Probably the best explanation of amplifier design principles I have seen. Absolute gold.

You're a wonderful teacher! I've learned things from you that I didn't learn In my engineering classes in college. Please keep up the wonderful work.

You are a geniously excellent teacher. Seen this class A-B config so many times, and more or less got it intuitively. But somehow you manage to put it in a way (simply...) that suddenly the penny dropped and I now fully understand how that diode-thing actually works and does what I have known it does without truly feeling it. Same goes for the inclusion of the opamp, wow.

Great video! One of the best videos explaining how push pull output stage works

You're doing great work and I hope you keep going.

Ive binge watched a bunch of your videos and now I feel dumb... I literally thought all this time you were talking about powering an actual fan. now it makes more sense.

This guy really is a treasure. Hopefully he will return some day.

Thanks dude! You are the first to make me grasp this. I've built paint-by-numbers projects, even a tasty Class-A amp but I didn't have a Scooby Doo how it really worked... Now I can make an AC motor driver out of some filtered squares :)

I have not the slightest idea who this man is. But he is an excellent educatainer or entercator. Only now I know why resistors' resistance must be as low as rationally and logically possible to avoid noise. Many people and articles talk about this phenomenon but none actually explain the reason why resistors must be small enough but not overly small that resistors become a wire.

Very good instructive video. Excellent explanation. Thanks much.

Mate this video is brilliant. I have found electrionics I have found to be my least favorite class due to just only doing calculations and not understanding the problems that these circuits solve. Seeing this type of problem solving and putting the theory into practice is what engineering is all about, I wish courses had your style of teaching electronics! Keep up the good work :)

your videos are so good! thank you for sharing your knowledge, this looks all so easy and obvious for you :) You explain really well.

This is amazing explanation. Thanks a lot. You are terrific.

Everything is Hunkydory...Best explanation of Push-Pull on KZbin

This guys knows how big of an idiot I am, and I appreciate him for it.

Great explanation! Bravo!

Man, wonderful lesson.

I put this together in a simulator and the output voltage was exactly the same as an input one (isn't the way OA works?). To get some gain I had to add a voltage divider to feed a part of the signal to an inverting input.

Wow man,you know what you are doing nice 👍,,,,,,,South Africa 🇿🇦🇿🇦

I've enjoyed these videos. Haven't seen new ones but hopefully he's doing well.

That "headphones" are something special!.... are they some special edition?? You should patent them!

Beautiful instructive content !

Very good instructive video.....Thanks

great explanation, as usual !!! I'm looking forward for the 555-timer video. it seems they can be used in many different applications.

Brilliantly explained

very good explantion !

Can this work with MOSFETs rather than BJTs? Also, I'm having trouble getting SPICE to not freak out on transient simulation of this. Also also, this circuit can be used to split a supply rail (mentioned near the end). That's actually my application.

I haven't even realized until half of the vid that there is no speaker on the headphone lol

Excellent video and very interesting. I have to ask though, was that a Home Improvements reference? More Power argh argh argh argh. 😁

10:27 as for the feedback, I'm not sure, but I have a feeling that the output will still be the same as the input signal even if there is no feedback. I know it sounds spooky. I mean having the op amp as an usual voltage follower and keep the BJTs handle the output on their own.

Dude its magical

Please mentor me I live in the middle of nowhere no family and I'm trying to learn this on my own it's slow going on my own

This is the second time I ended up here by searching you tube because I sort of got it - but wanted someone to explain it more logically. I just built a push pull TIP31/32 on an audio amp, it worked but the diode biasing thing messes my head up. I think last time I was spewy about the cuts making the speech relentless and unpausing. Seems to be a few breaths added this time but - space is beautiful. Imagine if your whiteboard was just full of lines and had no space between things ... like you had to squeeze everthing into the tiny corner and ignore the rest of the potential ... and it was just unpleasant and cramped ... something like that. Your channel will, with various editing improvements ... become huge I'm sure as you have the pulse of what people don't get and need to understand.

Brilliant!

amazing explanation. Thank you!

Very good video even for me who is a novice in electronics. A question i have however, is what if my signal source is a square wave, do i need to have PNP connected to the negative voltage generated from a split supply or any other way?

Thx for this very informative vid

Sorry I am new to this but I have a couple questions. So at the very end the op amp is a unity gain so it will try to match the output to be exactly the input. So does that mean there is no amplification? I have a hunch that this might just mean there is no VOLTAGE gain but there is a current gain right? If so how do you calculate the current gain from this circuit? If I added resistors to the feed back system of the op amp would I be able to get both a current AND a voltage gain?

So the signal's one lead goes into the OpAmp + and its ther leg goes directly into the circuit ground and no resistor. Is this correct? Also the load is not hooked up to the positive rail, it is hooked up between the two Transistor?

What is the minimum value of the DC biasing current in class A output stage? Explain you answer.

Awesome videos

Great tutorial!

Hi there. Your video is quite informative. Im trying to drive a mosfet gate(4000pf). I had two option first one is to buy a gate driver ic which is not available here and other option is to make a push pull transistor circuit which i tried a lot of time and remained unsuccessful. I have Used bd139 bd140 transistor pair. But i dont know why the output stays high like 9v and when i apply positive pulse then otput just fall a little bit 8.85v. Which is absolutely not a good way to drive mosfet gate. Could you help me to make the circuitry or provide me some schematic which would work fine

THANKS FOR THE GREAT VIDEO!!! At about timestamp 2:10 you state that if we are only using a digital driver (I'm using a 555 in the astable mode) this single transistor is all we need to reverse the high current. What I don't understand is that when the output of the digital driver is low "0", the transistor cuts off (or does it?) which would result in NO current flow. Am I missing something? I want to connect the 555 so that it sources AND sinks the higher current. It's output goes from a low of "0v" to a high of "5v -15v". THANKS MUCH,

Very nice

very well but too much trim in video make me feel bad!!

Super. just to clarify myself a bit, 17:35 with this configuration will the load be getting a voltage of + or - thus a digital-like or logic-like voltage (I mean just the rail voltage), or will it be getting the (supposingly) analog voltage of the input (the most left) which is varying and smaller than the rail voltage ? If it follows the input voltage, this means that the voltage across collector-emitter is not 0 in general.

Great video. Would this circuit also work with mosfets? And do you need for several 100V resistors instead of an opamp?

Thanks for the video =)

good

Great video. Can this be done with a single-supply voltage (vs split)?

BTW: PLEASE make that ground symbol...

great stuff but it is not an easy stuff. definitely at least intermediate level :) I will come back one day :)

did the sea moose eat the sea moss or what it a sea mouse?

Is it possible to share your email?

How does the positive input signal steer the base of the NON transistor and the negative input signal steer the base of the PNP transistor, given such a placement of the biasing diodes?