Normal Law Protections in the A320
The A320 has various flight envelope protections which protect the aircraft from entering certain critical situations while Normal Law is active.
The guides in this section shall cover some of the main envelope protections of the A320's Normal Law.
Control Laws
The fly-by-wire principle of the A320 uses several "Laws" on how to control the flight control surfaces in relation to the pilot's input to side stick.
- Normal Law:
- normal conditions even after single failure of sensors, electrical system, hydraulic system or flight control computer
- Alternate Law:
- activated after certain double (or triple) failures
- Direct Law:
- Mainly after double or triple IRS failure
- Mechanical Backup (after loss of all electrical power):
- Trim wheel
- Rudder pedals
The different laws will support different types of protections and change the relationship between pilot's stick input and flight control interfaces.
Envelope Protections Overview:
- Overspeed Protection
- High Angle of Attack Protection
- Alpha Floor Protection
- Manoeuvre Protection
- Attitude Protection
- Windshear Protection
- Low Energy Protection
High Speed Protection
High Speed Protection (HSP) aims to protect the aircraft from overspeed situation exceeding the Vmo or Mmo speeds (maximum operating speeds in knots or mach).
See also V-Speeds
Engagement Conditions
HSP is activated at or above Vmo or Mmo speeds (maximum operating speeds in knots or mach), depending on flight conditions.
Indication and warnings
The overspeed limits are shown on the speed band on the PFD as a black and red strip and a pair of green lines.
- 1: Vmax = Lowest of Vmo, Mmo, VLE, VFE
- 2: Vmo + 6kt or Mmo + 0.01 Overspeed Protection becomes active
- 3: Current IAS (In Air Speed)
- 4: Current Mach speed
High Speed Protection triggers the following warnings
- Continuous repetitive chime
- Master warning light
- Overspeed red message on ECAM
- Red and black strip along the PFD scale
Protective Actions
- Automatic AP disconnection (Vmo + 15kt or Mmo + 0.04)
- When Vmo + 6kt or Mmo + 0.01 is reached a positive load factor demand is automatically applied (pitch up action)
- When full nose-down stick is maintained speed is limited to around Vmo + 16kt and Mmo + 0.04 (pilot nose-down authority is reduced)
- When side stick is released the aircraft's bank angle will return to 0° (instead of 33° outside of HSP)
- Bank angle limit is reduced from 67° to 40°
- Pitch trim is frozen
Recommended Action to Recover
- Extend Speed Brake
- Increase pitch
- Reduce thrust and/or activate A/THR
High Angle of Attack Protection
The Angle of Attack Protection in the A320 is in simple terms a protection against a too high angle of attack and in consequence stalling the aircraft.
Angle of Attack
"The Angle of Attack is the angle at which relative wind meets an Aerofoil. It is the angle formed by the Chord of the aerofoil and the direction of the relative wind or the vector representing the relative motion between the aircraft and the atmosphere."
Based on the article Angle of Attack (AOA), Source: www.skybrary.aero.
The angle of attack is commonly called α (alpha) which we will use in the following sections.
Engagement Conditions
The High Angle of Attack Protection is engaged when:
- current angle of attack ia greater that αprot (in Normal Law) when above 100ft RA
- Below 100 ft RA during the landing, when αmax is reached
Indication and warnings
- 1: Green Dot Speed is the best lift-to-drag ratio speed in the clean configuration.
- 2: VLS is minimal selectable speed providing an appropriate margin to the stall speed. The autopilot will not go below this speed if autothrust is active.
- 3: Selected speed in the FCU
- 4: αprot limit
- this speed is maintained when side stick is neutral
- if sidestick if deflected aft this will eventually activate αfloor A/THR protection - see Alpha Floor Protection
- 5: αmax is the speed with the maximum angle of attack (AoA) the aircraft will allow
- this speed is maintained when side stick is deflected fully aft
- it has a small margin before reaching the stall AoA
Protective Actions
- Automatic AP disconnection
- If α becomes greater than αprot then angel of attack will become proportional to stick deflection. Autotrim will stop which results in a nose-down tendency.
