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Akira Chiba, Tetsuo Kodera, Akira Matsuzawa, Ayaka Saito, Sakura Ookayama, Masahiro Wakasa, and Shinsuke Miyajima

This course introduces fundamental topics in electrical and electronic engineering including a broad range of examples. Topics covered are solar cells (batteries) and portable cell phones, applications from Japanese companies, including the high-speed railway, plus advanced research being performed at high-tech laboratories in Japan. The topics covered range from introductory materials to fundamental research and their practical applications. There are two lecture videos on each topic. The lecture at the top of the page is in English (dubbed using Google text to speech API), contains slides in English and closed captions in English. The lecture below is given in Japanese with English transcripts. All materials (slides, quizzes and final report) are provided in both Japanese and English.

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This course introduces fundamental topics in electrical and electronic engineering including a broad range of examples. Topics covered are solar cells (batteries) and portable cell phones, applications from Japanese companies, including the high-speed railway, plus advanced research being performed at high-tech laboratories in Japan. The topics covered range from introductory materials to fundamental research and their practical applications. There are two lecture videos on each topic. The lecture at the top of the page is in English (dubbed using Google text to speech API), contains slides in English and closed captions in English. The lecture below is given in Japanese with English transcripts. All materials (slides, quizzes and final report) are provided in both Japanese and English.

本コースでは,電気・電子工学の基礎的な内容を、幅広い事例を交えて紹介します。太陽電池や携帯電話、高速鉄道などの日本企業での応用事例や、日本の先端研究所で行われている先進的な研究を取り上げます。このコースを受講することで,本大学の教員や日本の産業界で活躍する技術者から電気電子工学全般についての知識を得ることができます。扱うトピックは、入門的な教材から、基礎的な研究、そしてその実践的な応用という流れに沿ったものとなっています。各トピックには2つの講義動画があります。ページの一番上の映像の講義は英語(Google text to speech APIを使用した吹き替え)で、英語のスライドと英語のクローズドキャプションが付いています。その下の講義は日本語で行われ、英語のトランスクリプトが含まれています。すべての資料(スライド、クイズ、最終レポート)は日本語と英語の両方で提供されています。

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What's inside

Learning objectives

  • Electromagnetic applications
  • Electronics materials
  • Electronic devices
  • Wireless communication
  • 電磁気の応用
  • エレクトロニクス材料
  • 電子デバイス
  • 無線通信
  • By taking this course, you will gain basic knowledge in the following areas of electrical and electronic engineering.
  • この講座を受講することで、電気電子工学に関わる以下の分野について、基礎的な知識を学ぶことができます。

Syllabus

Week 0. IntroductionWeek 1. Electromagnetic ApplicationsWeek 2. Electronics MaterialsWeek 3. Electronic DevicesWeek 4. Wireless Communication
第0週 イントロダクション 第1週 電磁気の応用第2週 エレクトロニクス材料 第3週 電子デバイス 第4週 無線通信

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Develops knowledge of key areas in electrical and electronic engineering, including practical applications
Provides practical examples in addition to theoretical introduction, making the subject matter more accessible
Delivered by experts on both sides of the language barrier through multiple language options
Week-by-week coverage of the material for easier consumption
Real-world applications from Japanese companies
Prerequisites may be necessary for maximum benefit

