Hi all! If you do better reading things at your own pace, the transcript for this video, with the images embedded, is here: www.circuitbread.com/tutorials/how-does-an-led-work
@greenief90974 жыл бұрын
Can someone please explain how energy is conserved when the photon is emitted? The valence electron passes from the n region to p region as a result of the voltage across the two regions supplied by the power supply-energy is conserved by producing a current (which is literally that transfer of the electron), makes sense. But when that valence electron emits the photon where does THAT energy come from? Is it being coming from the momentum of the electron as it is brought into orbit of an atom in the p region? Please explain... I cannot figure that part out. Amazing video!
@Ironbeast103 жыл бұрын
kalki avatar (beast of the earth) (christ on the white horse) (son of man on clouds) is the biggest enemy of dajjal/antichrist/kali 😏 Kalki Avatar (Murtaza) cousin of Moula mahdhi a.s. (muhammad) 😎 Moula mahdhi is raja shashidhuvj 😎 Prophet Moula mahdhi and Moula Isa both will kill dajjal cause dajjal is going to kill Kalki Avatar 😏 Kalki Avatar will follow orders from 2 religious king Moula mahdhi a.s. and Moula Isa a.s. 😎 Kalki Avatar going to have 2 swords and ring of moula sulaiman a.s. and staff of moula musa a.s. (iron rod) Staff of moula musa a.s. is like omintrix can transform into anything and can transform others into anything And stone in the ring of moula sulaiman a.s. is also known as kastav mani and it's more powerful the all 6 infinite stones combined 😇 This staff will transforms into white horses with wings,weapons,iron-man,cloud etc or can do imagination into reality 😎 *Ratn sru sword of lord shiva (miri)😇 *Ratn varu (zulfakar) sword of Moula Ali (piri) 😇 miri piri 😇 Satyug (sunrise from West) 01.aug.38 😏 Gzwa e hind 2029 😎....
@garrettscott94275 жыл бұрын
EE student here. Very well explained! If only we received teaching on this level in class.
@CircuitBread5 жыл бұрын
Thanks Garrett! I really appreciate that feedback, gives me a little pick-me-up for the day :-)
@goldenbeardofficial85413 жыл бұрын
when i was in university i didn't have youtube, i didn't even have the time to open my computer
@haiangtran2036 Жыл бұрын
@@goldenbeardofficial8541 so what was you doing? 😂
@PoisonTick4 жыл бұрын
I wish my professors I had through college explained things like this with this level of focus and clarity, thank you for the very informative video
@freedhoelay59533 жыл бұрын
Great soothing voice. I want this guy to read to me at night before I go to sleep.
@glowingunknown56253 жыл бұрын
"And then the cathodes and the anodes lived happily ever after."
@noname-eb8el4 жыл бұрын
I'm an EE student and i gotta say my teachers really explain just because they need a paycheck. And at a stage i was like: damnnnn EE is boring but this channel totally proves me the otherwise. I just found it last night and i'm fascinated. Great job !!
@CircuitBread4 жыл бұрын
Haha! That's awesome to hear! Yeah, EE can be boring in the wrong hands but I think we're fortunate that all of the engineers here at CircuitBread find it fascinating, which helps keep us motivated when things are challenging.
@karimsc39213 жыл бұрын
That was so clear and helpful, not only for EEs but also for beginners and hobbyists. Thank you 🙏
@CircuitBread3 жыл бұрын
Glad it was helpful!
@tvanharp3 жыл бұрын
Well I had to watch a 101 version about diodes but then I came back and this made a lot more sense.
@geraldlarson57966 ай бұрын
I agree, This gives a much better visual and simplified explanation to match what the textbook is describing
@peapots60383 жыл бұрын
This channel actually makes EE look interesting... Thank you for your hard work!
@andyjunior2 жыл бұрын
This is explained so well…I could cry
@tatemcaluney72692 жыл бұрын
This was such a helpful and in-depth explanation of how LED's work, thank you!
@mohammedmogahed-k9l2 жыл бұрын
Very nice and easy way to explain led . great job
@jtroopa4 жыл бұрын
Wow they really are just crazy simple. Simpler even than other light bulb designs.
@buddhistandcatholic3 жыл бұрын
You sir are the best electronics teacher I have seen. Better than my professor. I will gladly subscribe to your channel. Keep it up!
@hariprasadsubramaniam6397 Жыл бұрын
Thank you very much for the excellent explanation.
