ruggero Geschrieben 26. Dezember 2002 Geschrieben 26. Dezember 2002 Hoi Simmerfreunde, Frage ich möchte die Posky - B777 mit dem PSS-Panel fliegen. muss hier die cgf oder änliches angepasst werden, oder kann ich das Panel einfach verlinken ohne etwas zu ändern? Hat jemand diesbezüglich Erfahrungen gemacht, schon geflogen oder sogar eine solche Kombination in seinem hangar? Weiss jemand auch wies bei der Posky 767 mit dem Panel von PIC 767 aussieht? Für Eure Tips und Ratschläge wäre ich sehr dankbar Gruss an die Flusigemeinde Ruggero Zitieren
Markus Burkhard Geschrieben 26. Dezember 2002 Geschrieben 26. Dezember 2002 Hallo Ruggero Die Kombination 767PIC und Posky's B763 Version 3 funktioniert perfekt. Alles was du dazu brauchst ist dieses File: http://www.sls.lcs.mit.edu/ilh/fs/PIC-POSKY-v3-763.zip Da gibt's eine ausführliche Anleitung. Die Posky B777 hab ich vor einer Weile mal versucht mit dem PSS Panel zu betreiben, doch das Flugzeug ist mir immer im Boden versunken. Aber könnte sein das mittlerweile irgendjemand eine akzeptable Lösung gefunden hat. Was definitiv NICHT geht, ist das Panel einfach mit dem anderen Flugzeug zu verlinken mittels panel.cfg . Du wirst es sehen wenn du die B767 bearbeitest... Gruss Markus Zitieren
Roli Geschrieben 26. Dezember 2002 Geschrieben 26. Dezember 2002 Und wenn du mit der Anleitung für Pic+Posky 767 dort nicht nachkommst, kuckst du hier :D http://www.flightforum.ch/newforum/showthread.php?s=&threadid=4652 Gruess Roli Zitieren
ruggero Geschrieben 26. Dezember 2002 Autor Geschrieben 26. Dezember 2002 Hoi Markus, Hoi Roli, danke Euch herzlich für die prompte Antwort und das mir zur Verfügung gestellte Material. Mit diesen fachmännischen Erklärungen sollte ja wirklich nichts mehr schief gehen. Wie gut gibt's doch das ILS-Forum Bravo!! :) :) Grüessli Ruggero Zitieren
Peter Guth Geschrieben 26. Dezember 2002 Geschrieben 26. Dezember 2002 hallo, wir haben das gleichlautende Thema bereits sehr oft hier besprochen: Das PSS B777 Panel kann nur bedingt in Fremdfabrikaten betrieben werden. Dafür sorgt der geniale Kopierschutz von Phoenix: Gauges (incl. dem darin integrierten Sound), Panel und Aircraft.cfg., sowie airfile bilden eine Einheit. Man kann das Panel auf Drittanbieter übertragen, dann aber MIT airfile. Und, diverse PSS Funktionen gehen nicht, so z.B. der Loadeditor u.a. Diese Kombination funktioniert auch nur dann, wenn die Aircraft.cfg des "Drittanbieters" weitgehend gleiche Flug+Performancedaten hat. So läßt sch auf diesem Weg zumindest ein funktionsfähige B777 mit der Standard-B777 von MS herstellen. Man hat dann z.B. das viruelle Cockpit. Dazu muß aber die Aircraft.cfg der MS B777 verändert werden, z.B. so: [fltsim.0] title=Boeing 777-300 BA-Waves sim=Boeing777-300 model= panel= sound= texture= kb_checklists=Boeing777-300_check kb_reference=b777_ref atc_id=LH atc_airline=Lufthansa atc_flight_number=665 atc_heavy=1 ui_manufacturer=Boeing ui_type=777-300 ui_variation=British Airways - Waves of the City description=On the outside, it may resemble the jetliners you've seen for years. Inside, however, it's a whole new bird. The newest plane in the long and proud Boeing family line is the 777, commonly referred to as the "Triple Seven." This long-range, fuel-efficient twinjet was first delivered in May 1995 to fill a gap in the market between the 747 and 767. It is capable of seating 368 to 386 passengers. [General] atc_type=BOEING atc_model=B773 editable=0 performance=Cruise Speed \nMach 0.84 