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Hi Salman. Apologies for getting back so late. If you use Miller's Theorem, you have to understand that the assumption is that no current flows into the input of the amplifier. Obviously that's not the case here as I_B (for biasing) and i_B (from the signal), are not zero amps. So the derived expression via Miller's Theorem will not be the same as per my derivation, as I do not assume zero amp input current. Hope that helps. 😊
Instead of using Miller's Theorem, the analysis here is based off Ohm's law, KVL, KCL, etc. Any specific part of the derivation that you're not clear about?
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Good explanation sir
Thx Shyam! If you and your friends have any other videos that would be of use to you guys, please list them here; will do if I see value for my students and everyone else like yourself.
Sir cam you do also a video on collector feedback re model with emitter resistance
Hi, What is the maximum input voltage for this grounded emitter amplifier?
Nice sir
Thx Sohail! 😊
If i apply miller theorem, the ans will be wrong or right?
Hi Salman. Apologies for getting back so late.
If you use Miller's Theorem, you have to understand that the assumption is that no current flows into the input of the amplifier. Obviously that's not the case here as I_B (for biasing) and i_B (from the signal), are not zero amps.
So the derived expression via Miller's Theorem will not be the same as per my derivation, as I do not assume zero amp input current.
Hope that helps. 😊
THE WAY I LEARNED THIS IS BY APPLYING MILLERS THEROM.I AM NOT CLEAR ON SOME OF THE ALGEBRA YOU DID.
Instead of using Miller's Theorem, the analysis here is based off Ohm's law, KVL, KCL, etc. Any specific part of the derivation that you're not clear about?