Masters Program in Electronics in France

View all Masters Programs in Electronics in France 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.

France is currently among the 20 best performing countries in terms of the economy due to their excellent results-oriented higher education learning. Most of the courses at universities are offered in the French language. France has 60 public and 100 private universities.

Top Master Programs in Electronics in France 2017

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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. [+]

Best Masters in Electronics in France 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 [-]

Master's degree in Electronic Systems Engineering and Technology

Universitat Rovira i Virgili
Campus Full time 1 year

The overall objective of this master's degree is to enable students to find effective solutions to problems in the field of electronic engineering and, specifically, to design electronic equipment and automated production systems, perform maintenance and control in production industries, provide technical advice, or join the sales departments of companies in the electronics sector. For graduates who wish to undertake doctoral studies... [+]

Master's degree in Electronic Systems Engineering and Technology The overall objective of this master's degree is to enable students to find effective solutions to problems in the field of electronic engineering and, specifically, to design electronic equipment and automated production systems, perform maintenance and control in production industries, provide technical advice, or join the sales departments of companies in the electronics sector. For graduates who wish to undertake doctoral studies, this programme will also prepare them to do effective research in collaboration with national and international research groups. Career oportunities Engineering consultancy. Engineering consultancy management. Management of instrumentation/sensors in production plants. Maintenance management. Sales department management. Research and development: research companies in the chemical, industrial, energy sectors, etc. Research and development in technology-based companies. Research and development in universities and research centres. Entrepreneurship. Teaching. Timetable Classes are held in the afternoon/evening from Monday to Friday. Language of instruction English Student Profile This master's degree provides continuity to a first degree in the fields of engineering and technology. The typical entry profile is that of a student who has completed a bachelor's degree in electronic technology or information and communication technology. Therefore, the programme is mainly aimed at students who have bachelor's degrees in aeronautical engineering, telecommunications engineering and industrial engineering (industrial electronics and automatic control or electrical engineering) but it is also suitable for students who have a bachelor's degree in physics and computer engineering. The personal and academic characteristics that are considered appropriate for students wishing to take this master's degree are the following: A technical education and a desire for a career in the ICT industry. Knowledge of basic materials and industrial technologies. Ability and interest in research. Interest in pursuing an academic career. Ability to analyse the need for technological innovation in companies and to assess its suitability and social impact. FIRST YEAR: Compulsory Subjects Digital Signal Processing Micro and Nanoelectronic Devices and Technologies Advanced Digital Systems Electronic Systems in Communications Digital Control Innovation and Engineering* Integrated Laboratory Final Master's Project* *This/these subject/s make up competences required for the subject Career Counselling Citizenship OPTIONAL SUBJECTS: In this section you will find the list of all the optional subjects on the curriculum. Before you select the subjects you wish to register for, please make sure that they have been activated OPTIONAL SUBJECTS BY SPECIALITY Students can choose to take the 15 elective credits without considering the different specialities, or take one of the speciality that will appear in the name of the degree. Specialty Industrial Electronic (15 ECTS) Modeling and Control of Electrical Machines Modeling and Control of Converters Digital Control of Converters Electrical Architecture of Energy Management Systems Radioidentification and Wireless Sensors Design of High Frequency Integrated Circuits with CAD Tools Specialty Electronics Microsystems (15 ECTS) Advanced Semiconductor Devices Nanomaterials in Electronic Engineering Radiofrequency and Optical Electronic Technology Micro and Nano Sensor Systems Design of Experiments and Advanced Data Analysis BRIDGING COURSES:(**) Circuit Theory Basic Electronics (**)After checking the candidate’s transcript, the body responsible for admission can decide that the student must attend and satisfactorily complete some of the subjects that are programmed as bridging courses. Admission qualifications A university degree in Aeronautical Engineering, Telecommunications Engineering, Computer Engineering, Industrial Engineering (Electrical Engineering or Industrial Electronics and Automatic Control), Automatic Control and Industrial Electronics Engineering, Electronic Engineering, Physical Science, Physics Engineering, or a related field. A university Aeronautical Engineering diploma in Aircraft Engines, Air Navigation, Aircraft, Airport Engineering or Aerospace Equipment and Materials; a university Telecommunications Engineering diploma in Electronic Systems, Telecommunication Systems, Image and Sound or Telematics; a university Computer Science engineering diploma in Computer Software Engineering or Computer Systems Engineering; a university Industrial Engineering diploma in Industrial Electronics or Electricity; or a qualification in a related field. Specific documentation A part from the compulsory documentarion to pre-enrole to the programme, students must do submit the following documents: documentación adicional: Proof of the candidate's merits in relation to points 3 to 6 of the criteria. Selection criteria Suitability of the admission qualification in the following order: a) An official bachelor's or pre-EHEA degree in aeronautical engineering, telecommunications engineering, computer engineering, industrial engineering (electricity or industrial electronics and automatic control), automatic control and industrial electronics, electronic engineering, physical science or physics engineering: up to 8 points. b) An official university aeronautical engineering diploma in aircraft engines, air navigation, aircraft, airport engineering or aerospace equipment and materials; a university telecommunications engineering diploma in electronic systems, telecommunication systems, image and sound or telematics; a university computer science engineering diploma in computer software engineering or computer systems engineering; or a university industrial engineering diploma in industrial electronics or electricity: up to 7 points. c) Other qualifications: 0 points. Evaluation of the students' academic record in the university degree that qualifies them for admission to the master's degree: up to 4 points. Official diplomas in English: up to 2 points. Other training relevant to the content of the master's degree (courses, seminars or other training activities), for which proof must be provided: up to 2 points. Extended stays in English-speaking countries (at least 12 weeks), for which proof must be provided: up to 2 points. Proven work experience in a field requiring a degree in an area related to the master's programme. 0.2 points for each full year of work experience, up to a maximum of 2 points. [-]

