Masters in Embedded Systems in Germany

Last Updated on August 29, 2022 by Smile Ese

There are many Masters in Embedded Systems in Germany .   This can be a pretty mundane topic with little variation of information or opinion. You could just list off some universities and the embedded masters program offered and be done with it. But why stop there? Really get your readers to stand up and take notice. Spice up the title, highlight your USP, and create a visually compelling blog post that draws visitors in.

Embedded Technology Master’s degrees combine principles from Mathematics, Computer & Software Engineering, and Electrical Engineering. Students learn the basic concepts used to build electrical devices and discover how to solve complex problems and new challenges that come with the constant demand for innovation.

You will get information’s about Masters in Embedded Systems in Germany, Masters in Embedded Systems Programs in Germany, Masters in Embedded Systems Universities in Germany, Masters in Embedded Systems Tuition and Fees in Germany and more on collegelearners.

Masters in Embedded Systems in Germany

Masters in Embedded Systems Courses in Germany

Embedded Systems are a key technology of modern society. Whether in automotive industry, aerospace and medical technology or in telecommunications, media and entertainment industries – embedded systems always play a major role in state-of-the-art technology.

The curriculum consists of courses belonging to the following areas:

– Design of microelectronic and micromechanic devices
– Software based components
– System integration
– System optimisation regarding speed, cost and energy efficiency
– Safety and reliability

Six different concentration areas are offered:

– Circuits and systems
– Design and simulation
– Sensors and actuators
– Reliable embedded systems
– Distributed systems
– Robotics and computer visions

There are different kinds of courses, such as lectures, exercises, lab courses, seminars and projects. The state-of-the art equipment of the laboratories at the Faculty of Engineering enhance a hands-on teaching style that combines research and teaching. With a flexible curriculum and a high number of elective courses, students can shape their individual profile.

Embedded Systems are a key technology of modern society. Whether in automotive industry, aerospace and medical technology or in telecommunications, media and entertainment industries – embedded systems always play a major role in state-of-the-art technology.

The curriculum consists of courses belonging to the following areas:

– Design of microelectronic and micromechanic devices
– Software based components
– System integration
– System optimisation regarding speed, cost and energy efficiency
– Safety and reliability

Six different concentration areas are offered:

– Circuits and systems
– Design and simulation
– Sensors and actuators
– Reliable embedded systems
– Distributed systems
– Robotics and computer visions

There are different kinds of courses, such as lectures, exercises, lab courses, seminars and projects. The state-of-the art equipment of the laboratories at the Faculty of Engineering enhance a hands-on teaching style that combines research and teaching. With a flexible curriculum and a high number of elective courses, students can shape their individual profile.


Electronics and Embedded Technology Specialisations

Most Electronics & Embedded Technology degrees are offered as M.Sc. (Master of Science) or M.Eng. (Master of Engineering) degrees. Some universities offer programmes as M.A. (Master of Arts) degrees. It usually takes 1 or 2 years to graduate.

You can choose between a general Electronics and Embedded Technology degree or one of the various specialisations. Some of the most popular ones are Digital Signal Processing (DSP), Control Engineering, VLSI (Very Large-Scale Integration) Design Engineering, Communication Systems, Power Electronics, Radio Frequency (RF) and Microwave Engineering, and others.

Electronics and Embedded Technology Courses and Skills

The courses you’ll take during a graduate degree in Electronics or Embedded Technology vary from one university and programme to another. However, you can expect to take classes in Embedded Computer Architecture, Real-Time Systems, Battery & Electrical Systems, the Internet of Things (IoT), Mobile Communication, Nanofabrication, Acoustoelectric Devices, Electromagnetic Compatibility, etc.

Electronics & Embedded Technology classes also help students to develop both technical and soft skills. They range from critical thinking, problem solving, and communication to project management, research abilities, data analysis, and creativity.

Electronics and Embedded Technology Careers

Electronics & Embedded Technology graduates can easily find work opportunities after their studies. Companies from all industries (e.g. telecommunication, computer manufacturing, aviation, scientific research) rely on new devices, systems, and technologies to improve their efficiency and design better products and services.

Some of the most popular jobs are electronics engineer, quality assurance (QA) engineer, embedded system engineer, electronics technician, field service technician, test engineer, fibre optics engineer, robotics engineer, etc. These are the most recent and exciting trends in Electronics and Embedded Technology: the emphasis on improving the security of embedded devices, the reduction of energy consumption, the use of deep learning programmes, the growing demand for smart TVs and other smart devices/appliances, and others.

