Inductance calculation of a 3D shape

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MRR
MRR on 30 May 2022
Commented: Sam Chak on 30 May 2022
Hi,
Is it possible to estimate the inductance coil of a 3D shaped coil? i.e, imagine a loop wire that runs along some of the edges of a cube doing several turns. I could not find any reference regarding this. I am trying to build different shape antennas for RFID low frequency devices (inductive coupling).
The only reference I have found is this:
https://es.mathworks.com/help/rfpcb/ref/inductance.html
In addition, I found this but the shapes are only planar (spiral, circular, square...)
https://ww1.microchip.com/downloads/en/AppNotes/00710c.pdf
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MRR
MRR on 30 May 2022
Hi @Sam Chak,
Thank you for your answer. Actually in the reference I posted the spiralInductor() function is used. I cannot create any 3D inductor, only square, circle, hexagon, or octagon planar geometries.
Sam Chak
Sam Chak on 30 May 2022
Hi @MRR
Thanks for your reply. I'm not familiar with the geometry of this 3D Inductor. Perhaps there is a way you can improvise from this l = inductance(object,frequency). What would happen to the Inductance if you stack up the spiralInductor of the same shape?
Can you find out from your physical experiments or E&E textbooks?
I'm visualizing the possibility of this:
l1 = inductance(inductor1, frequency);
l2 = inductance(inductor2, frequency);
l3 = inductance(inductor3, frequency);
l4 = inductance(inductor4, frequency);
Total_L = function(l1, l2, l3, l4)

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