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Gulfstream G550 Operating Manual
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Gulfstream G550 Operating Manual

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2A-27-10: General
1. General Description:
The aircraft flight controls allow the flight crew to guide the aircraft in the
longitudinal, vertical and horizontal axes (see Figure 2). The primary flight controls
are:
The primary flight controls are positioned by moving the pilot and copilot control
yokes and rudder pedals. Both yokes are mechanically linked together so that
either crew position has full control authority and control inputs are transparent to
both crew members since movement of one set of controls will move the
corresponding set of controls. Each yoke has a dedicated cable connection to the
elevator and aileron control on that respective side, but since the yokes are
mechanically linked, moving one side elevator or aileron will move the flight
controls on both sides. For instance, the copilot yoke is cable-linked to the right
elevator and the right aileron but any movement of the copilot yoke also moves
the pilot yoke that is in turn cable-linked to the left aileron and left elevator. This
system of split control authority and linked yoke movement provides a means to
maintain some flight control movement if one of the flight controls or associated
linkages becomes jammed. If a malfunction prevents movement of either the
elevators or ailerons, the mechanical links joining the two pilot yokes can be
severed, thereby allowing movement of the left or right elevator or aileron that
remains operational by commands using the yoke connected to the side of the
free control surface.
The two sets of rudder pedals are similarly mechanically linked together, but both
are connected to the rudder by a single cable. For this reason, there is no
provision for interrupting the linkage between the two sets of pedals, since each
set does not have an independent route to the rudder.
The cable connections from the yokes and rudder pedals are continuous loop
installations, providing feedback to the moveable controls. The control cables
engage bell cranks that translate cable movement into displacement commands
for hydraulic actuators that boost contol inputs to move the flight controls. Each
hydraulic actuator has a single shaft, but dual piston chambers in order that the
actuator may be driven by both (or either) left and right hydraulic system. (The
hydraulic system power sources for the flight controls are shown in Figure 1.) The
rudder actuator may also be powered by the Auxiliary (AUX) hydraulic system in
the event of dual hydraulic power failure. Each of the hydraulic actuators is
connected to the associated flight control by pushrods and bell cranks to impart
mechanical movement to the control surface. A bungee piston filled with hydraulic
fluid moderates the rate of actuation of the flight control and provides an artificial
feel input to the flight crew through the closed loop cable system. The failure of a
single hydraulic system does not degrade flight control operation - the remaining
system provides adequate power for flight control movement, and the actuator
chamber for the failed system bypasses fluid so there is no resistance to flow. If
both (or all, in the case of the rudder) hydraulic systems fail, both actuator
chambers bypass fluid, and pilot input through the cable connection moves the
PRODUCTION AIRCRAFT SYSTEMS
Next Page
FLIGHT CONTROLS
• Elevator to control aircraft pitch
• Rudder to control aircraft yaw
• Aileron to control aircraft roll
TOC
OPERATING MANUAL
2A-27-00
Page 1
August 14/03

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Summary of Contents for Gulfstream G550

  • Page 1 Title Page Prev Page Next Page OPERATING MANUAL FLIGHT CONTROLS 2A-27-10: General 1. General Description: The aircraft flight controls allow the flight crew to guide the aircraft in the longitudinal, vertical and horizontal axes (see Figure 2). The primary flight controls are: •...
  • Page 2 Title Page Prev Page Next Page OPERATING MANUAL internal shaft of the actuator and the associated pushrods and bellcranks without powered assistance. More pilot force is required, but full movement of the flight controls is attainable. The autopilot is interfaced with the primary flight controls through electric servos to move parallel cable linkages to the hydraulic actuators.
  • Page 3 Title Page Prev Page Next Page OPERATING MANUAL 2. Primary and Secondary Flight Controls Subsections: The primary and secondary flight controls are discussed in the following subsections: • 2A-27-20: Elevator Pitch Control • 2A-27-30: Rudder Yaw Control • 2A-27-40: Aileron Roll Control •...
  • Page 4 Title Page Prev Page Next Page OPERATING MANUAL THIS PAGE IS INTENTIONALLY LEFT BLANK. 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 4 August 14/03...
