Diode Logic Gates - OR, NOR, AND, & NAND

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He must be genius for sure as he explains as simple and easy as possible with all points to make me understood in logic gates operations.

yes we have exam tomorrow 😂

After watching this video,I now understand why you 've got almost 3M subscribers.You make things expicit to grasp,which will take me a long time and enormours energy.

i have a circuits exam (referral exam) in June and i just hope The Organic Chemistry Tutor uploads more videos related to OpAmps, Diodes, Transistors and Small Signal, otherwise i'm definitely failing. Thank you so much for all of the videos you upload, you've helped me a lot!!

Best teacher ever💯

Wow! That sure wore my brain out trying to develop each circuit BEFORE you showed and explained the right circuit. I still haven't developed the intuitive understanding, but this certainly helped me better see the current flow and voltage differences. I've gone through your videos on circuit analysis and those helped me follow your explanations after the fact. My wife walked in while i was looking at the video and she (Masters in Adult Education) exclaimed "Now THAT'S the right way to teach!", being impressed with the clarity of how you had laid things out. Congratulations and thanks. I had to keep re-watching parts to fully understand, but definitely worth the time. I've watched videos which clearly explained how to use logic gates with switches (esp. ElectroBoom), but this is the first showing how the logic gates themselves can be built.

Ah thank you so much I've been searching everywhere for a reasonable explanation and finally ended up here.

Damn!! This is a great explanation. Cleared all my doubts.

This guy knows I'm his biggest fan

Awesome video, also thank you for doing it with 5V and LEDs making it easy to test out a breadboard with an arduino. Great learning

OR - 0:11
NOR - 3:40
AND - 8:30
NAND - 14:43

Brilliant explanation for this topic!
★★★★★

as always thanks for the hard work your putting out.

(1) At 6:17, there is electrical potential of 4.3 V after diode and 3.0 V after the LED. Why is electrical potential set at 4.3 V and not 3.0 V at this location? Why is the larger chosen?
(2) At 5:27, what is purpose of diodes in OR gate? It seems the circuit would work without them and they are redundant.

Thanks very much for the very simplified explanation,you are a real pro

5:30 That NOR example isn't a real gate, hasn't a real output that you can use, I wish it work like that, but you need a transistor to invert OR diode gate into a real NOR gate with output a signal.

the best teacher in the world... he teaches in very easier way...

thanks a lot bro!!

Cant thank enough! RESPECT ++

Don't know if you will see this or not, but have you ever considered being a private tutor? I would pay good money for you to teach me this subject (electrical circuits and engineering). Though your videos are very helpful, I still get confused and i'd love to be able to ask you questions in real time.

Amazing video and very clear and detailed explanations. Thank you sir.

Nice. Very comprehensive. The picture helped a lot so the concept is more visual than being abstact. Thanks.

Awesome job!

the first time ive left from a toct video without understanding anything :/

Super explanation 🎉sir

A very important question here: How can we make each of the two circuits output ... or in other words, how can I connect these logic circuits to be used in a specific logical operation

Really great presentation, thanks!

Great videos. You explain very well. Are you going to add videos on FETs and more? Thank you

17:00 why does the current flow through the R2 and the led instead of the path with R1?

Which software did you use? I whan to make the same

I’m curious as to how these circuits can be used to derive a +5V trigger or gate signal for use with a modular synth circuit. Where would one tap the signal in order to get a healthy +5V based upon the resulting truth tables? I’m especially interested in the AND circuit.
I built one with 2 NPN xstrs but the resulting output is useless. Building it with diodes and a 5 volt rail seems like a good time.

Thanks a lot. ❤️

good explanation gates

It's only God that will bless you
Thanks so much

Thank you!

I think that earlier in the video he meant to say "at least" with respect to the other examples with 0.7 Volts as well. I'm guessing that these aren't the only circuit constructions with represent these truth tables?

It's been wonderfully taught that even a moron can get it so easily...

What about all of the other logic gates such as XOR, negative-OR, negative-AND, negative-XOR, etc...Also on the AND-gate towards the end, you said the potential at the point right before the LED was 3.5-V, how is that possible? If the potential is 5-V at A or B and the Diodes drop 0.7-V across each of them , that leaves 4.3-V. Since 4.3 > 3.5, shouldn't that be the potential at that point?

At 6:17, there is electrical potential of 4.3 V after diode and 3.0 V after the LED. Why is electrical potential set at 4.3 V and not 3.0 V at this location? Why is the larger chosen?

Hey, thanks a lot for the video, it really helped me for my exam.. just a small doubt, in the NAND gate if we choose R3 such that the voltage drop is enough for the LED(>=2V), will current flow through both R1 and R2 or just R2?

Wow, this is amazing. Do you have one for Transistor Logic Gates?

you are damn genius !!

Diodes connected in parallel would act like which gate???
Kindly explain me.

@ 10:00 How are A and B considered as inputs of the AND gate with the diode blocking them? A and B would have to be a switch where the NC is to ground and the NO is to 5v? That seems like a big assumption to not have mentioned. The typical circuit would have A and B as a switch with NC being an open circuit.
Also, the only reason the current follows D1 or D2 when they are 0v is because it has less resistance than the LED and second resistor, right? You never state the resitance of the diodes and LED. I am asking this because if you dont consider that fact, and instead first calculate the voltage drop across R1 as if it would next follow the LED, it would only drop 1.5v, which would be enough to power the LED.

I was able to design the 7 logic gates using only diodes, without any transistors

Where is the OUTPUT node of these gates? With respect to inputs A and B, there must be an usable Output pin to drive, e.g., the base of a transistor.

Whats the purpose of those resistors

It's awesome

Bravoo

I use these in Minecraft alot.

please i have a question, for the And gate why can't current flow from the 5v to led?

Need Digital Elctronics please

Great

How to make xor gate using diodes

why google say there are only two types of diode logic ? one is diode logic OR gate and diode logic AND gate .

Thaaaanks

what makes it 4.3 v aorund 8:32

What about EXOR and EXNOR?

Well explained - but my man.. TH and F do not carry the same sound Both is not pronounced BOF

face reveal at 2 million subs???

Please do biochem videos.

talented

Those dialike must be from our teachers

🙏❤️

have an hour for exam😂

👏👏👏

I thought LEDs needed 12-20mA to light up

My professor has easier explanation of NAND gate
Dr punit bajπ ( HOD physics dept)

This is class 12 syllabus in India

Understand nothing

Stick to chemistry; your teaching technique for logic functions is worse than poor; it is wrong. By changing how the LED is connected to the input diodes, you are flipping back and forth between active-high and active-low logic conventions without a word of explanation. On and Off have no place in a truth table, which is why 50% of your tables are semantically correct, but logically wrong. If you instead assign 1's and 0' to the outputs, you will see that the NOR and NAND tables are wrong. The problem is the schematics. The schematic for a particular type of gate is what it is, with no regard for what is connected to the output. Your truth tables depend on changing output connections, whereas correct ones do not.