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. [+]

Best Masters in Electronics in France 2017. 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 [-]

Master Electronic and Mechanical Engineering - Mechanical engineering

University of TOURS
Campus Full time 1 year September 2017 France Tours

This Research Master entitled « Electronic and Mechanical Engineering - Mechanical Engineering program» (EME) is a one-year study aiming at bringing students, the theoretical background required to be an expert in [+]

This Research Master entitled « Electronic and Mechanical Engineering - Mechanical Engineering program» (EME) is a one-year study aiming at bringing students, the theoretical background required to be an expert in the field. This research oriented program is intended to form highly qualified personnel to be active in Mechanical engineering industries (transport, aeronautics, automobile etc). This Research Master is managed by international high-level institutes, Polytech Tours, the Laboratory of Mechanics and Rheology and the research centers CEROC, CERMEL, CERTEMPlus. Invited lectures will be organized with the participation of scientists from partner institutes in UK, Poland, Italy and India This Masters, taught entirely in English, aims to specialize students in the science and engineering of ceramics, metals, polymers/ elastomers, and composites, with emphasis on a variety of subjects like materials for electronics, biomaterials, nanotechnologies, mechanics, design, numerical modeling, reliability, life cycle analysis, fracture analysis etc. This program will cater to the needs of both engineering and science majors. Close contacts with the Industry will be provided through off-campus work assignments in industry (internships) or in academic lab. Our goal is to produce well qualified materials scientists and engineers who can function effectively in the technical arena as well as possess the skills to assume leadership roles in industry, academia, and government. The program objectives are to produce graduates who are: - able to apply the principles of materials science for undertaking advanced engineering and/or research projects. - knowledgeable about a variety of engineering materials (including metals, semiconductors, ceramics, polymers, and composites), and the relationships among processing, structure, properties, and performance. - able to define and solve problems, especially those involving materials selection and design, and are able to develop, implement and evaluate solutions via integration of their basic scientific skills and knowledge. - able to communicate effectively and who demonstrate the ability to function in multi-disciplinary teams. - skilled at using modern engineering tools for characterization, analysis and design of materials. - able to understand their responsibility towards their profession and society in a global context. The academic and industrial partners for this program are: - Indian Institute of technology, Madras, India - Vellore Institure of Technology, India - Univertsity of Lodz, Poland - Politecnico di Torino, Italy - Univetsity of Manchester, U.K. - Micromaterials, U.K. - G.M.T., Chennai, India [-]

Master In Electrical Engineering Engineering And Sustainable Development

ESIEE Amiens
Campus Full time 3 - 5 years September 2017 France Amiens

Training in the ESIEE-Amiens is divided into a core curriculum of three years, followed by 'an option of specializing in two years [+]

