Master in Electronics in Europe

Find Masters Programs in Electronics in Europe 2017

Electronics

A master's degree is a postgraduate academic degree. One must already have an undergraduate degree to apply for a master's program. Most master's degree program would require students to complete a master's thesis or research paper.

In electronics studies, students can have the opportunity to learn about circuits and their components. Electric energy may be explored in depth and topics such as switches, information processing and microelectronic engineering may be covered.

There are more than four thousand higher education organizations in Europe, from leading research institutions to small, teaching-focused universities. Europe itself is not as much different than other continents, reaching from the Arctic Circle to the coast of Africa.

View all Master Programs in Electronics in Europe 2017

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ME Electronic & Computer Engineering

UCD College of Engineering and Architecture
Campus Full time 2 years September 2017 Ireland Dublin

This ME in Electronic and Computer Engineering is a two-year programme designed to develop professional engineers who can excel in the electronic and computer sectors worldwide. [+]

Masters in Electronics in Europe 2017. ME Electronic & Computer Engineering Graduate Taught (level 9 nfq, credits 120) This ME in Electronic and Computer Engineering is a two-year programme designed to develop professional engineers who can excel in the electronic and computer sectors worldwide. Graduates of this highly sought after Masters leave equipped to forge a career at the highest level in this major sector of the world economy. Delivered by a highly research intensive School holding 101-150 in the QS world subject rankings, this two-year programme provides 6-8 months professional work experience as an embedded element of the programme. You will gain an advanced understanding of a broad range of areas within electronic and computer engineering, and develop your skills in design, innovation and problem solving. A range of advanced topics from electronic engineering, computer science and business with options that allow you to tailor your degree to suit your interests Who should apply? Full Time option suitable for: Domestic(EEA) applicants: Yes International (Non EEA) applicants currently residing outside of the EEA Region. Yes This programme is aimed at graduates with an honours Bachelor's (first cycle) degree in electronic engineering or a closely related discipline. Course Description The electronic and computer sectors continue to change the way we live, and drive a significant fraction of the world economy. This comes about through constant innovation, led by creative people with a strong understanding of the fundamentals of their field. This programme will help you to join in this success. Career Opportunities The ICT sector in Ireland is a thriving and growing industry with 9 out of the top 10 global ICT companies maintaining a presence in Ireland and the job opportunities in this sector are exemplary. The government has an ongoing commitment to generate thousands of jobs in the ICT sector every year and at present there are as many as 5,000 job vacancies in Ireland's burgeoning ICT sector and this gap could grow as Ireland hurtles towards becoming the digital capital of Europe.The ICT sector responsible for approx. 25% of Ireland’s total turnover. Prospective employers include: Accenture, Analog Devices, Intel, Microsoft, SAP, Synopsys and Xilinx to highlight but a few. Fees, Funding and Scholarships ME Electronic and Computer (T163) Full Time EU Year 1 - € 7490 EU Year 2** - € 7490 nonEU Year 1 - € 23800 ***Fees are subject to change Tuition fee information is available on the UCD Fees website. Please note that UCD offers a number of graduate scholarships for full-time, self-funding international students, holding an offer of a place on a UCD graduate degree programme. For further information please see International Scholarships. Student Internships The Professional Work Experience (PWE) module is incorporated into the two-year Masters of Engineering Programme and is designed to integrate a student’s academic and career interests with paid practical work experience for a 6-8 month period. The module provides students with the perfect opportunity to gain increased experience and understanding of their chosen field, assess where their strengths and weaknesses lie and maximise their knowledge of the available career possibilities. The practical skills acquired during this placement will give graduates a competitive advantage when applying for positions upon graduation. Entry Requirements A bachelors degree with a minimum upper second class honours (NFQ level 8) or international equivalence in a relevant Engineering programme. Applicants whose first language is not English must also demonstrate English language proficiency of IELTS 6.5 (no band less than 6.0 in each element), or equivalent. Testimonial Graduate Profile Jonathan Gorman, Everis As job markets become increasingly competitive, employers are seeking more from recent graduates than just knowledge, but experience. I feel that the ME Electronic & Computer Engineering master’s programme meets both of these requirements by providing a unique research project, as well as a professional work placement. These gave me the opportunity to apply my theoretical engineering knowledge in a number of practical environments, something which I believe makes this degree programme unique. This is complemented by state-of-the-art facilities and highly knowledgeable professors, both of which helped to maximise my learning. I also enjoyed the degree’s flexibility and the wide range of modules offered, allowing me to tailor my degree as I pleased. I would have no doubts in advising anyone who is aiming to specialise in electronic or computer engineering to consider the ME Electronic & Computer Engineering masters at UCD. *Courses will remain open until such time as all places have been filled, therefore early application is advised [-]

Master in Informatics, Electronics and Radio Engineering

National Research University
Campus Full time 2 years September 2017 Russia Moscow

National Research University “Moscow Power Engineering Institute” provides Master Degree in Informatics, Electronics and Radio Engineering according to Russian State Educational [+]