@krishnarajg2778 Жыл бұрын
❤Love this channel. Appreciate the good work.
@CircuitBread Жыл бұрын
Thank you so much for your feedback! Glad we can help!
@thugdob74514 жыл бұрын
Wow! That's everything i wanted to know!
@CircuitBread4 жыл бұрын
Awesome, that's good to hear!
@foto213 жыл бұрын
I have never been lost faster in a how-to video. I appreciate your credibility, but you might want to do another that explains what diodes are as well.
@CircuitBread3 жыл бұрын
Hi there! We actually have several videos on diodes - a higher level video on how they work as well as several videos on how they work at the semiconductor level. Hopefully they clarify things!
@ekaterinastamatova38353 жыл бұрын
This was extremely helpful. Thank you very much!
@johnny_eth Жыл бұрын
You could say a regular diode produces heat by emitting infrared. LEDs just have a different omposition which causes then to emit radiation with a smaller wavelength, e.g., visible light.
@CircuitBread Жыл бұрын
Yep! Exactly. Though the LEDs still emit a little bit of heat as well, just less than a regular diode.
@notzuhriashraaf49124 жыл бұрын
Thank you for sharing such valuable knowledge!
@manu407294 жыл бұрын
Very well explained ..... Wish college was like this
@CircuitBread4 жыл бұрын
Thank you! We're actually hoping, once we get more content up, to actively partner with colleges on some content so that students can have their in-class and our video/written tutorials work together. I don't know how well it will work out but that's something we're striving for.
@noodian32683 жыл бұрын
Super concise! Thanks :)
@hazchem12 жыл бұрын
It's interesting to read the comments from students regarding the good teaching styles on these types of videos. I've learned more on KZbin from channels like this than I could have ever learned in school, where most Teachers (in my experience) quite obviously couldn't be bothered.
@CircuitBread2 жыл бұрын
Teachers can be hit or miss, unfortunately. But there are great teachers out there that do really care about students, you just have to find them. And hope they're not burned out by being overwhelmed by students who yearn for help. One of the greatest professors I had as an undergraduate went above and beyond and, even ten years after I got my bachelors, was willing to help us with a handful of these semiconductor devices videos, making sure they're accurate. Those are the type of teachers and professors I'm grateful for.
@hazchem12 жыл бұрын
@@CircuitBread Indeed, however, mostly 'miss' in my experience.
@harshagnihotri93183 жыл бұрын
thankyou sooo much sir i was just done with my chapter semiconductors in 12th and i didn't get how the transmits,,,,,,, brilliant explaination
@mikemccross3503 жыл бұрын
Since we touched this but didnt get tested on this (Eng student, but not EE), im happy with how it was covered
@حسونابواالشربت Жыл бұрын
You did't study that in high scoohl
@junechu9701 Жыл бұрын
Thanks! It's really helpful!!!
@ahmedmohammed19503 жыл бұрын
Well explained....
@andorsagi26 күн бұрын
Thank you
@MrPabgon3 жыл бұрын
Very well made video. EE student here
@strange_thing-arra-36923 жыл бұрын
please make a video explaining how CFL light bulbs work... perfectly explained.
@kushlanfernando96074 жыл бұрын
Super.....:) Keep this good work ..Thanks again
@asdf.12964 жыл бұрын
wow, the color is determined by the phonon! ive never thoght about it now well understood. great lecture!
@CircuitBread4 жыл бұрын
I know, it kinda blew my mind when I learned about this as well. Thanks for the feedback!
@jacksonward55974 жыл бұрын
Thank you!!! I can now win that argument between me and my cousin lmao
@CircuitBread4 жыл бұрын
Yes! This brings me a ridiculous amount of joy. I hope it was fun!
@AlienRelics2 жыл бұрын
I think it would be more accurate to say the energy from electrons falling into holes in a rectifier diode are released as infrared photons. It becomes heat because most rectifier diodes have opaque black bodies.
@CircuitBread2 жыл бұрын
You are absolutely correct, thank you!
@ruben.g6843 жыл бұрын
Thanks bro you came in clutch my project is due today
@CircuitBread3 жыл бұрын
👍Awesome!
@Happy-lx4sc3 жыл бұрын
It helped me for my class 12 exams 😁
@Shreymani24 жыл бұрын
Thanks man!
@ambientsoda1063 жыл бұрын
Do you have a video about the transitory evolution and hot logic gates made computing possibly?
