Learning Path

Non-Linear: Random Order

About the Course

Course Description

This course provides students with concepts of Review of number systems and Binary codes, Error detection and correction codes (Parity and Hamming code), Digital Logic Families, Combinational logic, Representation of logic functions and K-map representations

Objectives 

1.Will familiarize about Multiplexers and demultiplexers

2.Will demonstrate Level triggering and edge triggering

3.Will develop Asynchronous and synchronous type

Prerequisite

There is no particular prerequisite to learn Digital Logic Circuits you will be able to do very well, if you have these basic skills: 

1. Good Analytics Skills

2. Good Understanding Skills

3. Good Communication Skills

.

Course Study Materials
Module 1: NUMBER SYSTEMS AND DIGITAL LOGIC FAMILIES
  • 1.1 Review of number systems and Binary codes
  • 1.2 Error detection and correction codes (Parity and Hamming code)
  • 1.3 Digital Logic Families
  • 1.4 Operation
  • NUMBER SYSTEMS AND DIGITAL LOGIC FAMILIES 10 Questions
Module 2: COMBINATIONAL CIRCUITS
  • 2.1 Combinational logic
  • 2.2 Representation of logic functions
  • 2.3 K-map representations
  • 2.4 Minimization using K maps
  • 2.5 Multiplexers and demultiplexers
  • 2.6 Code converters
  • 2.7 Adders
  • 2.8 Subtractors
  • COMBINATIONAL CIRCUITS 10 Questions
Module 3: SYNCHRONOUS SEQUENTIAL CIRCUITS
  • 3.1 Sequential logic
  • 3.2 Level triggering and edge triggering
  • 3.3 Asynchronous and synchronous type
  • 3.4 Shift Registers
  • 3.5 Moore and Melay models
  • 3.6 Counters
  • 3.7 State diagram
  • 3.8 State reduction
  • SYNCHRONOUS SEQUENTIAL CIRCUITS 10 Questions
Module 4: ASYNCHRONOUS SEQUENTIAL CIRCUITS AND PROGRAMMABLE LOGIC DEVICES
  • 4.1 Asynchronous sequential logic circuits
  • 4.2 Transition table
  • 4.3 Flow table
  • 4.4 Race conditions
  • 4.5 Analysis of asynchronous sequential logic circuits
  • 4.6 Introduction to Programmable Logic Devices: PROM – PLA –PAL
  • ASYNCHRONOUS SEQUENTIAL CIRCUITS AND PROGRAMMABLE LOGIC DEVICES 10 Questions
Module 5: VHDL
  • 5.1 RTL Design
  • 5.2 Combinational logic
  • 5.3 Sequential circuit
  • 5.4 Operators
  • 5.5 Subprograms
  • VHDL 10 Questions
Final Assessment
  • Final Assessment 20 Questions

The certificate issued for the Course will have the student's Name, Photograph, Course Title, Certificate number, Date of course completion and the name(s) and logo(s) of the Certifying Bodies. Only the e-certificate will be made available. No Hard copies. The certificates issued by uLektz Learning Solutions Pvt. Ltd. can be e-verifiable at www.ulektzskills.com/verify.

  • Students are required to take online assessments with eProctoring.
  • Students will be assessed both at the end of each module and at the end of the Course.
  • Students scoring a minimum of 50% in the assessments are considered for Certifications
certificate
...
₹2499
Features:
  • 60 hours Learning Content
  • 100% online Courses
  • English Language
  • Certifications

Course

Registration opens on 04-02-2019

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Course Enrollment

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Course starts on 05-12-2022

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You have completed 6 hours of learning for 20-04-2024. You can continue learning starting 21-04-2024.

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This course can only be taken in sequential order.

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You have completed the course. You will be notified by email once the certificate is generated.

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Result Summary

Fundamentals of Digital Logic Circuits