for the people who don't understand, write down little short notes on the information said in the video . it is a great way to understand and process the facts. thank you for the really amazing video.

The concept of the diffusion potential barrier at the junction is not explained correctly, although the rest of the video is well narrated. The positive charges in the N region depletion zone do not repel the negative charges in the N zone (4:45). Positive charges do not repel negative charges! It is similarly incorrect as stated for the P region (4:52). Rather, the developed potential across the junction becomes a barrier to further charge movement ACROSS the junction, in effect, sending charge backward -- and at a potential of 0.7 volts the charge movement in both directions across the junction becomes equal and opposite. I would have a look at some other videos on semiconductor diodes which better explain this concept.

Wow! This was really informative. I've been in electronics hobbyist for years I never really dug into why diodes work, I just know that they do. Thanks for the information

Thanks for another great learning circuit episode. It's always nice to learn the science behind how various electrical components work. And I think the humorous presentation helps keep things interesting. Keep up the great work.

Great interactive video! And thanks for discussing the proper “Electron Flow”, so students will not get confused. You rock!

Excellent description and visuals for the interactions of N, P and depletion zones. This, and describing in terms of electron flow has been a massive help with understanding diodes and transistors.

You're a lovely demonstrater with a very magnetic personality! Thank you so much for your contributions!

Best tutorial I have found. Thank you!

It was good up to the point where opposite charges 'repelled each other'

@kritanbhandari7780

Жыл бұрын

lol I was like "wtf did she just say?"

@jasonbentley439

Жыл бұрын

Aren’t the n and p regions also illustrated backwards? P is supposed to be anode…

Great teaching as always! Nice work Karen and element14!

Karen is Great!

@Grim-oc9fw

5 жыл бұрын

Great at being BAD, you forgot the last part.

I was literally crying , i would fail this semester ,then i found this video . this is surely God send am so happy you made it so simple for me to understand.TQ

I am an electrical engineer. This is the first time i am getting an understanding how a diode works. Moving on to the bipolar junction videos you have posted. Thank you...

Good work and very well explained 👍

Nice! Thank you for this video.

She is the only few Karen I would want to learn from.

Karen, thanks for the selfie at the Wisconsin Maker Faire Saturday. I almost didn't recognize you without your gloves. Luv the shows too. - Sid

The best explanation I have ever heard!!

Amazing explaination! Thank you!

This is the clearest explanation of diodes I’ve ever seen

Great video! Got all my doubts cleared Thank you very much ! 😃

While searching for a tutorial for a new co-worker and stumbled across this. Great explanation and fantastic depletion zone section! One request: the electronics industry is shifting away from through hole so showing some surface mount parts during part choice section would be great.

Well presented

Wonderfull class. Congratulations!

I'm from🇹🇿🇹🇿🇹🇿🇹🇿🇹🇿🇹🇿some where in Africa and I do appreciate what you do

Lovely video. Also, I am intrigued by that Art of Resistors video behind you.

Love the "two friends mad at each other" analogy.... Thanx!

Thanks for the good explanation!

Great Video. I would love to see same for Transistor and Thyristor. ❤🤗🔥🇮🇳

Thank you so much for your help

Terrific keep it up 👍.....Thanks Karen.

best 101 a diode yet, nice work

Finally someone who talks plainly about a diode. Thanks.

Finally, an explanation I understand!

Thank you for the information! It may be useful to point out that "outer valence shell" does not imply that there are any inner valence shells.

very instructive thank you

I enjoyed your video, very informative. Although your video shows "electron flow", I can see how "conventional current " might be also used to show the current flow since the schematic arrow (diodes and transistors) points in the same direction. I can also see how " tech people " might be passionate on which is more correct.

This makes sense! Thank you!

crisp and clear!!

help!! help!!! help!!!! 4:51 Why does the positive charge in its depletion zone repel the negative charges in the region? Should not the negative charges in the region be absorbed by the positive Charge?????????? I have watched mang videos about this theme!!! I just don"t understand this point!!!!! Can you explain this once??? thank you very much!

Best teacher💯

You refer to "outer valence shell electrons" in the video. Wouldn't you consider that terminology redundant as the valence electrons by definition occupy the outer orbital in Bohr model? In other words, isn't "valence electron" sufficient to describe what we're talking about in semiconductor physics?

@ 4:20 you say the p and n regions become slightly pos and neg charged. Why and How? If the extra electrons in the P region left to fill holes in the N region and visa versa, then didn't those atoms just become neutral again with 4 valance electrons like the original silicone atoms? Sorry, this is the part I never understand.

at 4:20 the positive atoms don't move. They are bound inside the latice. Only the negative free electrons move.