Master of Engineering in Electrical Engineering and Sustainable Development

Training in the ESIEE-Amiens is divided into a core curriculum of three years, followed by 'an option of specializing in two years. 3 years to discover two years to access the Job The core curriculum is defined by a broad training, balanced and practical in Science and Science 's Engineer. It is based on an understanding of the multidisciplinary profession of Engineering and provides practical realities 's business through projects and internships. A project-based learning that allows to understand the business issues Following the Common Core, round off the last 2 years 's future employability by engineer ' s assimilation of its professional skills and know-being company. ... [-]


International Master of Electronics

ESIEE Paris
Campus Full time 2 years September 2017 France Paris

The programme aims to train engineers with a high technical added value in the field of micro- and nano- technologies applied to wireless communications, electronic circuits, [+]

Master of Engineering - International Master of Electronics

Option : Wireless communication

Option : Micro and Nano-Technologies

The programme aims to train engineers with a high technical added value in the field of micro- and nano- technologies applied to wireless communications, electronic circuits, optoelectronic, photonic MEMS, BioMems, sensors etc.The first year consists of a common core of courses focusing on fundamental scientific and technical aspects and tools. The second year consists of specialised courses in one of the two options (Wireless communications, Micro- and Nano- Systems).The applied hands-on nature of the second year will provide students with qualifications very sought-after in both the current industrial environment, and in academic research. Entrepreneurship and innovation issues, as well French culture and language are also considered. Further to this master, students may undertake a PhD, or begin an engineering career.... [-]


Master in Telematic Engineering

Carlos III University of Madrid
Campus Full time Part time 1 year

The Master of Science program in Telematics Engineering offers advanced education in the telematic engineering field. This includes theoretical and practical grounds in applications, networks and communication services, protocol architectures, multimedia management, broadband networks, mobile communications, ubiquitous computing, Internet technologies, etc. It also provides the student with knowledge on state of the art technologies, prone to be deployed in the next future hereafter. [+]

Master in Telematic Engineering

The Master of Science program in Telematics Engineering offers advanced education in the telematic engineering field. This includes theoretical and practical grounds in applications, networks and communication services, protocol architectures, multimedia management, broadband networks, mobile communications, ubiquitous computing, Internet technologies, etc. It also provides the student with knowledge on state of the art technologies, prone to be deployed in the next future hereafter. The program offers lectures specifically devoted to learning research methods, suited to carry out a Ph.D. Thesis after the obtention of the present M.Sc. More detailed information on the Ph.D. program The seminars offered in the program are selected attending to the relevance and interest of the research topic. We invite highly reputed and experienced lecturers for the seminars. The studies conclude with the elaboration and public defense of the final M.Sc. Dissertation. The objective of the Master program is to instruct researchers capable of making original contributions to the development of telematics technologies, such as protocol architectures, multimedia management, mobile and broadband networks, communication applications and services, or networked devices and security, to cite some. This Program provides the students with the abilities, aptitudes, and advanced knowledge in Telematic Engineering required for incorporating into the research and development industry, or entering a Ph.D. Program, such as the Doctorate Program in Telematic Engineering, officially approved as excellent by the Spanish Ministry of Education. To achieve this general objective, the following educational objectives are proposed: The students will have sound and deep knowledge in Telematics Engineering technologies, including notions of the state of the art in some of them. Students will be able of critical analysis of new trends and new solutions proposals. The students will develop analytical and critical abilities to be able to understand and adapt to the evolution of technologies, and to design new products or systems. The students will acquire autonomy and tools required to develop their own ideas and designs into publications or inventions of utility and scientific level. The students will acquire the abilities and knowledge required for achieving a Ph.D. Thesis in the field of Telematic Engineering. Students applying for admission should have working concepts on computer networks, and some experience on programming or simulation is also advisable. [-]

Master in Telecommunications Engineering

Carlos III University of Madrid
Campus Full time Part time 18 months

The Master in Telecommunications Engineering is a professional degree which replaces the Telecommunications Engineering degree and qualifies you to practice as a Telecommunications Engineer, under the provisions of Order CIN / 355/2009 of 9 February. [+]

