public static List <MeasurementItemStruct> JobList2MeasurementItems(JobList jobList)
{
List <MeasurementItemStruct> miList = new List <MeasurementItemStruct>();
//miList.Add(MeasurementItemStruct.CreateInformation("添加使用用户信息模块"));//问题
int TapNum = (jobList.Transformer.OLTC.TapNum - 1) / 2;
if (jobList.Transformer.OLTC.Contained == true)
{
miList.Add(MeasurementItemStruct.CreateText("将变压器有载分接开关位置切换到额定分接(分接" + (TapNum + 1).ToString() + "B)位置;"));
}
if (jobList.DCInsulation.Enabled || jobList.Bushing.DCInsulation)
{
miList.Add(MeasurementItemStruct.CreateText("使用绝缘电阻试验模块:"));
if (jobList.DCInsulation.HVEnabled)
{
miList.Add(MeasurementItemStruct.CreateDCInsulationMeasurementItem(WindingType.HV));
}
if ((jobList.Bushing.DCInsulation) && (jobList.Transformer.Bushing.HVContained))
{
if (jobList.Transformer.WindingConfig.HV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.HV, WindingTerimal.O));
}
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.HV, WindingTerimal.A));
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.HV, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.HV, WindingTerimal.C));
}
if (jobList.DCInsulation.MVEnabled)
{
miList.Add(MeasurementItemStruct.CreateDCInsulationMeasurementItem(WindingType.MV));
}
if ((jobList.Bushing.DCInsulation) && (jobList.Transformer.Bushing.MVContained))
{
if (jobList.Transformer.WindingConfig.MV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.MV, WindingTerimal.O));
}
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.MV, WindingTerimal.A));
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.MV, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.MV, WindingTerimal.C));
}
if (jobList.DCInsulation.LVEnabled)
{
miList.Add(MeasurementItemStruct.CreateDCInsulationMeasurementItem(WindingType.LV));
}
}
if (jobList.Capacitance.Enabled || jobList.Bushing.Capacitance)
{
miList.Add(MeasurementItemStruct.CreateText("使用电容量及介质损耗试验模块:"));
if (jobList.Capacitance.HVEnabled)
{
miList.Add(MeasurementItemStruct.CreateCapacitanceMeasurementItem(WindingType.HV));
}
if ((jobList.Bushing.Capacitance) && (jobList.Transformer.Bushing.HVContained))
{
if (jobList.Transformer.WindingConfig.HV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.HV, WindingTerimal.O));
}
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.HV, WindingTerimal.A));
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.HV, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.HV, WindingTerimal.C));
}
if (jobList.Capacitance.MVEnabled)
{
miList.Add(MeasurementItemStruct.CreateCapacitanceMeasurementItem(WindingType.MV));
}
if ((jobList.Bushing.Capacitance) && (jobList.Transformer.Bushing.MVContained))
{
if (jobList.Transformer.WindingConfig.MV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.MV, WindingTerimal.O));
}
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.MV, WindingTerimal.A));
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.MV, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.MV, WindingTerimal.C));
}
if (jobList.Capacitance.LVEnabled)
{
miList.Add(MeasurementItemStruct.CreateCapacitanceMeasurementItem(WindingType.LV));
}
}
if (jobList.DCResistance.Enabled)
{
miList.Add(MeasurementItemStruct.CreateText("使用直流电阻试验模块:"));
if ((jobList.DCResistance.HVEnabled) && (!((jobList.OLTC.Enabled) && (jobList.Transformer.OLTC.WindingPosition == WindingType.HV) && (jobList.OLTC.DCResistance))))
{
if ((jobList.Transformer.PhaseNum == 3))
{
if (jobList.Transformer.WindingConfig.HV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV));
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV, WindingTerimal.A, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV, WindingTerimal.B, WindingTerimal.C));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV, WindingTerimal.C, WindingTerimal.A));
}
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV, WindingTerimal.A, WindingTerimal.O));
}
}
if ((jobList.DCResistance.MVEnabled) && (!((jobList.OLTC.Enabled) && (jobList.Transformer.OLTC.WindingPosition == WindingType.MV) && (jobList.OLTC.DCResistance))))
{
if ((jobList.Transformer.PhaseNum == 3))
{
if (jobList.Transformer.WindingConfig.MV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV));
