Thank you for a highly useful explanation. Your insight really helps to simplify the subject matter to a point that it is far easy to understand than the explanation in my textbook. Great video.
Hello,your lecturers are really great! But can you explain what might happen if collector and base are shorted? Assuming a short in Ic due to external factors
The relationship between Ib and Ic is not necessarily linear, especially in the saturation region of a transistor. So cannot directly halve the base current to get a proportionate reduction in collector current. It's common to assume linearity for rough calculations (like Ib = 5 mA for Ic = 50 mA in your example), the actual relationship can vary depending on the transistor's characteristics and the operating region.
![[TH] 2024 PMSL SEA W1D3 | Summer | เคาะ 8 ทีมแรก ที่ไปรอวันอาทิตย์](http://i.ytimg.com/vi/eKFbDC1qe38/mqdefault.jpg)
Well Explained , thanks Sir .
Thank you very much
Thank you for a highly useful explanation. Your insight really helps to simplify the subject matter to a point that it is far easy to understand than the explanation in my textbook. Great video.
Thanks man you're the best 👍👍
Good tutorial on basic BJT behavior.
Thanks again, Bob!
Thanks your sharing. You're well explained. You're awesome.
The 👑 of electronics 👏👏👍👍
Hello,your lecturers are really great!
But can you explain what might happen if collector and base are shorted? Assuming a short in Ic due to external factors
yess, you're finally back!
Nice !
Sir, datasheet give detail about Vce (sat) = Ic.100mA , Ib 10mA , it mean Ib 5mA if Ic = 50mA ... is this correct ...
The relationship between Ib and Ic is not necessarily linear, especially in the saturation region of a transistor. So cannot directly halve the base current to get a proportionate reduction in collector current. It's common to assume linearity for rough calculations (like Ib = 5 mA for Ic = 50 mA in your example), the actual relationship can vary depending on the transistor's characteristics and the operating region.