National Research University “Moscow Power Engineering Institute” provides Master Degree in Informatics, Electronics and Radio Engineering according to Russian State Educational Standard in the following directions: - Applied Mathematics and Informatics - Informatics and Computer Engineering - Control in Engineering Systems - Instrumentation - Electronics and Nano-Electronics - Radio Engineering WHY SHOULD YOU CHOOSE MPEI MPEI students have a chance to study at one of the most prestigious universities of Russia according to numerous rankings and surveys. For more than eighty years of history MPEI have trained a huge number of the qualified engineers, prominent scientists who were standing at the origins of many technical achievements, in particular, of laser creation. At MPEI the Nobel Prize winners A.D. Sakharov and P.A. Cherenkov worked in different periods. In the 20th century in the Special Design Bureau of MPEI, which possesses its own Center of Deep Space Communication, radio images of the Venus surface and a reverse side of the Moon were obtained for the first time. Among the most famous graduates of MPEI there are the ex-Chairman of the State Council of China Li Peng and the ex-President of Romania Ion Iliescu, Ministers of Engineering and heads of the engineering companies of many countries of the world. MPEI partners in science and education include about 140 foreign universities, and such well-known companies like ABB, Siemens, Schneider Electric, EPRI, Skoda, Samsung and others. Getting the unique training in any chosen field, MPEI graduates never have problems with subsequent employment and realize themselves in any chosen spheres. LANGUAGE OF EDUCATION Training in the field of Informatics and Computer Engineering is organized in English Medium. Training in the other fields is organized in Russian language. Those students who need to learn Russian are invited to MPEI Preliminary course which provides training of Russian language during 1 academic year. ACCOMMODATION CONDITIONS MPEI foreign students are provided with accommodation in MPEI hostel. The hostel under security surveillance has two-room blocks with a bathroom and a toilet in each block. Rooms are for two or three persons. There are also hostels of corridor type with double rooms. Rooms are equipped with furniture, bed linen is also included. On each floor of a hostel there is a common kitchen and a restroom. Internet connection can be provided for additional fee. In MPEI campus there are additional services like laundry, shops, repair offices, post-office, cultural centers, cafes and restaurants, etc. Accommodation fee is about 100 USD per month. INSURANCE All foreign students must have medical insurance for the whole period of education. MPEI works with insurance company which provides the most comprehensive insurance at a rate of 200 USD per year. [-]

Master in Electronic Engineering

Mediterranea University of Reggio Calabria
Campus Full time 2 years October 2017 Italy Reggio Calabria

The 2nd Cycle Degree Course (Master Degree) in Electronic Engineering is open to students already holding a 1st Cycle Degree (Bachelor Degree) in scientific and engineering disciplines with a focus on electrical/electronic subjects... [+]

Masters in Electronics in Europe 2017. The 2nd Cycle Degree Course (Master Degree) in Electronic Engineering is open to students already holding a 1st Cycle Degree (Bachelor Degree) in scientific and engineering disciplines with a focus on electrical/electronic subjects. This Course has been active for some 20 yrs and still offers a clearly recognised specialisation in the area of engineering, a true passe-partout for the widest professional and scientific contexts. The Course is designed with the aim of shaping young engineers with an in-depth knowledge about the scientific and technological aspects of electronics and electromagnetism, with a particular attention toward the application of these technologies. The study and application of mathematics, solid-state physics and chemistry is also among the main targets of the Course. The Course is organised in 12 subjects, among which 2 are chosen by the students according to their personal interests, with classroom lectures and extensive laboratory activities. The professional competences that the student will gain concern the ability of designing and using complex electronic systems in environments like telecommunications, photonics, smart power electronics, robotics and health care. First year Electromagnetic Fields II Microwave Engineering Chemistry and Processes for Microelectronics Environmental Data and Signals Processing Semiconductor Devices Solid State Physics Mathematical Methods for Engineering and Queue Theory System theory and optimal control Second year Electronic Systems for Energy Microelectronics Sensors & Transducers and Automatic Measurement Additional Educational Activities 12 ETCS chosen by the student Numerical Calculus and Programming Measures for Automation and Industrial Production Measurements for the Quality & Electrical Security VLSI Design Antennas and radiopropagation in complex environments Operations Research Advanced topics in electromagnetics Graph Theory6 Theory of cryptography Final dissertation [-]

Master of Science in Nano and Radio Sciences

Aalto University
Campus Full time 2 years August 2017 Finland Espoo

This programme offers all this and more. The Master’s programme in Nano and Radio Sciences offers you fundamental knowledge in the following areas: micro- and nanosciences, micro- and nanoelectronic circuit design... [+]

