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Tutorials (UPRT included) Flow Patterns Cockpit Panels October 2022

Reasons for Change October 2022 • Introduction of new UPRT tutorials. • The following tutorials are updated in order to be aligned with the enhanced SOPs: ○ Visual Circuit ○ ECAM Management, and ○ Engine Failure after V1. • The tutorial “Cockpit Preparation” is updated with correction of an erroneous flow pattern. • The tutorial “Before Pushback/Start - Engine Start - After Start” is updated with correction of a link between two slides. • The tutorial “Taxi - Before Takeoff” is updated with removal of an erroneous procedure line. • The tutorial “Climb” is updated with new FMA indications. • The tutorial “Descent” is updated with correction of an erroneous tasksharing in the “Descent 10 000 ft AAL” flow pattern. • The LVO tutorial is updated with addition of missing information. • The tutorial “Emergency Evacuation” is updated with an improvement in the readability. • The tutorial “Unreliable Airspeed Situation” is updated with addition of the associated callout. Note: Above mentioned updates are related to TSARs 13-12884, 13-13596, 13-13702, 13-14075, 13-14077, 13-14078, 13-14088, 13-14117 and 13-14118.

A320/A330

CLICK TOUEDIT MTASTER TITLE STYLE SE OF UTORIALS The objective is to provide a good mental picturing before a training exercise

When and how to use tutorials

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Navigation

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Organization of the Tutorials

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Preventing identified Risks (PIR)

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XFTDN1USETUTO01 – OCT 2018

A320/A330

CLICK TOUEDIT MTASTER TITLE STYLE SE OF UTORIALS The objective is to provide a good mental picturing before a training exercise

When and how to use tutorials

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Navigation

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Organization of the Tutorials

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Preventing identified risks

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XFTDN1USETUTO01 – OCT 2018

LICK TO HOW EDIT TO MASTER TITLE STYLE WC HEN AND USE THE TUTORIALS APT sessions

The trainee studies the tutorials before the APT session. During briefing of the APT session, the instructor discusses with the trainees any question regarding the exercises. The instructor conducts the exercises in the APT assisted if needed by the tutorials. FFS sessions

The trainee studies the tutorials before the FFS session. During briefing of the FFS session, the instructor briefs the trainees with the support of the tutorials, if needed. Tutorials are used to assist debriefing after the session as required.

BACK

LICK TO HOW EDIT TO MASTER TITLE STYLE WC HEN AND USE THE TUTORIALS APT sessions

The trainee studies the tutorials before the APT session. During briefing of the APT session, the instructor discusses with the trainees any question regarding the exercises. The instructor conducts the exercises in the APT assisted if needed by the tutorials. FFS sessions

The trainee studies the tutorials before the FFS session. During briefing of the FFS session, the instructor briefs the trainees with the support of the tutorials, if needed. Tutorials are used to assist debriefing after the session as required.

BACK

CLICK TO EDIT MASTER TITLE STYLE NAVIGATION Several buttons are used to navigate through the different pages of the tutorial. The buttons are: BACK i SOP PROC NEXT PREV FLOW CALLOUTS GOLD

The BACK button is used to go back one step. The i button is used to open an information page. The SOP button is used to open a Standard Operating Procedure (SOP) page. The PROC button is used to open a procedure (normal or abnormal) page. The NEXT and PREV buttons are used to navigate within a procedure that is on more than one page. The FLOW button is used to open an action flow page. The CALLOUT button is used to open a callout page. The GOLD button is used to page with a reminder of the Golden Rules.

BACK

COLICK TO EDITOF MASTER TITLE STYLE RGANIZATION THE TUTORIALS – 1/3 Main slide Slides must be read from top to bottom and from left to right.

Title of the Tutorial

Procedure steps

Complementary information

Illustration of the situation

Indication that the Tutorial contains memory items

NEXT

COLICK TO EDITOF MASTER TITLE STYLE RGANIZATION THE TUTORIALS – 2/3

PREV

NEXT

Procedure slide

Title of slide Condition or information

Action

Callout

Link to more information

Memory item

COLICK TO EDITOF MTHE ASTER TITLE STYLE RGANIZATION TUTORIALS – 3/3

PREV

Information slides Title

BACK button

Information

Title

Information box

BACK button

BACK

PREVENTING CLICK TO EDITIDENTIFIED MASTER FROM TITLERISKS STYLE (Refer to FCTM for definition and PIR list)

Possibility of injury to the ground personnel.

Possibility of damage to the aircraft.

Possibility of injury to passengers.

The navigation may be affected.

It may not be possible to complete the initial flight.

The handling or control of the aircraft may be affected.

BACK

IRST FFS FFIRST FFS

EXIT

A320 A320/A330

FFS SAFETY EQUIPMENT i

FFS COCKPIT FACILITY i

XFTDO1FRSTFFS01 – OCT 2018

IRST E FFS FFS SFAFETY QUIPMENT

 Emergency Stop

 Fire extinguishers

 Escape ropes

 Torch

BACK

FFS FFS F CIRST OCKPIT FACILITY

 Seat, pedal and armrest adjustments:

• Seat

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• Pedal

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• Armrest

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 Sliding table  Cockpit lights  Oxygen masks  Hand mike, headset, RMP, ACP

BACK

FFS FFS F CIRST OCKPIT FACILITY SEAT ADJUSTMENTS

BACK

 Move the pedals full forward.  Move the seat full forward (Use either mechanical or electrical controls. Get familiar with both.).  Adjust the seat vertically and horizontally according to sidestick position.

 Both surfaces must be visible by just looking up and down.

EYE REFERENCE PANEL

FFS FFS F CIRST OCKPIT FACILITY PEDAL ADJUSTMENTS

 Put your feet “inside” the pedals.

 Apply full deflection of the pedal, then apply full braking action.

 The leg should be almost fully extended at this point, but there should not be any body movement or sliding on the seat to achieve that position.

BACK

FFS FFS F CIRST OCKPIT FACILITY ARMREST ADJUSTMENTS

BACK

HEIGHT ADJUST: Button A PITCH ADJUST: Button B

HEIGHT INDICATION

PITCH INDICATION

1

When your seat is adjusted: • Position your arm like shown on the picture 1, slide it forward without moving your wrist. 2

• If the armrest is correctly positioned, your hand should come naturally around the side stick as shown on picture 2.

EXIT

CLICK TO EDIT MASTER TITLE GOLDEN RULES

GOLDEN RULE #1

STYLE

Fly, Navigate, Communicate In that order, with the appropriate tasksharing.

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GOLDEN RULE #2

Use the appropriate level of automation at all times.

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GOLDEN RULE #3

Understand the FMA at all times.

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GOLDEN RULE #4

Take actions if things do not go as expected.

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A320/A330

XFTDN1GOLDRUL01 – OCT 2018

CLICK MASTER TITLE STYLE #1 TO FLY,EDIT NAVIGATE , COMMUNICATE

BACK

Fly! Navigate! Communicate! The flight crew must perform these three actions in sequence and must use appropriate tasksharing in normal and abnormal operations, in manual flight or in flight with the AP engaged. Fly the aircraft (Pitch, bank, airspeed, thrust, sideslip, heading, etc...)  Achieve and maintain desired targets and flight path.

PM

Actively monitor the flight parameters  Call out any excessive deviation.

Communicate

Navigate

Fly

PF

Situational awareness Know where you are...

Cabin Crew

Know where you should be...

Know where you should go...

Flight Crew PF

PM

Know where the weather, terrain and obstacles are...

ATC Ground crew

To ensure good communication, the flight crew should use standard phraseology and the applicable callouts. Always keep in mind the key message: Fly the aircraft! Fly the aircraft! Fly the aircraft!

#2 UTO SE THE APPROPRIATE LEVEL OF CLICK EDIT MASTER TITLE STYLE AUTOMATION AT ALL TIMES

To use the appropriate level of automation at all times, the flight crew must:

Determine and select the appropriate level of automation, that can include manual flight. Understand the operational effect of the selected level of automation. Confirm that the aircraft reacts as expected.

BACK

C#3 LICK TO EDIT M ASTER UNDERSTAND THE FMATITLE AT ALL STYLE TIMES

To ensure correct situational awareness at all times, the flight crew must:

Monitor the FMA. Announce the FMA. Confirm the FMA. Understand the FMA.

BACK

#4 TTO AKE ACTIONS IF THINGS DO NOT CLICK EDIT MASTER TITLE STYLE GO AS EXPECTED

If the aircraft does not follow the desired flight path, or the selected targets.

Take action ! PF Change the level of automation • Managed guidance  Selected guidance, or • Selected guidance  Manual flying.

PM • Communicate with the PF • Challenge the actions of the PF, if necessary • Take over, if necessary.

BACK

A320

CLICK TO FEDIT TITLE STYLE LOWMPASTER ATTERNS Cockpit Preparation – Overhead Panel

FLOW

Descent 10 000 FT AAL

FLOW

Cockpit Preparation – Center Instrument Panel

FLOW

After Landing

FLOW

Cockpit Preparation – Pedestal

FLOW

Parking

FLOW

Cockpit Preparation – Final Cockpit Prep.

FLOW

Departure Briefing

FLOW

Emergency Descent

FLOW

At Pushback/Start Clearance

FLOW

Rejected Takeoff

FLOW

After Start

FLOW

Taxi

FLOW

Line-up

FLOW

Acceleration

FLOW

Climb 10 000 FT AAL

FLOW

Descent – FMS Preparation

FLOW

Arrival Briefing

FLOW

REV14

EFTDB0FLOWPAT01 – A320 – OCT 2022

Cockpit Preparation – Overhead Panel STYLE CLICKPTO EDIT MASTER TITLE COCKPIT REPARATION – OVERHEAD PANEL NEXT

BACK

MAINT PANEL…CHECK

PF

1

2

3

AUDIO SWITCHING…NORM PA…RECEPT

During the scan sequence, extinguish all white lights.

ENG FIRE..CHECK/TEST

MAINTENANCE panel ALL LIGHTS…….CHECK OFF ELEC PANEL……..CHECK BAT………….…..…CHECK

CAPT & PURS/CAPT…AS RQRD * PACK FLOW….AS RQRD CVR TEST pb...PRESS *RCDR GND CTL…ON

VENT…CHECK LDG ELEV………………….AUTO PROBE/WINDOW HEAT…AUTO

STROBE ….…………..….…AUTO BEACON ……………….……. OFF REMAINING EXT LT … AS RQRD

* SIGNS …..... ON/AUTO * EMER EXIT LT … ARM

 If secured stop or flight crew change: Perform all actions  Otherwise (transit stop) perform only actions marked by * in QRH

Cockpit Center Instrument Panel CLICK TO Preparation EDIT M ASTER TITLE STYLEPPREV COCKPIT PREPARATION – –C ENTER INSTRUMENT ANELNEXT

PF

*ISIS..……CHECK

1

3 2

*A/SKID & NW STRG sw........ON *CLOCK..……CHECK/SET

BACK

Preparation – Pedestal CLICK TOCockpit EDIT MASTER STYLE PREV COCKPIT PREPARATION –TITLE PEDESTAL

NEXT

BACK

PF 2

SWITCHING PANEL... NORM

3

1

ACP.........CHECK ON/SET

* ATC................ STBY *THRUST levers...IDLE

*ENG MASTER levers....OFF *ENG MODE selector....NORM

COCKPIT DOOR sw......NORM

* PARK BRK handle......AS RQRD

* ACCU/BRAKE PRESS.....CHECK On Center Instrument Panel

GRAVITY GEAR EXTN .........CHECK STOWED

Cockpit Final Cockpit Preparation CLICK TOPreparation EDIT –M–FASTER TITLE STYLE COCKPIT PREPARATION INAL COCKPIT PREPARATION PREV NEXT

FINAL COCKPIT PREPARATION

When both pilots are seated:

PF

PM

CM1

2

1

PF

PF

1

1

GLARESHIELD

2

LATERAL CONSOLES INTRUMENT PANELS

CM2

2

BACK

Structure of M theASTER Departure Briefing CTRUCTURE LICK TO EDIT TITLE STYLE PREV S OF THE DEPARTURE BRIEFING

PF

PM Set Distraction Free Environment • • • • •

• • • • • •

PLAN T/O RWY (Intersection) SID Designator First cleared ALT MSA/MORA for climb trajectory Extra-fuel & -time

PLAN Hotspots of planned taxi route Stop-margin for RTO EOSID Return/Diversion Considerations Special Operation Non-standard operation Identified THREATS Identified THREATS MITIGATIONS MISCELLANEOUS

NEXT

BACK

At Pushback/Start Clearance CLICK EDIT M TITLE STYLE PREV AT PTO USHBACK /SASTER TART CLEARANCE

PF

NEXT

BACK

PM BEACON sw

1

WINDOWS

2

2

DOORS/SLIDES

THRUST LEVERS

3

3 DOORS/SLIDES

4

1

5 PARK BRK handle

ATC

WINDOWS

After Start CLICK TO EDIT M ASTER AFTER START TITLE STYLE PREV

PF

NEXT

PM ANTI-ICE

2

3

APU BLEED

4

5

APU MASTER SW

STATUS

4

5

PITCH TRIM

ENG MODE Sel

1

1

3

FLAPS

GND SPOILERS

2

RUDDER TRIM

BACK

CLICK TO EDIT MTTaxi ASTER TITLE STYLE PREV AXI

NEXT

PM

7

T.O MEMO

T.O CONFIG

RADAR/PWS

AUTO BRK MAX pb-sw

6

4

ENG MODE sel

1

2 3

ATC CODE/MODE

BACK

Line-up CLICK TO EDIT LM ASTER INE -UP TITLE STYLE PREV

PF

NEXT

PM

PACK 1 and 2

4 EXTERIOR LIGHTS

3

TAKEOFF RUNWAY

1

TAKEOFF RUNWAY

2 APPROACH PATH

3

2

APPROACH PATH

CABIN CREW

5 1

TCAS mode selector

BACK

Acceleration CLICK TO EDIT MASTER TITLE STYLE PREV ACCELERATION

NEXT

PM EXTERIOR LIGHTS

4

3

GND SPLRS

2

1

L/G

FLAP 0

BACK

Climb 000 FTFT AALAAL CLICK TOCLIMB EDIT M10ASTER TITLE STYLE PREV 10 000

PF

NEXT

PM L & R LAND sel

3

1

2

SEAT BELTS

EFIS OPT

ECAM MEMO

4

NAVAIDS

5

SEC F-PLN OPT / MAX ALT

BACK

Descent – FMS Preparation CLICK TO EDIT M ASTER TITLE STYLE PREV DESCENT – FMS PREPARATION

Insert lateral and vertical revisions for arrival, as needed. Navaids selection or deselection. Check the idents on PFDs and NDs. NAV ACCURACY monitoring during descent. DES, APPR and GO AROUND pages to complete. PERF APPR page: An erroneous entry of OAT or QNH may lead to undue emergency descent (wrong Cabin Pressure Control (CPC) segment computation). Check extra fuel to evaluate holding possibilities at destination. Copy active F-PLN and revise the SEC F-PLN according circumstances: alternative approach, circling, etc…

NEXT

BACK

the Arrival Briefing CSLICK TOStructure EDIT M ASTER TITLE STYLE PREV TRUCTURE OF of THE ARRIVAL BRIEFING

PF

PM Set Distraction Free Environment PLAN

• MORA/MOCA/MSA for planned trajectory • STAR • Type of APP • MINIMUM • G/A TRAJECTORY • Extra-fuel & -time

• • • • • • • • •

PLAN Guidance for APP Landing FLAP setting Stop-margin Use of Reverse Use of Autobrake Planned RWY Exit Hotspots for taxi-in Special operation Non-standard operation

Identified THREATS Identified THREATS MITIGATIONS MISCELLANEOUS

NEXT

BACK

Descent 10 000 FT AAL CLICK TO EDIT M ASTER DESCENT 10 000 FTTITLE AAL STYLE PREV

PF

NEXT

PM L & R LAND sel

1

2

EFIS

EFIS LS

WHEN GPS PRIMARY LOST: NAV ACCY

SEAT BELTS

3

1

2

3

5

6

4

LS

RADIO NAV

ENG MODE sel

BACK

After Landing CLICK TO EDIT MASTER AFTER LANDINGTITLE STYLE PREV

PF

NEXT

PM ANTI-ICE EXTERIOR LIGHTS

RADAR PREDICTIVE WINDSHEAR

7

6

APU

2

1 2

1

GROUND SPOILERS

3 ENG MODE selL

5 4

TCAS / ATC

FLAPS

BACK

Parking CLICK TO EDITPM ASTER TITLE STYLE PREV ARKING

3

PF ANTI-ICE EXTERIOR LIGHTS

4

1

2

FUEL PUMPS

APU BLEED pb-sw

6

5 SLIDES

ALL ENG MASTER LEVERS

3

PARK BRAKE handle

2

SEAT BELTS sw

1

ACCU PRESS

NEXT

PM

BACK

Emergency Descent CLICK TOEMERGENCY EDIT MASTER TITLE STYLE PREV DESCENT

PF

1

1

NEXT

PM

BACK

Rejected Takeoff CLICK TO REDIT MASTER TITLE STYLE PREV EJECTED TAKEOFF

CAPT

BACK

F/O

“STOP !” « REVERSE GREEN »

1 « ECAM ACTIONS »

2

4

« DECEL »

3 ALL THRUST LEVERS IDLE REVERSERS MAX AVAIL

1 PA: « ATTENTION! CREW AT STATION »

3

3

WHEN AIRCRAFT STOPPED « AIRBUS____, STOPPING »

4 WHEN AIRCRAFT IS STOPPED: REVERSERS STOWED PARKING BRAKE ON

EMERGENCY EVACUATION PROC: LOCATE

2

EXIT

A320/A330

CLICK TO

IFRMCASTER HARTSTITLE STYLE EDIT SUMMARY

Summary of IFR chart pages: I.

General………….…… i

II.

Arrival………….…….. i

III.

Departure………………i

IV.

STAR………………… i

V.

SID…………………… i

VI.

Airport………………….i

VII.

Initial Approaches…… i

VIII. Final Approaches…… i

XFSNN1E00NAVC01 – JUL 2020

MAIN MENU

CLICK TOGENERAL EDIT MIASTER TITLE NFORMATION

General Information

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Radar Minimum Altitude

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STYLE

BACK

MAIN MENU

CLICK TOGENERAL EDIT MIASTER TITLE NFORMATION

STYLE

ATIS Frequency

Other General Information

BACK

MAIN MENU

CLICK TO EDIT ASTER TITLE STYLE RADAR MM INIMUM ALTITUDE Header

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Altitude Chart

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BACK

MAIN MENU

CLICK TO EDIT ASTER TITLE STYLE RADAR MM INIMUM ALTITUDE

SHOW INFORMATION

BACK

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CLICK TO EDIT ASTER TITLE STYLE RADAR MM INIMUM ALTITUDE

MAIN MENU

Airport Elevation

BACK

Transition Altitude

Chart Title

HIDE INFORMATION

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MAIN MENU

CLICK TO EDIT MASTER TITLE ALTITUDE CHART

STYLE

SHOW INFORMATION

BACK

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MAIN MENU

CLICK TO EDIT MASTER TITLE ALTITUDE CHART

STYLE

BACK

Minimum Altitude on the Red Area

Highest Terrain on the Chart

Minimum Altitude on the Orange Area

HIDE INFORMATION

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MAIN MENU

CLICK TO EDIT MIASTER TITLE ARRIVALS NFORMATION

STYLE

BACK

On this page of IFR CHARTS, you will find specific information about arrivals.

SHOW INFORMATION

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CLICK TO EDIT MIASTER TITLE ARRIVALS NFORMATION

MAIN MENU

STYLE

BACK

On this page of IFR CHARTS, you will find specific information about arrivals.

Specific Information for Arrival Operations

HIDE INFORMATION

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MAIN MENU

CLICK TO EDIT MASTER TITLE DEPARTURE INFORMATION

STYLE

On this page of IFR CHARTS, you will find specific information about departures.

Noise Abatement Departure Procedure

Other Departure Information

BACK

MAIN MENU

CLICK TO

EDIT M ASTER TITLE STYLE STAR STAR = STandard ARrival

STAR Charts

RNAV STAR Charts

Standard STAR Charts

i

i

BACK

CLICK TORNAV EDIT STAR MASTER TITLE CHARTS

MAIN MENU

STYLE

BACK

Header RNAV STAR Information

i

RNAV STAR Chart

i

MAIN MENU

CHARTS CLICK TORNAV EDIT STAR MASTER TITLE RNAV STAR INFORMATION

Arrival

Runway Concerned

Additional Information

STYLE

BACK

MAIN MENU

CHARTS CLICK TORNAV EDIT STAR MASTER TITLE RNAV STAR CHART

STYLE

BACK

ESISI Arrival

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NETRO Holding

i

SHOW INFORMATION

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MAIN MENU

CHARTS CLICK TORNAV EDIT STAR MASTER TITLE

STYLE

BACK

RNAV STAR CHART – ESISI ARRIVAL

Follow heading 159° for 38 nm… …then, turn right heading 208° for 17 nm.

Waypoints with Constraints

FLY-OVER WPT

FLY-BY WPT

HIDE INFORMATION

i

CHARTS CLICK TORNAV EDIT STAR MASTER TITLE

MAIN MENU

STYLE

BACK

RNAV STAR CHART – NETRO HOLDING

Holding

HIDE INFORMATION

i

CHARTS CLICK TORNAV EDIT STAR MASTER TITLE

MAIN MENU

RNAV STAR CHART

STYLE

BACK

Follow heading 159° for 38 nm… …then, turn right heading 208° for 17 nm.

Holding Constraints Information

FLY-OVER WPT

FLY-BY WPT

HIDE INFORMATION

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CLICK TO EDIT MSTAR ASTER TITLE STYLE STANDARD CHARTS

MAIN MENU

BACK

Header

STAR Information

i

STAR Chart

i

MSA

i

MAIN MENU

STANDARD CHARTS CLICK TO EDIT MSTAR ASTER TITLE STYLE STAR INFORMATION Arrival

Runway Concerned Additional Information

Reference

BACK

MAIN MENU

STANDARD CHARTS CLICK TO EDIT MSTAR ASTER TITLE STYLE

BACK

MINIMUM SECTOR ALTITUDE

Minimum Sector Altitude = 3000 ft. With 2500 ft for the 10 first inner nautical miles.

25 nm circle centered around TOU VOR.

MAIN MENU

STANDARD CHARTS CLICK TO EDIT MSTAR ASTER TITLE STYLE

BACK

STAR CHART

AFRIC 6L Arrival

i

ADIMO Holding

i

SHOW INFORMATION

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MAIN MENU

STANDARD CHARTS CLICK TO EDIT MSTAR ASTER TITLE STYLE

BACK

STAR CHART – AFRIC ARRIVAL

Follow heading 222° during 23 nm Minimum Altitude on this Segment

then,

turn right heading 266° for 21 nm.

HIDE INFORMATION

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MAIN MENU

STANDARD CHARTS CLICK TO EDIT MSTAR ASTER TITLE STYLE

BACK

STAR CHART – HOLDING

Holding

HIDE INFORMATION

i

MAIN MENU

STANDARD CHARTS CLICK TO EDIT MSTAR ASTER TITLE STYLE

BACK

STAR CHART

Follow heading 222° during 23 nm Minimum Altitudes

Holding

then,

turn right heading 266° for 21 nm.

HIDE INFORMATION

i

MAIN MENU

CLICK TO

EDIT SIDMCASTER HARTS TITLE STYLE

SID = Standard Instrument Departure

SID Charts

RNAV SID Charts

Standard SID Charts

i

i

BACK

MAIN MENU

CLICK TO RNAV EDIT M ASTER TITLE SID CHARTS

STYLE

BACK

Header

RNAV SID

i

MAIN MENU

CLICK TO RNAV EDIT M ASTER TITLE SID CHARTS

STYLE

Altitude/Speed Constraints

Departure Trajectory

Climb gradient Constraints

Initial Level Clearance

BACK

MAIN MENU

CLICK TO EDIT MASTER TITLE STANDARD SID CHARTS

STYLE

BACK

Header

Standard SID Charts

i

SID Procedure Description

MAIN MENU

CLICK TO EDIT MASTER TITLE STANDARD SID CHARTS

STYLE

MEN 5H Departure

BACK

i

MAIN MENU

Follow heading 323° until TOU VOR

CLICK TO EDIT MASTER TITLE STANDARD SID CHARTS

STYLE

BACK

At BISBI WPT, turn left heading 043°

Turn right heading 065° Minimum Performances required for these Departures

HIDE INFORMATION

i

MAIN MENU

CLICK TO EDIT MASTER TITLE AIRPORT CHARTS

STYLE

Airport Charts

Gates Coordinates

Airport Chart

i

i

BACK

MAIN MENU

CLICK TOGEDIT ASTER TITLE ATES M COORDINATES

STYLE

Gates Coordinates

BACK

MAIN MENU

CLICK TO EDIT MASTER TITLE AIRPORT CHARTS

STYLE

BACK

Header Communication Frequencies

Airport Plan

i

Additional Runway Information

i

MAIN MENU

CLICK TO EDIT MASTER TITLEPLAN STYLE AIRPORT CHARTS - AIRPORT

SHOW INFORMATION

BACK

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CLICK TO EDIT MASTER TITLEPLAN STYLE AIRPORT CHARTS - AIRPORT

MAIN MENU

BACK

Runway Elevation

Runway Length

Taxiway Name

Runway QFU

HIDE INFORMATION

i

MAIN MENU

CLICK TO EDIT MASTERRUNWAY TITLE STYLE AIRPORT CHARTS - ADDITIONAL INFORMATION

SHOW INFORMATION

BACK

i

MAIN MENU

CLICK TO EDIT MASTERRUNWAY TITLE STYLE AIRPORT CHARTS - ADDITIONAL INFORMATION PAPI Information

BACK

Runway Length/Width

Low Visibility Procedure Information.

Runway Visual Range (RVR) HIRL: High Intensity Runway Light CL: Center Light Distances between two lights: HIRL: 60m; CL: 15m HIDE INFORMATION

i

CLICK TO EDIT MASTER TITLE APPROACH PROCEDURE

MAIN MENU

STYLE

BACK

ILS or LOC

RNAV (GNSS)

VOR

VPT

Initial Approach

Initial Approach

Initial Approach

Approach

i

i

i

i

Final Approach

Final Approach

Final Approach

i

i

i

CLICK STYLE ILSTO OR EDIT LOC M – IASTER NITIAL ATITLE PPROACH

MAIN MENU

BACK

Header Approach Information

i

Chart

i

Final Approach

i

MAIN MENU

ILSTO OR EDIT LOC M – IASTER NITIAL ATITLE PPROACH CLICK STYLE

BACK

APPROACH INFORMATION

SHOW INFORMATION

i

MAIN MENU

ILSTO OR EDIT LOC M – IASTER NITIAL ATITLE PPROACH CLICK STYLE

BACK

APPROACH INFORMATION

Communication Frequencies

LOC Frequency & Approach Course

Reminder of Airport and Runway Altitudes

HIDE INFORMATION

i

MAIN MENU

ILSTO OR EDIT LOC M – IASTER NITIAL ATITLE PPROACH CLICK STYLE

BACK

APPROACH INFORMATION

SHOW INFORMATION

i

MAIN MENU

ILSTO OR EDIT LOC M – IASTER NITIAL ATITLE PPROACH CLICK STYLE

Instrument Required for this Approach

BACK

APPROACH INFORMATION

11-1B FINAL Approach Chart

Highest Terrain on the Chart

HIDE INFORMATION

i

CLICK TITLE STYLE ILSTO OREDIT LOCM – ASTER FINAL APPROACH

MAIN MENU

BACK

Header Approach Information

i

Chart

i

i

Initial Approach

MAIN MENU

ILSTO OREDIT LOCM – ASTER FINAL APPROACH CLICK TITLE STYLE

BACK

APPROACH INFORMATION

SHOW INFORMATION

i

ILSTO OREDIT LOCM – ASTER FINAL APPROACH CLICK TITLE STYLE

MAIN MENU

BACK

APPROACH INFORMATION

ILS/LOC Information

Communication Frequencies

Missed Approach Procedure Description

Refer to Lateral Profile Chart

i

HIDE INFORMATION

i

ILSTO OREDIT LOCM – ASTER FINAL APPROACH CLICK TITLE STYLE

MAIN MENU

BACK

CHART

Lateral Profile

i

Vertical Profile

i

MAIN MENU

ILSTO OREDIT LOCM – ASTER FINAL APPROACH CLICK TITLE STYLE LATERAL PROFILE

BACK BACK TO APPR INFO

Final Approach

i

Missed Approach Procedure

i

MAIN MENU

ILSTO OREDIT LOCM – ASTER FINAL APPROACH CLICK TITLE STYLE LATERAL PROFILE – FINAL APPROACH

BACK BACK TO APPR INFO

Vertical Profile

i

Click to play the animation

HIDE INFORMATION

i

MAIN MENU

ILSTO OREDIT LOCM – ASTER FINAL APPROACH CLICK TITLE STYLE LATERAL PROFILE – FINAL APPROACH

BACK BACK TO APPR INFO

Vertical Profile

i

HIDE INFORMATION

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MAIN MENU

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Holding after the Missed Approach Procedure

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Go-Around Immediate Trajectory Reminder

ILS Glide-Slope or Descent Angle Minima and RVR Related to Aircraft Category and Approach Type

References (LACTF: Large Aircraft)

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IAF Initial Approach Trajectory IF

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Missed Approach Procedure

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Minima Depending on type of Approach and Aircraft Category Final Approach

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IF

Platform Altitude

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FINAL APPROACH

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Platform Altitude

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MISSED APPROACH PROCEDURE

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MISSED APPROACH PROCEDURE

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Follow 12 nm TOU DME ARC

Final Approach

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Required Instrument for this Approach

Constraints

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Required Instrument for this Approach

Follow 12 nm TOU DME ARC Constraints Final Approach

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Identical to VOR/ILS Final Approach

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Airport Elevation

Go-Around Trajectory

Approach Trajectory

Missed Approach Directives Minima and RVR

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EXIT

CLICK TO EDIT MASTER TITLE STYLE COMPUTERIZED FLIGHT PLAN Operational data

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Alternate Airport

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A/C Estimated Weights

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Flight Plan Route Time & Fuel Records

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Navigation Log

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XFSNN1E00CPLN01 – OCT 2018

CLICK TO EDIT MASTERDATA TITLE OPERATIONAL

Aircraft Type

Call Sign

Mach Number

STYLE

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Route

Average wind component and temperature for route

CLICK TOFUEL EDIT TIME MASTER TITLE & DATA

Calculations to destination

TF = Trip Fuel

Time to destination

Nautical Miles & Nautical Air Miles to Destination

STYLE

Cruise FL to destination

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Fuel Calculation

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Trip distance to be compared with the MCDU F-PLN Page

Nautical Air Miles (NAM) is the ground distance (NM) corrected by the wind effect

In the example : GROUND distance = 200 NM Wind -100 KT AIR distance = 257 NM

CLICK TO FUEL EDIT M ASTER TITLE PLANNING

STYLE

How to calculate Total Fuel (Q) for the flight ?