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV, WindingTerimal.A, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV, WindingTerimal.B, WindingTerimal.C));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV, WindingTerimal.C, WindingTerimal.A));
}
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV, WindingTerimal.A, WindingTerimal.O));
}
}
if (jobList.DCResistance.LVEnabled)
{
if ((jobList.Transformer.PhaseNum == 3))
{
if (jobList.Transformer.WindingConfig.LV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV));
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV, WindingTerimal.A, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV, WindingTerimal.B, WindingTerimal.C));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV, WindingTerimal.C, WindingTerimal.A));
}
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV, WindingTerimal.A, WindingTerimal.O));
}
}
}
if (jobList.OLTC.Enabled)
{
int range = jobList.OLTC.Range;
int lowest = TapNum - range + 1;
int highest = TapNum + range + 1;
miList.Add(MeasurementItemStruct.CreateText("使用直阻与有载分接试验模块:"));
int i = TapNum + 1;
char j = (char)((int)'A' + (jobList.Transformer.OLTC.TapMainNum - 1) / 2);
int k;
string lastTapName = i.ToString();
string currentTapName;
if (jobList.Transformer.OLTC.TapMainNum > 1)
{
for (k = (jobList.Transformer.OLTC.TapMainNum - 1) / 2; k > 0; k--)
{
j = (char)((int)'A' + k);
lastTapName = i.ToString() + j.ToString();
currentTapName = i.ToString() + ((char)(j - 1)).ToString();
if (jobList.OLTC.DCResistance == true)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
}
if (jobList.OLTC.SwitchingCharacter)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.MV));
}
}
lastTapName = currentTapName;
}
}
for (i = TapNum; i >= lowest; i--)
{
currentTapName = i.ToString();
if (jobList.OLTC.DCResistance)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
}
if (jobList.OLTC.SwitchingCharacter)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.MV));
}
}
lastTapName = currentTapName;
}
if (jobList.OLTC.DCResistance)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
}
for (i = lowest + 1; i <= TapNum; i++)
{
currentTapName = i.ToString();
//if (jobList.OLTC.DCResistance)
//{
// miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
//}
if (jobList.OLTC.SwitchingCharacter)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.MV));
}
}
lastTapName = currentTapName;
}
i = TapNum + 1;
if (jobList.Transformer.OLTC.TapMainNum > 1)
{
for (k = 1; k <= jobList.Transformer.OLTC.TapMainNum; k++)
{
j = (char)((int)'A' + k - 1);
currentTapName = i.ToString() + j.ToString();
//if (jobList.OLTC.DCResistance)
//{
// miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
//}
if (jobList.OLTC.SwitchingCharacter)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.MV));
}
}
lastTapName = currentTapName;
}
}
else
{
currentTapName = i.ToString();
//if (jobList.OLTC.DCResistance)
//{
// miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
//}
if (jobList.OLTC.SwitchingCharacter)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.MV));
}
}
lastTapName = currentTapName;
}
for (i = TapNum + 2; i <= highest; i++)
{
currentTapName = i.ToString();
if (jobList.OLTC.DCResistance)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
}
if (jobList.OLTC.SwitchingCharacter)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.MV));
}
}
lastTapName = currentTapName;
}
if (jobList.OLTC.DCResistance)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
}
for (i = highest - 1; i > (TapNum + 1); i--)
{
currentTapName = i.ToString();
//if (jobList.OLTC.DCResistance)
//{
// miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
//}
if (jobList.OLTC.SwitchingCharacter)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.MV));
}
}
lastTapName = currentTapName;
}
i = TapNum + 1;
if (jobList.Transformer.OLTC.TapMainNum > 1)
{
for (k = jobList.Transformer.OLTC.TapMainNum; k > ((jobList.Transformer.OLTC.TapMainNum - 1) / 2); k--)
{
j = (char)((int)'A' + k - 1);
currentTapName = i.ToString() + j.ToString();
//if (jobList.OLTC.DCResistance)
//{
// miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
//}
if (jobList.OLTC.SwitchingCharacter)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.MV));
}
}
lastTapName = currentTapName;
}
}
else
{
currentTapName = i.ToString();
//if (jobList.OLTC.DCResistance)
