This was a fabulous presentation. I really appreciate that you dove deep when necessary but kept us aware of the high level requirements and constraints. This would've is been great 25 years ago during my degree! Thank you!
Awesome Aaron, it's great to do the maths and also some picking ballpark numbers and fitting them and checking that the results do what we want....cheers.
In the 2nd example, I think you should not neglect the 10uF capacitor since the freq is only 10K the capacitor impedance is about 1.5 ohm. Love your video, although I had good teachers at school, I wish you were one of them.
Really enjoy the videos but feel it would be nice to drill down more on the exact calculations for the capacitors. I realize that staying above certain values guarantees the signal integrity but if looking at everything, I think it would be helpful to include them. Thanks and great job on going through multiple examples. 73...
This was a fabulous presentation. I really appreciate that you dove deep when necessary but kept us aware of the high level requirements and constraints. This would've is been great 25 years ago during my degree!
Thank you!
Awesome Aaron, it's great to do the maths and also some picking ballpark numbers and fitting them and checking that the results do what we want....cheers.
In the 2nd example, I think you should not neglect the 10uF capacitor since the freq is only 10K the capacitor impedance is about 1.5 ohm. Love your video, although I had good teachers at school, I wish you were one of them.
Really enjoy the videos but feel it would be nice to drill down more on the exact calculations for the capacitors.
I realize that staying above certain values guarantees the signal integrity but if looking at everything, I think it would be helpful to include them.
Thanks and great job on going through multiple examples.
73...
great videos
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Can you cover the efficiency and linearity aspect of these ckts as well
What if our load becomes smaller from 900 ohm's to 8 ohms
Why is BJT still focused in NUS? Shouldn't CMOS have more emphasis?
CMOS is mostly used for digital circuits. While it can be used for analogue, BJTs have a lot of advantages and are easier to design