The Ultimate : Digital System Design ( Module - 2 )

Digital Circuits, Digital Logic Design, Switching Theory and Logic Design and Digital Electronics

What you'll learn
Be able to learn the Basic concepts combinational circuits
Be able to design Multiplexer, Decoders and binary adders
Be able to learn the basic concept of Sequential Circuits like Flip Flops
Be able to learn the concepts of Counters and Registers
Be able to Design Synchronous and Asynchronous counters
Requirements
Basics from Number system, Boolean algebra, K-map and Logic Gates
Description
This course deals with Digital circuits like Combinational and Sequential Circuits.Combinational circuits deals with Binary adders, Multiplexers, De Multiplexers, Decoders, Encoders and Comparators.Design of above circuits.Sequential Circuits deals with Flip Flops( SR, JK, Toggle, Delay and Master-Slave), Counters ( Ring, Twisted counter, Decade Counter)This course deals with Design of Counters and registers( SISO,SIPO,PIPO,PISO).What you will learn :Half adder and full adderParallel Adders and SubtractorsMULTIPLEXER and De-MULTIPLEXERDecoders and EncodersSequential CircuitsFlip Flop ConversionsCountersSYNCHRONOUS COUNTERS and REGISTERSState DiagramsImportant information before you enroll!If you find the course useless for your career, don't forget you are covered by a 30-day money back guarantee.Once enrolled, you have unlimited, 24/7, lifetime access to the course (unless you choose to drop the course during the first 30 days).You will have instant and free access to any updates I'll add to the course - video lectures, additional resources, quizzes, exercises.You will benefit from my full support regarding any question you might have, This is not just a programming course, You will play with signals and systems.Check out the promo video at the top of this page and some of the free preview lectures in the curriculum to get a taste of my teaching style and methods before making your decision

Overview

Section 1: Introduction

Lecture 1 Introduction

Lecture 2 Introduction to Digital Circuits

Lecture 3 Half adder and Procedure to design combinational circuits

Lecture 4 Half adder using NAND and NOR Gates

Lecture 5 Half Subtractor

Lecture 6 Full Adder

Lecture 7 Full Adder using NAND gates

Lecture 8 Full Subtractor

Section 2: Parallel Adders and Subtractors

Lecture 9 Parallel Adder

Lecture 10 Parallel Subtractor

Lecture 11 Parallel Adder/Subtractor

Lecture 12 Delay of Parallel Adder

Lecture 13 Look Ahead Carry Adder

Lecture 14 Look Ahead Carry Adder - 1

Section 3: MULTIPLEXER and De-MULTIPLEXER

Lecture 15 Multiplexer introduction and 2:1 MUX

Lecture 16 Design of all gates using MUX

Lecture 17 4:1 Multiplexer

Lecture 18 Problems on Multiplexers

Lecture 19 Problems on Multiplexers - 1

Lecture 20 4:1 MUX and 8:1 MUX using 2:1 MUX

Lecture 21 16:1 MUX using 4:1 MUX

Lecture 22 De-Multiplexer

Section 4: DECODERS AND ENCODERS

Lecture 23 Decoders ( 2:4 Decoders)

Lecture 24 3 : 8 Decoder and Active Low output Decoder

Lecture 25 Design of combinational circuit using decoders

Lecture 26 Design of combinational circuit using decoders1

Lecture 27 D4 : 16 decoder using 2 : 4 decoder

Lecture 28 ENCODERS ( 4 : 2 Encoder)

Lecture 29 Priority Encoder

Lecture 30 Comparator Digital Circuit

Lecture 31 Comparator Digital Circuit - 1

Section 5: SEQUENTIAL CIRCUITS

Lecture 32 Introduction

Lecture 33 LATCH Circuit and Operation

Lecture 34 NAND Latch

Lecture 35 NOR Latch

Lecture 36 NOR Latch - 1

Lecture 37 Set-Reset (SR) Flip Flop

Lecture 38 Set-Reset (SR) Flip Flop - 1

Lecture 39 J K Flip Flop

Lecture 40 J K Flip Flop - 1

Lecture 41 J K Flip Flop - 2

Lecture 42 T-FF (TOGGLE FLIP FLOP )

Lecture 43 Delay Flip Flop ( D-FF)

Section 6: Flip Flop Conversion

Lecture 44 FLIP FLOP CONVESION ( JK-FF TO D-FF)

Lecture 45 D-FF to others ( D-FF to J K, T )

Lecture 46 SR-FF to JK-FF and D-FF to T-FF CONVERSION

Lecture 47 T-FF TO JK-FF CONVERSION

Lecture 48 TRIGGERING (CLOCK SIGNAL)

Lecture 49 TRIGGERING (CLOCK SIGNAL)

Lecture 50 RACE AROUND CONDITION ( RAC ) AND MASTER-SLAVE JK FF

Section 7: COUNTERS

Lecture 51 INTRODUCTION ( COUNTERS)

Lecture 52 ASYNCHRONOUS COUNTERS ( 2-BIT RIPPLE COUNTER)

Lecture 53 2-BIT RIPPLE COUNTER USING +VE AND -VE EDGE TRIGGERING

Lecture 54 IMPORTANT POINTS FROM ASYNCHRONOUS COUNTERS

Lecture 55 3 - bit ripple counter ( MOD - 8 Ripple Counter)

Lecture 56 MOD - K Counter and Asynchronous inputs of flip flop

Lecture 57 (MOD-10)Modulus 10 Counter ( Decade counter)

Lecture 58 UP/DOWN Counter

Lecture 59 Problems on Asynchronous Counter

Section 8: SYNCHRONOUS COUNTERS and REGISTERS

Lecture 60 Introduction to Synchronous Counters

Lecture 61 Ring Counter

Lecture 62 TWISTED RING COUNTER( JOHNSON COUNTER)

Lecture 63 DESIGN OF SYNCHRONOUS COUNTER

Lecture 64 MOD - 6 BINARY COUNTER( SYNCHRONOUS) USING T-FF

Lecture 65 SELF STARTING RING COUNTER

Lecture 66 REGISTERS

Lecture 67 SISO( Serial Input Serial Output)

Lecture 68 TYPES OF REGISTERS(SIPO,PIPO,PISO)

Lecture 69 UNIVERSAL SHIFT REGISTER

Lecture 70 UNIVERSAL SHIFT REGISTER - 1

Lecture 71 Problems on counters

Lecture 72 Problems on counters-1

Section 9: STATE DIAGRAMS

Lecture 73 INTRODUCTION TO STATE DIAGRAMS

Lecture 74 MEALY AND MOORE DIAGRAMS

Lecture 75 STATE DIAGRAMS OF FLIPFLOPS

Lecture 76 STATE DIAGRAMS OF FLIPFLOPS-1

Lecture 77 PROBLEMS ON STATE DIAGRAMS

Lecture 78 PROBLEMS ON STATE DIAGRAMS-1

Beginner Electronics,GATE_EC, GATE_EE, Instrumentation,Engineering Academics