- If α reaches αfloor the autothrust system will apply go-around thrust. See Alpha Floor Protection.
- αmax cannot be exceeded even with the pilot pulling the stick full backward. In other words the cannot be stalled in Normal Law by the pilot's pitch up stick input.
Recommended Action to Recover
-
Push sidestick forward to reduce pitch and gain speed.
-
If Alpha Floor Protection (αfloor) is activated see next chapter Alpha Floor Protection
Alpha Floor Protection
The Alpha Floor Protection automatically sets TOGA thrust when a very high angle of attack is reached.
Engagement Conditions
Alpha Floor Protection engages after lift-off until 100ft RA before landing, when:
- α is >αfloor
- 9.5° in CONFIG 0, 15° in CONFIG 1 and 2, 14° in CONFIG 3, 13° in CONFIG FULL
- Sidestick deflection is >14° when either
- High Angle of Attack Protection is active, or
- the Attitude Protection for pitch is active.
Alpha Floor Protection is inhibited, when:
- speed is above 0.6 Mach
- TCAS mode is engaged
Indication and warnings
If the αfloor (A.FLOOR) protection is triggered the Autothrust FMA shows this symbol with a flashing amber border.
Protective Actions
Alpha Floor Protection signals the autothrust system to set TOGA thrust. Thrust lever positions are ignored.
As αfloor also implies αprot see High Angle of Attack Protection for additional actions.
Recommended Action to Recover
See our specific guide on how to recover from A.FLOOR: A.FLOOR and TOGA LK
Manoeuvre Protection
Manoeuvre Protection, also called Load Factor Protection, enables immediate PF reaction, by pulling the sidestick to full aft without any risk of overstressing the aircraft.
The load factor limit is:
- -1.0 to +2.5g load factor for clean configuration
- 0 to +2.0g positive load factor for other configurations
Indication and warnings
The lower ECAM displays the load factor (G LOAD) in amber, when the value is above 1.4g or below 0.7g for more than 2s.
Attitude Protection
Attitude Protection is meant to complement AOA and high speed protection in extreme conditions and in windshear.
For this it limits:
-
Bank angle:
- limited to 33° stick released
- limited to 67° stick fully deflected
-
Pitch angle:
- limited to 30° nose up
- limited to 15° nose down
If these limits are approached, the aircraft pitch and roll rate decrease and stop at the limit.
Indication and warnings
- 1: Bank limit indicator at 67°
- 2: Pitch down limit indicator at -15°
- 3: Pitch up limit indicator at 30°
Windshear Protection
Not yet available in the A32NX on Microsoft Flight Simulator
Windshear Protection is available during take off and approach phases when:
- at takeoff 3s after lift off up to 1.300ft RA
- at landing from 1.300ft RA to 50ft RA
- as least CONF 1
Indication and warnings
- Visual “WINDSHEAR” red message displayed on both PFDs for a minimum of 15s.
- Aural synthetic voice announcing “WINDSHEAR” three times.
Recommended Action to Recover
- Flight Director pitch order based on the speed reference system (SRS).
- Pilot must set TOGa thrust immediately and follow the FD pitch order to execute optimum escape maneuver.
Low Energy Protection
Not yet available in the A32NX on Microsoft Flight Simulator
If the aircraft’s energy level is going below a threshold an aural low-energy “SPEED SPEED SPEED” alert warns the pilot to increase thrust, in order to regain a positive flight path angle through pitch control.
It is available in Configuration 2, 3, and FULL. The FAC computes the energy level with the following inputs:
- Aircraft configuration
- Horizontal deceleration rate
- Flight path angle.
The aural alert is inhibited when:
- TOGA is selected, or
- Below 100 ft RA, or
- Above 2 000 ft RA, or
- Alpha-floor, or
- the ground proximity warning system alert is triggered, or
- in alternate or direct law, or
- if both radio altimeters fail.
During deceleration, the low-energy aural alert is triggered before alpha floor (unless alpha floor is triggered by stick deflection). The amount of time between the two alerts depends on the deceleration rate.