#### Single Starter/Generator electrical system #### #### Syd Adams #### #### Based on Curtis Olson's nasal electrical code #### var last_time = 0.0; var OutPuts = props.globals.getNode("/systems/electrical/outputs",1); var Volts = props.globals.getNode("/systems/electrical/volts",1); var Amps = props.globals.getNode("/systems/electrical/amps",1); var BATT = props.globals.getNode("/controls/electric/battery-switch",1); var ALT = props.globals.getNode("/controls/electric/engine/generator",1); var DIMMER = props.globals.getNode("/controls/lighting/instruments-norm",1); var NORM = 0.0357; var Battery={}; var Alternator={}; #var battery = Battery.new(volts,amps,amp_hours,charge_percent,charge_amps); Battery = { new : func { m = { parents : [Battery] }; m.ideal_volts = arg[0]; m.ideal_amps = arg[1]; m.amp_hours = arg[2]; m.charge_percent = arg[3]; m.charge_amps = arg[4]; return m; }, apply_load : func { var amphrs_used = arg[0] * arg[1] / 3600.0; var percent_used = amphrs_used / me.amp_hours; me.charge_percent -= percent_used; if ( me.charge_percent < 0.0 ) { me.charge_percent = 0.0; } elsif ( me.charge_percent > 1.0 ) { me.charge_percent = 1.0; } return me.amp_hours * me.charge_percent; }, get_output_volts : func { var x = 1.0 - me.charge_percent; var tmp = -(3.0 * x - 1.0); var factor = (tmp*tmp*tmp*tmp*tmp + 32) / 32; return me.ideal_volts * factor; }, get_output_amps : func { var x = 1.0 - me.charge_percent; var tmp = -(3.0 * x - 1.0); var factor = (tmp*tmp*tmp*tmp*tmp + 32) / 32; return me.ideal_amps * factor; } }; # var alternator = Alternator.new("rpm-source",rpm_threshold,volts,amps); Alternator = { new : func { m = { parents : [Alternator] }; m.rpm_source = props.globals.getNode(arg[0],1); m.rpm_threshold = arg[1]; m.ideal_volts = arg[2]; m.ideal_amps = arg[3]; return m; }, apply_load : func( amps, dt) { var factor = me.rpm_source.getValue() / me.rpm_threshold; if ( factor > 1.0 ){ factor = 1.0; } var available_amps = me.ideal_amps * factor; return available_amps - amps; }, get_output_volts : func { var factor = me.rpm_source.getValue() / me.rpm_threshold; if ( factor > 1.0 ) { factor = 1.0; } return me.ideal_volts * factor; }, get_output_amps : func { var factor = me.rpm_source.getValue() / me.rpm_threshold; if ( factor > 1.0 ) { factor = 1.0; } return me.ideal_amps * factor; } }; var battery = Battery.new(12,30,12,1.0,7.0); var alternator = Alternator.new("/engines/engine/rpm",250.0,12.0,30.0); ##################################### setlistener("/sim/signals/fdm-initialized", func { foreach(var a; props.globals.getNode("/systems/electrical/outputs").getChildren()){ a.setValue(0); } props.globals.getNode("/controls/anti-ice/prop-heat",1).setBoolValue(0); props.globals.getNode("/controls/anti-ice/pitot-heat",1).setBoolValue(0); props.globals.getNode("/controls/lighting/landing-lights[0]",1).setBoolValue(0); props.globals.getNode("/controls/lighting/landing-lights[1]",1).setBoolValue(0); props.globals.getNode("/controls/lighting/beacon",1).setBoolValue(0); props.globals.getNode("/controls/lighting/nav-lights",1).setBoolValue(0); props.globals.getNode("/controls/lighting/cabin-lights",1).setBoolValue(0); props.globals.getNode("/controls/lighting/wing-lights",1).setBoolValue(0); props.globals.getNode("/controls/lighting/strobe",1).setBoolValue(0); props.globals.getNode("/controls/lighting/instrument-lights",1).setBoolValue(1); props.globals.getNode("/controls/lighting/instruments-norm",1).setBoolValue(1); props.globals.getNode("/controls/lighting/taxi-light",1).setBoolValue(0); props.globals.getNode("/controls/cabin/fan",1).setBoolValue(0); props.globals.getNode("/controls/cabin/heat",1).setBoolValue(0); props.globals.getNode("/controls/electric/external-power",1).setBoolValue(0); props.globals.getNode("/controls/electric/battery-switch",1).setBoolValue(0); props.globals.getNode("/controls/electric/key",1).setValue(0); props.globals.getNode("/controls/electric/engine/generator",1).setBoolValue(0); props.globals.getNode("/controls/engines/engine/magnetos",1).setBoolValue(0); props.globals.getNode("/controls/engines/engine/throttle",1).setValue("1"); props.globals.getNode("/engines/engine/amp-v",1).setDoubleValue(0); props.globals.getNode("/controls/engines/engine/clutch",1).setBoolValue(0); props.globals.getNode("/controls/engines/engine/clutchguard",1).setBoolValue(0); props.globals.getNode("/controls/engines/engine/master-alt",1).setBoolValue(0); props.globals.getNode("/controls/engines/engine/master-bat",1).setBoolValue(0); props.globals.getNode("/controls/engines/engine/fuel-pump",1).setBoolValue(1); settimer(update_electrical,1); print("Electrical System ... OK"); }); var bus_volts = 0.0; var update_virtual_bus = func(dt) { var PWR = props.globals.getNode("systems/electrical/serviceable",1).getBoolValue(); var engine_state = props.globals.getNode("/engines/engine/running",1).getBoolValue(); var AltVolts = alternator.get_output_volts(); var