- Видео 21
- Просмотров 9 217
Circuitry simplified by Dr. Shobha Nikam
Индия
Добавлен 16 сен 2024
Digital electronics, VLSI, VHDL, Xilinx, Microwind, Digital systems, E&TC Engineering, Computer Engineering, Science and Technology, Electronics and Telecommunication, FPGA, CPLD
Johnson counter/ 4 bit twisted ring counter
Johnson counter/ 4 bit twisted ring counter
Просмотров: 346
Видео
4 bit ring counter
Просмотров 44912 часов назад
@CircuitrysimplifiedbyDr.Shobha in this video 4 bit ring counter is explained. D flip flops are used. timing diagram and truth table is also explained. How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=hMo5bF5l94Z8zHcu BCD adder using 4 bit binary adder IC7483: • BCD adder using 4 bit binary adder IC... 16:1 MUX/ 4 variable function using IC7...
IC 74138 decoder: Implementation of Combinational circuit
Просмотров 80414 часов назад
@CircuitrysimplifiedbyDr.Shobha Video describes implementation of combinational circuit using 3:8 decoder IC74138. Active low outputs, NAND gate, practical implementation. How to implement MOD-NN counter using IC 7490 with example: • How to implement MOD-NN counter using... BCD adder using 4 bit binary adder IC7483 ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=Yu5b-8rsHXTVPNtL 16:1 MUX/ 4 variable...
BCD adder using 4 bit binary adder IC7483 @CircuitrysimplifiedbyDr.Shobha
Просмотров 35119 часов назад
@CircuitrysimplifiedbyDr.Shobha Video explains practical implementation of 4 bit BCD adder using 4 bit binary adder IC7483. Also explains logic behind addition of 6. How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=edsebY8pq4BhnAs_ 16:1 MUX/ 4 variable function using IC74153 using MSB reduction: ruclips.net/video/hrXeceBuu0s/видео.htmlsi=DNS...
16:1 MUX/ 4 variable function using IC74153 using MSB reduction
Просмотров 348День назад
Implementation of 16:1 MUX/ 4 variable function using IC74153 using MSB reduction @CircuitrysimplifiedbyDr.Shobha How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosgPZWNaJ 8:1 MUX/ 3 variable function using IC74153: ruclips.net/vide...
8:1 MUX/ 3 variable function using IC74153 @CircuitrysimplifiedbyDr.Shobha
Просмотров 444День назад
Implementation of 8:1 MUX using IC74153, 3 variable function implementation, useful for practical implementation, GATE exam @CircuitrysimplifiedbyDr.Shobha How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosgPZWNaJ 16:1 MUX/ 4 variab...
Modeling styles in VHDL explained with the example of 4:1 Mux @CircuitrysimplifiedbyDr.Shobha
Просмотров 237День назад
Dataflow, Behavioral and Structural Modeling styles in VHDL explained with examples, Entity, Architecture, 4:1 Multiplexer, FPGA, CPLD, Library @CircuitrysimplifiedbyDr.Shobha How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosgPZWNa...
Easy steps to convert JK flip flop in to D flip flop @CircuitrysimplifiedbyDr.Shobha
Просмотров 18914 дней назад
@CircuitrysimplifiedbyDr.Shobha Conversion of JK flip flop in to D flip flop is explained. Useful for GATE exam, jack kilby flip flop, Delay flip flop, Data flip flop, conversion of one flip flop in to other How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJ...
Easy steps to convert JK flip flop in to T flip flop @CircuitrysimplifiedbyDr.Shobha
Просмотров 19314 дней назад
Conversion of JK flip flop in to T flip is explained in details, jack kilby flip flop, toggle flip flop, conversion of one flip flop in to other How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosgPZWNaJ 16:1 MUX/ 4 variable function...
How to implement MOD-NN counter using IC 7490 with example.
Просмотров 3 тыс.Месяц назад
@CircuitrysimplifiedbyDr.Shobha Video describes implementation of MOD-42 counter using ripple/BCD/decade counter IC 7490. Internal structure of IC 7490 is also explained. BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosgPZWNaJ 16:1 MUX/ 4 variable function using IC74153 using MSB reduction: ruclips.net/video/hrXeceBuu0s/видео.htmlsi=DNScHeF56CDD86C...