Q = Taxi Fuel + TF + CF + AF + FR + Extra Fuel + ETPX DEST = Trip Fuel (TF)* RESV = Contingency Fuel (CF) ALT = Alternate Fuel (AF) HOLD = Final Reserve Fuel (FR) XTR = Extra Fuel ETPX = ETOPS Fuel Reserve TOF = Take Off Fuel TAXI = Taxi Fuel BLOCK = Total Fuel (Q) *Trip fuel (TF) is the amount of fuel needed from takeoff to landing.

Calculate TOF



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How to calculate Total Fuel (Q) for the flight ?

Q = Taxi Fuel + TF + CF + AF + FR + Extra Fuel + ETPX TF + CF + AF + FR + Extra Fuel + ETPX ----------------= TOF

DEST = Trip Fuel (TF) RESV = Contingency Fuel (CF) ALT = Alternate Fuel (AF) HOLD = Final Reserve Fuel (FR) XTR = Extra Fuel ETPX = ETOPS Fuel Reserve TOF = Take Off Fuel TAXI = Taxi Fuel BLOCK = Total Fuel (Q) Calculate Q



001867 + 000093 + 001446 + 001009 + 000000 + 000000 -------------= 004415

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How to calculate Total Fuel (Q) for the flight ?

Q = Taxi Fuel + TF + CF + AF + FR + Extra Fuel + ETPX DEST = Trip Fuel (TF) RESV = Contingency Fuel (CF) ALT = Alternate Fuel (AF) HOLD = Final Reserve Fuel (FR) XTR = Extra Fuel ETPX = ETOPS Fuel Reserve TOF = Take Off Fuel TAXI = Taxi Fuel BLOCK = Total Fuel (Q)

TF + CF + AF + FR + Extra Fuel + ETPX ----------------= TOF + TAXI ----------------=Q

001867 + 000093 + 001446 + 001009 + 000000 + 000000 -------------= 004415 + 000200 ------------= 004615

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CLICKA/C TOESTIMATED EDIT MASTER TITLE STYLE WEIGHTS

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CLICKA/C TOESTIMATED EDIT MASTER TITLE STYLE WEIGHTS

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Calculate EZFW →

MAX TANK BASIC WT = Basic Weight of aircraft EPLD = Estimated payload EZFW = Estimated Zero Fuel Weight TOF = Take Off fuel ETOW = Estimated Take Off Weight EB/O = Estimated Burn Off ELAW = Estimated Landing Weight

CLICKA/C TOESTIMATED EDIT MASTER TITLE STYLE WEIGHTS

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Calculate ETOW →

MAX TANK BASIC WT = Basic Weight of aircraft EPLD = Estimated payload EZFW = Estimated Zero Fuel Weight TOF = Take Off fuel ETOW = Estimated Take Off Weight EB/O = Estimated Burn Off ELAW = Estimated Landing Weight

BASIC WT + EPLD ----------------= EZFW

039000 + 015200 --------------= 054200

CLICKA/C TOESTIMATED EDIT MASTER TITLE STYLE WEIGHTS

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Calculate ELAW →

MAX TANK BASIC WT = Basic Weight of aircraft EPLD = Estimated payload EZFW = Estimated Zero Fuel Weight TOF = Take Off fuel ETOW = Estimated Take Off Weight EB/O = Estimated Burn Off ELAW = Estimated Landing Weight

BASIC WT + EPLD ----------------= EZFW + TOF ----------------= ETOW

039000 + 015200 --------------= 054200 + 004415 --------------= 058615

CLICKA/C TOESTIMATED EDIT MASTER TITLE STYLE WEIGHTS

MAX TANK BASIC WT = Basic Weight of aircraft EPLD = Estimated payload EZFW = Estimated Zero Fuel Weight TOF = Take Off fuel ETOW = Estimated Take Off Weight EB/O = Estimated Burn Off ELAW = Estimated Landing Weight

BASIC WT + EPLD ----------------= EZFW + TOF ----------------= ETOW - EB/O ----------------= ELAW

039000 + 015200 --------------= 054200 + 004415 --------------= 058615 - 001867 --------------= 056748

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FLIGHT PLAN ROUTE CLICK TO EDIT MASTER TITLE

TIME & FUEL RECORDS

DEP airport

Route

SID

STYLE

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DEST airport STAR

Flight Plan Route

Time & Fuel Records

Vertical Profile

Records

CLICK TO NAVIGATION EDIT MASTER TITLE LOG WIND Outside Air Temp / Shear

STYLE

Ground / Air Distance from previous waypoint Remaining Ground / Air Distance to destination

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Waypoints Airways

Estimated Time to reach the waypoint Cumulated Time from departure

Flight Level MORA MORA: Minimum Off Route Altitude

True Air Speed Ground Speed

In True / Magnetic Track Out True / Magnetic Track

Records

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CLICK TO NAVIGATION EDIT MASTER TITLE LOG

STYLE

This is the flight route: - The aircraft reaches its top of descent (TOD) 1 minutes after GAI. - The remaining air distance at the TOD is 119 Nautical Miles to destination. - The outside temperature is -47 degrees (M=Minus), and the wind at FL310 is coming from 278 degrees at 33 knots. - According to the flight plan, the aircraft should still be carrying 3 tons of fuel at this point.

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CLICK TO NAVIGATION EDIT MASTER TITLE LOG

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Records Based on actual takeoff time => e.g. 13:00

Estimated Time to be filled after takeoff Actual Time & Fuel data to be filled when passing the waypoint

13:00 13:11 13:12 0.4 4.1 13:16 13:17 13:34 13:39 14:00

CLICK TO EDIT MASTER TITLE ALTERNATE AIRPORT

STYLE

Marseille-Provence (LFML) is offered as alternate to Montpellier-Méditerranée (LFMT).

To land at Marseille-Provence, the aircraft has to fly an additional 180 nautical miles, which will take an estimated 35 minutes. The aircraft will fly at FL280 and need around 1 446 kilos of fuel to reach the airport.

BACK

50VU

HIGH VOLTAGE INSIDE

OXYGEN

CREW OXY SPLY

3

3

COM

3

5

ON

5

G

ON ARMED

CHAIN

TOP

CKPT DOOR CONT

7

3

1/ 2

115VAC

3

3

3

3

2

MID

ND CAPT SPLY SWTG

BOT

54VU READING LT

3

5

PITOT 1

3

3

3

3

3

AOA 1

AVNCS VENT CTL

7/

3

1

2

RMP 1

ATC 1

MMR 1

VOR 1

DME 1

3

5

3

3

3

STBY INST

VOR/ DME RMI

3

3

3

3

3

DMC3 STBY SPLY

DMC1 SPLY

ECAM CTL PNL

CTL

3

3

3

5

3

3

RAM AIR INLET

1

10

3

3

2

3

AIRBLEED ENG 1 MONO CTL

3

A U T O

HYD

LEAK MEASUREMENT VALVES G B Y

OFF

OFF

APU

OFF

ENG

1 FADEC GND PWR

AUTO EXTING TEST RESET

2

OK ON

ON

F

ON

COM

DMC1 SWTG

TEMP TEMP CTL CAB CTL SYS1 CHAN B PRESS IND CTLT 28 VDC

ON

ON

G

NAV

CLOCK NORM SPKR

ON

BLUE PUMP OVRD

VHF 1

CAPT LOUD SPKR

AVIONICS COMPT LT

H

10 ADIRU 3 SW1G SPLY

SVCE INT OVRD

FAULT

3

DMC3 SWTG

7/

TMR RESET

ON

3

AIR COND

PROBES PHC 1

OXYGEN

ADF 1

INT 1+2

EIS

3

5

HA

NAV

NAV

3

ANTI ICE

RAIN RPLNT CAPT

D OFF

3

5

E

5

1/ 2

3

ADIRU 1 &AOAT 28VAC

ECAM DU UPPER SPLY SWTG

PFD CAPT SPLY SWTG

HF1

7

1/ 2

LT CTL

NAV & PROBES

1& 2 28VDC ESS BUS

R AFT

7

1/ 2

CKPT DOME

3

1 SPLY

7

AC BUS 8XP MONG

3

1/ 2

7

ELEC

ACP CAPT ACP F/O SELCAL BITE INT1 AUDIO INT2 AUDIO AVNCS 3&5 OCCPNT

7

3

3

EMER LT

7

1/ 2

SDAC

3

F

1

3

CABIN

3

1 2 26VAC SYNC AC ESS BUS

FWC1 SPLY

STRIKE

LIGHTING

DEU B ESS

5

FWS

TEST/RESET

3

1/ 2

CVR HEAD SET

COM

CIDS DEU A ESS R FWD L AFT

L FWD

ACTUATION

3

COM

CIDS DIR ESS 1 2

ELT

3

XFMR ICE IND 115V . 5V & STBY ESS BUS COMP LT

CIDS FWDATTND PNL ESS

H

PASSENGER

CTL & WARN

3

HA

COM

CVR

3

E

HYD

XFEED VALVE BAT

3

SPLY

RAT CTL

3

5

D

BRT

ANTI ICE

AIR COND

CIDS AFT CARGO SDF VENT & HTG DIR1 ESS DIR2 ESS CTL & MONG

WING MONG CTL

53VU

5

3

3

C

5

MCDU 1

FMGC 1

3

7/

3

2 SOV

1&2 IGN SYS A

3

3

1

2

B

7/ 1

1 HP FUEL

A

3

2

HYD PWR B WARN & CTL

3

FIRE VALVE G Y ENG1 ENG2

3

3

3

FLIGHT CONTROLS SLT FLP CTL & MONG SYS1

FAC 1 26VAC 28VDC

2

HYD

ABCU & HYD LGCIU Y BRK PRESS SYS1 PRESS IND XMTR

3

AUTO FLT

1

L/G

SEC1 NORM SPLY

THS ACTR MOT2

FCDC1 SPLY

ELAC1 NORM SPLY

7/

5

3

7/

SLT FLP 1 POS IND

FUEL BLOW OFF PUMP

3

3

7/

1

2

1

5

15

15

3

3

3

3

3

3

3

3

3

3

4

5

6

7

8

9

10

11

12

13

14

10 ENGINE

1

7/

C

APU

1

2

1

2

2 FIRE DET LOOP A LOOP B

FADEC A & EIU1 & EIU2

2

1

3

2

FUEL

LP VALVE MOT1 ENG1 ENG2

XFR VALVE1 WING L R

X FEED VALVE MOT1

FQI CHAN 1

B

54VU

SMOKE CONFIG PUMP CTL

READING LT

A

DATA LOADING SELECTOR

NEXT

TOILET

AUDIO SWITCHING

OCCPD

F/O 3

ON

S Y S

PREV

NORM CAPT 3

BRT

OFF

OFF SEL CTL

56VU

GND HF DATALINK

OVRD

COCKPIT DOOR VIDEO

PA IN USE

CALL

CALL

CALL

CALL

CALL

MECH

ATT

VHF1

VHF2

VHF3

HF1

HF2

INT

CAB

ON VOICE

RESET

MKR

LS

OFF INT

RAD VOR1 VOR2

26VU

ADIRS ON BAT

AGENT 1

IR1

IR3

IR2

FAULT

FAULT

FAULT

OFF

OFF

OFF

NAV

NAV

NAV

ATT OFF

F I R E

ATT

SQUIB DISCH

FIRE

TEST

PUSH

DISCH

AGENT 2

ENG 2

SQUIB

SQUIB

DISCH

DISCH

FIRE

TEST

SQUIB

ATT

OFF

AGENT 1

FIRE

PUSH

F I R E

TEST

PUSH

OFF BLUE

ADR3

ADR2

FAULT

FAULT

FAULT

OFF

OFF

OFF

VHF2

VHF3

LOAD

SEL

HF2

AM

40VU

YELLOW

STBY NAV

SEC 1

FAC 1

FAULT

FAULT

FAULT

OFF

OFF

OFF

FAULT OFF

HORN SHUT OFF

ON

RAT & EMER GEN

GEN 1 LINE

SMOKE

MAN ON A U T O

FAULT

OFF

SYS

FAULT OFF

FAULT

OFF

OFF

OFF

MAN

G/S MODE

FLAP MODE

LDG FLAP 3

OFF

OFF

ON

A I R

CVR TEST

CVR ERASE A U T O

ON

CREW SUPPLY

PASSENGER A U T O

1

2

BAT 2

FAULT OFF

27.9 v

GEN 1

APU GEN FAULT

OFF

OFF

FAC 2

FAULT

FAULT

OFF

OFF

OFF

OFF

ALTN

E L E C

AC BUS 2

EXT PWR

GEN 2

AVAIL

FAULT

ON

OFF

IDG 2

HOT AIR

FWD CABIN

COLD

HOT

HOT COLD

A I R

PACK 2

X BLEED

PACK 2

ENG 1 BLEED START

AUTO

RAM AIR GND HP APU BLEED

FAULT

START

ENG 2 BLEED

OPEN

SHUT

FAULT

FAULT

ON

ON

COLD

FWD

PROBE/WINDOW HEAT

WING

ENG 1

ENG 2

FAULT

FAULT

FAULT

ON

ON

ON

AFT

STROBE ON

BEACON ON

EXT LT

WING ON

OFF

BLOWER

RETRACT

OFF

HDGTRK LAT

SPD

131 VU

CSTR

WPT

VOR.D

NDB

---

ARPT

QNH

1015

ROSE NAV ARC VOR

hPa

LS

40 PLAN 10

ADF

ALT

V/S FPA

VOR

100

LIMIT

TEST

SLOW

BRT DIM

ON ARM

OFF

OFF

V/S

-----

ARPT

1000

10

PFD/ND XFR

PFD

OFF

OFF CONSOLE/FLOOR BRT

BRT

TRAFFIC SELECTOR

MAX

7000

151 148 060

6 2

010

1

ILS APP

0 TAS

GS

29

30

31

32

33

34

35

1990325º 3.6 NM 14:02

1

40 20

+

80

TOU

15

BKUP SPD/ALT

000

2

1 2 6

QNH 1015

0 31

32

33

34

3

°C

10 VOR1 TOU

10 LFBO 32L

M

M

010

10

40

000

ADF2 TN

RST

BARO

FD

500 VU

HOT

LO

MED

MAX

DECEL

DECEL

DECEL

ON

ON

ON

ON

29

OFF

ILS APP

0 TAS

GS

A/SKID & N/W STRG

AUTO BRK

30

31

32

33

34

35

1990325º 3.6 NM 14:02

0

MAN FLX +56

TN

2

MIN

UTC

17: 05 00

SET

T.O INHIBIT LDG LT

GPS INT

DATE

SET

HR/MO MIN/DY SEC/Y

ET

HR

10

RUN STP

00: 05 MIN

VOR1 TOU

M

4.6 NM ENGINE

10 LFBO 32L M

CONSOLE/FLOOR BRT

LOUD SPEAKER

BRT

OFF

10

10

OFF

TRAFFIC SELECTOR

40 20

OFF

OFF

BKUP SPD/ALT

TERR 025 013

000

2

ADF2 TN

1 2

ON

6

QNH 1015

0 31

32

33

34

3

UP

F .USED KG

207

215

OIL

14.0

QT

14.0

45

PSI

45

65

°C

65

ACCU 0 3

BRT DIM

PGE-

MSG+

PGE+

N2

BRT DIM

TAT +10 °C SAT +10 °C ISA -5 °C

FM 1

IND

RDY

ATT HDG NORM CAPT 3

DIR

PROG

PERF

INIT

DATA

RAD NAV

FUEL PRED

SEC F-PLN

ATC COMM

AIR PORT

F M

1

2

3

4

5

6

7

8

9

0

+

/-

B

C

D

E

G

H

I

J

K

L

M

N

O

P

Q

R

S

T

U

V

W

X

Y

Z

/

SP

OVFY

CLR

SEL

HF1

ENG

BLEED

PRESS

ELEC

HYD

APU

COND

DOOR

WHEEL

F/CTL

STS

RCL

BRT

ALL

CLR

DIR

PROG

PERF

INIT

DATA

F-PLN

RAD NAV

FUEL PRED

SEC F-PLN

ATC COMM

AIR PORT

F M

4 UP CG 3 10.5 UP 17

CG 20

ADF

CALL

CALL

CALL

CALL

CALL

MECH

ATT

VHF2

VHF3

HF1

HF2

INT

CAB

2 UP

CG 25

1 UP

0

MKR

LS

ADF1

CG 35

ADF2

1 DN

45

CL

4 UP

FLX MCT

3 CG UP 10.5 17 2 UP

CL

40

1

2

3

4

5

6

7

8

9

0

+

35 30

B

C

D

G

H

I

J

K

L

M

N

O

ELEVN

PATH WX

WXR/PWS OFF

OFF

2

TURB

HZD

MAP

GAIN AUTO

UP

CG 40 43

F/O DISPLAY

1

ELEVN

ALL WX

WXR

WXR

MAP

ALL WX

PATH WX

P

Q

R

S

T

V

W

X

Y

Z

/

SP

OVFY

CLR

15 10

101.750

VHF3

LOAD

464

HF1

SEL

HF2

AM

2 DN

FULL

NAV

VOR

ILS

FOB: MLS

ADF

CALL

CALL

CALL

CALL

CALL

MECH

ATT

VHF2

VHF3

HF1

HF2

INT

CAB

ON VOICE

RESET

MKR

LS

CG 35

RAD VOR1 VOR2

CG 40 3 43 DN

FLOOD LT

82.6

ENG

MASTER 1

ENG 1

MODE NORM

OFF

MAIN PNL & PED

BRT

OFF

BRT

ON

OFF IGN / START

FIRE FAULT

FIRE FAULT

1

2

1

OFF

SPEED BRAKE

1/2

FULL

FULL

L 0.0

+20°

RUD TRIM NOSE L

NOSE R

0

0

1

1

2

2

3

3

FULL

RESET

FULL

COCKPIT DOOR OPEN FAULT

UNLOCK

N1 %

4

10

N2 %

82.6

89.0 F

2 T.O INHIBIT IGNITION LDG LT

F.USED KG

14.0

OIL QT

90

PSI

145

°C

145

VIB N1 N2

0.8 1.2

DFDR 112VU

PRINT

EVENT

0.8 1.2

ATC

FAIL

1

2

3

4

5

6

7

0

2606

2

ON

IDENT ALL ABV STBY TA TA/RA

CLR THRT

BLW

0 TAT +25 °C SAT +25 °C ISA +10 °C

80 14.0 90

NAC °C

400 GW

13

50000 KG

H 28

114VU 408 VU

RET

1/2

FF KG/H 3040

464

ALT RPTG

GND SPLRS ARMED RET

EGT °C

FLX

1.296

1.296

80 ADF2

BRT

STBY AUTO ON

MASTER 2

ENG 2

1

6700 KG

ENGINES

PA ADF1

AIDS

PED

OFF

ON

1.4 1.2 1.6

EPR

T O AU TO BRK SIGNS ON SPLRS ARM FLAPS T.O T.O CONFIG NORMA L

2 DN

3 DN

111VU

ON

ON

GLS

VHF1

INT 1 DN

FULL

CRANK OFF

2

CG 30

5

MAX

INTEG LT

N1 MODE

S

STBY NAV CG 20

10

4

89.0

TCAS

MAIN PNL

ON

1.296

FF KG/H 3040 N2 %

ATC

FLOOD LT

ON

1.4 1.2 1.6 1

STBY/CRS

VHF2

0

0

20

UP MIN

1

M C D U M E N U

0

CAPT DISPLAY OFF

2

E

U

/-

ON

DIM

F

VHF1

1 UP CG 25

25 0

BRT MCDU MENU

OFF

REV

PA

RESET

FLX MCT

REV

CG 30 ON VOICE

ENG MAN START

1

A

118.020

TO GA

A/THR

MLS

TO GA

A/THR

ON

GLS

FM 2

FUEL

F A I L

AM

ILS

RDY

ACTIVE

VHF1

INT

EMER CANC

CLR

OFF

RAD VOR1 VOR2

F/O 3

IND

1FROM 6789012345 AIB101 2 123456789 UTC 34 SPD/ALT 234 LFBO32L 81705 34 151/ 901 500 1LFB323 89 BRG325 º 78 4NM 234 4 1990 5678 1711 34 176/ 90 1990 123456789 TRK329 º 78 201234 TOU 45678 1712 34 250/ 90 2860 1(SPD) 78901234567 14 01234 (LIM) 678 1715 3*250/ 9FL100 123456789 TRK329 678 201234 AGN 45678 1729 34 308/ 9FL146 1DEST 6789 UTC 34 DIST 90 EFOB LFPO26 78 1755 345 366 901 6.7 1234567890123456789012

BRT

129.300

HF2

VOR

FM 1

ECAM / ND XFR NORM CAPT F/O

M C D U M E N U

LOAD

STBY NAV NAV

PGE+

STBY/CRS

VHF3

VHF2

PGE-

MSG+

54700 KG

DIM

F

118.100 VHF1

CAPT 3

PRINT

ACTIVE ATC : LFBO CTL

MSG-

135VU

EIS DMC NORM

T.O CONFIG

LOWER DISPLAY

BRT MCDU MENU

A

ACTIVE

F/O 3

ECAM

OFF

F A I L

17 H 05

AIR DATA NORM CAPT F/O 3 3

UPPER DISPLAY

OFF

F-PLN

GW

SWITCHING

FM 2

1234 TAKE OFF RWY 32L 1V1 45 FLP 9RETR 4567890 4 148 4567 F= 148 678678901 1VR 45 SLT 9RETR 45 TO 8SHIFT 4 151 4567 S= 191 6786 [M] [12]* 1V2 55678 CLEAN 45 FLAPS/THS 151 4567 O= 208 67867 2/UP0.0 TRANS 6ALT 01 DRT 5TO-FLX 2TO 5000 5678901234567889 F56 4 THR 4RED/ACC 23 ENG 7OUT 1ACC 12000/2000 1234567890 2000 12345 67890123456789 NEXT 4 123456 789012345678 PHASE> 123456789012345678901234

PSIX1000

1.6 0.3

VIB N1

PRINT

ACTIVE ATC : LFBO CTL

MSG-

3

1

0 BRAKES

DOWN

1.6 0.3

PRESS 4 1

VIDEO

NORM

PARKING BRK

LOCK

PULL & TURN

OFF

PARK BRK

GEAR EXTN

GEAR

GEAR

GRAVITY

PULL & TURN

A320 TAKEOFF FOR TRAINING ONLY

UJL15421-06 REF: UJL15421 OCTOBER 2019

SLEW

IAE engines FLAPS

BRT

DIM

15

1990

0'00"

RST

PFD

1

80

TOU

15

PFD/ND XFR

ND

6 2

010

5 00

ON

SEC

7000

040

CHR

CHR

00: 00

PULLUP GPWS

1FD2 A/THR

151 148

TERR ON ND RST

F

RWY NAV

SRS CLB

060

ON

4.6 NM

ATC MSG

400 VU

BRK FAN UNLK

AUTO LAND

MASTER CAUT

F/O

LS

97.3

T.O AUTO BRK MAX SIGNS ON SPLRS ARM FLAPS T.O T.O CONFIG NORMAL

1015

ATT

TERR ON ND

SIDE STICK PRIORITY

VOR

3500

6700 KG

FOB:

10

WX+T+H

56 °C

S

500

15

1990

0'00"

60

2

UNLK

MASTER WARN

hPa

ON

730

N2 % FF KG/H

3500

10

inHg

OFF

UNLK

CHRONO

PULL STD

ADF

VOR OFF

FLX 90.1 %

QNH

1015 PLAN

320

ADF

90.1

EGT

97.3

LS

6

N1 %

90.1

TN

5 00

ON

10

730

10

OFF

6

0 BUGS -TEST-

10

040

DIM OFF

1FD2 A/THR

ND

BRT

LOUD SPEAKER

RWY NAV

SRS CLB

CSTR

LDG GEAR

VLE VLO

MAN FLX +56

WPT

ROSE NAV VOR ARC 160 LS

DN APPR

VOR.D

80

20

PUSH TO LEVEL OFF

EXPED

NDB

40

UP

SPD(IAS)

280 KT / M 67 EXT 250KT RET 220KT 1 230KT VFE 1+ F 215KT 200KT 2 185KT 3 FULL 177KT

RAIN RPLNT

OFF

401 VU 301 VU

ON

WIPER

OFF

AP2

A/THR

LOC

OFF

ON

ANN LT

METRIC ALT AP1

2

EMER EXIT LT

LVL / CH

7000

V/S

1

OFF

SPD MACH

320

2 VOR

OFF

HDG

HDG TRK 160

1 ADF

LS

---

80

20

PULL STD

CAPT

OFF

OFF

SIGNS

A U T O

ON

TAXI OFF

OVRD

MAN START

FAST

NO PORTABLE SEAT BELTS ELEC DEVICE ON ON

AVAIL

T.O

CAB FANS

A U T O

FAULT

6

DOME

OFF

BRT

EXTRACT A U T O

ENG

25VU

ON

4 8

INT LT DIM

OFF

ON

NOSE

DITCHING

DISCH

2

BRT

START R

ICE IND & STBY COMPASS

FAULT

OFF

LAND ON

ON

DN OVHD INTEG LT

A U T 12 O 10

FAULT

SMOKE

VENTILATION

OVRD

LDG ELEV AUTO -2 0 14

AFT

DISCH

FAULT

MASTER SW

1 OFF

UP

APU

NAV & LOGO 2

MODE SEL

MAN V/S CTL

A U T O

ON

A U T O OFF RWY TURN OFF ON

CABIN PRESS

DISCH

TEST

SMOKE

OFF

HOT

CARGO SMOKE

DISCH

C O N D

FAULT OFF

OFF

GPWS

OFF

30VU

HOT

PACK 1

L

PULL UP

FAULT

OFF

AFT CABIN

COLD

ANTI ICE

FAST

FD

AFT ISOL VALVE

FAULT

FAULT

WIPER

inHg

22 VU

CARGO HEAT

FAULT

OFF

SLOW

MASTER CAUT

SEC 3

FAULT

HOT AIR

FAULT

ON

AUTO LAND

OFF

COCKPIT

OFF

OFF

ATC MSG

SEC 2

FAULT

BUS TIE A U T O

24 VU

FLT CTL ELAC 2

FAULT

AC ESS BUS

PACK 1

EMER

RAIN RPLNT

SIDE STICK PRIORITY

35VU

DC BUS 2 AC ESS FEED

OFF

CALL

MASTER WARN

OFF

OFF

FWD

CHRONO

OFF

OFF

FAULT

SYS ON

CALLS MECH

FAULT

OFF

R TK PUMPS 2

HI

C O N D

OXYGEN

MASK MAN ON

FAULT

FAULT

PACK FLOW NORM LO

RCDR

GND CTL

IDG 1 FAULT

1

FAULT

BAT 1

ADF

F U E L

CTR TK R XFR

27.8 v

DC BUS 1

BAT

A U T O

MLS

AFT

GPWS

OFF

MODE SEL

FAULT

GALY & CAB AC BUS 1 A FAULT U T OFF O

E L E C

CAPT

EMER ELEC PWR EMER GEN TEST

TERR

CTR TK L XFR

OFF

ON

OFF

OPEN ON

2

COMMERCIAL

FAULT

FAULT

ENG 2

FAULT

L TK PUMPS

CAPT & PURS

EVAC

FAULT

OFF

ON

GLS

H Y D

ELEC PUMP

ENG 2 PUMP

X FEED

APU

FAULT

1

OFF

ILS

VOR

OFF

A U T O

FAULT A U T O

FAULT

ENG 1

21VU

EVAC

COMMAND

ELEC PUMP

ENG 1 PUMP

F U E L

23VU

FLT CTL ELAC 1

NAV

RAT MAN ON

H Y D

STBY/CRS

118.000

HF1

PTU ADR1

ACTIVE

ACARS VHF1

AGENT

GREEN

ADF2

45VU

APU

AGENT 2

ENG 1

SQUIB DISCH

PA ADF1

MAX

CLICK C TO EDIT M TITLE STYLE OCKPIT PASTER REPARATION COCKPIT PREPARATION

CM1 CM2

A320

SAFETY EXTERIOR INSPECTION (Follow QRH)

PRELIMINARY COCKPIT PREP (Follow QRH)

PF

SOP FLOW

PM

EXTERIOR WALKAROUND

FINAL COCKPIT PREPARATION

SOP FLOW

DEPARTURE BRIEFING

SOP

Do not pressurize any hydraulic system without clearance from ground personnel.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

EFTDB1COCKPRE01 – OCT 2022

CLICK TO EDIT MPASTER TITLE STYLE COCKPIT REPARATION

BACK

COCKPIT PREPARATION

PF

OVERHEAD PANEL 1

1

SOP FLOW CENTER INSTRUMENT PANEL

2

SOP FLOW PEDESTAL

3 2

SOP FLOW

FMS PREPARATION

4 4 3

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

SOP

OCKPIT PREPARATION CLICK TO CEDIT MASTER TITLE STYLE

BACK

OVERHEAD PANEL MAINT PANEL…CHECK

PF

1

2

3

AUDIO SWITCHING…NORM PA…RECEPT

During the scan sequence, extinguish all white lights.

