Syllabus Application
EE 302
Digital Integrated Circuits
Faculty
Faculty of Engineering and Natural Sciences
Semester
Spring 2025-2026
Course
EE 302 -
Digital Integrated Circuits
Time/Place
Time
Week Day
Place
Date
13:40-15:30
Tue
FASS-1099
Feb 16-May 22, 2026
09:40-10:30
Wed
FENS-L058
Feb 16-May 22, 2026
Level of course
Undergraduate
Course Credits
SU Credit:3, ECTS:6, Engineering:6
Prerequisites
EL 202 or EE 202
Corequisites
EE 302L
Course Type
Lecture
Instructor(s) Information
Ayhan Bozkurt
- Email: abozkurt@sabanciuniv.edu
Course Information
Catalog Course Description
Overview of metal-oxide semiconductor (MOS) device technologies for large scale integrated (LSI) circuits; inverter circuits, static and transient operation; complementary metal-oxide semiconductor (CMOS) logic implementation, full-custom gate design, mask layout fundamentals; static and dynamic logic circuits; sequential logic circuit designs; non-volatile semiconductor memory structures; static and dynamic random access memory design principles.
Course Learning Outcomes:
| 1. | Design, analyze and simulate combinational and sequential CMOS circuits. |
|---|---|
| 2. | Explain CMOS process technology for digital integrated circuits. |
| 3. | Use standard electronics design automation software for the transistor level design of CMOS digital IC building blocks and standard cells. |
| 4. | Describe parameters that are used to assess the quality of digital circuits and use software to calculate these. |
| 5. | Describe parameters that affect the speed, throughput and power consumption of digital circuits. |
| 6. | Analyze and solve interfacing problems between logic blocks. |
| 7. | Describe the technology used in the construction of digital memory, and assess the quality of various memory types. |
Course Objective
To develop the engineering skills to analyze and design CMOS Digital ICs.
To introduce basic CMOS process technology to understand the structure, operational principles and circuit parameters of transistors used in digital design.
To provide each student with the opportunity for completing a set of design projects that lead to the development of a small digital standard cell library.
To introduce basic CMOS process technology to understand the structure, operational principles and circuit parameters of transistors used in digital design.
To provide each student with the opportunity for completing a set of design projects that lead to the development of a small digital standard cell library.
Sustainable Development Goals (SDGs) Related to This Course:
| Industry, Innovation and Infrastructure |
Course Materials
Resources:
S. Kang, Y. Leblebici CMOS Digital Integrated Circuits, 3th Ed., McGRAW-HILL, 2003.
Technology Requirements:
Cadence Software