What You Will Learn!
- Understand the fundamentals of number system conversion and binary coding.
- Demonstrate the concepts of Boolean algebra, switching functions, and logic gates
- Apply the K-Map approach to reduce the switching functions.
- Create a variety of combinational logic circuits.
- Examine various programming logic devices
Description
Course Description:
This Course is a Comprehensive Study of principles and techniques of designing Digital circuits. This course includes introduction to number systems, basic theorems and properties of Boolean algebra, minimization of Boolean functions, different logic gates, designing of circuits using logic gates, programmable logic devices, analyzing a given combinational or sequential circuit using k-map and Boolean algebra as a tool to simplify and design the logic circuits. Learner able to design any combinational circuit after the completion of this course
Scope and Objective:
The main objective of the course are to:
1. Understand number systems and codes and their application to digital circuits.
2. Understand Boolean algebra, Karnaugh maps and its application to the design and characterization of digital circuits.
3. Design and analyze a given combinational circuit using Boolean algebra as a tool to simplify and design logic circuits.
4. Understand the logic design of programmable devices, including PLDs
Course Outcomes:
After undergoing the course students will be able to:
1. Illustrate the conversion of a number from one number system to another
2. Identify Boolean algebra and K-map as a tool to simplify and design logic circuits
3. Implement combinational circuits using gates
4. Design Programmable logic design
6. Attribute innovative designs by modifying the traditional design techniques
Who Should Attend!
- learners who wish to learn basic for digital elctronics, designing of combinational circuits with practicle examples