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Reviews summary

Helpful and informative in english and japanese

Learners say that this course is full of useful information and that having the lectures in both Japanese and English is very helpful.
The course lectures are taught in both Japanese and English.
"Japanese and English are prepared for this MOOC"
The explanations in the course are easy to understand.
"The explanation by the character was interesting and it helped learning."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Introduction to Electrical and Electronic Engineering - 電気電子工学入門 - with these activities:
Review basic principles of electromagnetism
Reinforce your understanding of the fundamental concepts of electromagnetism, which will provide a solid foundation for the course materials.
Show steps
  • Review your notes or textbooks from previous courses on electromagnetism.
  • Go through online resources and tutorials to refresh your memory on the basics.
Follow online tutorials on semiconductor devices
Expand your knowledge of semiconductor devices by exploring online tutorials that provide in-depth explanations, simulations, and demonstrations.
Browse courses on Semiconductor Devices
Show steps
  • Search for reputable online platforms or educational websites that offer tutorials on semiconductor devices.
  • Select tutorials that align with the specific topics covered in the course.
  • Follow the tutorials step-by-step, taking notes and experimenting with the interactive simulations.
Solve practice problems on electrical circuits
Develop your problem-solving skills by practicing electrical circuit analysis, which is essential for understanding circuit behavior and design.
Browse courses on Electrical Circuits
Show steps
  • Find online practice problems or textbooks with electrical circuit problems.
  • Attempt to solve the problems independently, using the course materials for reference.
  • Check your solutions against the provided answers or consult with the course instructor for guidance.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Participate in study groups to discuss course materials
Deepen your understanding of course concepts by collaborating with peers, discussing different perspectives, and challenging each other's ideas.
Show steps
  • Form study groups with classmates or connect with other learners online.
  • Set regular meeting times and establish clear goals for each session.
  • Discuss course materials, share insights, and work together on problem-solving.
Create a visual representation of electromagnetic waves
Enhance your understanding of electromagnetic wave propagation by creating a visual representation, such as a diagram, simulation, or animation.
Browse courses on Electromagnetic waves
Show steps
  • Research different methods of visualizing electromagnetic waves.
  • Choose a suitable software or tool for creating your visual representation.
  • Develop your visual representation, ensuring it accurately depicts the properties and behavior of electromagnetic waves.
Volunteer in a community project related to electrical or electronic engineering
Gain practical experience and apply your knowledge in a real-world setting, fostering a deeper understanding of the field and its impact on society.
Show steps
  • Identify community organizations or projects that align with your interests in electrical or electronic engineering.
  • Reach out to the organizations and inquire about volunteer opportunities.
  • Participate in the project, contributing your skills and knowledge while learning from experienced professionals.
Design and simulate a simple wireless communication system
Apply your knowledge of wireless communication principles by designing and simulating a simple system, allowing you to visualize and analyze its performance.
Browse courses on Wireless Communication
Show steps
  • Choose appropriate software or tools for system design and simulation.
  • Determine the system requirements and specifications.
  • Design the system architecture, including the transmitter, receiver, and antenna.
  • Simulate the system to evaluate its performance metrics, such as range, data rate, and bit error rate.

Career center

Learners who complete Introduction to Electrical and Electronic Engineering - 電気電子工学入門 - will develop knowledge and skills that may be useful to these careers:
Electronics Engineer
Electronics Engineers design, develop, test, and supervise the installation of electronic systems. They work with a variety of electronic equipment, including computers, telecommunications systems, and medical devices. Electronics Engineers typically need a bachelor's degree in electronics engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, electronic devices, and wireless communication.
Electrical Engineer
Electrical Engineers design, develop, test, and supervise the installation of electrical systems. They work with a variety of electrical equipment, including power generation, transmission, and distribution systems; electric motors, controls, and lighting systems; and electrical machinery. Electrical Engineers typically need a bachelor's degree in electrical engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, electronic devices, and wireless communication.
Computer Hardware Engineer
Computer Hardware Engineers design, develop, and test computer hardware, including processors, memory, and storage devices. They work with a variety of computer systems, including personal computers, servers, and mainframes. Computer Hardware Engineers typically need a bachelor's degree in computer engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and electronic devices.
Telecommunications Engineer
Telecommunications Engineers design, develop, and maintain telecommunications systems, including telephone networks, data networks, and wireless networks. They work with a variety of telecommunications equipment, including switches, routers, and transmission lines. Telecommunications Engineers typically need a bachelor's degree in telecommunications engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and wireless communication.
Electronics Drafter
Electronics Drafters create technical drawings and schematics for electronic devices and systems. They work with a variety of electronic components, including resistors, capacitors, transistors, and integrated circuits. Electronics Drafters typically need an associate's degree or a certificate in electronics drafting. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and electronic devices.
Electrical and Electronics Technician
Electrical and Electronics Technicians install, maintain, and repair electrical and electronic systems. They work with a variety of electrical and electronic equipment, including power generation, transmission, and distribution systems; electric motors, controls, and lighting systems; and electrical machinery. Electrical and Electronics Technicians typically need an associate's degree or a certificate in electrical or electronics technology. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and electronic devices.
Antenna Design Engineer
Antenna Design Engineers design, develop, and test antennas. They work with a variety of antenna types, including wire antennas, microstrip antennas, and parabolic antennas. Antenna Design Engineers typically need a bachelor's degree in electrical engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications and electronics materials.
Solar Cell Engineer
Solar Cell Engineers design, develop, and test solar cells and solar panels. They work with a variety of materials, including silicon, gallium arsenide, and cadmium telluride. Solar Cell Engineers typically need a bachelor's degree in electrical engineering, materials science, or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and electronic devices.
Wireless Communications Engineer
Wireless Communications Engineers design, develop, and test wireless communications systems. They work with a variety of wireless technologies, including cellular networks, Wi-Fi, and Bluetooth. Wireless Communications Engineers typically need a bachelor's degree in electrical engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and wireless communication.
Power Electronics Engineer
Power Electronics Engineers design, develop, and test power electronic systems. They work with a variety of power electronic devices, including transistors, diodes, and thyristors. Power Electronics Engineers typically need a bachelor's degree in electrical engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and electronic devices.
Electromagnetic Compatibility Engineer
Electromagnetic Compatibility Engineers design, develop, and test products to ensure that they comply with electromagnetic compatibility (EMC) regulations. They work with a variety of electronic devices, including computers, telecommunications systems, and medical devices. Electromagnetic Compatibility Engineers typically need a bachelor's degree in electrical engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications and electronics materials.
Electronics Assembler
Electronics Assemblers assemble electronic components into finished products. They work with a variety of electronic components, including resistors, capacitors, transistors, and integrated circuits. Electronics Assemblers typically need a high school diploma or equivalent. This course may be useful to those interested in this field by providing a foundation in electronics materials and electronic devices.
Mechatronics Engineer
Mechatronics Engineers design, develop, and maintain systems that integrate mechanical, electrical, and computer engineering. They work with a variety of systems, including robots, medical devices, and manufacturing equipment. Mechatronics Engineers typically need a bachelor's degree in mechatronics engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and electronic devices.
Robotics Engineer
Robotics Engineers design, develop, and maintain robots. They work with a variety of robots, including industrial robots, medical robots, and military robots. Robotics Engineers typically need a bachelor's degree in robotics engineering or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and electronic devices.
Quality Assurance Engineer
Quality Assurance Engineers ensure that products meet quality standards. They work with a variety of products, including electronic devices, medical devices, and software. Quality Assurance Engineers typically need a bachelor's degree in quality assurance or a related field. This course may be useful to those interested in this field by providing a foundation in electromagnetic applications, electronics materials, and electronic devices.