Information about Electronics & Embedded Technology Degrees

Electronics is a technical and scientific discipline that studies physical, non-linear, electric systems or electronic components and the circuits that include these physical elements or the electronic circuits. Electronics has nowadays tremendous application in almost all fields one can think of, from communication, medicine, military equipment to the entertainment industry.

Embedded technology studies the combination of computer hardware and software within a device that is designed to perform a specific and repetitive function. Embedded devices are found inside anything electronic that seems intelligent such as automobiles, mobile phones, microwave ovens, digital cameras and other gadgets that we use today.

Students who apply to a Bachelor’s or Master’s degree in electronics and embedded technology will learn how to select, adapt and develop hardware/software components. Electronics and embedded technology programmes combine theoretical knowledge with a lot of laboratory work that are meant to teach, prove, test and apply the laws and theorems that dominate the field.

Graduates from electronics and embedded technology can mostly find jobs in the automotive, computer technology and consumer electronics industries and choose from the follow career options: embedded system engineer, embedded systems designer, software engineer, design engineer, electronics technologist/engineer, electronics drafter, software/chip developer.

Top Universities for Studying Embedded Systems in Germany

For those who are planning to study in the field of Information technology, you will find below a list of some of the best universities in Germany.

UniversitiesQS World University Ranking 2021
Technical University of Munich50
KIT, Karlsruhe Institute of Technology131
Ludwig-Maximilians-Universitat Munchen63
RWTH Aachen University145
Technische Universitat Berlin (TU Berlin)148
Humboldt-Universitat zu Berlin117
Technical University of Darmstadt267
Universitat des Saarlandes451
Rheinische Friedrich-Wilhelms-Universitat Bonn240
Ruprecht-Karls-Universität Heidelberg64

Courses in Information Technology in Germany

Getting an IT degree does not mean that the training is limited to computers and technology. Other courses that are integrated into a Master’s in IT include Software Development, Market and Competition, Business Processes, Financial Accounting, Business Law and Computer Science. Go through the lists below of Bachelors and Masters courses in IT.

Saarland University • Saarbrücken

DegreeMaster of Science (MSc)Course locationSaarbrückenIn cooperation withMax Planck Institute for Informatics
Max Planck Institute for Software Systems
German Research Center for Artificial Intelligence (DFKI)Teaching language

  • English

Languages

All courses and seminars are taught in English.Programme duration4 semestersBeginningWinter and summer semesterMore information on beginning of studiesApril (summer semester) or October (winter semester)Application deadline

15 November for the following summer semester
15 May for the following winter semesterTuition fees per semester in EURNoneCombined Master’s degree / PhD programmeYesJoint degree / double degree programmeNoDescription/content

This programme joins the forces of one of the highest-rated computer science departments in Germany and a first-class engineering department. What do insulin pumps, dishwashers, solar collector systems, high-speed trains, and modern sewing machines all have in common? They all function because they have one or more microprocessors housed within them. These embedded systems mean that washing machines are able to use less electricity and less water, cars have improved fuel economy, wheels do not spin, and airbags inflate at the right time. Saarland University is now offering a Master’s degree programme in this area of very strong growth.

masters in nanotechnology in germany

HM Hochschule München University of Applied Sciences is the second largest university of applied sciences in Germany. Our 18,000 students and our location in a leading European business centre afford fantastic opportunities. This also means that we have a responsibility in industrial, economic, and social contexts.

We offer degree courses and active academic collaboration in the STEM subjects (sciences, technology, engineering, mathematics), business administration, the social sciences, and public health as well as in architecture and design. Our Department of General and Interdisciplinary Studies is unique in providing every student with a cross-disciplinary education and in developing their personal skills.

It is especially important for us to nurture our graduates’ characters. Besides their well-founded professional skills, our students should stand out by thinking and acting in a sustainable, entrepreneurial, and intercultural way. With these additional qualifications, which reach beyond the students’ specialist fields, we prepare them to contribute to society and to approach their careers with foresight, creativity, and a sense of responsibility.