  • Page 5 Title Page Prev Page Next Page OPERATING MANUAL Flight Controls System: Simplified Fluid Power Diagram Figure 1 2A-27-00 Page 5 / 6 August 14/03...
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  • Page 7 Title Page Prev Page Next Page OPERATING MANUAL Flight Controls System Components Figure 2 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 7 August 14/03...
  • Page 8 Title Page Prev Page Next Page OPERATING MANUAL 2A-27-20: Elevator Pitch Control 1. General Description: The aircraft has a dual elevator installation to control aircraft pitch attitude. The elevators are composed of a baked graphite-epoxy material. Each of the cockpit yokes is connected to one of the aircraft elevators.
  • Page 9 Title Page Prev Page Next Page OPERATING MANUAL If a malfunction or failure in any portion of the loop between a cockpit yoke and the corresponding elevator prevents control surface movement, the mechanical torque tube connection between the two control yokes can be separated to allow control of the aircraft with the free (unjammed) elevator.
  • Page 10 Title Page Prev Page Next Page OPERATING MANUAL Left Hydraulic System Right Hydraulic System Down Down Elevator Elevator Elevator Elevator ← → ← → Hydraulic Actuator Shaft Pressure Pressure Pressure Pressure Switch Switch Switch Switch In a similar manner, if a hydraulic malfunction causes the shaft of the actuator to move in a direction opposite the commanded elevator direction, the increased pressures in the wrong direction sides of the pistons would close the monitoring switches, and movement of the actuator shaft would...
  • Page 11 Title Page Prev Page Next Page OPERATING MANUAL cam arm • Inertia in the build up of hydraulic pressures in the elevator actuator • The one tenth (1/10) second delay in electrically latching the shut off of hydraulic pressure B. Elevator Disconnect Handle: (See Figure 4.) The mechanical torque tube beneath the cockpit connecting the pilot and copilot yokes may be disconnected if a malfunction in one of the cable...
  • Page 12 Title Page Prev Page Next Page OPERATING MANUAL the tab forces the hinged elevator into the opposite direction. As the elevator is moved from the neutral position (faired with the horizontal stabilizer), it also encounters pressure forces from the airstream, thus the amount of elevator movement from neutral is determined by a balance of airstream forces acting on both the trim tab and the elevator.
  • Page 13 Title Page Prev Page Next Page OPERATING MANUAL D. Mach Trim: The autopilot employs elevator control to provide the aircraft with Mach trim. Mach trim is necessary because at high speed flight the center of lift on the wing transits aft with increases in speed, producing a nose down pitch moment termed Mach tuck.
  • Page 14 Title Page Prev Page Next Page OPERATING MANUAL Area Monitored: CAS Message: Message Color: Electric Pitch Trim Servos / Trim Mach Trim Off Amber ENG/DISENG Switch NOTE (inhibited below 0.82 Mach) Electric Pitch Trim Servos and Pitch Trim 1-2 Power Fail Blue MAUs Electric Pitch Trim Servos and...
  • Page 15 Title Page Prev Page Next Page OPERATING MANUAL Hard Over Prevention System (HOPS) Figure 3 (Sheet 1 of 2) 2A-27-00 Page 15 / 16 August 14/03...
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  • Page 17 Title Page Prev Page Next Page OPERATING MANUAL Hard Over Prevention System (HOPS) Figure 3 (Sheet 2 of 2) 2A-27-00 Page 17 / 18 August 14/03...
  • Page 18 Title Page Prev Page Next Page...
  • Page 19 Title Page Prev Page Next Page OPERATING MANUAL Pitch Flight Controls System Controls and Indications (Cockpit Center Pedestal) Figure 4 2A-27-00 Page 19 / 20 August 14/03...
  • Page 20 Title Page Prev Page Next Page...
  • Page 21 Title Page Prev Page Next Page OPERATING MANUAL Electric Pitch Trim Engage / Disengage Switch Controls and Indications Figure 5 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 21 August 14/03...
  • Page 22 Title Page Prev Page Next Page OPERATING MANUAL Electric Pitch Trim / Stall Barrier System Controls and Indications Figure 6 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 22 August 14/03...