Reading list

We've selected 19 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Introduction to Electrical and Electronic Engineering - 電気電子工学入門 -.
Provides a comprehensive introduction to the fundamentals of electrical engineering, covering a wide range of topics including circuit analysis, power systems, and electronics. It valuable resource for students taking this course who want to gain a deeper understanding of the core concepts of electrical engineering.
Must-read for students who want to gain a deeper understanding of the electronic materials used in electrical and electronic engineering. It valuable resource for students taking this course who want to learn more about the properties and applications of electronic materials.
Comprehensive textbook on modern digital and analog communication systems, covering topics such as digital modulation, digital signal processing, and analog communication. It valuable resource for students taking this course who want to learn more about the design and analysis of communication systems.
Comprehensive textbook on microelectronic circuits, covering topics such as semiconductor devices, analog circuits, and digital circuits. It valuable resource for students taking this course who want to learn more about the design and analysis of microelectronic circuits.
A comprehensive textbook that covers the fundamental principles of electromagnetism, including applications in electrical engineering, electronics, and materials science.
Comprehensive textbook on the fundamentals of wireless communications and networks, covering topics such as signal propagation, modulation, and multiplexing. It valuable resource for students taking this course who want to learn more about the design and analysis of wireless communication systems.
Comprehensive textbook on the fundamentals of electronics, covering topics such as basic circuit analysis, semiconductor devices, and digital electronics. It good resource for students taking this course who want to learn more about the practical aspects of electronics.
Practical guide to the design and application of electronic devices. It valuable resource for students taking this course who want to learn more about the design and analysis of electronic circuits.
This textbook serves as a valuable resource for readers seeking a general introduction to microelectromechanical systems (MEMS) and their practical applications.
A classic textbook that provides a comprehensive overview of the fundamental principles of solid state physics, including their applications in electronic materials and devices.
This textbook is most valuable as additional reading material for this course. It provides a detailed overview of antenna theory and design, which can be useful for students who want to learn more about this topic.
Offers a fascinating and insightful introduction to the world of plasma physics, with applications in a variety of fields.
A classic textbook that covers the fundamental principles of electronic devices and circuits, including their design, analysis, and applications.
This textbook highly-advanced treatment of many topics in engineering optics, and is most useful as a reference book after taking this course.

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