Experiments in electronic engineering course

Course title

M0125000

Course description

This course deals with microcontroller board and hardware and software co-design. Students will learn the basic of the Arduino Uno microcontroller board (or any other board that follow Arduino Uno specifications) by themselves, build and demonstrate the assigned electronic circuit, and 2) create an implementation planning sheet for each advanced electronic circuit using the microcomputer as a final project (1 plan per group), build and demonstrate the circuit and to be submitted as the final report. (It is preferable to have basic knowledge and experience of Arduino. For team work, students may join the groups of Japanese students, and may class day and time may be changed.)

Purpose of class

Students are expected to acquire the skills of engineering design and group work in electronics through fabricating practical electronic circuits. The group work is supposed to be carried out with students with other fields in the future.

Goals and objectives

	Goals and objectives	Course Outcomes
1.	Be able to make practical electronic circuits and their control programs	A-1
2.	Be able to collaborate with others to complete projects in the field of electronics engineering	A-1
3.	N/A

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Report	Presentation and Demonstrarion	Total.
1.	25%	25%	50%
2.	25%	25%	50%
Total.	50%	50%	-

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Course introduction and purchase class required materials	Understand what a microcomputer is and how to program it.	200分
2.	Basic of microcomputer 1: PC connection, and sample programs	Read the text and practice.	200分
3.	Basic of microcomputer 2: Analog inputs and outputs	Read the text and practice.	200分
4.	Basic of microcomputer 3: Talking to the Cloud	Read the text and practice.	200分
5.	Basics of the microcomputer 4: Pulse generation and observation using an oscilloscope	Read the text and practice.	200分
6.	Examination 1: Demonstrate basic knowledge of the microcomputer	Review basic knowledge of microcomputers and prepare demonstrations.	200分
7.	Course project: Planning and project proposals	Prepare a plan and tasks for a group project.	200分
8.	Examination 2: Project proposal and schedule submission	Review and revise group project plans and tasks.	200分
9.	Work on course project	Practice the tasks planned in groups.	200分
10.	Work on course project	Practice the tasks planned in groups.	200分
11.	Examination 3: Progress Status Report on Course Project	Practice the tasks planned in groups.	200分
12.	Work on course project	Practice the tasks planned in groups.	200分
13.	Work on course project	Prepare demonstrations and presentations.	200分
14.	Examination 4: Final presentation day	Prepare demonstrations and presentations.	200分
Total.	-	-	2800分

Goals and objectives (Other Courses)

A:Fundamental Mechanical Engineering	B:Advanced Mechanical Engineering	C:Environment and Materials Engineering	D:Chemistry and Biotechnology	E:Electrical Engineering and Robotics	G:Advanced Electronic Engineering	F:Information and Communications Engineering	L:Computer Science and Engineering	H:Urban Infrastructure and Environment

Language

English

Evaluation method and criteria

Achievement in the basic knowledge of the microcomputer 50%, and achievement in the course project 50%. You must score at least 60 points or higher out of 100 to pass.

Feedback on exams, assignments, etc.

ways of feedback	specific contents about "Other"
Feedback in the class

Textbooks and reference materials

Massimo Banzi, Michael Shiloh (authors): Getting Started With Arduino: The Open Source Electronics Prototyping Platform, 4th edition, Maker Media, Inc (2022). ISBN 978-1680456936

Prerequisites

Taking credits of following subjects is recommended; Electrical Circuits 1-3, Exercise in Electric Circuits 1,2, Introduction to Electromagnetism 1,2, Electromagnetic Theory 3, Exercise in Electromagnetism 1,2, Analogue Electronic Circuits 1,2, Digital Electronic Circuits 1, Introduction to Electronic Materials, Introduction to Solid State Physics, Introduction to Electronic Engineering Course and Basic Experiment in Electronic Engineering. Basic knowledge and experience of Arduino are preferrable.

Office hours and How to contact professors for questions

Tuesday 12:30-13:10 10I32 (Katsuhiro Hata Laboratory). It is better to make a contact in advance.

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Non-social and professional independence development course

Active-learning course

Most classes are interactive

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicable
N/A	N/A

Education related SDGs:the Sustainable Development Goals

9.INDUSTRY, INNOVATION AND INFRASTRUCTURE

Last modified : Wed Feb 12 04:07:27 JST 2025