555 mph 893 kmh\n\nEngine options \nP&W 4000\nRR Trent 800\nGE 90 series\n\nMaximum Range \n5,960 nm 6,859 sm 11,038 km\n\nService Ceiling \n42,000 ft 12,800 m\n\nFuel Capacity \n45,220 U.S. gal 171,160 L \n\nMaximum Takeoff Weight \n660,000 lb 299,370 kg\n\nLength \n242 ft, 4 in 73.9 m\n\nWingspan \n199 ft, 11 in 60.9 m\n\nHeight \n60 ft, 8 in 18.5 m\n\nSeating \nSeats 386 to 550 \n\nCargo Capacity \n7,552 ft 213.8 m\n [WEIGHT_AND_BALANCE] max_gross_weight=660000 // (pounds) empty_weight=281680 // (pounds) reference_datum_position=0, 0, 0 // (feet) distance from FlightSim Reference position: (1/4 chord, centerline, waterline) empty_weight_CG_position=0, 0, 0 // (feet) longitudinal, lateral, vertical distance from specified datum max_number_of_stations=50 station_load.0=0.000000,0.000000,0.000000,0.000000 ;Moments of Inertia empty_weight_pitch_MOI=18000000 empty_weight_roll_MOI=5500000 empty_weight_yaw_MOI=16300000 empty_weight_coupled_MOI=0.0 [flight_tuning] cruise_lift_scalar=1.0 parasite_drag_scalar=1.0 induced_drag_scalar=1.0 elevator_effectiveness=1.0 aileron_effectiveness=1.0 rudder_effectiveness=1.0 pitch_stability=1.0 roll_stability=1.0 yaw_stability=1.0 elevator_trim_effectiveness=1.0 aileron_trim_effectiveness=1.0 rudder_trim_effectiveness=1.0 [GeneralEngineData] engine_type=1 //0=Piston, 1=Jet, 2=None, 3=Helo-Turbine, 4=Rocket, 5=Turboprop Engine.0=10.5, -32.6, -8.4 //(feet) longitudinal, lateral, vertical distance from reference datum Engine.1=10.5, 32.6, -8.4 //(feet) longitudinal, lateral, vertical distance from reference datum fuel_flow_scalar=1 //Scalar for fuel flow efficiency [TurbineEngineData] fuel_flow_gain=0.002 //Gain on fuel flow inlet_area=113.0 //Square Feet, engine nacelle inlet area rated_N2_rpm=29920 //RPM, second stage compressor rated value static_thrust=84000 //Lbs, max rated static thrust at Sea Level afterburner_available=0 //Afterburner available? reverser_available=1 //Thrust reverser available? [jet_engine] thrust_scalar=1.0 [electrical] ;BusType, MaxAmpLoad, MinVoltage BusTypes:0=MainBus,1=AvionicsBus,2=BatteryBus,3=HotBatteryBus,4-7=Generator/AlternatorBus(1-4) flap_motor=0, 5 , 17.0 gear_motor=0, 5 , 17.0 autopilot=0, 5 , 17.0 avionics_bus=0, 0, 17.0 avionics=1, 0 , 17.0 pitot_heat=0, 2 , 17.0 additional_system=0, 0, 17.0 marker_beacon=1, 0 , 17.0 gear_warning=0, 2 , 17.0 fuel_pump=0, 5 , 17.0 starter1=0, 20, 17.0 light_nav=0, 0 , 17.0 light_beacon=0, 0 , 17.0 light_landing=0, 5 , 17.0 light_taxi=0, 5 , 17.0 light_strobe=0, 0 , 17.0 light_panel=0, 0 , 17.0 //0 Class <0=none,1=wheel, 2=scrape, 3=float> //1 Longitudinal Position (feet) //2 Lateral Position (feet) //3 Vertical Position (feet) //4 Impact Damage Threshold (Feet Per Minute) //5 Brake Map (0=None, 1=Left, 2=Right) //6 Wheel Radius (feet) //7 Steer Angle (degrees) //8 Static Compression (feet) (0 if rigid) //9 Max/Static Compression Ratio //10 Damping Ratio (0=Undamped, 1=Critically Damped) //11 Extension Time (seconds) //12 Retraction Time (seconds) //13 Sound Type //14 Airspeed limit for retraction (KIAS) //15 Airspeed that gear gets damage at (KIAS) [contact_points] point.0=1, 87.42, 0.00, -18.00, 1181.1, 0, 4.521, 90.0, 1.63, 2.5, 0.7235, 4.0, 4.0, 0, 0.0, 0.0 point.1=1, -19.50, -12.00, -18.50, 1574.8, 1, 4.521, 0.0, 1.91, 2.5, 0.7470, 6.9, 6.9, 2, 0.0, 0.0 point.2=1, -19.50, 12.00, -18.50, 1574.8, 2, 4.521, 0.0, 1.91, 2.5, 0.7470, 7.1, 7.1, 3, 0.0, 0.0 point.3=2, -14.17, -47.33, 0.00, 787.4, 0, 0.000, 0.0, 0.00, 0.0, 0.0000, 0.0, 0.0, 5, 0.0, 0.0 point.4=2, -14.17, 47.33, 0.00, 787.4, 0, 0.000, 0.0, 0.00, 0.0, 0.0000, 0.0, 0.0, 6, 0.0, 0.0 point.5=2, -83.33, 0.00, 2.50, 787.4, 0, 0.000, 0.0, 0.00, 0.0, 0.0000, 0.0, 0.0, 9, 0.0, 0.0 point.6=2, 42.67, 0.00, -3.75, 787.4, 0, 0.000, 0.0, 0.00, 0.0, 0.0000, 0.0, 0.0, 4, 0.0, 0.0 static_pitch=0.10 static_cg_height=17.56 [Views] eyepoint=90.0, -2.65, 8.6 [flaps.0] //Inboard Trailing Edge type=1 // 1 - tail, 2 - lead span-outboard=0.2 // 0.0 .. 