List of Courses

Information
Description
Outcomes
Contents
Methodologies
Assessment
Books

Logical Design and Digital Circuits

Course Code :
ELE 215
Level :
Undergraduate
Course Hours :
3.00 Hours
Department :
Department of Electrical Engineering

Instructor information :

Area of Study :

 Understand and use different number systems and coding schemes.  Analyze and design combinational logic based on minimizing Boolean functions.  Analyze and design flip flops and get deeply involved with sequential circuits (especially synchronous).  Train students to perform experiments on digital circuits using software tools for circuit logic design and simulation.

For further information :

Telephone: 16383 (16FUE)
E-mail: [email protected]

Logical Design and Digital Circuits

Review on number systems: positional notation, binary number systems, number base conversion, octal and hexadecimal, negative numbers, coded number systems, Switching functions: main operators, postulates and theorems, Analysis and synthesis of switching functions, incompletely specified functions, Design using NAND and NOR gates, standard combinational Logic, PLA & PAL implementation of combinational logic, Storage devices: 1-bit storage, set-reset FF, clocked SR-FF, positive and negative-edge triggered SR-FF, JK-FF, Race-around condition, Master-slave JK-FF, D-FF, T-FF, Excitation table. Introduction to sequential circuits and FSM.

For further information :

Telephone: 16383 (16FUE)
E-mail: [email protected]

Logical Design and Digital Circuits

Course outcomes:

a. Knowledge and Understanding:

1-	Describe different number systems: positional notation, binary number systems, number base conversion, octal and hexadecimal, negative numbers, coded number systems.
2-	Discuss switching functions: main operators, postulates and theorems.
3-	Explain analysis and design of combinational circuits and their applications.
4-	Explain analysis and design of sequential circuits and their applications.

b. Intellectual Skills:

1-	Analyze problems related to different combinational circuits and their different applications.
2-	Analyze problems related to different sequential circuits and their different applications.
3-	Design digital circuits using professional software tools.
4-	Solve problems related to different number systems and its different applications.

c. Professional and Practical Skills:

1-	Clarify theories and techniques of mathematics to solve digital circuit problems.
2-	Build the components and requirements for designing a complete digital circuit.
3-	Develop the design and implementation of digital circuits using software tools and measuring instruments.
4-	Seek thoroughly datasheets and identify appropriate specifications for required digital circuits either combinational circuits or sequential circuits.

d. General and Transferable Skills:

1-	Collaborate effectively within multidisciplinary team
2-	Communicate effectively.
3-	Effectively manage tasks, time, and resources.
4-	Search for information and engage in life-long self-learning discipline.

For further information :

Telephone: 16383 (16FUE)
E-mail: [email protected]

Logical Design and Digital Circuits

Course topics and contents:

Topic	No. of hours	Lecture	Tutorial/Practical
Switching functions: main operators, postulates and theorems.	10	6	4
Analysis and synthesis of switching functions	10	6	4
Number systems and coding systems	10	6	4
Analysis of Combinational circuits.	10	6	4
Design of Combinational circuits.	10	6	4
Asynchronous sequential circuits	5	3	2
Analysis of Synchronous sequential circuits.	10	6	4
Design of Synchronous sequential circuits, registers	10	6	4