Condition Settings for Magnetic Field Analysis

Force: Surface Force(Force_Surface)

Specifies the surface force method to calculate the electromagnetic force acting on magnetic or non-magnetic materials. The electromagnetic force between contacting objects can also be calculated.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
TargetType	Flag	0 or Parts 0 or Surface 1 or Motion	The setting target of force condition The target is parts. The target is surface. The target is motion region
CoordinateSystem	Coordinate		The coordinate system for table output
LinkedMotion	Int		The linked motion condition

Torque: Surface Force(Torque_Surface)

Specifies the surface force method to calculate the torque acting on magnetic or non-magnetic materials. The torque between contacting objects can also be calculated.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Origin	Vector		The origin
Axis2D	Flag	0 or Upward 1 or Downward	The direction of axis in the 2D model The direction of axis is parallel to (0,0,1). The direction of axis is parallel to (0,0,-1).
TargetType	Flag	0 or Parts 0 or Surface 1 or Motion	The setting target of torque condition The target is parts. The target is surface. The target is motion region
LinkedMotion	Int		The linked motion condition
Axis	Vector		The axis

Force: Nodal Force(Force)

Specifies the nodal force method to calculate the electromagnetic force acting on magnetic materials.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
ExpandTarget	Flag	0 or Off 1 or On	Target region expansion flag Do not expand target to air region Expand target to air region
TargetType	Flag	0 or Parts 1 or Motion	The setting target of force condition The target is parts. The target is motion region
CoordinateSystem	Coordinate		The coordinate system for table output
LinkedMotion	Int		The linked motion condition

Force: Lorentz Force(LorentzForce)

Specifies the Lorentz force method to calculate the electromagnetic force acting on non-magnetic material coils. Lorentz force can be calculated.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
CoordinateSystem	Coordinate		The coordinate system for table output

Centrifugal Force Calculation(CentrifugalForceCalculation)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
ConstraintType	Flag	0 or ConstraintAroundRotationAxis 1 or ConstraintBySelection 2 or NoConstraint	The type of constraint Constraint around rotation axis Constraint by selection No Target to Constrain

Torque: Nodal Force(Torque)

Specifies the nodal force method to calculate the torque acting on magnetic materials.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Origin	Vector		The origin
Axis2D	Flag	0 or Upward 1 or Downward	The direction of axis in the 2D model The direction of axis is parallel to (0,0,1). The direction of axis is parallel to (0,0,-1).
ExpandTarget	Flag	0 or Off 1 or On	Target region expansion flag Do not expand target to air region Expand target to air region
TargetType	Flag	0 or Parts 1 or Motion	The setting target of torque condition The target is parts. The target is motion region
LinkedMotion	Int		The linked motion condition
Axis	Vector		The axis

Torque: Lorentz Force(LorentzTorque)

Specifies the Lorentz force method to calculate the torque acting on non-magnetic material coils.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Origin	Vector		The origin
Axis2D	Flag	0 or Upward 1 or Downward	The direction of axis in the 2D model The direction of axis is parallel to (0,0,1). The direction of axis is parallel to (0,0,-1).
Axis	Vector		The axis

Partial Model(PartialModel)

Specifies the partial model to be treated as a full model for the coupled magnetic field and thermal analyses.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
RotationMap	Flag	0 or Off 1 or On	The flag for rotation map The rotation map is not used The rotation map is used
UsedRotationPeriodicBoundary	Flag	0 or Off 1 or On	The flag for rotation periodic boundary The rotation periodic boundary is not used The rotation periodic boundary is used
Angle	Double		The rotation angle
TranslationMap	Flag	0 or Off 1 or On	The flag for translation map The translation map is not used The translation map is used
UsedTranslationPeriodicBoundary	Flag	0 or Off 1 or On	The flag for translation periodic boundary The translation periodic boundary is not used The translation periodic boundary is used
Distance	Double		The distance
MirrorMap	Flag	0 or Off 1 or On	The flag for mirror map The mirror map is not used The mirror map is used
Direction	Vector		The direction of the translation
Origin	Vector		Rotation Center Point

FEM Coil(FEMCoil)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
UniformCurrent	Flag	0 or Off 1 or On	Use uniform current density Not use uniform current density. Use uniform current density.

Current(Current)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Turn	Double		Number of turns on a coil
Current	Double		Value of the current
Direction2D	Flag	0 or Upward 1 or Downward	Current direction in the 2D model The current direction is upward. The current direction is downward.
turn	Double		Number of Turns
FunctionType	Flag	0 or Table 1 or Sin 2 or Exp 3 or Constant 8 or Harmonic	The type for selecting a table or function Use a table Use a sin function Use an exponential function Use a constant function Use a harmonic function
XType	Flag	0 or Constant 1 or Time 1 or Frequency 3 or Step 4 or Angle 10 or Position	Axis Type Constant. Time Axis The frequency axis. Step Axis Angle Axis The motion direction axis.
Periodic	Flag	0 or On 1 or Off	Flag for Periodic Iteration Periodic Iteration Non Periodic Iteration
Time	Table		Current vs Time Table
Step	Table		Current vs Step Table
Angle	Table		Current vs Angle Table
Position	Table		Current vs Disntance Table
CurrentFunction	Function		The flag for setting current function
Frequency	Table		Current vs Frequency Table
Direction	Vector		Direction of the current
Origin	Vector		Start point of the current
UniformCurrent	Flag	0 or Off 1 or On	Use uniform current density Not use uniform current density. Use uniform current density.
DirectionType	Flag	0 or InflowFace 1 or Vector	Type of the direction of the current The current direction is perpendicular to a selected face by AddSecondaryPart The current direction is decided by vector with Direction and Start Point

Residual Strain(ResidualStrain)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
StrainCalculationType	Flag	0 or UseStrainEdgeOrFace 1 or UseStrainRegion	The flag for the strain calculation type Use strain edge or face Use strain region
Thickness	Double		Thickness
NumberOfLayers	Flag		The number of layers

Heat Source(ThermalSourceCalculation)

Specifies a heat source to account for the heat of an FEM coil component or resistance component in the thermal analysis.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Type	Flag	0 or Resistance 1 or FEMCoil	Target type for heat source The resistance is used The femcoil is used
ResistorId	Int		The resistor id
FemCoilId	Int		The fem coil id

Topology Optimization(TopologyOptimization)