ENG FIRE..CHECK/TEST

MAINTENANCE panel ALL LIGHTS…….CHECK OFF ELEC PANEL……..CHECK BAT………….…..…CHECK

CAPT & PURS/CAPT…AS RQRD * PACK FLOW….AS RQRD CVR TEST pb...PRESS *RCDR GND CTL…ON

VENT…CHECK LDG ELEV………………….AUTO PROBE/WINDOW HEAT…AUTO

STROBE ….…………..….…AUTO BEACON ……………….……. OFF REMAINING EXT LT … AS RQRD

* SIGNS …..... ON/AUTO * EMER EXIT LT … ARM

 If secured stop or flight crew change: Perform all actions  Otherwise (transit stop) perform only actions marked by * in QRH

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

OCKPIT PREPARATION CLICK TO CEDIT MASTER TITLE STYLE

CENTER INSTRUMENT PANEL

PF

*ISIS..……CHECK

1

3 2

*A/SKID & NW STRG sw........ON *CLOCK..……CHECK/SET

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

OCKPIT PREPARATION CLICK TO CEDIT MASTER TITLE STYLE

BACK

PEDESTAL

PF 2

SWITCHING PANEL... NORM

3

1

ACP.........CHECK ON/SET

* ATC................ STBY *THRUST levers...IDLE

*ENG MASTER levers....OFF *ENG MODE selector....NORM

COCKPIT DOOR sw......NORM

* PARK BRK handle......AS RQRD

* ACCU/BRAKE PRESS.....CHECK On Center Instrument Panel

GRAVITY GEAR EXTN .........CHECK STOWED

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

OCKPIT PREPARATION CLICK TO CEDIT MASTER TITLE STYLE

FMGS PREPARATION

PF

BACK

PM

*FMGS....................................................PREPARE

On MCDU, “D-I-F-R-I-P”: CHECK 1. STATUS PAGE

FILL: 2. INIT A PAGE 3. F.PLN A PAGE 4. SEC F.PLN PAGE 5. RAD NAV PAGE 6. INIT B PAGE 7. PERF PAGES

i

i

*FMGS PREPARATION.................CROSSCHECK EFB/MCDU GREEN DOT......................COMPARE

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

OCKPIT PREPARATION CLICK TO CEDIT MASTER TITLE STYLE

FMGS PREPARATION F-PLN A PAGE

 Check the F-PLAN by using the ND PLAN mode versus the computerized F-PLAN.

 Check DIST TO DEST. Compare it with the total distance computed for the flight with the computerized F-PLN. Any discrepancy may affect the fuel management.

 Should the FM include an erroneous information (including the constraints) the aircraft will follow an unwanted trajectory. Crosschecking with the charts allows to prevent it (SID, STARS, etc…).

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

COCKPIT PREPARATION CLICK TO EDIT MASTER TITLE STYLE FMGS PREPARATION

FMGS PREPARATION.......CROSSCHECK

BACK

The following items have to be carefully crosschecked by the PM before the Departure briefing: • • • •

Waypoints & constraints of the expected departure route v.s the Departure chart Waypoints of the flight plan Initial cruise altitude v.s the Computerized Flight Plan (CFP) Initial cruise altitude Total track miles

• Performance data displayed on the PM’s side with the T.O page of the FMGS ACTIVE/PERF page. (it includes RED/ACCEL/EO ACCEL settings if applicable) • Setup of the SEC F-PLN The PM:  should have the same mental image of the intended departure procedure, trajectory and constraints than the PF  should check with the PF if anything is not clear.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICKFINAL TO EDIT MASTER TITLE STYLE COCKPIT PREPARATION

BACK

FINAL COCKPIT PREPARATION

When both pilots are seated:

GLARESHIELD 1

CM1

1

PF

1

SOP

CM2

2

LATERAL CONSOLES INTRUMENT PANELS

SOP

2

PF

2

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

FINAL COCKPIT PREPARATION CLICK TO EDIT MASTER TITLE STYLE

PF

GLARESHIELD

BACK

PM

When both crewmembers are seated:

*BARO REF......................................................SET

*BARO REF......................................................SET

*FD........................................................CHECK ON

*FD........................................................CHECK ON

*LS...........................................................AS RQRD

*LS...........................................................AS RQRD

*ND mode and range.............................AS RQRD

*ND mode and range.............................AS RQRD

*EFIS OPTIONS ……………………………....CSTR

*EFIS OPTIONS ……………………………. CSTR

*ADF/VOR selector................................AS RQRD

*ADF/VOR selector................................AS RQRD

*FCU.................................................................SET

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

FINAL COCKPIT PREPARATION CLICK TO EDIT MASTER TITLE STYLE

LATERAL CONSOLES / INSTRUMENT PANELS PF PM OXYGEN MASK.............................................TEST i

BACK

OXYGEN MASK.............................................TEST

PFD-ND brightness…………………...…..ADJUST i

PFD-ND brightness…………………...…..ADJUST

LOUDSPEAKER knob....................................SET

LOUDSPEAKER knob....................................SET

*PFD / ND...................................................CHECK

*PFD / ND...................................................CHECK

*LDG ELEV (ECAM)………………CHECK AUTO

*IRS ALIGN……………………………..……CHECK i

*ECAM STATUS……………………………CHECK *FOB………………..………………………..CHECK

i

*FOB………...………………………………..CHECK

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

FINAL COCKPIT PREPARATION CLICK TO EDIT MASTER TITLE STYLE

LATERAL CONSOLES / INSTRUMENT PANELS OXYGEN MASK … TEST

BACK

 OXYGEN MASK TEST: To prevent hearing damage to ground mechanics connected to the intercom system, inform them that a loud noise may be heard in the headset when performing this test.  CAUTION: After testing the O2 masks, or after stowage, verify: - the N / 100% selector is locked down at 100% position and - the

EMERGENCY

pressure

selector

is

NOT

turned

right

to

EMERGENCY position (permanent overpressure).

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

FINAL COCKPIT PREPARATION CLICK TO EDIT MASTER TITLE STYLE

LATERAL CONSOLES / INSTRUMENT PANELS INSTRUMENT PANEL: ND BRIGHTNESS KNOB… AS RQRD  Check the ND outer ring is set to maximum brightness (radar/terrain display).

 When the flight crew does not correctly adjust the brightness of the weather or terrain image, the visibility of the data is reduced on the ND.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

FINAL COCKPIT PREPARATION CLICK TO EDIT MASTER TITLE STYLE

LATERAL CONSOLES / INSTRUMENT PANELS PF PM ECP / ADIRS On the ECAM control panel:

BACK

On the MCDU:

* PRESS pb…………………..…..…………….………PRESS

* IRS ALIGN…………..……………………..…………CHECK

CAB PRESS SD page:

DATA key……………….…………………....…....………….PRESS

LDG ELEV AUTO…………….………….…..CHECK DISPLAYED

POSITION MONITOR page…………….…..…………….DISPLAY

* STS pb…………………….…………..………………PRESS

IRS………..….…CHECK NAV MODE & DIST LESS THAN 5 NM

STATUS page: INOP SYS……………..……...CHECK COMPATIBLE WITH MEL

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

FINAL COCKPIT PREPARATION CLICK TO EDIT MASTER TITLE STYLE

LATERAL CONSOLES / INSTRUMENT PANELS *FOB...........................CHECK

The flight crew: • Check that the ECAM FOB corresponds to the F-PLN • On ECAM FUEL SD page, check that the fuel is correctly balanced • Crosscheck that the sum of the FOB recorded at the end of the last flight and the fuel uplift (if any) is consistent with the current FOB. If an abnormal difference is found, a maintenance action is due.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

OCKPIT PREPARATION CLICK TO CEDIT MASTER TITLE STYLE

PF

DEPARTURE BRIEFING

BACK

PM

DEPARTURE BRIEFING.......................PERFORM i

“ COCKPIT PREPARATION C/L ” COCKPIT PREPARATION C/L ...........COMPLETE “ COCKPIT PREPARATION COMPLETE ”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

OCKPIT PREPARATION CLICK TO CEDIT MASTER TITLE STYLE

DEPARTURE BRIEFING

DEPARTURE BRIEFING.......................PERFORM

BACK

Structure and minimum items of the Departure Briefing

PF

PM Briefing Recommendations

Set Distraction Free Environment • • • • •

• • • • • •

PLAN T/O RWY (Intersection) SID Designator First cleared ALT MSA/MORA for climb trajectory Extra-fuel & -time

i

PLAN The PM should start to brief the main items of the PLAN. This ensures that both pilots share the same mental image of the flight trajectory. The PF briefs the hotspots of potential taxiroutes if any, and considers at least the following items:

PLAN Hotspots of planned taxi route Stop-margin for RTO EOSID Return/Diversion Considerations Special Operation Non-standard operation

• Consideration for RTO • The EOSID/Engine-out trajectory • The considerations for a return landing or diversion if so required (weather/weight). Identified THREATS

Identified THREATS MITIGATIONS MISCELLANEOUS

MISCELLANEOUS is intended to consider additional items e.g.: • Intended use of automation after takeoff • Supplementary Procedures if not yet briefed.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

OCKPIT PREPARATION CLICK TO CEDIT MASTER TITLE STYLE

DEPARTURE BRIEFING Briefing Recommendations

Briefing requires out-of-the-box thinking, beyond the pure reflection of routine and standard operations. It should have a threat-focused view and identify and prioritize likely threats to the intended operation. It should then detail the actions to mitigate these threats. A briefing should be conversational, interactive and use open questions that involve all flight crewmembers to share their experience and expectations. It should normally not be a repetition of the detailed setting and checking of the flight trajectory in the FMS.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

A320/A330

LICK TO /S EDIT BEFORE C PUSHBACK TARTM - ASTER ENGINE TITLE STARTSTYLE - AFTER START

PF

PM BEFORE PUSHBACK/START CLEARANCE SOP

AT PUSHBACK/START CLEARANCE “ BEFORE START C/L ”

SOP FLOW

ATC

“ BEFORE START C/L COMPLETE ”

AFTER START SOP “ AFTER START C/L ”

FLOW “ AFTER START C/L COMPLETE ”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

XFTDB1ENGSTAR01 – OCT 2022

CBLICK TOPEDIT MASTER STYLE EFORE USHBACK /STARTTITLE CLEARANCE PF

BACK

PM

FINAL LOADSHEET…………………..……..…….CHECK ZFW / ZFWCG ..........……………….…..…..……..CHECK (A330) LOADSHEET CG and ECAM CG………..CHECK

FINAL LOADSHEET……..…..............……...…….CHECK ZFW / ZFWCG .............……..……..……….………CHECK

FUEL ON BOARD ...............................................CHECK

FUEL ON BOARD ...............................................CHECK

If takeoff conditions changed: FINAL TAKEOFF PERF DATA..…...………RECOMPUTE FMS T.O DATA……............................................. REVISE

FINAL TAKEOFF PERF DATA..…...………RECOMPUTE FMS REVISED T.O PERF DATA…......….CROSSCHECK EFB/MCDU GREEN DOT………………………COMPARE

SEATING POSITION……………....……..……..…ADJUST FMS PERF T.O page…………..……………....…..SELECT

SEATING POSITION…….…..……………...…..…ADJUST FMS F-PLN PAGE…………….……......……....….SELECT AIR CONDITIONING UNIT…...CHECK DISCONNECTED EXT PWR.………..………..……......CHECK AVAIL A320 A330 i i EXT PWR DISCONNECTION..……..…REQUEST

CALL: “ GROUND FROM COCKPIT ” GND MECH: “ COCKPIT FROM GROUND ”

MECH

REQUEST: “ REMOVE EXTERNAL ___ ”

GND MECH: “ EXTERNAL ___ REMOVED ” © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CBLICK TOPEDIT MASTER STYLE EFORE USHBACK /STARTTITLE CLEARANCE EXT POWER……..…..…CHECK AVAIL  Check the AVAIL light, before requesting the external power disconnection.

 Requesting to disconnect the external power when it is ON may severely injure the ground engineer.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CBLICK TOPEDIT MASTER STYLE EFORE USHBACK /STARTTITLE CLEARANCE EXT POWER……..…..…CHECK AVAIL  Check the AVAIL light, before requesting the external power disconnection.

AVAIL

 Requesting to disconnect the external power when it is ON may severely injure the ground engineer.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK EDIT M TITLE STYLE AT PTO USHBACK /SASTER TART CLEARANCE PF

PM PUSHBACK/START CLEARANCE….…........…....OBTAIN ATC………………….…SET FOR AIRPORT OPERATIONS ATC WINDOWS and DOORS…….………..….CHECK CLOSED SLIDES …………………….............……….CHECK ARMED

BEACON sw..…...…..………………………………………ON WINDOWS and DOORS……...…….....…CHECK CLOSED SLIDES…………………………………........CHECK ARMED THR LEVERS…………………………....……………..…IDLE ACCU PRESS……………………....…..…………..…CHECK

NW STRG DISC MEMO…..................CHECK DISPLAYED

i

“BEFORE START C/L ”

PF

BACK

BEFORE START C/L.......................................COMPLETE “ BEFORE START C/L COMPLETE ”

“ GROUND FROM COCKPIT, CLEARED FOR PUSH ”

GND MECH: “ COCKPIT FROM GROUND, RELEASE BRAKES ” PARK BRAKE handle.……………..………………...............OFF “ BRAKES RELEASED, READY TO PUSH ” During pushback, automatic engine start sequence: A320

A330

SOP

SOP

When pushback is completed: GND MECH: “ SET BRAKES ” PARK BRAKE handle…………..……….………………...ON BRAKE PRESS indicator………………..................CHECK “ BRAKES SET ”

i

MECH

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK EDIT M TITLE STYLE AT PTO USHBACK /SASTER TART CLEARANCE NW STRG DISC MEMO……..…..…CHECK DISPLAY

Do not perform the pushback if “NW STRG DISC” not displayed on the ECAM MEMO to avoid damages to the nose landing gear.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK EDIT M TITLE STYLE AT PTO USHBACK /SASTER TART CLEARANCE

BRAKE PRESS……..…..…CHECK

 When PARKING BRAKE is ON: • PARK BRK MEMO is displayed • Check brake pressure

BACK

• The ACCU PRESS must be in the green band.

 If during engine start with PARK BRK ON, the aircraft moves, immediately release the PARKING BRK handle to restore pedals braking.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER ENGINE STARTTITLE STYLE PF

PM

“ CLEAR TO START? ” GND MECH: “ CLEAR TO START ”

PF

THRUST LEVERS.…...................................................IDLE ENG MODE SEL.........………..………..…....…..IGN/START

“ STARTING ENGINE TWO ”

ENG 2 MASTER lever……………..…..…………...…….ON

i

ENG IDLE PARAMETERS……….…..………….......CHECK

“ STARTING ENGINE ONE ” REPEAT START SEQUENCE FOR ENG 1

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MASTER ENGINE STARTTITLE STYLE PF

PM

“ CLEAR TO START? ” GND MECH: “ CLEAR TO START ”

PF

THRUST LEVERS.…...................................................IDLE ENG START SEL........………..………..…....…..IGN/START

“ STARTING ENGINE ONE ” i ENG 1 MASTER lever………..…..…………...………….ON ENG IDLE PARAMETERS……….…..………….......CHECK

“ STARTING ENGINE TWO ” REPEAT START SEQUENCE FOR ENG 2

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MASTER ENGINE STARTTITLE STYLE STARTING THE ENGINES

BACK

 Note for all engine types: • ENG 2 is started first because it powers the Yellow hydraulic system, which pressurizes the parking brake.

 Additional note for CFM engines only: • DO NOT SET the ENG MASTER 2 lever to ON before all amber crosses and messages have disappeared on the engine parameters (upper ECAM display).

 Additional note for IAE engines only: • DO NOT SET the ENG MASTER 2 lever to ON before all amber crosses, except on N1 and N2, and messages have disappeared on the engine parameters (upper ECAM display).

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER ENGINE STARTTITLE STYLE STARTING THE ENGINES

BACK

 Note for all engine types: • ENG 1 is started first because it powers the blue hydraulic system, which pressurizes the parking brake.

 Additional note for PW and RR engines only: • DO NOT SET the ENG MASTER switch ON before all amber crosses and messages have disappeared on engine parameters (upper ECAM display).

 Additional note for GE engines only: Set ENG START sel to IGN START.

Wait for 3 sec.

Set ENG MASTER switch to ON.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER AFTER START TITLE STYLE PF

BACK

PM

1. ENGINE MODE selector......….…………..…….NORM

End of START sequence: Signal for PM actions.

2. APU BLEED pb-sw…………….……….……….….OFF

1. GND SPOILERS .….……….....…………..….……ARM

3. ANTI ICE………………….……………...........AS RQRD

2. RUDDER TRIM…………..…………CHECK NEUTRAL

• If the APU is not required:

3. FLAPS…………………………............................…SET

4. APU MASTER SW pb-sw…………….…..….....….OFF

4. PITCH TRIM…………………………..……….……..SET

(A330 OPTION) NWS TOWING FAULT LT….CHECK OFF 5. ECAM STATUS……………………….…CROSSCHECK

i 5. ECAM STATUS…………………………............CHECK

If “STS” reminder is displayed: STS pb………………………………………………..PRESS

STS pb………………………………………………..PRESS

After the flow pattern: NW STEER DISC MEMO……....CHECK NOT DISPLAYED “ CLEAR TO DISCONNECT, HAND SIGNALS ON PF

LEFT/RIGHT ” GND MECH: “ DISCONNECTING, HAND SIGNALS ON LEFT/RIGHT ”. “ AFTER START C/L ”

AFTER START C/L……..…………………………COMPLETE “ AFTER START C/L COMPLETE ”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

i

CLICK TO EDIT MASTER AFTER START TITLE STYLE A320

PITCH TRIM……..…..…SET

 Set the pitch trim position using the Takeoff CG value in order to avoid up/down THS position mistakes.  The Takeoff CG value must be within the green band limits.  Crosscheck Takeoff CG value with load and trim sheet.

A330

PITCH TRIM……..…..…CHECK

 As soon as the three hydraulic systems are available, the THS is automatically set to the takeoff value.  Check Takeoff CG on the pitch trim wheel.  For this purpose, use the actual CG indicated on the ECAM.

 If necessary, set the Take off CG on the pitch trim wheel.  The Takeoff CG value must be within the green band limits. © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MASTER AFTER START TITLE STYLE NWS TOWING FAULT LT (OPTION)......CHECK OFF

BACK

If nosewheel steering has exceeded 93°

Illumination of the red oversteer warning light. FAULT

NO GO Maintenance action required.

FAULT

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BEFORE C PUSHBACK TARTM - ASTER ENGINE TITLE STARTSTYLE - AFTER START LICK TO /S EDIT BEFORE START FLOW PATTERN

BACK

PM PM

PF PF BEACON sw

1

WINDOWS

2

2

DOORS/SLIDES

THRUST LEVERS

3

3 DOORS/SLIDES

4

1

ATC

5 PARK BRK handle © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

WINDOWS

BEFORE C PUSHBACK TARTM - ASTER ENGINE TITLE STARTSTYLE - AFTER START LICK TO /S EDIT AFTER START FLOW PATTERN

BACK

PM PM

PF PF ANTI-ICE

2

3

APU BLEED

4

5

APU MASTER SW

STATUS

4 (A320) ENG MODE SEL (A330) ENG START SEL

1

1

5

PITCH TRIM

3

FLAPS

GND SPOILERS

2

RUDDER TRIM

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

A320

CLICKTTO MASTER TITLE STYLE AXIEDIT - BEFORE TAKEOFF TAXI INITIATION

SOP

Taxi Speed

180¨ turn on RWY

TAXI

SOP

FLOW

DEPARTURE CHANGE

SOP

i

BEFORE TAKEOFF

SOP

FLOW

When LINE-UP clearance obtained:

i

“ TAXI C/L ”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

“ LINE-UP C/L ”

EFTDB1TAXI00001 – OCT 2022

CLICK TO EDIT ASTER TITLE STYLE TAXIM INITIATION PF

BACK

PM Before Taxiing: TAXI CLEARANCE..................................................OBTAIN

When Taxi clearance obtained: “ CLEAR LEFT (RIGHT) SIDE ” NOSE sw......................................................................TAXI RWY TURN OFF sw.......................................................ON During taxi, the PF may request the PM to set the exterior lights PARK BRK handle.......................................................OFF

“ CLEAR RIGHT (LEFT) SIDE ”

BRAKE PRESSURE...............................CHECK AT ZERO BRAKE FAN pb.........................................................AS RQRD

“ BRAKE CHECK ” Press gently the brake pedals to ensure that the aircraft slows down BRAKES..................................................................CHECK

“ FLIGHT CONTROL CHECK ” FLIGHT CONTROLS.....................................................CHECK

FLIGHT CONTROLS...............................................CHECK

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

ATC

CLICK TO EDIT MTASTER TITLE STYLE AXI PF

BACK

PM

When ATC clearance obtained:

ATC CLEARANCE..………….……….….....…..….CONFIRM FMS F-PLAN/SPD……………………….………..……CHECK FCU ALT/HDG………………………………….……..…….SET BOTH FD………………………………………...…CHECK ON

PFD/ND…………………………………………………CHECK

PFD/ND…………………………………………………CHECK

DEPARTUE BRIEFING……………………………CONFIRM 1. AUTO BRK MAX pb-sw............................................ON Report only changes that have occurred since gate T.O briefing 2. ATC CODE/MODE.......CONFIRM/SET FOR TAKEOFF 3. ENG MODE selector......................................AS RQRD 4. RADAR/PWS..................................................ON/AUTO TERR ON ND…………………..…………………...AS RQRD 5. TERR ON ND..................................................AS RQRD 6. T.O CONFIG pb.....................................................TEST 7. T.O MEMO.........................................CHECK NO BLUE CABIN REPORT……………………….………….…RECEIVE

“ TAXI C/L ”

CABIN REPORT…………………………….….…..RECEIVE

TAXI C/L……………...........................................COMPLETE “ TAXI C/L COMPLETE ” © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

ATC

CLICK TO EDIT MTASTER TITLE STYLE AXI TAXI flow pattern

BACK

PM

7

T.O MEMO

T.O CONFIG

RADAR/PWS

AUTO BRK MAX pb-sw

6

4

ENG MODE selector

1

2

ATC CODE/MODE

3

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TODEDIT MASTER TITLE STYLE EPARTURE CHANGE PF

BACK

PM

If the takeoff conditions change during the taxi phase, and if the previous performance computation is no longer appropriate:

FINAL T.O PERF DATA.................................RECOMPUTE

FINAL T.O PERF DATA.................................RECOMPUTE FINAL T.O DATA.....................................................REVISE

FMS REVISED T.O PERF DATA ................CROSSCHECK EFB/MCDU GREEN DOT...................................COMPARE FLAP LEVER........................................AS APPROPRIATE FMS F-PLN/SPD.....................................................CHECK RE-BRIEFING...........................................................COMPLETE

“ DEPARTURE CHANGE C/L " DEPARTURE CHANGE C/L.............................COMPLETE “ DEPARTURE CHANGE C/L COMPLETE "

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT M ASTER –TITLE BEFORE TAKEOFF 1/2 STYLE PF

BACK

PM

If the brake fans are set to ON: BRAKE TEMP............................................................CHECK • If the temperature of one brake is at more than 150¨ C TAKEOFF....................................................................DELAY •

If the temperature of one brake is below 150¨ C

BRAKE FANS pb............................................................OFF

2/2 

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT M ASTER –TITLE BEFORE TAKEOFF 2/2 STYLE PF

BACK

PM

 1/2

LINE-UP CLEARANCE.........................................OBTAIN

ATC

1. TCAS mode selector.........................TA only or TA/RA 1. TAKEOFF RUNWAY.......................................CONFIRM

2. TAKEOFF RUNWAY.......................................CONFIRM

2. APPROACH PATH.......................CLEAR OF TRAFFIC

3. APPROACH PATH.......................CLEAR OF TRAFFIC

3. EXTERIOR LIGHTS.................................................SET

i

4. PACK 1 and 2.................................................AS RQRD

SLIDING TABLE..................................................STOW

SLIDING TABLE..................................................STOW

ALL EFB TRANSMITTING MODE.................AS RQRD

ALL EFB TRANSMITTING MODE.................AS RQRD 5. CABIN CREW....................................................ADVISE

“ LINE-UP C/L ”

LINE-UP C/L...........................................................COMPLETE “ LINE-UP C/L COMPLETE ”

*ALL EFB Transmitting mode: Select the Airplane mode on your tablet connection parameters.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT M ASTER –TITLE BEFORE TAKEOFF 2/2 STYLE EXTERIOR LIGHTS

 When line-up clearance is obtained: STROBE sw ………………ON  When takeoff clearance is obtained: NOSE sw …………………T.O RWY TURN OFF sw …….ON LAND LIGHTS sw ………ON

Note: The PF may ask the PM to set the exterior lights.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICKTTO MASTER TITLE STYLE AXIEDIT - BEFORE TAKEOFF Line-Up flow pattern PF

BACK PM

PACK 1 and 2

4 EXTERIOR LIGHTS

3

TAKEOFF RUNWAY

1

TAKEOFF RUNWAY

2 APPROACH PATH

3

2

APPROACH PATH

CABIN CREW

5 1

TCAS mode selector

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO 180 EDIT ASTER TITLE STYLE DEG M TURN RUNWAY BEFORE TON AKEOFF The standard width of a runway is 45 m. However the A320 only needs a runway width of 30m for a 180°turn. This is for CM1. For CM2, the procedure is symmetrical.

3

When the CM1 is physically over the runway edge, turn right applying full tiller deflection.

25°

If needed, use asymmetrical thrust to maintain between 5kt and 8kt. No brake pivot is allowed.

2

Turn left, maintaining 25° divergence from the runway axis.

Taxi on the right hand side of the 1 runway.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICKTTO MASTER TITLE STYLE AXIEDIT - BEFORE TAKEOFF

TAXI SPEED

On long, straight taxiways, and with no ATC or other ground traffic constraints, the PF should allow the aircraft to accelerate to 30 kt, and should then use one smooth brake application to decelerate to 10 kt.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDITTAKEOFF MASTER TITLE STYLE THRUST SETTING

T.O ROLL

LIFT OFF

THRUST REDUCTION

SOP

SOP

SOP

SOP

CALLOUTS CROSSWIND/ TAILWIND

ACCELERATION AFTER T.O SOP SOP FLOW

TRANSITION SOP

i SOP

CLIMB Speed FLAPS 1

L/G UP Thrust setting

A320

V1

VR

FLAPS 0

TRANSITION ALTITUDE

THR levers CLB ACCELERATION ALTITUDE

Pitch THRUST REDUCTION ALTITUDE

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

EFTDB2TAKEOFF01 – MAR 2022

CLICK TO EDIT MASTER TITLE STYLE THRUST SETTING PF

BACK

PM

If the crosswind is at or below 20 kt and there is no tailwind: “ TAKEOFF ” THURST...............……………….........50% N1 or 1.05 EPR Apply half forward sidestick BRAKES…………....……………………………....RELEASE THRUST LEVERS……………………..…..…. FLX or TOGA

CHRONO……………......…..….……….....................START

The Captain places his hand on the thrust levers until V1: DIRECTIONAL CONTROL……...…………....USE RUDDER PFD (FMA) and ND (a/c on centreline)……...…MONITOR “ MAN FLEX 45, SRS, RUNWAY, AUTO THRUST BLUE ”

GOLDEN RULE #3

“ CHECKED ”

Understand the FMA at all times.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER TAKEOFF ROLLTITLE STYLE PF

PM

Before reaching 80kt: LIMIT LIMIT

BACK

TAKEOFF N1 or EPR.…………………CHECK

LIMIT

“ THRUST SET ” At 80kts release gradually the sidestick to reach neutral at 100kts.

Scan the airspeed, thrust and EGT throughout the takeoff roll. PFD and ENG indications…………………..……MONITOR

At 100kt:

SAME SPEED INDICATION

“ ONE HUNDRED KNOTS ” 100 kt……........………………...……….....…….……CHECK “ CHECKED ” At V1:

“ V1 ”

At VR:

“ ROTATE ”

i ROTATION…………………….....……….………..PERFORM © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER TAKEOFF ROLLTITLE STYLE ROTATION

Initiate the rotation with a continuous rotation rate about 3 degrees/seconds, towards a pitch attitude of 15 deg.

