Lecture Notes, Homework Sets , Homework Solutions , Learn Your Grades , Distribution of Grades

Announcements

  • Table of Exam Results
  • The weights of MT1, MT2 and Final in final grade calculation are 30%, 30% and 40%, respectively.
  • Make-up exams are graded. You can check your grades from the link given above.
  • Make-up Exam for students missing MT1 or MT2 Exam: June, 11, (Tuesday) 16:30 at EA 202.
  • Make-up Exam for students missing Final Exam: June 7, (Friday) 13:30 at EA 208.
  • A new HW on NMOS Inverter and Interfacing Logic Families is added to HW sets folder. Unfortunately, only the solution of Problem 4 is available.
  • MT2 will be on May 15 (Wednesday) during lecture hours. The coverage for MT2 is RTL, DTL and TTL.
  • On DTL/TTL (Ayers, U Connecticut)
  • MT #1 : April 3rd, 2013 (Wednesday) 10:30-12:30 EA 208 (during lecture hours)
  • MT #1 Coverage : HW #1, #2 and #3.
  • Check HW #1 (March 6, 2013)
  • Change of Lecture hours : The lecture hour on Friday is changed to Thursday 16:30-17:30. The location is EA 211.
  • Website Suggestion : History of Logic Circuits, ES 154 (Harvard)

Middle East Technical University

Department of Electrical and Electronics Engineering

EE-282

Introduction to Digital Electronics

 

Spring 2012-2013

 

Sections

Instructors

Time

Place

Contact

Section 3

Çağatay Candan

Wed. 10:30-12:30

 Fri.   16:30-17:30

Thu.   16:30-17:30

EA 208

BMB 4

EA 211

210-2355

EZ -11A

 

Course Description:

Course aims to introduce electronic components with their applications in logic gate design. A passing grade from introductory circuit theory course (EE-281) is required. The topics discussed are analysis of non-linear circuit components such as diodes and transistor, logic gates, different logic families.

This course is *only* offered to non-EE students
The equivalent course in the EE curriculum is EE 312 (Digital Electronics) .

 

 

Week

Topic

1

Properties, Definitions and Terminology of Digital Integrated Circuits

2

A short Review of Semi-Conductor Physics, PN junction diodes

3

Diode Circuits, Diode State Finding

4

Bipolar Junction Transistor (BJT) Operation and Biasing

5

BJT Simplified Models and State Finding

6

BJT Inverter

7

Diode Logic (DL) , Resistor Transistor Logic (RTL)

8

Diode Transistor Logic (DTL)

9

Transistor Transistor Logic (TTL)

10

Transistor Transistor Logic (continued)

11

Field Effect Transistor (FET) Operation and Characteristics

12

Metal Oxide Semiconductor (MOS) and Complementary MOS Gates

13

Interfacing Logic Families

14

Regenerative Circuits; Schmitt Trigger, Oscillators

 

Reference Books:

 

1.      “Digital Integrated Circuits”, DeMassa and Ciccone, John Wiley & Sons, 1996.

2.      “Microelectronics Circuits”, Sedra and Smith, Oxford University Press,

 

Grading:

Two midterm exams and a final