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PİRİ REİS UNIVERSITY

MARITIME VOCATIONAL HIGHER SCHOOL

Publication Date:		Revision Date:				Revision No:			Board Decision No:
Course Name : Digital Design						Degree: Associate
Code	Year/Semester		Local Credits	ECTS Credits		Course Implementation, Hours/Week
						Course		Tutorial			Laboratory
								-			-
Department			Electronics and Automation / Mechatronics
Instructors			Prof. Dr. Uğur Çeltekligil
Contact Information			uceltekligil@pirireis.edu.tr; Tel: 1710
Office Hours			Friday: 14.00 – 15.30
Web page			www.pirireis.edu.tr
Course Type			Contemporary			Course Language		Turkish
Course Prerequisites
Course Category by Content, %			Basic Sciences		Engineering Science		Engineering Design			Humanities
			20		50		20			10
Course Description			Understanding of analog and digital concepts, number systems four operations numeric and alpha numeric codes, conversions between codes. Logic mathematics, conjunctions, definition tables, function equations, theorems. Combinational circuit design steps. Method of reducing function equations. Karnough and Q-Mc Clusky Method. Electronic structures of combinational circuit components, integrated circuits. Characteristics of logic families and selection criteria. Structures of SSI, MSI, LSI integrated circuits. Functional structures of MSI adder decoder /encoder comparator circuit structures and examination. Multiplexer / Demultiplexer structures and applications in logic circuit analysis, The structure of sequential logic circuits. Unstable, mono stable, double-stable circuit elements, design steps of asynchronous logic circuits. Asynchronous counters and designs, Design steps of synchronous sequential circuits, Example designs, Numerical memory structures, RAM and ROM memories, Applications of complex sequential logic circuit design examples
Course Objectives			The main aim of the course is to ensure that students have basic knowledge in the following subjects: Numerical, understanding of analog concepts, number systems, four operations, Numerical and alphanumeric codes, code-to-code conversions, Combinational circuit design steps, Electronic structures of combinational circuit elements, The characteristics of the logic families and the selection criteria, The structure of sequential logic circuits, Design steps of asynchronous logic circuits.
Course Learning Outcomes			After successful completion of the course, the achievements of the students will have the basic knowledge and skills related to the given topics. I. Numerical, understanding of analog concepts, number systems, four operations II. Numeric and alphanumeric codes, code-to-code conversions, III. Combinational circuit design steps, IV. Electronic structures of combinational circuit elements, V. Characteristics and selection criteria of logic families, VI. The structure of sequential logic circuits, VII. Design steps of asynchronous logic circuits
Instructional Methods and Techniques			Lecture Notes, powerpoint presentations
Tutorial Place			Electronics Laboratory
Co-term Condition
Textbook			Digital Design, Schaum Series
Other References			Lecture Notes
Homework & Projects
Laboratory Work			DIGITAL DESIGN ELECTRONICS LABORATORY EXPERIMENTS
Computer Use			DURING ELECTRONICS LABORATORY EXPERIMENTS
Other Activities

Assessment Criteria	Activities	Quantity	Effects on Grading, %
	Attendance
	Midterm	1	30
	Quiz
	Homework
	Term Paper/Project
	Laboratory Work	5	30
	Practices
	Tutorial
	Seminar
	Presentation
	Field Study
	Final Exam	1	40
	TOTAL		100
	Effects of Midterm on Grading, %		60
	Effects of Final on Grading, %		40
	TOTAL

ECTS/ WORKLOAD TABLE	Activities	Count	Hours	Total Workload
	Lecture	14	3	42
	Midterm	1	12	12
	Quiz
	Homework
	Term Paper/Project
	Laboratory Work	5	10	50
	Practices
	Tutorial
	Seminar
	Presentation
	Field Study
	Final Exam	1	12	12
	Total Workload			116
	Total Workload/25			116/25
	Course ECTS Credits			5


Understanding of digital, analog concepts,
Number systems, four operations,
Numeric and alphanumeric codes, code-to-code conversions,
Logic mathematics, conjunctions, definition tables, function equations, theorems,
Combinational circuit design steps,
Methods of reducing function equations, Karnough and Q-Mc Clusky method.
Combinational circuit elements can be integrated into electronic structures, integrated circuits,
Midterm exam
Characteristics of logic families and selection criteria. Structures of SSI, MSI, LSI integrated circuits,
Functional structures of MSIs. Collector, decoder / encoder, comparator circuit structures and inspection,
Multiplexer / Demultiplexer structures and applications in logic circuit solution, The structure of sequential logic circuits,
Unstable, monostable, double-stable circuit elements, design steps of asynchronous logic circuits,
Asynchronous counters and designs, Design steps of synchronous sequential circuits, Example designs, Numerical memory structures, RAM and ROM memories,
Applications of complex sequential logic circuit design examples.

Relationship between the Programme Outcomes and Level of Contribution

	Program Outcomes	Level of Contribution
	Program Outcomes	1	2	3
a	An ability to apply knowledge of mathematics, science, and engineering			X
b	An ability to design and conduct experiments, as well as to analyze and interpret data		X
c	An ability to design a system, component or process to meet desired needs	X
d	Ability to function on multi-disciplinary teams		X
e	An ability to identify, formulate, and solve engineering problems		X
f	An understanding of professional and ethical responsibility		X
g	An ability to communicate effectively		X
h	The broad education necessary to understand the impact of engineering solutions in a global and societal context		X
i	A recognition of the need for, and an ability to engage in life-long learning		X
j	A knowledge of contemporary issues		X
k	An ability to use the techniques, skills and modern engineering tools necessary for engineering practice		X
l	An ability to apply legal, societal and environmental knowledge in maritime transport and in all respective modes of transport operations.			X
m	An ability to interpret and analysis of the data regarding maritime management and operations, recognition and solution of problems for decision making process.			X

1: Small, 2: Partial, 3: Full

Programme Outcomes & Course Outcomes Connectivity Matrix

Course Outcomes	I	II	III	IV	V	VI	VII
Program Outcomes	I	II	III	IV	V	VI	VII
a
b
c
d
e
f
g
h
i
j
k
l
m

Prepared by

Week	Topics	Course Outcomes
1	Understanding of digital, analog concepts,	I
2	Number systems, four operations,	II
3	Numeric and alphanumeric codes, code-to-code conversions,	IIII
4	Logic mathematics, conjunctions, definition tables, function equations, theorems,	IV
5	Combinational circuit design steps,	I-IV
6	Methods of reducing function equations, Karnough and Q-Mc Clusky method.	I-IV
7	Combinational circuit elements can be integrated into electronic structures, integrated circuits,	V
8	Midterm exam	I-V
9	Characteristics of logic families and selection criteria. Structures of SSI, MSI, LSI integrated circuits,	V
10	Functional structures of MSIs. Collector, decoder / encoder, comparator circuit structures and inspection,	V-VI
11	Multiplexer / Demultiplexer structures and applications in logic circuit solution, The structure of sequential logic circuits,	VI
12	Unstable, monostable, double-stable circuit elements, design steps of asynchronous logic circuits,	VI
13	Asynchronous counters and designs, Design steps of synchronous sequential circuits, Example designs, Numerical memory structures, RAM and ROM memories,	VI-VII
14	Applications of complex sequential logic circuit design examples.	VII

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