The A320 autoflight system consists of three main components: autopilot (AP), flight director (FD), and autothrust (A/THR). These systems work together with the Flight Management and Guidance System (FMGS) to automate aircraft flight path and speed control. Understanding managed vs selected modes, autopilot engagement rules, and autoland operations is critical for A320 type rating.
Autoflight Components
Autopilot (AP)
Two independent autopilots (AP1, AP2). Normally one engaged at a time. Both engage simultaneously during autoland approach (CAT II/III).
Flight Director (FD)
Displays command bars on PFD showing pitch and roll guidance. Can be ON without AP engaged for manual flying with guidance.
Autothrust (A/THR)
Automatic thrust management system. Controls engine thrust to maintain speed or climb/descent profile as commanded by pilot or FMGS.
FMGS - 2 FMGCs
Two Flight Management and Guidance Computers, each capable of full FM and FG independently. Provides flight plan, performance, and guidance.
Flight Management and Guidance System (FMGS)
FMGS consists of Flight Management (FM) and Flight Guidance (FG), operating together as an integrated autoflight and navigation system.
FMGCs (Flight Management and Guidance Computers)
- Quantity: Two FMGCs, each capable of independently providing full Flight Management and full Flight Guidance
- Flight Management: Computes and updates lateral/vertical path with time and fuel predictions
- Flight Guidance: Provides autopilot and flight director commands
NAV ACCUR (Navigation Accuracy)
- NAV ACCUR HIGH: Navigation error sufficiently low to support managed NAV modes
- NAV ACCUR LOW: GPS PRIMARY lost and radio updating cannot maintain required accuracy
Takeoff and Initial Climb Modes
SRS (Speed Reference System)
- Purpose: Commands pitch ensuring safe speed margin above stall and adequate climb gradient
- Activation: Automatically when thrust levers in TOGA or FLX detent
RWY Mode (Runway Mode)
- Function: Provides localizer-based lateral guidance during takeoff to keep aircraft aligned with runway centreline
- Availability: When ILS localizer available for departure runway
RWY TRK Mode (Runway Track Mode)
- Function: Maintains ground track that existed at engagement, following initial flight path after liftoff
Flight Management and Guidance System (FMGS)
The FMGS consists of two major components: Flight Management (FM) and Flight Guidance (FG), operating together as an integrated autoflight and navigation system.
FMGCs (Flight Management and Guidance Computers)
- Quantity: Two FMGCs, each capable of independently providing full Flight Management and full Flight Guidance
- Flight Management: Computes and updates lateral/vertical path with time and fuel predictions for every segment
- Flight Guidance: Provides autopilot and flight director commands
NAV ACCUR (Navigation Accuracy)
- NAV ACCUR HIGH: Estimated navigation error is sufficiently low to support managed NAV modes throughout the phase
- NAV ACCUR LOW: GPS PRIMARY lost and radio updating cannot maintain required navigation accuracy
💡 Flight Plan Management
DISCONTINUITY: Lateral route contains a break requiring crew intervention to manually connect the path
DIR TO: Modifies active leg so aircraft goes directly from present position to chosen waypoint
FIX INFO: Creates bearings and distance ranges from selected fix, displayed as radials and arcs on ND
Takeoff and Initial Climb Modes
SRS (Speed Reference System)
SRS provides pitch guidance during takeoff ensuring safe speed margin above stall and adequate climb gradient.
- Purpose: Commands pitch for safe margin above stall with adequate climb gradient
- Activation: Automatically engaged at takeoff when thrust levers in TOGA or FLX detent
- Speed Target: V2 + appropriate margin based on configuration
RWY Mode (Runway Mode)
RWY mode provides localizer-based lateral guidance during takeoff to keep aircraft aligned with runway centreline.
- Availability: When ILS localizer available for departure runway
- Function: LOC-based lateral guidance on takeoff
RWY TRK Mode (Runway Track Mode)
RWY TRK maintains the ground track that existed at engagement, following the initial flight path after liftoff.
