We have a logic error here. This not a NAND gate It is in fact a NOR gate = 'Not OR' Because if either input A *or* Input B go low, the output will go high In a NAND gate, BOTH input A *and* input B must be low to create output high See this video to see a correct NAND circuit ruclips.net/video/LqBJcE_VvFk/видео.html
No you are wrong. Both are Nand gates. I can also give you a few more different dtl nand gate circuits. You also do not understand what nand means. Not And. And is only 1 (on) when inputs A AND B are 1 (on). The not of that is both A B off, A on b off, A off B on will produce a 1 (on). She gave a good explanation of an ideal dtl And gate though not practical.
Explained in a great simple way! Hats off to you!!!!
agreed
Such a simple short and amazing explanation thank you
Lots of love. Honestly. God may bless you.
such a great, simple and short expl
I got it after watching 2 times , thnx
Reality Seeker what type of diodes u that video using? And howmuch resistence of resistor? And what type transistor that video use?
Simplified it so amazing
how supply voltage passed through d1 and d2 to ground when transistor is off condition
Due to forward bias
We have a logic error here. This not a NAND gate
It is in fact a NOR gate = 'Not OR'
Because if either input A *or* Input B go low, the output will go high
In a NAND gate, BOTH input A *and* input B must be low to create output high
See this video to see a correct NAND circuit
ruclips.net/video/LqBJcE_VvFk/видео.html
No you are wrong. Both are Nand gates. I can also give you a few more different dtl nand gate circuits. You also do not understand what nand means. Not And. And is only 1 (on) when inputs A AND B are 1 (on). The not of that is both A B off, A on b off, A off B on will produce a 1 (on). She gave a good explanation of an ideal dtl And gate though not practical.
i got it.. tysm
Very happy to hear! :)
thanks