Perform topology optimization.Design region specification and method setting.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
GaussianRadii	Vector		The gaussian radius
CenterOfGaussian	Table		The center of the Gaussian point
UseSymmetry	Flag	0 or Off 1 or On	Flag to use mirror symmetry Do not use mirror symmetry Use mirror symmetry
CoordinateSystem	Coordinate		The coordinate system for symmetry
PeriodicType	Flag	0 or None 1 or Rotation 2 or Translation	Flag to set periodicity Do not set periodicity Set the rotation cycle Set the translation cycle
PeriodicAngle	Double		Setting the cycle angle
PeriodicDistance	Double		Setting the periodic distance
Origin	Vector		The point on axis
FilterType	Flag	0 or NGnet 1 or GaborFilter	Method Use NGnet Use Gabor Filter
WaveLength	Double		Wavelength
Direction	Flag	0 or Upward 1 or Downward	The direction of axis in the 2D model The direction of axis is parallel to (0,0,1). The direction of axis is parallel to (0,0,-1).
Axis2D	Vector		The axis direction
UseContinuousMaterialProperties	Flag	0 or Off 1 or On	Flag to model material properties with continuous variables Use discrete material values Use continous variables for material properties
Axis	Vector		The axis direction

Reuse Demagnetization(ReuseDemagnetization)

Re-creation of irreversibledemagnatization of thepermanent magnet froman existing result file.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
ReferredPlotFile	String		Specified plot file
ReferredPlotFile_DataSourceType	Flag	0 or ResultFile 1 or ProjectFile 2 or CurrentProject 3 or AnalysisGroup	Specified data source type for plot file use result file for data source type. use project file for data source type. use current project for data source type. use analysis group for data source type.
ReferredPlotFile_ProjectFile	String		Specified project file for project file type
ReferredPlotFile_ProjectFile_StudyId	Flag		Specified study id for project file type
ReferredPlotFile_ProjectFile_CaseId	Flag		Specified case id for project file type
ReferredPlotFile_CurrentProject_StudyId	Flag		Specified study id for current project type
ReferredPlotFile_CurrentProject_CaseId	Flag		Specified case id for current project type
ReferredPlotFile_AnalysisGroup_StudyId	Flag		Specified study id for analysis group type
ReferredPlotFile_CoordinateId	Coordinate		The coordinate system for reference.

Motion: Translation(TranslationMotion)

Specifies the translation motion of parts.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Direction	Vector		Direction
Periodic	Flag	0 or On 1 or Off	Flag for iterative movement The model has iterative movement The model does not have iterative movement
VirtualMotion	Flag	0 or Off 1 or On	The flag for using Virtual Motion. The model does not use Virtual Motion. The model uses Virtual Motion.
ForceMultiplier	Double		Force Multiplier
UseAutoMass	Flag	0 or Off 1 or On	Calculate during analysis The mass is not calculated by the solver. The mass is calculated by the solver
MassCoefficient	Double		Coefficient with mass
LoadType	Flag	0 or Constant 1 or Time 3 or Displacement 4 or Velocity	the additional force type. The constant type. The time dependency point array type. The displacement dependency point array type. The velocity dependency point array type.
UsePeriodicLoad	Flag	0 or Off 1 or On	The flag for using periodic Load Point Aarray. The model does not use Periodic Load Point Array. The model use Periodic Load Point Array.
StaticFriction	Double		The Static Friction.
KineticFriction	Double		The Kinetic Friction.
NormalReaction	Double		The Normal Reaction.
IncludeReactionFromForce	Flag	0 or Off 1 or On	The flag for using force to calculate friction. The model does not use friction from force. The model use friction from force.
ExternalLoad	Flag	0 or Off 1 or On	The flag for using External Program. Use external program Not use external program
MotionGroupType	Flag	0 or ConstantVelocity 1 or ConstantDisplacement 2 or PAVelocity 3 or PADisplacement 4 or PACumulative 5 or MotionEquation 6 or ExternalDisplacement 7 or UserSubroutine 8 or ControlCircuitDisplacement	The flag for setting motion type The flag for setting motion type to constant velocity. The flag for setting motion type to constant displacement. The flag for setting motion type to point array velocity. The flag for setting motion type to point array displacement. The flag for setting motion type to point array cumulative. The flag for setting motion type to motion equation. The flag for setting motion type to external displacement. The flag for setting motion type to user subroutine. The flag for setting motion type to output block.
UserSubroutineID	Flag		User subroutine ID
UseEccentricity	Flag	0 or Off 1 or On	The flag for using Eccentricity. The model does not use Eccentricity. The model use Eccentricity.
PartOrigin	Vector		The Rotating Part Center Origin.
PartVector	Vector		The Rotating Part Tilt Axis.
PartTiltAngle	Double		The Rotating Part Tilt Angle.
PartOffset	Vector		The Rotating Part Offset.
AxisVector	Vector		The Rotating Axis Tilt.
AxisTiltAngle	Double		The Rotating Axis Tilt Angle.
AxisOffset	Vector		The Rotating Axis Offset.
TranslateVelocity	Double		Translation Velocity
Displacement	Double		Displacement
ConstanceForce	Double		Constant Torque for Equation of Motion
Mass	Double		Mass for Equation of Motion
MassOffset	Double		Offset with mass
InitialTranslationDisplacement	Vector		Initial periodic distance
InitialDisplacement	Double		Initial Displacement for Equation of Motion
InitialVelocity	Double		Initial Velocity for Equation of Motion
Velocity	Table		Velocity vs Time Table
Step	Table		Displacement vs Step Table
Time	Table		Displacement vs Time Table
MinPosition	Double		Minimum Position for Equation of Motion
MaxPosition	Double		Maximum Position for Equation of Motion
MinDisplacement	Double		The min value for displacement
MaxDisplacement	Double		The max value for displacement
FrictionMultiplier	Double		The multiplier Friction.
ReactionVector	Vector		The direction of reaction from force.
CoordinateId	Coordinate		The ID of reference coordinate.
ForceDirectionType	Flag	0 or Coordinate 1 or Vector	The direction of referenced electromagnetic force type. The coordinate type The vector type.
LoadVsTime	Table		The time vs load point array
LoadVsDisplacement	Table		The displacement vs load point array
LoadVsVelocity	Table		The velocity vs load point array
LinkedForce	Int		The linked force condition
OutputBlockID	Int		The output block id

Motion: Rotation(RotationMotion)