  • Page 23 Title Page Prev Page Next Page OPERATING MANUAL 2A-27-30: Rudder Yaw Control 1. General Description: The flight crew controls the direction of the aircraft around the vertical axis by movement of the rudder. The rudder panel is composed of graphite-epoxy fabric baked at high temperatures to form a strong but light weight structure.
  • Page 24 Title Page Prev Page Next Page OPERATING MANUAL adjacent to the STBY RUD switch, shown in Figure 9. The yaw damper is normally engaged even if the autopilot is not operating. (The DISENG legend in the switch will be illuminated amber if the yaw damper is not engaged.) If the autopilot is engaged, the yaw damper must be engaged, since autopilot rudder commands use the yaw damper circuits to displace the rudder.
  • Page 25 Next Page OPERATING MANUAL C. Rudder Limiting: The G550 does not have a separate load limiter unit, but relies instead upon MWS software to compute maximum rudder deflection for a given airspeed, matching airloads on the rudder surface with the hydraulic function of the rudder actuator.
  • Page 26 Title Page Prev Page Next Page OPERATING MANUAL actuator. Four pressure switches monitor left and right hydraulic system pressures within the pistons of the rudder actuator. In normal conditions, all four switches sense stabilized pressures since hydraulic outputs positioning the rudder are balanced by air load pressures on the rudder surface acting against actuator pressures.
  • Page 27 Title Page Prev Page Next Page OPERATING MANUAL the cause of the hardover condition. If the cause of the condition is thought to be momentary, and the use of the rudder is deemed necessary for continued safe flight and landing, the hydraulic shut off valves may be reset by cycling the RUDDER HYD S/O circuit breaker.
  • Page 28 Title Page Prev Page Next Page OPERATING MANUAL 3. Controls and Indications: (See Figure 9 and Figure 10.) NOTE: A full description of the Flight Controls 2/3 and Hydraulics 2/3 synoptic pages appears in section 2B-07-00. A. Circuit Breakers (CBs): The following CBs protect the rudder flight controls: Circuit Breaker Name: CB Panel:...
  • Page 29 Title Page Prev Page Next Page OPERATING MANUAL Minimum Speeds: Yaw Damper Inoperative Sea Level to 5000 ft 5000 to 20,000 ft Flaps 0, 10, Flaps 0, 10, Flaps 39 Flaps 39 Fuel - lb 23,000 24,000 25,000 26,000 27,000 28,000 29,000 30,000...
  • Page 30 Title Page Prev Page Next Page OPERATING MANUAL THIS PAGE IS INTENTIONALLY LEFT BLANK. 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 30 August 14/03...
  • Page 31 Title Page Prev Page Next Page OPERATING MANUAL Rudder Control Cable Linkage Figure 7 2A-27-00 Page 31 / 32 August 14/03...
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  • Page 33 Title Page Prev Page Next Page OPERATING MANUAL Control Cable Termination at Rudder Actuator Figure 8 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 33 August 14/03...
  • Page 34 Title Page Prev Page Next Page OPERATING MANUAL Yaw Flight Controls System Controls and Indications Figure 9 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 34 August 14/03...
  • Page 35 Title Page Prev Page Next Page OPERATING MANUAL Rudder Trim Controls Figure 10 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 35 August 14/03...
  • Page 36 Title Page Prev Page Next Page OPERATING MANUAL 2A-27-40: Aileron Roll Control 1. General Description: The flight crew controls the motion of the aircraft around the longitudinal axis by displacement of the ailerons. The ailerons, composed of baked epoxy graphite fabric, are mechanically linked to the pilot and copilot control yokes by a dual installation of multi-strand braided cables and a system of pulleys and bellcranks.
  • Page 37 Title Page Prev Page Next Page OPERATING MANUAL The ailerons, like the other primary flight controls, are monitored for correct operation by a Hard Over Prevention System (HOPS). The HOPS will shut off hydraulic pressure to both aileron actuators if aileron movement does not correspond to flight crew of autopilot commands.
