#### Bendix-King KFC-200 Flight Director #### # off - Off: v-bars hidden # hdg - Heading: v-bars command a turn to the heading bug # appr - Approach: bank and pitch commands capture and track LOC and GS # bc - Reverse Localizer: bank command to caputre and track a reverse LOC # course. GS is locked out. # arm - Standby mode to compute capture point for nav, appr, or bc. # cpld - Coupled: Active mode for nav, appr, or bc. # ga - Go Around: commands wings level and missed approach attitude. # alt - Altitude hold: commands pitch to hold altitude # vertical trim - pitch command to adjust altitude at 500 fpm while in alt hold # or pitch attitude at rate of 1 deg/sec when not in alt hold # yd - Yaw Damper: system senses motion around ayw axis and moves rudder to # oppose yaw. fdprop = props.globals.getNode("/instrumentation/kfc200",1); fdmode = "off"; fdmodeV = "off"; fdmode_last = "off"; current_alt=0.0; alt_select = 0.0; alt_offset = 0.0; DH = 0; NAVGS = props.globals.getNode("/instrumentation/nav/has-gs",1); NAVGS_RANGE = props.globals.getNode("/instrumentation/nav/gs-distance",1); NAVBC = props.globals.getNode("/instrumentation/nav/back-course-btn",1); NAV_IN_RANGE = props.globals.getNode("/instrumentation/nav/in-range",1); HDG_DEFLECTION = props.globals.getNode("/instrumentation/nav/heading-needle-deflection",1); GS_DEFLECTION = props.globals.getNode("/instrumentation/nav/gs-needle-deflection",1); HDG = props.globals.getNode("/autopilot/locks/heading",1); ALT = props.globals.getNode("/autopilot/locks/altitude",1); SPD = props.globals.getNode("/autopilot/locks/speed",1); setlistener("/sim/signals/fdm-initialized", func { fdprop.getNode("serviceable",1).setBoolValue(1); fdprop.getNode("fd-on",1).setBoolValue(0); fdprop.getNode("fdmode",1).setValue("off"); fdprop.getNode("fdmodeV",1).setValue("off"); fdprop.getNode("alt-offset",1).setValue(0.0); fdprop.getNode("alt-alert",1).setBoolValue(0); DH = props.globals.getNode("/autopilot/route-manager/min-lock-altitude-agl-ft").getValue(); alt_select = 0; print("KFC-200 ... OK"); }); setlistener("/instrumentation/kfc200/fd-on", func { var fdON = cmdarg().getValue(); if(!fdprop.getNode("serviceable").getBoolValue()){return;} clear_ap(); }); setlistener("/autopilot/settings/target-altitude-ft",func { if(!fdprop.getNode("serviceable").getBoolValue()){return;} alt_select = cmdarg().getValue(); }); setlistener("/autopilot/route-manager/min-lock-altitude-agl-ft", func { if(!fdprop.getNode("serviceable").getBoolValue()){return;} DH = cmdarg().getValue(); }); setlistener("/instrumentation/kfc200/fdmode", func { if(!fdprop.getNode("serviceable").getBoolValue()){return;} fdmode = cmdarg().getValue(); NAVBC.setBoolValue(0); if(fdmode == "off"){HDG.setValue("wing-leveler");return;} if(fdmode == "hdg"){ HDG.setValue("dg-heading-hold"); return;} if(fdmode == "appr"){ HDG.setValue("nav1-hold"); if(NAVGS.getBoolValue()){ fdprop.getNode("fdmodeV").setValue("gs-arm"); } return;} if(fdmode == "nav-arm"){ HDG.setValue("dg-heading-hold"); return;} if(fdmode == "nav-cpld"){ HDG.setValue("nav1-hold"); return;} if(fdmode == "bc"){ HDG.setValue("nav1-hold"); NAVBC.setBoolValue(1); return;} }); setlistener("/instrumentation/kfc200/fdmodeV", func { if(!fdprop.getNode("serviceable").getBoolValue()){return;} altmode = cmdarg().getValue(); if(altmode == "off"){ setprop("/autopilot/settings/target-pitch-deg",getprop("/orientation/pitch-deg")); ALT.setValue("pitch-hold"); return;} if(altmode == "alt-arm"){ ALT.setValue("pitch-hold"); return;} if(altmode == "alt"){ ALT.setValue("altitude-hold"); return;} if(altmode == "gs-arm"){ ALT.setValue("pitch-hold"); return;} if(altmode == "gs"){ ALT.setValue("gs1-hold"); return;} }); clear_ap = func { setprop("/autopilot/settings/target-pitch-deg",getprop("/orientation/pitch-deg")); HDG.setValue("wing-leveler"); ALT.setValue("pitch-hold"); } update_nav = func { if(!fdprop.getNode("serviceable").getBoolValue()){return;} var APmode = fdprop.getNode("fdmode").getValue(); var VNAV = fdprop.getNode("fdmodeV").getValue(); if(APmode == "nav-arm"){ if(NAV_IN_RANGE.getBoolValue()){ var offset = HDG_DEFLECTION.getValue(); if(offset < 5 or offset > -5){ fdprop.getChild("fdmode").setValue("nav-cpld"); }else{ fdprop.getChild("fdmode").setValue("nav-arm"); } } } if(VNAV == "gs-arm"){ if(NAVGS_RANGE.getValue()< 30000){ test = GS_DEFLECTION.getValue(); if(test < 1 ){fdprop.getNode("fdmodeV").setValue("gs");} } } if(VNAV == "alt-arm"){ var offset = fdprop.getNode("alt-offset").getValue(); if(offset > -990 and offset < 990){ fdprop.getNode("fdmodeV").setValue("alt");} } if(VNAV == "alt"){ offset = fdprop.getNode("alt-offset").getValue(); if(offset < -990 and offset > 990){ fdprop.getNode("fdmodeV").setValue("alt-arm");} } } get_altoffset = func{ current_alt = props.globals.getNode("/instrumentation/altimeter/indicated-altitude-ft").getValue(); var offset = (current_alt - alt_select); var alert =0; fdprop.getNode("alt-offset").setValue(offset); if(offset > -1000 and offset < -300){alert = 1;} if(offset < 1000 and offset > 300){alert = 1;} fdprop.getNode("alt-alert").setBoolValue(alert); if(getprop("/position/altitude-agl-ft") < DH){props.globals.getNode("/autopilot/locks/passive-mode").setBoolValue(1);} } update = func { get_altoffset(); update_nav(); settimer(update, 0); } settimer(update, 0);