I am astounded this channel is only at 26k subs. You guys make some of the most digestible and informative content for elecrtical and computer engineering students. So happy I found this channel! Just in time for finals too
Have a simple question. If the reverse voltage of say a zener diode is 6 v, and forward voltage of a regular diode is 1v. If instead of using a zener diode, lets say i connect 6 diodes in forward bias, are these two circuits equivalent in terms of functionality ? What is the trade off here ?
That's an interesting idea! Besides using 4-6 times as many diodes, we do need to consider that the zener diode still can operate in a forward direction, which wouldn't be the case with putting a bunch of normal diodes in series. Depending on the diodes, I'm not sure how well tuned they will be (Is it 1V forward voltage or 1.2? Will you actually end up with 6V?) Also, there may be a weird cascading effect as each one turns on at a different time but then the current can't flow. All of this being said, I think the best idea would be to try it out! I've never done it so I'm just spitballing here - I'd be curious to see what actually happens.
Hey Kartik, I'm not sure where to fit that in the queue but first, what exactly are you looking for? A semiconductor level overview or a usage level overview?
Got it! I put it in the queue - depending on the backlog, we may write an EE FAQ about it rather than do a video tutorial, we'll have to see what happens.
I think you struck the perfect balance of high-level vs details. Easily the best basic diodes video I've seen.
Awesome, thanks Bruce!
I am astounded this channel is only at 26k subs. You guys make some of the most digestible and informative content for elecrtical and computer engineering students. So happy I found this channel! Just in time for finals too
Dude, I just found this guy. Why is he not the face IEEE?
incredible, your videos are amazing and you explain everything each detail, thank you so much
great video !
I love your content! Thank you so much for making all these
Great diagrams, I hope you put most effort in these as they reeaaalllly help lots
edit: typo
Awesome!
Thank you ! It help to understand
This video was complicated, unlike the other ones
Great video. Thank you!
Great stuff!
Thanks! We have fun with these videos. 😀
Have a simple question. If the reverse voltage of say a zener diode is 6 v, and forward voltage of a regular diode is 1v. If instead of using a zener diode, lets say i connect 6 diodes in forward bias, are these two circuits equivalent in terms of functionality ? What is the trade off here ?
That's an interesting idea! Besides using 4-6 times as many diodes, we do need to consider that the zener diode still can operate in a forward direction, which wouldn't be the case with putting a bunch of normal diodes in series. Depending on the diodes, I'm not sure how well tuned they will be (Is it 1V forward voltage or 1.2? Will you actually end up with 6V?) Also, there may be a weird cascading effect as each one turns on at a different time but then the current can't flow. All of this being said, I think the best idea would be to try it out! I've never done it so I'm just spitballing here - I'd be curious to see what actually happens.
Thanks
Perfect👌
7:49 u said f k i n g diode 😂 i heard it, right??
Can you please make a video on photodiode and solar cell?
Hey Kartik, I'm not sure where to fit that in the queue but first, what exactly are you looking for? A semiconductor level overview or a usage level overview?
@@CircuitBread semiconductor level overview I just wanted to know its principal and how it works. And why it should operated in reverse biased mode.
@@CircuitBread you can fit it after zener diode, Arigatou.
Got it! I put it in the queue - depending on the backlog, we may write an EE FAQ about it rather than do a video tutorial, we'll have to see what happens.
@@CircuitBread OK
What happens when we connect a P type material to a N-type
now i probably know why there's leakage DC current into the circuit... :D
thanks!
You're welcome!
👍👍
We need photodiode plz man
07:00 flapper