Specifies the rotational motion of parts.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Periodic	Flag	0 or On 1 or Off	Flag for iterative movement The model has iterative movement The model does not have iterative movement
VirtualMotion	Flag	0 or Off 1 or On	The flag for using Virtual Motion. The model does not use Virtual Motion. The model uses Virtual Motion.
TorqueMultiplier	Double		Torque Multiplier
UseAutoInertia	Flag	0 or Off 1 or On	The inertia is calculated by the solver The itertia is not calculated by the solver automatically The inertia is calculated by the solver automatically
InertiaCoefficient	Double		The coefficient with inertia
LoadType	Flag	0 or Constant 1 or Time 2 or Angle 4 or Velocity	The load torque type The constant type. The time dependency point array type. The angle dependency point array type. The angular velocity point array type.
UsePeriodicLoad	Flag	0 or Off 1 or On	The flag for using periodic Load Point Aarray. The model does not use Periodic Load Point Array. The model use Periodic Load Point Array.
StaticFriction	Double		The Static Friction.
KineticFriction	Double		The Kinetic Friction.
NormalReaction	Double		The Normal Reaction.
ExternalLoad	Flag	0 or Off 1 or On	The flag for using External Program. Use external program Not use external program
MotionGroupType	Flag	0 or ConstantVelocity 1 or ConstantDisplacement 2 or PAVelocity 3 or PADisplacement 4 or PACumulative 5 or MotionEquation 6 or ExternalDisplacement 7 or UserSubroutine 8 or ControlCircuitDisplacement	The flag for setting motion type The flag for setting motion type to constant velocity. The flag for setting motion type to constant displacement. The flag for setting motion type to point array velocity. The flag for setting motion type to point array displacement. The flag for setting motion type to point array cumulative. The flag for setting motion type to motion equation. The flag for setting motion type to external displacement. The flag for setting motion type to user subroutine. The flag for setting motion type to output block.
UserSubroutineID	Flag		User subroutine ID
UseEccentricity	Flag	0 or Off 1 or On	The flag for using Eccentricity. The model does not use Eccentricity. The model use Eccentricity.
PartOrigin	Vector		The Rotating Part Center Origin.
PartVector	Vector		The Rotating Part Tilt Axis.
PartTiltAngle	Double		The Rotating Part Tilt Angle.
PartOffset	Vector		The Rotating Part Offset.
AxisVector	Vector		The Rotating Axis Tilt.
AxisTiltAngle	Double		The Rotating Axis Tilt Angle.
AxisOffset	Vector		The Rotating Axis Offset.
AngularVelocity	Double		Angular Velocity
Displacement	Double		Angular Displacement
ConstanceTorque	Double		Constant torque for equation of motion
InitialRotationAngleType	Flag	0 or Manual 1 or Auto	The initial rotation angle type The initial rotation angle is specified The initial rotation angle is automatically calculated from winding condition.
InitialRotationAngle	Double		The initial rotation angle
Inertia	Double		The inertia for a motion equation
InertiaOffset	Double		The offset with inertia
InitialAngle	Double		Initial angle for equation of motion
InitialVelocity	Double		Initial velocity for equation of motion
MinAngle	Double		Minimum angle for equation of motion
MaxAngle	Double		Maximum angle for equation of motion
Velocity	Table		Angular Velocity vs Time Table
Step	Table		Angle vs Step Table
Time	Table		Angle vs Time Table
MinDisplacementAngle	Double		The min angle for displacement
MaxDisplacementAngle	Double		The max angle for displacement
FrictionRadius	Double		The radius of rotating object.
LoadVsTime	Table		The time vs load(rot) point array
LoadVsAngle	Table		The angle vs load point array
LoadVsAngularVelocity	Table		The angular velocity vs load point array
Origin	Vector		Rotation Center
LinkedForce	Int		The linked torque condition
Axis2D	Flag	0 or Upward 1 or Downward	The direction of axis in the 2D model The direction of axis is parallel to (0,0,1). The direction of axis is parallel to (0,0,-1).
OutputBlockID	Int		The output block id
Axis	Vector		Rotation Axis

Motion: Arbitrary(ArbitraryMotion)

Set to a part that moves arbitrarily. It is used to define complex movements such as a combination of translation and rotation.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
MotionGroupType	Flag	4 or PACumulative 5 or MotionEquation 6 or ExternalDisplacement 9 or TimeFunction	The flag for setting motion type The flag for setting motion type to point array cumulative. The flag for setting motion type to motion equation. The flag for setting motion type to external displacement. The flag for setting motion type to time function.
InitialDisplacement	Vector		The translational initial displacement
InitialAngle	Vector		The initial rotation angle
CoordinateSystem	Coordinate		The reference coordinate system
TimeTable	Table		The cumulative displacement point sequence
MaxTranslationPosition	Vector		The upper limit of translational motion range
MinTranslationPosition	Vector		The lower limit of translational motion range
MaxRotationPosition	Vector		The upper limit of rotation motion range
MinRotationPosition	Vector		The lower limit of rotation motion range
TimeFunctionTable	Table		The cumulative displacement of time function
LinkedForce	Int		The force condition ID referenced by the equation of motion
LinkedTorque	Int		The torque condition ID referenced by the equation of motion
CoefficientForce	Double		The coefficient of force condition of translational equation of motion
CoefficientTorque	Double		The coefficient of torque condition of equation of motion of rotation
AdditionalForceType	Flag	0 or Constant 1 or PointSequence	The additional force input type The constant value The pointarray
AdditionalTorqueType	Flag	0 or Constant 1 or PointSequence	The additional torque input type The constant value The pointarray
AdditionalForceValue	Vector		The additional force value
AdditionalTorqueValue	Vector		The additional torque value
ForcePeriodicity	Flag	0 or Off 1 or On	The periodicity flag of point sequence Consider the periodicity of the sequence of points Does not consider the periodicity of the sequence of points
TorquePeriodicity	Flag	0 or Off 1 or On	The periodicity flag of point sequence Consider the periodicity of the sequence of points Does not consider the periodicity of the sequence of points
AdditionalForceTable	Table		The additional force point sequence
AdditionalTorqueTable	Table		The additional torque point sequence
Mass	Double		The mass (M1)
MassCoefficient	Double		The mass coefficient
MassOffset	Double		The mass (M2)
MassAutoCalc	Flag	0 or Off 1 or On	The flag for automatic calculation of mass of translational equation of motion Do not automatically calculate the mass of the translational equation of motion Automatically calculate the mass of the translational equation of motion
InertiaMoment33	Double		The moment of inertia of the equation of motion of rotation
InertiaMomentAutoCalc	Flag	0 or Off 1 or On	The automatic calculation flag of moment of inertia of equation of motion of rotation Do not automatically calculate the moment of inertia of the equation of motion of rotation Automatically calculate the moment of inertia of the equation of motion of rotation
TranslationAttenuation	Vector		The translational attenuation constant
RotationAttenuation	Vector		The rotational attenuation constant
TranslationSpring	Vector		The translational spring constant
RotationSpring	Vector		The rotational spring constant
TranslationInitialSpring	Vector		The amount of expansion and contraction of the translational initial spring
TranslationInitialVelocity	Vector		The initial translation speed
RotationInitialSpring	Vector		The amount of expansion and contraction of the rotational initial spring
RotationInitialVelocity	Vector		The initial speed of rotation
MaxTranslationEquation	Vector		The upper limit of the motion range of the translational equation of motion
MinTranslationEquation	Vector		The lower limit of the motion range of the translational equation of motion
MaxRotationEquation	Vector		The upper limit of the motion range of the rotational equation of motion
MinRotationEquation	Vector		The lower limit of the motion range of the rotational equation of motion
InertiaMoment11	Double		The moment of inertia of the equation of motion of rotation J11
InertiaMoment12	Double		The moment of inertia of the equation of motion of rotation J12
InertiaMoment13	Double		The moment of inertia of the equation of motion of rotation J13
InertiaMoment22	Double		The moment of inertia of the equation of motion of rotation J22
InertiaMoment23	Double		The moment of inertia of the equation of motion of rotation J23