  • Page 38 Title Page Prev Page Next Page OPERATING MANUAL to retract the pin, a trigger mechanism beneath the handle can be activated to supply additional gas cartridge pressure to assist in retracting the pin. If the cartridge assist is used, the aileron channel linkage cannot be reconnected in flight since it requires special maintenance tools.
  • Page 39 Title Page Prev Page Next Page OPERATING MANUAL • The one half (½) second electrical delay D. Aileron Position Sensing: The position of each aileron is sensed by a Rotary Variable Displacement Transducer (RVDT). The RVDTs are installed at the hinge point of the ailerons, and transmit an electrical signal proportional to the displacement of the aileron from the neutral position.
  • Page 40 Title Page Prev Page Next Page OPERATING MANUAL • As flight spoilers, only the two outboard spoilers on each wing (a total of four spoiler panels) can be used in conjunction with the ailerons to increase the rate of roll of the aircraft Flight spoilers deploy upward on the side of the upward displaced aileron to contribute to the decrease in lift on the downward rolling wing.
  • Page 41 Title Page Prev Page Next Page OPERATING MANUAL Circuit Breaker Name: CB Panel: Location: Power Source: SPLR FLT PWR S/O CPOP R ESS DC Bus AIL TRIM HEAT REER D-16 R MAIN AC Bus B. Crew Alerting System (CAS) Messages: The following CAS messages are associated with the roll flight controls system: Area Monitored:...
  • Page 42 Title Page Prev Page Next Page OPERATING MANUAL THIS PAGE IS INTENTIONALLY LEFT BLANK. 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 42 August 14/03...
  • Page 43 Title Page Prev Page Next Page OPERATING MANUAL Aileron Linkage and Actuators Figure 11 2A-27-00 Page 43 / 44 August 14/03...
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  • Page 45 Title Page Prev Page Next Page OPERATING MANUAL Aileron and Spoiler Controls and Indications Figure 12 2A-27-00 Page 45 / 46 August 14/03...
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  • Page 47 Title Page Prev Page Next Page OPERATING MANUAL 2A-27-50: Horizontal Stabilizer and Wing Flaps 1. General Description: The aircraft horizontal stabilizer is mounted at the top of the vertical stabilizer. The horizontal stabilizer is movable in order to provide a flexible aircraft neutral stability position in the pitch axis as flaps are extended or retracted.
  • Page 48 Title Page Prev Page Next Page OPERATING MANUAL right essential DC control Control inputs to drive the actuator come from two (2) sources: (1) The Flap / Horizontal Stabilizer Control Unit (FCU) to compensate for flap extension. (2) Pilot or Copilot yoke trim switches in the Emergency Stabilizer mode to provide aircraft pitch control if the elevators malfunction or jam.
  • Page 49 Title Page Prev Page Next Page OPERATING MANUAL (The operation of the aircraft flaps is described in the following sections.) The FCU moves the horizontal stabilizer to compensate for the change in the center of lift on the wing as flaps are extended. The FCU processor schedules stabilizer position according to the following table: Flap Position Horizontal Stab Position...
  • Page 50 Title Page Prev Page Next Page OPERATING MANUAL retract the flaps. Incorporated into the flap jackscrew actuators are force limiters that prevent structural damage to the flaps from high airspeeds. If the flaps are selected to a setting greater than that allowed by airspeed limits, the force limiters will brake the motion of the jackscrews, preventing further extension of the flaps (the jackscrews will continue to attempt to turn, but are unable to overcome the force limiters).
  • Page 51 Title Page Prev Page Next Page OPERATING MANUAL 3. Controls and Indications: (See Figure 14.) NOTE: A full description of the Primary Flight Display appears in section 2B-05-00 and a description of the Flight Controls 2/3 synoptic page appears in section 2B-07- A.
  • Page 52 Title Page Prev Page Next Page OPERATING MANUAL • Maximum airspeed for flaps extended to 20° is 220 KCAS / 0.60 M • Maximum airspeed for flaps extended to 39° is 170 KCAS / 0.60 M Use of Flaps: Use of flaps in icing conditions is restricted to takeoff, approach and landing only. Holding in icing conditions is limited to 0°...