Are you curious how modern wireless devices work and why wireless connection is getting faster and faster? Would you like to know how to integrate radio-frequency circuits and antennas into smallest wireless sensors e.g. for the "Internet of Things", for satellite-based earth or space observation, or for implantable medical devices? Perhaps you are also interested in nano fabrication methods, solar panels, or radio propagation and electromagnetics in basic research? This programme offers all this and more. The Master’s programme in Nano and Radio Sciences offers you fundamental knowledge in the following areas: micro- and nanosciences, micro- and nanoelectronic circuit design, advanced materials and photonics, radio science, and space science & technology. In this programme you approach engineering studies from both industrial and scientific perspectives. You can be theoretically oriented or direct your studies more towards practical applications. Study Programme The programme offers five major options. During the first semester you focus on the common subjects, and at the end of the semester you select your major. During the second and third semesters you gain a deep insight in your chosen major, which leads to the Master's thesis during the second year of your studies. The programme is a combination of theoretical and practical courses which consist of lectures, independent exercises, computer simulations, laboratory works, and group assignments. The studies are closely connected to the current research in the relevant field. The programme also allows for elective studies from a broad choice of topics within for example arts, business and other technological subjects. The Master's degree (120 ECTS) is composed of studies in major (65 ECTS), elective studies (25 ECTS), and Master's thesis (30 ECTS). Majors Advanced Materials and Photonics Micro- and Nanoelectronic Circuit Design Micro- and Nanosciences Radio Science Space Science and Technology Career options After completing the programme, you have gained substantial knowledge and skills to work as an expert in your chosen field. In the early phases of your career you would typically work in research and development-oriented tasks. However, the master’s programme provides you with strong theoretical background, which facilitates career changes based on individual preferences, also later in your career. In this programme all majors are linked to ongoing research within various research groups in the departments. Thus, one option is to continue the studies as a researcher and a graduate student towards a doctoral degree. Tuition fees and scholarships Non-EU/EEA students selected in the application round 2017 will be charged tuition fees. Departments of Micro and Nanosciences and Radio Science and Engineering typically offer the best students summer trainee/research assistant positions. Admission requirements Required prior knowledge Applicants to the programme must first meet the general eligibility criteria and language requirements common to all Master’s programmes in Science and Technology. The applicant should have a Bachelor’s degree (minimum 180 ECTS credits or equivalent) in electrical engineering. Excellent candidates with degrees in other fields such as natural sciences, mathematics, or materials sciences will be considered. The following background knowledge is required for the Master's Programme. This knowledge is typically obtained by studying a Bachelor degree at a research university, especially in electrical engineering or closely related field. electronics mathematics basic programming skills physics Students chosen to the programme may be required to complement their earlier degree with complementary studies. The admission letter will provide information on any such requirements. The complementary studies cannot be included in the Master's degree but will be required for graduation. Evaluation criteria The application process is competitive. First the applicant’s suitability for the programme is evaluated. The applicants are then ranked and the best applicants are granted admission. The evaluation of the applicants is based on the following criteria: Content of the previous degree Recognition and quality of the home university Study success Motivation and commitment Other relevant achievements Recommendations Language Proficiency Advice for applicants from Finnish Universities of Applied Sciences The minimum GPA for applicants from Finnish universities of applied science is 3.2. Applicants with GPA below the limit cannot be admitted unless they have other exceptional qualifications. Meeting the minimum does not guarantee admission to the programme. Previously, all admitted students whose previous degree was from a Finnish university of applied science were required to take complementary studies. This is no longer a requirement, and complementary studies are assigned only in individual cases. Therefore, it is important to demonstrate the depth of the required prior knowledge in the application. This can be achieved, for example, with excellent grades in the relevant Bachelor courses, and by completing a small number of demanding courses in the areas of required knowledge. Required application documents In addition to the mandatory application documents, applicants to the NanoRAD programme are requested to provide the following additional documents: at least one original recommendation letter (preferably academic) work certificates and certificates of other relevant achievements copies of any publications official transcript of records for other university studies which are not included in the mandatory part of the application The application should explain the full educational history of the applicant. If you have started or completed other studies in addition to the Bachelor's degree mentioned above, please provide also the official transcripts and possible degree certificates of those. If you have work experience or other activities or achievements that could support your application, please include certificates or other proof of these in the application. If you have publications, include copies or permanent web links to them. Use the CV and motivation letter to provide a summary of your personal history, achievements and objectives and other points that you find important for the application. [-]

Master of Science in Electromechanical Engineering Technology

KU Leuven - University of Leuven
Campus Full time 1 year September 2017 Belgium Leuven

The cornerstones of this programme are mechanical design and energy conversion. The former starts with an idea that is shaped in a graphical design and results in a finished product through choice of materials, simulation and production technique. Energy conversion is aimed at all aspects of energy efficiency in this process and ranges in practice from electrical controls and automation to thermal power plants, combustion engines, climatisation, etc. [+]

