EEF 262E

From The Emerging Circuits and Computation Group at ITU
(Difference between revisions)
Jump to: navigation, search
(Weekly Course Plan)
(Syllabus)
Line 20: Line 20:
  
 
* Midterm Exams: '''60%'''
 
* Midterm Exams: '''60%'''
** 2 midterms (30% each) during the lecture time that will on '''25/3/2024''' and '''29/4/2024'''.
+
** 2 midterms (30% each) during the lecture time that will on '''2/4/2024''' and '''29/4/2024'''.
  
 
* Final Exam: '''40%'''
 
* Final Exam: '''40%'''

Revision as of 13:59, 28 February 2024

Syllabus

EEF 262E: Fundamentals of Electronics, CRN: 25175, Mondays 8:30-11:30 & Tuesdays 8:30-11:30, Room: 5304 EEF, Spring 2024.
Instructors

Mustafa Altun

  • Email: altunmus@itu.edu.tr

Tufan Karalar

  • Email: karalart@itu.edu.tr
Grading
  • Midterm Exams: 60%
    • 2 midterms (30% each) during the lecture time that will on 2/4/2024 and 29/4/2024.
  • Final Exam: 40%
Reference Books
  • Weste, N., & Harris, D. (20XX). Integrated Circuit Design: International Version: A Circuits and Systems Perspective. Pearson Education,.
  • Rabaey, J. M., Chandrakasan, A. P., & Nikolic, B. (20XX). Digital integrated circuits. Englewood Cliffs: Prentice hall.
  • Uyemura, J. P. (20XX). CMOS logic circuit design. Springer.
  • Kang, S. M., & Leblebici, Y. (20XX). Cmos Digital Integrated Circuits. McGraw-Hill Education.
Policies
  • Exams are in closed-notes and closed-books format.
  • To be eligible of taking the final or the resit exam, you should take both midterms and your midterm average should be at least 25 (out of 100).
  • The final exam will be same exam for all sections.

Weekly Course Plan

Date
Topic
Week 1, 12/2/2024 & 13/2/2024 No class
Week 2, 19/2/2024 & 20/2/2024 No class
Weeks 3, 26/2/2024 & 27/2/2024 Fundamentals of solid-state physics, properties of semiconductors, energy bands, direct and indirect semiconductors, Current carriers, drift and diffusion mechanisms.
Weeks 4, 4/3/2024 & 5/3/2024 Basics of Microfabrication, PN junction in equilibrium, PN junction under reverse and forward bias, body resistance and parasitic capacitance. Physical structure of Bipolar Junction Transistor (BJT), Operating regions of BJT.
Week 5, 11/3/2024 & 12/3/2024 Diode models, diode circuits, small signal model of the diode, Rectifiers, DC power supplies, Zener Diode, regulator circuits
Weeks 6, 18/3/2024 & 19/3/2024 DC biasing of BJT circuits and small signal models. Physical structure of MOSFET.
Week 7, 25/3/2024 & 26/3/2024 Operating regions of MOSFET, secondary effects. DC biasing of MOSFET circuits and small signal model.
Week 8, 1/4/2024 & 2/4/2024 Problem solving. MIDTERM I
Weeks 9, 8/4/2024 & 9/4/2024 HOLIDAY, no class
Week 10, 15/4/2024 & 16/4/2024 Fundamentals of Transistor-Based Amplification, Biasing of BJT Amplifiers. Small Signal Analysis of BJT Amplifiers.
Week 11, 22/4/2024 & 23/4/2024 Biasing and Small Signal Analysis of MOSFET Amplifiers. Small Signal Analysis of MOSFET Amplifiers, Cascode amplifiers.
Weeks 12, 29/4/2024 & 30/4/2024 Current mirrors, Current sources, transistor pairings for amplification.
Weeks 13, 6/5/2024 & 7/5/2024 Problem solving. MIDTERM II
Week 14, 13/5/2024 & 14/5/2024 Differential amplifiers, Active loaded circuits, Common Mode Rejection Ratio and Offset Voltage in Differential Amplifiers.
Weeks 15, 20/5/2024 & 21/5/2024 Linear and Nonlinear Applications of op-amps. Final exam discussion.

Course Materials

Shared through Ninova.

Personal tools
Namespaces

Variants
Actions
ECC
ECC (In Turkish)
Toolbox