  • Page 53 Title Page Prev Page Next Page OPERATING MANUAL Flap / Horizontal Stabilizer System Block Diagram Figure 13 2A-27-00 Page 53 / 54 August 14/03...
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  • Page 55 Title Page Prev Page Next Page OPERATING MANUAL Horizontal Stabilizer System Controls and Indications Figure 14 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 55 August 14/03...
  • Page 56 Title Page Prev Page Next Page OPERATING MANUAL THIS PAGE IS INTENTIONALLY LEFT BLANK. 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 56 August 14/03...
  • Page 57 Title Page Prev Page Next Page OPERATING MANUAL Wing Flaps System Figure 15 2A-27-00 Page 57 / 58 August 14/03...
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  • Page 59 Title Page Prev Page Next Page OPERATING MANUAL Flap Handle Figure 16 2A-27-00 Page 59 / 60 August 14/03...
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  • Page 61 Angle of attack is included on the PFD, but in an abbreviated format. Two AOA sensors are installed on the G550, one on each side of the aircraft positioned below and aft of the pilot and copilot windows. The AOA sensors are powered and heated by the respective side essential DC bus (left AOA by left essential DC bus, etc.).
  • Page 62 Title Page Prev Page Next Page OPERATING MANUAL by the SWPS function through the dual channels of the Flap Control Unit (FCU). Position of each wing flap is reported by Rotary Variable Displacement Transducers (RVDTs) to the respective FCU control channel. Each of the FCU channels is connected over ARINC-429 links to the MAUs.
  • Page 63 Title Page Prev Page Next Page OPERATING MANUAL breaker for the faulty stick shaker can be pulled (SHAKER #1 on the pilot overhead panel, SHAKER #2 on the copilot overhead panel). The MAUs monitor their respective data input paths and SWPS activation paths for operational capabilities.
  • Page 64 Title Page Prev Page Next Page OPERATING MANUAL function of the SWPS is operational only with the aircraft on the ground to preclude inadvertent activation of the system during flight. 4. Controls and Indications: (See Figure 0.) NOTE: A full description of the Primary Flight Display appears in section 2B-02-00: Electronic Display System Description.
  • Page 65 Title Page Prev Page Next Page OPERATING MANUAL operations, unless required to be selected OFF for procedural reasons. See Section 05-13-50, Stall Barrier Malfunction for additional information. B. Synopsis of Stall Warning / Stall Barrier System Differences for JAA Certified Airplanes: (1) Stall Warning System Operational Logic: The stall warning system operational logic has been modified to allow the system to continue to operate until Angle of Attack (AOA)
  • Page 66 Title Page Prev Page Next Page OPERATING MANUAL THIS PAGE IS INTENTIONALLY LEFT BLANK. 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 66 August 14/03...
  • Page 67 Title Page Prev Page Next Page OPERATING MANUAL Stall Warning / Stick Pusher Block Diagram Figure 17 2A-27-00 Page 67 / 68 August 14/03...
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  • Page 69 Title Page Prev Page Next Page OPERATING MANUAL STALL BARR Switch Figure 18 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 69 August 14/03...
  • Page 70 Title Page Prev Page Next Page OPERATING MANUAL 2A-27-70: Speed Brake and Ground Spoilers 1. General Description: The speed brake and ground spoilers use six panels on the upper wing surface to increase drag and reduce lift allowing the flight crew to increase descent rates and, on landing, to shorten landing roll and increase braking effectiveness by quickly transferring aircraft weight to the main landing gear wheels.
  • Page 71 Title Page Prev Page Next Page OPERATING MANUAL Monitor and Warning System (MWS) in order to generate CAS messages in the event of a malfunction, and to format the graphic display of spoiler position on the Flight Controls 2/3 synoptic page. Two additional contact switches, one on each wing, are closed when the spoilers are flush with the wing surface.
  • Page 72 Title Page Prev Page Next Page OPERATING MANUAL with the yoke or autopilot while the speed brake handle is extended, the two outboard spoiler panels on each wing will increase displacement over the speed brake commanded spoiler position to aid in aileron roll control. The maximum displacement of the outboard spoiler panels is fifty-five degrees, plus or minus four degrees (55°...