In strong wind conditions, small lateral inputs may be used, if necessary.

After lift-off, follow the SRS pitch command bar.

_______________________________________________________________________________

Minimize lateral inputs on ground and during rotation to avoid spoiler extension.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDITLM IFTASTER OFF TITLE STYLE PF

BACK

PM

When Vertical Speed positive and Radio Altitude increases: “ POSITIVE CLIMB ” “ GEAR UP ” LANDING GEAR ….………………………....……....….…….….UP “ GEAR UP ”

“ NAV ”

“ CHECKED ” i

Above 100 ft AGL and at least 5 seconds after lift-off: AP………………………...……….......…......…......AS RQRD “ AP1 ” “ CHECKED ”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDITLM IFTASTER OFF TITLE STYLE FMA  If NAV is armed, NAV mode engages at 30 ft:

Callout : “ NAV “

 If NAV is not armed, RWY TRK mode engages:

Callout : “ RWY TRK “

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TOTEDIT MR ASTER TITLE STYLE HRUST EDUCTION PF

BACK

PM At THR RED ALT (LVR CLB flashes on FMA):

THRUST LEVERS…………………………….………........CL

“ THRUST CLIMB, AUTO THRUST ” “ CHECKED ”

If takeoff was performed with packs off: PACKS 1 and 2…..………….……....…………………..…ON

PACKS 1 and 2…ON: Select PACK 2 on, at least 10 s after PACK 1 is selected on, for passenger comfort.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER TITLE STYLE ACCELERATION PF

BACK

PM

Acceleration Flow Pattern i At acceleration altitude:

“ CLIMB, ALT BLUE ” “ CHECKED ”

At F speed with positive speed trend: “ FLAPS 1 ” “ SPEED CHECKED ” FLAPS 1…………………………………..…………..SELECT “ FLAPS 1 ”

1+F

At S speed with positive speed trend: “ FLAPS 0 ”

“ SPEED CHECKED ” FLAPS 0………………………..……………………..SELECT “ FLAPS 0 ” GROUND SPOILERS ..………………………..........DISARM L/G.....................................................................CHECK UP EXTERIOR LIGHTS…………………….…….….……….SET © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER TITLE STYLE ACCELERATION ACCELERATION FLOW PATTERN

BACK

PM EXTERIOR LIGHTS

4

3

GND SPLRS

2

1

L/G

FLAP 0

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER AFTER TAKEOFFTITLE STYLE PF

BACK

PM If APU was used for takeoff: APU BLEED…..................................................................…OFF APU MASTER SW...........................................................….OFF

ENG MODE SEL……………….….….......................…AS RQRD

If the takeoff was performed with the TA ONLY mode: TCAS………...……………………………………………..….TA/RA

ANTI ICE………....…...…………………….....................AS RQRD

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER TITLE STYLE TRANSITION ALT PF

BACK

PM At transition altitude:

“ SET STANDARD ” BARO REF………...…………......…….....SET STANDARD

BARO REF………...…………......…….....SET STANDARD “ STANDARD CROSSCHECKED ” “ PASSING FL ___ NOW ”

ALTITUDE……….....……………………………….….CHECK “ CHECKED ”

RADAR…………..….…..…....ADJUST AS APPROPRIATE

ENG ANTI ICE………........……………..….………AS RQRD

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT M TITLE TAKEOFF – ASTER CALLOUT 1/2 STYLE PF

“ MAN TOGA (or MAN FLX XX), SRS, RWY, A/THR blue ”

NEXT

BACK

“ AP 1(2) on " “ Checked “

“ Gear UP "

FMA Changes announce

FMA Changes announce

“ Takeoff "

“ Checked " “ Thrust set "

“ 100 kt ”

“ V1 "

“ Rotate "

“ Positive climb "

“ Gear UP "

“ Checked "

“ Checked "

PM

L/G UP

VR V1

THR levers CLB

Pitch THRUST REDUCTION ALTITUDE

Thrust setting

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

ACCELERATION ALTITUDE

CLICK TO EDIT M TITLE TAKEOFF – ASTER CALLOUT 2/2 STYLE PF FMA Changes announce

“ Checked "

“ Flaps 1 "

“ Flaps 0 "

“ Speed checked” “Flaps 1 "

“ Set STD "

“ Speed checked” “Flaps 0 "

“ Checked "

“ STD cross-checked “ “ Passing FL__ NOW "

PM

CLIMB Speed

FLAPS 0

TRANSITION ALTITUDE

FLAPS 1

ACCELERATION ALTITUDE

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

PREV

BACK

CLICK TO EDIT MASTER TITLE STYLE CROSSWIND / TAILWIND PF

BACK

PM If the crosswind is greater than 20 kt or in case of tailwind:

ANNOUNCE………………..………….…….…...“TAKEOFF” THURST LEVERS……………….........50% N1 or 1.05 EPR

Apply full forward sidestick until the airspeed reaches 80 kts. Gradually release the sidestick to reach neutral at 100 kt.

BRAKES……………………..…..………………….RELEASE

CHRONO……………......…..….……….....................START

THRUST LEVERS……………………..…..…. FLX or TOGA

The Captain keeps or places his hand on the thrust levers until V1. DIRECTIONAL CONTROL……...………......USE RUDDER

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDITTAKEOFF MASTER TITLE STYLE ACCELERATION FLOW PATTERN

BACK

PM EXTERIOR LIGHTS

4

3

GND SPLRS

2

1

L/G

FLAP 0

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

A320/A330

CLICK TO EDITC MLIMB ASTER TITLE STYLE CRUISE CAPTURE

CLIMB / 10 000 FT AAL SOP

FLOW

A320

A330

SOP

SOP

Transition to CRZ Phase

i

Soft ALT & A/THR Modes

i

ALT CRZ

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

XFTDN2CLIMB0001 – OCT 2022

CLICK TO EDIT/ 10 MASTER CLIMB 000 FT TITLE AAL STYLE PF

BACK

PM Passing 10 000 ft AAL: 1. L & R LAND selector (A320) LAND sw (A330) .....OFF 2. SEAT BELTS ..............…..…………….…..…...AS RQRD

EFIS OPTION…………………….….....................AS RQRD

3. EFIS OPTION …………..…...........…….….......AS RQRD 4. ECAM MEMO ..............……………….…..…..….REVIEW NAVAIDS…..….….......……………..…CLEAR 5.

SEC F-PLN PAGE…….….………..AS RQRD OPT/MAX ALT…..………………….…CHECK

The OPEN CLB mode disregards all altitude constraints up to the FCU selected altitude Do not use the V/S mode without setting a target as climb will not stop.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT/ 10 MASTER CLIMB 000 FT TITLE AAL STYLE CLIMB 10 000 FT AAL - FLOW PATTERN

PF

(A320) L & R LAND selector (A330) LAND sw

3

PM

1

2

SEAT BELTS

EFIS OPT

ECAM MEMO

BACK

4

NAVAIDS

5

SEC F-PLN OPT / MAX ALT

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

C LICK EDIT ASTER TITLE -STYLE END OFTO CLIMB - CM RUISE CAPTURE A320 PF

PM

THR CLB

CLB

NAV

AP1 1FD2 A/THR

NAV

AP1 1FD2 A/THR

“ CHECKED ”

AP1 1FD2 A/THR

“ CHECKED ”

ALT

“ ALT STAR ”

“ ALT CRUISE ”

MACH

MACH

ALT*

ALT CRZ

NAV

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

C LICK EDIT ASTER TITLE -STYLE END OFTO CLIMB - CM RUISE CAPTURE A330 PF

PM

THR CLB

CLB

NAV

AP1 1FD2 A/THR

NAV

AP1 1FD2 A/THR

“ CHECKED ”

AP1 1FD2 A/THR

“ CHECKED ”

ALT CRZ

“ ALT CRUISE STAR ”

“ ALT CRUISE ”

MACH

MACH

ALT CRZ*

ALT CRZ

NAV

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDITC MLIMB ASTER TITLE STYLE Transition to CRZ Phase  Final ATC clearance at or above intended CRZ FL: Final ATC clearance

Automatically updated. No action required.

BACK

PROG CRZ FL

Intended FL

 Final ATC clearance below intended CRZ FL:

A320/A330

Intended FL Final ATC clearance

CRZ FL must be updated by the crew. Otherwise there is no transition into CRZ phase: The managed speed targets and Mach are not modified, and SOFT mode is not available.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

A320/A330

CLICK TO EDITC MLIMB ASTER TITLE STYLE SOFT MODES The A320 Soft Altitude Mode and the A330 A/THR Soft Mode…

BACK  Minimise thrust variations,  Improve fuel economy, and  Improve passenger comfort.

A320 SOFT ALTITUDE MODE

CRUISE FL CAPTURED and MACH STABILIZED

2 min

FMGS SOFT ALTITUDE MODE:

The SOFT ALTITUDE Mode corrects minor deviations from MACH target by allowing an altitude range of +/- 50 ft.

+/- 50 ft

A330 A/THR SOFT MODE The A/THR SOFT Mode corrects minor deviations from MACH target by allowing a speed range of +/- 3 kt.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

+/- 3 kt

CLICK TO EDITCMRUISE ASTER TITLE STYLE PF

PM

Periodically: ECAM MEMO / SD PAGES……………………....REVIEW FLIGHT PROGRESS……..…………………......…CHECK FUEL………………………………………….…..MONITOR NAV ACCURACY......................…………..…...MONITOR

i

RADAR ....………...………..ADJUST AS APPROPRIATE

A320/A330

LEVEL CHANGE

i

OFFSET

i

XFTDN2CRUISE001 – OCT 2018

CLICK TO EDIT C MRUISE ASTER TITLE STYLE BACK

NAV ACCURACY PROG  When GPS PRIMARY available: No NAV ACCURACY check is required.

 When GPS PRIMARY is lost on both sides:

Periodically check that NAV ACCUR HIGH is displayed on the PROG page, and confirm with raw data comparison. If the PROG page displays LOW , (NAV ACCUR DOWNGRAD will be also displayed on the MCDU’s scratchpad and on the ND) estimate the position error: i

If position error is ≤ 3 NM, FM position is reliable: Use ARC or ROSE NAV on ND and managed lateral guidance. If position error is > 3 NM, use raw data for navigation and monitoring. If significant mismatch use selected guidance.

A320/A330

CLICK TO EDIT C MRUISE ASTER TITLE STYLE ESTIMATE THE POSITION ERROR

BACK

METHOD: PROG

• Use an auto tuned radio NAVAID (VOR/DME, VOR...), or tune it manually using the RADNAV page. • Display this radio NAVAID on the ND, and read its bearing and DME distance (raw data). • Enter its ident on the BRG/DIST TO field of the PROG page (FM computed data). • Compare raw and FM data to evaluate the position error. GPS PRIMARY LOST

CLICK TO EDIT MASTER LEVEL CHANGETITLE STYLE PF

BACK

PM New ATC clearance: FL280

FCU ALTITUDE.…………………..........…SET AND PUSH “ THRUST CLIMB, CLIMB, ALT BLUE” “FL280 BLUE”

“ CHECKED ”

The new FCU FL must be lower than the REC MAX alt  When climbing using FD modes… FCU selected FL

Current CRZ FL

 When descending using FD modes…

Current CRZ FL

i

FCU selected FL

CRZ FL changes to the new FCU FL

CLICK TO EDIT MASTER LEVEL CHANGETITLE STYLE BACK

WHEN DESCENDING USING FD MODES… A/C at more than 200 NM from DEST A/C at less than 200 NM from DEST

DESTINATION

DESTINATION

Current CRZ FL

FCU selected FL

DESCENT Phase Activation

CRZ FL changes to the new FCU FL

CLICK TO EDIT O MFFSET ASTER TITLE STYLE PF

PM

In case of ATC request, or when adverse weather conditions are expected ahead: LATERAL REV at P POS or any WPT.……..……...PRESS OFFSET PAGE …………………………………..…SELECT OFFSET PAGE ………………..……………………….…FILL

i

When cleared to resume own navigation: CANCEL THE OFFSET

OFFSET function

CB

OFFSET DISTANCE

INTERCEPT ANGLE

OFFSET TRACK

TWO methods for offset cancellation according to ATC clearance.

CLR the OFFSET value.

Press the OFFSET DELETE prompt.

BACK

CLICK TO EDIT O MFFSET ASTER TITLE STYLE OFFSET PAGE

BEWARE of entering an OFFSET when the A/C is too close to the TO WPT: FMGS may refuse to accept it:

BACK

A320/A330

CLICK TO EDITDESCENT MASTER TITLE STYLE DESCENT PREPARATION

DESCENT

SOP

SOP

BARO REFERENCE SOP

AT 10 000 ft AAL SOP

FLOW

T/D

Approximately 15 min

Transition level

10 000 ft AAL

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

XFTDN3DESCENT01 – OCT 2022

CLICK TO EDIT MPASTER TITLE STYLE DESCENT REPARATION PF

BACK

PM WEATHER AND LANDING INFORMATION...........OBTAIN

NAV CHARTS CLIPBOARD........................................PREPARE STATUS page..........................................................CHECK LANDING CONDITIONS.....................................CONFIRM

i

LANDING CONDITIONS.....................................CONFIRM

If landing conditions has changed: LANDING PERF DATA.......................................COMPUTE

LANDING PERF DATA.......................................COMPUTE

LANDING PERF DATA........................................CROSSCHECK FMS.....................................................................PREPARE

i

FMS PREPARATION..................................CROSSCHECK i

(A320 only) GPWS LDG FLAP 3.........................AS RQRD LDG ELEV...............................................................CHECK AUTO BRK..........................................................AS RQRD ARRIVAL BRIEFING..................................................PERFORM

i

RADAR..................................ADJUST AS APPROPRIATE ANTI ICE pb-sw...................................................AS RQRD

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MPASTER TITLE STYLE DESCENT REPARATION LANDING CONDITIONS............................CONFIRM

BACK

Check if the landing conditions changed compared with the landing distance computed at dispatch, or with a previous computation. (e.g. runway change, weather conditions changed, in-flight failure affecting performance, diversion).

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MPASTER TITLE STYLE DESCENT REPARATION FMS.................PREPARE

Insert lateral and vertical revisions for arrival, as needed. Navaids selection or deselection. Check the idents on PFDs and NDs. NAV ACCURACY monitoring during descent. DES, APPR and GO AROUND pages to complete. PERF APPR page: An erroneous entry of OAT or QNH may lead to undue emergency descent (wrong Cabin Pressure Control (CPC) segment computation). Check extra fuel to evaluate holding possibilities at destination. Copy active F-PLN and revise the SEC F-PLN according circumstances: alternative approach, circling, etc…

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MPASTER TITLE STYLE DESCENT REPARATION FMS PREPARATION..................................CROSSCHECK

After the PF prepares the FMS, the PM crosschecks all the data entered in the FMS. The PM should have the same mental picture of the intended arrival and approach procedure, trajectory, and constraints than the PF. The PM should check with the PF if anything is not clear.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MPASTER TITLE STYLE DESCENT REPARATION ARRIVAL BRIEFING

BACK

Structure and minimum items of the Arrival Briefing

PF

PM Briefing Recommendations

Set Distraction Free Environment PLAN

• MORA/MOCA/MSA for planned trajectory • STAR • Type of APP • MINIMUM • G/A TRAJECTORY • Extra-fuel & -time

• • • • • • • • •

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PLAN The PM should start to brief the main items of the PLAN. This ensures that both pilots share the same mental image of the flight trajectory. The PF briefs what she/he considers for landing.

PLAN

Guidance for APP Landing FLAP setting Stop-margin Use of Reverse Use of Autobrake Planned RWY Exit Hotspots for taxi-in Special operation Non-standard operation

Identified THREATS Identified THREATS MITIGATIONS MISCELLANEOUS

MISCELLANEOUS is intended consider additional items e.g.:

to

• Special Operations • Supplementary Procedures if not yet briefed.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MPASTER TITLE STYLE DESCENT REPARATION Briefing Recommendations

Briefing requires out-of-the-box thinking, beyond the pure reflection of routine and standard operations. It should have a threat-focused view and identify and prioritize likely threats to the intended operation. It should then detail the actions to mitigate these threats. A briefing should be conversational, interactive and use open questions that involve all flight crewmembers to share their experience and expectations. It should normally not be a repetition of the detailed setting and checking of the flight trajectory in the FMS.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDITDM ASTER TITLE STYLE ESCENT PF

BACK

PM Descent Initiation: DESCENT CLEARANCE................................................OBTAIN

CLEARED ALTITUDE ON FCU....................................SET “THRUST IDLE, DESCENT, ALT BLUE, FL220 BLUE” “CHECKED”  Early descent initiation:

 Late descent initiation:

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i

Descent monitoring: MCDU..................................................................F-PLN

MCDU............................................PROG/PERF DESCENT DESCENT.......................................MONITOR / ADJUST

i TERR ON ND...................................................AS RQR

TERR ON ND.......................................................AS RQRD

DESCENT MONITORING PROG

i

OR

PERF DES

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDITDM ASTER TITLE STYLE ESCENT EARLY DESCENT INITIATION

BACK

The SPD decreases toward the lower limit of managed SPD range

Predicted shallow converging path ~1 000 ft/mn.

Highest value of: Descent speed limit altitude (e.g.: 10 000 ft) or Destination altitude +5 000 ft. Predicted shallow converging path ~500 ft/mn.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

IAF

CLICK TO EDITDM ASTER TITLE STYLE ESCENT LATE DESCENT INITIATION

BACK

The SPD increases toward the upper limit of managed SPD range.

T/D

Predicted path capture assuming:  Idle thrust  ½ SPD Brakes

IAF

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDITDM ASTER TITLE STYLE ESCENT

SPEEDBRAKES

In MANAGED DESCENT (DES): Do not use the speed brakes because the A/THR may increase thrust to remain on the computed profile Use a SELECTED DESCENT (OPEN DES) with speed brakes extended if you intend to increase your rate of descent.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDITDM ASTER TITLE STYLE ESCENT

DESCENT MONITORING

BACK

 On ND:

Predicted interception of descent path

In HDG or TRK mode, the ENERGY CIRCLE represents the required distance to land from the aircraft altitude down to the airport elevation, taking into account the deceleration down to Vapp.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CBLICK TO EDIT MASTER TITLE L STYLE ARO R EFERENCE – TRANSITION EVEL PF

BACK

PM

When approaching transition level and when cleared for an altitude:

“SET QNH” BAROMETRIC REFERENCE.............SET/CROSSCHECK

BAROMETRIC REFERENCE.............SET/CROSSCHECK “QNH CROSS-CHECKED” “PASSING ____ ft NOW”

“CHECKED”

For approaches using FINAL APP guidance: The vertical guidance requires a precise baro setting. The maximum acceptable discrepancy between altimeters is 100 ft.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT ASTER TITLE STYLE AT 10M 000 FT AAL PF

BACK

PM Passing 10 000 ft AAL: 1. L & R LAND (A320) selector LAND sw (A330) .......ON 2. SEAT BELTS sw.......................................................ON

1. EFIS OPTION pb..................................................CSTR

3. EFIS OPTION pb..................................................CSTR

2. LS pb..............................................................AS RQRD

4. LS pb..............................................................AS RQRD

3. NAVAIDS...........................................AS RQRD/CHECK • For A320: 5. ENG MODE selector.................................AS RQRD • For A330: 5. ENG START selector................................AS RQRD • If GPS PRIMARY LOST: NAVIGATION ACCURACY..............................MONITOR

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“APPROACH C/L” APPROACH C/L…………………………………PERFORM “APPROACH C/L COMPLETE”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT ASTER TITLE STYLE AT 10M 000 FT AAL

NAV ACCURACY…MONITOR  When GPS PRIMARY available: No NAV ACCURACY check is required.

BACK PROG

 When GPS PRIMARY is lost on both sides: (RNAV (GNSS) APCH not allowed in that case). Periodically check that NAV ACCUR HIGH is displayed on the PROG page, and confirm with raw data comparison. If the PROG page displays LOW , (NAV ACCUR DOWNGRAD will be also displayed on the MCDU’s scratchpad and on the ND) estimate the position error.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER TITLE STYLE DESCENT DESCENT 10 000 ft AAL FLOW PATTERN

PF

(A320) L & R LAND selector (A330) LAND sw

1

2

EFIS option pb LS pb

2

NAVAIDS

IF GPS PRIMARY LOST: NAVIVATION ACCURACY

SEAT BELTS sw

3

1

EFIS option pb

4

LS pb

3 4

5

(A320) ENG MODE selector (A330) ENG START selector

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

PM

CLICK TO EDIT ASTER TITLE STYLE i 2D AMPPROACH INTERMEDIATE APPROACH Aircraft configuration management SOP INITIAL APP

FINAL APPROACH

INTERMEDIATE APPROACH

SOP

SOP

SOP

-

-S

° FLAPS 1

-F FLAPS 2

VAPP L/G Down

FLAPS 3

Flaps Full

or

Fly an early stabilized approach. IAF A320/A330

IF

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MDA/H

FDP © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

MAP

XFTDN12DAPPRO01 – MAR 2022

CLICK TO EDIT MASTER TITLE STYLE 2D APPROACH SUMMARY TABLE

BACK

LOC

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XTR on ND © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER TITLE STYLE 2D APPROACH LATERAL GUIDANCE NOT AVAILABLE

APPROACH NOT STORED IN DATABASE

BACK

APPROACH STORED IN DATABASE

DIFFERS FROM CHARTED APPROACH

NAV ACCURACY DOWNGRADED

Follow Radio Navigation Raw Data Information using TRK mode.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL PF

BACK

PM i

F-PLN SEQUENCING ...........................................ADJUST

Approx. 15 nm from touchdown: APPROACH PHASE...........................................CHECK/ACTIVATE

MANAGED SPEED…………………………………..CHECK FLIGHT PATH……………………………………...MONITOR

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i NAV ACCURACY…………………………….........MONITOR

SPEED BRAKES…………………………………..AS RQRD RADAR……………....….…....ADJUST AS APPROPRIATE

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

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CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL F-PLN SEQUENCING

BACK

 Why sequencing the F-PLN?  After going around, if the F-PLN is sequenced, NAV mode is available.

C

FDP

FDP

C

 If the F-PLN is NOT sequenced: no NAV mode. B

A

 In NAV mode, the F-PLN will sequence automatically. You can identify the TO waypoint on the upper right side of the ND.

 In TRK or HDG modes, sequencing is not automatic, in consequence you may have to sequence manually the F-PLN.  Clear manually all the remaining lines of the F-PLN of the MCDU or,  Insert DIR TO RAD IN (Radial opposite of final course) at Final Descent Point. Note: The DIR TO arm NAV mode. If you fly TRK or HDG, you need to disarm it (pull HDG/TRK knob again). © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL APPROACH PHASE

Do not confuse “ARM APPROACH” with “ACTIVATE APPROACH PHASE”.

 In managed modes (NAV, LOC, LOC*) the APPR phase activates automatically when overflying the magenta DECEL point.  In selected modes (TRK, HDG) the DECEL point is inoperative (white). APPR phase is to be activated manually from the MCDU.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL SPEED MANAGED

BACK

 In managed speed, deceleration stops at the following speeds depending on the configuration.

CONF

SPEED Green Dot S speed F speed F speed VAPP

 When activating manually the APPROACH phase (done by PF, if AP is ON, or PM, if AP is OFF), crosscheck with the other crewmember, as he/she may perceive the speed reduction as undue, and react on it.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL NAV ACCURACY… MONITOR NAV ACCURACY must be monitored regularly during the approach. PROG

The required navigation accuracy has to be appropriate to the phase of flight.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MASTER TITLE STYLE INTERMEDIATE APPROACH PF

PM

When cleared for approach:

LATERAL GUIDANCE MODE.…….SET FOR APPROACH For approaches using LOC mode: LOC pb-sw……………………………………………..PRESS BIRD..……………………………………………………......ON “ TRACK, LOC BLUE ”

“ CHECKED ” For approaches using TRACK mode:

BIRD..……………………………………………………......ON “ TRACK ” LATERAL path (manually)……………..……..INTERCEPT

“ CHECKED ”

For approaches using NAV mode: NAV MODE ……………………CHECK ARMED/ENGAGED BIRD..……………………………………………………......ON 1 nm before Final Descent Point: FPA FOR FINAL APPROACH……………………PRESET

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

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CLICK TO EDIT MASTER TITLE STYLE INTERMEDIATE APPROACH FLY AN EARLY STABILIZED APPROACH  In order to be stabilized at the final descent point (FDP) at VAPP and in landing configuration:  On the F-PLN page, enter VAPP as a speed constraint at the FDP.

 This will displace the

F-PLN A page

upwards.

VAPP

“FLAPS 1"

“FLAPS 2” “GEAR DOWN" “FLAPS 3"

“FLAPS FULL“ Preset FPA

Pull FPA

FDP

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

INTERMEDIATE APPROACH – 1/2 CLICK TO EDIT MASTER TITLE STYLE PF

AIRCRAFT CONFIGURATION FOR APPROACH At green dot:

NEXT

BACK

PM

“ FLAPS 1 ” “ SPEED CHECKED ” FLAPS 1………………………..…………………......SELECT “ FLAPS 1 ” DECEL TOWARDS S SPEED………………..……..CHECK

TCAS.……………......……..……………........…TA or TA/RA

Below VFE next “ FLAPS 2 ” “ SPEED CHECKED ” FLAPS 2………………………..…………………......SELECT “ FLAPS 2 ” DECEL TOWARDS F SPEED………………..……..CHECK When FLAPS 2 “ GEAR DOWN ”

L/G lever…….....…..........………….………..….……..DOWN “ GEAR DOWN ” AUTO BRAKE………..........……………………....CONFIRM GROUND SPOILERS……..…..........…...….…...……...ARM NOSE sw …………………..........…….……………….......T.0 RWY TURN OFF sw ……………………………………….ON

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

INTERMEDIATE APPROACH – 2/2 CLICK TO EDIT MASTER TITLE STYLE PF

AIRCRAFT CONFIGURATION FOR APPROACH When L/G down and below VFE next:

“FLAPS 3”

PREV

BACK

PM

“ SPEED CHECKED ” FLAPS 3………………………..…………………......SELECT “ FLAPS 3 ” ECAM WHEEL PAGE…....……..……………........…CHECK

If residual pressure is indicated on the triple indicator (A320 only): RESIDUAL BRAKING PROC … APPLY

Below VFE next: “ FLAPS FULL ” “SPEED CHECKED” FLAPS FULL…………………..…………………......SELECT DECEL TOWARDS VAPP…………….........…..……..CHECK

“FLAPS FULL”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TOFINAL EDITAPPROACH MASTER -TITLE 1/2 STYLE PF

NEXT

BACK

PM

0.3 nm before the FDP:

FPA………………………………………………………...PULL “ FPA MINUS 3.1° ” “ CHECKED ” At the FDP: “PASSING FINAL DESCENT POINT,____ FT”

“CHECKED” GO AROUND ALT.…........…………..………..…….…..…SET “GO AROUND ALTITUDE____ FT SET” POSITION/FLT PATH………………..…MONITOR/ADJUST

SLIDING TABLE………………………………………..STOW CABIN REPORT……..………..…………….…..….RECEIVE

“CHECKED”

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FLT PARAMETERS……………………….…….....MONITOR

A/THR ....….….……....……CHECK SPEED MODE or OFF WING A.ICE (if not required).....……...……….…….....OFF SLIDING TABLE………...……..………………............STOW LDG MEMO ……..…...……………..........CHECK NO BLUE CABIN REPORT……..………..…………….…..….RECEIVE

“LANDING C/L” LANDING C/L.....................................................PERFORM “LANDING C/L COMPLETE” CABIN CREW………...……………………….………ADVISE  If not Stabilized at:

1 000 ft in IMC conditions:

GO AROUND

500 ft in VMC conditions: © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

GO AROUND

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CLICK TOFINAL EDITAPPROACH MASTER -TITLE 1/2 STYLE POSITION / FLIGHT PATH.….MONITOR / ADJUST

BACK

 Check that the aircraft is actually on the final course and on the intended flight path: VOR 33R

Lateral raw data: VOR: ½ dot (2.5 deg) NDB: 5 deg

Bird below the horizon:

 Crosschecks altitudes versus distances as published on the charts.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

Consistent V/S:

CLICK TOFINAL EDITAPPROACH MASTER -TITLE 1/2 STYLE PM FLIGHT PARAMETERS EXCEEDANCE CALLOUTS “LOC”

“SPEED” Speed Target - 5kt

BACK

1/2 dot

Speed Target +10 kt

“COURSE”

VOR 33R

VOR: 1/2 dot (2.5 deg)

“BANK” 7¨

NDB: 5 deg

“___ FT HIGH or LOW”

At altitude check points

“PITCH”

+10¨

+10¨

-2.5¨



A320

A330

“SINK RATE”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

-1000 ft/min A320 -1200 ft/min A330

CLICK TOFINAL EDITAPPROACH MASTER -TITLE 2/2 STYLE PF

PREV

BACK

PM At MINIMUM +100 ft:

“HUNDRED ABOVE” MONITOR,OR ANNOUNCE ….....”ONE HUNDRED ABOVE”

“ CHECKED ” At MINIMUM:

“MINIMUM” MONITOR OR ANNOUNCE….………………..… “MINIMUM”

If visual references are not sufficient: “ GO AROUND – FLAPS ” If visual references are sufficient: “ CONTINUE ” AP………………………….……………..…………………OFF “ SET FDs OFF ” “ SET RUNWAY TRACK ______ ”

i FDs……………………...……………………………….....OFF RUNWAY TRACK………………………...…. CHECK / SET

When the aircraft reaches the minimum height for use of AP, set the AP to OFF, as it may not disconnect until landing and AUTOLAND is not provided on NPA approach © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TOFINAL EDITAPPROACH MASTER -TITLE 2/2 STYLE AP……………….OFF  AP…OFF  FDs …OFF  BIRD …ON  CHECK / SET RUNWAY TRACK

“AP OFF” “FDs OFF” “BIRD ON” “SET RUNWAY TRACK____”

 At minimum – 50 ft, if the AP is still engaged, the message DISCONNECT AP FOR LDG pulses on FMA to remind the flight crew that automatic landing is not available.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

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CLICK TO EDIT ASTER TITLE STYLE i 3D AMPPROACH INTERMEDIATE / FINAL APPROACH Aircraft configuration management SOP

INITIAL APPROACH SOP

INTERMEDIATE APPROACH SOP -ILS-

-FL100(For ILS APPR only)

A320/A330

SOP -FINAL APP-

-

°

or

FINAL APPROACH

Flaps1

SOP -ILS-

-S

SOP -FINAL APP-

A320: 2 000 ft AGL minimum A330/340: 2 500ft AGL minimum

Flaps2 3 nm mini

L/G Down Flaps3 Flaps Full LDG Checklist VAPP

(MDA)DA/H

IAF

IF

FDP © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

XFTDN13DAPPRO01 – MAR 2022

CLICK TO EDIT MASTER 3DSUMMARY APPROACH TABLE TITLE STYLE Charts Approach Type

FMS database Approach type

Deviation

Arming

BACK

FMA

Single diamond

ILS

ILSxx

GS | LOC Vertical:

RNAV (GNSS)

LNAV/ VNAV

VOR

RNAV (GNSS)

VORxx

Lateral:

FINAL APP NDB

NDBxx

RNAV (RNP AR)

RNAV (RNP AR) © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL PF

BACK

PM i

F-PLN SEQUENCING ...........................................ADJUST POSITION ......................................................... MONITOR

Check that ATC clearances allow the aircraft to fly through the capture area

Approx. 15 nm from touchdown: APPROACH PHASE...........................................ACTIVATE

MANAGED SPEED…………………………………..CHECK

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FLIGHT PATH……………………………………...MONITOR

i

i

NAV ACCURACY…………………………….........MONITOR

SPEED BRAKES…………………………………..AS RQRD RADAR……………....….…....ADJUST AS APPROPRIATE

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

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CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL F-PLN SEQUENCING

BACK

 Why sequencing the F-PLN?  After going around, if the F-PLN is sequenced, NAV mode is available.

