[COA 40] Sequential circuit design using JK Flip flops (State diagram, excitation tables), KA = BX'
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- Опубликовано: 21 июн 2018
- Sequential circuit design using JK Flip flops using state diagram, excitation tables, K Maps, and Boolean expression. errata: KA = BX'
Introduction: Computer Organization and Architecture: • [COA 1] Introduction: ...
Logic Gates: AND, OR, NOT, NAND, NOR, EXOR, EXNOR: • [COA 2] Logic Gates: A...
Boolean Algebra, Boolean function, Truth table, Logic diagram, Boolean expression: • [COA 3] Boolean Algebr...
Canonical form and standard form. Sum of minterms and product of maxterms: • [COA 4] Canonical form...
Map Method (P1): K-Map simplification: • [COA 5] Map Method (Pa...
Map Method (P2): Map simplification using don't care condition: • [COA 6] Map Method (Pa...
Map Method (P3): Product of sum using map: • [COA 7] Map Method (Pa...
Universal Gates (NAND and NOR Gates): • [COA 8] Universal Gate...
NAND and NOR Realization: • [COA 9] NAND and NOR R...
Number System: Decimal, Hexadecimal, Octal and Binary: • [COA 10] Number System...
Conversion I(Decimal to Binary & Binary to Decimal): • [COA 11] Conversion I ...
Conversion II(Decimal to hexadecimal & hexadecimal to decimal): • [COA 12] Conversion II...
Conversion III(Decimal to octal & Octal to decimal): • [COA 13] Conversion II...
ConversionsIV: Octal - Hexadecimal, Hexadecimal - Octal, Octal - Binary, Binary - Octal: • [COA 14] Conversions I...
Complements r's and (r-1)'s complements, 10's, 9's, 2's, 1's, 8's, 7's complements: • [COA 15] Complements r...
Binary Codes: BCD, 2 4 2 1 code, 8-4 -2 -1 code, Excess 3 code, Biquinary code, Grey code: • [COA 16] Binary Codes:...
Binary arithmetic: Binary addition, subtraction, multiplication, division: • [COA 17] Binary arithm...
Octal number arithmetic: Octal addition, Octal subtraction, Octal multiplication, Octal division: • [COA 18] Octal number ...
Fixed and Floating point representation, IEEE 754 standard: • [COA 19] Fixed and Flo...
Combinational circuit: Half adder, Full Adder, Half Subtractor,Full Subtractor: • [COA 20] Combinational...
Combinational circuit: BCD Adder: • [COA 21] Combinational...
Code conversion: BCD to Excess 3 code: • [COA 22] Code conversi...
Magnitude Comparator: • [COA 23] Magnitude Com...
Binary Serial and Parallel Adder: • [COA 24] Binary Serial...
Carry Lookahead Generator (Adder): • [COA 25] Carry Lookahe...
Parity bit generator & checker: • [COA 26] Parity bit ge...
Decoder Part I: Basic decoder operation, block diagram, circuit diagram: • [COA 27] Decoder Part ...
Full adder implementation using Decoder: • [COA 28] Full adder im...
Construct 4:16 decoder using two 3:8 decoders: • [COA 29] Construct 4:1...
Encoder: • [COA 30] Encoder
Multiplexer (PI) using simple explanation: • [COA 31] Multiplexer (...
De-Multiplexer using simple example: • [COA 32] De-Multiplexe...
Quadruple two line to one line multiplexer: • [COA 33] Quadruple two...
Implementation of Boolean function using multiplexer: • [COA 34] Implementatio...
ROM Design Basics: • [COA 35] ROM Design Ba...
PLA: Programmable logic array: • [COA 36] PLA : Program...
Sequential Circuit (P 1): Basics: • [COA 37] Sequential Ci...
Flip Flops(P1): • [COA 38] Flip Flops (P...
Flip Flops(P2): RS FF, D-FF, JK-FF, T-FF: • [COA 39] Flip Flop (Pa...
State reduction: Sequential circuit: • [COA 41] State reducti...
Design a counter using T Flip Flops: • [COA 42] Design a coun...
Ripple Counter (Binary and BCD), Synchronous Counter, Up Down Counter: • [COA 43] Ripple Counte...
Registers (Basics): Register with D FF, Register with RS FF, Register with reloading: • [COA 44] Registers (Ba...
Basic Shift Register and Bi-directional Shift Register with Parallel Load: • [COA 45] Basic Shift R...
Counter with parallel load: • [COA 46] Counter with ...
Ring Counter: • [COA 47] Ring Counter
Johnson Counter using simple example: • [COA 48] Johnson Count...
NAND Gate Decoder: • [COA 50] NAND Gate Dec...
Register and register transfer: • [COA 51] Register and ...
Common bus system using multiplexer: • [COA 52] Common bus sy...
Three state bus buffer: • [COA 53] Three state b...
4-Bit Binary Adder and Memory Transfer: • [COA 54] 4-Bit Binary ...
4 Bit-Adder Subtractor: • [COA 55] 4 Bit - Adder...
Incrementer (using Half Adder) & Decrementer circuit (using Full adder): • [COA 56] Incrementer (...
Complete Arithmetic Circuit using Full adder & Multiplexer: • [COA 57] Complete Arit...
Logic Micro operation: • [COA 58] Logic Micro o...
BIT Manipulation: Selective set, selective complement, selective clear, mask, insert, clear: • [COA 59] BIT Manipulat...
Shift Micro operation: Logical, circular, & arithmetic shift: • [COA 60] Shift Micro o...
CPU & General register organisation: • [COA 61] CPU Basics an...
Instruction format: • [COA 62] Instruction f...
Addressing Modes: : • [COA 63] Addressing Mo...
Program Interrupt: External, Internal, Software: • [COA 64] Program Inter...
Program Status Register: • [COA 65] Program Statu... Наука
This... This made JK FF so much simpler than what I had initially thought. 10/10
You may made a mistake! KA should be Bx' 7th box will be filled with 1 not 0
KB has the same issue!
JA= BX, KA = BX', JB = A XOR B , KB = A XOR B is what I got
KA=BX' absolutely
Sahi bola bhai tune
This video saved me! Thank you!
Thank you that was a game changer for me❤️❤️
Tq sir it's very useful for me sir after 3 years tq so much
So how did u get the part where u say if imput is zero then out is one one and all those at 0:48
Bruh I’m your one thousandth like your welcome and u deserve it
God bless you, man
Thank you very much sir 🙏
god bless this man
Wonderful video thanks for this, please look at the sound quality, the sound is very low. keep uploading thank you again.
Thank you very much brother
best teacher ever
KA = BX' banega.
thanks a lot
Thanks < it helped me.
Nice explanation thanks 🙏
Thanks a lot sir😌
absoluately Good sir
thank you good sir
lot of thank class me sar gum gaya tha
thanks sir....
Thank you sir u ❤
thanks
Sir just humble question, when filling K-map you are switching between the cases 11 and 10, kindly review and get back
use gray code, like 00, 01, 11, 10 (for two variables) or 000, 001, 011, 010, 110, 111, 101, 100 (for three variables).
Wrong kmap
Wrong K map
Tq
the k maps are bit wrongly entered by mistake....to be noted
Yes
Sir how you calculate input output 1:02min
Ka should be Bx'
Ka= Bx'
Sir ka ki value b(x-bar) he
wrong in solving ANS IS KA=BX' and KB=A XOR X
Mistake in Ka
KB MN BH GALTI HA BRO
KB is also a XOR gate between A and X
ninammann tulle nin obnige helkotidya
bro you have done a mistake while maping kb