2020 | VLSI Technology II - TOKYO TECH OCW

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2020　VLSI Technology II

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Academic unit or major: Graduate major in Electrical and Electronic Engineering

Instructor(s): Wakabayashi Hitoshi Ishihara Noboru Machida Katsuyuki Dosho Shiro

Class Format: Lecture (ZOOM)

Media-enhanced courses

Day/Period(Room No.): Mon1-2(G221) Thr1-2(G221)

Group: -

Course number: EEE.C442

Credits: 2

Academic year: 2020

Offered quarter: 2Q

Syllabus updated: 2020/9/18

Lecture notes updated: -

Language used: English

Access Index

Syllabus

Course description and aims

We lecture RF transceiver systems, RF CMOS circuits, analog CMOS circuits, integrated CMOS/MEMS technology, and ultra-low-power CMOS circuits as a state-of-the-art integrated circuit technology. This class reviews examples and future trends of the integrated circuit design. Acquisition of the VLSI Engineering I is recommended.

Student learning outcomes

(1)Understand of technology trend of integrated circuit.
(2)Understand of fundamentals of analogy CMOS circuit
(3)Understand of CMOS A/D converters
(4)Understand of RF CMOS circuit and RF transceiver circuit

Course taught by instructors with work experience

✔ Applicable	How instructors' work experience benefits the course
✔ Applicable	In this lecture, teaching faculty members with practical experiences used to be belonging to the company in the field of the integrated circuits will provide valuable contents on basics and applications in the VLSI Technology, based on their practical experiences.

Keywords

Si, CMOS, analog circuit, integrated circuit

Competencies that will be developed

✔ Specialist skills

Intercultural skills

Communication skills

Critical thinking skills

✔ Practical and/or problem-solving skills

Class flow

Lecture

Course schedule/Required learning

	Course schedule	Required learning
Class 1	Introduction of integrated circuits	Understanding of the technology trend of integrated circuit and its impact in the internet era.
Class 2	Analog Integrated Circuit Design Flow and Basic Circuits, furthermore, understanding Transistor Characteristics for Analog Integrated Circuit Design	Analog Integrated Circuit Design Flow and Basic Circuits, furthermore, understanding Transistor Characteristics for Analog Integrated Circuit Design
Class 3	RF CMOS Circuits and Basics for Operational Amplifier	RF CMOS Circuits and Basics for Operational Amplifier
Class 4	High-Speed Wired Communication Circuits and Integrated Sensor Circuits	High-Speed Wired Communication Circuits and Integrated Sensor Circuits
Class 5	Basics for Linear Circuit Analysis	Basics for Linear Circuit Analysis
Class 6	Basics for CMOS Analog Reference Circuits	Basics for CMOS Analog Reference Circuits
Class 7	Basics for Phase Lock Loop and AtoD converter	Basics for Phase Lock Loop and AtoD converter
Class 8	Integrated CMOS-MEMS: Heterogeneous Function and MEMS and Fabrication Technology for MEMS Device	Integrated CMOS-MEMS: Heterogeneous Function and MEMS and Fabrication Technology for MEMS Device
Class 9	Multi-Physics Simulation Technology for CMOS-MEMS and Design of MEMS Device	Multi-Physics Simulation Technology for CMOS-MEMS and Design of MEMS Device
Class 10	/Fundamentals of wireless communications /Link Budget calculations	/Fundamentals of wireless communications /Link Budget calculations
Class 11	High-speed wireless communications mm-wave and THz transceivers	High-speed wireless communications mm-wave and THz transceivers
Class 12	Active and passive devices for mm-wave and THz circuits	Active and passive devices for mm-wave and THz circuits
Class 13	Design of mm-Wave and THz amplifiers	Design of mm-Wave and THz amplifiers
Class 14	Examination	Examination

Out-of-Class Study Time (Preparation and Review)

To enhance effective learning, students are encouraged to spend approximately 100 minutes preparing for class and another 100 minutes reviewing class content afterwards (including assignments) for each class.
They should do so by referring to textbooks and other course material.

Textbook(s)

None

Reference books, course materials, etc.

Distributed in the class

Assessment criteria and methods

Report and examination

Related courses

EEE.C441 ： VLSI Technology I
EEE.C341 ： Integrated Circuit Technology Integrated Circuit Technology
EEE.C201 ： Electric Circuits I
EEE.C202 ： Electric Circuits II
EEE.C211 ： Analog Electronic Circuits
EEE.C311 ： Advanced Electronic Circuits

Prerequisites (i.e., required knowledge, skills, courses, etc.)

Knowledge of mathematics, electrical circuit thoery, semiconductor devices

Contact information (e-mail and phone) Notice : Please replace from "[at]" to "@"(half-width character).

Hitoshi Wakabayashi (wakabayashi.h.ab[at]m.titech.ac.jp)

Office hours

9:00-17:00 Email appointment is required

Other

None

TOKYO INSTITUTE OF TECHNOLOGY