Master in Telecommunications Engineering (Bilingual) The Master in Telecommunications Engineering is a professional degree which replaces the Telecommunications Engineering degree and qualifies you to practice as a Telecommunications Engineer, under the provisions of Order CIN / 355/2009 of 9 February. The Spanish Association of Engineers requires professionals from companies in the telecommunications field (major manufacturers of telecommunications equipment or telecom operators) and from other types of companies, institutions or organizations that need qualified personnel to design and maintain their own telecommunications systems. The overall aim of the Master in Telecommunications Engineering is to train professionals who are competent to practice as Telecommunications Engineers. This Master's Degree is geared towards advanced training and enhancing employability. Students who complete the Master in Telecommunications Engineering should be able to address any technological issue in the telecommunications field scrupulously, making use of all the necessary knowledge, skills and perspectives from this academic field. At the same time, they should respect the environment and fundamental rights, and show an awareness that putting their knowledge into practice may have consequences for society (ethical scope) Responding to this demand, this Professional Master in Telecommunications Engineering qualifies you to practice as a Telecommunications Engineer, with all the privileges recognized by the law currently in force. This qualification allows you to complete your graduate technical training in the Telecommunications Engineering field and related ones, while also guiding you towards Telecommunications technological project management. Furthermore, students can capitalize on Universidad Carlos III's previous experience in teaching the undergraduate degree in Telecommunications Engineering (Curriculum published in the Spanish Official Gazette (BOE) of 11 March, 1996). This experience has been successful due to the high level of accomplishment of the initial goals set out for this degree, which have been fulfilled by broad, thorough scientific/technical training for graduates. VERSIONS Two versions of the Master are offered: A bilingual version taught on the Madrid-Puerta De Toledo Campus and a Spanish version taught on the Leganés Campus. Students may select whichever one of the two versions they wish to follow during the admissions process. [-]

Master in Electronic Systems Engineering

Carlos III University of Madrid
Campus Full time 1 year

Electronic systems and their associated components are found in virtually all electronic products, from computers and mobile phones, to cars and buildings. The intelligence that microelectronic, nanoelectronic and photonic systems provide forms a large part of the global economy and its role will increase as future products and services become more digital and more connected. Power electronics endow these systems with competitive advantages by increasing their autonomy, reducing the final load and improving energy efficiency. [+]

Best Masters in Electronics in France 2017. Master in Electronic Systems Engineering (Bilingual) Electronic systems and their associated components are found in virtually all electronic products, from computers and mobile phones, to cars and buildings. The intelligence that microelectronic, nanoelectronic and photonic systems provide forms a large part of the global economy and its role will increase as future products and services become more digital and more connected. Power electronics endow these systems with competitive advantages by increasing their autonomy, reducing the final load and improving energy efficiency. The overall objective of the Master in Electronic Systems Engineering is that students acquire advanced scientific and technological knowledge on electronics and related technologies. To achieve this, they will be taught a set of theoretical principles, formal methods and technological tools that will enable them to develop electronic systems in a professional environment and to embark on research and innovation in this area. The teaching and research excellence of the Universidad Carlos III de Madrid allows the achievement of these two goals, reflected in the international standing of the teaching staff, their full-time dedication and their publications and projects. Industry experts and renowned researchers will also be included, who will participate by conducting seminars, directing internships, theses and collaborative projects. Specific skills that students will obtain on completing the course are: The identification of electronic system blocks, the specifics of their design, possible subsystems that can be used, their integration and final testing. The use of tools to assist in electronic system design. To be familiar with the trends in different electronic system applications, the underlying technologies and experiences acquired from real examples. The use of measuring instruments and electronics to control different devices with applications in avionics, optics, automotive, communications and renewable energy. The ability to select components, technologies and innovative subsystems for use in electronic systems. After completing the Master, students who have completed 300 ECTS (or equivalent training) may apply for admission to: Ph.D. Program in Electrical Engineering, Electronics and Automation [-]

Master in Optics and Photonics

Karlsruhe School of Optics & Photonics (KSOP)
Campus Full time 2 years

M. Sc. Optics and Photonics master course completely devoted to the field of optics and photonics, provides a specific education on the masters’ level. The novel master program ... [+]

M. Sc. Optics and Photonics

KSOP Masters Education. We believe that a Ph.D. graduate school is unlikely to be successful without the background / infrastructure and the “funneling / filtering” through a corresponding associated,  interdisciplinary coordinated masters program, aiming at attracting excellent students from abroad.

36 students per year can be admitted to our masters program. The best students of the masters program are supported by the KSOP Scholarship Program. Access to the KSOP masters education is granted via an application procedure.

A study plan is developed for each individual masters student (corresponding to his/her educational background) when entering the KSOP.... [-]