Lecture 01. Basic Tutorial
Lecture 02. Basic tutorial on Tools
Lecture 03. Shortcuts
Lecture 04. Introduction to Modeling in Maxwell
Lecture 05. Introduction to Modeling in Maxwell [2]
Lecture 06. Using tools and primitives in Maxwell
Lecture 07. Modeling bondwire and soldering pads on a PCB
Lecture 08. Importing 3D model
Lecture 09. Transform the imported 3D model
Lecture 10. Advanced modifications on imported 3D model
Lecture 11. Validating and fixing common errors of the model
Lecture 12. Which type of solutions (Analysis) should I use?
Lecture 13. Calculating Force with Magnetoestatic Analysis
Lecture 14. Calculating Force in Magnetostatic Analysis
Lecture 15. Calculating Force with Magnetoestatic Analysis
Lecture 16. 3 phase transformer [2]
Lecture 17. Calculating Force in Magnetostatic Analysis
Lecture 18. 3 phase Transformer [1]
Lecture 19. 3 phase Transformer [3]
Lecture 20. How to split the model in half and simulate it
Lecture 21. Modeling a simple WPT parametric (generic) Coil
Lecture 22. Modeling a simple WPT parametric (generic) Coil
Lecture 23. HFSS How to model helix circular coil for WPT
Lecture 24. How to calculate the mutual inductance [1/3]
Lecture 25. How to calculate the mutual inductance [2/3]
Lecture 26. How to calculate the mutual inductance [3/3]
Lecture 27. Simulating Reluctance Motor [part1]
Lecture 28. Calculating the Inductance of WPT Coil
Lecture 29. How to set up ANSYS Simplorer- Maxwell Cosimulation
Lecture 30. Simulating Reluctance Motor [part 2]
Lecture 31. Simulating Reluctance Motor/ Ansys Calculator [part 3]
Lecture 32. Equivalent Circuir Extraction/ Linear Motion (Actuator) [1/4]
Lecture 33. Equivalent Circuir Extraction/ Linear Motion (Actuator) [2/4]
Lecture 34. Equivalent Circuir Extraction/ Linear Motion (Actuator) [3/4]
Lecture 35. Equivalent Circuir Extraction/ Linear Motion (Actuator) [4/4]
Lecture 36. Simplorer Equivalent Circuir Extraction/ Linear Motion (Actuator)
Lecture 37. Symmetry boundaries [Analysis and splitting and using symmetry Boundaries]
Lecture 38. Symmetry boundaries [Excitations]
Lecture 39. Symmetry boundaries [Modeling]
Lecture 40. Magnetization Direction [Modelling]
Lecture 41. Magnetization Direction [ Excitation and adv. Mesh Setup]
Lecture 42. Magnetization Direction [Adv. Modifications in the Material]
Lecture 43. Master /Slave Boundary [motor example] [Modelling 1/4]
Lecture 44. Magnetization Direction [Results and Adv. use of calculator]
Lecture 45. Master / Slave Boundary [Excitations 2/4]
Lecture 46. Master /Slave Boundary [Analyzes 3/4]
Lecture 47. Master/ Slave Boundary [4/4]
Lecture 48. How to plot the H-field over a path. and more .
Lecture 49. Unintentional Radiation [3/3]
Lecture 50. How to Create Uniform H or B Fields
Lecture 51. Unintentional Radiation [2/3]
Lecture 52. Unintentional Radiation [1/3]
Lecture 53. Radiation [2/2]
Lecture 54. Radiation [1/2]
Lecture 55. Force Calculations 2D [1/3]
Lecture 56. Force Calculations 2D [2/3]
Lecture 57. Force Calculations 2D [3/3]
Lecture 58. Force Calculations 3D [2/3]
Lecture 59. Force Calculations 3D [1/3]
Lecture 60. Force Calculations 3D [3/3]
Lecture 61. Reluctance Motor [2/2]
Lecture 62. Reluctance Motor