@CircuitBread3 жыл бұрын
Interestingly enough, we have shot a video about how a computer works from the ground up - starting with sand and talking about how that's turned into semiconductors which are then turned into logic gates, etc. While the video is completely shot, there are a few animated portions of it that are being time consuming. I'm not sure if this is exactly what you're looking for but we're quite excited for this video to be published. Whenever it actually happens...
@cndbrn79753 жыл бұрын
This video explains on a molecular level how electrons flow. It also breaks down the doping process of pnp/npn transistors. kzbin.info/www/bejne/gGXSgGqGicShsLM
@cndbrn79753 жыл бұрын
@2:30 - 2:50 Was it Maxwell that figured out the wave lengths to produce ultraviolet light?
@CircuitBread3 жыл бұрын
He predicted the existence of electromagnetic waves but I'm not sure who it was that actually figured out which wave lengths produce ultraviolet light...
@jatwangismyname9002 жыл бұрын
Very helpful 👍
@shreyasoza3 жыл бұрын
I'm in healthcare and even I understood this. Incredible video!
@CircuitBread3 жыл бұрын
Awesome!!
@SeeclearDoclearbyPWian3 жыл бұрын
Well explaination dear sir 👌 But yet i have not got that why LED's design is of that type could you give me some more explaination ???
@CircuitBread3 жыл бұрын
Why LEDs look the way they do with the dome? I think it's just a manufacturing standard developed years ago that was easy to make and didn't block any of the light coming from the light emitting portion itself. There are many, many different body styles now available.
@SeeclearDoclearbyPWian3 жыл бұрын
@@CircuitBread thank you 🙏
@Nickilese Жыл бұрын
I always retain a little hope that someday I will see the toast pop out again.
@muhammadnurhadi50998 ай бұрын
I have a question.. is there a material of LED that can produce all wavelength? I mean, we just modification of voltage or something else to make different wavelength?
@CircuitBread8 ай бұрын
Not that I'm aware of - unless I've missed some update in some basic physics (and I'm not saying that sarcastically, there are constant updates in the scientific fields) then the wavelength of the emitted light is directly tied to the materials used in the LED.
@venky21444 жыл бұрын
Very well explained ... Thank you.....
@CircuitBread4 жыл бұрын
You're welcome, thanks for the feedback!
@jakec5618 Жыл бұрын
At around 1:35ish, you discuss how for silicon diode, energy is released in the form of heat, whereas for led materials, the energy is released in the form of light. How come the difference in why one releases light and one releases heat ? Thanks
@CircuitBread Жыл бұрын
Yeah! It's all about the wavelength of the energy and how much of a drop in energy there is when the electron changes from one energy level to the other. This is actually how they have made LEDs of different colors - blue, a higher energy light, requires a greater energy drop of the electron than red light so they put together two materials where there is the appropriate change in energy level from one to the other. So, there are a few things going on here but if the electron drops a smaller step, like in a diode, the energy is in the infrared range and is trapped inside the device itself - heat!
@jakec5618 Жыл бұрын
@@CircuitBread Ahhh I see, interesting. Appreciate the reply. Great video btw.
@thissatori2 жыл бұрын
Maybe this is a dumb questions but how do the holes get replenished? It seems like they disappear when recombined but the LED doesn't really "run out" right?
@CircuitBread2 жыл бұрын
No, not a dumb question at all, it's something I think all of us have considered at one point or another. My understanding is that it's just a matter of it being a true circuit - as the holes are filled with the electrons dropping into them, holes are forming elsewhere due to the energy being put into the system. The holes slowly move into place and replenish the lost holes. Since it's done constantly, there's never a real lack of holes. I need to reach out to my semiconductors expert again, she may have a more technically fulfilling way of describing it.
@ShredderBenjamin2 жыл бұрын
Really good explanation here, I'm just your typical inattentive ADHD fella who can't turn off his brain and this has definitely been helpful!
@kuetese2k1993 жыл бұрын
this is amazing!
@greenief90974 жыл бұрын
Can someone please explain how energy is conserved when the photon is emitted? The valence electron passes from the n region to p region as a result of the voltage across the two regions supplied by the power supply-energy is conserved by producing a current (which is literally that transfer of the electron), makes sense. But when that valence electron emits the photon where does THAT energy come from? Is it being coming from the momentum of the electron as it is brought into orbit of an atom in the p region? Please explain... I cannot figure that part out. Amazing video!