1.0 extending-time=25 // seconds flaps-position.0=0 // degrees flaps-position.1=0 // degrees flaps-position.2=5 // degrees flaps-position.3=15 // degrees flaps-position.4=20 // degrees flaps-position.5=25 // degrees flaps-position.6=30 // degrees damaging-speed=260 // KIAS blowout-speed=300 // KIAS lift_scalar=0.55 drag_scalar=0.55 pitch_scalar=0.55 system_type=1 //Hydraulic [flaps.1] //Outboard Trailing Edge type=1 // 1 - tail, 2 - lead span-outboard=0.8 // 0.0 .. 1.0 extending-time=23 // seconds flaps-position.0=0 // degrees flaps-position.1=0 // degrees flaps-position.2=5 // degrees flaps-position.3=15 // degrees flaps-position.4=20 // degrees flaps-position.5=25 // degrees flaps-position.6=30 // degrees damaging-speed=260 // KIAS blowout-speed=300 // KIAS lift_scalar=0.35 drag_scalar=0.35 pitch_scalar=0.35 system_type=1 //Hydraulic [flaps.2] //Inboard Leading Edge Slats type=2 // 1 - tail, 2 - lead span-outboard=0.5 // 0.0 .. 1.0 extending-time=4 // seconds flaps-position.0=0 // degrees flaps-position.1=0.5 // degrees flaps-position.2=0.5 // degrees flaps-position.3=0.5 // degrees flaps-position.4=0.5 // degrees flaps-position.5=1.0 // degrees flaps-position.6=1.0 // degrees damaging-speed=260 // KIAS blowout-speed=300 // KIAS lift_scalar=0.05 drag_scalar=0.05 pitch_scalar=0.05 system_type=1 //Hydraulic [Radios] // Radio Type=availiable, standby frequency, has glide slope Audio.1=1 Com.1=1, 1 Com.2=1, 1 Nav.1=1, 1, 1 Nav.2=1, 1, 0 Adf.1=1 Transponder.1=1 Marker.1=1 [keyboard_response] //Breakpoint speeds (knots) on the keyboard increments of control surfaces. //Speed at which the incremenet is reduced to 1/2 and 1/8 respectively. elevator=150, 250 aileron=150, 250 rudder=150, 250 [direction_indicators] //1 Type: 0=None, 1=Vacuum Gyro, 2=Electric Gyro, 3=Electro-Mag Slaved Compass, 4=Slaved to another //2 Indicator number of slaving indicator if Type=4 direction_indicator.0=3,0 [LIGHTS] //Types: 1=beacon, 2=strobe, 3=navigation, 4=cockpit, 5=landing light.0=3, -52.22,-103.52, 11.38, fx_navredh , light.1=3, -52.22, 103.52, 11.38, fx_navgreh , light.2=3, -54.34,-103.64, 11.38, fx_navwhih , light.3=3, -54.34, 103.64, 11.38, fx_navwhih , light.4=3,-139.00, 0.00, 8.42, fx_navwhih , light.5=2, -51.00,-103.40, 11.38, fx_strobeh , light.6=2, -51.00, 103.40, 11.38, fx_strobeh , light.7=1, -5.00, 0.00, -6.25, fx_beaconb , light.8=1, 22.00, 0.00, 18.30, fx_beaconh , light.9=4, 93.21, -2.50, 8.75, fx_vclighth , light.10=4, 93.21, -2.50, 8.75, fx_vclight776 , light.11=4, 93.21, 2.00, 8.75, fx_vclight776 , [EFFECTS] wake=fx_wake water=fx_spray dirt=fx_tchdrt concrete=fx_sparks touchdown=fx_tchdwn, 1 [exits] number_of_exits=2 exit_rate.0=0.4 ;Percent per second exit_rate.1=0.4 ;Percent per second [fuel] Center1=0.0, 0.0, -4.0, 12400.0, 3.0 //Longitudinal (feet), Lateral (feet), Vertical (feet), Usable(gallons), Unusable (gallons) LeftMain=-7.0, -35.0, 0.0, 16400.0, 3.0 //Longitudinal (feet), Lateral (feet), Vertical (feet), Usable(gallons), Unusable (gallons) RightMain=-7.0, 