Great teacher....

Thanks Karen!

You are very good teacher

I love your Teeshirt, Karen!!!

awesome teacher

I AM A TEACHER BUT I LOVE THE WAY YOU TEACH

nice explanation

Thanks to nice tutorial godbless.

This is a very good video.

Great teacher

GREAT JOB

A Karen that we can all appreciate :)

Thanks to Karen for bringing the straight doping.

Hi KC, thanks for the best graphics and explaination of the rectifier diode I've seen yet! And ya gots personality and humor ta boot.😊 Your room is set up real nice orderly. I can see your into arduino and robots too. I bet your students love you!! I'm still blown away by the graphics! I learned a lot of this stuff starting in 1979, went a Technical college in 1986 and was taught by a few military instructors. Now I'm an instructor and love to refresh my memory and use your material to teach with. So much faster! If you have the time, could you make a short video on electron verses convetional flow? The students always get confused Thanks! I truly believe the smart tech, engineer, or maintenance person should learn both ways to be real good and be fluent in each others languages rather than fight it like so many of the Dems and Repubs do politically, and our world would be so much more peaceful and by teaming up and getting a lot more done. Thanks again!

I have always been curios about this

many thanks! 👏🌼

At 7.10 Are you sure you didn't mix up + and - in the depletion zone?

When junction was formed and positive charges were crossing the junction so why they stopped? Why don't positive charges go to join the next negative charges in the remaining part of the diode?

@antonioa.b.1681

Жыл бұрын

the semiconductor nuclei and the doping element's nuclei, are forming a lattice. Most of their electrons are trapped just fine in their valence shells. We're only getting a flow of excess electrons rushing through.

Another great lesson from TLC! Diodes and transistors are cool because they are driven by the interactions of the physical properties of the materials from which they're constructed. Hooray physics! Also, if you want to see a fun application of diodes in a circuit, check out the DIY Geiger Counter video on element14 Presents!

4:40 youre saying opposites now repell? Whats going on?

@the37ase

3 жыл бұрын

exactly. I am wondering the same. The diagram changes completely at 5:40 XD.

@matt4268

3 жыл бұрын

She was showing what happens when a diode is connected backwards, the reason current only flows one way through a diode. What happens when you connect it backwards? The N&P type separate further, that's the repelling you see. Connected backward so what's happening is right, negative side is attracted to the anode(pos) and positive attracted to the cathode(neg). it's repelling because it's backwards. she then installs it correctly, showing the flow.....

@johnnydukovich5341

3 жыл бұрын

Eventually, the electrons in the P part of the depletion region create enough of a negative charge to repel any additional electrons from crossing over.

@chrisstromberg6527

3 жыл бұрын

There’s enough negative charge in the depletion zone to repel what’s left in the N region, and enough positive charge in the depletion zone to repel what’s left in the p region.

@fbi7577

3 жыл бұрын

That is how it works in current , at first negative is weak and it needs positive ,but when there are lot of negatives it feels safe and do not need positive and repel the , it is like a person needs another special person to feel safe and happy but when that person gets some friends he feel safe and do not need that special person

I do not understand why this video shows electrons bonding to each other (how it was drawn on the whiteboard) or what they are saying about the “depletion zone gains enough negative charges to repel the positive charges” as opposite charges attract eachother. Please explain

I like your program very much and like you too.

thank you so much

It doesn’t damage or destroy the diode if it goes in breakdown, it could destroy the diode as all components have limitations to what currents it can handle. But it has nothing to do with being in a breakdown state. This is a nice video.

From a science teacher perspective: great video, great explanation, great graphics at the beginning, but this video becomes confusing after about 4 minutes. For instance, at around 4:45, the following sentence does not make sense for students, as they learn that (-) and (+) charges actually attract each other: "N type side gains enough positive charge in its depletion zone to repel the negative charge in the region". Before that, the graphics are showing that (+) charges are moving from the P region to the N region, which also fosters misconceptions in students. It's the (-) electrons that move from the N region to the P region, leaving behind (+) charged ions. That means that (-) charges build up on the P side, which then starts to repel more "incoming" (-) electrons trying to hop over to the P region from the N region. At the same time, the (+) charged ions (the ones that are left behind at the N side, from the first few electrons that hopped from N to P), are now more strongly attracting any (-) electrons that are also trying to hop from N to P, making that more difficult. So, the (+) charges don't move, rather, it's the movement of (-) electrons that leaves behind (+) charges. The subsequent attraction between (+) ions and leftover (-) electrons in the N region on the one hand, and the built up of (-) electrons repelling each other in the P region on the other hand, is what prevents all the "holes" in P from being filled with "leftover" electrons from N. So, overall great attempt, but not something that I'd comfortably use in the classroom.