How to use Xilinx Software for VHDL coding? Half adder design explained
Просмотров 473Месяц назад
@CircuitrysimplifiedbyDr.Shobha How to use Xilinx for VHDL coding is explained. Generation of test vectors by writing a code for testbench waveform is also explained. VHDL tutorial How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosg...
3 variable K-map for POS form | explained with example
Просмотров 193Месяц назад
@CircuitrysimplifiedbyDr.Shobha 3 variable k-map explained with example. How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosgPZWNaJ 16:1 MUX/ 4 variable function using IC74153 using MSB reduction: ruclips.net/video/hrXeceBuu0s/видео....
What is K-map | 4-variable K-map explained with example
Просмотров 319Месяц назад
@CircuitrysimplifiedbyDr.Shobha K-map, need, explanation, 4-variable Kmap explained with example, SOP, POS How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosgPZWNaJ 16:1 MUX/ 4 variable function using IC74153 using MSB reduction: ru...
6T SRAM cell using Microwind
Просмотров 186Месяц назад
@CircuitrysimplifiedbyDr.Shobha This video demonstrates design and implementation of 6 transistor CMOS based SRAM cell using Microwind software. How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosgPZWNaJ 16:1 MUX/ 4 variable function...
SOP and POS forms, standard and canonical forms, Minterms and Maxterms with examples
Просмотров 308Месяц назад
SOP, POS explained with example, Minterms, Maxterms, Explained Standard and canonical forms with example also their conversion described. How to implement MOD-NN counter using IC 7490 with example: ruclips.net/video/ddSuuf0yHbc/видео.htmlsi=8hizf8NGr6Mf0gFZ BCD adder using 4 bit binary adder IC7483: ruclips.net/video/S8RKxGPJqXo/видео.htmlsi=mCpoUEgosgPZWNaJ 16:1 MUX/ 4 variable function using ...
Comparison of logic families in digital electronics
Просмотров 2972 месяца назад
Comparison of logic families in digital electronics
2's complement arithmetic in digital electronics
Просмотров 2132 месяца назад
2's complement arithmetic in digital electronics
Design of NOR gate using CMOS @CircuitrysimplifiedbyDr.Shobha
Просмотров 2032 месяца назад
Design of NOR gate using CMOS @CircuitrysimplifiedbyDr.Shobha
Tri-State Logic in Digital Electronics
Просмотров 2672 месяца назад
Tri-State Logic in Digital Electronics
Design of NAND gate using CMOS @CircuitrysimplifiedbyDr.Shobha
Просмотров 2902 месяца назад
Design of NAND gate using CMOS @CircuitrysimplifiedbyDr.Shobha
Fan In and Fan out in Digital Electronics
Просмотров 3782 месяца назад
Fan In and Fan out in Digital Electronics
maam aap daily classes dala kro
great!
Madam bagundhi😮😅
Get a mic, Wired: boya m1 (₹850) Wireless : (upto 3k) To grow, you need to invest here. Voice is the soul of video.
Mam can we get 8 marks by only writing these points?
Sorry, I didn't understand. Why must the output be 1 for 9? *At 12:31 I understood how the output 1 came about, but I don't understand why it must be 1 for 9.
Here, I have implemented function f(A,B,C,D)=∑m(1,2,5,7,9,14). it means for 1,2,5,7,9,14 output must be 1 and for remaining terms 0,3,4,6,8,10,11,12,13 and 15 output should be 0. For understanding I have shown verification of 9, you can verify it for any term.
Please cover whole syllabus
Please make more such videos, very useful 👍🏼
Sure 😊
thats msb or lsb reduction
To implement 8:1 MUX no need to reduce MSB or LSB. 2 select lines are readily available and enable can be used as 3rd select line. In 16:1 MUX, 4th select line is not available so we need to either reduce MSB or LSB.
@@CircuitrysimplifiedbyDr.Shobha Realize the logic expression given below using single 8:1 Multiplexer MSB Reduction Technique). F(A,B,C,D) = ∑ m (0,1,2,3,7,9,11,12,15) in that MSB reduction technique which one input is used A & Abar or D & Dbar and which are the select lines BCD or ABC ?
Nicely explain 👍
thank you 🙏
Great video
Glad you enjoyed it
Maam can u upload d and t flip flop also
thank u mam for this wonderfull video. every concept is clear now.
Glad to hear that. Keep watching.
🙏👍