public void PowerNetworkUpdate() { powerSupply.PowerNetworkUpdate(); ActualVoltage = powerSupply.ActualVoltage; BatteryCalculation.PowerNetworkUpdate(this); if (ChangeToOff) { ChangeToOff = false; //PassChangeToOff = true; //ElectricalSynchronisation.ResistanceChange = true; //ElectricalSynchronisation.CurrentChange = true; //powerSupply.TurnOffSupply(); powerSupply.TurnOffSupply(); BatteryCalculation.TurnOffEverything(this); ElectricalSynchronisation.RemoveSupply(this, ApplianceType); } if (current != Previouscurrent) { if (Previouscurrent == 0 && !(current <= 0)) { // } else if (current == 0 && !(Previouscurrent <= 0)) { Logger.Log("FlushSupplyAndUp"); powerSupply.FlushSupplyAndUp(powerSupply.gameObject); //powerSupply.TurnOffSupply(); } powerSupply.SupplyingCurrent = current; Previouscurrent = current; ElectricalSynchronisation.CurrentChange = true; } if (Resistance != PreviousResistance) { if (PreviousResistance == 0 && !(Resistance == 0)) { powerSupply.CanProvideResistance = true; } else if (Resistance == 0 && !(PreviousResistance <= 0)) { powerSupply.CanProvideResistance = false; ElectricityFunctions.CleanConnectedDevices(powerSupply); } powerSupply.PassedDownResistance = Resistance; PreviousResistance = Resistance; ElectricalSynchronisation.ResistanceChange = true; ElectricalSynchronisation.CurrentChange = true; } Logger.Log(CurrentCapacity.ToString() + " < CurrentCapacity", Category.Electrical); }
public void PowerNetworkUpdate() { RelatedDevice.PowerNetworkUpdate(); ActualVoltage = RelatedDevice.Data.ActualVoltage; BatteryCalculation.PowerNetworkUpdate(this); if (ChangeToOff) { ChangeToOff = false; RelatedDevice.TurnOffSupply(); BatteryCalculation.TurnOffEverything(this); ElectricalSynchronisation.RemoveSupply(this, ApplianceType); } if (current != Previouscurrent) { if (Previouscurrent == 0 && !(current <= 0)) { } else if (current == 0 && !(Previouscurrent <= 0)) { RelatedDevice.FlushSupplyAndUp(RelatedDevice.gameObject); } RelatedDevice.Data.SupplyingCurrent = current; Previouscurrent = current; ElectricalSynchronisation.CurrentChange = true; } if (Resistance != PreviousResistance) { if (PreviousResistance == 0 && !(Resistance == 0)) { CanProvideResistance.Bool = true; } else if (Resistance == 0 && !(PreviousResistance <= 0)) { CanProvideResistance.Bool = false; ElectricalDataCleanup.CleanConnectedDevices(RelatedDevice); } PreviousResistance = Resistance; ElectricalSynchronisation.ResistanceChange = true; ElectricalSynchronisation.CurrentChange = true; } Logger.Log(CurrentCapacity.ToString() + " < CurrentCapacity", Category.Electrical); }