Natural Boundary(NaturalBoundary)

Specifies a natural boundary when the magnetic flux flows perpendicular to the specified face.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
SurfaceSetting	Flag	1 or Top 3 or Bottom	The flag of surface setting Specifies the top surface Specifies the bottom surface

External Solver Coupling(CouplingExternalSolver)

The model is extended when the number of dimensions or periodicity differs between models for a coupled analysis linked with an external program.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
RotationMap	Flag	0 or Off 1 or On	The flag for rotation map The rotation map is not used The rotation map is used
Angle	Double		The rotation angle
TranslationMap	Flag	0 or Off 1 or On	The flag for translation map The translation map is not used The translation map is used
Distance	Double		The distance
MirrorMapXY	Flag	0 or Off 1 or On	The flag for mirror symmetry (xy) The mirror symmetry in xy plane not used The mirror symmetry in xy plane is used
MirrorMapYZ	Flag	0 or Off 1 or On	The flag for mirror symmetry (yz) The mirror symmetry in yz plane is not used The mirror symmetry in yz plane is used
MirrorMapZX	Flag	0 or Off 1 or On	The flag for mirror symmetry (zx) The mirror symmetry in zx plane is not used The mirror symmetry in zx plane is used
StarccmpCouplingType	Flag	0 or Off 1 or On	The flag for coupled explicit method The coupled Implicit method is used The coupled explicit method is used
RunJmagFirst	Flag	0 or Off 1 or On	The flag for run JMAG First The STAR-CCM+ to run first before JMAG Run JMAG First
Temperature	Double		The initial temperature
StartTime	Double		Start Time
EndTime	Double		End Time
NumDivisions	Flag		Number of Divisions
UseSubcycling	Flag	0 or Off 1 or On	The flag of using subcycling not use subcycling use subcycling
AverageLossType	Flag	0 or Step 1 or Time 2 or AllSteps	flag to specify the time span for average loss step specification time specification specify all steps
StepsEndStep	Double		Average loss steps up to end step
TimesEndTime	Double		Average loss times up to end time
MinZDirection	Double		The minimum value in z direction (Extend to 3D Model)
MaxZDirection	Double		The maximum value in z direction (Extend to 3D Model)
NumDivisionZDirection	Flag		The z direction division number (Extend to 3D Model)
MinAngle	Double		The minimum circumferential angle (Extend to 3D Model)
MaxAngle	Double		The maximum circumferential angle (Extend to 3D Model)
NumDivisionAngle	Flag		The number of circumferential divisions (Extend to 3D Model)

Gap(Gap)

Specifies a very thin magnetic air gap on the face of a model.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Thickness	Double		The thickness

Heat Generation Component(HeatGenerationComponent)

Specifies heat value of heat source to heat generation component in thermal circuit.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Type	Flag	0 or Resistance 1 or FEMCoil 2 or Parts	Target type for heat source The resistance is used The femcoil is used The part is used
ResistorId	Int		The resistor id
FemCoilId	Int		The fem coil id
HeatGenerationComponentId	Int		The heat generation component id

Translation Periodic Boundary(TranslationPeriodicBoundary)

Specifies a periodic boundary for a partial model when the model has periodicity in the direction of translation.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Direction	Vector		The direction
BoundaryType	Flag	0 or Normal 1 or Reverse	Periodic Type Basic Orientation Reverse Orientation
Length	Double		The length

Rotation Periodic Boundary(RotationPeriodicBoundary)

Specifies a periodic boundary for a partial model when the model has periodicity in the direction of rotation.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Origin	Vector		Rotation Center Point
BoundaryType	Flag	0 or Normal 1 or Reverse 2 or AxialReverse	Periodic Type Basic Orientation Reverse Orientation Axisymmetric Orientation
AutoPeriodicFromWinding	Flag	0 or Off 1 or On	Automatic setting of periodicity from winding Do not set periodicity from winding Set periodicity from winding
Angle	Double		Occupying Angle of the Model
Axis2D	Flag	0 or Upward 1 or Downward	The direction of axis in the 2D model The direction of axis is parallel to (0,0,1). The direction of axis is parallel to (0,0,-1).
Axis	Vector		Rotation Axis