@CircuitBread4 жыл бұрын
You're right - it's when the electron goes into orbit of an atom in the p region, dropping in its orbital energy to do so. We say it "fills a hole" but the reality is that it's just dropping into the valence band, or, in other words, being pulled into orbit around a specific atom. The energy it loses from dropping into that hole is emitted as a photon, producing the light. Now, where I'm a bit sketchy and would rather have someone with a PhD or just better specialization in this field confirm, is that the electron *does* lose energy crossing the junction and getting onto the p-side, but then the electron loses *more* energy when it drops into orbit of the atom. I'll leave this out there if someone (including other engineers at CircuitBread) want to comment. Excellent question, thank you!
@greenief90974 жыл бұрын
@@CircuitBread Thanks for the detailed response! That really clears things up for me. I do know that energy is conserved when the electron moves position as a result of the chain of electrons in the circuit simultaneously moving (that is, a current through the circuit) which takes energy from the battery. Think of a watering hose, if it is full of water (wire full of electrons) and you add some more water to it via a water supply (adding electrons to the wire with a CV source), water is immediately spilled out on the other end, thus the energy gained from forcing water into one end is conserved when water is spilled out the other end. Same concept with electron flow. With this in mind, I do not think that it is the individual electron loosing energy as it crosses into the p region, instead energy from that action is consumed in the battery as a new electron further down the line enters a charged terminal as another electron leaves the terminal of opposite charge.
@pavanjoshi24483 жыл бұрын
@@greenief9097 can you please explain how electron energy is lowered when it goes to orbit around atom Since when electron is confined to move within an orbit it's Δ x is less, so Δ p should be more acc to uncertainty principle
@pavanjoshi24483 жыл бұрын
@@CircuitBread can you please explain how electron energy is lowered when it goes to orbit around atom Since when electron is confined to move within an orbit it's Δ x is less, so Δ p should be more acc to uncertainty principle
@greenief90973 жыл бұрын
@@pavanjoshi2448 Having taken a course on it since the time of my first reply, look into "potential energy wells." Specifically finite potential wells. It is a pretty abstract idea, and connects the wavelength of the electron to the energy it has. When the electron is passing from one atom to the next, it briefly inhabits free space. Think of a ball that has rolled down a hill and is resting at the bottom. But then, it comes within the vicinity of the next atom, and this is similar to saying that the ball now is near a ridge where it can fall down. As the electron falls into orbit, loosing the potential energy it had and gaining kinetic energy, it emits a photon of a specific wavelength to compensate for the energy change. This is not an in depth answer: look into potential wells!
@M.Melkonyan11 ай бұрын
In regular diodes electrons radiate IR light, but in LEDs they radiate electromagnetic waves in visible region
@gernstsmit4 жыл бұрын
What is an "electron hole". Why does the LED not stop working once all the "electron holes" are filled. This does not make any sense to me???
@CircuitBread4 жыл бұрын
Yep, that was a question I had as well. What happens is that, since you have a voltage, those electrons drop into the holes on the other side of the PN junction and then those electrons (or, more likely, other electrons) eventually pop out of the holes again and work their way out of the semiconductor material to go around in a big cycle again. I recommend checking out our video on how a PN junction works to hopefully clarify this question.
@amjedsenpai4 жыл бұрын
3:15 I didn't understand why the lead frame shaped like this(like triangular plane)? Why not designed it like a column that holds the semiconductor material
@CircuitBread4 жыл бұрын
Hey Amjad, I don't know but I have a theory I think is reasonable. The light emitting side is the cathode, so you want as much available surface area there as possible. However, a thin vertical bar would be pretty weak mechanically. So, by creating those two odd shapes, you're maximizing the surface area on top of the cathode while still providing enough mechanical strength to both the anode and the cathode to not be bent during the encapsulation process. A flaw in this thinking is that the wire between the anode and cathode is tiny and doesn't seem to be affected. Hmmm... I hope someone else that knows the answer will chime in.
@understandabIe3 жыл бұрын
just leaving a comment here hoping i will ever revisit this video for school
@22thirumurugan532 жыл бұрын
Very well sir
@sheks693 жыл бұрын
What happens when all the electrons cross and fill all the holes? what reiterates the process? Thanks (I have no idea how these things work but I find it very interesting)
@cndbrn79753 жыл бұрын
I think they get filled by the power source ie; Battery or outlet.