C

FDP

FDP

C

 If the F-PLN is NOT sequenced: no NAV mode. B

A

 In NAV mode, the F-PLN will sequence automatically. You can identify the TO waypoint on the upper right side of the ND.

 In TRK or HDG modes, sequencing is not automatic, in consequence you may have to sequence manually the F-PLN.  Clear manually all the remaining lines of the F-PLN of the MCDU or,  Insert DIR TO RAD IN (Radial opposite of final course) at Final Descent Point. Note: The DIR TO arm NAV mode. If you fly TRK or HDG, you need to disarm it (pull HDG/TRK knob again). © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL APPROACH PHASE

Do not confuse “ARM APPROACH” with “ACTIVATE APPROACH PHASE”.

 In managed modes (NAV, LOC, LOC*) the APPR phase activates automatically when overflying the magenta DECEL point.  In selected modes (TRK, HDG) the DECEL point is inoperative (white). APPR phase is to be activated manually from the MCDU.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL BACK

SPEED MANAGED

 In managed speed, deceleration stops at the following speeds depending on the configuration.

CONF

SPEED Green Dot S speed F speed F speed VAPP

 When activating manually the APPROACH phase (done by PF, if AP is ON, or PM, if AP is OFF), crosscheck with the other crewmember, as he/she may perceive the speed reduction as undue, and react on it.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL NAV ACCURACY… MONITOR NAV ACCURACY must be monitored regularly during the approach. PROG

The required navigation accuracy has to be appropriate to the phase of flight.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MAPPROACH ASTER TITLE STYLE INITIAL FLIGHT PATH … MONITOR  Use VDEV information on the PFD and PROG page

PROG

 In HDG/TRK mode, use also the energy circle on ND representing the required distance to land

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

NTERMEDIATE FINAL APPROACH – 1/2 CILICK TO EDIT/ M ASTER TITLE STYLE

PF

AIRCRAFT CONFIGURATION FOR APPROACH

NEXT

BACK

PM

At green dot: “ FLAPS 1 ” “ SPEED CHECKED ” FLAPS 1………………………..…………………......SELECT “ FLAPS 1 ” DECEL TOWARDS S SPEED………………..……..CHECK

TCAS.……………......……..……………........…TA or TA/RA

A320: At 2 000 ft AGL at the latest: A330/A340: At 2 500 ft AGL at the latest: “ FLAPS 2 ” “ SPEED CHECKED ” FLAPS 2………………………..…………………......SELECT “ FLAPS 2 ” DECEL TOWARDS F SPEED………………..……..CHECK “ GEAR DOWN ”

L/G lever…….....…..........………….………..….……..DOWN “ GEAR DOWN ” AUTO BRAKE………..........……………………....CONFIRM GROUND SPOILERS……..…..........…...….…...……...ARM NOSE sw …………………..........…….……………….......T.O RWY TURN OFF sw ……………………………………… ON

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

NTERMEDIATE FINAL APPROACH – 2/2 CILICK TO EDIT/ M ASTER TITLE STYLE

PF

AIRCRAFT CONFIGURATION FOR APPROACH When L/G down:

“FLAPS 3”

PREV

BACK

PM

“ SPEED CHECKED ” FLAPS 3………………………..…………………......SELECT “ FLAPS 3 ” ECAM WHEEL PAGE…....……..……………........…CHECK

If residual pressure is indicated on the triple indicator (A320 only): RESIDUAL BRAKING PROC … APPLY “ FLAPS FULL ” “SPEED CHECKED” FLAPS FULL…………………..…………………......SELECT DECEL TOWARDS VAPP……………......…..……..CHECK SLIDING TABLE………………………………………..STOW CABIN REPORT……..………..…………….…..….RECEIVE

“FLAPS FULL” A/THR ....….….……....……CHECK SPEED MODE or OFF WING A.ICE pb-sw (if not required)....……….…….....OFF SLIDING TABLE………...……..………………............STOW LDG MEMO ……..…...……………..........CHECK NO BLUE CABIN REPORT……..………..…………….…..….RECEIVE

“LANDING C/L” LANDING C/L……...…………………………...…PERFORM “LANDING C/L COMPLETE” CABIN CREW………...……………………….………ADVISE

“ CHECKED ”

At 1 000 ft RA:

“ONE THOUSAND ”

Monitor or Announce

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

INTERMEDIATE APPROACH CLICK TO EDIT MASTER TITLE STYLE -ILS APPROACH-

PF

BACK

PM

When cleared for approach, on the intercept trajectory for the final approach course and LOC deviation available: APPR p/b on FCU….............…….....……….........…PRESS SECOND AP......………..…...………………..…......ENGAGE “ GLIDE SLOPE BLUE, LOC BLUE, CAT 3 DUAL, AP 1+2 ” “ CHECKED ” LOC and G/S CAPTURE.....……..........………....MONITOR

i

“ LOC STAR ”

“ CHECKED ”

“ LOC ”

“ CHECKED ”

“ GLIDE SLOPE STAR ” “ CHECKED ”

When G/S* appears FMA: GO AROUND ALT ........…………...……………..………SET “ GO AROUND ALTITUDE ___FT SET ” PF or PM on PF request, depending on situation. © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

INTERMEDIATE APPROACH CLICK TO EDIT MASTER TITLE STYLE -ILS APPROACH-

LOC and G/S CAPTURE

 Should an unwanted LOC and/or G/S be intercepted, the aircraft will follow an erroneous trajectory.  Crosschecking with raw data allows to prevent it.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

FINALMAPPROACH CLICK TO EDIT ASTER TITLE STYLE -ILS APPROACH-

PF “ GLIDE SLOPE ”

BACK

PM

At the final descent point:

“ CHECKED ” “PASSING (fix name), ____ft” FLT PARAMETERS…………………….…….……MONITOR At 350ft RA: “ LAND ” “ CHECKED ”

At MINIMUM +100 ft:

“HUNDRED ABOVE”

Monitor or Announce

“ CHECKED ”

At MINIMUM:

“MINIMUM”

Monitor or Announce

Depending on visual references: “ GO AROUND – FLAPS ” or “ CONTINUE ”

At 100 ft RA:

At 50 ft RA:

“ONE HUNDRED”

“FIFTY”

Monitor or Announce

Monitor or Announce

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

i

FINALMAPPROACH CLICK TO EDIT ASTER TITLE STYLE -ILS APPROACH-

PM FLIGHT PARAMETERS EXCEEDANCE CALLOUTS “SPEED”

BACK

“LOC”

Speed Target - 5kt

Speed Target +10 kt

“BANK”

1/2 dot

“GLIDE” 7¨ 1/2 dot

“PITCH”

+10¨ 0¨ (A330) -2.5¨ (A320)

“SINK RATE” - 1 200 ft/min (A330) - 1 000 ft/min (A320)

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

INTERMEDIATE APPROACH CLICK TO EDIT MASTER TITLE STYLE -FINAL APP-

PF

PM

When cleared for approach: APPR p/b on FCU….............…….....………...…….PRESS APP NAV………………...….CHECK ARMED or ENGAGED FINAL……………………………………..……CHECK ARMED “ FINAL BLUE, APP NAV ” “ CHECKED ”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

1/2 STYLE CLICK TOFINAL EDITAPPROACH MASTER–TITLE PF

-FINAL APP-

NEXT

BACK

PM

FINAL APP.............…….....…..…………….CHECK ENGAGED “ FINAL APP ”

At the Final Descent Point: “ CHECKED ” “PASSING (fix name), ___ft”

GO AROUND ALT ........…………...……………..………SET “ GO AROUND ALTITUDE ___FT SET ” PF or PM on PF request, depending on situation.

i

FLT PARAMETERS………………………..……….……MONITOR

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

1/2 STYLE CLICK TOFINAL EDITAPPROACH MASTER–TITLE -FINAL APP-

PM FLIGHT PARAMETERS EXCEEDANCE CALLOUTS “SPEED”

BACK

“CROSS TRACK”

Speed Target - 5kt

Speed Target +10 kt

XTK > 0.1 nm

“COURSE” VOR: 1/2 dot (2.5 deg)

“V DEV”

“BANK”

V/DEV > 1/2 dot (50ft)

NDB: 5 deg

V / DEV



“___ FT HIGH or LOW”

“PITCH”

“SINK RATE”

+10¨

0¨ (A330) -2.5¨ (A320)

1 200 ft/min (A330) 1 000 ft/min (A320) © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

At altitude check points

2/2 STYLE CLICK TOFINAL EDITAPPROACH MASTER–TITLE -FINAL APP-

PF

At MINIMUM +100 ft:

“MINIMUM”

BACK

PM

“HUNDRED ABOVE”

At MINIMUM:

PREV

Monitor or Announce

Monitor or Announce

If visual references are not sufficient: “ GO AROUND – FLAPS ”

If visual references are sufficient: “ CONTINUE ” For landing: AP………………………….……………..…………………OFF

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“ SET FDs OFF ”

FDs……………………...……………………………….....OFF

“ SET RUNWAY TRACK ”

RUNWAY TRACK………………………...……………… SET

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

2/2 STYLE CLICK TOFINAL EDITAPPROACH MASTER–TITLE -FINAL APP-

AP……………….OFF  AP…OFF  FDs …OFF  BIRD …ON  CHECK / SET RUNWAY TRACK

“AP OFF” “FDs OFF” “BIRD ON” “SET RUNWAY TRACK____”

 At minimum – 50 ft, if the AP is still engaged, the message DISCONNECT AP FOR LDG pulses on FMA to remind the flight crew that automatic landing is not available.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT GOM AASTER ROUNDTITLE STYLE

GO-AROUND DECISION

GO-AROUND INITIATION

THRUST REDUCTION

ACCELERATION SOP

i

SOP

SOP

FLOW

2nd APPROACH

SOP

DIVERSION

SOP

CALLOUTS Discontinued approach

i

Rejected landing

i

Spatial disorientation

i

A320/A330

-S -F

THR levers CLB

TOGA Rotation

FLAPS

L/G UP

Flaps 0

°

Green dot

Flaps 1

GA ACCELERATION ALTITUDE

GA THRUST REDUCTION ALTITUDE

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

XFTDN4GOAROUN01 – MAR 2022

CLICK TO EDIT GOM AASTER ROUNDTITLE STYLE

Requirements for GO AROUND decision A go‐around must be considered if:  The approach is unstable in speed, altitude, or flight path in such a way that stability is not obtained by 1 000 ft IMC or 500 ft VMC or is not maintained until landing  Any GPWS, Windshear or ROW (if ROPS is installed) alert occurs  Adequate visual cues are not obtained reaching the minima or lost below minima  …

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT GOM AASTER ROUNDTITLE STYLE REJECTED LANDING

 If the PF initiates a go-around, the flight crew must complete the go-around maneuver.  Do not initiate a go-around after the selection of the thrust reversers.  If you perform a go-around near the ground, you should take into account the following: • avoid excessive rotation rate, in order to prevent a tailstrike, • a temporary landing gear contact with the runway is acceptable, • in the case of bounce, consider delaying flap retraction, • order landing gear retraction when the aircraft reaches and maintains positive climb with no possibility of subsequent touchdown.

 If the aircraft is on the runway and in FULL configuration when the PF applies TOGA thrust, a CONFIG FLAPS NOT IN T.O CONFIG ECAM alert is triggered. The flight crew should disregard this alert.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT GOM AASTER ROUNDTITLE STYLE SPATIAL DISORIENTATION

BACK

 If the aircraft is light, a high acceleration is expected when performing a go-around. Pilot illusion

This can lead to spatial disorientation.

Actual Possible pilot reaction based on illusion

 When LVR CLB is flashing, set all thrust levers to the CL detent with no delay:

A/THR

 When ALT * mode engages, with MAN TOGA still engaged, a risk of speed limit exceedance exists:

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TOGOEDIT MASTER TITLE STYLE AROUND INITIATION PF

BACK

PM

GOLDEN RULE #1

Fly, Navigate, Communicate.

GOLDEN RULE #4

Take actions if things do not go as expected.

Simultaneously: THRUST LEVERS……………..…………....TOGA

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ROTATION ………………………..……PERFORM

i

“ GO AROUND, FLAPS ”

FLAPS………………………….….……..RETRACT ONE STEP “FLAPS xx” FLIGHT PARAMETERS…………….….….………MONITOR

“ MAN TOGA, SRS, NAV, AUTO THRUST BLUE ”

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“ CHECKED ” When positive climb: “ POSITIVE CLIMB ” L/G………………………………………………....….…...............UP

“ GEAR UP ”

“ GEAR UP ” NAV or HDG mode…………….….…………………….AS RQRD

GO-AROUND ALTITUDE.................................................CHECK

AP………………………….………………………………AS RQRD © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TOGOEDIT MASTER TITLE STYLE AROUND INITIATION THRUST LEVERS………………….TOGA

 If TOGA thrust is not required, set the thrust levers to the TOGA detent, to remove approach modes, to engage the Go-Around phase with associated AP/FD modes, then retard all thrust levers to the CL detent as required.  When the flaps lever is at least in position 1, and when setting TOGA thrust: • GO AROUND phase is activated. • Landing/approach modes are removed, and go around modes are engaged. • The missed approach becomes the ACTIVE F-PLN and the previously flown approach is strung back into the F-PLN.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TOGOEDIT MASTER TITLE STYLE AROUND INITIATION ROTATION …………………. PERFORM Initiate rotation towards 15° of pitch with all engines operative (12.5° if one engine out) to get a positive rate of climb then follow SRS pitch command bar.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TOGOEDIT MASTER TITLE STYLE AROUND INITIATION FLIGHT PARAMETERS CALLOUTS

BACK

7° +20° maxi

No climb rate

+10° mini

“BANK” “PITCH”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

“SINK RATE”

CLICK TOTEDIT MREDUCTION ASTER TITLE STYLE HRUST PF

PM

At Go Around Thrust Reduction altitude, as LVR CLB is flashing on FMA: THRUST LEVERS………………………………………..…CL “ THRUST CLIMB, AUTO THRUST ” “ CHECKED ”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MASTER TITLE STYLE ACCELERATION PF

Acceleration Flow Pattern

BACK

PM

i

At Go Around acceleration altitude: ANNOUNCE: “OPEN CLIMB, ALT BLUE, 4000 FT BLUE” ANNOUNCE…..………….……..“CHECKED” TARGET SPEED (GDOT) ………………….……….. MONITOR At F speed with positive speed trend: “ FLAPS 1 ” “ SPEED CHECKED ” FLAPS 1……………………………....………………SELECT “ FLAPS 1 ” At S speed with positive speed trend: “ FLAPS 0 ” “ SPEED CHECKED ” FLAPS 0……………………….............…………….SELECT “ FLAPS 0 ” GROUND SPOILERS ..…………………….…........DISARM L/G.....................................................................CHECK UP NOSE sw………………………………………………...…OFF RWY TURN OFF sw………………………………………OFF OTHER EXTERIOR LIGHTS………………..…….AS RQRD

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER TITLE STYLE ACCELERATION ACCELERATION FLOW PATTERN

BACK

PM EXTERIOR LIGHTS

4

3

GND SPLRS

2

1

L/G

FLAP 0

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT GOM AASTER ROUNDTITLE STYLE ACCELERATION FLOW PATTERN

BACK

PM EXTERIOR LIGHTS

4

3

GND SPLRS

2

1

L/G

FLAP 0

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO SEDIT MASTER TITLE STYLE ECOND APPROACH PF

PM If the flight crew decides to fly a second approach:

APPROACH PHASE………………………….………..ACTIVATE

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDITDIVERSION MASTER TITLE STYLE PF

PM Three possibilities:

 The ALTN airport has been prepared Lat Rev at TO WPT……..……….ENABLE ALTN DIR TO………………..PERFORM AS CLEARED

 The SEC F-PLN has been prepared to a diversion airfield SEC F-PLN………………..…………...ACTIVATE

 Nothing has been prepared MCDU F-PLN page: NEW DEST….……INSERT MCDU PROG page: CRZ FL…..........….INSERT MCDU: F-PLN………….………………..FINALIZE

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MASTER TITLE STYLE DISCONTINUED APPROACH PF

PM

At or above FCU altitude, apply the discontinued approach technique described here below, or the go around procedure. Altitude set on FCU Below the FCU altitude, apply the go around procedure. Note: FMAs displayed here below are based on an ILS approach

“ CANCEL APPROACH ” Disarm any AP/FD approach mode (LOC, GS or FINAL APP): APPR (or LOC) p/b on FCU………….………..........PRESS “ VERTICAL SPEED MINUS 800, HEADING, AP1, ALT BLUE ”

“ CHECKED ”

LAT. MODE (NAV or HDG)…….……………..…...AS RQRD VERT. MODE (LEVEL OFF or ADJUST V/S)…..AS RQRD SPEED………….....…………….PULL AND SET AS RQRD  Because the thrust levers are not set to TOGA detent, the FMS remains in approach phase. © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO MASTER TITLE STYLE GOEDIT AROUND - CALLOUTS PF “Go AroundFlaps"

FMA Changes

FMA Changes

“Gear UP"

FMA Changes "Flaps 0"

"Flaps 1"

“Flaps xx"

“Checked”

"Positive climb"

“Gear UP"

“Checked”

“Checked” “Speed checked” “Flaps 1"

“Speed checked” “Flaps 0"

PM -S -F THR levers CLB L/G UP

FLAPS Retract 1 step THR levers TOGA

°

Flaps 0

Flaps 1

THRUST ACCELERATION ALTITUDE

THRUST REDUCTION ALTITUDE

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

Green dot

BACK

A320

EXIT

CLICK TO EDITLANDING MASTER TITLE STYLE

APPROACH MUST BE STABILIZED: From 1000 ft in IMC

From 500 ft in VMC

FLARE

ROLLOUT

MANUAL

SOP

SOP

AUTOLAND

SOP

SOP

Flare Retard

1000 ft

REV MAX

REV IDLE

THR IDLE

500 ft

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

EFTDN1LANDING01 – MAR 2022

CLICK TO EDITLM ASTER- F TITLE MANUAL ANDING LARE STYLE PF

BACK

PM For manual landing:

AP..................................................................................OFF

In stabilized approach conditions, the flare height is approximately 30 ft RA: FLARE................................................................PERFORM

ATTITUDE..............................................................MONITOR

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THRUST LEVERS...............................................................IDLE

At around 20ft RA, The automatic callout “RETARD” triggers. It is a reminder for the PF to retard thrust levers to IDLE.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICKMTO EDIT MASTER TITLE STYLE ANUAL LANDING - ROLLOUT PF

BACK

PM At touchdown:

DEROTATION...................................................INITIATE BOTH THRUST LEVERS..........REV MAX or REV IDLE “ SPOILERS ”

“ REVERSE GREEN ” DIRECTIONAL CONTROL.............MONITOR/ENSURE A/BRK.............................................CHECK/ANNOUNCE

BRAKES.........................................................AS RQRD

“ DECEL ”

At 70 kt: BOTH THRUST LEVERS....................................REV IDLE At taxi speed: REVERSERS.............................................................STOW Before 20 kt: AUTO BRK.............................................................DISARM © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

“ SEVENTY KNOTS ”

CLICK TO AEDIT MASTER TITLE STYLE UTOLAND - FLARE PF

At any time, if AUTOLAND light comes on, take over.

PM

At 350ft RA: “LAND”

LAND

“ CHECKED” ILS COURSE...........................................................CHECK At 40ft RA: “ FLARE ”

If FLARE not displayed on FMA, PF takes over. FLARE......................................................MONITOR At 30ft RA: “ THRUST IDLE ”

At 10ft RA:

BOTH THRUST LEVERS.............................................IDLE LATERAL GUIDANCE.........................................MONITOR

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TOAUTOLAND EDIT MASTER TITLE STYLE - ROLLOUT PF

BACK

PM At touchdown: “ ROLLOUT ”

BOTH THRUST LEVERS...............REV MAX or REV IDLE

“ SPOILERS ” “ REVERSE GREEN ”

DIRECTIONAL CONTROL..................MONITOR/ENSURE

DIRECTIONAL CONTROL..................................MONITOR

BRAKE.................................................................AS RQRD

A/BRK.............................................CHECK/ANNOUNCE “ DECEL ”

At 70 kt: “ SEVENTY KNOTS ” BOTH THRUST LEVERS....................................REV IDLE Before 20 kt: AUTO BRK............................................................DISARM End of rollout REVERSERS.............................................................STOW AP..................................................................................OFF

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT M ASTER TITLE STYLE FLARE

PM FLIGHT PARAMETERS CALLOUTS

7¨ maxi

“BANK, BANK”

10¨ maxi When the pitch attitude approaches the tail strike pitch limit indicator or reaches 10 º, the PM announces:

“PITCH, PITCH”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

EXIT

A320/A330

CLICK TO EDIT MASTER TITLE STYLE AFTER LANDING – PARKING – SECURING THE A/C AFTER LANDING SOP

SECURING THE AIRCRAFT (*)

PARKING

FLOW

SOP

FLOW

SOP

“ SECURING THE A/C C/L ”

“ PARKING C/L ”

“ AFTER LANDING C/L ”

(*) Note: This procedure can be performed using the QRH. © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

XFTDB1AFTLDGD01 – MAR 2022

CLICK TO EDIT MASTER TITLE STYLE AFTER LANDING – PARKING – SECURING THE A/C AFTER LANDING FLOW PATTERN PF PF

BACK

PM PM ANTI-ICE EXTERIOR LIGHTS

RADAR PREDICTIVE WINDSHEAR

7

6

APU

2

1 2

1

GROUND SPOILERS

3

5 4

TCAS / ATC

FLAPS

(A320) ENG MODE SEL (A330) ENG START SEL © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER AFTER LANDINGTITLE STYLE PF GROUND SPOILERS……………..……...........……DISARM

Signal for PM actions

BACK

PM

EXTERIOR LIGHTS……..……...………………………...SET RADAR……….……………………………..…….……..…OFF PREDICTIVE WINDSHEAR………..…………....………OFF ENG MODE/START SEL…..………..….………….….NORM FLAPS………………….……….……....……….….RETRACT TCAS……………….…………….…..….………….…….STBY ATC......................AS RQRD BY AIRPORT OPERATIONS APU……….……….………………….....…….…….….START ANTI ICE……………………...…....…..…….…….AS RQRD BRAKE TEMP………………….………..………...….CHECK

“ AFTER LANDING C/L ”

AFTER LANDING C/L………..……..………….…COMPLETE “ AFTER LANDING C/L COMPLETE ”

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

i

CLICK TO EDIT MASTER AFTER LANDINGTITLE STYLE BRAKE TEMPERATURE

To avoid brake oxidation

Select brake fans: • just before reaching the gate (short taxi) or • 5 min after landing (long taxi)

Short turnaround time Or Brake temperature likely exceeding 500°C

Use of brake fans without oxidation consideration

BACK

Note: After landing, the BRAKES HOT ECAM caution is inhibited. By the way, when brake temperature is above 300°C, the HOT amber light on the LDG panel will come on. Depending on the rate of temperature increase, you may delay the use of brake fans in accordance with the above considerations.

 Observe the ECAM memo if the brake fans are selected.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER PARKING – 1/2TITLE STYLE PF

BACK

PM

ACCU PRESS..........................................................CHECK

ANTI-ICE.......................................................................OFF

PARK BRAKE handle.....................................................ON

APU BLEED pb-sw........................................................ON

• If the APU is not available: EXT PWR pb.................................................................ON • No less than 3 min after high thrust operations: ALL ENG MASTER LEVERS........................................OFF WING sw........................................................................OFF BEACON sw..................................................................OFF OTHER EXTERIOR LIGHTS................................AS RQRD

MECH

FUEL PUMPS...............................................................OFF

SLIDES.................................................CHECK DISARMED SEAT BELTS sw............................................................OFF GROUND CONTACT.........................................ESTABLISH

FUEL QUANTITY.....................................................CHECK

PARKING BRAKE handle....................................AS RQRD

BRAKE FAN..................................................................OFF 2/2 

 When PARKING BRAKE is ON: • PARK BRK MEMO is displayed • Check the brake pressure

• The ACCU PRESS must be in the green band.

 Minimum time at or near IDLE to stabilize engine hot section temperature, refer to FCOM SOP PARKING © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

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CLICK TO EDIT MASTER PARKING – 2/2TITLE STYLE PF

PM

 1/2

“ PARKING C/L ”

BACK

PARKING C/L...................................................COMPLETE “ PARKING C/L COMPLETE ”

ATC.............................................................................STBY IRS PERFORMANCE..............................................CHECK DUs.................................................................................DIM

DUs................................................................................DIM

LOGBOOK............................................COMPLETE (CM1) ALL EFB transmitting mode...............................AS RQRD

ALL EFB transmitting mode..............................AS RQRD

• If performing transit stop:

• If performing transit stop:

CLEAR/CLOSE FLIGHT...........................................APPLY

CLEAR/CLOSE FLIGHT...........................................APPLY

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

i

CLICK TO EDITPM ASTER TITLE STYLE ARKING

APU BLEED pb-sw…………ON  Set the APU BLEED pb-sw to ON immediately before engine shutdown, to prevent engine exhaust fumes from entering the air conditioning.

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDITPM ASTER TITLE STYLE ARKING IRS PERFORMANCE

BACK

 The NAV TIME is the cumulated block time since the latest IRS alignment (fast or complete).  On the MCDU: DATA / POSITION MONITOR page, read the deviation of each IRS position from the FMGC position and check that the value does not exceed the following (FCOM PRO-NOR-SOP-PARKING).

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MASTER TITLE STYLE AFTER LANDING – PARKING – SECURING THE A/C PARKING FLOW PATTERN 3

BACK

FUEL PUMPS

PF PF

PM PM ANTI-ICE EXTERIOR LIGHTS

4

1

2

APU BLEED pb-sw

6

5 SLIDES

ALL ENG MASTER LEVERS

SEAT BELTS sw

1

ACCU PRESS

3

PARK BRAKE handle

2

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MTHE ASTER TITLE STYLE SECURING AIRCRAFT CM1

This procedure can be performed using the QRH.