BatVolts = battery.get_output_volts(); var load = 0.0; if (ALT.getBoolValue() and (AltVolts > (bus_volts-2))){ # Si le moteur tourne, et que le switch Alt est à ON et que la tension de l'alternateur est supérieur à celle du bus props.globals.getNode("/engines/engine/amp-v",1).setValue(AltVolts); # L'alternateur fournit la tension au moteur } elsif (BATT.getBoolValue()){ # Sinon si le switch de la batterie est à ON props.globals.getNode("/engines/engine/amp-v",1).setValue(BatVolts); # C'est la batterie qui fournie la tension au moteur } else { props.globals.getNode("/engines/engine/amp-v",1).setValue(0.0); } var bus_amps = 0.0; var power_source = nil; if (BATT.getBoolValue()){ if(PWR){bus_volts = BatVolts;} power_source = "battery"; } else { bus_volts = 0.0; } if (ALT.getBoolValue() and (AltVolts > (bus_volts-2))){ if(PWR){bus_volts = AltVolts;} power_source = "alternator"; } load += electrical_bus(bus_volts); load += avionics_bus(bus_volts); if (bus_volts > 1.0){ if (power_source == "battery") { # si la source est la batterie bus_amps = load; # l'intensité utilisé par le bus est la charge de tout } else { # sinon bus_amps = battery.charge_amps; # Sinon l'amperage du bus = 7A fourni par l'alternateur (mais limité à 7 par la batterie) } } if (power_source == "battery"){ # si la source est la batterie battery.apply_load(load, dt); # on decharge la batterie } elsif (bus_volts > BatVolts){ # sinon si la tension du bus est plus grande que la tension de la batterie battery.apply_load(-battery.charge_amps, dt); # on charge la batterie en lui envoyant 7A } Amps.setValue(bus_amps); Volts.setValue(bus_volts); return load; } var electrical_bus = func(){ var load = 0.0; var bus_volts = arg[0]; var starter_volts = 0.0; if(props.globals.getNode("/controls/lighting/landing-lights").getBoolValue()){ OutPuts.getNode("landing-lights",1).setValue(bus_volts); load += 1.2; } else { OutPuts.getNode("landing-lights",1).setValue(0.0); } if(props.globals.getNode("/controls/lighting/nav-lights").getBoolValue()){ OutPuts.getNode("nav-lights",1).setValue(bus_volts); load += 0.2; } else { OutPuts.getNode("nav-lights",1).setValue(0.0); } if(props.globals.getNode("/controls/lighting/taxi-light").getBoolValue()){ OutPuts.getNode("taxi-light",1).setValue(bus_volts); load += 1.2; } else { OutPuts.getNode("taxi-light",1).setValue(0.0); } if(props.globals.getNode("/controls/lighting/beacon").getBoolValue()){ OutPuts.getNode("beacon",1).setValue(bus_volts); load += 1.2; } else { OutPuts.getNode("beacon",1).setValue(0.0); } if(props.globals.getNode("/controls/lighting/cabin-lights").getBoolValue()){ OutPuts.getNode("cabin-lights",1).setValue(bus_volts); load += 0.6; } else { OutPuts.getNode("cabin-lights",1).setValue(0.0); } if(props.globals.getNode("/controls/engines/engine[0]/fuel-pump").getBoolValue()){ OutPuts.getNode("fuel-pump",1).setValue(bus_volts); load += 1.2; } else { OutPuts.getNode("fuel-pump",1).setValue(0.0); } if (props.globals.getNode("/controls/engines/engine[0]/starter").getBoolValue()){ starter_volts = bus_volts; load += 8.0; # print("Start engine"); } OutPuts.getNode("starter",1).setValue(starter_volts); return load; } var avionics_bus = func() { var load = 0.0; var bus_volts = arg[0]; if (props.globals.getNode("/controls/lighting/instrument-lights").getBoolValue()){ OutPuts.getNode("instrument-lights",1).setValue((bus_volts) * DIMMER.getValue()); load += 0.25 * DIMMER.getValue(); } else { OutPuts.getNode("instrument-lights",1).setValue(0.0); } # OutPuts.getNode("transponder",1).setValue(bus_volts); # OutPuts.getNode("nav[0]",1).setValue(bus_volts); # OutPuts.getNode("nav[1]",1).setValue(bus_volts); # OutPuts.getNode("comm[0]",1).setValue(bus_volts); # OutPuts.getNode("comm[1]",1).setValue(bus_volts); setprop("/systems/electrical/outputs/nav[0]", bus_volts); setprop("/systems/electrical/outputs/comm[0]", bus_volts); if(bus_volts > 0) { #if there is power then turn on the radios setprop("systems/electrical/outputs/comm[0]", 1); if(getprop("sim/model/r44/controls/lighting/nav-lights") == 1) { setprop("controls/lighting/nav-lights",1); } else { setprop("controls/lighting/nav-lights",0); } if(getprop("sim/model/r44/controls/lighting/beacon") == 1) { setprop("controls/lighting/beacon",1); } else { setprop("controls/lighting/beacon",0); } if(getprop("sim/model/r44/use-landing-light") == 1) { setprop("/sim/rendering/als-secondary-lights/use-landing-light",1); } else { setprop("/sim/rendering/als-secondary-lights/use-landing-light",0); } } else { setprop("systems/electrical/outputs/comm[0]", 0); setprop("controls/lighting/nav-lights",0); setprop("controls/lighting/beacon",0); setprop("/sim/rendering/als-secondary-lights/use-landing-light",0); } return load; } var update_electrical = func { var time = getprop("/sim/time/elapsed-sec"); var dt = time - last_time; var last_time = time; update_virtual_bus(dt); settimer(update_electrical, 0); }