ADITI JAIN
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4:1 MUX USING NOR LOGIC
4:1 MUX USING NOR LOGIC
BCD TO EXCESS-3 using 1:8 DE-MUX
BCD TO EXCESS-3 using 1:8 DE-MUX
8-4-2-1 TO EXCESS-3 USING DECODER
8-4-2-1 TO EXCESS-3 USING DECODER
SERIAL ADDER
SERIAL ADDER
Serial adder
Serial adder
2to4 decorder using NOR
2to4 decorder using NOR
CIRCUIT USING REG N0
CIRCUIT USING REG N0
14 HW
14 HW
4-bit Serial Adder
4-bit Serial Adder
circuit using NOR logic
circuit using NOR logic
Implement comparator design using a 4-to-16-line decoder
Implement comparator design using a 4-to-16-line decoder
task 4
task 4
1:4 demux using NAND logic
1:4 demux using NAND logic
4:1 MUX
4:1 MUX
4:16 Decoder using NOR logic.
4:16 Decoder using NOR logic.
CAT 2 Q
CAT 2 Q
4:1 MUX
4:1 MUX
DUAL MUX TO 1:8 DEMUX
DUAL MUX TO 1:8 DEMUX
Design the BCD to Common anode Seven Segment Code converter using only 4:16 Decoders constructed by two input logic gates.
Design the BCD to Common anode Seven Segment Code converter using only 4:16 Decoders constructed by two input logic gates.
6 input OR gate in SOP(AOI) and POS (OAI) circuit using only 2 input NAND gates for (AOI/SOP) and using 2 input NOR gates for (OAI/POS).
6 input OR gate in SOP(AOI) and POS (OAI) circuit using only 2 input NAND gates for (AOI/SOP) and using 2 input NOR gates for (OAI/POS).
INTERNAL CIRCUIT OF 1:2 DEMUX USING TWO INPUT NAND GATE
INTERNAL CIRCUIT OF 1:2 DEMUX USING TWO INPUT NAND GATE
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