Vector Potential Boundary(VectorPotentialBoundary)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
SettingType	Flag	0 or AnalysisResult 1 or UniformValue	The type of setting Analysis Result Uniform Value
ReferencePlotFile	String		The path of the reference file
ReferencePlotFile_DataSourceType	Flag	0 or ResultFile 1 or ProjectFile 2 or CurrentProject 3 or AnalysisGroup	Specified data source type for plot file use result file for data source type. use project file for data source type. use current project for data source type. use analysis group for data source type.
ReferencePlotFile_ProjectFile	String		Specified project file for project file type
ReferencePlotFile_ProjectFile_StudyId	Flag		Specified study id for project file type
ReferencePlotFile_ProjectFile_CaseId	Flag		Specified case id for project file type
ReferencePlotFile_CurrentProject_StudyId	Flag		Specified study id for current project type
ReferencePlotFile_CurrentProject_CaseId	Flag		Specified case id for current project type
ReferencePlotFile_AnalysisGroup_StudyId	Flag		Specified study id for analysis group type
ReferencePlotFile_CoordinateId	Coordinate		The coordinate system for reference.
VectorPotentialTable	Table		Table of vector potential values
ConstantValue	Double		The constant value
FlagCyclic	Flag	0 or On 1 or Off	The flag cyclic The flag cyclic. Not periodic.
FunctionType	Flag	0 or Array 1 or Sin 2 or Exp 3 or Constant	The function type Array. Sin. Exp. Constant.
Amplitude	Double		The value of amplitude
Phase	Double		The value of phase
UseStartReferenceStep	Flag	0 or Off 1 or On	The start reference step is used. The start reference step is not used. The start reference step is used.
UseEndReferenceStep	Flag	0 or Off 1 or On	The end reference step is used. The end reference step is not used. The end reference step is used.
StartStep	Flag		The start reference step
EndStep	Flag		The end reference step
CyclicReferenceStep	Flag	0 or On 1 or Off	Set periodic step Periodic. Not periodic.
Frequency	Double		The value of frequency
InitialValue	Double		The initial value
TimeConstant	Double		The value of time constant
DirectionalVector	Vector		The directional vector
ReferenceSymmetryXYPlane	Flag	-1 or Natural 0 or None 1 or Symmetry	The specify the XY plane of the symmetry boundary of the specified result file. The XY plane has a natural boundary. The XY plane has a no symmetry plane. The XY plane has a symmetry boundary.
ReferenceSymmetryYZPlane	Flag	-1 or Natural 0 or None 1 or Symmetry	The specify the YZ plane of the symmetry boundary of the specified result file. The YZ plane has a natural boundary. The YZ plane has a no symmetry plane. The YZ plane has a symmetry boundary.
ReferenceSymmetryZXPlane	Flag	-1 or Natural 0 or None 1 or Symmetry	The specify the ZX plane of the symmetry boundary of the specified result file. The ZX plane has a natural boundary. The ZX plane has a no symmetry plane. The ZX plane has a symmetry boundary.

Current Density(CurrentDensity)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Current Density	Double		Value of the current density
Direction2D	Flag	0 or Upward 1 or Downward	Current density direction in the 2D model The current density direction is upward. The current density direction is downward.
FunctionType	Flag	0 or Table 1 or Sin 2 or Exp 3 or Constant 8 or Harmonic	The type for selecting a table or function Use a table Use a sin function Use an exponetial function Use a constant function Use a harmonic function
XType	Flag	1 or Frequency 5 or Constant 6 or Time 8 or Step 9 or Angle 11 or Position	Axis Type The frequency axis. Constant Time Axis Step Axis Angle Axis The motion direction axis.
Periodic	Flag	0 or On 1 or Off	Flag for Periodic Iteration Periodic Iteration Non Periodic Iteration
Time	Table		Current Density vs Time Table
Step	Table		Current Density vs Step Table
Angle	Table		Current Density vs Angle Table
Position	Table		Current Density vs Distance Table
CurrentDensityFunction	Function		The flag for setting current density function
Frequency	Table		Current Density vs Frequency Table
Direction	Vector		Direction of the current density

Gap Flux Boundary(GapFluxBoundary)

Set the magnetic flux density on the air gap of a rotating machine. The flux density is provided by a two-dimensional analysis and is set on the gap automatically.This condition is used for the fast calculation of the eddy currents in a magnet.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
ReferredPlotFile	String		Specified plot file
ReferredPlotFile_DataSourceType	Flag	0 or ResultFile 1 or ProjectFile 2 or CurrentProject 3 or AnalysisGroup	Specified data source type for plot file use result file for data source type. use project file for data source type. use current project for data source type. use analysis group for data source type.
ReferredPlotFile_ProjectFile	String		Specified project file for project file type
ReferredPlotFile_ProjectFile_StudyId	Flag		Specified study id for project file type
ReferredPlotFile_ProjectFile_CaseId	Flag		Specified case id for project file type
ReferredPlotFile_CurrentProject_StudyId	Flag		Specified study id for current project type
ReferredPlotFile_CurrentProject_CaseId	Flag		Specified case id for current project type
ReferredPlotFile_AnalysisGroup_StudyId	Flag		Specified study id for analysis group type
ReferredPlotFile_CoordinateId	Coordinate		The coordinate system for reference.
StartStep	Flag		The start step
EndStep	Flag		The end step
FrequencyDegree	Flag		The frequency degree
MuMapping	Flag	0 or Off 1 or On	Flag for using 2D mu value Do not use mu from 2D result. Use mu from 2D result.
UseBAverage	Flag	0 or Off 1 or On	Flag for calculation type of mu. Use time averaged mu. Use mu calculated from time averaged magnetic flux density.

External Field(ExternalField)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Direction	Vector		Direction of Flux Density
FunctionType	Flag	0 or PointArray 1 or Sinusoidal 2 or Exponential	Function Type Table Type Sinusoidal Type Exponential Type
Phase	Double		Phase of Sinusoidal
Amplitude	Double		Amplitude of Sinusoidal
FluxDensityVsFrequency	Table		Flux Density vs Frequency Table
Frequency	Double		Frequency of Sinusoidal
Offset	Double		Phase of Exponential
TimeConstant	Double		Time Constant of Exponential
SinAmplitude	Double		Amplitude of Sinusoidal
ExpAmplitude	Double		Amplitude of Exponential
FluxDensityVsTime	Table		Flux Density vs Time Table

Cond_in_Axi_FEMCond(FEMConductorData)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Direction2D	Flag	0 or Upward 1 or Downward	The current direction in the 2D model The current direction is upward. The current direction is downward.
Direction	Vector		The direction of the current
Origin	Vector		The origin of the current
DirectionType	Flag	0 or InflowOutflow 1 or PartsInflow 2 or Vector	The direction type The current direction flow to the outflow surface from the inflow surface The current direction is perpendicular to a selected face by AddSecondaryPart The current direction is decided by vector with Direction and Origin

Coil_in_FEMCoil_InflowFace(FEMCoilData)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Direction	Vector		The direction of the current
Origin	Vector		The origin of the current
DirectionType	Flag	0 or InflowFace 1 or Vector	The type of the direction of the current The current direction is perpendicular to a selected face by AddSecondaryPart The current direction is decided by vector with Direction and Origin
Direction2D	Flag	0 or Upward 1 or Downward	The current direction in the 2D model The current direction is upward. The current direction direction is downward.