Masters in Electronics in Europe 2017. The cornerstones of this programme are mechanical design and energy conversion. The former starts with an idea that is shaped in a graphical design and results in a finished product through choice of materials, simulation and production technique. Energy conversion is aimed at all aspects of energy efficiency in this process and ranges in practice from electrical controls and automation to thermal power plants, combustion engines, climatisation, etc. Intelligent Manufacturing option The issues covered in this option include the latest production techniques; the way production systems operate; and the intrinsic relationship between production and other business processes, especially the design process. At the core of this option are the possibilities that computer-based systems offer in this context. Moreover, you learn to factor in the tension between technology, economics, and the environment and ergonomics. Intelligent Mechanics option The option Intelligent Mechanics relates to designing, developing and optimising automated mechanical machines. Based on a strong background in electricity and mechanics, you delve more deeply into aspects like advanced design methods, electronic operations, controls, measures and drives, data communication and visualisation methods. Intelligent Mobility option Intelligent Mobility deals with the sustainable application of smart solutions. Its application area is very broad, but examples include: fitting electric or hybrid cars with intelligent recharging systems and designing vehicles that can warn each other about accidents or traffic jams. Intelligent Mobility also has to do with choosing materials or production methods that have the smallest ecological impact possible, and optimally syncing transportation systems to one another. This is an initial master's programme and can be followed on a full-time or part-time basis. Add an in-company or project-based learning experience to your master's programme You can augment your master's programme with the Postgraduate Programme Innovation and Entrepreneurship. This programme is made up by a multifaceted learning experience in and with a company, with an innovative engineering challenge as the central assignment. It is carried out in a team setting, has a distinct international dimension, and usually requires a multidisciplinary approach. Entrepreneurs and students alike are encouraged to innovate, transfer knowledge and grow. It is a unique cross-fertilisation between company and classroom. Profile Are you a future industrial engineer? Are you a doer and are you fascinated by how and why things are done? Then you must be a future industrial engineer! - You enjoy looking into how to implement new ideas and improve old ones; - You prepare abstract designs for implementation in a business environment; - You like to link theory to practice; - You aim for a position of responsibility that allows you to apply your knowledge to concrete challenges in the day-to-day workings of a company; - You are eager to develop excellent communication and management skills. Objectives The Master of Industrial Sciences in Electromechanical Engineering is capable of: selecting, formulating, analyzing and answering appropriately a research question of his own choice based on a theoretical or practical problem in his area of technology while taking into consideration the paradigms and making use of appropriate research methodology. achieving maximum efficiency from products and machinery through computer-aided engineering in areas of dimension and control, materials design, kinematic, dynamic and thermal behaviour. analyzing and structuring problems of production control at the level of computer integrated manufacturing (CIM) and designing and implementing controls for installations. managing technology and communicating efficiently the results of his own work, study and research. continuing the process of self-education as well as coaching others in their development as individuals and professionals. integrating relevant research, work and/or study experiences acquired in other environments either at home or abroad. functioning and cooperating in multidisciplinary and international teams through project work and through an exchange of views and opinions. recognizing and taking into consideration the ethical, economic, ecological and aesthetic aspects and implications of his actions. International Students Diversity and an open mind are vital elements in the international learning and work environment at the Group T campus. The student population, staff, and guests come from all corners of the world, turning our campus into a true intercultural nexus for bachelor- and graduate-level education, university-industry collaboration, innovation and professional development. Advantages for international students - All of our undergraduate and graduate degree programmes are offered in English. English is ubiquitous both inside and outside the classroom. If you've mastered English, you'll feel right at home. - Admission to our programmes is not based on an entrance exam. Anyone with the necessary background can apply. - An engineering degree from KU Leuven's Group T campus is a stepping stone to universities and businesses worldwide. Our international network ensures that your degree is recognised by educational institutes and companies in Europe and across the globe. - Leuven is one of Europe's oldest university towns and is located in the heart of Western Europe - just 20 minutes from Brussels, and within easy reach of Paris, Amsterdam, and London. - Tuition fees are markedly lower than those of comparable universities in the US or the UK. Also, Leuven is a mid-sized university town, so cost-of-living expenses tend to be lower than those of other university towns. - The International Office at KU Leuven, Group T Campus has years of experience in welcoming international students from universities worldwide. [-]

Master in Electronic Embedded Systems

ESIGELEC Graduate School of Engineering
Campus Full time 3 - 4 semesters September 2017 France Rouen

- Electronics and embedded systems, - Design, development and production of electronic systems and equipments used in aeronautics, space and automobile industries, - A few project management modules and a project care also included in the programme. [+]

COURSE STRUCTURE The Master’s Programme comprises: For students with a 4-year Bachelor’s Degree minimum and with a specialisation in Electronic/ Instrumentation/ Electrical Engineering/ Automation: Semester 2 – Academic (on campus) Semester 3 – Academic (on campus) Semester 4 – Internship (company/laboratory) For students with a 3-year Bachelor’s Degree OR with a 4-year Bachelor’s Degree in another engineering stream: Semester 1 – Academic (on campus) Semester 2 – Academic (on campus) Semester 3 – Academic (on campus) Semester 4 – Internship (company/laboratory) The first three academic semesters* are offered between September 2016 and January 2018. Lectures, tutorials, lab work, practical work, projects, conferences and/or seminars make up the academic semesters. Evaluation, in the form of tests, quizzes, exams, etc. is conducted on a regular basis. Faculty members are from ESIGELEC and/or INSA Rouen, from partner companies and from partner universities in France or abroad. * 2 semesters in the case of students granted direct entry into the second semester, beginning February 2017 The final semester is devoted to industrial or research experience, during which students must do a mandatory internship in a company or laboratory for a period of 4 months (min.) to 6 months (max.). While ESIGELEC and/or INSA Rouen provide assistance to find internships, students are expected to play an active part, as internships are not offered automatically. The students have up to a maximum of two years, after the final academic semester: to find and complete the internship to submit a professional thesis and make an oral presentation before a convened jury Failure to meet these requirements may result in the degree not being awarded. The Student Status Registered Student status & Enrolled Student status The final semester comprises three stages, i.e. completing the internship, submitting the professional thesis and the oral presentation before a jury convened by ESIGELEC. Students are considered Registered Students of ESIGELEC for a period of 6 months after the end of the last academic semester. During this time, students are expected to complete the three aforesaid stages. The Registered Student status will be extended if a student has started the internship but has not completed second/third stage. In the case of students not starting the internship in the six months following the end of the final academic semester, they will have to re-enrol and will be considered Enrolled Students of ESIGELEC. The Registered Student status will take effect again upon commencement of the internship and remain valid until such time the student has completed all three stages therein involved. A student has a maximum period of two years to complete the three stages of the internship semester. The Registered Student and the Enrolled Student status will cease to apply irrespective of whether or not the student has been awarded the Master’s Degree by the jury of ESIGELEC and INSA Rouen, upon completion of the course. Course Outline & Guidelines Master in Electronic Embedded Systems The Master’s Programme seeks to equip the students with the relevant knowledge, professional skills and practical experience in Electronics and Embedded Systems for industry or for research. They will learn how to design, develop and implement embedded systems in different sectors. Students will also acquire basic managerial skills. The international environment at ESIGELEC allows students to discover new cultures and languages. Students must appear for the TCF or TEF certification exams in French (or TOEIC for French speaking students). The mandatory internship gives the students a hands-on experience in the work environment. Our graduates find job opportunities as developers, project managers, consultants or researchers in the field of electronic embedded systems. Content Electronics and embedded systems, Design, development and production of electronic systems and equipments used in aeronautics, space and automobile industries, A few project management modules and a project care also included in the programme. Fast track Possible direct admission into semester 2, for students with a 4-year Bachelor’s Degree and upon validation of ESIGELEC [-]

