I heartly feel very happy,my happiness cannot be represented in words, because I am studying btech1st year,ece,my lecturers are not teach well,they only tells the topic names, they don't give a clear information on it, then at that time I feel very sad, and demotivated, after seeing ur video,I really feel happy, thanks a lot to this channel,I heartly hope God to provide a large number of subscribers to our channel,❤️❤️❤️🙏
Well ideally there is no independent current source. Whichever available in the market are derived with the help of the other circuits. But when such sources are directly used in some other circuits, then they can be considered as the independent current sources, because their behaviour does not depend on the new circuit parameters. In other way, it's value does not depend on the voltage or current across any element in the new circuit. I hope it will clear your doubt.
Sir, Electrical energy source is initially of two types: I) Direct Source ii) Alternating Source Then after Direct source is classified as Independent and Dependent Source na!! Pls clear my doubt 🙂
Sir, can we use the concept of source transformation for dependent sources or, is there any limitation in using source transformation theorem with dependent sources.
The answer is yes. A dependent source is simply one whose current or voltage is not a constant, but a function of some input parameter x. So in the source transformation algebra, you simply regard the quantities V and I not as constants but as V(x) and I(x); in other words V(x)=I(x)R and I(x)=V(x)R.
Please go through the network analysis playlist. You will get it. Here is the link: th-cam.com/play/PLwjK_iyK4LLBN9RIDQfl9YB4caBYyD_uo.html&si=SKk6nUXrreOV_H1e
The current source does not exist but it can be designed using the transistors and op-amps. And many ICs are also available which provides a constant current.
Ideal source is one type of independent source. The independent source can be ideal or non ideal. All practical sources are non ideal. For more info, you can check the video ideal vs practical source. Here is the link : th-cam.com/video/TRzpqHwb-5Y/w-d-xo.html
Let's say, you want to control the load current in a particular circuit. And if you able to do that by changing the voltage at some other node. e.g MOSFET. In MOSFET, the output current (Drain current) is the function of the voltage applied between the gate and source. So, just by changing the gate voltage, it is possible to control the current. And if the load connected to the MOSFET then in a way it is possible to control the current through the load. I hope it will clear your doubt.
Awesome but where current controlled current source that place you made sapling mistake so just make it correct thanks for this beautiful video I really appreciate.....have a nice life
Many times in the actual design or during the analysis of the circuit, we come across these sources. For example, just take the case of aBJT or MOSFET amplifier. It is biased with independent DC sources. And sometimes the same BJT or MOSFET, is used as current source (It is the dependent current source) in some other circuit. So, to simplify the analysis, it is represented by the dependent source during the analysis. I hope it will clear your doubt.
time stamp 3.02 instead of current controlled current source, you have mentioned current controlled voltage source, ( 3rd square ), you have already mentioned current controlled voltage source in 1 st square. please correct. also make the diamond shape square clear,
They have been already covered. Many problems are covered. Please check the network analysis playlist. You can also visit the second channel, which is dedicated for solved problems. ( ALL ABOUT ELECTRONICS - QUIZ)
In the voltage controlled voltage source, the controlling voltage controls the output voltage. And op-amp is the perfect example of that. Whenever the op-amp is used either in inverting or non-inverting configuration, then the output voltage is Vo = A x Vin So, if you see, the output is directly proportional to input voltage. If you change the input, then for the given fixed gain, the output will change. For more info, you can check the entire playlist on op-amp. Here is the link: th-cam.com/video/kiiA6WTCQn0/w-d-xo.html
Inverting and non-inverting are the two configurations of the op-amp. In the inverting configuration, the output will be 180 degrees out of phase with the input signal. (i.e Vo = -Ax Vin) In the non-inverting configuration, it will be in phase with the input signal. (i.e Vo = Ax Vin) For more detail, please check the videos on inverting and non-inverting configuration of the op-amp.
@@ALLABOUTELECTRONICS I know sir, there are 2 configuration s. One inverting and other in non inverting. But in the vcvs , you have given inverting sign in both input terminals.
@@startexploring66 No, that is by mistake. The lower terminal should be positive, and the upper terminal should be positive. Basically, it's inverting configuration.
mujhe ye concept clear ni horaha can you understand me individually. ...plz...its irritating me too much....when i trying to learn this topic i have generally confused...plz...help....
Who else is watching before mid-sem or university exam? Great explanation, thank you. :)
just a day before mids
a bit of a headache to get the accent but good
I did. I failed.
3 hours before exam
me 😂
One correction at 3:00
3rd box should be Current controlled Current source (CCCS)
yea i was thinking the same thing
Thats what i was going to say... thanks!