We offer and develop individualised study approaches and options for applicants with varied educational backgrounds, thus opening our university and offering a range of paths for lifelong learning and studying. HM Hochschule München University of Applied Sciences ensures excellent applied and research-based teaching in the following four areas: Bachelor’s degrees for students who have finished their secondary schooling and for the professionally qualified, Master’s degrees and doctoral qualifications, continuing education and life-long learning in all fields, and applied research.

HM Hochschule München University of Applied Sciences actively engages with its educational mandate and aims to secure an outstanding position as a university of applied sciences. It recognises the future demands of society and industry to which it aims to adapt itself with a critical yet open vision for current issues, such as the current digitalisation of all areas of life. It focuses on continually improving quality and on constant development in research, teaching, and continuing education.

50Percentage of international students in Micro- and Nanotechnology

 University location

Munich and the surrounding area are well known for their high standard of living. In Munich, tradition and innovation, industry and science, cultural and tourist attractions all contribute to its outstanding quality of life. In fact, the city of Munich ranks among the top three most liveable cities in the world (source: Mercer Quality of Living Survey 2019). Independent surveys and statistics regularly show Munich’s economic power, the variety of recreational opportunities, its excellent public transport system, and its exceptionally low crime rate. As one of the leading economic and technical powerhouses in Germany, Munich is a top choice for global companies seeking locations with rich research and development opportunities and strong human capital for their national headquarters, such as Apple and Microsoft, as well as global headquarters like Siemens, BMW, MAN, Linde Group, Allianz, and Munich Re. These companies frequently turn to HM Hochschule München University of Applied Sciences for their R&D needs, and our students participate in faculty research to meet the needs of companies in the region. These relationships also facilitate our students’ success in finding internships and placements in industry for independent research projects, which frequently lead to job offers after graduation.

Both academically as well as industrially, the metropolitan area of Munich is established as one of the most important locations for the fields of microtechnology and nanotechnology in Germany and Europe. Academically, this becomes evident by advanced research facilities such as the Center for NanoScience, the “Excellence Network Nanobiotechnology”, the NanoTUM, and the Nanosystems Initiative Munich, which is supported by the Excellence Initiative of both the Federal and State governments and of which the Department of Applied Sciences and Mechatronics at the HM Hochschule München University of Applied Sciences is also a member. Outstanding industrial firms such as Siemens AG, Infineon Technologies AG, and the Airbus Group as well as a number of small and mid-sized firms are located in the metropolitan area. In recent years, a significant number of successful start-up firms have arisen from the academic environment Munich provides. The Department of Applied Sciences and Mechatronics, together with our instructors, has outstanding connections to industry providing graduates of the Micro- and Nanotechnology programme with excellent networking opportunities.

The Master’s course of study Micro- and Nanotechnology is strongly supported by an industrial advisory board, which includes representatives from companies from southern Germany who are internationally recognised as leaders in their fields.

Overview

Degree
Master of Science
Teaching language
English
Languages
Enough courses are offered in English to complete the programme only in English, but in this case, the course catalogue is more or less fixed. Participants can choose to write their Master’s theses in either language.

German language courses are offered by the Department for General Studies.

German language skills are required, because project study and Master’s thesis are typically done in German companies.

Mode of study
Less than 50% online
Programme duration
3 semesters
Beginning
Winter and summer semester
Additional information on beginning, duration and mode of study
https://sci.hm.edu/studienangebote/master/mnm/index.en.jsp

Application deadline
2 May – 15 June for the following winter semester
15 November – 15 January for the following summer semester
https://www.hm.edu/en/index.en.html

Tuition fees per semester in EUR
None
Combined Master’s degree / PhD programme
No
Joint degree / double degree programme
No
Description/content
In addition to the instruction of basics in quantum physics, the interdisciplinary orientation of this Master’s course of study requires a broad spectrum of knowledge and abilities. These are gathered in a wide offer of courses.

The course of study is based on both required and elective modules. The elective modules, which make up the majority of the academic course of study, are split into the following three sections:

Those courses specifically related to the course of study discuss selected aspects of the discipline of microtechnology and nanotechnology. These courses explore in detail such topics as microanalytics and nanoanalytics, materials used in microtechnologies and nanotechnologies, biomicrotechnology, and bionanotechnology as well as electrochemical storage systems.
The general studies courses teach professional competence in areas such as knowledge management, start-up business techniques, and management skills.
Courses with specific applications of microtechnologies and nanotechnologies deal with industrially relevant branches such as optic/photonics, chemistry, biotechnology, electronics, and modelling and simulation. Further applications such as automotive applications, aerospace, and space flight as well as mechatronics are given special attention.
The application of theory to practice is emphasised in lab classes, the project study, and the Master’s thesis. Our graduates are ready to apply their knowledge directly to their professions or to continue their studies towards a doctoral degree or postgraduate work. A prerequisite for the lab class in nanotechnology is the completion of the lab class in microtechnology.