35.0, 0.0, 16400.0, 3.0 //Longitudinal (feet), Lateral (feet), Vertical (feet), Usable(gallons), Unusable (gallons) fuel_type=2 //Fuel type: 1 = Avgas, 2 = JetA number_of_tank_selectors=1 [airplane_geometry] wing_area=4605.0 //Square feet wing_span=200.0 //Feet wing_root_chord=23.0 //Feet wing_dihedral=6.2 //Degrees wing_incidence=1.0 //Degrees wing_twist=-0.5 //Degrees oswald_efficiency_factor=0.6 //Measure of lift effeciency of wing wing_winglets_flag=0 //Are winglets available? wing_sweep=32.0 //Degrees, wing leading edge wing_pos_apex_lon=25.0 //Feet, longitudinal distance from reference point, negative going aft wing_pos_apex_vert=0.0 //Feet, vertical distance from reference point, positive going up htail_area=1090.0 //Square feet htail_span=70.7 //Feet htail_pos_lon=-100.0 //Feet, longitudinal distance from reference point, negative going aft htail_pos_vert=0.0 //Feet, vertical distance from reference point, positive going up htail_incidence=0.0 //Degrees htail_sweep=40.0 //Degrees, horizontal tail leading edge vtail_area=573.0 //Square feet vtail_span=27.3 //Feet, tip to body vtail_sweep=35.0 //Degrees, vertical tail leading edge vtail_pos_lon=-108.3 //Feet, longitudinal distance from reference point, negative going aft vtail_pos_vert=5.8 //Feet, vertical distance from reference point, positive going up elevator_area=137.0 //Square feet aileron_area=68.0 //Square feet rudder_area=232.0 //Square feet elevator_up_limit=30.0 //Degrees elevator_down_limit=30.0 //Degrees aileron_up_limit=30.0 //Degrees aileron_down_limit=15.0 //Degrees rudder_limit=25.0 //Degrees elevator_trim_limit=20.0 //Degrees spoiler_limit=60.0 //Degrees spoilerons_available=1 //Spoilerons Available? aileron_to_spoileron_gain=3 //Aileron to spoileron gain min_ailerons_for_spoilerons=10 //Degrees min_flaps_for_spoilerons=0 //Minimum flap handle position when spoilerons activate [Reference Speeds] flaps_up_stall_speed=150.0 //Knots True (KTAS) full_flaps_stall_speed=120.0 //Knots True (KTAS) cruise_speed=482.0 //Knots True (KTAS) [autopilot] autopilot_available=1 flight_director_available=1 default_vertical_speed=0300.0 autothrottle_available=1 autothrottle_arming_required=1 autothrottle_max_rpm=90 autothrottle_takeoff_ga=1 pitch_takeoff_ga=8 use_no_default_pitch=1 use_no_default_bank=1 [forcefeedback] gear_bump_nose_magnitude=3000 ; 0 - 10000 gear_bump_nose_direction=18000 ; 0 - 35999 degrees gear_bump_nose_duration=250000 ; in microseconds gear_bump_left_magnitude=2700 ; 0 - 10000 gear_bump_left_direction=35500 ; 0 - 35999 degrees gear_bump_left_duration=250000 ; in microseconds gear_bump_right_magnitude=2700 ; 0 - 10000 gear_bump_right_direction=00500 ; 0 - 35999 degrees gear_bump_right_duration=250000 ; in microseconds ground_bumps_magnitude1=1300 ; 0 - 10000 ground_bumps_angle1=08900 ; 0 - 35999 degrees ground_bumps_intercept1=3.0 ground_bumps_slope1=0.20 ground_bumps_magnitude2=200 ; 0 - 10000 ground_bumps_angle2=09100 ; 0 - 35999 degrees ground_bumps_intercept2=1.075 ground_bumps_slope2=0.035 crash_magnitude1=10000 ; 0 - 10000 crash_direction1=01000 ; 0 - 35999 degrees crash_magnitude2=10000 ; 0 - 10000 crash_direction2=9000 ; 0 - 35999 degrees crash_period2=75000 ; in microseconds crash_duration2=2500000 ; in microseconds Desweiteren müssen alle Panelbestandteile der PSS B777 ebenfalls in den betreffenden Panelordner kopiert werden, hier z.B. dann auch die Bitmaps für das Panel. Gruß PG Zitieren
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