Course Features
What is the Advanced Electronic Engineering Course?
This course covers semiconductors, electronics, integrated circuits, optical communications, brain waves medical sensing technology, and intelligent robots. The goal is to comprehensively acquire advanced electronics engineering in terms of both hardware and software, with “electronics and optics” as the keywords.
Field-Specific Course Groups (sub-courses)
Nanoelectronics and Photonics
Students will learn about electronic and optical materials and devices that are applied in ultra-high-speed computers and large-capacity communication systems.
Hardware
Information industry revolution in the new century
Material
New materials and devices for the future
devices
Informatics and Bioelectronics
Students will learn about information communication, integrated circuit design, and techniques for measuring and utilizing bio information to systematize electronic circuits and apply them to the real world.
Software
New common sense with original technology
Medical
Challenging the limits of life
Click here for more information on sub-course accreditation.
Course Introduction Video
Study and Research
Curriculum (Main Courses)
1st
Learn the fundamentals of electronics and the underlying physics, mathematics, and chemistry.
Mathematics for Electrical Analyses 1·2 / Electric Circuits 1·2 / Electromagnetism 1 / Introduction to Electronic Engineering Course / Introduction of Technology and Product
2nd
Learn the basics of electronic circuits and electronic properties
Electric Circuits 3 / Electromagnetism 2·3 / Analog Electronic Circuits 1·2 / Introduction to Electronic Materials / Introduction to Solid State Physics / Digital Electronic Circuits / Comprehensive Electric Circuits / Comprehensive Electromagnetism / Electronic Engineering Practice / Basic Experiment in Electronic Engineering / Advanced Technologies 1
3rd
Specialized courses in electronics in the laboratory
Signal Processing / Signal Integrity for High-Speed Digital Designs / Electronic Control Engineering / Optoelectronics / Semiconductor Engineering / Information Theory / Reliability and Quality Engineering / Medical Electronics / Radio Communication Devices / Instrumental Analysis of Electronic Materials / Integrated Circuits / Advanced Technologies 2 / Graduation Thesis 1·2
4th
Develop graduation research and complete a thesis
Radio Law, Rules & Regulation / Telecommunication Law, Rules & Regulation / Graduation Thesis 3·4
Click here for curriculum details
research laboratories
- Semiconductor Electronics Laboratory
- Nanoelectronics Laboratory
- Biomedical Electronics Laboratory
- Electro-Mechanical Systems Laboratory
- Advanced Integrated Circuitsand Systems Laboratory
- Generalized Functions Laboratory
- Fluct-Molecular Sensing Laboratory
- Statistical Physics
- Health and Sports Engineering Laboratory
- Image Processingand Robotics Laboratory
- Tourism & Language Information Laboratory
- Functional Materials ScienceLaboratory
- Integrated Photonic Device Laboratory
- Superstructured quantum materials electronics laboratory
- Advanced Power Supply System Laboratory
- Image Sensing Laboratory
※Lab information is for the year 2024.
Career and Employment
Employability Ranking at Top 400 Companies
“Employability Ranking at Top 400 Companies” is based on the Nikkei Stock Average Index, company size, name recognition, and ranking of the most popular companies among university students. Shibaura Institute of Technology was ranked 12th in Japan and 5th among private universities in the 2023 ranking published by DAIGAKUTSUSHIN Corporation, which surveyed the top 400 companies in Japan. In addition, it was ranked 4th among universities with more than 1,000 graduates.
Employability Ranking at Top 400 Companies (among private universities)
THE World University Rankings 2024
THE (Times Higher Education) has been providing “THE World University rankings” every year since 2004. It uses the data from universities and ranks with the following indicators: teaching (the learning environment); research environment (volume, income and reputation); research quality (the outputs of research); industry (knowledge transfer) and international outlook (staff, students and research). The table shows the ranking of the major private universities in Japan. Shibaura Institute of Technology was ranked 4th in the research environment ranking and it was ranked 6th in the international outlook.