BACK

CM2

PARK BRAKE handle.......................................CHECK ON ALL IR MODE SELECTORS........................................OFF

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OXY CREW SUPPLY....................................................OFF EXTERIOR LIGHTS......................................................OFF APU BLEED pb-sw.......................................................OFF EXT PWR pb-sw..................................................AS RQRD APU MASTER SW pb-sw.............................................OFF EMER EXIT LT pb-sw...................................................OFF SIGNS sw......................................................................OFF A320 BAT 1 pb-sw + BAT 2 pb-sw........................................OFF i A330 BAT 1 pb-sw + BAT 2 pb-sw + APU BAT pb-sw.........OFF i

“ SECURING THE AIRCRAFT C/L ” SECURING THE AIRCRAFT C/L.....................COMPLETE “ SECURING THE AIRCRAFT C/L COMPLETE ” EFB APPLICATIONS.......................................................CLOSE ALL EFB.................................................................SWITCH OFF

i

A320 only: MAINT BUS sw....................................................AS RQRD © AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MTHE ASTER TITLE STYLE SECURING AIRCRAFT

EFB APPLICATIONS…CLOSE:

ALL EFB…SWITCH OFF:

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

BACK

CLICK TO EDIT MTHE ASTER TITLE STYLE SECURING AIRCRAFT

BACK

To ensure the ADIRS memorize the last data: at least 10 sec ADIRS OFF

t Electrical supply OFF

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

CLICK TO EDIT MTHE ASTER TITLE STYLE SECURING AIRCRAFT

BACK

To prevent smoke entering the cabin during next start, wait until APU flap is fully closed: Approx 2 min APU AVAIL light goes out

t

When APU flap fully closed, set batteries OFF

© AIRBUS SAS 2022. All rights reserved. Confidential and proprietary document.

A320/A330

AND A/THR CLICK TO AP/FD EDIT MASTER TITLE

STYLE

ENGAGEMENT/DISENGAGEMENT

AP/FD ENGAGEMENT and DISENGAGEMENT

A/THR i

ENGAGEMENT and DISENGAGEMENT

i

XFTDN1000AUTO01 – OCT 2020

AP/FD AND A/THR MASTER TITLE STYLE AP/FD – 1/2 ENGAGEMENT/DISENGAGEMENT

CLICK TO

EDIT

NEXT

BACK

Engagement

AP OFF / FD OFF Manual flight without FD.

1

Set FD ON

2

Use AFS CP to adjust FMA for the intended flight path. AP OFF / FD ON

Manual flight with FD.

3

Set AP ON i EXPECTED FMA AP ON / FD ON

Autoflight with AP/FD.

Never engage AP without expected FMA.

AP/FD AND A/THR MASTER TITLE STYLE ENGAGEMENT/DISENGAGEMENT

CLICK TO

EDIT

BEFORE SETTING AP ON If large orders are required to achieve the intended flight path, center the FD bars before setting AP ON.

BACK

AP/FD AND A/THR MASTER TITLE STYLE AP/FD – 2/2 ENGAGEMENT/DISENGAGEMENT

CLICK TO

EDIT

PREV

Disengagement

AP ON / FD ON Autoflight with AP/FD.

CAVALERY CHARGE

1

Press the AP INSTINCTIVE DISC pb to disconnect AP.

Press a second time on the AP INSTINCTIVE DISC pb to cancel the aural and visual indications.

AP OFF / FD ON Manual flight with FD.

2

Set FD OFF

AP OFF / FD OFF Manual flight without FD.

BACK

AP/FD AND A/THR MASTER TITLE STYLE ENGAGEMENT/DISENGAGEMENT

CLICK TO

EDIT

A/THR – 1/2 Engagement

A/THR OFF Flight with manual thrust.

1

Press the A/THR pb. LVR CLB is flashing.

2

Move the THR levers to the CL detent.

A/THR ON Flight with A/THR.

NEXT

BACK

AP/FD AND A/THR MASTER TITLE STYLE ENGAGEMENT/DISENGAGEMENT

CLICK TO

EDIT

AP/FD – 2/2 Disengagement

PREV

A/THR ON

Flight with A/THR.

1

Move thrust levers to current thrust.

2

Press A/THR INSTINCTIVE DISC pb to disconnect the A/THR.

i

A/THR OFF

Flight with manual thrust.

BACK

AP/FD AND A/THR MASTER TITLE STYLE ENGAGEMENT/DISENGAGEMENT

CLICK TO

EDIT

Move thrust lever to current thrust

If the flight crew presses the instinctive disconnect pb on the thrust levers before they move the thrust levers to the current thrust setting, there is a risk of undue thrust increase.

BACK

EXIT

CLICK TO

EDIT MASTER TITLE STYLE CIRCLING

Approach Preparation: Primary F-PLN: Insert instrument approach, APPR PERF Page: insert MDA for circling, SEC F-PLN: Copy active F-PLN and revise landing runway.

A320/A330

Before FAF: Flaps 3, L/G down, F Speed.

i

Downwind: Set downwind track, Maintain visual (lateral distance, TRK), Activate SEC F-PLN, Disconnect AP and remove FD.

At MDA: i Maintain altitude, If visual references for circling • Turn 45°, • Fly for 30 sec from wings level. If visual references are not sufficient: GO AROUND initiate.

Abeam: Start chronometer, 3 sec/100 ft.

i

Base turn: Set runway track, Initial bank 25°, Maintain altitude.

Circling MDA 30 s

45 º

500 ft AGL stabilized

Threshold identified: Set landing CONF (FULL FLAPS, VAPP), Landing C/L.

XFTDN1CIRCLNG01 – OCT 2018

CLICK TO

EDIT MASTER TITLE STYLE CIRCLING BACK

APPROACH SPEED: F SPEED When landing FLAPS 3 is expected and inserted in the APPR PERF page (flight crew decision, failure with specific FLAPS setting, one engine out for A330),

F speed must be selected for approach. Speed will be managed again in final for landing to recover Vapp

APPROACH CONFIGURATION WITH ONE ENG INOP REFER TO QRH PROC:

CLICK TO

EDIT MASTER TITLE STYLE CIRCLING

LEVEL OFF AND FLY AT LEAST MDA With some anticipation: (altitude of anticipation is 10% of V/S in ft/min; e.g.: V/S: - 1000 ft/min > Anticipation: 100 ft).

A320: Push the V/S / FPA knob to level off. A330: Press the ALT pushbutton.

BACK

CLICK TO

EDIT MASTER TITLE STYLE CIRCLING

DOWNWIND LEG

• During circling, remember that the missed approach procedure is the one from the instrument approach. • When the secondary F-PLN is activated, the valid missed approach procedure is no longer available • In the case of a GO AROUND, fly the missed approach in SELECTED modes using the initial instrument approach chart (unless otherwise specified).

BACK

CLIDE LICKSTO EDIT MASTER TITLE G LOPE INTERCEPTION FROM STYLE ABOVE

EXIT

CLEARED to intercept LOC

CLEARED for ILS ARM APPR

Monitor G/S Interception

SOP

SOP

ARM LOC

3 2 1

When G/S* engages: Set go-around altitude.

Early stabilized approach:  L/G Down  Flaps FULL  VAPP.

A320/A330

1000 ft AAL A/C stabilized

XFTDN3GSABOVE01 – OCT 2018

CLICK CTO EDIT MILS ASTER TITLE STYLE LEAR FOR APPROACH Arm APPR.

Set FCU Altitude Above Aircraft altitude

G/S MODE ARMING When V/S mode is active, ensure that G/S mode is armed.

Otherwise, if you keep going with the V/S mode only, nothing will stop the descent.

i

Select V/S mode -1500 ft/min (-2000 ft/min max).

BACK

CLIDE LICKSTO EDIT MASTER TITLE G LOPE INTERCEPTION FROM STYLE ABOVE SETTING FCU ALTITUDE

If the FCU altitude is below A/C altitude,

arming APPR then selecting V/S mode can lead to ALT* engagement.

Set an FCU altitude above the A/C altitude to be sure V/S mode remains active.

BACK

CLICKMTO EDITG/S MASTER TITLE STYLE ONITOR INTERCEPTION

BACK

Monitor G/S interception with raw data.

When G/S*: Set go around altitude.

1000 ft AGL stabilized.

A320/A330

CLICK TO EDIT MASTER TITLE STYLE GROUND SPEED MINI F UNCTION Main principle of the ground speed minimum function.

i

Tower Wind: 330¨ / 20 kt CURRENT HEADWIND: 20 KT

HEADWIND INCREASES TO: 50 KT

HEADWIND DECREASES TO: 25 KT

i

i

i

1 330/20 kt

2

330/50 kt

3

330/25 kt

XFTDN40GSMINI01 – FEB 2019

CLICK TO EDIT MASTER TITLE STYLE GROUND SPEED MINI F UNCTION MAIN PRINCIPLE OF THE GROUND SPEED MINIMUM FUNCTION

BACK

GS mini concept has been defined to prevent the A/C energy from dropping below a minimum level during final approach. It is not displayed to the flight crew. Ground speed mini is available in managed speed mode only. It is active when the aircraft is in landing configuration.

IAS TARGET = Max [ VAPP, VAPP + Wind Difference ] (Current Headwind – TWR Headwind)

VAPP

+ Wind difference

IAS TARGET

Note: On A320neo aircraft, the computation of the IAS Target is modified, with only a third of the wind difference taken into account.

CLICK TO EDIT MASTER STYLE GROUND SPEED MINI FTITLE UNCTION CURRENT HEADWIND 20 KT

NEXT

Hypothesis: Landing on RWY 33, Tower wind 330° / 020kt, VLS = 133kt VAPP = 133 + 7 = 140 kt Gs mini = 140 – 20 = 120 kt

1 330/20 kt

IAS Target = Gs mini (120) + 20 = 140 kt

MANAGED SPEED

SELECTED SPEED

Ground speed mini function active

Ground speed mini function not active

Current GS = GS mini

BACK

CLICK TO EDIT MASTER STYLE GROUND SPEED MINI FTITLE UNCTION HEADWIND INCREASES TO 50 KT

PREV

NEXT

1 330/20 kt

2

IAS Target = Gs mini (120) + 50 = 170 kt

330/50 kt

MANAGED SPEED

SELECTED SPEED

Ground speed mini function active

Ground speed mini function not active

IAS target increases

Speed target unchanged

SPEED trend is going up

SPEED trend is going up

THR increases. Energy is kept

THR reduces to IDLE in order to match the target speed

Current GS = GS mini

GS does not change.

Current GS < GS mini

GS decreases.

BACK

CLICK TO EDIT MASTER STYLE GROUND SPEED MINI FTITLE UNCTION HEADWIND DECREASES TO 25 KT

PREV

IAS Target = Gs mini (120) + 25 = 145 kt

1 330/20 kt

2

330/50 kt

3

330/25 kt

MANAGED SPEED

SELECTED SPEED

Ground speed mini function active

Ground speed mini function not active

IAS target decreases

SPEED trend is going down

THR slightly decreases

Current GS = GS mini

A/C ENERGY REMAINS HIGH

Speed target unchanged

SPEED trend is going down

THR is initially low and increases slowly.

Current GS < GS mini

A/C ENERGY IS LOW

BACK

A320

HEAD-UP DISPLAY (HUD)

EXIT

HUD REMINDER

TAXI

TAKEOFF

APPROACH

ROLL OUT

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EFTDO_HUD_01 – A320 – OCT 2018

TAXI TYPICAL DISPLAY

NEXT

BACK

TAXI DECLUTTER DISPLAY

PREV

BACK

TAKEOFF

BACK

TYPICAL DISPLAY

TAKEOFF ROLL - ROTATION:  The yaw bar is displayed to show you any deviation from the runway centerline.  The tail strike symbol.  The offset pitch symbol is positioned 15 ° below the actual pitch attitude of the aircraft (12.5° in the case of an engine failure).

APPROACH

NEXT

TYPICAL DISPLAY

BARO 750

LS

N

BACK

APPROACH

PREV

DECLUTTER 1 MODE

BARO 750

LS

N D1

NEXT

BACK

APPROACH

PREV

DECLUTTER 2 MODE

LS

D1

NEXT

BACK

APPROACH

PREV

TYPICAL DISPLAY (IN CROSSWIND)

BARO 750

NEXT

BACK

APPROACH

PREV

X WIND DISPLAY

BARO 750

BACK

ROLLOUT TYPICAL DISPLAY

ROLLOUT The auto brake mode scale is displayed to show you the current aircraft deceleration. In this case MED braking mode is selected.

BACK

REMINDER

NEXT

BACK

ENERGY CHEVRONS

FPA

TOTAL FPA: AIRCRAFT ENERGY

ACCELERATION / DECELERATION

CHEVRONS ABOVE BIRD: THE AIRCRAFT ACCELERATES

CHEVRONS ALIGNED WITH BIRD: THE AIRCRAFT IS AT A CONSTANT SPEED AND THRUST

CHEVRONS BELOW BIRD: THE AIRCRAFT DECELERATES

REMINDER FLAG MESSAGES

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

WINDSHEAR

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

PULL UP

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

EXCESSIVE ATT

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

TCAS RA REVERT TO PFD

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

TCAS RA INHIBITED

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

TRK FPA DESELECTED

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

MAX BRAKING MAX REVERSE

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

RWY TOO SHORT

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

FOR GA: SET TOGA

PREV

NEXT

BACK

REMINDER FLAG MESSAGES

COMBINER UNLOCKED

PREV

BACK

A320/A330

CLICK TO EDIT MAW ASTER TITLE STYLE ILS R DATA ILS without AP and FD:

Fly an ILS Raw Data

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G/S Interception

LOC Interception

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XFTDN20ILSRAW01 – OCT 2018

CLICK TO MILS ASTER TO EDIT FLY AN RAWTITLE DATA STYLE

BACK

LATERAL RWY track  Select RWY Track on AFS CP.  When on the LOC, fly the Bird on the blue line.

VERTICAL  How to correct LOC deviation

i When on the glideslope, fly the Bird on the ILS FPA.

(e.g. -3°)

How to correct G/S deviation

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Intercepting the LOC course Depending on the angle of interception, you may start the interception as soon as the LOC is active.

NEXT

BACK

Intercepting the LOC course

PREV

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BACK

Intercepting the LOC course

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BACK

Intercepting the LOC course

PREV

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BACK

Intercepting the LOC course

PREV

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BACK

Intercepting the LOC course

PREV

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BACK

Intercepting the LOC course

PREV

NEXT

BACK

Intercepting the LOC course

PREV

NEXT

BACK

Intercepting the LOC course

PREV

BACK

Reaching Final Descent Point

NEXT

BACK

Reaching Final Descent Point

PREV

When ½ dot below the G/S, initiate the interception of the G/S by smoothly flying the Bird down to the glide path angle :

NEXT

BACK

Reaching Final Descent Point

PREV

NEXT

BACK

Reaching Final Descent Point

PREV

NEXT

BACK

Reaching Final Descent Point

PREV

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BACK

Reaching Final Descent Point

PREV

BACK

LOC deviation

NEXT

BACK

LOC deviation

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BACK

LOC deviation

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BACK

LOC deviation

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BACK

LOC deviation

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BACK

LOC deviation

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BACK

LOC deviation

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BACK

LOC deviation

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BACK

LOC deviation

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NEXT

BACK

LOC deviation

PREV

NEXT

BACK

LOC deviation

PREV

BACK

Check unwanted residual bank angle

Close to the ground avoid too large lateral corrections

CLICK TO EDIT ASTER TITLE STYLE GLIDEMDEVIATION In case of GLIDE deviation:

Apply the appropriate correction to the flight path angle:

Monitor GLIDE deviation:

When back on the GLIDE:

Resume the Bird on the appropriate path (e.g. -3°):

Close to the ground avoid too large pitch down corrections.

BACK

Low Visibility Operations

TAXI

A320/A330/A340/A350/A380

T.O

CLIMB

CRUISE

DESCENT

APPROACH

GO-AROUND

ROLLOUT TAXI All aircraft, except BXL

BXL only

XFSNB10000LVO00 – OCT 2022

TAXI-OUT & BEFORE T/O IN LVO

TAXI : ATC clearance confirmation

TAXI INITIATION

BEFORE TAKEOFF: down to the line actions

BEFORE TAKEOFF: below the line actions

Taxi When TAKEOFF clearance obtained :

GATE Pushback

“BELOW THE LINE”

“BEFORE TAKEOFF C/L”

Taxi

PF

TAXI-OUT & BEFORE T/O IN LVO

HEAD UP AT ALL TIMES .......................................... KEEP

TAXIWAY & RUNWAY CHART…………..KEEP AVAILABLE

PM

ANF / OANS if available (A350 and 380 only)............USE

TAXIWAY & RUNWAY CHART………..KEEP AVAILABLE TAXIWAY HEADINGS & UPCOMING TURNS ......ADVISE

GROUND SPEED................................................MONITOR

 Good crew coordination is essential. Avoid, during taxi: flight control checks, checklists and administrative work.  Never cross a red stop bar when lining up or crossing a runway, unless unambiguous clearance to cross has been received by ATC.  If unsure of position, the aircraft should be stopped and the parking brake set. ATC may provide assistance by use of ground radar or by sending a FOLLOW ME car.  Bear in mind that, whereas bright lights may be visible, unlit obstacles and aircraft extremities may not.

TAKEOFF

ANF / OANS (A350 and 380 only)...........USE

 Adapt taxi speed to the actual visibility  Advise PF if GS exceeds 10 knots

TAKEOFF

ALTERNATE

RVR

CHECKS

CREW INCAPACITATION

ROTATION

A Low Visibility takeoff (LVTO) is a takeoff where the runway visual range is less then 400 meters.

T.O

TAKEOFF: Takeoff Alternate

The commander should not commence take-off unless the weather conditions at the aerodrome of departure are equal to or better than applicable minima for landing at that aerodrome unless a weather-permissible take-off alternate aerodrome is available. (Refer to EASA AMC CAT Aerodrome operating minima).

A350 ≈ 400 NM

A320 ≈ 380 NM

A330 ≈ 390 NM

A340 ≈ 860 NM

A380 ≈ 890 NM

TAKEOFF : RVR

Takeoffs with an RVR below 150m but not less than 125m require that:  Low visibility procedures are in force  High intensity runway centerline lights, spaced 15m or less apart, and high intensity edge lights with a spaced of 60m or less apart that are in operation.  A 90m visual segment that is available from the flight crew compartment at the start of the take-off run; and  The required RVR value is achieved for all of the relevant RVR reporting points;

TAKEOFF: Checks Confirm that the line up is performed on the intended runway. Useful aids are:  The runway markings.  The runway lights, be careful that in low visibility, edge lights could be mixed up with the center line lights.  The ILS signal, If the runway is ILS equipped, the flight crew can press the ILS pb (or LS pb): The LOC deviation should be centered after line up.  The runway symbol on the ND,  The Runway Awareness and Advisory System.

BEFORE ENTERING RUNWAY

ONCE ALIGNED

TAKEOFF: Checks Confirm that the line up is performed on the intended runway. Useful aids are:  The runway markings.  The runway lights, be careful that in low visibility, edge lights could be mixed up with the center line lights.  The ILS signal, If the runway is ILS equipped, the flight crew can press the ILS pb (or LS pb): The LOC deviation should be centered after line up.  The runway symbol on the ND,  The Runway Awareness and Advisory System. Personal visibility/RVR assessment (Refer to EASA AMC and GM to Part-SPA Subpart E): • When no reported meteorological visibility or RVR is available, a personal assessment by the Captain may be used as a substitute. In this case takeoff may only be commenced if the Captain can determine that the RVR/visibility along the takeoff runway is equal to or better than the required minimum…

BEFORE ENTERING RUNWAY

ONCE ALIGNED

TAKEOFF: Crew Incapacitation PM: Be ready to take over

TAKEOFF: Rotation NORMAL ROTATION AS PER FCOM  At VR, initiate the rotation to achieve a continuous rotation with a rate of about 3 °/s, towards the correct pitch attitude.  Minimize the lateral inputs on ground and during the rotation, to avoid spoiler extension.  In strong crosswind conditions, small lateral stick inputs may be used, if necessary, to aim at maintaining wings level.  After lift-off, follow the SRS pitch command bar.

Type

A320

A330

A340

A350

A380

Target attitude all engines

15.0° SRS

15.0° SRS

12.5° SRS

12.5° SRS

12.5° SRS

Target attitude engine out

12.5° SRS

12.5° SRS

12.5° SRS

10° SRS

10° SRS

CM1

T/O IN LVO

CM2

ANNOUNCE………………..………….……….....”TAKEOFF” BRAKES………..…………………………..............RELEASE DIRECTIONNAL CONTROL…………………….....ENSURE

DIRECTIONNAL CONTROL………………….…MONITOR

THRUST LEVERS………………………….…..FLX or TOGA

CHRONO…………………………..….…………….....START

HEAD ..............................................................................UP

HEAD........................................................................DOWN

RUNWAY CENTERLINE ...................VISUALLY FOLLOW

YAW BAR/ILS .....................................................MONITOR DEVIATIONS ......................................................MONITOR

External visual references remain primary

 During takeoff, in RWY mode the PFD displays a yaw bar in green below 30 ft radio altitude (if the localizer signal is available).

CM1

T/O IN LVO

CM2

ANNOUNCE………………..………….……….....”TAKEOFF” BRAKES………..…………………………..............RELEASE DIRECTIONNAL CONTROL…………………….....ENSURE

DIRECTIONNAL CONTROL………………….…MONITOR

THRUST LEVERS………………………….…..FLX or TOGA

CHRONO…………………………..….…………….....START HEAD........................................................................DOWN

RUNWAY CENTERLINE ...................VISUALLY FOLLOW

 visual cues remain the primary means to track the runway centerline. the yaw bar provides an assistance in case of unexpected fog patches.

YAW BAR/ILS .....................................................MONITOR DEVIATIONS ......................................................MONITOR

External visual references remain primary

 During takeoff, in RWY mode the PFD displays a yaw bar in green below 30 ft radio altitude (if the localizer signal is available).

CM1

T/O IN LVO

CM2

ANNOUNCE………………..………….……….....”TAKEOFF” BRAKES………..…………………………..............RELEASE DIRECTIONNAL CONTROL…………………….....ENSURE

DIRECTIONNAL CONTROL………………….…MONITOR

THRUST LEVERS………………………….…..FLX or TOGA

CHRONO…………………………..….…………….....START

HEAD ..............................................................................UP

HEAD........................................................................DOWN

RUNWAY CENTERLINE ...................VISUALLY FOLLOW

YAW BAR/ILS .....................................................MONITOR DEVIATIONS ......................................................MONITOR

 CM2 must call out any lateral deviation.

External visual references remain primary

 During takeoff, in RWY mode the PFD displays a yaw bar in green below 30 ft radio altitude (if the localizer signal is available).

APPROACH PREPARATION

LOW VISIBILITY OPERATIONS

LVO

AIRPORT

CREW

A/C

CAPABILITY

FACILITIES

CAPABILITY

CAPABILITY

Preparation: 

Verify weather conditions



Check crew qualification



Check aircraft technical status



Check airport status Evaluate downgrading options



Check diversion options



Fuel pred extra time for holding

Briefing in accordance with A/L policy: 

Requirements for LVO (Aircraft, Crew, Airport)



Normal ILS Briefing



Detailed taxi-in routing and cues.



Task sharing and callouts



Go Around policy in case of failure

APPROACH

INTERMEDIATE APPR

FINAL APPR

“Callouts” 1000 ft 400 ft 350 ft 200 ft AH FLARE RETARD

FAF

APPROACH

INTERMEDIATE APPR

FINAL APPR

“Callouts” 1000 ft

Abnormals during final approach:

Failure above 1000 ft AAL: 400 ft

Failure below 1000 ft AAL:

Approach may be continued if:

350 ft

Approach may be continued if:

• All ECAM actions are performed

• The pilot has the runway in sight and

• Weather permits

ft of failure does not affect the • The200 type

• Briefing and DH are updated and

landing performance. 100 ft

• Aircraft is stabilized before 1000 ft AAL. Alert Otherwise, GO-AROUND. Height Note: This does not impair the emergency authority of the commander. FAF

FLARE RETARD

APPROACH

INTERMEDIATE APPR

FINAL APPR

LAND MODE…………CHECK

“Callouts” 1000 ft 400 ft 350 ftmode not available  Go around If LAND 200 ft • LAND mode to be checked (called out): If not available  Go around. 100 ft • ILS course on PFD to be in agreement Alert with published figure. Height If not in agreement  Go around. FAF

FLARE RETARD

APPROACH ILS COURSE…………CHECK INTERMEDIATE APPR

FINAL APPR

If ILS course not in agreement  Go around “Callouts” 1000 ft 400 ft 350 ft 200 ft • LAND mode to be checked (called out): If not available  Go around. 100 ft • ILS course on PFD to be in agreement Alert with published figure. Height If not in agreement  Go around. FAF

FLARE RETARD

APPROACH

INTERMEDIATE APPR

FINAL APPR

“Callouts” 1000 ft 400 ft

Major differences to conventional ILS approach start below 400 ft.

350 ft Importance of CM2 especially below 400 ft. He has to check:

200 ft

• The flight path and the Autoflight modes • Call deviations • Takeover in case of incapacitation of CM1. Alert Height FAF

100 ft FLARE RETARD

APPROACH

INTERMEDIATE APPR

FINAL APPR

“Callouts” 1000 ft 400 ft 350 ft 200 ft • LAND mode to be checked (called out): If not available  Go around. 100 ft • ILS course on PFD to be in agreement Alert with published figure. Height If not in agreement  Go around. FAF

FLARE RETARD

APPROACH

INTERMEDIATE APPR

FINAL APPR

“Callouts” 1000 ft 400 ft 350 ft 200 ft 100 ft AUTOLAND warning light is active below 200 ft. FLARE • A Go Around Alert must be performed unless the visual references RETARD are sufficientHeight for a manual landing. Note: At least one AUTOLAND warning light is required for FAF

CAT 2 and CAT 3 approaches.

APPROACH

INTERMEDIATE APPR

FINAL APPR

“Callouts” 1000 ft 400 ft 350 ft 200 ft Alert Height (AH)

100 ft AH

For CAT 3 without DH approach: Alert Height • CONTINUE callout at Alert Height if no failure is FAF

detected (irrespective of visual conditions).

FLARE RETARD

APPROACH

INTERMEDIATE APPR

FINAL APPR

Alert Height • For CAT 3 only • Not displayed in the cockpit

“Callouts”

• Above this height, a CAT 3 autoland would be discontinued 1000 approach ft and a missed executed if an element of the CAT 3 fail operational systems fails.

400 ft • Below the alert height, with same failures, the aircraft is capable of continuing to a successful landing 350 (e.g.ftengine failure below alert height), unless autoland light comes on 200 ft

100 ft for A320 200 ft for A330/A340/A350/A380

Alert Height (AH)

AH FLARE RETARD

FAF

APPROACH

INTERMEDIATE APPR

FINAL APPR

“Callouts” 1000 ft 400 ft 350 ft 200 ft AH FLARE mode to be checked and announced by CM2. For FMA, click here… FAF

FLARE RETARD

APPROACH

INTERMEDIATE APPR

FINAL APPR

“Callouts” 1000 ft 400 ft 350 ft FLARE mode…………CHECK 200 ft 100 ft FLARE mode to be checked Alert and announced by CM2. Height For FMA, click here… FAF

FLARE RETARD

APPROACH

INTERMEDIATE APPR

FINAL APPR

“Callouts” 1000 ft 400 ft 350 ft 200 ft AH FLARE RETARD auto callout (RETARD both thrust levers to IDLE): Alert • In manual landing RETARD is a REMINDER Height FAF

• In autoland with A/THR, RETARD is an ORDER. (no retard of thrust levers before RETARD call)

RETARD

APPROACH CALLOUTS – AUTOLAND APPROACH PF PM

"LDG C/L"

“LDG C/L complete"

"LAND"

“CHECKED"

"CONTINUE" or “CHECKED" "GO AROUND FLAPS" Monitor

Monitor

“ONE HUNDRED ABOVE"

"MINIMUM"

“CHECKED"

“FLARE"

“ROLL OUT" "REVERSE GREEN" “60/70 KT" "SPOILERS"

350 ft AUTO CALLOUT "RETARD"

DH + 100 ft DH*

*In CAT III B operation, for the decision to CONTINUE or GO AROUND, the Alert Height replaces the DH.

40 ft 10 ft Touchdown

"DECEL"

GO-AROUND LOW GO-AROUND  AIRCRAFT TOUCHES THE RUNWAY Case 1 - TOGA IS APPLIED BEFORE TOUCH DOWN • The G/A phase will not be disturbed even when the aircraft touches the runway • Modes stay the same, spoilers will not extend • AP remains engaged.

TOGA

Case 2 - TOGA IS APPLIED AFTER TOUCH DOWN: • TOGA thrust applied  CONFIG warning if CONF FULL • AP disengages • Retract L/G when positive rate of climb and no risk of further touch down • Climb out as for standard go-around • If reverse thrust already applied, full stop landing must be completed.

TOGA

ROLLOUT and TAXI-IN All aircraft, except BXL

Three things have to be done manually in autoland: • Retard THR LEVERS when ordered • Select REVERSERS when main wheels touch down • Disconnect APs at the end of Rollout...

Taxi

GATE

Taxi

ROLLOUT and TAXI-IN

BXL only

Three things have to be done manually in autoland: • Retard THR LEVERS when ordered • Select REVERSERS when main wheels touch down • Below 70kt, ensure directional control. Note: The AP will automatically disconnect at 70 kt ground speed.

Taxi

GATE

Taxi

EXIT

A320/A330

CLICK TO EDIT MASTER TITLE STYLE NORMAL LAW PROTECTIONS

LOAD FACTOR PROTECTION

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PITCH ATTITUDE PROTECTION

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BANK ANGLE PROTECTION

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HIGH SPEED PROTECTIONS

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LOW SPEED PROTECTIONS

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XFTDN1000PROT01 – OCT 2018

CLICK LTO EDIT MASTER TITLE STYLE OAD FACTOR PROTECTION

BACK

MIN “G” LOAD: • Slats retracted: -1.0 g • Slats extended: 0 g

MAX “G” LOAD: • Slats retracted: +2.5 g • Slats extended: +2.0 g

Note: Amber “G LOAD” is only displayed when above 1.4 g and below 0.7 g.