@marjoriegoldspur6798

Жыл бұрын

Thankyouthankyothankyou, Ian, for this explanation. You're awesome. I watched this video over and over again without gaining any understanding about what happens at the depletion layer. None of what Karen said made any sense to me. Honestly, the more I watched, the more confused I got. Your explanation answered all my questions, and is the best I've read or heard anywhere. I've copied and pasted it into my notebook. Thank you again.

I'm struggling to grasp this. why does negative repel positive?

@fbi7577

3 жыл бұрын

That is how it works in current , at first negative is weak and it needs positive ,but when there are lot of negatives it feels safe and do not need positive and repel the , it is like a person needs another special person to feel safe and happy but when that person gets some friends he feel safe and do not need that special person

Wow a intelligent woman with a sense of humour. Hello sister from UK, Wales. 🙄

One use is the commutating, or freewheel diode. They’re placed in parallel with coils so as to provide a path for current created by collapsing magnetic fields. Typically used with relays, contactors etc.

Wonderful explanation just like you rose

How come you have plus and minus on your diagram when both electrodes are grounded?

thanks teacher

Since diodes lower voltage - would they make better voltage dividers than resistors?

love your energy!!! jajaja

I saw it different way. When positive terminal is attached to negative n-region of diode, it suck the electrons out(or it's trying to take electrons), that causes the free electrons to be depleted in the n region becoming an insulator. Because electricity moves by free electrons. The p region connected to negative, causes the electrons to neutralize the positive region turning it into an insulator. So the diode becomes an insulator in both p and n location with no free electrons for electricity to move through the diode when the terminals are attached incorrectly.

Thanks!

very nice

Did you heard that fart .....4:48 I am sure you didn't...🤣🤣🤣

7:57 - How do you have a >0.7 voltage difference across the diode when both ends are connected to a common ground?

@Songwriter376

4 жыл бұрын

Was wondering the same thing.

Nice 👍

Hay un error en la animación de la polarización inversa del diodo. La zona de deplexion en la zona N debe tener iones positivos y en la zona P debe tener iones negativos.

There is another correction besides "opposite charges repel", while performing reverse bias anode is depicted as +ve terminal later on while performing forward bias anode is depicted as -ve terminal.

Ugh, what a cool teacher.

You are legend.

The depletion zone of the n side if the junction should be positive charge but you label as negative. Unless you mean the n material being a source of negative mobile charge carriers. But after they diffuse to the p doped material the n type material near the junction takes on a positive charge. Similarly on the p side of the zone a negative charge develops locally. The crystal as a whole is still electrostatically neutral with local effects isolated to the junction. The charges are not homogeneously distributed thru out the crystal but rather accumulate in equal amounts at the p n junction and so cancel out so as the crystal to remain in electrostatic equilibrium as a whole. That's my understanding at least.

4:13 i am confused. How are the holes moving? I thought the holes were not free to move.

how do electrons bond when like charges repel ? is it spin or is it a covalent bond you mean where the valance orbital is sharing electrons ? , not sure what you are saying

@maker_karen1785

5 жыл бұрын

If you're talking about when I was drawing on the dry erase board, it's not that they're bonding. The outer valence shell of those atoms can hold 8 electrons. So each atom has 4 of its own electrons and "borrows" 4 more to fill its outer shell, 1 electron each from 4 other atoms. The electrons aren't necessarily bonded, but they are shared by two atoms, which helps bond those atoms together. Does that help?

@easyerthanyouthink

5 жыл бұрын

Wow thanks for reply. Yes that when I was talking about, and your reply makes it clearer now.

@easyerthanyouthink

5 жыл бұрын

How did you know exactly where I was talking about... I'm flipping out. So cool....... 😀

Can you also explain how PIN diode work?

thanks 😊 😇

@4:49, less the very small leakage current, while in reverse polarity.

Karen, how about a full bridge rectifier circuit of diodes?

PN junction, what's your function? "Grabbin' free electrons and makin' 'em stable"... :D

you'r great....

very very easy method

best video

Karen ,if doping of pure silicon will cause reduction in the physical strength of silicon, especically in p side.beacuse p side have holes.will it create weakness.please reply. Iam doing a resarch in electrical field so, please give proper answer . Its a request. Iam a engineering student.age 22

Surprising how many people never thought to pick up a Physics textbook

@LA-rp5uy

4 жыл бұрын

most physics textbook state whats happening instead of how and why its happening.