Wow! So many thing begin to make sense now. You are a really good teacher. All this information I have read many times on the internet, but you are the first one who makes it so these things come well organized and can be digested. I hope you will do more video of transistor application in audio and, perhaps, synthesizers and other musical devices.
"In practice, diode biasing is easily accomplished in modern day integrated circuit amplifiers as both the diode and switching transistor are fabricated onto the same chip, such as in the popular LM386 audio power amplifier IC. This means that they both have identical characteristics curves over a wide temperature change providing thermal stabilisation of the quiescent current." was taken verbatim from electronic-tutorials for class AB amplifier. I knew I recognised it
thanks . these are excellent videos and descriptions. I have simulated your examples and now I fully understand the operations and how the resistor biassing wrks. very helpful and thankyou for producing the videos
You made a great video with a great explanation but I was trying to follow the flows but you were really making me dizzy with your mouse. A little overboard with that but thanks
Since the part symbol will change its color while your mouse cursor positioned on it. Try not to move the mouse cursor so often, then this video can be better.
Wow! So many thing begin to make sense now. You are a really good teacher. All this information I have read many times on the internet, but you are the first one who makes it so these things come well organized and can be digested. I hope you will do more video of transistor application in audio and, perhaps, synthesizers and other musical devices.
Thank you so much for the great video!!😄😄😄
"In practice, diode biasing is easily accomplished in modern day integrated circuit amplifiers as both the diode and switching transistor are fabricated onto the same chip, such as in the popular LM386 audio power amplifier IC. This means that they both have identical characteristics curves over a wide temperature change providing thermal stabilisation of the quiescent current." was taken verbatim from electronic-tutorials for class AB amplifier. I knew I recognised it
thanks man, after hours of search in youtube & google this is the most smooth & detailed explanation that I've seen....Well done 💯
What software did you use to view the current & voltage flow of the graph? I coudl really use this when designing to be able to simulate better
Circuit js
You can find it online too
thanks . these are excellent videos and descriptions. I have simulated your examples and now I fully understand the operations and how the resistor biassing wrks. very helpful and thankyou for producing the videos
This was an awesome explanation man!
Hi, this is very good thanks.pls explain about video amplifier
Please stay chill with that mouse pointer!
Can you link the Udemy Course please?
Cool. Tanks one of the best video. Put í haf problem. The resistors ar warming ang get hott. Like reayly hot. . What am I doing rong?
what's this software called.
What is the name of this software?
Why out put sounds not loud?
This was insightful! thank you very much great video. ✌️🤗
Mxm I paid for this udemy course…. Turns out it’s here for free
it was perfect and helpful thanks alot
Great video!!
You made a great video with a great explanation but I was trying to follow the flows but you were really making me dizzy with your mouse. A little overboard with that but thanks
So, just to clarify, the current is controlled by continually moving the mouse pointer in circles.🤪😵💫
Since the part symbol will change its color while your mouse cursor positioned on it. Try not to move the mouse cursor so often, then this video can be better.
Gr8 vd
Ab is the best of all to forget all the other shit completely
Gobar ganesh
Zirkwit
Nice video, but please stop moving around all the time, it gets me sick :-D !