public static void PopulateEnergyConsumerProperties(FTN.EnergyConsumer cimEnergyConsumer, ResourceDescription rd, ImportHelper importHelper, TransformAndLoadReport report)
{
if ((cimEnergyConsumer != null) && (rd != null))
{
LoadFlowConverter.PopulateConductingEquipmentProperties(cimEnergyConsumer, rd, importHelper, report);
if (cimEnergyConsumer.GroundedHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYCONSUMER_GROUNDED, (short)GetDMSWindingConnection(cimEnergyConsumer.Grounded)));
}
if (cimEnergyConsumer.PhaseConnectionHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYCONSUMER_PHASECONNECTION, (short)GetPhaseShuntConnectionKind(cimEnergyConsumer.PhaseConnection)));
}
if (cimEnergyConsumer.PfixedHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYCONSUMER_PFIXED, cimEnergyConsumer.Pfixed));
}
if (cimEnergyConsumer.PfixedPctHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYCONSUMER_PFIXEDPCT, cimEnergyConsumer.PfixedPct));
}
if (cimEnergyConsumer.QfixedHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYCONSUMER_QFIXED, cimEnergyConsumer.Qfixed));
}
if (cimEnergyConsumer.QfixedPctHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYCONSUMER_QFIXEDPCT, cimEnergyConsumer.QfixedPct));
}
}
}
public static void PopulatePowerTransformerProperties(FTN.PowerTransformer cimPowerTransformer, ResourceDescription rd, ImportHelper importHelper, TransformAndLoadReport report)
{
if ((cimPowerTransformer != null) && (rd != null))
{
LoadFlowConverter.PopulateConductingEquipmentProperties(cimPowerTransformer, rd, importHelper, report);
}
}
public static void PopulateConductorProperties(FTN.Conductor cimConductor, ResourceDescription rd, ImportHelper importHelper, TransformAndLoadReport report)
{
if ((cimConductor != null) && (rd != null))
{
LoadFlowConverter.PopulateConductingEquipmentProperties(cimConductor, rd, importHelper, report);
if (cimConductor.LengthHasValue)
{
rd.AddProperty(new Property(ModelCode.CONDUCTOR_LENGTH, cimConductor.Length));
}
}
}
public static void PopulateSwitchProperties(FTN.Switch cimSwitch, ResourceDescription rd, ImportHelper importHelper, TransformAndLoadReport report)
{
if ((cimSwitch != null) && (rd != null))
{
LoadFlowConverter.PopulateConductingEquipmentProperties(cimSwitch, rd, importHelper, report);
if (cimSwitch.NormalOpenHasValue)
{
rd.AddProperty(new Property(ModelCode.SWITCH_NORMALOPEN, cimSwitch.NormalOpen));
}
}
}
public static void PopulateEnergySourceProperties(FTN.EnergySource cimEnergySource, ResourceDescription rd, ImportHelper importHelper, TransformAndLoadReport report)
{
if ((cimEnergySource != null) && (rd != null))
{
LoadFlowConverter.PopulateConductingEquipmentProperties(cimEnergySource, rd, importHelper, report);
if (cimEnergySource.RHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_R, cimEnergySource.R));
}
if (cimEnergySource.R0HasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_R0, cimEnergySource.R0));
}
if (cimEnergySource.RnHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_RN, cimEnergySource.Rn));
}
if (cimEnergySource.XHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_X, cimEnergySource.X));
}
if (cimEnergySource.X0HasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_X0, cimEnergySource.X0));
}
if (cimEnergySource.XnHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_XN, cimEnergySource.Xn));
}
if (cimEnergySource.ActivePowerHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_ACTIVEPOWER, cimEnergySource.ActivePower));
}
if (cimEnergySource.NominalVoltageHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_NOMINALVOLTAGE, cimEnergySource.NominalVoltage));
}
if (cimEnergySource.VoltageAngleHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_VOLTAGEANGLE, cimEnergySource.VoltageAngle));
}
if (cimEnergySource.VoltageMagnitudeHasValue)
{
rd.AddProperty(new Property(ModelCode.ENERGYSOURCE_VOLTAGEMAGNITUDE, cimEnergySource.VoltageMagnitude));
}
}
}