Course Information
SemesterCourse Unit CodeCourse Unit TitleT+P+LCreditNumber of ECTS CreditsLast Updated Date
3EEE 241DIGITAL DESIGN3+0+24623.03.2026

 
Course Details
Language of Instruction English
Level of Course Unit Bachelor's Degree
Department / Program ELECTRICAL-ELECTRONICS E.
Type of Program Formal Education
Type of Course Unit Compulsory
Course Delivery Method Face To Face
Objectives of the Course This course is intended to give student an understanding of combinational digital logic. Main emphasis is given to combinational logic analysis and design. The student is expected to perform Boolean algebraic operations on expressions, know different forms of Boolean functions , simplification methods, and their implementations., analysis and design of combinational digital circuits, use hardware description languages.
Course Content Number Systems. Boolean Algebra and Logic Gates. Simplification of Boolean Functions. Analysis and Design Using Logic Gates. Some Examples of Combinational Logic Circuits. Representation of Digital Circuits Using Hardware Description Language. Flip-Flops and Its Types.
Course Methods and Techniques 1 - Lecture, 2 - Question - Answer, 3 - Discussion, 4 - Drill and Practice, 6 - Guided Practice, 13 - Laboratory , 14 - Self Study, 15 - Problem Solving,
Prerequisites and co-requisities None
Course Coordinator Prof.Dr. sema Kayhan https://eee.gaziantep.edu.tr/pages.php?url=akademik-personel-2 skoc@gantep.edu.tr
Name of Lecturers Asist Prof.Dr. Seydi kaçmaz
Assistants None
Work Placement(s) No

Recommended or Required Reading
Resources Digital Design," 3rd Edition, by M. Mano, Prentice Hall,
Course Notes Mano M.M., Ciletti M.D., Digital Design, Prentice Hall.
Introduction to Logic Design, Alan B. Markovitz, McGraw-Hill

Course Category
Mathematics and Basic Sciences %10
Engineering %20
Engineering Design %80

Planned Learning Activities and Teaching Methods
Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria
In-Term Studies Quantity Percentage
Mid-terms 2 % 45
Practice 1 % 15
Final examination 1 % 40
Total
4
% 100

 
ECTS Allocated Based on Student Workload
Activities Quantity Duration Total Work Load
Course Duration 16 3 48
Hours for off-the-c.r.stud 16 4 64
Mid-terms 2 10 20
Laboratory 10 3 30
Final examination 1 16 16
Total Work Load   Number of ECTS Credits 6 178

 
Course Learning Outcomes: Upon the successful completion of this course, students will be able to:
Bilgi 
1 Students learn about number systems, codes, and conversions used in digital systems.
2 Boolean algebra teaches Boolean functions and algebraic simplification.
3 They learn about applications of Boolean algebra and logic gates.
Beceri 
4 designs using integrated circuits
Yetkinlik 
5 To be able to use the tools and equipment needed in the digital design experiments.

 
Weekly Detailed Course Contents
WeekTopicsStudy MaterialsMaterials
1 Binary systems: Digital circuits, number systems, arithmetic operations, decimal codes, alphanumeric Codes. yok M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall
2 Performing arithmetic operations with different number systems and two's complement. ders notları okuma . M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
3 Boolean algebra and logic gates: Axiomatic definition of Boolean algebra, theorems and properties of Boolean algebra ders notları okuma . M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
4 canonical and standard forms of Boolean functions, other logic operations, digital logic gates, integrated circuits. okuma . M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
5 Simplification of Boolean functions: The map method, prime implicants, product of sums simplification, two-level NAND and NOR implementations, other two level implementations . M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
6 Karnaugh Diagrams, Functions Simplifications, Parities and Their Uses okuma M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
7 midterm exam 1 tüm notlar M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
8 Combinational Logic: Analysis procedure, design procedure, code conversion, binary adder-sub tractor, 4-bit parallel adder-subtractor, carry propagation, lookahead carry generation, decimal adder. okumaokuma M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
9 Hardware Description Languages ??(HDL), Writing Verilog code for Combinational Logic circuits design. OKUMA M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
10 MSI components: magnitude comparator, decoders and encoders, priority encoders, multiplexers, combinational logic implementation OKUMA . M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
11 Writing verilog code for magnitude comparator, decoders and encoders, priority encoders, multiplexers, combinational logic implementation yok . M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
12 MIDTERM EXAM 2 TÜM KONULAR . M.Morris Mano, Charles Kime, “Logic and Computer Design Fundamentals”, Prentice Hall 2nd Ed., 2000.
13 Different Design examples using medium-sized integrated circuit logic components . kitap “Digital Design” , M. Morris Mano; Prentice-Hall
14 Introduction to Synchronous sequential circuits kitap “Digital Design” , M. Morris Mano; Prentice-Hall

 
Sustainable Development Goals
Contribution of Learning Outcomes to Programme Outcomes
P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11
All 3
In1 2 2
In2 2 2 1
In3 3 3
Sk4 3 3 4 3
Co5 3 3 4 3 3

  bbb

  
  https://obs.gantep.edu.tr/oibs/bologna/progCourseDetails.aspx?curCourse=337721&lang=en