- Function: Holds ground track from liftoff
- Purpose: Maintains initial departure path in crosswind conditions
Managed vs Selected Modes
A320 autoflight philosophy centers on managed (FMGS-guided) vs selected (pilot-commanded) modes. This is fundamental to understanding A320 automation.
| Mode Type | Color on PFD | Control | Usage |
|---|---|---|---|
| Managed | Magenta | FMGS flight plan | Normal operations, follows programmed route and profile |
| Selected | Blue/Cyan | Pilot FCU inputs | ATC vectors, tactical changes, manual speed/altitude control |
FCU (Flight Control Unit) Operation
The FCU is the primary interface for autopilot, flight director, and autothrust:
- Pull Knob: Engage managed mode (magenta) - FMGS controls that parameter
- Push/Turn Knob: Engage selected mode (blue) - pilot controls that parameter
- SPD/MACH knob: Speed target (managed: FMGS, selected: pilot sets value)
- HDG/TRK knob: Heading/track target (managed: NAV follows route, selected: HDG/TRK to set value)
- ALT knob: Altitude target (always set by pilot, managed vs selected affects V/S or FPA)
- V/S or FPA selector: Vertical speed (ft/min) or flight path angle (degrees)
🎯 Understanding Pull vs Push
Pull = Let go, trust FMGS (managed): Pull SPD knob → FMGS manages speed. Pull HDG → NAV mode follows route.
Push/Turn = I take control (selected): Push and turn SPD knob → you set speed. Push and turn HDG → you select heading.
This philosophy applies throughout: managed = automated efficiency, selected = tactical control.
Autopilot Modes
Lateral Modes (What direction?)
| Mode | Type | Function |
|---|---|---|
| NAV | Managed | Follows FMGS lateral flight plan (magenta line on ND) |
| HDG | Selected | Maintains heading selected on FCU |
| TRACK | Selected | Maintains ground track (heading corrected for wind) |
| LOC | Approach | Captures and tracks ILS localizer for precision approach |
| LAND | Autoland | Dual-channel LOC and G/S tracking down to FLARE and ROLL OUT engagement |
Vertical Modes (What altitude/climb/descent?)
| Mode | Type | Function |
|---|---|---|
| CLB | Managed | Climbs following FMGS vertical profile and speed schedule |
| DES | Managed | Descends following FMGS vertical profile and speed schedule |
| ALT | Both | Maintains selected altitude (ALT* during capture, ALT when captured) |
| V/S or FPA | Selected | Climbs/descends at selected vertical speed or flight path angle |
| G/S | Approach | Captures and tracks ILS glideslope for precision approach |
| FLARE | Autoland | Adjusts pitch smoothly near ground to achieve correct landing attitude and touchdown (~40ft RA) |
Alpha Protections and A.FLOOR
Alpha Protection (Alpha Prot)
Limits pitch-up demand to prevent angle of attack from exceeding protected threshold.
Alpha Max
Maximum allowable AoA before stall. Aircraft cannot increase AoA further.
Alpha Floor (A.FLOOR)
- Trigger: Low-energy condition when AoA approaches protected threshold
- Action: Autothrust commands TOGA thrust automatically
- TOGA LK: Keeps thrust at maximum until pilot sets thrust levers to matching detent
Low Energy Warning
"SPEED SPEED SPEED": Energy state insufficient, requires immediate thrust application.
FAC Functions (Flight Augmentation Computer)
Two FACs provide critical yaw damping, rudder limiting, and speed indication functions.
FAC Primary Functions
- Yaw Damping: Automatic yaw-damping to stabilize aircraft and improve Dutch-roll characteristics
- Rudder Travel Limiter (RTL): Reduces maximum rudder deflection at higher speeds to prevent structural loads
- PFD Speed Indications: Provides VLS, VMAX, and F-speed markings for managed-speed operation
- Turn Coordination: Automatic during roll inputs
ROLL OUT Mode
ROLL OUT provides automatic lateral guidance along runway centreline during initial ground roll after touchdown.
- Engagement: Automatically after touchdown in LAND mode
- Function: Keeps aircraft on runway centreline using LOC signal
⚠️ OP CLB and OP DES Modes
OP CLB: "Open Climb" - appears when climbing in managed CLB mode but unable to maintain FMGS speed target (climbing at max climb thrust but slowing). Aircraft climbs at current speed, not FMGS target.
OP DES: "Open Descent" - appears when descending in managed DES mode but unable to maintain FMGS speed target (descending at idle thrust but accelerating). Aircraft descends at current speed, may need speedbrakes or early descent initiation.
Autopilot Engagement and Disconnect
Autopilot Engagement
To engage autopilot:
- Flight Director must be ON (FD button on FCU)
- Aircraft in stable flight (not excessive pitch/bank/speed deviation)
- Press AP1 or AP2 button on FCU
- AP engages, controlling pitch and roll per armed/active modes
Minimum engagement altitude: Typically 100ft AGL after takeoff (company policy may vary).