CLICKPTO MASTER TITLE STYLE ITCHEDIT ATTITUDE PROTECTION PITCH UP LIMIT

Pitch is limited to 30° nose-up, progressively reduced to 25° at low speed.

PITCH DOWN LIMIT

Pitch is limited to 15° nose-down.

BACK

CLICK TO EDIT MASTER TITLE STYLE BANK ANGLE PROTECTION 0° 33°

67°

Bank angle maintained with stick neutral

Above 33°, side stick inputs are needed to maintain bank angle and altitude. If the side stick is released, the bank angle reduces automatically to 33°.

33°

Auto Pitch Trim

67°

Turn coordination is provided within the envelope. Do not use rudder in Normal Law (except for takeoff, landing and single engine operation).

BANK ANGLE LIMIT Bank angle is limited to 67°.

BACK

CLICK TOSEDIT ASTER TITLE STYLE HIGH PEED M PROTECTION (HSP) Stick full forward

BACK

XXX

Stick free

The aircraft flies back towards the envelope

VMO

XXX

VMO XXX

VMO + 4 kt MMO + 0.006

VMO

CRC

XXX

VMO + 6 k t (A320) VMO + 4k t (A330) HSP activates

XXX VMO VMO

• • • • •

A320 – High Speed Protection AP disconnects (VMO+15kt, MMO +0.04), THS limited between the setting at entry into the protection and 11° nose-up, Bank angle limited to 40°, Bank angle reduces to 0° when sidestick is released, Permanent nose-up order is applied

• • • • •

A330 – High Speed Protection AP disconnects (VMO+12kt, MMO+0.03), Pitch trim is frozen Bank angle limited to 45°, Bank angle reduces to 0° when sidestick is released, Permanent nose-up order is applied.

Pitch nose-down Authority reduced to zero

CLICK TO EDIT MASTER TITLE LOW SPEED PROTECTION Stick full back

STYLE

BACK

The High Angle of Attack (AOA) protection has priority over all other protections.

Stick free

Alpha Floor

VLS The lowest speed that the A/THR maintains, if engaged.

VαPROT Alpha Prot activates.

V αPROT is maintained.

Alpha Prot activation: • AP Disconnects, • Sidestick directly commands the AOA without exceeding αMAX, • Speedbrakes, if deployed, retract automatically, • Bank limited to 45°

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VαMAX

VαMAX is maintained.

CLICK TO EDIT MASTER TITLE LOW SPEED PROTECTION ALPHA FLOOR

STYLE BACK

Vα FLOOR αFLOOR automatically commands TOGA thrust.

When the aircraft leaves

αFLOOR

conditions, TOGA thrust is locked.

TOGA thrust, if maintained with an undue speed increase, may lead to overspeed. Disconnect the A/THR, and exit TOGA LK.

When applicable, re-engage the A/THR.

A320/A330

CLICK TO EDIT ASTER USEMOF BIRDTITLE STYLE FLIGHT PATH VECTOR PRESENTATION i

“ BIRD ON ”

XFTDN2000BIRD01 – OCT 2018

CLICK TOFPV EDITPM ASTER TITLE STYLE RESENTATION

PITCH

FPA

HDG

VERTICAL FUNCTIONS

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LATERAL FUNCTIONS

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TRK

BACK

CLICK TOFPV EDITPM ASTER TITLE STYLE RESENTATION VERTICAL FUNCTIONS

PITCH: +6¨

FPA: 0¨

Top of descent PITCH: +3¨

FPA: -3¨ The Bird is designed to facilitate the approach with a -3° FPA. When established on a -3° descent path, the top of the Bird symbol touches the horizon line.

BACK

CLICK TOFPV EDITPM ASTER TITLE STYLE RESENTATION LATERAL FUNCTIONS

Current HDG = 325¨ Current TRK = 325¨

Current HDG = 325¨ Current TRK = 330°

WIND

Turn left for correction.

BACK

Current HDG = 320¨ Current TRK = 325¨

WIND

A320/A330

CLICK TO V EDIT MASTER TITLE STYLE ISUAL PATTERN

VISUAL CIRCUIT

LONG FINAL APPROACH

DOWNWIND LEG

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Remember: During a visual pattern, look outside.

XFTDN1VISUPAT01 – Oct 2022

VISUAL CLICK TO EDIT MASTER TITLE STYLE VISUAL PCIRCUIT ATTERN

BACK

“Activate Approach phase” “Manage speed” “FDs OFF” “BIRD ON” “Set downwind track” when necessary “Approach checklist” DOWNWIND LEG

ABEAM THRESHOLD

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“ Set downwind heading ”

1500 ft/AAL

“ Flaps 1 ” “Pull S Speed ” “Speed, Auto thrust ”

10 s before turning final: “ FLAPS 2 ” “ Pull HDG”

3 s before turning final: “ Set runway track ”

“ Gear down ”

Initiate a shallow descent

“ FLAPS 3 ”

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When lined up: • Set circuit ALT on FCU • Preset RWY HDG on FCU

“ FLAPS FULL ” “ Landing checklist ”

500 ft/AAL Stabilized with FLAPS FULL at VAPP

CLICK TO EDIT MASTER TITLE STYLE VISUAL PATTERN DOWNWIND LEG

BACK

Entering downwind leg: • Check RWY positioning (2.5 nm) with ND settings: ROSE NAV mode and range 10 Nm.

Use the dotted arcs of the ND range to monitor the runway position versus the aircraft track.

CLICK TO EDIT MASTER TITLE STYLE VISUAL PATTERN BACK

ABEAM THRESHOLD

 Extend the downwind leg by 3 s per 100 ft above airfield level (e.g.: 45 s for 1500 ft)  Wind correction: +/- 1 s per 1 kt of headwind / downwind component

Example:

Compare TAS and GS: –

= – 9 kt (tailwind)

Wind correction = – 9 s 36 s

In this example, the downwind leg extension will be: 45 s – 9 s = 36 s

CLICK TO EDIT MASTER TITLE STYLE VISUAL PATTERN INITIATE A SHALLOW DESCENT

Initiate a shallow descent while turning to reach the profile

BACK

CLICK TO EDIT MASTER TITLE STYLE VISUAL ATTERN LONGP FINAL ENERGY CIRCLE

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“ Activate Approach phase ”

'‘ FLAPS 1 ”

“ FLAPS 2 ” “ Set runway track ” “ Gear down ” “ FLAPS 3 ”

1500 ft/AAL

“ FLAPS FULL ” “ Landing checklist ”

500 ft/AAL Stabilized with FLAPS FULL at VAPP

Around 5 NM

BACK

CLICK TO EDIT MASTER TITLE STYLE VISUAL PATTERN

ENERGY CIRCLE

In HDG or TRK mode, the ENERGY CIRCLE represents the required distance to land from the aircraft altitude down to the airport elevation, taking into account the deceleration down to VAPP.

BACK

CLICK TO EDIT M ASTER TITLE STYLE VISUAL P ATTERN DOWNWIND LEG “AP OFF” “FDs OFF” “BIRD ON” “Set downwind track” when necessary “Activate Approach Phase” “Manage speed” when necessary “Approach checklist”

“ FLAPS 1 ”

1500 ft/AAL

10 s before turning final: “ FLAPS 2 ” “ Set runway track ”

“ Gear down ”

Initiate a shallow descent

“ FLAPS 3 ”

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“ FLAPS FULL ” “ Landing checklist ”

500 ft/AAL Stabilized with FLAPS FULL at VAPP

BACK

CLICK TO EDIT MASTER TITLE STYLE VISUAL PATTERN INITIATE A SHALLOW DESCENT Initiate a shallow descent while turning to reach the profile

BACK

A320/A330

LICK TO EDIT MASTERMTITLE STYLE ACBNORMAL OPERATION ANAGEMENT MEMORY ITEMS or OEB immediate actions

ECAM (SENSED PROC)

NOT SENSED PROC

DETECTION

DETECTION

PROC

PROC

OEB?

OEB?

DETECTION PROC YES

NO

YES

ECAM ACTIONS ECAM PROCEDURE Apply OEB (Read and do QRH)

PROC SYSTEM DISPLAY PROC

Apply OEB (Read and do QRH)

NO

Refer to QRH Abnormal procedure i

STATUS PROC

ASSESS THE SITUATION PROC

XFTDN6ECAM00001 – OCT 2022

DETECTION CLICK TO EDIT MASTER TITLE STYLE PF

MEMORY ITEMS

PM

When immediate crew reaction is necessary to avoid an imminent threat: ANNOUNCE……………………APPROPRIATE CALLOUT e.g. ”EMERGENCY DESCENT” Refer to FCOM for the list of Memory Items and associated Callouts.

BACK

DETECTION CLICK TO EDIT MASTER TITLE STYLE PF

ECAM (SENSED PROC)

PM

First pilot who notices MASTER WARNING / MASTER CAUTION: MASTER WARNING / MASTER CAUTION …..………… RESET TITLE OF FAILURE…………………………….…...…ANNOUNCE or, ADVISORY

GOLDEN RULE #1

Fly

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,Navigate, Communicate.

BACK

CLICK TO EDITAM ASTER TITLE STYLE DVISORY PF

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PM First pilot who notices an ADVISORY: “ ADVISORY ON (TITLE on SD page) SYSTEM ” SYSTEM PAGE DISPLAYED………...…..….……ANALYZE DRIFTING PARAMETER………........……………MONITOR

ECAM ADVISORY CONDITIONS ON QRH....…REQUEST ECAM Advisory conditions ………………….…....CHECK RECOMMENDED ACTIONS.……..………………….APPLY

DETECTION CLICK TO EDIT MASTER TITLE STYLE ECAM (SENSED PROC) FLY

 You should stabilize the aircraft on a safe trajectory before performing any READ & DO actions.  For takeoff and go-around, you should delay READ & DO actions until the aircraft reaches 400 ft AAL.

BACK

CLICK TOECAM EDIT M TITLE STYLE PASTER ROCEDURE PF

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PM For each ECAM procedure: ECAM..…….....CONFIRM with SD page and OVHD panel

“ ECAM ACTIONS ”

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Apply the Tasksharing for Abnormal Operations: FLY

MONITOR: FLY, NAVIGATE, COMMUNICATE

NAVIGATE COMMUNICATE ECAM.…………………...………………………….PERFORM “ CLEAR (name of SYSTEM)? ” ECAM ACTIONS PERFORMED ……………...…… CHECK “ CLEAR (name of SYSTEM) ”

CLR pb……………………….…………………..……..PRESS

Actions to be confirmed by both pilots: i

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CLICK TOECAM EDIT M TITLE STYLE PASTER ROCEDURE

HOW TO STOP ECAM ACTIONS…

 The PF can call out “STOP ECAM” at any time, if others specific actions must be performed.  When the action is completed, the PF must call out: “CONTINUE ECAM”.

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CLICK TOECAM EDIT M TITLE STYLE PASTER ROCEDURE

ECAM ACTIONS ……. PERFORM When ECAM actions request: “ X ” PROC ……..…. APPLY  Stop ECAM actions.  Refer to the QRH, and  Perform the related procedure.  Continue ECAM ACTIONS when QRH procedure is completed.

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CLICK TOECAM EDIT MPASTER TITLE STYLE ROCEDURE ACTIONS TO BE CONFIRMED BY BOTH PILOTS In flight, the PF and PM must crosscheck before any action on guarded controls, ENG MASTER sw, IR, computer reset or thrust levers. This doesn’t apply when on ground.

PM action……PF confirmation

PF action……PM confirmation

ENG MASTER sw

Any guarded controls

Thrust levers

IR mode rotary knob or IR pb sw

Computer reset

PM

PF

READ ON E/WD……..….. “ ENGINE MASTER 1 OFF ” Hand on related control: RELATED CONTROL………………….….…CHECK ANSWER.…….…. “ ENG MASTER 1 CONFIRM ”

REQUEST………….“ CONFIRM ENG MASTER 1 ? ” ACTION……………………………………….PERFORM

BACK

CLICK TO EDIT MASTER TITLE STYLE SYSTEM DISPLAY PF

BACK

PM For each System Display (SD) page: SYSTEM DISPLAY (SD) page ………………….. ANALYZE

“ CLEAR (name of SYS)? ” “ CLEAR (name of SYS) ” CLR pb ………………………….………………..… PRESS

Repeat the same sequence for each secondary failure displayed on the ECAM SD page.

PM: “CLEAR FLIGHT CONTROL?” PF: “CLEAR FLIGHT CONTROL”

CLICK TO EDIT SMTATUS ASTER TITLE STYLE PF

BACK

PM When the STATUS page appears: “ STATUS ”

“ STOP ECAM ” ECAM ACTIONS …………………………………….… STOP

Consider ACCELERATION flow pattern, any System or Computer reset or Engine relight, as applicable. “ CONTINUE ECAM ” STATUS ………………………………………………… READ

“ REMOVE STATUS? ” “ REMOVE STATUS ” STS pb ……………………….…….…………..…… PRESS “ ECAM ACTIONS COMPLETE ” Apply the tasksharing for Normal Operations

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CLICK TO EDIT SMTATUS ASTER TITLE STYLE STATUS… READ

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Limitations

Deferred PROC

INOP systems

Information

When the STATUS page mentions: “X” PROC. . . . . . . . . . APPLY or INCREASED FUEL CONSUMP … continue reading all the STATUS page, and when ECAM actions are completed, refer to the QRH, and perform the related or appropriate procedure.

DETECTION CLICK TO EDIT MASTER TITLE STYLE PF

NOT SENSED PROC

PM

First pilot who notices a system defect or an abnormal situation without ECAM alert (e.g.: SMOKE SMELLING, SCREEN FAILURE, …) should advise the other crew clearly.

GOLDEN RULE #1

Fly, Navigate, Communicate.

BACK

CLICK TO EDIT MASTER TITLE STYLE REFER TO QRH PF

BACK

PM

“XXX PROC” Apply the tasksharing for Abnormal Operations: FLY

MONITOR: FLY, NAVIGATE, COMMUNICATE

NAVIGATE COMMUNICATE APPROPRIATE QRH PROC……………IDENTIFY & PERFORM “XXX PROC Completed”

Apply the tasksharing for Normal Operations

LICK TO EDIT MASTERMTITLE STYLE ACBNORMAL OPERATION ANAGEMENT SITUATION ASSESSEMENT

BACK

Taking into account:

Limitations

Fuel Management

LAND ASAP

Weather

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OPS & Commercial consideration

Landing Performances

DECISION

Notify:

ATC

CREW / PAX

OPS

...

LICK TO EDIT MASTERMANAGEMENT TITLE STYLE ACBNORMAL OPERATION

LAND ASAP

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 LAND ASAP: Land as soon as possible at the nearest airport at which a safe landing can be made. Note: LAND ASAP information is applicable to a time critical situation.

 LAND ASAP: Consider landing at the nearest suitable airport. Note: The suitability criteria should be defined in accordance with the Operator’s policy.

EXIT

CLICKUTO ASTER TITLE SEEDIT OF SM UMMARY – 1/3STYLE NEXT

Purpose of summary  To be used in the event of severe and complex failures (DUAL HYD or EMER ELEC CONFIG),  Helps the flight crew to perform actions in a phase related chronological order,  Highlights the main system defects, limitations and flight capability of the aircraft.

A320/A330

XFTDN1USESUMM01 – OCT 2018

CLICKUTO ASTER TITLE SEEDIT OF SM UMMARY – 2/3STYLE PREV

EMER ELEC CONFIG

DUAL HYD FAILURE

ECAM ACTIONS

QRH SUMMARY i

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CLICKUTO ASTER TITLE SEEDIT OF SM UMMARY – 2/3STYLE SUMMARY

CRUISE

BACK

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APPROACH

LANDING

GO-AROUND

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CLICKUTO ASTER TITLE SEEDIT OF SM UMMARY – 2/3STYLE

CRUISE SECTION

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 When “ECAM ACTIONS COMPLETED” refer to summary cruise section.

 Cruise section contains: • Main limitations, • Flight capability of the aircraft, • Highlights of the remaining systems (for ELEC EMER CONFIG only).  It is designed for situation assessment to ease decision making.

CLICKUTO ASTER TITLE SEEDIT OF SM UMMARY – 2/3STYLE

APPROACH / LANDING / GO-AROUND SECTIONS

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 To be used to: • Support approach preparation, • Support approach briefing, • Perform the approach.

 Contains paper procedures, that the flight crew must apply during the corresponding phases (e.g. LANDING WITH SLATS or FLAPS JAMMED procedure).

CLICKUTO ASTER TITLE SEEDIT OF SM UMMARY – 3/3STYLE PREV

How to use the SUMMARY? SITUATION ASSESSMENT WHEN ECAM ACTIONS COMPLETED

CRUISE SECTION.

2

APPROACH PREPARATION AND BRIEFING

REVIEW OF STATUS + APPR / LDG / GA SECTIONS + FMGS

3

PERFORMING APPROACH

APPLY APPROACH SECTION (READ AND DO).

1

4

ONCE AIRCRAFT IN LANDING CONFIGURATION.

REVIEW LDG AND GA SECTIONS + Check on ECAM STATUS that all APPR PROC actions are completed.

CLICK A TO MASTER TITLE STYLE LLEDIT ENGINE FLAMEOUT GOLDEN RULE #1

Fly, Navigate, Communicate.

A320: ENG ALL ENGINES FAILURE

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A330: i

A330: ENG ALL ENG FLAME OUT

“ ECAM ACTIONS ”

 RAT: Automatic deployment

A320:

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 Alternate law: Protections lost

A320/A330

PROC

FL 250

APU…….START

OPTIMUM SPEED: GREEN DOT

FL 200

APU BLEED………..………...ON PROC

XFTDA1ALENGFO01 – APR 2021

CLICK A TO MASTER TITLE STYLE LLEDIT ENGINE FLAMEOUT FLY: LOSS OF AP, ATHR  Maintain the optimum relight speed as requested by ECAM,  RAT is extended - EMER GEN is available,  The crew can operate the aircraft with: • Flight controls: Manual flight - ALTN law until L/G down, • Instruments:  PFD1 (remove FD flag, consider FPV),  ND1,  ECAM upper display,  Standby instruments.

NAVIGATE: LAND ASAP COMMUNICATE: Use VHF1 for MAYDAY message.

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CLICK A TO MASTER TITLE STYLE LLEDIT ENGINE FLAMEOUT FLY: LOSS OF AP, ATHR  Maintain the optimum relight speed as requested by ECAM,  RAT is extended - EMER GEN is available,  The crew can operate the aircraft with: • Flight controls: Manual flight - ALTN law until L/G down, • Instruments:  PFD1 (remove FD flag, consider FPV),  ECAM upper display,  Standby instruments.

NAVIGATE: LAND ASAP COMMUNICATE: Use VHF1 for MAYDAY message.

BACK

CLICK TO EDIT MASTER TITLE STYLE ALL ENGINE FLAMEOUT ECAM PROCEDURE

BACK

When the ECAM requests:

A320:

ALL ENG FAIL PROC. . . . . APPLY

A330:

ENG / FUEL PROC. . . . . APPLY (If fuel remains)

Refer immediately to the eQRH / ABN:

A320:

ALL ENG FAIL

A330:

ENG ALL ENG FLAMEOUT – FUEL REMAINING

CLICK TO EEDIT MASTER TITLE STYLE NG RELIGHT – 1/2

A320: APPROACHING OR BELOW THE ALTITUDE NOTIFIED BY THE eQRH PROCEDURE: A330: AS SOON AS POSSIBLE AND UNTIL APU BLEED IS AVAILABLE: ATTEMPT WINDMILL RELIGHT

RELIGHT SEQUENCE CAN BE REPEATED UNTIL SUCCESSFUL OR UNTIL APU BLEED IS AVAILABLE i

BACK

CLICK TO EEDIT MASTER TITLE STYLE NG RELIGHT – 1/2 BACK

No relight: all ENG masters OFF Start chronometer

30 seconds later: All ENG masters ON

Check engine parameters.If no relight:

30 seconds later: All ENG masters OFF

30 seconds later: Repeat process…

After a successful start, use the restored engine ASAP.

CLICK TO EEDIT MASTER TITLE STYLE NG RELIGHT – 2/2

BELOW FL 200 AND WHEN APU BLEED IS AVAILABLE: ATTEMPT STARTER ASSISTED RELIGHT

NEW RELIGHT SEQUENCE (ONE ENGINE AT A TIME) i

BACK

CLICK TO EEDIT MASTER TITLE STYLE NG RELIGHT – 2/2 BACK

From all ENG masters OFF Restart chronometer

30 seconds later: One ENG master ON at a time

Check engine parameter. If no relight:

30 seconds later: ENG master OFF Other ENG master ON

30 seconds later: repeat process…

After a successful start, use the restored engine ASAP.

A320

EXIT

CLICK TO Dual EDIT FMGC MASTER Failure TITLE

STYLE

NORMAL mode:

FMGC 1

FMGC 2

FADEC

MCDU 1

MCDU 2

THRUST LEVERS

FMGC 1 FAILURE i

DUAL FMGC FAILURE

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NAV B/UP PROC

EFTDA1DUALFM001 – A320 – OCT 2018

CLICK TO EDIT MASTER TITLE FMGC 1 FAILURE PF

STYLE

BACK

PM DETECTION

GOLDEN RULE #1

GOLDEN RULE #2

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Fly, Navigate, Communicate.

Use the appropriate level of automation at all times.

 SINGLE mode. The system automatically selects this degraded mode when one FMGC fails:

Computer Reset

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CLICK TO EDIT MASTER TITLE FMGC 1AIRCRAFT FAILURE FLY THE  Loss of AP1 and FD1 (AP, FD of the affected side).

 Engage AP2.

STYLE

NEXT

BACK

CLICK TO EDIT MASTER TITLE FMGC 1 FAILURE NAVIGATE

STYLE

ND1

PREV

BACK

ND1

 Select the same range and mode on both NDs:

OFFSIDE FM CONTROL

SET OFFSIDE RNG/MODE

OFFSIDE FM CONTROL

SET OFFSIDE RNG/MODE

 The MCDU of the failed side reverts to the MCDU MENU page,

MCDU MENU SELECT

< FMGC (REQ)

NAV B/UP >

for flight crew awareness. < CMS

SELECT DESIRED SYSTEM

 At this stage the healthy FM is in force, you can exit MCDU MENU by selecting any MCDU page.

OPP FMGC IN PROCESS

CLICK TO EDIT MASTER TITLE FMGC 1 FAILURE

STYLE

SINGLE MODE

FMGC 1

BACK

FMGC 2

FADEC MCDU 1

MCDU 2

THRUST LEVERS

CLICK TODEDIT MASTER TITLE UAL FMGC FAILURE PF

STYLE

PM

FMGC Auto-Reset

DETECTION GOLDEN RULE #1 GOLDEN RULE #2

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Fly, Navigate, Communicate.

Use the appropriate level of automation at all times. When the ECAM is confirmed: When the ECAM is confirmed:

ECAM / OEB ACTIONS Apply the Tasksharing for Abnormal Operations

ECAM PROCEDURE SYSTEM DISPAY Computer Reset

STATUS

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BACK

CLICK TODEDIT MASTER TITLE UAL FMGC FAILURE FLY THE AIRCRAFT

 Loss of AP/FD and A/THR.  Remove FD flag (FDs…..OFF).  Use the bird (FPV) (TRK/FPA…. SELECT). THR LK

Single Chime (every 5 sec)

 THR LK: Read N1, then move the thrust levers (

) accordingly.

STYLE NEXT

BACK

CLICK TODEDIT MASTER TITLE UAL FMGC FAILURE

STYLE

NAVIGATE

PREV

 Tune NAVAIDs using the RMP:

 Both NDs display:

MCDU MENU SELECT

NAV B/UP >

 Both MCDUs revert to the MCDU MENU page: < CMS

SELECT DESIRED SYSTEM

BACK

CLICK TODEDIT MASTER TITLE UAL FMGC FAILURE

STYLE

COMPUTER RESET

 A recovery may result in the loss of all pilot-entered data (F-PLN, GW, CRZ FL, CI…). In that case: •

Deselect standby NAV on RMPs (but ILS and ADF must be tuned manually).



Select the initial database.



Select DIR TO and define DESTINATION.



Enter GW (FUEL PRED page).



Enter CRZ FL (PROG page).



Enter CI (PERF page).



Set Landing Elevation selector to AUTO.

BACK

CLICK TO EDIT ASTER TITLE NAV M B/UP MODE

STYLE

PF

PM

If the resets of both FMGCs are unsuccessful, use the back-up navigation degraded mode: NAV B/UP …………..… SELECT on both MCDU MENU pages

 The MCDU continuously memorizes the active F-PLN in its internal memory. Selecting NAV B/UP enables the recovery of the Flight Plan from this memory. In this case:  The pilot recovers the navigation function through the MCDU and ADIRS.  F-PLN display is available on the ND.  No crosstalk between MCDUs: F-PLN revisions have to be achieved on both MCDUs.  The MCDU’s NAV B/UP mode provides the following functions: • • • • •

B/UP F-PLN with auto-sequencing and limited lateral revision. B/UP F-PLN for DIR TO. B/UP PROG page. B/UP IRS (aircraft position using onside IRS or IRS 3). B/UP GPS page (option). FMGC1

MCDU 1 BACK UP NAV

FMGC2

MCDU 2 BACK UP NAV

BACK

CLICK TO EDITEGPWS MASTER TITLE STYLE MEMORY ITEM

GPWS BASIC FUNCTIONS

EGPWS ENHANCED FUNCTIONS

DURING THE FLIGHT

CAUTION ALERTS

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PROC

PROC

A320/A330

WARNING ALERTS PROC

Air Data Radio Altitude

GPWS Radio altitude alerts

GPS data Air Data Radio Altitude Baro Altitude

Terrain and Obstacle database Geometric altitude alerts

EGPWS

Aircraft Position Airport database

0 5 5 0 1 3

T E R R A H E A D

XFTDO3_EGPWS_01 – AUG 2019

CLICK TO EDITBASIC MASTER TITLE STYLE GPWS FUNCTIONS

 The GPWS warns the crew of a potential Controlled Flight Into Terrain (CFIT).  Main functions: 1 - Excessive rate of descent.

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2 - Excessive terrain closure rate.

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3 - Altitude loss after TO or GA.

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4 - Unsafe terrain clearance.

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5 - Excessive deviation below G/S.

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CLICK TO EDITBASIC MASTER TITLE STYLE GPWS FUNCTIONS MODE 1:

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EXCESSIVE RATE OF DESCENT  Warns that the A/C descent rate, with respect to altitude AGL, is excessive.  Available in all flight phases.

“Sink rate, sink rate”

Then:

“Pull up”

CLICK TO EDITBASIC MASTER TITLE STYLE GPWS FUNCTIONS MODE 2:

BACK

EXCESSIVE TERRAIN CLOSURE RATE  Warns the pilot of rapidly rising terrain or obstacle with respect to the A/C speed, the configuration and the Radio Altitude rate of change.

“Terrain Terrain”

“Too low Terrain”

“Obstacle Ahead”

“Terrain Ahead”

 Then, after it has been repeated twice…

“Pull up”

“Terrain Ahead”

“Obstacle Ahead”

“PULL UP”

“PULL UP”

CLICK TO EDITBASIC MASTER TITLE STYLE GPWS FUNCTIONS

MODE 3: ALTITUDE LOSS AFTER TO OR GA

 Warns the pilot of a significant altitude loss after TO or low altitude GA.

“Don’t sink, don’t sink”

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CLICK TO EDITBASIC MASTER TITLE STYLE GPWS FUNCTIONS MODE 4: UNSAFE TERRAIN CLEARANCE WHEN NOT IN LANDING CONFIGURATION  Warns the pilot of insufficient terrain clearance as a function of the Radio Altitude, the Speed and the Configuration.

“Too low terrain” “Too low gear” “Too low flaps”

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CLICK TO EDITBASIC MASTER TITLE STYLE GPWS FUNCTIONS MODE 5: EXCESSIVE DEVIATION BELOW G/S  From 1 000 ft, a repeated aural alert warns the pilot whenever the A/C descends below the Glide Slope.

“Glide slope”

 When it enters a hard warning area, the loudness increases.

“Glide slope”

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CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED

 GPWS and Enhanced GPWS comparison:

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 EGPWS gives additional time to react.  EGPWS display:

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 EGPWS contains 3 functions: •

Terrain Awareness and Display (TAD): - Caution:

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- Warning:

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• Terrain Clearance Floor (TCF).

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• Runway Field Clearance Floor (RFCF).

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BACK

CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED GPWS and EGPWS comparison

BACK

Air Data Radio Altitude

GPWS Radio altitude alerts

GPS data Air Data Radio Altitude Baro Altitude

Terrain and Obstacle database Geometric altitude alerts

EGPWS

Aircraft Position Airport database

TERR AHEAD

055

013

The EGPWS integrates: • The present position (from GPS, FMS1 as backup), • The track, • The ground speed, • The geometric altitude (from pressure altitude, GPS altitude, radio altitude and terrain database), This function can protect against baro setting errors.

CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED EGPWS DISPLAY

 Terrain and Obstacle data are displayed on ND when ARC or ROSE mode is selected and: • Either TERRAIN ON ND is selected by the crew, • Or in case of Terrain Awareness and Display (TAD) alert (automatic pop up).  ND can display only one image at a time: EGPWS or WX RADAR.  Source may be identified at bottom right of ND: • WX RADAR tilt angle indication:

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• TERR ON ND for EGPWS:

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CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED WX RADAR TILT ANGLE INDICATION

WX RADAR tilt angle indication.