MPhil in Engineering, Product Design and Textiles specialisms

University of Bolton
Campus Full time 2 - 4 years August 2017 United Kingdom Bolton

The master of philosophy (MPhil) degree is aimed at students with a good honours degree (or significant work experience and professional qualifications) who wish to undertake a research-based masters degree. As an MPhil student you will critically investigate and evaluate an approved topic and demonstrate an understanding of research methods in your chosen engineering or design subject area. You will present and successfully defend a... [+]

Masters in Electronics in Europe 2017. Engineering, Product Design and Textiles specialisms - MPhil The master of philosophy (MPhil) degree is aimed at students with a good honours degree (or significant work experience and professional qualifications) who wish to undertake a research-based masters degree. As an MPhil student you will critically investigate and evaluate an approved topic and demonstrate an understanding of research methods in your chosen engineering or design subject area. You will present and successfully defend a thesis by oral examination to be awarded the degree. If you wish to develop research and analytical skills, this course is appropriate. If you are a professional who would like to gain postgraduate qualifications, but do not want to undertake a taught masters programme, then this is an alternative. Careers & professional development If you register for the MPhil you may be approved for transfer to a PhD after an initial period of registration and demonstration through a progress report of the development of your research into a PhD. Recent graduates have gone on to careers in academia and management roles in industry. Subject overview The engineering and design research group works in collaboration with industry. Our strengths lie in applied research. The group encompasses a number of different engineering and design disciplines, including electronic engineering, mechanical engineering, automotive engineering, product design and textiles. Research topics Research topics include: - applications of electronics - applied physics - robotics - manufacture of electronics-enabled products - engine design - structural crashworthiness - impact biomechanics - accident investigation - manufacturing systems - general textile technology - textile supply chain - advanced composite materials - inclusive design - finite element modelling. [-]

Master in RF, Microwave and Terahertz Engineering of Wireless Systems

Saint Petersburg Electrotechnical University
Campus Full time 2 years September 2017 Russia St. Petersburg

The structure of the degree program consists of advanced professional studies, elective courses and Master’s Thesis. [+]

The structure of the degree program consists of advanced professional studies, elective courses and Master’s Thesis. The program is to train students who will manage successfully professional activity in a globally competitive environment in such an interdisciplinary field as design and technology of the state-of-the-art high-frequency, microwave, and terahertz devices for communications, radar, and other wireless applications. Program curriculum includes the following advanced courses: Introduction to Wireless Systems Computational Electromagnetics Foundations of Microwave Circuit Technologies Basics of Antenna Design Passive Microwave Components and Devices End-to-end PCB Design Wireless Communication Systems Active Microwave Devices CAD of Microwave Devices and Systems Microwave and THz Metamaterials Introduction to Microwave Measurements Programme: 120 ECTS credits, full-time study (2 years), Master’s Degree Eligibility: candidates must hold a Bachelor's Degree in the corresponding field Scholarship: scholarship covers the tuition fee and some study materials An academic year includes 2 semesters beginning on 1st September and 10th February, Winter holidays - 2 weeks, Summer holidays - 2 months (July, August). Master’s Thesis defense is in June. Educational programs of «LETI» are constantly modernized, following the principle «Training through research». Graduates of our university receive new, profound knowledge and practical skills of work. [-]

Master's Degree in Electronic Engineering

University of Bologna School of Engineering and Architecture
Campus Full time 2 years September 2017 Italy Bologna

ECST students, international program fully taught in English, will attain knowledge in the basic issues related to advanced micro-nano-electronic devices, solid-state sensors and biosensors, including reliability features. [+]

Masters in Electronics in Europe 2017. Master goals ECST students, international program fully taught in English, will attain knowledge in the basic issues related to advanced micro-nano-electronic devices, solid-state sensors and biosensors, including reliability features. They will as well acquire skills in the modelling and design of digital and analog integrated circuits, advanced telecommunication systems, artificial intelligence and software engineering applications, automation systems and bioengineering. Learning activities ECST is a 120 credits, four-semester programme, consisting in core classes (60 credits), curriculum classes (18 credits), elective classes (12 credits), general-culture classes (9 credits) and a master thesis (21 credits). The core classes are mainly concentrated in the first year and aim to consolidate basic knowledge. During their second-year students can choose their curriculum classes mostly in the field of electronics and telecommunications with options in automation and robotics, computers and information processing, and bioengineering. The classes are organized with lectures, practice, design and laboratory activities. Career opportunities ECST graduates will be able to work in companies whose core business is the design and/or manufacturing of devices, equipment, systems, and infrastructures of electronic and optoelectronic type, including sensor systems, advanced telecommunication systems, applications of artificial intelligence and software engineering. Moreover, they will be able to effectively contribute to all working activities employing electronic technologies or infrastructures for signal processing in the civil construction, industrial and information fields, within public or private research Institutes, public Agencies, or Academia. Their responsibilities will be ranging from design to research, development, management and teaching. [-]

