Introduction to information representation & number systems and codes; Boolean algebra and logic gates; simplification of Boolean functions; Analysis and design of combinational logic circuits; multiplexers; Decoders and adders,; Introduction to synchronous sequential logic; flip flops; Analysis and design of clocked synchronous sequential circuits.
Intended learning outcomes
Knowledge &understand
The student is familiar with the physical components of the computer and the circuits
The student explains the sequential circuits
The student describes the types of memory and transitional equations
mental skills
The student distinguishes logical circuits
The student analyzes the sequential circuits
The student derives the transition equations
Practical & professional skills
The student designs synthetic circuits
Practice analyzing sequential circuits
Acquiring the skill of following transitional equations
General and transferable skills
Acquiring the skill of communication and working within a team
Present information and explain phenomena orally and in writing.
Communicates appropriately in Arabic and English
Teaching and learning methods
Lectures
Tutorials
Problem-based learning
Methods of assessments
Midterm Exam = 30
Assignments = 10
Mini-project = 10
Final Exam = 50
Course contents
Logical gates (NOT & OR & AND &XOR gate
Synthetic circuits (the complete collector and Karnaugh maps with three and four variable
DECODER & ENCODER & CODE CONVERTER & MULTIPLEXER
Flippers (case tables, case diagram, and logic circuit for ( JK Flip Flops & D Flip Flops & T FlipFlop )
Sequential Circuits: Detailed steps of sequential circuit analysis
midterm exam
Recorders and counters Detailed diagram of registers & displacement registers & counters and their types
Memory and its types: Detailed diagram of RAM & ROM & STACK