@cndbrn79753 жыл бұрын
This video explains on a molecular level how electrons flow. It also breaks down the doping process of pnp/npn transistors. kzbin.info/www/bejne/gGXSgGqGicShsLM
@curiash2 жыл бұрын
Wow nice video
@victormaxwellpeters97712 жыл бұрын
What if electrons occupy all the holes in p type region??? Will the diode stop emitting light then??
@CircuitBread2 жыл бұрын
I had that same question when I first learned about this. My understanding is that once the electrons drop in energy, then they act like a "normal" electron in that material, which means they can later jump into the conduction band and be conducted out of the device to go around the circuit loop again.
@andiarrohnds51634 жыл бұрын
this only confirms my thoughts, though vaguely... i want to believe the electron is being stripped into photons but since i myself am not an electron, i cannot actually see the process
@pasticcinideliziosi12593 жыл бұрын
nah, electrons can't be destroyed with this ease
@cndbrn79753 жыл бұрын
That was cool! I never knew how closely related LED's and transistors were. It seems the difference is the extra doping of the P/N in the transistor?
@CircuitBread3 жыл бұрын
It is pretty crazy technology! It's not the amount of doping, it's by putting two different materials together that, when an electron moves from one to the other, it loses the exact amount of energy needed to create a photon of the color you want. Most diodes just produce heat when the electron loses that energy.
@mikey100065 жыл бұрын
Amazing vid!
@debabratasaha32413 жыл бұрын
Dear sir, thanks for your explanation. I have one question on energy conservation in photo-diode. In case of LEDs, the battery is injecting high energetic electrons (from its negative terminal) to the conduction band at n- side and collecting low energetic electrons (by the positive terminal) from the valence band at p-side. So the battery is losing energy which is manifested as light(or heat). Can you please explain (by using electron/hole movement) how energy conservation is valid in photo-diode/photo detectors. In this case, when i am drawing the schematic diagram of electron-hole movement, it seems to me that the battery is getting the absorbed photon energy (I mean battery is getting high energy electron from the conduction band at n-side and releasing low energy electron at the valence band of p-side). How is it possible? How the battery can store the absorbed photon energy? I am doing something wrong.
@CircuitBread3 жыл бұрын
I disagree, you aren't doing anything wrong - the battery WILL absorb the photon energy. A photo diode is, in essence, just a small solar cell. Depending on the setup, the current generated by the photodiode may go back into the battery or it may go elsewhere in the circuit. If the battery is non-rechargeable, hopefully it won't be going back into the battery but, at the same time, the amount of current these small photo diodes create are extremely small and probably non-problematic.
@debabratasaha32413 жыл бұрын
Thank you very much
@cndbrn79753 жыл бұрын
This video explains on a molecular level how electrons flow. It also breaks down the doping process of pnp/npn transistors. kzbin.info/www/bejne/gGXSgGqGicShsLM
@cndbrn79753 жыл бұрын
@@CircuitBread I'm not trying to take away from your lecture, I thought it was great. New sub
@Sciencewithfun007xsalu Жыл бұрын
Impressive
@mountainfarm53183 жыл бұрын
What is emitted at 2.2 - 2.5 volts?
@CircuitBread3 жыл бұрын
I'm not sure, actually. My guess would be something yellowish-green.
@nemod33382 жыл бұрын
2:55 So the next Nobel prize will go to someone who will discover material which emits all the colours depending on voltage.
@CircuitBread2 жыл бұрын
That would be pretty amazing!
@diegoantoniorosariopalomin22069 күн бұрын
I don't think that is physically possible in a practical way.
@vedamurthyc21237 ай бұрын
How are knee voltage and energy gap related?
@CircuitBread6 ай бұрын
The larger the energy gap, the higher the knee voltage. You'll note this with LEDs of different colors. Different band gaps generate different colors, which is why LEDs of different colors have different band gaps. I'm not sure if there's a mathematical relationship between the two but I would be a little surprised if there isn't.
@heist2473 жыл бұрын
Can someone please check my understanding of what is going on molecularly. The voltage difference between the cathode and anode liberates a electron from the N type region of the diode. This electron finds a path to an empty positively charged hole in the P type region. However due to the composition of the molecules around that hole, the energy loss for that electron to fill that hole will be of the same size as the desired frequency. It therefore sheds this energy in this form of photon to fill the hole it is drawn to.
@CircuitBread3 жыл бұрын
A chemist or an expert in this field might take umbrage at the details or verbiage, but yes, that's a solid understanding of what's going on!