Great importance is attached to internationalisation. A large number of courses is offered in English, and students hold at least one presentation in English in the colloquium “Micro- and Nanotechnology”. Additionally, a strong network exists with foreign universities and research institutions, which also offer lectures and projects in the field of microtechnology and nanotechnology.

The programme can be studied and completed in English, but German language skills (level B2) are required for a broader choice of electives and for finding appropriate projects and Master’s theses within the university or in research institutions or industry. An equivalent to 10 ECTS in physics must have been covered during the Bachelor’s degree.

It is recommended to enrol as a part-time student to have the freedom to complete the course in six semesters instead of three. Even if enrolled as a part-time student, studying the programme in three semesters is possible.


Course details

Course organisation
Examples for educational organisation:

Full-Time Study (three semesters):
First semester: lectures (Quantum Physics 1, colloquium, one elective course, one multidisciplinary course, one course from sector-specific applications), lab class microtechnology
Second semester: lectures (Quantum Physics 2, colloquium, one elective course, one course from sector-specific applications), lab class nanotechnology, project study
Third semester: Master’s thesis, colloquium

Part-Time Study (six semesters):
First semester: lecture (Quantum Physics 1), lab class microtechnology
Second semester: lecture (Quantum Physics 2, colloquium, one elective course)
Third semester: lecture (colloquium, one elective course) lab class nanotechnology
Fourth semester: lecture (colloquium, one course from sector-specific applications, one multidisciplinary course)
Fifth semester: lecture (one course from sector-specific applications), project study
Sixth semester: Master’s thesis, colloquium

A Diploma supplement will be issued
Yes
Certificates for specific modules are awarded
Yes
International elements
International guest lecturers
Specialist literature in other languages
Projects with partners in Germany and abroad
Integrated internships
The Master’s programme in Micro- and Nanotechnology includes a project study and a Master’s thesis. Many students do their research work for three to six months in local companies. Programme advisers will assist students with finding an appropriate position. German language skills are beneficial for finding a position either in academia or industry.

Course-specific, integrated German language courses
No
Course-specific, integrated English language courses
Yes


Online learning

Pace of course
Mixed (e.g. fixed exam dates and duration, study content can be studied at any time)
Phase(s) of attendance (on-site)
Yes, compulsory
Types of online learning elements
Access to databases with study material
Chats (with lecturers and other students)
Discussion forums and / or groups
Flipped Classroom
Message Boards
Online sessions
Online study material provided by institution
Online tutorials
Video learning (Pre-recorded videos, Vlogs, Video-Podcasts)


Costs / Funding

Tuition fees per semester in EUR
None
Semester contribution
147 EUR including a ticket for public transport

Funding opportunities within the university
No


Requirements / Registration

Academic admission requirements
In order to enrol in the programme, you must meet the following qualifications as well as other requirements which may apply.

You have received a Bachelor’s degree or similar diploma in one of the fields of the natural or engineering sciences, respectively a similar field with a final grade better than the equivalent German grade “good”. Your degree work was attained either at a German university or at a foreign school that is properly accredited.

The Bachelor’s degree must cover at least 180 ECTS credit points and at least six theoretical semesters. The completion of a practical semester or an industrial internship of at least 18 weeks during the Bachelor’s studies is required. An equivalent to 10 ECTS in physics must have been covered during the Bachelor degree.

Applicants who do not meet the requirements have to prove their technical qualification in an oral entrance examination. This examination is offered after the correct application in due time and lasts 20 to 30 minutes.

The entrance examination serves as proof for sufficient background skills in mathematics, fundamentals in physics, basics in semiconductor technology, and industrial experience. The examination is held by two full professors.

Language requirements
We ask for a German language certificate, level B2. Please see: https://w3pe-n.hm.edu/studienangebote/master/mnm/index.en.jsp

Application deadline
2 May – 15 June for the following winter semester
15 November – 15 January for the following summer semester
https://www.hm.edu/en/index.en.html

Submit application to
http://www.hm.edu/master-bewerbung/

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