public void CalcFlashHazardBoundaryAC([ValueSource(typeof(CalcNoXNoCAC), "GetCalculationInputSimples")] CalculationInputSimple inputSimple, [ValueSource(typeof(CalcNoXNoCAC), "GetCalculationOutputs")] CalculationOutput output) { CalculationInput input = Container.Resolve <ICalculationInput>() as CalculationInput; MapCalculationInputSimpleToCalculationInput(ref input, ref inputSimple); var fhb = Calc.CalcFlashHazardBoundaryAC(Calc.CalculateArcFaultCurrentAC(input)); var expected = RoundValue(output.FPB); var real = RoundValue(fhb); Assert.AreEqual(expected, real); }
public void CalcIncidentEnergyDistanceAC([ValueSource(typeof(CalcNoXNoCAC), "GetCalculationInputSimples")] CalculationInputSimple inputSimple, [ValueSource(typeof(CalcNoXNoCAC), "GetCalculationOutputs")] CalculationOutput output) { CalculationInput input = Container.Resolve <ICalculationInput>() as CalculationInput; MapCalculationInputSimpleToCalculationInput(ref input, ref inputSimple); decimal IE = Calc.CalcIncidentEnergyAC(input.WorkingDistance.Value, Calc.CalculateArcFaultCurrentAC(input)).Value; var expected = RoundValue(output.IncidentEnergy); var real = RoundValue(IE); Assert.AreEqual(expected, real); }
public void CalcRiskCategoryAC([ValueSource(typeof(CalcNoXNoCAC), "GetCalculationInputSimples")] CalculationInputSimple inputSimple, [ValueSource(typeof(CalcNoXNoCAC), "GetCalculationOutputs")] CalculationOutput output) { CalculationInput input = Container.Resolve <ICalculationInput>() as CalculationInput; MapCalculationInputSimpleToCalculationInput(ref input, ref inputSimple); var riskCat = Calc.RiskCategoryAC(output); var expected = output.HazardCat; var real = riskCat; Assert.AreEqual(expected, real); }
public void CalcBoltedFaultCurrentAC([ValueSource(typeof(CalcNoXNoCAC), "GetCalculationInputSimples")] CalculationInputSimple inputSimple, [ValueSource(typeof(CalcNoXNoCAC), "GetCalculationOutputs")] CalculationOutput output) { CalculationInput input = Container.Resolve <ICalculationInput>() as CalculationInput; MapCalculationInputSimpleToCalculationInput(ref input, ref inputSimple); decimal bfc = Calc.CalcBoltedFaultCurrentAC(input); var expected = RoundValue(output.BoltedFaultCurrent.Value); var real = RoundValue(bfc); Assert.AreEqual(expected, real); }
public void MapCalculationInputSimpleToCalculationInput(ref CalculationInput input, ref CalculationInputSimple inputSimple) { input.Id = inputSimple.Id; input.IsAlternatingCurrent = inputSimple.IsAlternatingCurrent; input.EquipmentTypeId = inputSimple.EquipmentTypeId; input.ArcDurationValue = inputSimple.ArcDurationValue; input.WorkingDistance = inputSimple.WorkingDistance; input.NominalVoltage = inputSimple.NominalVoltage; input.SourceFaultCurrent = inputSimple.SourceFaultCurrent; input.IsSolidGround = inputSimple.IsSolidGround; input.IsOpenAir = inputSimple.IsOpenAir; input.HasCable = inputSimple.HasCable; input.HasTransformer = inputSimple.HasTransformer; input.ConductorSizeId = inputSimple.ConductorSizeId; input.ConductorPerPhase = inputSimple.ConductorPerPhase; input.ConductorLength = inputSimple.ConductorLength; input.PrimaryVoltage = inputSimple.PrimaryVoltage; input.XfmrImpedance = inputSimple.XfmrImpedance; input.XfmrKVA = inputSimple.XfmrKVA; input.MaximumShortCircuitAvailable = inputSimple.MaximumShortCircuitAvailable; input.InCabinet = inputSimple.InCabinet; input.VoltageOfBattery = inputSimple.VoltageOfBattery; }