@heist2473 жыл бұрын
Many thanks for the response. Your videos are excellent and have been a massive help. 👍🏼
@cndbrn79753 жыл бұрын
This video explains on a molecular level how electrons flow. It also breaks down the doping process of pnp/npn transistors. kzbin.info/www/bejne/gGXSgGqGicShsLM
@vincent_hall2 жыл бұрын
Thanks, I've explained to my son. Forgot some of my Physics degree.
@godofplumbing4 жыл бұрын
Now I can build a photon cannon.
@memi60094 жыл бұрын
is it kind of the opposite of a solar cell?
@CircuitBread4 жыл бұрын
Exactly! The LED is optimized to create light from power and a solar cell is optimized to create power from light but practically, it's the same thing happening in reverse.
@checkswing5764 жыл бұрын
Cool, I was deducing the same thing too recently!
@xandergisbey54023 жыл бұрын
I am wondering if LED lights emit the light a frequency so that your eyes percieve the light to less intense than the peak of each flash. Do LEDs flash on and off? Do you know if the human eye can detect this flashing? Does the brain then merge the flashes with the darkness inbetween and so percieve the light to be dimmer than the individual flashes but brighter than the darkness between these flashes?
@CircuitBread3 жыл бұрын
LEDs, given a constant voltage, will give out a constant light. While the photons are discrete, there are so many of them, there is no way our brains could distinguish each one. On the other hand, a common way of dimming LEDs is exactly that method. They flicker the LEDs on and off fast enough that our brains can't register that they're flickering but instead interprets it as simply being dimmer. I have seen where they've flickered the LEDs too slowly and it gives a very subtle, nearly subconscious, strobing effect that is quite unpleasant.
@xandergisbey54023 жыл бұрын
@@CircuitBread damn, i hoped i was wrong. So you are agreeing, the led may appear less bright than it actually is, due to your brain merging the bright flash with the dark inbetween. I wonder if this means the retina or other sensitive parts of the eye may be more easily damaged by this LED light as the light is maybe brighter than the retina or optic nerve is percieving it.
@CircuitBread3 жыл бұрын
I've wondered about that myself - it seems like if the flash were bright enough, even if the duration is incredibly short, then it would cause some damage.
@omegahaxors9-112 жыл бұрын
Silicon diodes actually DO emit light, as proven by that one time I accidentally shorted a diode and it lit up like a Christmas tree. It's just that the light produced by a diode is immediately blocked by the structure of the diode itself, which causes it to be absorbed.
@CircuitBread2 жыл бұрын
I knew they emitted light, but I thought it was more in the red-infrared range. But yep, the opaque cover makes it so you can even see the little bit of light they do produce (under normal conditions). Thanks for sharing! It would've been cool to have gotten that on video.
@PsychoGamer0033 жыл бұрын
Superb 🤗 CAN YOU TEACH KTU SYLLABUS 😀 THAT WILL BE HELPING MY JUNIOR'S 🙂
@CircuitBread3 жыл бұрын
Sorry, what's a KTU syllabus? I'm getting "APJ Abdul Kalam Technological University" from a google search. We actually are trying to create our newer series to be more in line with general electronics syllabi but there's always going to be variations...
@PsychoGamer0033 жыл бұрын
@@CircuitBread yaa its that itself 🙂 Thanks alot for the reply I never expected you would reply ❤️
@turbo30893 жыл бұрын
Would it be possible to turn an led into a fuse
@CircuitBread3 жыл бұрын
Not really... as they're not designed for that, they could burn out open or burn out closed, which means that they could make the situation even worse. There may be fuses that incorporate LEDs to indicate their status - I haven't heard of that but there's a lot of things that exist that I haven't heard of.
@magicinphysics98292 жыл бұрын
Thanks 🙏🙇 a lot buddy
@CircuitBread2 жыл бұрын
Our pleasure!
@phdtobe2 жыл бұрын
No mention of how LEDs work as the reverse of the photovoltaic effect? In the photovoltaic effect, an electron is freed from a low energy state by absorbing a photon; LEDs work by releasing an photon by an electron falling into a low energy state.
@CircuitBread2 жыл бұрын
We discussed it but we ended up deleting that from the script because we didn't think we could do it justice without getting too deep into the physics behind it. We could've been wrong about that assumption.
