| Learning Outcomes |
PO |
MME |
| The students who succeeded in this course: |
|
|
| LO-1 |
Make operations related to number systems. |
PO-
|
Examination
|
| LO-2 |
Comprehend logic gates and their truth tables. |
PO-
|
Examination
|
| LO-3 |
Explain electrical properties of logic gates. |
PO-
|
Examination
|
| LO-4 |
Design digital circuits using Boolean algebra. |
PO-
|
Examination
|
| LO-5 |
Design digital circuits using Karnaugh maps. |
PO-
|
Examination
|
| LO-6 |
Apply encoder and decoder circuits. |
PO-
|
Examination
|
| LO-7 |
Apply multiplexer and demultiplexers circuits. |
PO-
|
Examination
|
| LO-8 |
Analyze adder, substractor and comparator circuits. |
PO-
|
Examination
|
| LO-9 |
Design digital circuits using multivibrators. |
PO-
|
Examination
|
| LO-10 |
Design digital circuits using flip-flops. |
PO-
|
Examination
|
| LO-11 |
Comprehend the operating principles of asynchronous and synchronous counters. |
PO-
|
Examination
|
| LO-12 |
Explain types and properties of registers. |
PO-
|
Examination
|
| LO-13 |
Apply analog to digital converter circuits. |
PO-
|
Examination
|
| LO-14 |
Apply digital to analog converter circuits. |
PO-
|
Examination
|
PO: Programme Outcomes
MME:Method of measurement & Evaluation |
| Course Contents |
| Number systems, truth tables and electrical properties of logic gates, abbreviation and digital circuit design using Boolean algebra and Karnaugh maps, encoders, decoders, multiplexers, demultiplexers, adders, substractors, comparators, digital circuit design using multivibrators and flip-flops, asynchronous and synchronous counters, types and properties of registers, analog to digital and digital to analog converters. |
| Weekly Course Content |
| Week |
Subject |
Learning Activities and Teaching Methods |
| 1 |
Number systems and operations related to number systems. |
Narration, problem solving |
| 2 |
Logic gates and their truth tables. |
Narration, discussion |
| 3 |
Electrical properties of logic gates. |
Narration, question and answer |
| 4 |
Boolean algebra, abbreviation and digital circuit design. |
Narration, discussion, problem solving |
| 5 |
Karnaugh maps, abbreviation and digital circuit design. |
Narration, discussion, problem solving |
| 6 |
Encoders and decoders. |
Narration, problem solving |
| 7 |
Multiplexers and demultiplexers. |
Narration, problem solving |
| 8 |
mid-term exam |
|
| 9 |
Adders, substractors and comparators. |
Narration, problem solving |
| 10 |
Operating principles of multivibrators and digital circuit design. |
Narration, problem solving |
| 11 |
Operating principles of flip-flops and digital circuit design. |
Narration, problem solving |
| 12 |
Asynchronous and synchronous counters. |
Narration, problem solving |
| 13 |
Types and properties of registers. |
Narration, problem solving |
| 14 |
Analog to digital converters. |
Narration, question and answer, problem solving |
| 15 |
Digital to analog converters. |
Narration, question and answer, problem solving |
| 16 |
final exam |
|
| Recommend Course Book / Supplementary Book/Reading |
| 1 |
Mantık Devreleri (Sayısal Elektronik), Hüseyin Ekiz, Değişim Yayınları, 2010. |
| 2 |
Ders notları ve laboratuvar deney föyleri. |
| 3 |
Sayısal Elektronik, Hasan Selçuk SELEK, Seçkin Yayınevi,2009. |
| Required Course instruments and materials |
| Notebook, projector, digital electronic experiment kit |
