Well I must admit you had me going for a minute. I thought we were going to see some Radio Control circuitry? But the rc circuits you explained to a tee! Another good video, thanks!
It is good circuit analysis clip. It would be better if you had shown the circuit connection when you were talking. You constantly showing the oscilloscope screen when you are connecting the circuit but not showing it.
The only way this RC circuit for me to understand is to study the mathematical physics derivations and do experiments on my own, and change the values of the components and use the oscilloscope and observe the behavior of the output from the input of square waves, triangular waves, sinusoidal waves with varying the Time Periods with the RC constants to understand fully and clearly how an INTEGATOR circuit and a DIFFERENTIATOR circuit behaves = from mathematics derivations to laboratory experiment verifications. Peace, God Bless.
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Well I must admit you had me going for a minute. I thought we were going to see some Radio Control circuitry? But the rc circuits you explained to a tee! Another good video, thanks!
Hm the first one is basically the tone knob on a guitar/bass 🤔
Aren't these the same as low and high pass filter circuits?
What is the difference?
I enjoy these videos so much. I'd subscribe again if I could! if I knew anyone interested in electronics. I'd definitely have them subbed here!
These two are famously known as Low pass and high pass filters..
It is good circuit analysis clip. It would be better if you had shown the circuit connection when you were talking. You constantly showing the oscilloscope screen when you are connecting the circuit but not showing it.
👍👍👍
The only way this RC circuit for me to understand is to study the mathematical physics derivations and do experiments on my own, and change the values of the components and use the oscilloscope and observe the behavior of the output from the input of square waves, triangular waves, sinusoidal waves with varying the Time Periods with the RC constants to understand fully and clearly how an INTEGATOR circuit and a DIFFERENTIATOR circuit behaves = from mathematics derivations to laboratory experiment verifications. Peace, God Bless.
this one i'm gonna have to watch a couple more times. you have some new stuff [to me] in this one. thanks!
Douglas Kryder Welcome
That 3-D rendered intro though
Lol, now I finally get it thanks
I have spent months researching into circuits and found a fantastic resource at Gregs Electro Blog (check it out on google)
Another good one!
Thanks great explanation!!
Understood it well. Great vid/show!
J. Clowers Thank you!
That's was cool. Very
enjoy-able .
explained very well.. thanks
great video ; thanks :) but what would happen if instead of a square wave you input a sinusoidal signal ?
What's the derivative of a sinusoidal signal?
this was great. Very thanks.
Nice explanation
As always most useful
excellent
super
sweet an electronics channel that I can understand the english thank you so much
Welcome!
Nice explanation here. Big plus seeing it on the scope for visual.
Michael Padovani Thanks, glad you liked it.
Very well put sir! Clean, concise.. Liked it
Jared Gray Thank you very much.
Nice vedio
Thank you