Master in Electrical Power Engineering

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

A high-quality theoretical education and a universal basis of application-focused studies ensure high adaptability of the graduates to all particular requirements of their future professional practice, either in operation and engineering or in science and research. The basic subjects include applied mathematics, selected principles of electrical power engineering, and electrical heat technology. [+]

Faculty of Electrical Engineering and Computer Science Study Branch Electrical Power Engineering Branch Profile A high-quality theoretical education and a universal basis of application-focused studies ensure high adaptability of the graduates to all particular requirements of their future professional practice, either in operation and engineering or in science and research. The basic subjects include applied mathematics, selected principles of electrical power engineering, and electrical heat technology. The course is divided into five specializations: Transmission and Distribution of Electric Power, Generation of Electric Power, Electrical Power Engineering in Transport, Electrical Machines and Devices, Commercial Electrical Engineering, specializing in the following subjects - electrical power engineering of industrial and distribution networks, power plant equipment, electrical power engineering in transport, electrical machines and devices, and technological processes. Further, the department offers the following optional subjects – electromagnetic compatibility, diagnostics of electric equipment, theoretical electrical power engineering, transient events in electrification systems, designing electricity distribution networks, computers for measurement and diagnostics, protection and automation in distribution networks, control of electrification systems, and many others, see the syllabus. Key Learning Outcomes - Knowledge Graduates posses a thorough, state-of-the-art knowledge and understanding of theories, concepts and methods of the chosen specialization, either Transmission and Distribution of Electric Power, Generation of Electric Power, Electrical Power Engineering in Transport, Electrical Machines and Devices, or Commercial Electrical Engineering, s well as an understanding of the possibilities, conditions and limitations of applying the findings of the related areas. - Skills Graduates are able to independently define and creatively deal with theoretical or practical problems of the branch, using their professional knowledge; independently and creatively solve a complex problem using selected theories, concepts and methods of the branch; apply some of the advanced research procedures of the branch enabling them to gain new, original information. - General competencies: Graduates are able to make independent and responsible decisions in new or changing contexts or in a developing environment with respect to broader social consequences of the decisions; define the assignments for professional activities according to the developing contexts and available sources, to coordinate them, and bear ultimate responsibility for the results; deal with an ethical problem independently; communicate to both experts and the public his/her own opinion in a comprehensible and convincing way; use their professional knowledge, expert skills and general qualifications in at least one foreign language; plan, support and manage the acquisition of further professional knowledge, skills and qualifications of other team members. Occupational Profiles of Graduates The graduates in Electrical Power Engineering are able to deal with operational and technical problems in the spheres of production, transmission, distribution and the use of electric energy. The graduate can find employment in leading and managerial positions at the stage of assembly, implementation, maintenance and operation of electrical equipment, in technical, design, investment, and operational departments of power plants and distribution companies, in power control rooms, departments of preparation and operation of electrification systems, in technical, designing, investment, assembly, and operational departments of industrial companies, in the area of the use of electrical energy in industry when dealing with the issues of electrical drives, electric heating equipment, electric lighting of indoor and outdoor areas, at testing laboratories, technical testing, and at research and development institutes. Admission Requirements Determined by Dean, may include entrance examination, specific courses taken during bachelor studies, other formal documents. Graduation requirement 120 ECTS Credits, Final state examination, Diploma thesis Course Structure Diagram with ECTS Credits 30 ECTS credit per semester. [-]

Integrated Master's in Industrial Electronics and Computers Engineering

University of Minho - School of Engineering
Campus Full time 10 semesters September 2017 Portugal Braga

The course's main goal is to train graduates prepared to take on a professional activity in the domain of Electronics and Computers Engineering, i.e., which are able to specify, design and implement electronic systems and/or devices in several specialization areas: Automation, Control and Robotics; Electrotechnics and Energy Systems; Computer Technology; Microtechnology and Instrumentation; Telecommunication Systems. [+]

Masters in Electronics in Europe 2017. Academic degree: Bachelor (Bologna 1st cycle degree), Master's degree ECTS: 300 Duration: 10 curricular semesters Regime: Normal Place: Azurém Campus, Guimarães Main Scientific area: Informatics and Electrotechnics Engineering INTEGRATED MASTER’S | 5 YEARS The course provides graduates (3 years) a wide spectrum of skills with a strong practical component in the digital and analogical electronics, eletrotechnic, control and informatics, which allows them to develop integration projects. The teachers provides advanced training that enables them to design and implement systems and / or devices in two of six areas of specialization to choose from: automation and robotics, energy, microelectronics, software and dedicated computer, and telecommunications and information technology. Professional careers include developing equipment companies and services in these areas. Careers The companies? permanent need of larger development, modernisation and internationalisation constitutes a primary and continuous source of employment for the graduates in Industrial Electronics and Computers Engineering. The employment rate is nearly 100%. [-]

MSc in Embedded Electronics Engineering

Lund University
Campus Full time 2 years September 2017 Sweden Lund

Embedded Electronics Engineering offers a wide perspective, where digital and analogue design are regarded as one unit in which different domains interact. [+]