//{
// miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName));
//}
if (jobList.OLTC.SwitchingCharacter)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, lastTapName, currentTapName, jobList.Transformer.WindingConfig.MV));
}
}
lastTapName = currentTapName;
}
}
return(miList);
}
//JobList2MeasurementItems //getJobListMeasurementItems
public static List <MeasurementItemStruct> JobList2MeasurementItems(JobList jobList)
{
List <MeasurementItemStruct> miList = new List <MeasurementItemStruct>();
//miList.Add(MeasurementItemStruct.CreateInformation("添加使用用户信息模块"));//问题
int TapNum = (jobList.Transformer.OLTC.TapNum - 1) / 2;
int mulTapNum = (jobList.Transformer.OLTC.MulTapNum - 1) / 2;
int TapLocation = mulTapNum + 1;
int TapMainNum = jobList.Transformer.OLTC.TapMainNum;
if (jobList.OLTC.Enabled)
{
int lowest = TapLocation - jobList.OLTC.MulRange;
int highest = TapLocation + jobList.OLTC.Range;
if (jobList.OLTC.SwitchingCharacter)
{
miList.Add(MeasurementItemStruct.CreateText("将变压器有载分接开关位置切换到额定(分接" + lowest + ")位置;", lowest.ToString()));
for (int i = lowest; i < highest; i++)
{
getStartAndEndMessage(i, TapLocation, TapMainNum, jobList, miList);
if (i != TapLocation && i != TapLocation - 1 || TapMainNum <= 1)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, i.ToString(), (i + 1).ToString(), jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, i.ToString(), (i + 1).ToString(), jobList.Transformer.WindingConfig.MV));
}
}
}
for (int i = highest; i > lowest; i--)
{
getStartAndEndMessageReserver(i, TapLocation, TapMainNum, jobList, miList);
if (i != TapLocation && i != TapLocation + 1 || TapMainNum <= 1)
{
if (jobList.Transformer.OLTC.WindingPosition == WindingType.HV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, i.ToString(), (i - 1).ToString(), jobList.Transformer.WindingConfig.HV));
}
if (jobList.Transformer.OLTC.WindingPosition == WindingType.MV)
{
miList.Add(MeasurementItemStruct.CreateOLTCSwitchingCharacterMeasurementItem(jobList.Transformer.OLTC.WindingPosition, i.ToString(), (i - 1).ToString(), jobList.Transformer.WindingConfig.MV));
}
}
}
}
if (jobList.OLTC.DCResistance)
{
miList.Add(MeasurementItemStruct.CreateText("分接位置直流电阻试验,请确认有载分接开关在(分接" + lowest + ")位置;", lowest.ToString()));
if (!OltcLocationIsDorYn(jobList))
{
for (int i = lowest; i <= highest; i++)
{
if (TapMainNum > 1 && i == TapLocation)
{
for (int j = 0; j < TapMainNum; j++)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, i.ToString() + ((char)('A' + j)).ToString()));
}
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, i.ToString()));
}
}
}
else
{
for (int p = 0; p < 3; p++)
{
for (int i = lowest; i <= highest; i++)
{
WindingTerimal firstTerminal = WindingTerimal.A;
WindingTerimal SecondTerminal = WindingTerimal.B;
if (p == 0)
{
firstTerminal = WindingTerimal.A;
SecondTerminal = WindingTerimal.B;
}
else if (p == 1)
{
firstTerminal = WindingTerimal.B;
SecondTerminal = WindingTerimal.C;
}
else
{
firstTerminal = WindingTerimal.C;
SecondTerminal = WindingTerimal.A;
}
if (TapMainNum > 1 && i == TapLocation)
{
for (int j = 0; j < TapMainNum; j++)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, firstTerminal, SecondTerminal, i.ToString() + ((char)('A' + j)).ToString()));
}
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(jobList.Transformer.OLTC.WindingPosition, firstTerminal, SecondTerminal, i.ToString()));
}
}
}
}
}
}
if (jobList.DCResistance.Enabled)
{
//miList.Add(MeasurementItemStruct.CreateText("使用直流电阻试验模块:"));
if ((jobList.DCResistance.HVEnabled) && (!((jobList.OLTC.Enabled) && (jobList.Transformer.OLTC.WindingPosition == WindingType.HV) && (jobList.OLTC.DCResistance))))
{
if ((jobList.Transformer.PhaseNum == 3))
{
if (jobList.Transformer.WindingConfig.HV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV));
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV, WindingTerimal.A, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV, WindingTerimal.B, WindingTerimal.C));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV, WindingTerimal.C, WindingTerimal.A));
}
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.HV, WindingTerimal.A, WindingTerimal.O));
}
}
if ((jobList.DCResistance.MVEnabled) && (!((jobList.OLTC.Enabled) && (jobList.Transformer.OLTC.WindingPosition == WindingType.MV) && (jobList.OLTC.DCResistance))))
