# GAZI UNIVERSITY INFORMATION PACKAGE - 2019 ACADEMIC YEAR

COURSE DESCRIPTION
DIGITAL DESIGN/EE301
 Course Title: DIGITAL DESIGN Credits 3 ECTS 5 Course Semester 5 Type of The Course Compulsory
COURSE INFORMATION
-- (CATALOG CONTENT)
-- (TEXTBOOK)
-- (SUPPLEMENTARY TEXTBOOK)
-- (PREREQUISITES AND CO-REQUISITES)
-- LANGUAGE OF INSTRUCTION
Turkish
-- COURSE OBJECTIVES
-- COURSE LEARNING OUTCOMES
To be able to design digital circuit.
To know the working principles of digital systems and to be able to draw their diagrams.
Learning the methods and appropriate procedures used for digital design applications and the basic elements used in the design of digital circuits.

-- MODE OF DELIVERY
The mode of delivery of this course is face to face
 --WEEKLY SCHEDULE 1. Week Numerical systems, binary, octal and hexadecimal numbers. Number bases and number base conversions. 2. Week Complementary arithmetic, digital codes. 3. Week Binary logic, basic theorems of Boolean algebra, simplification of Boolean functions. 4. Week Logic gates: canonical and standard forms, digital logic gates, design and implementation of logic circuits using logic elements, implementing logic circuits with Nand/Nor gates 5. Week Simplification of Boolean functions: Karnaugh map method, Karnaugh maps with maxterms, ignored cases. 6. Week Digital integrated circuits and their properties. 7. Week Combinational logic: logic circuits related to coding; encoder, decoder, code converter. 8. Week Midterm exam. Combinational logic: multiplexer circuits, data selectors, multiplexer circuits. 9. Week Combinational logic: data distributors, circuits for comparison and arithmetic operations; magnitude comparator, adder, subtractor, multiplier. 10. Week Synchronous sequential logic: multivibrator and flip-flops (FF), RS, JK, D, T and master-slave type FF. 11. Week Synchronous sequential logic: Asynchronous inputs in FF. FF parameters. FF status transition tables. 12. Week Sequential logic circuits. Analysis of sequential circuits. State transition scheme method, state transition tables, state equations. Sequential circuit design. 13. Week Counters: asynchronous up counters, asynchronous up counters with reset and preset, asynchronous down counters, up-down asynchronous counters, indirect and direct reset asynchronous counters, 14. Week Counters: synchronous counters, synchronous up counters, synchronous down counters, design of synchronous counters, preset counters, ring and Johnson counters 15. Week 16. Week
-- TEACHING and LEARNING METHODS
-- ASSESSMENT CRITERIA
 Quantity Total Weighting (%) Midterm Exams 1 40 Assignment 2 5 Application 0 0 Projects 1 15 Practice 0 0 Quiz 0 0 Percent of In-term Studies 60 Percentage of Final Exam to Total Score 40