Multi Slice(MultiSlice)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
SkewAngle	Double		The angle of skew
NumberOfSlices	Flag	2 3 4 5 6 7	The number of slices to use Use 2 slices Use 3 slices Use 4 slices Use 5 slices Use 6 slices Use 7 slices
TypeOfSkew	Flag	0 or LinearSkew 1 or StepSkew 2 or VSkew	The type of skew to use Linear Skew Step Skew V Skew
Axis2D	Flag	0 or Upward 1 or Downward	The axis direction in the 2D model The direction of axis is parallel to (0,0,1). The direction of axis is parallel to (0,0,-1).
Origin	Vector		Rotation Center
AllSlices	Flag	0 or Off 1 or ON	The flag for output all slices. The results of all slices is not output. The results of all slices is output.
AdjustConductivity	Flag	0 or Off 1 or ON	The flag for adjust electrical conductivity. Use adjust electrical conductivity. Not use adjust electrical conductivity.

Part_in_PartialInductance(PartINPartialInductance)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
MaterialID	Flag		Material ID

Motor Inductance Calculation(MotorInductance)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
CurrentType	Flag	0 or AmplitudePhase 1 or DAxisQAxis	The flag is current type setting The current type is set by amplitude/phase. The current type is set by d-axis/q-axis.
ConnectionType	Flag	0 or Star 1 or Delta	The flag is connection type setting The connection type is star. The connection type is delta.
CurrentFrequency	Double		The current frequency
Pole	Flag		The pole of motor
AmplitudeMax	Double		The amplitude max
AmplitudeMin	Double		The amplitude min
AmplitudeDivision	Flag		The amplitude division
PhaseMax	Double		The phase max
PhaseMin	Double		The phase min
PhaseDivision	Flag		The phase division
DCurrentMax	Double		The d-current max
DCurrentMin	Double		The d-current min
DCurrentDivision	Flag		The d-current division
QCurrentMax	Double		The q-current max
QCurrentMin	Double		The q-current min
QCurrentDivision	Flag		The q-current division
SaveResultFile	Flag		The flag to save result file

Magnetic Flux(MagneticFlux)

Calculates the magnetic flux passing through the specified face.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Direction	Flag	-1 or Inflow 1 or Outflow	The flag for the flow direction Positive flow is into the face or edge Positive flow is out of the face or edge

Collision(Collision)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Type	Flag	1 or Parts 2 or Faces	The type The type is parts The type is faces
PlaneOrigin	Vector		The plane origin
PlaneNormalVector	Vector		The plane normal vector
ThresholdDistance	Double		The threshold distance
RestitutionCoefficient	Double		The restitution coefficient

Circuit Conversion(CircuitConversion)

Specifies a circuit conversion to a full model in circuit analysis.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
CircuitConversionFactor	Double		The conversion factor of circuit
CircuitConnect	Flag	0 or Series 1 or Parallel 2 or AntiParallel	The circuit connect information The series type The parallel type The anti parallel type
Series	Double		The number of series
Parallel	Double		The number of parallel
UseWindingFactor	Flag	0 or Off 1 or On	The flag of use conversion factors from winding Set conversion factors manually Set conversion factors from winding
ConversionType	Flag	0 or NotUse 1 or Periodic 2 or SeriesParallel	The flag of circuit conversion type The circuit conversion is not used. The periodic conversion type The circuit conversion type for series/parallel

Magnetostriction(Magnetostriction)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Step	Flag		Number of step
Divisions	Flag		Divisions Per Cycle

Iron Loss Calculation(Ironloss)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
BasicFrequencyType	Flag	1 or calc 2 or direct	Basic Frequency Type The basic frequency is set by poles and rotation speed. The basic frequency is set directly.
Poles	Flag		Number of Poles
RotationSpeed	Double		Rotation Speed
BasicFrequency	Double		Basic frequency
HysteresisLossCalcType	Flag	1 or fft 2 or loop 3 or hysteresis_model 4 or usersubroutine	Hysteresis Loss Calculation Type The hysteresis loss is decided by fft. The hysteresis loss is decided by loop. The hysteresis loss is decided by hysteresis model. The hysteresis loss is decided by user subroutine.
JouleLossCalcType	Flag	1 or fft 2 or max 3 or lamination_analysis 4 or usersubroutine	Joule Loss Calculation Type The joule loss is decided by fft. The joule loss is decided by max. Eddy Currents in Steel Plate. The joule loss is decided by user subroutine.
StartReferenceStep	Flag		The start reference step
EndReferenceStep	Flag		The end reference step
Cyclicity	Flag	0 or Off 2 or Half 4 or Quarter	The periodicity The periodicity is not used. The periodicity is 1/2. The periodicity is 1/4.
Use1stStepAsSteady	Flag	0 or Off 1 or On	The steady result is used The steady result is not used. The steady result is used.
MultipleFrequency	Double		Multiple Frequency
UseFrequencyOrder	Flag	0 or Off 1 or On	The frequency order is used. The frequency order is not used. The frequency order is used.
SetFrequencyType	Flag	0 or UseFrequencyOrder 1 or UseMaximumFrequency	Set the frequency type. The frequency order is used. The maximum frequency is used.
MaximumFrequency	Double		The maximum frequency
UseStartReferenceStep	Flag	0 or Off 1 or On	The start reference step is used. The start reference step is not used. The start reference step is used.
UseEndReferenceStep	Flag	0 or Off 1 or On	The end reference step is used. The end reference step is not used. The end reference step is used.
UseMultipleFrequency	Flag	0 or Off 1 or On	The multiple frequency is used. The multiple frequency is not used. The multiple frequency is used.
FrequencyOrder	String		Frequency Order
LimitFFTOutputFreq	Flag	0 or NotLimitFFTOutputFrequency 1 or LimitFFTOutputFrequency	The flag of limiting output frequency for FFT method Not limit output frequency for FFT method Limit output frequency for FFT method
FFTOutputFreqRatio	Double		The proportion of output frequency for FFT method
UseExcessEddyCurrentLossSeparate	Flag	0 or Off 1 or On	The excess eddy current loss separate flag. The excess eddy current loss separate is not used. The excess eddy current loss separate is used.
UseExcessEddyCurrentLossAdjust	Flag	0 or Off 1 or On	The excess eddy current loss adjust flag. The excess eddy current loss adjust is not used. The excess eddy current loss adjust is used.
UseFrequencyForAnomalousEddyCurrent	Flag	0 or Frequency 1 or AnomalousLossTable	The anomalous loss coefficient calculation method flag. The reference frequency is used. The anomalous loss coefficient table is used.
ExcessEddyCurrentLossAdjustFrequency	Double		The excess eddy current loss adjust frequency.
LaminationThickness	Double		The thickness for lamination
LaminationLossNumDivision	Flag		The number of division for lamination loss
UseLaminationLossFrequency	Flag	0 or Off 1 or On	The lamination frequency flag The lamination loss frequency is not used. The lamination loss frequency is used.
LaminationLossFrequency	Double		The lamination loss frequency
Use1DHysteresisModel	Flag	0 or Off 1 or On	The use hysteresis model for 1D calculation flag. The hysteresis model for 1D calculation is not used. The hysteresis model for 1D calculation is used.
UsrsubName	String		The user subroutine name
PresetType	Flag	1 or Preset1 2 or Preset2 3 or Customize	Calculation method of iron loss calculation. The preset1. The preset2. Each select the method of calculating the hysteresis loss and Joule loss.
Component1	Flag	0 or Off 1 or On	Control the use of the flux component in the loss calculation. (x or r component for rectangular and cylindrical coordinate system respectively.) The component 1 is not calculated in the loss calculation. The component 1 is calculated in the loss calculation.
Component2	Flag	0 or Off 1 or On	Control the use of the flux component in the loss calculation. (y or theta component for rectangular and cylindrical coordinate system respectively.) The component 2 is not calculated in the loss calculation. The component 2 is calculated in the loss calculation.
Component3	Flag	0 or Off 1 or On	Control the use of the flux component in the loss calculation. (z component for rectangular and cylindrical coordinate system respectively.) The component 3 is not calculated in the loss calculation. The component 3 is calculated in the loss calculation.
CalcType	Flag	1 or Absolute 2 or EachComponent	The flag of loss calculation type for the material The absolute value over all components is used in the loss calculation. Each component is used in the loss calculation independently.
StressType	Flag	0 or Compressive 1 or Principal	Control the use of a material in the loss stress calculation The compressive stress The principal stress and its direction
UsePartCoordinates	Flag	0 or Off 1 or On	Flag to control usage of coordinate system from part Use coordinate system set in the loss condition. Use the coordinate system set in the part properties.
CoordinateSystem	Coordinate		The coordinate system for reference.
UseAdditionSteps	Flag	0 or Off 1 or On	The addition steps is used. The addition steps is not used. The addition steps is used.

