Electronic Circuits | Course Jukebox

Course Detail

Degree: Bachelor
Standard Academic Year: 2
Course delivery methods: face-to-face
Subject: Physical sciences, Mathematical sciences, Engineering & technology
Program
School: School of Science and Engineering
Department: Bachelor's Program in Interdisciplinary Engineering
Campus: Tsukuba Campus
Classroom: 3A305
Course Offering Year: 2023-2024
Course Offering Month: April - June
Weekday and Period: Wed3,4
Capacity
Credits: 2.0
Language: English
Course Number: FJ15101

Electronic Circuits University of Tsukuba

Course Overview

Following “Electrical Circuits”, this course introduces the fundamentals of electronic circuits, their components, and their analysis. Topics covered are: circuit abstraction method, two terminal elements, Kirchhoff laws, circuit analysis methods, digital abstraction, MOSFET switch, MOSFET amplifier, energy storage elements, operational amplifiers circuit and analysis, and diodes and semiconductors.

Learning Achievement

This course introduces the following:
* fundamentals of electronic circuits
* components of electronic circuits
* analysis of electronic circuits
* introduction to amplifiers
* instrumentation amplifiers
* basic exercises in electronic circuits

At the end of the course, students are expected to be able to design and analyze a basic analog electronic circuit.

Competence

Related to 4. Skills in the field of Micro Engineering and Nanoscience, and 5. Skills in the field of Macro Engineering and Systems Engineering.

Course prerequisites

FJ25101 Electrical Circuit

Grading Philosophy

Based on report (20%) and exam (Mid-term 35%, Final 45%).

Course schedule

1. Electronic circuit elements: abstraction and two terminal elements
2. Diodes: Semiconductor diode characteristics, analysis of diode circuits
3. Transistor: Transistor characteristics, analysis of transistor circuits (amplifier)
4. Transistor: Transistor characteristics, analysis of transistor circuits (biasing)
5. Basic concept of electronic circuits (feedback, resonance)
6. Operational amplifier: Characteristics, analysis of op-amp circuits (amplifier)
7. Operational amplifier: Characteristics, analysis of op-amp circuits (filtering)
8. Operational amplifier: Characteristics, analysis of op-amp circuits (application circuit)
9, 10. MOSFET switch, MOSFET amplifier, energy storage elements

Course type

Lectures

Online Course Requirement

Instructor

Maeda Yuka,Hassan Modar

Other information

The knowledge build up in this course is accumulative. Therefore students are encouraged not to miss classes, in order to keep up with the following classes.

Site for Inquiry

Link to the syllabus provided by the university