Snowlin Faustina
Member since: 3 years
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MOD-12 Counter
MOD-12 Counter
Demultiplexer
Demultiplexer
4 Bit Ripple Counter with Decoded Output
4 Bit Ripple Counter with Decoded Output
4 Bit Bidirectional Shift Register
4 Bit Bidirectional Shift Register
Serial in Parallel Out Shift Register
Serial in Parallel Out Shift Register
JK Flipflop using T Flipflop
JK Flipflop using T Flipflop
NAND Based SR Flipflop
NAND Based SR Flipflop
NAND based T-Flipflop
NAND based T-Flipflop
3 bit Synchronous Up/Down Counter
3 bit Synchronous Up/Down Counter
JK Flipflop using D Flipflop
JK Flipflop using D Flipflop
2 x 1 Encoder
2 x 1 Encoder
BCD To Excess-3 Converter
BCD To Excess-3 Converter
3 to 8 Decoder
3 to 8 Decoder
1 Bit Magnitude Comparator
1 Bit Magnitude Comparator
8 to 1 MUX
8 to 1 MUX
4 x 2 Encoder
4 x 2 Encoder
Decimal To BCD Encoder
Decimal To BCD Encoder
4 x 2 Encoder
4 x 2 Encoder
2 to 4 Decoder
2 to 4 Decoder
Octal To Binary Encoder
Octal To Binary Encoder
Parallel in Parallel Out Shift Register
Parallel in Parallel Out Shift Register
D Flipflop using JK Flipflop
D Flipflop using JK Flipflop
4 Bit Universal Shift Register
4 Bit Universal Shift Register
SR Flipflop using JK Flipflop
SR Flipflop using JK Flipflop
SR Flip Flop using NAND
SR Flip Flop using NAND
4 Bit Synchronous Up Counter
4 Bit Synchronous Up Counter
Parallel in Serial Out Shift Register
Parallel in Serial Out Shift Register
32 to 1 MUX using 4 to 1 MUX
32 to 1 MUX using 4 to 1 MUX
MOD 12 COUNTER
MOD 12 COUNTER
8 to 1 MUX
8 to 1 MUX
8 to 3 Priority Encoder
8 to 3 Priority Encoder
Multipexer
Multipexer
Magnitude Comparator
Magnitude Comparator
Parity Generator and Checker
Parity Generator and Checker
Encoder
Encoder
MOD 7 COUNTER
MOD 7 COUNTER
Synchronous Counter
Synchronous Counter
4 Bit Synchronous Down Counter
4 Bit Synchronous Down Counter
Full Adder with MUX and Counter
Full Adder with MUX and Counter
Sequence Generator using Counter
Sequence Generator using Counter
3 Bit Binary Counter
3 Bit Binary Counter
Counter having the States 0-2-4-7-0
Counter having the States 0-2-4-7-0
JK Flipflop using SR Flipflop
JK Flipflop using SR Flipflop
T Flipflop using D Flipflop
T Flipflop using D Flipflop
Untitled
Untitled
SR Flipflop using T Flipflop
SR Flipflop using T Flipflop
mod-6 Unit Distance Counter
mod-6 Unit Distance Counter
4 Bit UP/DOWN Counter
4 Bit UP/DOWN Counter
SR Flipflop
SR Flipflop
NAND based D-Flipflop
NAND based D-Flipflop
D Flipflop
D Flipflop
NAND based JK Flipflop
NAND based JK Flipflop
JK Flipflop
JK Flipflop
T Flipflop
T Flipflop
T Flipflop using SR Flipflop
T Flipflop using SR Flipflop
D Flipflop using T Flipflop
D Flipflop using T Flipflop
T Flipflop using JK Flipflop
T Flipflop using JK Flipflop
1 to 16 Demultiplexer
1 to 16 Demultiplexer
1 to 8 Demultiplexer
1 to 8 Demultiplexer
32 to 1 MUX using 4 to 1 MUX
32 to 1 MUX using 4 to 1 MUX
4 Bit Parity Checkers
4 Bit Parity Checkers
Decoder
Decoder
Binary To Gray Code Converter
Binary To Gray Code Converter
2 to 4 Decoder
2 to 4 Decoder
Decoder
Decoder
Implementation-1
Implementation-1
OR using 2 to 1 MUX
OR using 2 to 1 MUX
AND using 2 to 1 MUX
AND using 2 to 1 MUX
NOR using 2 to 1 MUX
NOR using 2 to 1 MUX
NAND using 2 to 1 MUX
NAND using 2 to 1 MUX
Implement-2
Implement-2
Implement-1
Implement-1
16 to 1 MUX
16 to 1 MUX
1 to 4 DEMUX
1 to 4 DEMUX
Ripple Carry Adder
Ripple Carry Adder
Implementation-1
Implementation-1
Implementation-1
Implementation-1
1 to 2 DEMUX
1 to 2 DEMUX
Full Subtractor
Full Subtractor
NOR based SR Flipflop
NOR based SR Flipflop
Full Adder using Basic Gates
Full Adder using Basic Gates
De-Morgan Law
De-Morgan Law
Full Adder using NAND Gates
Full Adder using NAND Gates
Half Adder using Basic Gates
Half Adder using Basic Gates
Full Subtractor using NAND Gate
Full Subtractor using NAND Gate
Untitled
Untitled
Full Subtractor using NOR Gates
Full Subtractor using NOR Gates
3 Bit Parallel Multiplier
3 Bit Parallel Multiplier
BCD Adder
BCD Adder
Ripple Carry Subtractor
Ripple Carry Subtractor
4 BIT RIPPLE UP/DOWN COUNTER
4 BIT RIPPLE UP/DOWN COUNTER
Shift Counter
Shift Counter
Excess-3 To BCD Converter
Excess-3 To BCD Converter
BCD To 7 Segment Decoder
BCD To 7 Segment Decoder
Implementation-2
Implementation-2
Ring Counter
Ring Counter
3 Bit Parity Generator
3 Bit Parity Generator
2 Bit Magnitude Comparator
2 Bit Magnitude Comparator
4 Bit Parity Generator
4 Bit Parity Generator
3 Bit Parity Checker
3 Bit Parity Checker
BCD to Decimal Decoder
BCD to Decimal Decoder
4 to 2 Priority Encoder
4 to 2 Priority Encoder
4 to 1 MUX
4 to 1 MUX
4 Bit Adder/Subtractor
4 Bit Adder/Subtractor
2 to 1 Multiplexer
2 to 1 Multiplexer
NOT using 2 to 1 MUX
NOT using 2 to 1 MUX
D Flipflop using SR Flipflop
D Flipflop using SR Flipflop
1 to 2 Decoder
1 to 2 Decoder
Full Adder using Counter
Full Adder using Counter
SR Flip Flop
SR Flip Flop
Circuit that counts (0,2,4,6,8,10,12,14)when input is 1 and counts (1,3,5,7,9,11,13,15)when input is 0
Circuit that counts (0,2,4,6,8,10,12,14)when input is 1 and counts (1,3,5,7,9,11,13,15)when input is 0
4 Bit Ripple Down Counter
4 Bit Ripple Down Counter
SR Flipflop using D Flipflop
SR Flipflop using D Flipflop
Serial in Serial Out Shift Register
Serial in Serial Out Shift Register
EX-OR using 2 to 1 MUX
EX-OR using 2 to 1 MUX
24 to 1 MUX using 8 to 1 MUX
24 to 1 MUX using 8 to 1 MUX
4 Bit Ripple Up Counter
4 Bit Ripple Up Counter
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