What is Driving Point Impedance and Transfer Function in the Electrical Circuit? | Network Analysis
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- Опубліковано 12 лип 2024
- In this video, What is the Driving Point Impedance and the Transfer Function of the Electrical network is explained. And for the given electrical network, how to find the Driving Point Impedance and Transfer Function is explained through solved examples.
The following topics are covered in the video:
0:00 What is Driving Point Impedance?
4:21 Example 1
7:02 Example 2
9:55 What is the Transfer Function?
15:33 Example 3
21:44 Example 4
For other useful videos related to Circuit Analysis using Laplace Transform, check this playlist:
• Circuit Analysis using...
Two-port network (Playlist):
• Two-Port Network
Driving Point Impedance:
The driving point is the two terminals of the network, across which the energy source is connected. The impedance seen through this driving point is known as the driving point impedance. Basically, it is the input impedance of the network seen through the specific port.
Transfer Function:
The driving point impedance relates the voltage and current of the same port, while the Transfer function relates the voltage or current of the two different ports. The Transfer Function relates the voltage or current of the output port with the voltage and current of the input port.
On both the input and output side, since there are two variables (voltage and current), so there are total 4 different types of Transfer functions.
1) Voltage Transfer Function (Vo/ Vi)
2) Current Transfer Function (Io / Ii)
3) Transfer Impedance (Vo / Ii)
3) Transfer Admittance (Io / Vi)
In this video, through different solved examples, how to find the Driving Point Impedance and Transfer Function of the network is explained.
This video will be helpful to all the students of science and engineering in understanding what is Driving Point Impedance, and what the Transfer Function of the Electrical Network?
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#networkanalysis
#TransferFunction
#DrivingpointImpedance
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The Link for the other useful videos related to Network Analysis/ Network Theory:
1) Circuit Analysis using the Laplace Transform:
bit.ly/3QpOgax
2) Two-Port Network (Playlist):
bit.ly/3u7jr1J
You guys are so smart but so hard to understand (for my old ears) the closed captioning helps. Thanks
Very very informative and nice 👍👍
keep on making such videos bro you are the last hope
Superb explanation sir
thanks sir it helped a lot.
Please upload relations between parameters in 2port networks
Sir upload this video lacture pdf sir
Bro is appyling Wrong KCL
Where in the video you feel it is wrong. Please mention the timestamp.
@@ALLABOUTELECTRONICS you applied KVL, i believe he is referring to the 2nd last example