Design 8:1 Mux and implement F (A, B, C) = m (0, 2, 4, 7)

DeldSim Admin

• 0 • 3

Preview of Design 8:1 Mux and implement F (A, B, C) = m (0, 2, 4, 7) with 74LS04, 74LS32 and 74LS153 ICs

100%

Tutorial

Start by tapping on Next button.

1. Click on 'Next' button to Add IC-74LS153,IC-74LS04

Click on 'Next' button to Add IC-74LS153,IC-74LS04

2. Click on 'Next' button to Connect GND and VCC of ICs

Click on 'Next' button to Connect GND and VCC of ICs

3. Click on 'Next' button to Connect D0 to Vcc

Click on 'Next' button to Connect D0 to Vcc

4. Click on 'Next' button to Connect D1 to GND

Click on 'Next' button to Connect D1 to GND

5. Click on 'Next' button to Connect D2 to Vcc

Click on 'Next' button to Connect D2 to Vcc

6. Click on 'Next' button to Connect D3 to GND

Click on 'Next' button to Connect D3 to GND

7. Click on 'Next' button to Connect input-C to STROBE-1

Click on 'Next' button to Connect input-C to STROBE-1

8. Click on 'Next' button to Connect input-B to Select line-B

Click on 'Next' button to Connect input-B to Select line-B

9. Click on 'Next' button to Connect input-A to Select line-A

Click on 'Next' button to Connect input-A to Select line-A

10. Click on 'Next' button to Connect D4 to Vcc

Click on 'Next' button to Connect D4 to Vcc

11. Click on 'Next' button to Connect D5 to GND

Click on 'Next' button to Connect D5 to GND

12. Click on 'Next' button to Connect D6 to GND

Click on 'Next' button to Connect D6 to GND

13. Click on 'Next' button to Connect D7 to Vcc

Click on 'Next' button to Connect D7 to Vcc

14. Click on 'Next' button to Connect input-C to Pin-1 of NOT Gate

Click on 'Next' button to Connect input-C to Pin-1 of NOT Gate

15. Click on 'Next' button to Connect Pin-2 of NOT Gate to STROBE-2

Click on 'Next' button to Connect Pin-2 of NOT Gate to STROBE-2

16. Click on 'Next' button to Add IC 74LS32

Click on 'Next' button to Add IC 74LS32

17. Click on 'Next' button to Connect GND and Vcc of IC

Click on 'Next' button to Connect GND and Vcc of IC

18. Click on 'Next' button to Connect Y1 (Pin-7) to Pin-1 of OR Gate

Click on 'Next' button to Connect Y1 (Pin-7) to Pin-1 of OR Gate

19. Click on 'Next' button to Connect Y2 (Pin-9) to Pin-2 of OR Gate

Click on 'Next' button to Connect Y2 (Pin-9) to Pin-2 of OR Gate

20. Click on 'Next' button to Connect Output of OR Gate to Output port as 'Y'

Click on 'Next' button to Connect Output of OR Gate to Output port as 'Y'

Done

You have completed the tutorial. Power on the circuit to test the behavior.

Step-by-Step Procedure

Click on 'Next' button to Add IC-74LS153,IC-74LS04
Click on 'Next' button to Connect GND and VCC of ICs
Click on 'Next' button to Connect D0 to Vcc
Click on 'Next' button to Connect D1 to GND
Click on 'Next' button to Connect D2 to Vcc
Click on 'Next' button to Connect D3 to GND
Click on 'Next' button to Connect input-C to STROBE-1
Click on 'Next' button to Connect input-B to Select line-B
Click on 'Next' button to Connect input-A to Select line-A
Click on 'Next' button to Connect D4 to Vcc
Click on 'Next' button to Connect D5 to GND
Click on 'Next' button to Connect D6 to GND
Click on 'Next' button to Connect D7 to Vcc
Click on 'Next' button to Connect input-C to Pin-1 of NOT Gate
Click on 'Next' button to Connect Pin-2 of NOT Gate to STROBE-2
Click on 'Next' button to Add IC 74LS32
Click on 'Next' button to Connect GND and Vcc of IC
Click on 'Next' button to Connect Y1 (Pin-7) to Pin-1 of OR Gate
Click on 'Next' button to Connect Y2 (Pin-9) to Pin-2 of OR Gate
Click on 'Next' button to Connect Output of OR Gate to Output port as 'Y'

Block Diagram

ICs used in this circuit with pin diagram

74LS04

Hex Inverting Gates

74LS32

Quad 2-input OR Gates

74LS153

Dual 4-Line to 1-Line Data Selectors/Multiplexers

Design 8:1 Mux and implement F (A, B, C) = m (0, 2, 4, 7)

Step-by-Step Procedure

Block Diagram

ICs used in this circuit with pin diagram

74LS04

74LS32

74LS153

Related Logic-Gate Circuit Tutorials

4:1 Multiplexer Using IC 74LS153

8:1 Multiplexer using IC 74LS153

Design & Implement the given 4 variable function Y= m(0,2,4,6,8,10,12,13)

Design and Implement 8:1 MUX using IC-74LS153

To design and implement Multiplexer using gates

To design and implement DeMultiplexer and using gates

1:4 Demultiplexer Using IC 74LS139

Design 8:1 Mux and implement F (A, B, C) = m (0, 2, 4, 7)

Step-by-Step Procedure

Block Diagram

ICs used in this circuit with pin diagram

74LS04

74LS32

74LS153

Related Logic-Gate Circuit Tutorials

4:1 Multiplexer Using IC 74LS153

8:1 Multiplexer using IC 74LS153

Design & Implement the given 4 variable function Y= m(0,2,4,6,8,10,12,13)

Design and Implement 8:1 MUX using IC-74LS153

To design and implement Multiplexer using gates

To design and implement DeMultiplexer and using gates

1:4 Demultiplexer Using IC 74LS139

Share "Design 8:1 Mux and implement F (A, B, C) = m (0, 2, 4, 7) with 74LS04, 74LS32 and 74LS153 ICs"

Share on Social Media