Exemple #1
0
    public static void ElectricityOutput(VIRCurrent Current,
                                         ElectricalOIinheritance SourceInstance,
                                         IntrinsicElectronicData Thiswire)
    {
        //Logger.Log("4 > " + Current);
        //Logger.Log("poke > " + SourceInstance.InData.Data.SupplyDependent[SourceInstance].ToString());
        var        OutputSupplyingUsingData = Thiswire.Data.SupplyDependent[SourceInstance];
        VIRCurrent SupplyingCurrent         = null;
        float      Divider = (ElectricityFunctions.WorkOutResistance(OutputSupplyingUsingData.ResistanceComingFrom));

        foreach (KeyValuePair <IntrinsicElectronicData, VIRResistances> JumpTo in OutputSupplyingUsingData
                 .ResistanceComingFrom)
        {
            if (OutputSupplyingUsingData.ResistanceComingFrom.Count > 1)
            {
                SupplyingCurrent = Current.SplitCurrent(Divider / JumpTo.Value.Resistance());
            }
            else
            {
                SupplyingCurrent = Current;
            }

            OutputSupplyingUsingData.CurrentGoingTo[JumpTo.Key] = SupplyingCurrent;
            if (JumpTo.Key != null && JumpTo.Key.Categorytype != PowerTypeCategory.DeadEndConnection)
            {
                JumpTo.Key.ElectricityInput(SupplyingCurrent, SourceInstance, Thiswire);
            }
        }
    }
Exemple #2
0
    public static VIRCurrent ElectricalStageTransformerCalculate(TransformerModule TransformInformation,
                                                                 VIRCurrent Current,
                                                                 float ResistanceModified,
                                                                 float inVoltage,
                                                                 bool FromHighSide = false)
    {
        double TurnRatio = TransformInformation.TurnRatio;

        if (!FromHighSide)
        {
            TurnRatio = 1 / TransformInformation.TurnRatio;
        }

        double Voltage = (Current.Current() * ResistanceModified);

        //Logger.Log("Current.Current() > " + Current.Current() + " ResistanceModified > " + ResistanceModified);

        //Logger.Log(TransformInformation.TurnRatio + " < TurnRatio " + TransformInformation.VoltageLimiting + " < VoltageLimiting " + TransformInformation.VoltageLimitedTo + " < VoltageLimitedTo ");
        if (Voltage != 0)
        {
            double offcut = 0;

            //double V2 = Voltage / TurnRatio;
            //double R2 = V2 / ((Voltage / V2) * (Voltage / ResistanceModified));
            //double R2 = (ResistanceModified / Math.Pow(TurnRatio, 2.0));

            double V2 = Voltage / TurnRatio;
            double R2 = V2 / ((Voltage / V2) * (Voltage / ResistanceModified));
            //Logger.Log(R2 + " < R2 " + V2 + " < V2 " + ResistanceModified + " < ResistanceModified" + TurnRatio + " < TurnRatio " + Voltage + " < Voltage ");
            if (!(TransformInformation.VoltageLimiting == 0))
            {             //if Total Voltage greater than that then  Push some of it to ground  to == VoltageLimitedTo And then everything after it to ground/
                          //float VVoltage = ElectricityFunctions.WorkOutVoltage(TransformInformation.ControllingNode.Node);
                if (V2 + inVoltage > TransformInformation.VoltageLimiting)
                {
                    offcut = ((V2 + inVoltage) - TransformInformation.VoltageLimitedTo);
                    V2     = V2 - offcut;
                    if (V2 < 0)
                    {
                        V2 = 0;
                    }
                }
            }

            //inVoltage
            TurnRatio = TurnRatio * (V2 / (Voltage / TurnRatio));

            //Logger.Log("V2 " + V2.ToString());
            //Logger.Log("I2 " + I2.ToString());
            //Logger.Log("Current.Current() " + Current.Current().ToString());
            var ReturnCurrent = Current.SplitCurrent((float)TurnRatio);
            //Logger.Log("ReturnCurrent " + ReturnCurrent.Current().ToString());
            return(ReturnCurrent);
        }
        return(Current);
    }