  • Page 73 Title Page Prev Page Next Page OPERATING MANUAL (5) Both main landing gear weight on wheels (WOW) switches in the ground position OR both main landing gear wheel speeds (sensed by the anti-skid sensors) greater than forty-seven knots (>47 kts) OR one main landing gear WOW switch in the ground position and the other main landing gear wheel speed greater than forty-seven knots (>47 kts).
  • Page 74 Title Page Prev Page Next Page OPERATING MANUAL (11) Both main landing gear weight on wheels (WOW) switches in the ground position OR both main landing gear wheel speeds (sensed by the anti-skid sensors) greater than forty-seven knots (>47 kts) OR one main landing gear WOW switch in the ground position and the other main landing gear wheel speed greater than forty-seven knots (>47 kts).
  • Page 75 Title Page Prev Page Next Page OPERATING MANUAL the two outboard flight spoilers.) The malfunction annunciations are depicted in Figure 22. NOTE: Failure of the automatic deployment of ground spoilers does not preclude operation of the spoiler panels manually. Extending the SPEED BRAKE handle will deploy all spoiler panels to thirty degrees (30°) - less than the full fifty-five degrees (55°) with automatic operation, but still effective in slowing the aircraft.
  • Page 76 Title Page Prev Page Next Page OPERATING MANUAL are activated Prior to the first flight of the day, a complete check of the automatic ground spoiler system is usually conducted using the test switch and other controls to verify the operation of the system activation logic. See the Before Takeoff: 03-04-00 section of this manual for a complete description of the entire test.
  • Page 77 Title Page Prev Page Next Page OPERATING MANUAL 4. Limitations: A. Flight Manual Limitations: (1) Use of Speed Brakes: Speed brakes are not approved for extension with flaps at 39° (DOWN) or with landing gear extended in flight. (2) Automatic Ground Spoilers: Takeoff is permitted with automatic ground spoilers inoperative provided the Anti-Skid is operative, 20°...
  • Page 78 Title Page Prev Page Next Page OPERATING MANUAL THIS PAGE IS INTENTIONALLY LEFT BLANK. 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 78 August 14/03...
  • Page 79 Title Page Prev Page Next Page OPERATING MANUAL Spoiler System Figure 19 (Sheet 1 of 3) 2A-27-00 Page 79 / 80 August 14/03...
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  • Page 81 Title Page Prev Page Next Page OPERATING MANUAL Spoiler System Figure 19 (Sheet 2 of 3) 2A-27-00 Page 81 / 82 August 14/03...
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  • Page 83 Title Page Prev Page Next Page OPERATING MANUAL Spoiler System Figure 19 (Sheet 3 of 3) 2A-27-00 Page 83 / 84 August 14/03...
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  • Page 85 Title Page Prev Page Next Page OPERATING MANUAL Ground Spoiler Circuits Figure 20 2A-27-00 Page 85 / 86 August 14/03...
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  • Page 87 Title Page Prev Page Next Page OPERATING MANUAL Spoiler System Controls Figure 21 2A-27-00 Page 87 / 88 August 14/03...
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  • Page 89 Title Page Prev Page Next Page OPERATING MANUAL Spoiler System Indications Figure 22 2A-27-00 Page 89 / 90 August 14/03...
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  • Page 91 Title Page Prev Page Next Page OPERATING MANUAL 2A-27-80: Flight Controls Gust Lock 1. General Description: The flight controls gust lock secures the aircraft moveable surfaces in stabilized positions to prevent damage to the surfaces and attached control linkages from high winds or jet blast.
  • Page 92 Title Page Prev Page Next Page OPERATING MANUAL idle if the GUST LOCK handle is engaged. The blocking action of the interlock cannot be overcome with manual force to advance the power levers. 3. Controls and Indications: (See Figure 23.) There are no circuit breakers or CAS messages related to the gust lock.
  • Page 93 Title Page Prev Page Next Page OPERATING MANUAL Gust Lock System Controls Figure 23 2A-27-00 PRODUCTION AIRCRAFT SYSTEMS Page 93 August 14/03...
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