@noxiusobvious42399 ай бұрын
I like the video's style and how greatly articulated and visualized the explanations are. Much disappointed though, as I expected an explanation of how "white" is created in such a video instead of having it only listed along the LED's inherent colours in the video with no reference of its creation in the details or later on.
@CircuitBread9 ай бұрын
Sorry about that! In one of our RGB videos, it is mentioned that typically white is created by emitting a balance of all three colors. There is also a way of making a blue LED more white with some sort of coating but I'm not as familiar with that process as much. Creating white with the three colors is a lot more primitive yet widespread than you'd think.
@notasovietspy80083 жыл бұрын
Lol I was wondering this sense we where talking briefly about light bulbs in science class
@health16743 жыл бұрын
Thank you. I actually have a new LED lamp into my bedroom. I got scared when at light little light at night lightens and closes. Is this normal ?
@CircuitBread3 жыл бұрын
I'm sorry, I don't really understand, could you rephrase what the LED lamp is doing?
@health16743 жыл бұрын
@@CircuitBread my new lamp At night I close it When I look at it on the roof it's off course I see a little light like a small dot After some time it finishes I got scared
@CircuitBread3 жыл бұрын
Hm, interesting. Strangely, LEDs are so efficient that they can emit a very small glow with small amounts of residual charge or stray voltage. While this can cause a glow to last a ridiculously long time (minutes), it is common for LED bulbs to take several seconds to wind down to a level that you can no longer see them.
@health16743 жыл бұрын
@@CircuitBread Thank you very much indeed for your valuable explanation. This explained for me the issue Grateful.
@health16743 жыл бұрын
@@CircuitBread sir, Do you have a face book page?
@arnokosterman2313 жыл бұрын
So I olrady thaugt the led light is the emotion of the energy transition that becomes light. Light in the operside direction is a old trade light😍
@arnokosterman2313 жыл бұрын
The subatomic space dragg is less negative for it to expand in to for us to see light. 😍 than we are the ones losing photons 😍🤣😭😍 Breeee nice This conformation. 👀 bit than man don't see the difference between photons en cosmic behaviure jad😅🌈
@ayyoubbezzalla8137 Жыл бұрын
How does LED COB work?
@CircuitBread Жыл бұрын
Same exact concept but instead of the cup portion shown in this video, the yellow portion acts the same as that cup, emitting the light.
@nothingbutgianttrees19953 жыл бұрын
The background tilt s making me nervous xD
@theaman17862 жыл бұрын
So is the light emitted unpolarized light (I hope it is; polarized light is bad for health, I've heard). Also, do you know of any lead and arsenic-free LEDs? I've been looking all over the web... These simple ones don't, but do many of the lights marketed as LEDs emit any UV? I just had to ditch the idea of lighting my future home with Sodium Vapour Lamps because they contain mercury... Bioluminescent lights haven't evolved much yet... If only there was a lead-and-arsenic-free LED...
@CircuitBread2 жыл бұрын
LEDs emit unpolarized light but most all of them contain trace amounts of lead and arsenic. The quantities of these materials are extremely small, though, and while not ideal, is generally much more environmentally and biologically friendly than many other options. That is assuming you're using high-quality LEDs from a reputable source - some LED manufacturers may be less focused on following environmental regulations. In regards to UV, unless the LEDs are specifically designed to emit UV, their emissions in that spectrum are minimal to non-existent. That's one reason they're popular as outdoor lights - their limited heat and UV output makes it so they don't attract bugs like incandescent bulbs do.
@theaman17862 жыл бұрын
@@CircuitBread Thank you so much; your reply gave me much relief... I was so worried... Not anymore though. Bullish on LEDs now; YOLO!
@benmarconi40394 жыл бұрын
How do LEDs that change colours work?
@CircuitBread4 жыл бұрын
Hey Ben, we got a tutorial about that, go check it out here: www.circuitbread.com/tutorials/how-rgb-leds-work-and-how-to-control-color
@benmarconi40394 жыл бұрын
@@CircuitBread thank you very much!
@TheBanjoShowOfficial3 жыл бұрын
Combine RGB and increase or decrease intensity of either of those bulbs
@sciencesexperements58533 жыл бұрын
I think you have practically experience that grate
@skydahe96152 жыл бұрын
Sadly, the inventor of LED and semiconductor laser didn’t win Nobel Prize. 😢
@UnlimitedPowXx6 ай бұрын
That's mind blowing! 😮
@silbyrn3 жыл бұрын
Awesome video, very informational and concise! edit: removed dumbass comment about symbols being flipped. lmao.
