The timestamps for the different topics covered in the video: 1:11 What is Common Base Configuration 2:55 Input Characteristics of the Common Base Configuration 5:45 Output Characteristics of the Common Base Configuration 6:33 Three Different regions of operation (Active, Saturation, and Cut-off) 10:52 Signal Amplification in CB Configuration

Some the most valuable 15 minutes of my life

Your videos are such treasure for people wanting to learn electronics, thank you!

I was sufferd from this concept in my yesterday class . It is very helpful for me Thank you bro

You are like a gift to people like us who want to learn something. It was more productive than my engineering education. Thank you.

Transfer + Resistor = Transistor. This was my wow moment!

This will help me to get good marks in my sem exam...thanks sir😍

Best class. I have ever done! Hat's off🌻, Sir.. From Bangladesh... 🙂

all videos are just awesome unbelievable that that area vailiable in utube thank god i got it some how . thanks a lot to u carrry one for other topic also .

Wow this video waited 3 years for me.... I'm so grateful, thank you sir😍

The discussion of three connection modes are all mixed up in three videos. Looks like providing the same confusion poorly organised text books are providing. 1. The fact that base current turns on the transistor is common thing, why emphasise that in Common base case configuration? 2. Input and output impedance should be called out in all the configurations. Did you omit that in common emitter configuration, I am not sure? 3. Why common collector discuss alpha beta and gamma. Isn't that a general transistor characteristics? I mean it is good for exam. In other words why a circuit designer should consider these values is more important than jumbled mathematical relationships between them. Beta is the only useful stuff according to me. I am wrong, but your lecutre doesn't point out where I am wrong. 4. Practical help on designing a rudimentary amplifier or switch using a transistor and real available resistors would make these sessions more interesting. My englinnering lectures and labs didn't teach me that, had to learn that myself after playing with some real components and breadboard. 5. Actually the stuff is simple and should be taught in high schools without the scary charts.

May god bless you sir, you are like a hero to us

I might've missed it, but introducing the shottkey equation would help. That way, base emitter resistance can be introduced without hindrance, not to mention even that output curve.

Neso academy and this channel are surviving my life

Sir a 100 thanks for clearing the basics of transistor

Valuable information thank you so much you made it this topic easy and now i also able to explain this topic to others once again thanking you sir thank you so much

Excellent teaching than our polytechnic college faculty

Sir I found out one mistake in your video as per my knowledge. In your video you told that the output characteristics curve for common base configuration is linear but I verified from Sedra Smith that the curve is not the liner it has a small positive slope which indicates that the Ic depends upon Vcb in the active mode.

great explanation sir,i have following questions when i watched this video 1).why you don,t use output impedance in your calculations?is that not effect for output voltage and current? 2).same current flow through the circuit from input side to output side . but voltage is increasing without using any voltage source.so the power is increased .how that happened?

Crystal clear explanation👍

Increasing Vce implies that the depletion region increases, implying that less voltage would be required to forward bias Vbe. How does that make any sense? Shouldn't it have been the other way around

During the whole video you have explained using an NPN transistor. Why couldn't you use NPN while showing the amplification example at last ? Why did you have to switch to PNP ? Can you please demonstrate the amplification using an NPN transistor too ?

excellent tutorial. Thank you!

Hello Sir, I have a question for the constant Ic when Vcb increase. As what you said in common emitter transistor, as Vcb incrases, the depletion region will increase so that the effective width between base and emitter decreases. Thus, more electrons will flux into collector region. That explanation could also be applied here. Then Ic should not be constant. Instead it should also increase. But why does the current keep constant here? Thank you very much for your video!

Everything is explained so perfectly. But The Properties of Common Base Configuration are not mentioned??

Beautiful explanation 💟

Great video as usual but I think you made quite a few mistakes confusing reversed bias and forward bias.

In common base mode, what is the potential at the base? (The positive terminal of one battery is connected to the negative terminal of the other)

Excellent explaination. Thanks so much

Very nice every point is covered

Very clear consept

great video. However I have aquestion. We can see that in output, collector current is given by alpha times emitter current. I want to know why does the output voltage (Vc) not have an effect on that. I know the mathematical relation but whats the actual reason?

Very nice explanation.

Respected sir, Why we don't include output impedance while calculating output current?

sir is it supposed that when we increased VCB then we make the junction between base and collector more reversed then the collector current reduced not to be constant ?

Minority charge carriers are responsible for current if the diode is connected in reverse bias is that mean minority charge carriers in both p side and n side??plz answer...

Don't forget to see the description, there is a short note, which is very helpful❤

I didnt get why on reducing effective base width, less VBE is required, why will the curve shift to left?

