Header CHECK KEYWORDS Warn Mesh DB "." "./pwire" End Simulation Max Output Level = 5 Coordinate System = "Cartesian 3D" Coordinate Mapping(3) = 1 2 3 Simulation Type = Steady state Steady State Max Iterations = 1 Output Intervals = 1 Output File = "pwire.result" !Coordinate Scaling = 1.0e-3 End Constants Gravity(4) = 0 0 -1 9.81 ! N | m s^-2 Stefan Boltzmann = 5.67e-08 ! W m^-2 °K^-4 | kg s^-3 °K^-4 Permittivity of Vacuum = 8.8542e-12 ! F m^-1 | A^2 s^4 kg^-1 m^-3 Permeability of Vacuum = 1.2566e-6 ! H m^-1 | kg m s^-2 A^-2 Boltzmann Constant = 1.3807e-23 ! J °K^-1 | m^2 kg s^-2 °K^-1 Unit Charge = 1.602e-19 ! C | A s End Body 1 Name = "wire1" Equation = 1 Material = 1 End Body 2 Name = "Air" Equation = 1 Material = 2 End Body 3 Name = "wire2" Equation = 1 Material = 1 End Material 1 Name = "Copper" Relative Permittivity = 1 Relative Permeability = 1 Electric Conductivity = 58e6 End Material 2 Name = "Air" Relative Permittivity = 1.0 Relative Permeability = 1.0 Electric Conductivity = 0.0 End Equation 1 Name = "Inductance" Active Solvers(2) = 1 2 End Solver 1 Equation = "MGDynamics" Variable = "AV" Procedure = "MagnetoDynamics" "WhitneyAVSolver" Linear System Symmetric = True Element = n:1 e:1 Fix Input Current density = Logical True Automated Source Projection BCs = Logical False Linear System Solver = "Iterative" Linear System Preconditioning = none Linear System Residual Output = 50 Linear System Max Iterations = 5000 Linear System Iterative Method = GCR Linear System Convergence Tolerance = 1.0e-5 BicgStabl Polynomial Degree = 4 Linear System Abort Not Converged = False End Solver 2 Equation = "MGDynamicsCalc" Procedure = "MagnetoDynamics" "MagnetoDynamicsCalcFields" Linear System Symmetric = True Potential Variable = String "AV" Calculate Current Density = Logical True Calculate Electric Field = Logical True Calculate Magnetic Field Strength = Logical True Calculate Joule Heating = True Steady State Convergence Tolerance = 0 Linear System Solver = "Iterative" Linear System Preconditioning = None Linear System Residual Output = 0 Linear System Max Iterations = 5000 Linear System Iterative Method = CG Linear System Convergence Tolerance = 1.0e-8 Calculate Nodal Fields = Logical False Impose Body Force Potential = Logical True Impose Body Force Current = Logical True Discontinuous Bodies = True End Solver 3 Exec Solver = after all Equation = "ResultOutput" Procedure = "ResultOutputSolve" "ResultOutputSolver" Output File Name = inductor Vtu format = Logical True Discontinuous Bodies = Logical True End Body Force 1 Current Density 1 = Real -3 Current Density 2 = Real -1 Current Density 3 = Real 0 End Boundary Condition 1 Name = "Wire1" Target Boundaries(2) = 1 2 !Coil Start = Logical True !AV {e} 1 = Real 0.0 !AV {e} 2 = Real 0.0 !AV {e} 3 = Real 0.0 !AV = Real 10e-3 Electric Current Density = Real 3.18e3 End Boundary Condition 2 Name = "Wire2" Target Boundaries(2) = 1 2 !Coil End = Logical True AV {e} = Real 0.0 !Electric Current Density = Real 125e3 Electric Current Density = Real 3.18e3 AV = Real 0 End