Dude. Stop waving your mouse non-stop while you talk. I literally got dizzy when I was watching, I had to stop and just listen. Also, you didn't actually explain HOW do we get an analog signal at the output, which is why I started watching at the first place. WHY do we get a steep curve at the output when the pulse is wider??
Getting an analog signal out of a digital signal (like PWM) is provided by filtering out the sampling frequency. When we do that, all the pulse "spikes" (high or low only) will dissapear and merge into an average value. That's how PWM can reproduce an analog amplitude. On the other hand is frequency reproduction. In PWM, that is "coded" into the amount of wide pulses and narrow pulses. It's the combination between them what makes amplitude and frequency. It's difficult stuff. If you're still struggling with this stuff, read about FM, Frequency Modulation. That's the analog "sister" of PWM. Good luck!
i don't understand all of this. I only have one question. How does a class D amplifier drive speakers directly? A friend told me that a class D amp, has a very quick power supply that can switch on and off at the rate of sound. And that a microprocessor controls the switching of this power supply, and this in turn drives the speaker-drivers directly in realtime. Is this true?
this is a great video! awesome having the visual & the explanation. Plus in a relatively quick video. thank you
Thank you for the explanation. Perfect level of technical and lay person detail for me.
great video!... how do u made the visual explicaction?, any software?, i´d like to try it too
while compiling this circuit on orcad we need mosfet model where to find them
Link to the Udemy course? Thanks
Amazing video, very clear and informative thank you
Hey man! What are you doing with that cursor? What is the purpose of that meaninigless movement which takes our attention?
Exactly! I was, at first thinking he might be a little retarded, but the quality of the video speaks against that theroy.
@@carstenweber7676 Video is perfect but the movements of that cursor is irritating. That is the point.
Wow, thank you for the explanation!
Hi,what is the software you used for simulation
Falstad, it's a website.
What software did he use ?. Link to udemy course
wow, this a really good video
very helpful,, thanks
hey does "parallel" mean anything particularly significant to you? if so i totally know you irl, lol.
@@ElTurbinado hey! Irdk what do u mean by parrallel, so we don't know each other
@@mohammadhosein6847 welp... lol. same name as an ee friend of mine. ✌️😀
Perfect!
Visioracer?
Great video, are you Czech? your accent sounds familiar
still waiting for the next video :(
I feel you
howdoes an audiophile work?😀😀😀😀😀
Now I understand how Hungarian is related to Chinese.
DONT jig the fg mouse please. This is terrible
Dude. Stop waving your mouse non-stop while you talk. I literally got dizzy when I was watching, I had to stop and just listen. Also, you didn't actually explain HOW do we get an analog signal at the output, which is why I started watching at the first place. WHY do we get a steep curve at the output when the pulse is wider??
Getting an analog signal out of a digital signal (like PWM) is provided by filtering out the sampling frequency. When we do that, all the pulse "spikes" (high or low only) will dissapear and merge into an average value. That's how PWM can reproduce an analog amplitude. On the other hand is frequency reproduction. In PWM, that is "coded" into the amount of wide pulses and narrow pulses. It's the combination between them what makes amplitude and frequency. It's difficult stuff. If you're still struggling with this stuff, read about FM, Frequency Modulation. That's the analog "sister" of PWM. Good luck!
Thanks. Indeed. His mouse pointer is too distracting.
i actually *have* add, very severely, and i still managed to tune out the cursor. man, kids these days, lol....
ya blew it
-15v !!!!😮😮😮
The mouse is so irritating that this one begs for a thumb down 👎🏻
Unwatchable. Stop waving the flippin' mouse pointer around!
Terrible instructions and visuals.
i don't understand all of this. I only have one question. How does a class D amplifier drive speakers directly?
A friend told me that a class D amp, has a very quick power supply that can switch on and off at the rate of sound. And that a microprocessor controls the switching of this power supply, and this in turn drives the speaker-drivers directly in realtime. Is this true?
not - analog is converted to digital PWM (this is important!) and after amplify this pulses converted to analog by low-pass filter (LC usualy)
Perfect!