I have a dought sir, what is the difference between Vbb, Vee and Veb when the base is common. And the volatege is always apllied between base and emitter then why three different notations are used

I have a doubt, why in output characteristics we consider Current of Collector, since current is going inside the transistor so shudnt it be input characteristics? Or do we consider the direction of electron?

@ 5:01 You mentioned the Input impedance [is the slope of the curve; i.e TanX. But here, TanX=Per/Base= Ie/Vbe; which doesn't seem to be the Impedance from the curve. Please correct it.

Thank you for this video

I want to thank you again. How did the high output resistance help this circuit? As the output voltage was dependent on load resistant. I figured from the output characteristics, that the high o/p resistance is helping for a current mirror as the current does not change much but does it help for voltage amplification purpose?

At 4:55 , u said input impedance as slope of the graph... And we all know slope is always defined as change in y divided by change in x....but then u define Ri= change in Vbe / change in Ie.. Can you explain?

Thanks for this video!

Its really a good video ,but I have one doubt , voltage gain is actually based on load resistance, which we can change according to our convenience than why its rage is fixed?

I have one doubt in my mind ..if collector Base junction is in reverse bias then why electrons from emitter move from reverse bias depletion region ? Why dont electron pushed back to emitter by repeltion of negative ions of P-region of base?Is there breakdown occur at reverse bias depletion region? Please answar and clear my doubt

Why electrons didn't cross the collector base junction while operating in saturation regions

Thank you so much!!

I have a doubt, you have written in properties of CB that it has low power gain, but if current gain is 1 then power gain is same as the voltage gain and so it is high. Right?

great explanation thank u

How is the voltage from the Base to Emitter considered to forward biased for both the PNP and NPN when they are on? Is this not a mistake? If you're talking about Vbe in both cases then they both can not be considered forward biased. The only way it makes sense is if in regards to the PNP you are saying Veb is forward biased. But why do it like that?

Thanksssss time saveddd❤❤♥♥🔥

Nice video Keep going on

Thank you so much sir ❤🙏👍

Shouldn't we consider biasing in this circuit ? Excellent explanation though.

Sir Aap bohathi achhi video banatehe

What happens to collector current if base current increases tell the reason plz...

How can the base terminal of a transistor be both positive and negative at the same time in a common base configuration?

could you mak e a video about solving sample problems in three BJT configuration the CB,CE,CC...plsss

Sir may I know best and simple reference book for BASIC ELECTRONICS ...VTU BOARD

Great video

Thank you sir 🌟

4:32 “decrease”.

Thank you

The output characteristic. How does a output current Ic flow when it's reverse bias

Well done

Bro i reffered some books too, in that output is taken at VCB and in some it is taken at resistor Rl which one is right please clear this bro......

Very well explained.. keep it up

Sir at 11:06 you have taken pnp transistor but earlier you took NPS transistor it’s a bit confusing .

At 12:04, why suddenly the current directions have reversed when compared to what u had been showing in first 12 minutes of the video?

Sir if I have any doubt , how can I ask you live in digital mode...plz let me know...

If collector base junction width is increased then base current will decrease and collector current increases but i dont understand why emitter current increased if the collector base juction width is increased?

Very good 👌

At 6.17 you explain input and output characteristics...while explaining input characteristics u kept output voltage constant while output characteristics u put input current constant why such so?

Thank you sir 💜🙏😇

sir u have shown symbol for pnp transistor in video, but you are refering to npn so which is right?

Timestap: 11:02 dc biasing vokrages are not shown means... Both ac abd dc were applied simultabeously.. Kindly clear.. M from electrical background

13:18 but how it possible that we give low potential and we get high potential energy conservation is valid here?

Thanx and very helpful

You are a thop sir

I didn't waste my 15 mins 🙏

Well explained .. tqs sir

Wonderful vedio....it was very helpful ..want some vedio on physical electronics and semiconductor theory

input current, how it is decided whether we take the conventional direction or the direction of electron?

sir common base output characteristics is wrong sir, you have shown the output characteristics of common emitter

Why in analog electronics playlist videos are not showing correct serially? 😑

y in active region, Vcb didn't affect Ie, but at input characteristic there Vcb increase, Ie also will increase?!!!!!can someone explain to me, urgent!!!

I amplifier we amplify voltage or current ? Please answer

the width of the depletion region will increase but the base will get narrower, aren't you contradicting yourself?

Can you post videos for heat engine in thermodynamics

Par aap hindi languagemedium video banaoge to bohathi achha rahega

13.00 why we are not using r output .why we are using rl ?? .Please explain

Tell me the applications of cb configuration

The Ro || RL is neglecting and assuming the parallel is almost 1K, right? 13:16

4:32 why if depletion region is wider then base is narrower??

Well explained! There are three cows tho 🐄

is this also for engineering student?

very well explained

So nice