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Found 6 results

  1. Hi, I have come to learn that, in Flux 3D simulation results vary drastically with change in infinite box size. This, I think may be due to change in mesh. Are there any guidelines in terms of what an ideal mesh setting should be and/or what an ideal infinite box size should be for a typical 3D simulation? In my models, I have been using 'Mesh Domain' option to mesh the geometry. Please advise. Best Regards Balaji
  2. hello, i have previously interfaced flux with matlab in my older pc. i had to replace it and i am working on my new pc. but now i am facing with some errors regarding license. please help. thank you
  3. I AM TRYING TO BUILD A 3D MODEL FOR THE INDUCTION HEATING SETUP USING MODELLER. WHEN I AM TRYING TO SEE ANY DEFECTS ARE THERE A WARING IS POPPING UP AS FOLLOWS. IS THERE A SIMPLER WAY TO APPROACH THIS GEOMETRY AS I AM USING STUDENT EDITION I CANNOT IMPORT ANY .dxf FILES
  4. Hello, I am working on induction heating cookers. I need to model the coil using litz. so is there a example or documentation that i can use to make the coil. I am attaching the coil type that i have to model. thank you
  5. Hello, I am doing the "SPM_Motor_Flux_3D.pdf" tutorial, and in page 15 there is a file named "Create_NonMesh_Coils_SPM.py" that I have to Run. I can not find it in my PC. Could you please tell me the exact directory where I can get it?, or much better, if you could send it to me I would appreciate it. (and let me know if I need another file to finish the tutorial) Thank you in advance.
  6. Dear all, I would like to implement a macro for the separate calculation of the different torque components (cogging torque, reluctance torque and interaction torque) in 3D simulation of motors using the Frozen Permeability Method. I already derived the Frozen Permeability method for the 3D case from the existing 2D macro. I found a suitable method in Baserrah, S. Theoretical and Experimental Investigations of a Permanent Magnet Excited Transverse Flux Machine with a Segmented Stator for In-Wheel Motor Applications. Dissertation, Universität Bremen, Bremen, 2014. (page 238). In the first step I would like to calculate the cogging torque using the stored magnetic energy (the Frozen Permeability Method is not yet required for this). With the help of a sensor I can determine the stored magnetic energy. Since I take advantage of the symmetry and periodicity of the motor and simulate only a part of it, I have to multiply the result by a factor. The derivation according to the rotor angle roughly gives the course of the cogging torque, but with strong fluctuations compared to the calculation via 'TorqueElecMag(ROTOR)' (see image below). Does anyone have any idea what may be the cause of this deviation? I have concerns about using this procedure to calculate the reluctance torque, because large deviations are also to be expected here. Can anyone give me a hint on how to extract the reluctance torque from the simulation? Many thanks in advance! Mandy
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