019/2020
A title awarded: Ing.
Qualification awarded: Ing. in the field "Electrical, Electronic, Communication, and Control Technology"
Level of qualification: Master's (2nd cycle)
Specific admission requirements: Condition for admitting is obtaining a bachelor's degree.
Profile of the programme:
The master study programme provides the specialized university education to the graduates of the previous bachelor study in all engineering branches of small-power, as of high-power electrical engineering and electronics, communication technologies, cybernetics, control, and measurement techniques....
This Master of Science in Electronic Engineering aims to produce graduates with a high level of specialization in different areas. Our goal is to help you understand how
Mission and goals
This Master of Science in Electronic Engineering aims to produce graduates with a high level of specialization in different areas. Our goal is to help you understand how to do things, understand and promote technological innovation.
The course is based on the following basic principles: technical training, technical systems and components (analog, mixed-signal and digital IC design, embedded system design, electronic instrumentation, sensors, power generation and distribution, electrical machines and renewable energy systems, reliability).
Upon graduating, students will have the ability to:...
Students specialize in either Commercial or Industrial Electronics complimenting a basic study of electrical engineering. There is a particular emphasis placed on a highl
Faculty of Electrical Engineering and Computer Science
Students specialize in either Commercial or Industrial Electronics complimenting a basic study of electrical engineering. There is a particular emphasis placed on a highly efficient education in order to teach students to think creatively and apply new knowledge in the creation of new technical pieces of work. The instruction is focused on the practical and facilitates the development of distinctive diploma theses.
Key Learning Outcomes
Graduates have a broad and deep knowledge in the technical fields of this branch, which corresponds to the current state of the art. They understand the state-of-the-art theories, concepts, and methods of the branch. They are able to apply knowledge from related branches in their own branch. Students of Applied Electronics acquires the necessary knowledge of mathematics, the theory of electrical circuits, information technology, and special knowledge in the following technical fields:...
Electronic technologies for Big-data and Internet of things (E-BIT) is an international curriculum which imparts thorough knowledge in electronic technologies related to
Electronic technologies for Big-data and Internet of things (E-BIT) is an international curriculum which imparts thorough knowledge in electronic technologies related to the development and design of electronic devices, solid-state sensors, circuits and systems employed for acquisition, reliable storage and processing of the big data generated by Internet-of-Things applications. Several other challenges related to these issues, such as security, wireless sensor networks, automation systems, advanced computer architecture are addressed in elective courses.
There are specific enrolment procedures for each degree programme. You can find detailed information about how to apply, tuition fees and deadlines on https://corsi.unibo.it/2cycle/ElectronicEngineering/how-to-enrol...
This course aims, primarily, to provide advanced applied knowledge in professional subjects that assume strategic importance for the country and the region. Accordingly,
This master objectives include the acquisition, by students, of theoretical knowledge and the necessary skills for its application in the fields of Electronics and Telecommunications, or Energy and Automation. The course also aims to actively contribute to promote national technological development and enhance added value in the country’s and region’s industry, through the development of projects, dissertations and industrial placements in companies and R&D institutions.
Introduction to Research
1st Year - Electronics and Telecommunications
Communication Networks Technologies
Audio and Video Coding
Cellular Network Design
Multimedia Communication Systems
The course in electronic engineering degree favors the development of cross-functional knowledge and skills all'acquisire mastering the techniques of electronics and its
Access to further studies.
Courses of Third Cycle
Professional status of the title.
public and private sectors.
final test characteristics.
The final exam consists of the discussion of a report for an individual work, carried out by the student under the supervision of at least one professor of the Faculty of Engineering of the University of Cagliari, about technical aspects and / or relevant scientific area of ' information Engineering.
The work will consist of a critical analysis of the state or the drafting of a project at least rough or the development of methods and techniques with a degree of originality or a transfer of methods and techniques from different fields in areas of ' information Engineering....
This one year, full-time Masters programme is designed to deepen students’ understanding of electronic systems. If you are ambitious, want to stay abreast of new developm
This one year, full-time Masters programme is designed to deepen students’ understanding of electronic systems. If you are ambitious, want to stay abreast of new developments, wish to enhance your qualifications, are prepared to commit time to personal development and yet have limited opportunity for on-campus attendance, then this programme structure is designed for you. You can take courses remotely over the WEB - the distance learning option, attend lectures on-campus, or mix and match combining on-campus and distance learning to suit your particular circumstances.
Who is eligible?
To apply for this programme you must have a good honours degree in Electronic/Electrical Engineering, Applied Physics, Computer Sciences or other Engineering disciplines. Candidates whose first language is not English will be required to submit evidence of an English Language qualification. For more information on entry requirements please consult our website....
The period of study specified by the Federal State Educational Standards of Higher Education is 2 years. The study load of the bachelor’s program specified by the Federal
The period of study specified by the Federal State Educational Standards of Higher Education is 2 years.
The study load of the bachelor’s program specified by the Federal State Educational Standards of Higher Education is 120 ECTS points.
The program is meant:
to develop the students’ faculties in the fields of training Masters in Physics for design and experimental organizations and enterprises of the electronic engineering industry, aimed at elaboration, design, and production of sophisticated electronics with the use of the modern nanoscale component base.
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.
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.
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....
Embedded sensors can be found in home and consumer electronics, medical electronics, in vehicles, within industry, army, and aviation, and even in space. The Master’s pro
Embedded sensors can be found in home and consumer electronics, medical electronics, in vehicles, within industry, army, and aviation, and even in space. The Master’s program teaches you how to design embedded sensor systems and how to connect them to different products, programs and apps and their features. The Master’s Program in Embedded Sensor Systems was developed in cooperation with the industry and researchers and therefore, it responds to current and future market needs.
This program will provide you with a broad knowledge of the different technologies that form the construction basis of embedded sensor systems. You will also gain an understanding of the methods and tools you need for analysis and construction, both on an overall level and in-depth. In addition, you will learn to put your theoretical knowledge to practical use by means of close cooperation with the industry, in which you work with some of the companies’ real research projects....