Half Adder Using NAND

Anant Ranjan
Anant Ranjan
Created on Apr 23, 2026 0 0 0
Edit Circuit Copy Circuit Try Yourself
Half Adder Using NAND
100%

Procedure

  1. Add IC 74LS00 into ICBase-1 (74LS00).
  2. Connect Pin-1 (Input) of ICBase-1 (74LS00) to Input-13.
  3. Connect Pin-2 (Input) of ICBase-1 (74LS00) to Input-12.
  4. Connect Pin-5 (Input) of ICBase-1 (74LS00) to Pin-3 (Output) of ICBase-1 (74LS00).
  5. Connect Input-13 to Pin-4 (Input) of ICBase-1 (74LS00).
  6. Connect Pin-19 (Input) of ICBase-1 (74LS00) to Input-12.
  7. Connect Pin-18 (Input) of ICBase-1 (74LS00) to Pin-3 (Output) of ICBase-1 (74LS00).
  8. Connect Pin-16 (Input) of ICBase-1 (74LS00) to Pin-17 (Output) of ICBase-1 (74LS00).
  9. Connect Pin-15 (Input) of ICBase-1 (74LS00) to Pin-6 (Output) of ICBase-1 (74LS00).
  10. Connect Output-8 to Pin-14 (Output) of ICBase-1 (74LS00).
  11. Connect Pin-7 (Ground) of ICBase-1 (74LS00) to GND Port.
  12. Connect Pin-20 (VCC) of ICBase-1 (74LS00) to VCC Port.
  13. Connect Pin-20 (VCC) of ICBase-2 (74LS00) to VCC Port.
  14. Connect Pin-7 (Ground) of ICBase-2 (74LS00) to Pin-7 (Ground) of ICBase-1 (74LS00).
  15. Add IC 74LS00 into ICBase-2 (74LS00).
  16. Connect Pin-1 (Input) of ICBase-2 (74LS00) to Pin-3 (Output) of ICBase-1 (74LS00).
  17. Connect Pin-2 (Input) of ICBase-2 (74LS00) to Pin-3 (Output) of ICBase-1 (74LS00).
  18. Connect Output-7 to Pin-3 (Output) of ICBase-2 (74LS00).