@CircuitBread3 жыл бұрын
Thanks for the feedback! Could you let me know exactly which symbols were flipped? I only see three in the reference table and I *think* they're right. I appreciate you keeping us honest!
@silbyrn3 жыл бұрын
@@CircuitBread oh my lord i'm an idiot, hahaha. nevermind!
@CircuitBread3 жыл бұрын
The more of these videos you watch, the more you will believe me when I say, "No worries, I do that sort of stuff ALL THE TIME." 😂
@familytips17664 жыл бұрын
But I think future science teaching will give stress on its practical side instead of teaching those electon proton theories. Where gallium is found and how it is placed in a LED knowing that is more important
@CircuitBread4 жыл бұрын
I think that these fields will become more stratified and specialized. I think there will always be people who need to know the electron/photon theories so they can improve the underlying technology, while others will be focused on sourcing and purifying materials and fabrication methods. Just like Arduino has made it so that many people can jump right into embedded systems with limited electronics understanding but we still need the people who create the Atmega processors the Arduino is built on, as well as the library the IDE is built on.
@TheBanjoShowOfficial3 жыл бұрын
Well ya lost me
@james77011 Жыл бұрын
i thought i destroyed several L.E.Ds but, i stopped and tested the L.E.Ds that was left over and discovered that i was sent a bunch of bad L.E.Ds
@CircuitBread Жыл бұрын
Dang, that sucks. Good thing you tested them!
@james77011 Жыл бұрын
@@CircuitBread I bought some more but, from a different vendor... And they worked great 😃
@michaelpritchard2350 Жыл бұрын
💯💯💯
@LousyPainter2 жыл бұрын
A kind of crude scintillation.
@atharvadebre8897 Жыл бұрын
how does an led work?
@StealthyXello2 жыл бұрын
are leds bad for your eyes?
@CircuitBread2 жыл бұрын
I've heard this concern and have even read a research paper about it that seemed inconclusive. I'm not a biologist or a doctor, so I can't say anything definitive on the physiological side. But, from an engineering point of view, I haven't come across anything that would make the think that LED technology is inherently worse for the eyes.
@muhammad22705 жыл бұрын
💗
@alexmcfarlane71273 жыл бұрын
low volume
@Ironbeast103 жыл бұрын
Wt converts into photons and photons r made of Wt 😒 ???
@Ironbeast103 жыл бұрын
Just electrons or combination of electrons protons and neutron in a molecular structure of a photons 😑 ???
@CircuitBread3 жыл бұрын
Not 100% sure I understand the question but if you remember that photons are just little packets of energy, not actual matter, that should help. So, instead of emitting energy as heat, it's emitting it as light.
@Ironbeast103 жыл бұрын
@@CircuitBread All photons or 99.99% of photons don't have light 😏
@Ironbeast103 жыл бұрын
@@CircuitBread It looks like photons r made of electrons and protons and have electrical and magnetic effect inside a magnatic sphere 😇
@Ironbeast103 жыл бұрын
kalki avatar (beast of the earth) (christ on the white horse) (son of man on clouds) is the biggest enemy of dajjal/antichrist/kali 😏 Kalki Avatar (Murtaza) cousin of Moula mahdhi a.s. (muhammad) 😎 Moula mahdhi is raja shashidhuvj 😎 Prophet Moula mahdhi and Moula Isa both will kill dajjal cause dajjal is going to kill Kalki Avatar 😏 Kalki Avatar will follow orders from 2 religious king Moula mahdhi a.s. and Moula Isa a.s. 😎 Kalki Avatar going to have 2 swords and ring of moula sulaiman a.s. and staff of moula musa a.s. (iron rod) Staff of moula musa a.s. is like omintrix can transform into anything and can transform others into anything And stone in the ring of moula sulaiman a.s. is also known as kastav mani and it's more powerful the all 6 infinite stones combined 😇 This staff will transforms into white horses with wings,weapons,iron-man,cloud etc or can do imagination into reality 😎 *Ratn sru sword of lord shiva (miri)😇 *Ratn varu (zulfakar) sword of Moula Ali (piri) 😇 miri piri 😇 Satyug (sunrise from West) 01.aug.38 😏 Gzwa e hind 2029 😎....
@izzy20.3 жыл бұрын
👽
@1mlindberg3 жыл бұрын
BUT, the thing putting out the most light is your teeth