Programme overview

Embedded Electronics Engineering offers a wide perspective, where digital and analogue design is regarded as one unit in which different domains interact. The focus is on CMOS, where billions of devices are used to build a system on a single silicon die. The programme is demanding and unique in its offering, a perfect preparation for your future career. It spans areas from radio frequency (RF) circuits through to data conversion and digital circuits. Another distinguishing programme feature is that circuit design is linked to the area of wireless communication, where RF front-ends are co-designed with digital baseband, which provides the opportunity to build complete transceivers. Due to the extensive local industry, the programme is closely linked with a variety of private companies, which ensures that our courses maintain high market relevance. In some cases our students’ degree projects result in patent registrations and the opportunity to publish their work at international conferences. ... [-]


Advanced Master Embedded Lighting Systems

ESTACA
Campus Full time 400 hours September 2017 France Paris

The vehicle lighting sector is currently undergoing major change with the development of new technologies like LED lights, as well as new and complex lighting systems functionalities. This changing landscape provides an opportunity to explore new avenues for innovation based on lasers, smart lighting solutions and new lighting functionalities. Therefore, three major Engineering Schools in Transportation Engineering (ESTACA), Optical Sciences (Institut d’Optique Graduate School) and Design (STRATE – Ecole de design) join their experience in engineer training to develop a high-level international Advanced programme designed for training cross-skilled engineers for the field of vehicle embedded lighting systems. The training structures are strongly connected to research and actively supported by industrial players. [+]

Masters in Electronics in Europe 2017. THE HIGH-LEVEL INTERNATIONAL TRAINING CURRICULUM IN VEHICLE LIGHTING SYSTEMS The vehicle lighting sector is currently undergoing major changes with new technologies such as LED lights, as well as new and complex lighting systems functionalities. This changing landscape provides an opportunity to explore new avenues for innovations based on lasers, smart lighting solutions and new lighting functionalities. Therefore, three major Engineering Schools in Transportation Engineering (ESTACA), Optical Sciences (Institut d’Optique Graduate School) and Design (STRATE – Ecole de design) join their experience in engineer training to develop a high-level international Advanced programme designed for training cross-skilled engineers for the field of vehicle embedded lighting systems. The training structures are strongly connected to research and actively supported by industrial players. AIM: To train future project managers, department managers and experts in the field of ligthting systems. In an integrated vision from design to production including creative design, optical, mechanical and system design, simulation and virtual prototyping, embedded power and intelligence. PROGRAMME BENEFITS: High-level international training curriculum, 100% in English, with a broad international attendance (students from Korea, China, Spain, USA, France in last session) Leading edge and pioneer in lighting systems, with LEDs, laser sources, intelligent systems, to prepare for future lighting systems in Automotive or Aerospace, providing both theoritical and hands-on knowledge for all lighting applications. In a fast growing domain, outperforming systematically the global automotive growth, thanks to the strong increase of the technical content, and forecasting to recruit +15% to +30% engineers between 2014 and 2020 A program run by leading experts in the field of vehicle embedded lighting systems tailor-made to suit industry needs, with the strong support of industrial partners, currently hiring new graduates worldwide A program delivered by higher education institutions in optics, embedded systems and design in Paris area in France A post graduate degree accredited by CGE (Conférence des Grandes Ecoles - France's top-ranking engineering colleges): “Advanced Master” ("Mastère spécialisé©" in French),undergoes a rigorous accreditation procedure that guarantees the programme’s quality SYLLABUS: 400 hours of academic coursework (in 2016, from September 5th to December 16th) 6 SESSIONS COVER OPTICS & PHOTONICS FOR LIGHTING (INSTITUT D’OPTIQUE GRADUATE SCHOOL), THEY INCLUDE: Basic training in optics and photonics ; sciences, technology and applications of light sources including lamps, discharge tubes, LEDs, OLEDs and lasers ; photometry of sources and optical Systems, colorimetry ; Optical systems design and shaping of illumination using complex surfaces, light guides and diffractive optics ; computer assisted optical design ; 2D & 3D photometric Simulations, realistic and physico-realistic rendering of illumination and aspect, measurement and simulation of surface aspects, vision and cognition. 2 SESSIONS COVER EMBEDDED SYSTEMS (ESTACA), THEY INCLUDE : Embedded electronic driving and regulation of sources ; hardware dimensioning ; servo controls, actuators, sensors including visible and infrared cameras ; Embedded energy management ; Electrical & electronical vehicle architecture ; Embedded intelligence for illumination and driving assistance ; system design and CAD. 3 SESSIONS COVER RELATED TECHNOLOGIES (ESTACA), THEY INCLUDE : Mechanics and materials: design and CAD, process including injection, Tools, assembly & plastic welding, surface processing ; environment simulation: humidity, thermal, impacts & vibrations ; Integrated design of embedded lighting systems, prototyping and industrialisation ; regulatory requirements: regulations and standards ; Patents and industrial property. 1 SESSION COVERS CREATIVE DESIGN OF LIGHTING SYSTEMS (STRATE Ecole de design), IT INCLUDES: Industrial design, awareness, vocabulary, creativity A PROFESSIONAL THESIS of 6 months minimum in a lighting company, between January and July. ASSESSMENT: Teaching modules assessed via exams and case studies Academic project & Professional thesis assessed with a dissertation JOB PROSPECTS: In a highly competitive international context, the program meets the needs for advanced skills of all players in the value chain: car manufacturers, lighting systems and components suppliers, and engineering service providers. INDUSTRIAL PARTNERS: Renault, PSA Peugeot Citroën, Valeo, Automotive Lighting, Osram, Nertrandt, Mentor Graphics COURSE BREAKDOWN: Lectures, case studies, team work project and management, LANGUAGE: English NUMBER OF CREDITS: 75 ECTS LOCATION: The faculty will be based in Paris-Saclay, near Paris, in the heart of a high-growth area offering dense and diversified scientific and technological potential. Classes, tutorials and labs will be hosted at ESTACA (Montigny le Bretonneux), Institut d'Optique Graduate School (Paris-Saclay) and Strate – School of Design (Sèvres) (link to maps) ELIGIBILITY: This program is open to all international and French students holding a Master of Science (preferably in scientific fields). Applicants must prove an engineering degree recognized by the Commission des Titres d’Ingénieurs (Commission for Engineering Degrees), or a master degree or equivalent, or a foreign degree equivalent to one of those. Applicants should have English language proficiency at the B2 level (minimum paper based TOEFL: 575 or TOEIC: 785) A limited number of applications, not fulfilling the degree criteria but with outstanding credentials INFORMATION AND ADMISSIONS: embedded-lighting.com PRICE: 13 000€: Full Fee 11 000€: Reduced fee for recently graduated students Fee can be reduced by 50% or 100% for a limited number of self –sustained students [-]

