Digital Electronics
Digital Electronics is study of electronic circuits that are used to process and control digital signals. In contrast to analog electronics where information is represented by a continuously varying voltage digital signal is represented by two discrete voltages.
What you’ll learn
- Number System,Logic Gates.
- Combinational Circuits.
- Sequential Circuits.
- Examples.
Course Content
- Introduction –> 6 lectures • 18min.
- K-MAP –> 3 lectures • 5min.
- Combinational Circuit –> 16 lectures • 1hr 12min.
- SEQUENTIONAL CIRCUITS –> 11 lectures • 29min.
Requirements
Digital Electronics is study of electronic circuits that are used to process and control digital signals. In contrast to analog electronics where information is represented by a continuously varying voltage digital signal is represented by two discrete voltages.
Digital electronics is the foundation of all modern electronics devices such as cellular phones MP3 players laptop computers etc.
The course of study includes.
Introduction to Number systems
Conversion examples
logic gates AND OR NOT NAND NOR
combinational Logic circuits
Half Adder Full Adder
Half Subtractor Full Subtractor
conversion
BCD to Gray
BCD to Excess3
BCD to GRAY
comparator
sequential logic circuits
Flip Flops SR FLIP FLOP
JK FLIP FLOP
T FLIP FLOP
D FLIP FLOP
Characteristic
Excitation Table
Digital Electronics is intended to provide students with an introduction to the basic components of digital electronics system and equipment them with the ability to use these components to design more complex digital system.
proficient students will be able to
Describe basic functions of digital components.
use these devices as building blocks to design larger, more complex
Implement these circuits using programmable.
Digital Electronics course proficient students will be able design a complex digital system and communicate their design through a variety of media.