Excellent video about WPT I really appreciate your video it really helpfull kindly pls update more new videos about WPT. you are a great teacher and I appreciate your great work.
Thanks for video, sir how i increase the inner length side in the square coil design, i design same the design but i want increase the inner length or inner gap in it.
Hello, must say this video is very detailed and great example to follow! Just wondering if anyone has any idea of how to complete a magneto static simulation, in which a magnetic field is applied to a ferro magnetic material, im look to analyse the magnetic stress distribution across a 2D plate. Any advice or videos would be extremely helpful as I am doing this for my Final University Dissertation and finding it really hard to initially set it up since I am not familiar with this. Best regards, Liam :)
Glad you liked the video, Liam! I am a bit rusty with Maxwell 3D at the moment and don't currently have access to it, so I can only provide some general advice. I believe you can apply an initial magnetic bias/excitation (at least in HFSS, don't know if it's possible in Maxwell) and define magnetic boundaries which will set up your environment correctly. The "help" documents Ansys provides are fairly thorough. You can also contact a applications engineer through the customer portal if you have access to it.
I'm confused, the video gets stuck a lot but the audio keep going. also a bit weird that the Z plane seems to be height, even tho Y is commonly used for height
Just wondering if anyone has any idea of how to complete a magneto static simulation, in which a magnetic field is applied to a ferro magnetic material, im look to analyse the magnetic stress distribution across a 2D plate. Any advice or videos would be extremely helpful as I am doing this for my Final University Dissertation and finding it really hard to initially set it up since I am not familiar with this
@@RFHertzMe Thank you... But from there a square coil can be designed with circular cross sectional area. What if I want to design a rectangular coil with starting dimension 10cm*15cm with circular cross sectional area ?
@@Amar-zfly I don't know if that's possible to do with built-in models, but you could always create a script to generate this geometry using Python or Matlab. Ultimately simulating with a square cross section shouldn't give significantly different results compared to simulating with a circular cross section, so it may not be worth the effort.
Excellent video about WPT I really appreciate your video it really helpfull kindly pls update more new videos about WPT. you are a great teacher and I appreciate your great work.
How to minimize the impact of the additional four leads which are used to connect the coils to the region in the simulation?
YOU ARE THE BEST, THANKS LORD FOR YOUR VIDEO
What's you working frequency!?
Thanks for video, sir how i increase the inner length side in the square coil design, i design same the design but i want increase the inner length or inner gap in it.
Thank you for your explanation! How much time does simulation take? Here is taking too long. :(
th-cam.com/video/Ai4m4GtDxV4/w-d-xo.html
Thanks Eric!! very helpful video
Hello,
must say this video is very detailed and great example to follow!
Just wondering if anyone has any idea of how to complete a magneto static simulation, in which a magnetic field is applied to a ferro magnetic material, im look to analyse the magnetic stress distribution across a 2D plate.
Any advice or videos would be extremely helpful as I am doing this for my Final University Dissertation and finding it really hard to initially set it up since I am not familiar with this.
Best regards,
Liam :)
Glad you liked the video, Liam! I am a bit rusty with Maxwell 3D at the moment and don't currently have access to it, so I can only provide some general advice. I believe you can apply an initial magnetic bias/excitation (at least in HFSS, don't know if it's possible in Maxwell) and define magnetic boundaries which will set up your environment correctly. The "help" documents Ansys provides are fairly thorough. You can also contact a applications engineer through the customer portal if you have access to it.
I'm confused, the video gets stuck a lot but the audio keep going.
also a bit weird that the Z plane seems to be height, even tho Y is commonly used for height
th-cam.com/video/Ai4m4GtDxV4/w-d-xo.html
Just wondering if anyone has any idea of how to complete a magneto static simulation, in which a magnetic field is applied to a ferro magnetic material, im look to analyse the magnetic stress distribution across a 2D plate.
Any advice or videos would be extremely helpful as I am doing this for my Final University Dissertation and finding it really hard to initially set it up since I am not familiar with this
th-cam.com/video/Ai4m4GtDxV4/w-d-xo.html
Running time is very high. Is it normal?
Is rmxprt ,maxwell and simplorer available in the student version ,if not ,how can a academia researcher get access to it , awesome video ,thanks 👍
It comes with ANSYS Electronics
Hi Eric ,
Can you do a tutorial on Induction Heating Simulation using planar coils like this one ?
Hi Eric.
Is there any formula to find self inductance of this coil.?
How to make the cross sectional area of the wire circular instead of rectangular ?
I want to design square coil with circular cross sectional area.
You can use the polygon helix model, PolygonSegments = 0 for circular cross-section, and set Pitch=0 to keep the coil planar.
@@RFHertzMe Thank you...
But from there a square coil can be designed with circular cross sectional area.
What if I want to design a rectangular coil with starting dimension 10cm*15cm with circular cross sectional area ?
@@Amar-zfly I don't know if that's possible to do with built-in models, but you could always create a script to generate this geometry using Python or Matlab. Ultimately simulating with a square cross section shouldn't give significantly different results compared to simulating with a circular cross section, so it may not be worth the effort.
@@RFHertzMe Thank you Sir for your kind support.
This video really helped me a lot.
Thanks again...... 🙏
What frequency is this being excited at?
This is magnetostatic so it is frequency-agnostic