That’s why to say as should watch full videos always😂, that mistake he did correction finally
I heartly feel very happy,my happiness cannot be represented in words, because I am studying btech1st year,ece,my lecturers are not teach well,they only tells the topic names, they don't give a clear information on it, then at that time I feel very sad, and demotivated, after seeing ur video,I really feel happy, thanks a lot to this channel,I heartly hope God to provide a large number of subscribers to our channel,❤️❤️❤️🙏
I think u mistake you wrote two times VCCS
Where is the current controlled current source plzz help ...
I m write or wrong I m confused
U right
Yeah that's why m in comment section 👍
100% right
@@ArchanaKumari-pc3st same i wanted to check if anyone said anything yet
Me to confused
At 2:58 a small mistake, VCCS
Great job on the video. Thanks for the simple explanation!
Thank you very much. You are a genius. 👍👍🔝🔝
A very great explanation for beginners
What is the practical device for independent current source?
I'm not finding this anywhere.
0:58
Well ideally there is no independent current source. Whichever available in the market are derived with the help of the other circuits. But when such sources are directly used in some other circuits, then they can be considered as the independent current sources, because their behaviour does not depend on the new circuit parameters. In other way, it's value does not depend on the voltage or current across any element in the new circuit. I hope it will clear your doubt.
@@ALLABOUTELECTRONICS
Thanks
I'm amazed by the fact that u clear my doubt within a day!!
U are really doing very good work
TH-cam should keep a button to put Infinity of Thumbs up!
sir please upload separate videos for ccvs,vcvs,cccs
Waah Bhai 👍
I really Appreciate your effort ,great explaining brother
sir plz tell what is actually meant by current source???
please explain the diagrams you have drawn for CCCS
You explanation is very good
Nice explanation 👍👍👍👍👍 Keep it up
Sir, Electrical energy source is initially of two types: I) Direct Source ii) Alternating Source
Then after Direct source is classified as Independent and Dependent Source na!!
Pls clear my doubt 🙂
Thanks for this very informative video.
3:02 small mistake sir
Sir, can we use the concept of source transformation for dependent sources or, is there any limitation in using source transformation theorem with dependent sources.
Yes, it can be used for the dependent sources.
The answer is yes. A dependent source is simply one whose current or voltage is not a constant, but a function of some input parameter x. So in the source transformation algebra, you simply regard the quantities V and I not as constants but as V(x) and I(x); in other words V(x)=I(x)R and I(x)=V(x)R.
Thanks. It's helpful for learning.
Happy Teachers day sir and Best video sir
3:00 there is a mistake. 1st & 3rd one are same.
Excellent Explanation Sir
Best video for clearing the doubt about dependent sources!!
Thanks!! ❤️
Thank you so much sir! Very helpful video!
thanks brother for making this video
Thank you bro... nice explanation
Thank you bro for nice explanation
thank you so much, you helped me so well
thank you for this very good explanation
Thank you 😊
how does the circuits of dependent sources works? its not connected and i couldnt understand how does it works at all.
Please go through the network analysis playlist. You will get it.
Here is the link: th-cam.com/play/PLwjK_iyK4LLBN9RIDQfl9YB4caBYyD_uo.html&si=SKk6nUXrreOV_H1e
Very nice video 👌
thank u sir you are great
sir kya current source practically exist karta h . plz rply....
The current source does not exist but it can be designed using the transistors and op-amps. And many ICs are also available which provides a constant current.
Nice explanation sir
Tq u
while different types of dependent source you have written 2 times current controlled voltage source
Yes,that was just by mistake. But I hope you understood 4 different types of controlled sources.
Are independent and ideal source are same?
Ideal source is one type of independent source. The independent source can be ideal or non ideal. All practical sources are non ideal. For more info, you can check the video ideal vs practical source.
Here is the link : th-cam.com/video/TRzpqHwb-5Y/w-d-xo.html
There are mistakes in 2:59 flowchart
I think ,plz do check
Yes, instead of the current-controlled current source, the current-controlled voltage source is written by mistake.
Thank you sir
Hello! What is the function of a dependent source in a circuit?
Let's say, you want to control the load current in a particular circuit. And if you able to do that by changing the voltage at some other node. e.g MOSFET. In MOSFET, the output current (Drain current) is the function of the voltage applied between the gate and source.
So, just by changing the gate voltage, it is possible to control the current. And if the load connected to the MOSFET then in a way it is possible to control the current through the load.
I hope it will clear your doubt.
you missed the CCCS in dependent but rest is perfect
Yes u make spelling mistake its current controlled current source CCCS
Me:What ? Say again please
Indian Proff :Cırrınt Cıntrıl Cırnt Cırcıt ...