Temperature Distribution(TemperatureDistribution)

Specifies the target for mapping the temperature distribution for coupled analysis.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
ReferredPlotFile	String		Specified plot file
ReferredPlotFile_DataSourceType	Flag	0 or ResultFile 1 or ProjectFile 2 or CurrentProject 3 or AnalysisGroup	Specified data source type for plot file use result file for data source type. use project file for data source type. use current project for data source type. use analysis group for data source type.
ReferredPlotFile_ProjectFile	String		Specified project file for project file type
ReferredPlotFile_ProjectFile_StudyId	Flag		Specified study id for project file type
ReferredPlotFile_ProjectFile_CaseId	Flag		Specified case id for project file type
ReferredPlotFile_CurrentProject_StudyId	Flag		Specified study id for current project type
ReferredPlotFile_CurrentProject_CaseId	Flag		Specified case id for current project type
ReferredPlotFile_AnalysisGroup_StudyId	Flag		Specified study id for analysis group type
ReferredPlotFile_StartRow	Flag		The start row number for reading file
ReferredPlotFile_SkipFirstColumn	Flag	0 or Off 1 or On	The flag for not using first column as ID Use first column as ID. Not use first column as ID.
ReferredPlotFile_UseAutoSearchDistance	Flag	0 or Off 1 or On	The flag for using automatically decided search distance The search distance is not decided automatically. The search distance is decided automatically.
ReferredPlotFile_SearchDistance	Double		The search distance
ReferredPlotFile_CoordinateId	Coordinate		The coordinate system for reference.
CouplingType	Flag	0 or OneWay 1 or TwoWay 2 or ThermalEquivalentCircuit 3 or Constant 4 or Table 5 or CalculationPoints	The flag for the Coupling Type Coupling type is One Way Coupling type is direct Coupling type is Thermal Circuit Coupling type is Constant Coupling type uses Table Temperature Dependent Efficiency Map Calculation Points
ConstantTemperature	Double		The Constant Temperature
TemperatureVsTimeTable	Table		The Temperature vs Time Table
ThermalProbeID	Int		The thermal probe id
TemperatureDependentEfficiencyMapCalculationPoints	Table		Temperature Dependent Efficiency Map Calculation Points
TemperatureVsFrequencyTable	Table		The Temperature vs Frequency Table

Stress Distribution(StressDistribution)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Type	Flag	1 or PlotFile 2 or Material	The reference type The stress distribution is loaded from a given plot file. The stress is defined by each parts.
AbaqusStep	String		The step to use in the Abaqus result database
AbaqusUnit	String		The unit of the stress result in the Abaqus result database
AbaqusLengthUnit	String		The unit of the length in the Abaqus result database
ReferencePlotFile	String		The path of the reference file
ReferencePlotFile_DataSourceType	Flag	0 or ResultFile 1 or ProjectFile 2 or CurrentProject 3 or AnalysisGroup	Specified data source type for plot file use result file for data source type. use project file for data source type. use current project for data source type. use analysis group for data source type.
ReferencePlotFile_ProjectFile	String		Specified project file for project file type
ReferencePlotFile_ProjectFile_StudyId	Flag		Specified study id for project file type
ReferencePlotFile_ProjectFile_CaseId	Flag		Specified case id for project file type
ReferencePlotFile_CurrentProject_StudyId	Flag		Specified study id for current project type
ReferencePlotFile_CurrentProject_CaseId	Flag		Specified case id for current project type
ReferencePlotFile_AnalysisGroup_StudyId	Flag		Specified study id for analysis group type
ReferencePlotFile_StartRow	Flag		The start row number for reading file
ReferencePlotFile_SkipFirstColumn	Flag	0 or Off 1 or On	The flag for not using first column as ID Use first column as ID. Not use first column as ID.
ReferencePlotFile_UseAutoSearchDistance	Flag	0 or Off 1 or On	The flag for using automatically decided search distance The search distance is not decided automatically. The search distance is decided automatically.
ReferencePlotFile_SearchDistance	Double		The search distance
ReferencePlotFile_CoordinateId	Coordinate		The coordinate system for reference.
StressTable	Table		The stress vs The part id
CouplingType	Flag	0 or OneWay 1 or TwoWay	The flag for the Coupling Type Coupling type is One Way Coupling type is direct