Autopilot Disconnect
Autopilot disconnects by:
- Press AP button on FCU: Normal manual disconnect
- Press instinctive disconnect button on sidestick: Quick disconnect (red button on sidestick)
- Automatic disconnect: Excessive deviation, dual input, system failure
🚨 Autopilot Disconnect Warning
When autopilot disconnects, you get:
• Continuous repetitive chime (cavalry charge sound)
• Red "AP OFF" warning on PFD
• Master warning light
To silence: Press instinctive disconnect button on sidestick or AP button on FCU. Critical: Autopilot disconnect at low altitude (e.g., during approach) requires immediate pilot takeover and flight path stabilization.
Autothrust System
Autothrust automatically manages engine thrust to maintain speed or climb/descent profile.
Autothrust Modes
| Mode | Function | When Used |
|---|---|---|
| SPEED | Maintains selected or managed speed | Climb, cruise, descent (level flight) |
| MACH | Maintains selected or managed Mach number | High altitude cruise |
| THR CLB | Applies climb thrust (not maintaining speed) | Climb phase, AP in CLB mode |
| THR IDLE | Applies idle thrust (not maintaining speed) | Descent phase, AP in DES mode |
| THR LVR | Thrust levers manually positioned, A/THR armed but not active | Takeoff, go-around |
| A.FLOOR | Alpha floor protection - TOGA thrust automatically applied | Approaching low speed protection (alpha floor) |
Thrust Lever Position
With autothrust active, thrust levers typically remain in CL (climb) detent:
- Takeoff: Levers in FLX or TOGA detent, A/THR armed (THR LVR mode)
- After takeoff acceleration: Reduce levers to CL detent, A/THR becomes active (SPEED or THR CLB mode)
- Cruise/Descent: Levers remain in CL detent, A/THR manages thrust automatically
- Landing: Reduce levers to IDLE at 30ft (automatic call "RETARD"), A/THR disconnects at touchdown
🎚️ Autothrust and Thrust Levers
Unlike some aircraft, A320 thrust levers DO NOT move automatically with autothrust. Thrust levers remain physically in CL detent while engines automatically adjust thrust. Pilot can override autothrust by moving thrust levers manually - if moved out of CL detent range, A/THR may disconnect or enter THR LVR mode.
Autoland (CAT II/III Approaches)
A320 can perform fully automatic landings in low visibility using autoland system.
Autoland Requirements
- Both autopilots serviceable
- Autoland capability on aircraft (certified for CAT II or CAT III)
- ILS approach to suitable runway (CAT II/III certified)
- Both flight directors ON
- Approach mode armed (LOC and G/S)
- LAND mode armed (shows in white on FMA)
Autoland Sequence
- Approach Phase: Single AP active (AP1 or AP2), LOC and G/S captured
- Below 400ft: LAND mode arms (white on FMA)
- Below 400ft: Second AP automatically engages (both AP active)
- LAND mode active: Green on FMA, both APs guiding aircraft to runway
- 40ft RA: FLARE mode activates, automatic pitch up for flare
- 30ft RA: "RETARD" aural call, reduce thrust levers to IDLE
- Touchdown: Main gear touchdown, autothrust disconnects
- After touchdown: Automatic rollout guidance (nose gear steering), pilot takes over at low speed
🚨 Autoland Monitoring
Pilot must monitor autoland closely and be ready to take over manually:
• If second AP fails to engage below 400ft → go-around
• If LAND mode fails to activate → go-around
• If significant lateral/vertical deviation → consider go-around
• After LAND green active, do NOT disconnect autopilot manually unless landing is unstable
• At "RETARD" call, smoothly reduce thrust to IDLE
• After touchdown, apply manual braking and reversers as needed
CAT II vs CAT III
| Category | Decision Height | RVR Minimum | Notes |
|---|---|---|---|
| CAT II | 100ft | 300m | Requires autoland, pilot must see runway at DH to continue |
| CAT IIIA | 50ft or none | 200m | Autoland required, lower visibility than CAT II |
| CAT IIIB | None | 75m-200m | Autoland, very low visibility operations |
| CAT IIIC | None | Zero | True zero visibility landing (rare certification) |
Frequently Asked Questions
Practice Autoflight Questions for Type Rating
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