😅😅
Thanks for the video sir better than any professors at college
Why can we ignore the current generated by a voltage source if there is a current source?
I didn’t get your question. Would you please elaborate it, or mention the timestamp where you are referring in the video?
@@ALLABOUTELECTRONICS
I'm asking generally actually
good explanation👍
Great job boss
Awesome but where current controlled current source that place you made sapling mistake so just make it correct thanks for this beautiful video I really appreciate.....have a nice life
You also did a sapling mistake in sapling of 'sapling' 😂😂😂
###9 i satisfy sir👌explanation......... Need more
Thank you!!
What is the use of independent or dependent sources
Many times in the actual design or during the analysis of the circuit, we come across these sources. For example, just take the case of aBJT or MOSFET amplifier. It is biased with independent DC sources. And sometimes the same BJT or MOSFET, is used as current source (It is the dependent current source) in some other circuit. So, to simplify the analysis, it is represented by the dependent source during the analysis. I hope it will clear your doubt.
nicely explained
nice video sir,
time stamp 3.02 instead of current controlled current source, you have mentioned current controlled voltage source, ( 3rd square ), you have already mentioned current controlled voltage source in 1 st square. please correct. also make the diamond shape square clear,
sir where do we use independent sources and what are its applications
DC power supply or simple battery is an example of an independent source. And in fact, it is used in all electronic circuits.
very nice explaination
Do some problems based on Dependent source
They have been already covered. Many problems are covered. Please check the network analysis playlist. You can also visit the second channel, which is dedicated for solved problems. ( ALL ABOUT ELECTRONICS - QUIZ)
Thank u sir
Sir I have one doubt's
Thanks
Can you give notes for this?
Dependent source is only represented by diamond sign
very gud
Thank you!
Super sir... Thanks
thank u so muchhhhh
thanks alot but i didnt catch up with the circuits u draw i mean its better if u explain them and talk about their elements
Good
please slow up a little bit, why are you going so fast?
Change playback speed 🚅
I couldn't understand the example of voltage controlled voltage source.
In the voltage controlled voltage source, the controlling voltage controls the output voltage.
And op-amp is the perfect example of that.
Whenever the op-amp is used either in inverting or non-inverting configuration, then the output voltage is Vo = A x Vin
So, if you see, the output is directly proportional to input voltage.
If you change the input, then for the given fixed gain, the output will change.
For more info, you can check the entire playlist on op-amp.
Here is the link:
th-cam.com/video/kiiA6WTCQn0/w-d-xo.html
@@ALLABOUTELECTRONICS
Means both terminal of the opam will be either inverting or non inverting ?
Inverting and non-inverting are the two configurations of the op-amp. In the inverting configuration, the output will be 180 degrees out of phase with the input signal. (i.e Vo = -Ax Vin)
In the non-inverting configuration, it will be in phase with the input signal. (i.e Vo = Ax Vin)
For more detail, please check the videos on inverting and non-inverting configuration of the op-amp.
@@ALLABOUTELECTRONICS
I know sir, there are 2 configuration s. One inverting and other in non inverting. But in the vcvs , you have given inverting sign in both input terminals.
@@startexploring66 No, that is by mistake. The lower terminal should be positive, and the upper terminal should be positive. Basically, it's inverting configuration.
Sir please make videos on signals and systems
Thanks a lot
One mistake is there that you have repeated current controlled voltage source 2 times that might be voltage controlled current source
Yes, that's true.
Bro there is an error in that video....
Plz change VCCS to CCCs
mujhe ye concept clear ni horaha can you understand me individually. ...plz...its irritating me too much....when i trying to learn this topic i have generally confused...plz...help....
May I know exactly, what you are not able to understand?
Plzzzz Add more and more complicated circuit problems
Please check the Quiz section. (The community Post or the community tab of the channel). Every alternate day the new quiz is posted there.
Who else watching this one before internals 😅
Bhai saahb kal mera semester exam hai aur abhi start kiya hun electrical padhna
thanks bro
fantastic
mistake at 3:00
superb
i cant understand the VCVS PART
IS IT INVERTING OR NON INVERTING???????
Awesome thank you s much fantastic
Nice
Subtitles overlapping the diagrams so pliz improves it next time
Thank you
Nice from DHRUV
Sir, video is very fast in processs
plz slow down ur speed
Decrease speed of the vid
the third bkock should be current controlled current source
3rd one is cccs
Tq
Bro please stop the subtitles .we can't see below the subtitles
You can manually turn off in the video setting.
third block is wrong
bhai mistke kia tune
Video Hindi me banate to Maja aa jata
Yah fucking great
Brother sorry but you are talking too fast, a learner can not follow you
dont you know how to use the pause and play button
you can slow down the video using the setting button