# GAZI UNIVERSITY INFORMATION PACKAGE - 2019 ACADEMIC YEAR

COURSE DESCRIPTION
DIGITAL DESIGN LABORATORY/BMT-207
 Course Title: DIGITAL DESIGN LABORATORY Credits 1 ECTS 2 Course Semester 3 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
Students who have successfully completed this course; are able to describe electronic components used in basic digital circuits.
are able to design a basic digital circuit and physically perform these circuits by using Boolean logic and logic gates.
are able to implement by designing combinational logic circuits such as encoder, decoder, data selector and adder
are able to design counter and register circuits by using flip-flops.
are able to design a sequential circuit and turn it into a practical circuit by using sequential logic principles.

-- MODE OF DELIVERY
This course is carried out in face-to-face education and laboratory applications.
 --WEEKLY SCHEDULE 1. Week Introduction of the rules needed to follow in the laboratory and the test equipments 2. Week Logic Gates: Experiment 1. Voltage levels of logic gates 3. Week Logic Gates: Experiment 2. Obtaining truth tables of logic gates 4. Week Boole algebra applications: Experiment 3. Implemantation of Boole functions with logic Gates 5. Week Boole algebra applications: Experiment 4. Simplification of Boolean functions 6. Week Combinational Logic Circuit Applications: Experiment 5. Decoders, Experiment 6. 3X8 Decoder, Experiment 7. Decoder from BCD to Decimal. 7. Week Combinational Logic Circuit Applications: Experiment 8. Code converter from BCD to 7-segment display 8. Week Combinational Logic Circuit Applications: Experiment 9. Encoders, Experiment 10. Encoder from Decimal to BCD Experiment 11: Priority encoder 9. Week Midterm, Experiment 12. Data selectors 10. Week Combinational Logic Circuit Applications: Experiment 13: Four input-one output data selector. 11. Week Combinational Logic Circuit Applications: Experiment 14. Adders Experiment 15 Half and Full adders Experiment 16: Parallel adder. 12. Week Combinational Logic Circuit Applications: Experiment 17 Subractors Experiment 18: Half and full subractors Experiment 19: Parallel subracter 13. Week Flip-Flops: Experiment 20. R-S Flip-Flop Implementation with NAND Gates. 14. Week Experiment 21. R-S Flip-Flop Implementation with NAND Gates Counters: Experiment 22. Synchronous counter Experiment 23. Asynchronous counter. Sequential circuit applications: Experiment 24: Sequential circuit application-1 Experiment 25: Sequential circuit application-2 15. Week 16. Week
-- TEACHING and LEARNING METHODS
-- ASSESSMENT CRITERIA
 Quantity Total Weighting (%) Midterm Exams 1 40 Assignment 1 10 Application 0 0 Projects 0 0 Practice 1 10 Quiz 0 0 Percent of In-term Studies 60 Percentage of Final Exam to Total Score 40