f67b8ab124
Updated KFC200 ALTITUDE mode ... sets pitch hold until selected altitude is captured ... pitch controlled by switch on controller... KNS 80 nav radio can store 1 selected radial per stored frequency ... stored distance will come when I understand RNAV better... More instruments underway....
80 lines
3.2 KiB
Text
80 lines
3.2 KiB
Text
#### King KNS-80 Integrated Navigation System ####
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#### Syd Adams ####
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####
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#### Must be included in the Set file to run the KNS80 radio
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####
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KNS80 = props.globals.getNode("/instrumentation/kns-80",1);
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NAV1 = props.globals.getNode("/instrumentation/nav/frequencies/selected-mhz",1);
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NAV1_RADIAL = props.globals.getNode("/instrumentation/nav/radials/selected-deg",1);
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FDM_ON = 0;
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setlistener("/sim/signals/fdm-initialized", func {
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KNS80.getNode("serviceable",1).setBoolValue(1);
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KNS80.getNode("volume",1).setValue(0.5);
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KNS80.getNode("display",1).setValue(0);
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KNS80.getNode("use",1).setValue(0);
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KNS80.getNode("data-mode",1).setValue(0);
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KNS80.getNode("displayed-frequency",1).setValue(NAV1.getValue()* 100);
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KNS80.getNode("displayed-distance",1).setValue(0);
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KNS80.getNode("displayed-radial",1).setValue(NAV1_RADIAL.getValue());
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KNS80.getNode("wpt[0]/frequency",1).setValue(NAV1.getValue()* 100);
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KNS80.getNode("wpt[0]/radial",1).setValue(NAV1_RADIAL.getValue());
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KNS80.getNode("wpt[0]/distance",1).setValue(0.0);
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KNS80.getNode("wpt[1]/frequency",1).setValue(10800);
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KNS80.getNode("wpt[1]/radial",1).setValue(0);
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KNS80.getNode("wpt[1]/distance",1).setValue(0.0);
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KNS80.getNode("wpt[2]/frequency",1).setValue(10800);
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KNS80.getNode("wpt[2]/radial",1).setValue(0);
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KNS80.getNode("wpt[2]/distance",1).setValue(0.0);
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KNS80.getNode("wpt[3]/frequency",1).setValue(10800);
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KNS80.getNode("wpt[3]/radial",1).setValue(0);
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KNS80.getNode("wpt[3]/distance",1).setValue(0.0);
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FDM_ON = 1;
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print("KNS-80 Nav System ... OK");
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});
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setlistener("/instrumentation/kns-80/displayed-frequency", func {
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if(FDM_ON == 0){return;}
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var freq = cmdarg().getValue();
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var num = KNS80.getNode("display").getValue();
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var use = KNS80.getNode("use").getValue();
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KNS80.getNode("wpt[" ~ num ~ "]/frequency").setValue(freq);
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NAV1.setValue(KNS80.getNode("wpt[" ~ use ~ "]/frequency").getValue() * 0.01);
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});
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setlistener("/instrumentation/kns-80/displayed-radial", func {
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if(FDM_ON == 0){return;}
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var rad = cmdarg().getValue();
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var num = KNS80.getNode("display").getValue();
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var radial = KNS80.getNode("use").getValue();
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KNS80.getNode("wpt[" ~ num ~ "]/radial").setValue(rad);
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NAV1_RADIAL.setValue(KNS80.getNode("wpt[" ~ radial ~ "]/radial").getValue());
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});
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setlistener("/instrumentation/kns-80/serviceable", func {
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if(FDM_ON == 0){return;}
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setprop("/instrumentation/nav/serviceable",cmdarg().getValue());
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setprop("/instrumentation/dme/serviceable",cmdarg().getValue());
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});
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setlistener("/instrumentation/kns-80/volume", func {
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if(FDM_ON == 0){return;}
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#setprop("/instrumentation/nav/volume",cmdarg().getValue());
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setprop("/instrumentation/dme/volume",cmdarg().getValue());
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});
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setlistener("/instrumentation/kns-80/use", func {
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if(FDM_ON == 0){return;}
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var freq = cmdarg().getValue();
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NAV1.setValue(KNS80.getNode("wpt[" ~ freq ~ "]/frequency").getValue()* 0.01);
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NAV1_RADIAL.setValue(KNS80.getNode("wpt[" ~ freq ~ "]/radial").getValue());
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});
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setlistener("/instrumentation/kns-80/display", func {
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if(FDM_ON == 0){return;}
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var freq = cmdarg().getValue();
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KNS80.getNode("displayed-frequency").setValue(KNS80.getNode("wpt[" ~ freq ~ "]/frequency").getValue());
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KNS80.getNode("displayed-radial").setValue(KNS80.getNode("wpt[" ~ freq ~ "]/radial").getValue());
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});
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