Electrical engineering now covers a wide range of sub-fields including electronics, digital computers, power engineering, telecommunications, control systems, RF engineering, and signal processing. Here are Top 5 Universities in Germany to study Electrical Engineering:
The Darmstadt University of Technology, whose official name is “Technische Universität Darmstadt”, (abbreviated TU Darmstadt) in Darmstadt, plays a significant role among German universities. It is one of Germany’s leading universities and well known internationally for its outstanding achievements in the areas of engineering, political science and computer science.As an institution it provides excellent research in selected fields to face the challenges of the new millennia guided first hand by experts in the field. In electrical engineering students often work on projects which give them the opportunity to use their theoretical knowledge in practical applications. In their last year the students are asked to work on their bachelors dissertation encouraged to be creative and genuine.
As the only technical and engineering university in Rhineland-Palatinate, the TU has acquired a considerable reputation since its founding in 1970. With around 14,200 students in twelve subject areas the University of Kaiserslautern has a manageable size, the close contact with professors and excellent service guaranteed. Electrical Engineering and Computer Engineering are offered as two separate graduate courses with varying technical orientation. The sound basic education in the four-semester undergraduate program is followed by the graduate program with technical specialization in one of the seven majors.
The TUM is one of the best universities in Europe regarding excellence in research and teaching, interdisciplinary methods and talent drawn from them. The strong collaboration amidst various companies and several other academic institutions around the world make for an optimal international environment. TUM is one of the first three Universities of Excellence in Germany. The bachelor’s degree program in Electrical Engineering and Information Technology is divided into two study phases. In Part I, the first four semesters, students learn the fundamental principles of the following subject areas: Electrical Engineering (28 credits), Mathematics (32 credits), Physics (24 credits), Signals and Systems (20 credits), Information Technology (16 credits). In Part II, the second phase of study follows on from the fundamental principles. During semesters 5 and 6 students build on the knowledge gained in the first four semesters. They will be expected to accomplish the following: Engineering Practice (12 credits), Soft Skills (6 credits), Bachelor’s Thesis (12 credits), Individual Advanced Modules (30 credits)
The RWTH Aachen found in 1880, has a long lasting tradition of excellent education comprised of nine faculties among which, the Faculty of Engineering. The coverage of the RWTH Aachen engineering studies corresponds with the idea of expanding the electrical engineering potential. Students receive intensive basic studies – the mathematics, computer science, and electrical engineering education cannot be beat within Germany. Students begin their studies focusing on focus on mathematics, computer science, and the elementary stage of electrical engineering. The Basics continue for three to four semesters. The curriculum is quite mathematically challenging to ease up their way towards the essentials of technical principles and structural concepts.
Since its foundation in 1967, the youngest university in Baden-Württemberg showed a remarkable performance. Currently around 9500 students spread over the faculties of medicine, engineering and computer science, mathematics, sciences, economics and natural sciences. Its motto states “Innovative technology is in need of modern software and hardware solutions, but it must also take into account the people who will deal with this technique. Conversely, it is an inspiration for innovative technical mechanisms and algorithms human thought and action patterns.