01:25 - Review and Intro 08:10 - Intuitive Large-Signal Study of Bipolar Differential Pair 15:58 - Deriving Equations for Collector Currents and Output Voltage Signals 36:26 - Finding Slope of Input-output Characteristic 41:13 - Example: What happens to the input-output characteristic when the tail current or the load resistance is doubled? 45:25 - Example: What happens when the ambient temperature drops considerably?
Mathematical question: How do we know there is one solution to the values of Veb1 and Veb2 with non-zero input differential signal? And more importantly, can we conclude that their deviation from equilibrium condition are opposite and equal? (i presume not)
01:25 - Review and Intro
08:10 - Intuitive Large-Signal Study of Bipolar Differential Pair
15:58 - Deriving Equations for Collector Currents and Output Voltage Signals
36:26 - Finding Slope of Input-output Characteristic
41:13 - Example: What happens to the input-output characteristic when the tail current or the load resistance is doubled?
45:25 - Example: What happens when the ambient temperature drops considerably?
I wish sedra/smith also has lectures like this.
razavi sir book on microelectronics is far better and also saves a lot of time
perfect explanation thank you sir you are a blessing for electronics engineer students
Very clear explanation and analysis. Thanks
thank you so much ,,,,, it would be fantastic every author ,makes videos instead of writing big books
no dislikes,,,, its the value of the content
Waiting eagerly for circuit theory I & II and the rest of the series.
Sir, please bring some lectures of Advanced Electronics, if possible.
nice explanation
Mathematical question: How do we know there is one solution to the values of Veb1 and Veb2 with non-zero input differential signal? And more importantly, can we conclude that their deviation from equilibrium condition are opposite and equal? (i presume not)
Thank You
Thanks
When I tried to derive Vx-Vy by myself , I got the equation Vx-Vy = -Rc IEE tanh(Vin1-Vin2/VT) . Now I still don't know where I went wrong. :(
checked!
My poor brain...
gg
Very clear explanation and analysis. Thanks