MEng in Electronic Systems

Dublin City University
Campus Full time 1 year September 2017 Ireland Dublin

This one year, full time Masters programme is designed to deepen students’ understanding on 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. [+]

Introduction This one year, full time Masters programme is designed to deepen students’ understanding on 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. Choice of Majors Internet of Things - This innovative Major addresses the emergent significance of the design and networking of Internet-connected embedded devices and technologies. The Major will provide graduates with knowledge, skills and competencies in the areas of real-time signal processing, data analysis and machine learning, connected embedded systems and network programming. At the forefront of current and future electronic and computer engineering developments, this Major offers a unique opportunity in the area of IoT. Nanotechnology - The aim of this Major is to deliver leaders in nanoelectronics, high-level logic synthesis and photonics - strong interdisciplinary sectors with huge growth. This Major focuses on the skills and knowledge required to produce functional electronic and photonic devices and constituent structures of nanometre dimensions. It will also provide graduates with expertise in modern semiconductor manufacturing practices, methodologies and technologies. Image Processing and Analysis - The growth of applications in manufacturing, biomedicine, media, ICT and the life sciences is creating a strong demand for graduates in the Image Processing & Analysis field. This Major will prepare graduates to specialise in the areas of image processing and analysis, computer & machine vision, biomedical imaging and image synthesis techniques. Structure The MEng in Electronic Systems is designed to be completed in one calendar year of full-time study. It consists of two (full-time) taught semesters, followed by a practical project, completed between May and early September. The next intake for this programme will be September 2017. DCU offers a number of scholarships to international students each year. To be eligible to apply for a scholarship from DCU you must first apply to and receive an offer for a DCU Masters programme. Apply online for September 2017 entry at www.pac.ie/dcu using the PAC code DC800 [-]

Faculty of Automation and Computing

Technical University of Varna
Campus Full time October 2017 Bulgaria Varna

Departments - Automation of manufacturing - Computer Sciences and Technologies - Electronic and micro-electronic engineering - Communication engineering [+]

Masters in Electronics in Europe 2017. Departments Automation of manufacturing Computer Sciences and Technologies The department offers training on the following majors: Software and Internet Technology Computer systems and Technology Studies’ curriculum for the first time in Bulgaria is fully in line with international standards for training in computer science and technology. CST Department regularly update their curricula, thereby allowing the latest achievements in the field of computer science and information technology to be promptly provided to the students. Updating curricula is based on the job market requirements for IT professionals on the most recent recommendations of the IEEE (World Organisation of Electrical and Electronic Engineers) and ACM (Association for computing machinery), and ongoing academic programs of leading universities. Electronic and micro-electronic engineering Electronic engineering is one of the most high-tech and dynamic fields. It has significant influence and applications in many other scientific and technical fields. With their extensive knowledge and adaptive capacity "Electronics" graduates are well prepared for successful careers in services, manufacturing, consulting and design of electronic components and systems used in industry, medicine, communications, computers, etc. Department "Electronic engineering and Microelectronics" maintains close ties with industry and extensive international contacts. Research and applied research in the department are mainly in: Electronic controllers and power electronic converters; Modern technologies for the design of integrated circuits and electronic systems, microprocessor-based control, management and diagnostics systems; Medical electronic equipment for prevention, diagnosis and therapy; Information and measurement systems, industrial controllers and sensors. Students of "Electronics" can enjoy the rich library of technical periodicals issued by the global organization of engineers in electronics and electrical engineering IEEE. They can obtain through INTERNET additional information on the developments in electronics and other sciences. Laboratories have the latest reference and catalog literature. Communication engineering The department is part of the EE Faculty at the Technical University of Varna and is responsible for special training in "Communications Equipment and Technologies" in "Bachelor" and "Master’s" degrees. The Department provides training on specific subjects as well as other subjects and modules in the EE Faculty, and the Technical University - Varna. The department has laboratories equipped with modern measuring instrumentation in the field of communications and computers, in which the lecturers and students can perform training and research work in the following areas: communication circuits, radio waves and radio lines, analog circuitry, antennas and microwave equipment, measurements in communications, optoelectronics and optical communications, digital transmission systems, signal processing, switching and multiplexing technique, radio communication equipment, terminals, television and video, data and computer communications, audio equipment, telecommunications networks, radio navigational instruments, radio finding cable communication lines; sonar equipment. [-]