Section(CutPlane)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Origin	Vector		Origin
Norm	Vector		Normal Vector
Axis	Vector		Axis of Axisymmetry

Topology Optimization (Sensitivity Analysis)(SensitivityAnalysis)

Perform topology optimization based on sensitivity analysis.Set the initial density.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
InitialDensity	Double		The initial density
PenaltyParameter	Flag		The penalty parameter.
UseSymmetry	Flag	0 or Off 1 or On	Flag to use mirror symmetry Do not use mirror symmetry Use mirror symmetry
CoordinateSystem	Coordinate		The coordinate system for symmetry

SubcyclingParameters(SubcyclingParameters)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
TimeUnit	Double		The determinant time
SkipInductance	Flag	1 or On 2 or Off	inductance skip flag skip not skip
RatedCurrent	Double		The rated current
CurrentThreshold	Double		The current threshold
UseSubcycling	Flag	0 or Off 1 or On	The flag of using subcycling not use subcycling use subcycling
DispThresholdLength	Double		The displacement threshold for length
DispThresholdAngle	Double		The displacement threshold for angle

Displacement(Displacement)

Specifies the target for mapping displacement from structural analysis.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
ReferredPlotFile	String		Specified plot file
ReferredPlotFile_DataSourceType	Flag	0 or ResultFile 1 or ProjectFile 2 or CurrentProject 3 or AnalysisGroup	Specified data source type for plot file use result file for data source type. use project file for data source type. use current project for data source type. use analysis group for data source type.
ReferredPlotFile_ProjectFile	String		Specified project file for project file type
ReferredPlotFile_ProjectFile_StudyId	Flag		Specified study id for project file type
ReferredPlotFile_ProjectFile_CaseId	Flag		Specified case id for project file type
ReferredPlotFile_CurrentProject_StudyId	Flag		Specified study id for current project type
ReferredPlotFile_CurrentProject_CaseId	Flag		Specified case id for current project type
ReferredPlotFile_AnalysisGroup_StudyId	Flag		Specified study id for analysis group type
ReferredPlotFile_StartRow	Flag		The start row number for reading file
ReferredPlotFile_SkipFirstColumn	Flag	0 or Off 1 or On	The flag for not using first column as ID Use first column as ID. Not use first column as ID.
ReferredPlotFile_UseAutoSearchDistance	Flag	0 or Off 1 or On	The flag for using automatically decided search distance The search distance is not decided automatically. The search distance is decided automatically.
ReferredPlotFile_SearchDistance	Double		The search distance
ReferredPlotFile_CoordinateId	Coordinate		The coordinate system for reference.
AbaqusStep	String		The step to use in the Abaqus result database
AbaqusUnit	String		The unit of the length result in the Abaqus result database
CouplingType	Flag	0 or OneWay 1 or TwoWay	The flag for the Coupling Type Coupling type is One Way Coupling type is direct

MoverComponent(MoverComponent)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
name	String		The subcycling element name
designer_force_id	Int		The linked force id
designer_motion_id	Int		The linked motion id

ExternalCircuitComponent(ExternalCircuitComponent)

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
name	String		The terminal name
type	Flag	0 or circuit 1 or x 2 or y 3 or z 4 or theta 5 or torque	The terminal type The circuit type The x type The y type The z type The theta type The torque type
inout	Flag	0 or out 1 or in	The terminal inout output input

Line Current(LineCurrent)

Specify the current flowing through the line part as a current value.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
Periodic	Flag	0 or On 1 or Off	The flag for periodic iteration The periodic iteration Non periodic iteration
FunctionType	Flag	0 or Table 1 or Sin 2 or Exp 3 or Constant 8 or Harmonic	The type for selecting a table or function Use a table Use a sin function Use an exponential function Use a constant function Use a harmonic function
XType	Flag	0 or Constant 1 or Frequency 2 or Angle 6 or Step 7 or Time 8 or Position	The flag for setting x-axis type Constant. The frequency axis. The angle axis. The step axis. The time axis. The motion direction axis.
CurrentFunction	Function		The flag for setting current function
Frequency	Table		The current vs freuquency point array
Time	Table		The current vs time point array
Step	Table		The current vs step point array
Angle	Table		The current vs angle point array
Position	Table		The current vs displacement point array
Direction	Vector		The direction of the current
Origin	Vector		The origin of the current
CoordinateSystem	Coordinate		The coordinate system for table output
SymmetryXY	Flag	0 or None 1 or Natural 2 or Symmetry	The flag of symmetry for XY plane None Natural Symmetry
SymmetryYZ	Flag	0 or None 1 or Natural 2 or Symmetry	The flag of symmetry for YZ plane None Natural Symmetry
SymmetryZX	Flag	0 or None 1 or Natural 2 or Symmetry	The flag of symmetry for ZX plane None Natural Symmetry
Current	Double		The value of the current

Frozen Permeability(FrozenPermeability)

Used to fix the magnetic properties using an existing result.The permeability is determined either from the value in the reference calculation or using the reference flux density and material data.

Property (propName)	Type (Type)	Flag (scriptKeyName)	Description
ReferredPlotFile	String		Specified plot file
ReferredPlotFile_DataSourceType	Flag	0 or ResultFile 1 or ProjectFile 2 or CurrentProject 3 or AnalysisGroup	Specified data source type for plot file use result file for data source type. use project file for data source type. use current project for data source type. use analysis group for data source type.
ReferredPlotFile_ProjectFile	String		Specified project file for project file type
ReferredPlotFile_ProjectFile_StudyId	Flag		Specified study id for project file type
ReferredPlotFile_ProjectFile_CaseId	Flag		Specified case id for project file type
ReferredPlotFile_CurrentProject_StudyId	Flag		Specified study id for current project type
ReferredPlotFile_CurrentProject_CaseId	Flag		Specified case id for current project type
ReferredPlotFile_AnalysisGroup_StudyId	Flag		Specified study id for analysis group type
ReferredPlotFile_CoordinateId	Coordinate		The coordinate system for reference.
FPType	Flag	1 or permeability 2 or fluxdensity 3 or differential permeability	The flag for the Frozen Permeability Type magnetic permeability is used B and Material curve is used differential permeability is used
StartStep	Flag		The Start Step
EndStep	Flag		The End Step
UseAverage	Flag	0 or Off 1 or On	Permeability Average Value Use Flag Do not use permeability average value. Use permeability average value