Always so great to see the derivation of equations. Especially for physics and electronics. So many professors simply refer you to the textbook. T.O.C.T even uses diagrams to help illustrate! So nice!
Transistors are useful and interesting devices. In my long years of handling transistors, since 1956, I have always been aware that the input impedance of a transistor is not symmetrical, in that for hard driven common emitter NPN transistor the input impedance is very low for a positive going signala, while it goes higher for a negatively going signal, Obviously this distorts the signal, This is an interesting feature of transistor and for the input impedance to to be regarded as being constant one must operate the transistor over small signal conditions or make it symmetrical by external circuitry using additional diodes. It is because of this that some oscillators as the super regenerative oscillator can quench itself with an RC circuit in either the base or the emitter. Back in 1960 the germanium did not have such a high output impedance and in those days I found out the reverse breakdown voltage of the emitter base junction which was about 14 volts for germanium and about 7 volts for silicon. which was limiting my bistable oscillators. I should have published that when I became conscious of it back in 1957. All my burnt transistors at the collector were used at base emitter, either as normal diodes or zener diodes, Yes, we were poor back then!. The Input impedance of the common collector is said to be high, but again when one looks deep into the asymmetry of the emitter base junction, the situation turns out to be a little more complex if one goes deep into the details. The darlington pair is very asymmetrical when it comes to its imput impedance, Congratulations for this set of videos it took me back to 1954 and a little earlier when I started using them early glass encapsulated one which had a thermal runway and one needed to be careful, Thank you for uploading this video and the others,
Really like you video's. Thank you very much for that. But did get some new questions. What if I have a resistor like 1K in the collective collector? Or each collector has a different resistor? it limits the current for both. What if I want to limit the hfe to a certain max hfe or limit the current at the emitter of Q2? Can you make a video of that?
Damn at this point I'd believe you have every topic imaginable in your channel
Always so great to see the derivation of equations. Especially for physics and electronics. So many professors simply refer you to the textbook. T.O.C.T even uses diagrams to help illustrate! So nice!
Because of you I have 10/10 on a test. Thanks a lot man I wish you were my teacher at school.
This man really helps me a lot. Thank you so much.
Very easy after explained...
Bruh... I had to watch this like 3 times. But I think you might have just saved my electronics assignment
How’d your assignment turn out?
I enjoy watching your videos , thank you for offering such quality teaching
Thanks for making easy yet in-depth tutorial video!
Transistors are useful and interesting devices. In my long years of handling transistors, since 1956, I have always been aware that the input impedance of a transistor is not symmetrical, in that for hard driven common emitter NPN transistor the input impedance is very low for a positive going signala, while it goes higher for a negatively going signal, Obviously this distorts the signal, This is an interesting feature of transistor and for the input impedance to to be regarded as being constant one must operate the transistor over small signal conditions or make it symmetrical by external circuitry using additional diodes. It is because of this that some oscillators as the super regenerative oscillator can quench itself with an RC circuit in either the base or the emitter. Back in 1960 the germanium did not have such a high output impedance and in those days I found out the reverse breakdown voltage of the emitter base junction which was about 14 volts for germanium and about 7 volts for silicon. which was limiting my bistable oscillators. I should have published that when I became conscious of it back in 1957. All my burnt transistors at the collector were used at base emitter, either as normal diodes or zener diodes, Yes, we were poor back then!. The Input impedance of the common collector is said to be high, but again when one looks deep into the asymmetry of the emitter base junction, the situation turns out to be a little more complex if one goes deep into the details. The darlington pair is very asymmetrical when it comes to its imput impedance,
Congratulations for this set of videos it took me back to 1954 and a little earlier when I started using them early glass encapsulated one which had a thermal runway and one needed to be careful, Thank you for uploading this video and the others,
This guy can be a professional teacher
this is superb tomorrow is my exam so thanks
Yeo whoever you are you helped me with my math during corona
i have a video request, it might sound weird but its teaching shop/trade math for specific trades like welders, plumbers, electricians, etc
Enjoyable video. Great explanation
Thank you for this! Its very informative!
thank you so much, I think this will be the next topic of sir Alguidano
Hello watch this to share concept of math ua-cam.com/video/7kmn5PYSf9s/v-deo.html
Great vid bro!
😁Your explain very well
Farmington pair? More like “You’re the darling of free, highly-educational content on UA-cam.” Keep up the great work!
Thank you very much ❄️
I have a problem.
B net = B1 × B2 ?
Please help me.
what do u exactly teach? or what did u study in specific cuz i find videos of u for alot of subjects
He's god.
From his channel name, I assume he is a chemical engineer or chemist.
Well explained Sir
Welcome back.
Really like you video's. Thank you very much for that. But did get some new questions.
What if I have a resistor like 1K in the collective collector?
Or each collector has a different resistor? it limits the current for both.
What if I want to limit the hfe to a certain max hfe or limit the current at the emitter of Q2?
Can you make a video of that?
What happens if you add two or more darlington's say 4 darlington's what will total gain be
I saw this in Amplifier outputs
Great!
shukran
Sir tells us how you create your lecture...what tools and software you are using....make a video on it...
sir can we connect 3 or more transistor
Can you do a full review on cos, sin and tan again. Got a test coming up and don’t remember any of this stuff
@Flame Star, there already is a video on sine, cosine, and tangent, just check out the geometry playlist.
Hello use the link ua-cam.com/video/7kmn5PYSf9s/v-deo.html to view concept you need
Here the video click ua-cam.com/video/iR7UqzYmIJQ/v-deo.html to view concept of sine,cosine and tangent
How did your test go?
Thank u
Nice .
What is the supply voltage for the amplification factor of 20300?
Please examplain positive and negative
Can you make stickers, I want a JG sticker for my laptop, please!
is it Ie = 204,02 mA?
What app do you use in your videos??
Help me with discrete maths partial ordering and equivalence class
I just clicked the video
I have no idea what is this
I am in high school
This is high school physics
@@soumikkarmakar553 what grade
@@soumikkarmakar553 in what country?
@@peterwoo2489 India, Nepal, not sure but guess Pakistan and Bangladesh too. Edit- Welp, this is actually of senior secondary grade.
@@me.unpredictable280 this is electronics II we study this in college (with resistors, capacitors and transformers in it so a bit more complicated)
👏👏👏
Was low-key hoping this woulda been an April fool's day video or something
😇😇😇👍👍👍🙏🙏🙏 THANKS !!!!!!