4_years
undergraduate
german
If you aspire to not only understand technical interrelationships but also to develop innovative solutions from start to finish, then Mechatronics in Frankfurt UAS is the perfect program for you. This interdisciplinary bachelor’s degree program equips students with essential skills in electronics, computer science, and mechanics, enabling them to design cutting-edge systems for various applications, including green energy, smart medical technology, and the automotive industry.
This degree program is ideal for those who are curious about the realms of electronics, computer science, and mechanics. If you have a strong interest in technology and enjoy engaging with technical contexts, Mechatronics in Frankfurt UAS will provide you with the foundational knowledge needed to excel.
A solid background in math and physics is essential; however, preliminary courses are available to help refresh your understanding. If you enjoy networked thinking and are passionate about creatively developing new technologies, this program is designed for you.
The Mechatronics in Frankfurt UAS program begins with a focus on basic science and engineering subjects such as mathematics, physics, technical mechanics, design, and electrical engineering. In the second year, students delve into technical subjects, applying their knowledge in hands-on laboratories and project phases.
During the practical semester in the third year, students have the opportunity to work in a company, gaining real-world experience and exploring potential career paths.
As students progress, they will deepen their understanding of typical mechatronics applications, including automation and automotive mechatronics. Through elective modules, students can tailor their studies to their specific interests. The program culminates in a bachelor thesis, after which graduates earn the academic degree “Bachelor of Engineering.”
Graduates of Mechatronics in Frankfurt UAS are well-prepared to enter the job market as all-rounders in various engineering fields. Mechatronics engineers are increasingly sought after in industries such as aerospace, automotive engineering, energy, robotics, and medical technology, both in Germany and internationally. Potential career roles include development engineer, design engineer, or test engineer, with excellent starting salaries anticipated.
Frankfurt University of Applied Sciences also offers advanced opportunities for further specialization through two master’s programs in mechatronics:
There are no admission restrictions for the Mechatronics in Frankfurt UAS program, allowing students to enroll directly without a separate application process. Proficiency in English at level B1 is important due to the program’s English-language components.
The university offers a variety of compact English courses through its Language Center to help students address any knowledge gaps. Additionally, students are encouraged to refresh their math and physics skills in preliminary courses offered before the semester begins.
In summary, Mechatronics in Frankfurt UAS provides a comprehensive and flexible education that prepares students for successful careers in a variety of technical fields. With a strong emphasis on practical experience and interdisciplinary learning, graduates are ready to tackle the challenges of modern engineering.
The Mechatronics in Frankfurt UAS program spans seven semesters and provides students with a comprehensive education in mechanical, electrical, and computer engineering. The program is designed to equip students with both theoretical knowledge and practical experience, preparing them for diverse career opportunities in automation, robotics, automotive mechatronics, and other technical fields.
The first year of the program focuses on building a strong foundation in mathematics, physics, and engineering principles. Students will explore fundamental disciplines, including:
Mathematics – Fundamental concepts and their applications in engineering
Physics – Understanding the physical principles behind mechanical and electrical systems
Technical Mechanics – Basics of mechanical structures and forces
Design – Engineering design principles and technical drawing
Electrical Engineering – Fundamentals of circuits, signals, and systems
These core subjects provide students with the necessary background to tackle more advanced mechatronics applications in later semesters.
In the second year, students transition from foundational subjects to applied technical disciplines, where they begin working with real-world systems and technologies. During this phase, the curriculum includes:
Advanced electrical engineering concepts
Programming and control systems
Electromechanical systems and components
Mechatronic system design and modeling
Students will also engage in practical laboratory sessions and project-based learning, where they apply their knowledge to hands-on experiments, simulations, and collaborative engineering projects. This hands-on approach ensures that students develop technical problem-solving skills essential for mechatronics engineering.
One of the highlights of the Mechatronics in Frankfurt UAS program is the practical semester in the third year. During this period, students gain real-world experience by working in a company, applying their skills to real engineering problems. This internship allows students to:
Explore different career paths in automation, automotive engineering, robotics, and energy systems
Work on real industry projects and develop professional skills
Network with industry professionals and potential employers
Gain valuable work experience that enhances their employability after graduation
Following the practical semester, students deepen their expertise in specialized mechatronics applications, such as:
Automation and control systems
Automotive mechatronics
Robotics and intelligent systems
Embedded systems and real-time computing
Students can also tailor their studies by selecting elective modules that align with their personal interests and career goals.
In the final semester, students work on an independent research or industry-related project, culminating in their bachelor thesis. The thesis allows students to demonstrate their ability to:
Conduct in-depth research on a mechatronics-related topic
Develop and test innovative engineering solutions
Present and defend their findings in a colloquium
Upon successful completion of the thesis and all program requirements, students earn the academic degree “Bachelor of Engineering (B.Eng.)”.
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