{
if ((jobList.Transformer.PhaseNum == 3))
{
if (jobList.Transformer.WindingConfig.MV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV));
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV, WindingTerimal.A, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV, WindingTerimal.B, WindingTerimal.C));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV, WindingTerimal.C, WindingTerimal.A));
}
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.MV, WindingTerimal.A, WindingTerimal.O));
}
}
if (jobList.DCResistance.LVEnabled)
{
if ((jobList.Transformer.PhaseNum == 3))
{
if (jobList.Transformer.WindingConfig.LV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV));
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV, WindingTerimal.A, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV, WindingTerimal.B, WindingTerimal.C));
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV, WindingTerimal.C, WindingTerimal.A));
}
}
else
{
miList.Add(MeasurementItemStruct.CreateDCResistanceMeasurementItem(WindingType.LV, WindingTerimal.A, WindingTerimal.O));
}
}
}
if (jobList.DCInsulation.Enabled || jobList.Bushing.DCInsulation)
{
miList.Add(MeasurementItemStruct.CreateText("使用绝缘电阻试验模块:"));
if (jobList.DCInsulation.HVEnabled)
{
miList.Add(MeasurementItemStruct.CreateDCInsulationMeasurementItem(WindingType.HV));
}
if ((jobList.Bushing.DCInsulation) && (jobList.Transformer.Bushing.HVContained))
{
if (jobList.Transformer.WindingConfig.HV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.HV, WindingTerimal.O));
}
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.HV, WindingTerimal.A));
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.HV, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.HV, WindingTerimal.C));
}
if (jobList.DCInsulation.MVEnabled)
{
miList.Add(MeasurementItemStruct.CreateDCInsulationMeasurementItem(WindingType.MV));
}
if ((jobList.Bushing.DCInsulation) && (jobList.Transformer.Bushing.MVContained))
{
if (jobList.Transformer.WindingConfig.MV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.MV, WindingTerimal.O));
}
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.MV, WindingTerimal.A));
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.MV, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateBushingDCInsulationMeasurementItem(WindingType.MV, WindingTerimal.C));
}
if (jobList.DCInsulation.LVEnabled)
{
miList.Add(MeasurementItemStruct.CreateDCInsulationMeasurementItem(WindingType.LV));
}
}
if (jobList.Capacitance.Enabled || jobList.Bushing.Capacitance)
{
miList.Add(MeasurementItemStruct.CreateText("使用电容量及介质损耗试验模块:"));
if (jobList.Capacitance.HVEnabled)
{
miList.Add(MeasurementItemStruct.CreateCapacitanceMeasurementItem(WindingType.HV));
}
if ((jobList.Bushing.Capacitance) && (jobList.Transformer.Bushing.HVContained))
{
if (jobList.Transformer.WindingConfig.HV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.HV, WindingTerimal.O));
}
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.HV, WindingTerimal.A));
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.HV, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.HV, WindingTerimal.C));
}
if (jobList.Capacitance.MVEnabled)
{
miList.Add(MeasurementItemStruct.CreateCapacitanceMeasurementItem(WindingType.MV));
}
if ((jobList.Bushing.Capacitance) && (jobList.Transformer.Bushing.MVContained))
{
if (jobList.Transformer.WindingConfig.MV == TransformerWindingConfigName.Yn)
{
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.MV, WindingTerimal.O));
}
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.MV, WindingTerimal.A));
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.MV, WindingTerimal.B));
miList.Add(MeasurementItemStruct.CreateBushingCapacitanceMeasurementItem(WindingType.MV, WindingTerimal.C));
}
if (jobList.Capacitance.LVEnabled)
{
miList.Add(MeasurementItemStruct.CreateCapacitanceMeasurementItem(WindingType.LV));
}
}
if (jobList.LossDcresistance)
{
miList.Add(MeasurementItemStruct.CreateOtherMeasurementItem(1));
}
if (jobList.Shortcircuitimpedance)
{
miList.Add(MeasurementItemStruct.CreateOtherMeasurementItem(3));
}
if (jobList.CoreDCInsulation)
{
miList.Add(MeasurementItemStruct.CreateOtherMeasurementItem(0));
}
return(miList);
}