+2.5°

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CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED TERR ON ND FOR EGPWS

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TERR 055 013

TERR in place of tilt angle.

 Lowest and highest elevations of colored terrain encountered within the selected range, ahead of the aircraft: 055

013

 Color display at high altitude:

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 Color display at low altitude:

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CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED COLOR DISPLAY AT HIGH ALTITUDE

BACK

REFERENCE ALTITUDE

Based on the distribution of terrain elevations within ND range Solid green High density green

056 023

Low density green

Black Sea level Cyan

Unknown areas

Magenta

CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED COLOR DISPLAY AT LOW ALTITUDE

BACK

High density red +2 000 ft High density yellow +1 000 ft Low density yellow

REFERENCE ALTITUDE -250 ft / -500 ft L/G DN / L/G UP

112 066

High density green - 1 000 ft Low density green - 2 000 ft Black Sea level Cyan

Unknown areas

Magenta

CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED CAUTION DISPLAY

BACK

OBST AHEAD 055 013

055 013

“Terrain ahead”

Time before impact approx: 60 sec

“Obstacle ahead”

CLICK TO EDIT M ASTER TITLE STYLE EGPWS ENHANCED FUNCTIONS WARNING DISPLAY

026 014

“Terrain ahead” “PULL UP”

“Obstacle ahead”

Time before impact approx: 30 sec

‘PULL UP”

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CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED TERRAIN CLEARANCE FLOOR (TCF)  A terrain clearance floor envelope is stored in the database for some runways.  The TCF function warns of premature descent below this floor.  TCF is valid for any phase of flight, in complement of basic GPWS mode 4 C.

“Too low terrain” “Too low terrain”

3° descent path

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CLICK TO EDIT MASTERFUNCTIONS TITLE STYLE EGPWS ENHANCED RUNWAY FIELD CLEARANCE FLOOR ALERT (RFCF)

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 Complements the TCF function.  For runways that are significantly higher than the surrounding terrain.  In these cases, the radio altitude maybe so high that the EGPWS does not trigger TCF alerts, whereas the aircraft could be below the runway elevation.  RFCF protection ensures that the aircraft remains 300 ft above the runway elevation within the last 5.5 nm, even if there are sufficient margins with the surrounding terrain.

5.5 nm 300 ft

0.5 nm “Too low terrain”

CLICK TO DEDIT MTHE ASTER TITLE STYLE URING FLIGHT  TERR p/b enables to activate or deactivate the enhanced functions of the EGPWS.

 In the case of LOW ACCURACY of the aircraft position, the enhanced modes (TAD and TCF) are automatically deactivated. The TERR STBY memo appears.

 During descent: • TERR on ND…..OFF on PF side (priority for WX radar). • TERR on ND ….. ON on PM side.

 Terrain display must not be used for navigation (only for terrain awareness).

BACK

CLICK TO EDIT MASTER TITLE STYLE CAUTION ALERTS PF

PM Terrain/obstacle related caution alerts

 During Night or IMC: SIMULTANEOUSLY: “PULL UP TOGA”

“Terrain Terrain”

AP…………………………….………………………OFF

“Too low Terrain”

PITCH………………….……………………....PULL UP Pull full backstick and maintain in that position THRUST LEVERS ………………………………TOGA SPEED BRAKES……………..CHECK RETRACTED

“Terrain Ahead”

BANK…………………….WINGS LEVEL or ADJUST A turning manoeuver can be initiated if the flight crew concludes that turning is the safest action. DO NOT CHANGE CONFIGURATION (SLATS/FLAPS, GEAR) UNTIL CLEAR OF OBSTACLE.

 During daylight and VMC with terrain and obstacle clearly insight:

A320/A330

FLIGHT PATH……………………………..….ADJUST Adjust pitch, bank and thrust to silent the alert. NOTE: For some airports, the operator may define a specific procedure

“Obstacle Ahead”

NEXT BACK

CLICK TO EDIT MASTER TITLE STYLE CAUTION ALERTS PF

Sink rate

PM

Above 1 000 ft AAL in IMC or above 500 ft in VMC: “Sink rate” FLIGHT PATH……….………………………………ADJUST Adjust pitch and thrust to silent the alert. Below 1 000 ft AAL in IMC or below 500 ft in VMC: GO AROUND……………………………….........CONSIDER

Don’t sink Above 1 000 ft AAL in IMC or above 500 ft in VMC: FLIGHT PATH……….………………………………ADJUST Adjust pitch and thrust to silent the alert.

“Don’t sink”

Too low FLAPS, too low GEAR GO AROUND………………………….........PERFORM “Too low Flaps”

Glide slope Above 1 000 ft AAL in IMC or above 500 ft in VMC: FLIGHT PATH……….………………………………ADJUST Adjust pitch and thrust to silent the alert. When conditions require a deliberate approach below G/S: G/S MODE……………………….………………….........OFF Below 1 000 ft AAL in IMC or below 500 ft in VMC: GO AROUND……………………………….........CONSIDER

A320/A330

“Glide Slope”

“Too low Gear”

PREV BACK

CLICK TO EDIT MASTER TITLE STYLE WARNING ALERTS CM1 PF

Pull up warning alerts

CM2 PM

“Obstacle Ahead” “PULL UP”

“PULL UP” “Terrain Ahead” “PULL UP”

SIMULTANEOUSLY: “PULL UP TOGA” AP…………………………………………………………OFF PITCH……………………………………………....PULL UP Pull full back stick and maintain in that position THRUST LEVERS ……………………………………TOGA SPEED BRAKES…………………..CHECK RETRACTED BANK………………………….WINGS LEVEL or ADJUST A turning manoeuver can be initiated if the flight crew concludes that turning is the safest action. DO NOT CHANGE CONFIGURATION(SLATS/FLAPS, GEAR) UNTIL CLEAR OF OBSTACLE.

 If the "TERRAIN AHEAD PULL UP" or "OBSTACLE AHEAD PULL UP" aural alert triggers, a turning maneuver can be initiated if you conclude that turning is the safest action.  The PULL UP maneuver must be performed before the turn towards the safe direction, as climbing increases the terrain clearance.

A320/A330

BACK

CLICK TO EDIT MASTER TITLE STYLE EMERGENCY DESCENT MEMORY ITEM

1st STEP: MEMORY ITEMS PROTECT

DESCENT INITIATION

PROC

PROC

2st STEP: ECAM or QRH PROC

REACHING FL100 / MEA or MORA

PROC

PROC

DECOMPRESSION or PRESSURIZATION LOST

FLOW PATTERN

A320/A330

FLOW FL100 / MEA or MORA

XFTDA7EMERDES01 – FEB 2019

CLICK TO EDITPM ASTER TITLE STYLE ROTECT PF

PM

“ EMERGENCY DESCENT ”

CREW OXY MASKS …………………..………..…….…… USE INT/RAD sw ………………………………………………….. INT INT RECEPTION knob ..….......................……… CHECK ON INT VOLUME ………………………..…………...……. ADJUST COMMUNICATION ………………….…...….….... ESTABLISH INT

BACK

CLICK TODEDIT MASTER TITLE STYLE ESCENT INITIATION PF

PM Initiate the descent without delay:

EMER DESCENT ….……………………….. INITIATE

SIGNS (ALL)…...…………...………………....….........ON

- ALT……………........……………TURN PULL i - HDG……...…..…………………..TURN PULL - SPEED...……..……………………….….PULL

“ THRUST IDLE, OPEN DESCENT, HEADING, ALT BLUE” “ CHECKED ” If A/THR is not active: THR LEVERS….…………..………………..…..……...IDLE

SPD BRK…………………..…………..……………….FULL

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CLICK TO EDIT MASTER TITLE STYLE INITIAL DESCENT

ALT KNOB SELECTOR … TURN then PULL

Action on the altitude knob-selector is TURN, then PULL. If you PULL first, then TURN the altitude knob-selector, the aircraft will not descent.

Any delayed descent leads to limited oxygen for passengers, increasing hypoxia risk.

BACK

CLICKECAM TO EDIT MASTER TITLE STYLE OR QRH PROCEDURE PF

When descent established:

BACK

PM

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Note: The following actions are not an extensive presentation of the ECAM/ QRH but just highlights on some specific steps.

SPEED ……………..………………….MAX APPROPRIATE

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ATC ……..………………....………………………..... NOTIFY Whether displayed or not on ECAM, the flight crew should announce through PA:

“EMERGENCY DESCENT”

 MORA is displayed when: • CSTR selected, • ND range is 40 nm or more.

MORA 150

 To save oxygen, set the oxygen diluter selector to N position.

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CLICKECAM TO EDIT MASTER TITLE STYLE OR QRH PROCEDURE

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The flight crew performs the Read & Do procedures (ECAM or QRH) when the aircraft is established in descent and Memory items are completed.

CLICKECAM TO EDIT MASTER TITLE STYLE OR QRH PROCEDURE SPEED…………..MAX APPROPRIATE

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STRUCTURAL DAMAGE ? Loud bang, high cabin V/S, airflow…

No MMO / VMO……SET

Yes, or suspected

IAS target during descent

SPD / MACH pb……PRESS

Reduce speed as appropriate. If necessary, reduce speed below VLO and extend the landing gear

CLICKECAM TO EDIT MASTER TITLE STYLE OR QRH PROCEDURE

“EMERGENCY DESCENT”

On some aircraft configuration, the action line EMER DESCENT (PA)….ANNOUNCE may not be displayed on ECAM.

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CLICK TO EDIT MASTER STYLE REACHING FL100 / MEATITLE OR MORA PF

PM When ALT* engages:

SPEED BRAKES.………………………...………...……RETRACT SPEED.………………………………....……………........MANAGE

Once oxygen masks are removed: Oxygen stowage mask compartment ……………….… CLOSE Oxygen control slide ………………………………….. RESET

Below FL 100, you should limit the rate of descent to approximately 1 000 ft/min, except during the approach phase.

BACK

CLICK TO EDIT MASTER TITLE STYLE EMERGENCY DESCENT PF

BACK

PM 1

1

A320/A330

CLICK TO EDIT MASTER TITLE STYLE EMERGENCY EVACUATION

EMERGENCY EVACUATION PROC

XFTDA1EMREVAC01 – OCT 2022

CLICK TO EDIT MASTER TITLE STYLE EMERGENCY EVACUATION CAPT

F/O When the aircraft is stopped:

“ ATTENTION CREW AT STATIONS ” PA

“ EMERGENCY EVACUATION PROCEDURE ” EMER EVAC PROC ..........................................PERFORM

The Captain is building his decision. If evacuation is not required: “CABIN CREW and PASSAGERS REMAIN SEATED” PA

If evacuation is required, evacuation initiate “EVACUATE, EVACUATE” PA

EMER EVAC COMMAND …..………………………...….ON ATC .………………………...………………………...ADVISE

Note: when all batteries are off, public announce and cabin communication are available via cockpit handset only.

CLICK TO EDIT MASTER TITLEV1 STYLE ENGINE FAILURE AFTER DETECTION

ECAM ACTIONS

ACCELERATION

CONTINUE ECAM

APPROACH PREPARATION

PROC

PROC

PROC

PROC

PROC

ARRIVAL BRIEFING FMS PREP MCT

At Green Dot

-S -F

Beta target

Flaps 0

-

°

OP CLB

Flaps 1

EO ACCELERATION ALTITUDE

L/G up PITCH: 12,5°

A320

V1

A320/A330

ENG 1 FAIL

400 ft mini

A330

XFTDA10ENGFTO01 – OCT 2022

CLICK TO EDIT MASTER TITLE STYLE DETECTION PF

BACK

PM

GOLDEN RULE #1

Fly, Navigate, Communicate. ENG 1 FAIL

The first pilot who detects: “ ENGINE FAILURE ” FLY:  Gear Up,  Consider TOGA,

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 Pitch adjust 12.5º, then follow FD bars,  Beta target,

 No READ & DO actions until the aircraft reaches a minimum of 400 ft AGL.

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 Consider AP. NAVIGATE:

LAND ASAP When applicable, consider EO SID for TAKEOFF RWY. COMMUNICATE: ATC

“ PAN PAN ” or “ MAYDAY ” message.

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CLICK TO EDIT MASTER TITLE STYLE DETECTION BACK

 In such situation, stabilizing the flight path is number one priority.  Performing the READ & DO actions before the aircraft is stabilized on the flight path, reduces flight crew efficiency due to the PF’s high workload, and may lead to a trajectory error.

NO ACTIONS BEFORE 400 ft AGL EXCEPT GEAR UP .

CLICK TO EDIT MASTER TITLE STYLE DETECTION

CONSIDER TOGA  When T/O with FLEX thrust, you may consider setting TOGA  T/O thrust (FLEX or TOGA) must be kept until GREEN DOT speed is reached, limited to 10 min,  TOGA thrust requires more rudder input,  Setting TOGA when out of SRS mode with slats extended, triggers GO AROUND mode.

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CLICK TO EDIT MASTER TITLE STYLE DETECTION BETA TARGET AND RUDDER TRIM

Center the Beta target. Beta target

Once centered: Appropriate sideslip for optimum

Then, trim. Moves at 1 deg/s.

aircraft performance.

Note: • The rudder trim rotary switch and the RESET pushbutton are not active when the autopilot is engaged. • Beta target conditions: refer to FCOM DSC-31-40 Indications on PFD / Attitude Data.

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CLICK TO EDIT MASTER ECAM ACTIONSTITLE STYLE PF

BACK

PM

“ ECAM ACTIONS ”

ECAM ACTIONS.…………….…………………....PERFORM

ECAM actions can be stopped at any time on PF request for trajectory, configuration, etc...

DAMAGE OR NO DAMAGE? DAMAGE

NO DAMAGE

• High vibration prior to flame out. • Loud noise, explosion. • Repeated and uncontrollable engine stalls. • Abnormal engine indications on ECAM (such as N1 or N2 ~ 0). • Damage visually detected by the crew.

The crew may decide to attempt an engine relight in flight at this step, but it is recommended to: • Perform all ECAM actions and • Consider engine relight when reaching the

No Attempt to Relight

STATUS page.

CLICK TO EDIT MASTER TITLE STYLE ACCELERATION PF

PM Before EO ACC ALT:

“ STOP ECAM ”

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ECAM ACTIONS ………………….………………….....STOP

At EO ACC ALT

A320

BACK

A330

A330

V/S knob (or ALT pb A330) ………PUSH TO LEVEL OFF “ ALT (or V/S 0) ”

“ CHECKED ” Clean up the A/C.

When the speed trend arrow reaches GREEN DOT: ALT knob-selector ……………….……………....……PULL THR LEVER ..……..………....………..…...……………..MCT

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CLICK TO EDIT MASTER TITLE STYLE ACCELERATION

Before EO ACC ALT  You should delay the acceleration for SECURING the engine.  An engine is considered SECURED when: •

ENG MASTER…OFF for an engine failure without damage,



AGENT 1…DISCH for an engine failure with damage,



Fire extinguished or AGENT 2…DISCH for an engine fire.

CAUTION: DO NOT EXCEED THE MAXIMUM EO ACC ALT.

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CLICK TO EDIT MASTER TITLE STYLE ACCELERATION BEFORE EO ACC ALT

BACK

 Set MCT during a FLEX TAKE OFF:

FLX

CL

MCT

CLICK TO EDIT MASTER TITLE STYLE CONTINUE ECAM PF

PM

“ CONTINUE ECAM ” ECAM ACTIONS ……………………………….CONTINUE

Before reading STATUS page, consider: •

ACCELERATION flow pattern

ENG RELIGHT (IN FLIGHT)

BACK

CLICK TO EDIT MASTER TITLE STYLE APPROACH PREPARATION PF

BACK

PM

“ YOU HAVE CONTROL? ” “ I HAVE CONTROL” FMS ……………...…………….…………………... PREPARE

FMS PREPARATION ……………...………………... CHECK

ARRIVAL BRIEFING ............….…………......… PERFORM

ONE ENGINE OUT LANDING: To make the landing run easier, it is recommended, in the later stage of the approach, the PM resets the rudder trim to zero, upon PF‘s request.

A320

CLICK TO EDIT MASTER STYLE ENGINE FAILURE IN TITLE CRUISE Detection and Initial Actions

STANDARD STRATEGY PROC ECAM ACTIONS

STRATEGY?

PROC

PROC

OBSTACLE STRATEGY PROC

Deceleration to green dot

THR Levers MCT

FLIGHT CONTINUATION

OBSTACLE STRATEGY

A/THR OFF

ATC

M. 78/300KT

STANDARD STRATEGY

EO MAX FL

Engine Failure below EO MAX FL PROC EFTDA1ENGFCRZ01 – OCT 2020

CLICK TO EDIT AND MASTER STYLE DETECTION INITIAL TITLE ACTIONS PF

BACK

PM

GOLDEN RULE #1

Fly, Navigate, Communicate.

GOLDEN RULE #2

Use the appropriate level of automation at all times. FLY:

ALL THRUST LEVERS ……………..……………….….MCT

 Set A/THR to OFF

A/THR ………………………………………………………OFF

in order to freeze MCT.

NAVIGATE:

STRATEGY…………………………………...….DETERMINE

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STRATEGY………………………………….….DETERMINE

COMMUNICATE: “ PAN PAN ” or “ MAYDAY ” message. ATC

CLICK TO EDIT AND MASTER STYLE DETECTION INITIAL TITLE ACTIONS STRATEGY … DETERMINE

REC MAX is displayed on PROG PAGE:

STANDARD STRATEGY No obstacle constraint.

OBSTACLE STRATEGY To ensure the margins over obstacles.

FIXED SPEED STRATEGY ETOPS constraint

As established before dispatch, use: M.80 / 350 KT Or M.78 / 320 KT

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CLICK TO EDIT MASTER TITLE STANDARD STRATEGY PF

PM

As appropriate, HDG………………………………………...…………SET AND PULL • To keep clear of the airway • Towards an alternate

In accordance with the strategy: SPEED……………………...……SET M0.78 / 300 kt AND PULL

Extracted from ACTIVE/PERF/CRZ page ALT ………………………………………………….…SET AND PULL • Standard………………….…EO MAX FL (LRC ceiling)

EO

 On the PROG page, the REC MAX gives the EO LRC Ceiling:

STYLE

BACK

CLICK TO EDIT MASTER TITLE OBSTACLE STRATEGY PF As appropriate, HDG……………………………………………...……SET AND PULL • To keep clear of the airway • Towards an alternate

In accordance with the strategy: SPEED…………………SET GREEN DOT SPEED AND PULL

Extracted from ACTIVE/PERF/CRZ page ALT ……………………………………………………SET AND PULL • Obstacle ……………..………..DRIFT DOWN TO ceiling

 On the PERF page, the DRIFT DOWN Ceiling is displayed as:

STYLE

PM

BACK

CLICK TO EDIT MASTER STYLE ENGINE FAILURE IN TITLE CRUISE FLIGHT CONTINUATION

BACK

At LRC ceiling... EO LRC SPEED

When V/S < 500 ft/min: V/S – 500 FT/MIN .…………………..….…. SET AND PULL A/THR …………………..……….………..………..………..ON

When reaching EO LRC ceiling: SPEED ….…………………………………...……....M ANAGE

T/D

CLICK TO EDIT MASTER STYLE ENGINE FAILURE IN TITLE CRUISE

ENGINE FAILURE BELOW EO MAX FL

 If the engine failure occurs below EO MAX FL, keep A/THR ON.

BACK

A320

CLICK FTO EDITCM ASTER TITLE LIGHT ONTROL LAWSSTYLE NORMAL LAW

ALTERNATE LAW

DIRECT LAW

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Some failures, or combination of failures impacting flight controls, could lead to a downgraded flight control law refer to as Alternate Law or Direct Law.

HIGH AOA PROTECTION

VLS

V STALL WARNING

VLS

VαPROT VαMAX

VαSW

EFTDN1RCFGLAW01 – A320 – OCT 2018

CLICK TO EDIT MASTER NORMAL LAW TITLE STYLE HIGH SPEED PROTECTION

BACK

BANK ANGLE PROTECTION

OVERSPEED WARNING

VLS VαPROT αFLOOR VαMAX

PITCH ATTITUDE PROTECTION

CLICK TO EDIT MASTER ALTERNATE LAWTITLE STYLE FAILURES

FAILURES

NORMAL LAW

FAILURES

ALTERNATE LAW WITH REDUCED PROTECTION

HANDLING CHARACTERISTICS:  PITCH CONTROL: • Alternate law with reduced protection. • Alternate law (no protection).  ROLL CONTROL: Direct law.  YAW CONTROL: Alternate law (only damping function available). REDUCED PROTECTIONS:  Load factor protection,  Low speed stability and High speed stability are available,  Overspeed and stall warnings are still available,  Bank angle protection is lost,  Pitch attitude protection is lost,  Low energy aural alert is lost.

ALTERNATE LAW (NO PROTECTION)

BACK

CLICK TO EDIT MASTER DIRECT LAW TITLE STYLE

BACK

FAILURES

FAILURES

FAILURES

NORMAL LAW

CREW ACTIONS

FAILURES

ALTERNATE LAW WITH REDUCED PROTECTION

HANDLING CHARACTERISTICS:

 PITCH CONTROL: Direct law (no automatic trim available).  ROLL CONTROL: Direct law.  YAW CONTROL: Turn coordination reduced

No protection but overspeed and stall warnings are available.

ALTERNATE LAW (NO PROTECTION)

DIRECT LAW

A320/A330

CLICK TO EDIT MASTER TITLE STYLE FLIGHT CREW INCAPACITATION

DEFINITION

DETECTION

REACTION

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PROC

XFTDA1INCAPAC01 – OCT 2018

CLICK TO EDITDEFINITION MASTER TITLE STYLE “Any condition which affects the health of a crew member during the performance of duties which renders him incapable of performing the assigned duties.”

 It occurs more frequently than many of the other emergencies, which are the subject of routine training.

 It occurs in all age groups and during all phases of flight.

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CLICK TO EDIT MASTER TITLE STYLE DETECTION

Incapacitation can occur in many form, that range from sudden death to partial loss of function.

Main symptoms: • No standard callouts, particularly during critical flight phases, • High number of clues of “subtle incapacitation” (e.g. no appropriate response to a verbal communication), • Incoherent speech, • Strange behavior, • Irregular breathing, • Pale fixed facial expression, • Jerky motions either delayed or too rapid.

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CLICK TO EDIT MASTER REACTION - 1/2TITLE STYLE

NEXT

The fit pilot must: 

Take over and ensure a safe flight path: •

Announce “I HAVE CONTROL”,



If the incapacitated flight crewmember interferes with aircraft handling, press and keep pressed the sidestick pushbutton for at least 40 seconds, i



Keep or engage AP as required,



Perform callout and checklist aloud,

 Declare an Emergency to ATC:

ATC

“ MAYDAY, MAYDAY, MAYDAY ”

 Take any steps possible to contain the incapacitated flight crewmember. These steps may involve cabin crew. “ATTENTION, PURSER TO COCKPIT PLEASE” PA

BACK

CLICK TO EDIT MASTER REACTION - 1/2TITLE STYLE

SIDESTICK TAKEOVER

“PRIORITY LEFT”

40 Sec

BACK

CLICK TO EDIT MASTER REACTION - 2/2TITLE STYLE

PREV

BACK

 Consider: • Early approach preparation and checklist reading, • Automatic landing, • Use of radar vectoring and long approach.  Land At the Nearest Suitable Airport.  Arrange medical assistance onboard and after landing (e.g.: request assistance from any medically qualified passenger).

EXIT

A320/A330

C EDIT MASTER TITLE STYLE LLICK OW TO ENERGY AURAL ALERT

Low Energy Aural Alert PROC

“ SPEED SPEED SPEED ”

XFTDN1LOWENER01 – JUL 2021

CLICK TO E EDIT MASTER STYLE LOW NERGY AURALTITLE ALERT PF

PM “ SPEED SPEED SPEED ” (NO ECAM MESSAGE)

THRUST……………………………........INCREASE PITCH ATTITUDE....................ADJUST, AS RQRD ALERT AVAILABILITY The low energy aural alert is available: o Only in normal law, o In CONF 2, 3 and FULL, o 100 ft < RA < 2 000 ft The low energy aural alert is inhibited: o TOGA selected or, Alpha Floor or, GPWS alert is triggered or, o Both RA have been lost.

ALERT TRIGGERING CONDITIONS The low energy aural alert is triggered: VLS

• Between VLS and VaPROT.

VαPROT VαMAX

A320/A330

CLICK TO EDIT MASTER TITLE STYLE REJECTED TAKEOFF CAPTAIN DECISION

“STOP”

RTO < 72 kt

Reject takeoff

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V1

Continue takeoff

REJECTED TAKEOFF PROC FLOW

XFTDA6REJECTO01 – JUL 2021

CLICK TO EDIT MASTER TITLE STYLE REJECTED TAKEOFF DECISION MANAGEMENT

Many ECAM alerts are inhibited during takeoff phase, to enable the flight crew to focus on their primary tasks. Therefore, any ECAM Warning or Caution triggered below V1 must be considered as significant. Takeoff should be rejected. Note: any non-ECAM event (Tire burst, bird hazard, …): • Below 100 kt: reject the takeoff, • Above 100 kt: consider continue takeoff (GO-MINDED).

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CLICK TO EDIT MASTER TITLE STYLE REJECTED TAKEOFF RTO BELOW 72 kt

In the case of a RTO below 72 kt:  No ground spoilers deployment,  No autobrake activation, Use manual braking, Use nosewheel steering and differential braking if needed.

BACK

CLICK TO EDIT MASTER TITLE STYLE REJECTED TAKEOFF CAPT

BACK

F/O CAPTAIN DECISION “ STOP! ” The CAPT is now PF

Simultaneously: ALL THRUST LEVERS.……........................................IDLE REVERSE THRUST.…...………....…...…..…….MAX AVAIL

REVERSERS/DECELERATION ……………..….… CHECK “ REVERSE GREEN ” “ DECEL ” ANY AUDIO….……..…….……..………..………….CANCEL

When the aircraft stopped: REVERSERS ............................................... STOWED PARKING BRAKE …………………………………….ON “ ATTENTION! CREW AT STATIONS ”

NOTIFY ATC .………..…..… “ AIRBUS_____, STOPPING ” EMERGENCY EVACUATION PROC (QRH) ….… LOCATE

PA

If required ECAM ACTIONS EVACUATION PROCEDURE

ATC

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CLICK TO EDIT MASTER TITLE STYLE REJECTED TAKEOFF EMER EVAC PROC

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 The EMER EVAC procedure is accessible through the rapid access icon permanently displayed in the top right corner of the eQRH.

CLICK TO EDIT MASTER TITLE STYLE REJECTED TAKEOFF REJECTED TAKEOFF flow pattern

CAPT CAPT

BACK

F/O F/O

“STOP !” « REVERSE GREEN »

1 « ECAM ACTIONS »

2

4

« DECEL »

3 ALL THRUST LEVERS IDLE REVERSERS MAX AVAIL

1 PA: « ATTENTION! CREW AT STATION »

3

3

WHEN AIRCRAFT STOPPED « AIRBUS____, STOPPING »

4 WHEN AIRCRAFT IS STOPPED: REVERSERS STOWED PARKING BRAKE ON

EMERGENCY EVACUATION PROC: LOCATE

2

A320/A330

CLICK TO EDIT ROPS MASTER TITLE STYLE RUNWAY OVERRUN WARNING (ROW)

RUNWAY OVERRUN PROTECTION (ROP)

IF WET : RWY TOO SHORT

RWY TOO SHORT

PROC

PROC

PROC

GO-AROUND MINDED

STOP MINDED

ROW/ROP Transition point (Start of braking)

XFTDO_ROWROP_01 – OCT 2018

UNWAY OVERRUN ARNINGSTYLE CLICKRTO EDIT MASTERWTITLE

PF

-IF WET: RWY TOO SHORT GO-AROUND MINDED

PM

GO-AROUND MINDED

400 ft

If the runway is wet or contaminated: GO AROUND .………………………….............. PERFORM If the runway is dry: APPROACH .…………………....……..……….. CONTINUE

 The flight crew must always follow the ROW alerts.

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UNWAY OVERRUN ARNINGSTYLE CLICKRTO EDIT MASTERWTITLE -RWY TOO SHORT-

PF

GO-AROUND MINDED

PM

GO-AROUND

“RUNWAY TOO SHORT” 400 ft

200 ft

When “RWY TOO SHORT” message(s) trigger(s) GO AROUND .……………………………........... PERFORM

 The flight crew must always follow the ROW alerts. Below 200 ft AGL, in addition to the message displayed on PFD the aural alert “RUNWAY TOO SHORT” triggers.

BACK

CLICK TO EDIT MASTER TITLE STYLE RUNWAY OVERRUN PROTECTION PF

STOP MINDED

PM

MAXIMUM MANUAL BRAKING............ APPLY and KEEP MAXIMUM REVERSE THRUST…….….APPLY and KEEP

MAXIMUM MANUAL BRAKING....................... MAINTAIN MAXIMUM REVERSE THRUST…….….APPLY and KEEP

MAXIMUM MANUAL BRAKING....................... MAINTAIN MAXIMUM REVERSE THRUST…………….…. MAINTAIN

 The flight crew must always follow the ROP alerts.

BACK

A320/A330

CLICK TO EDITSMMOKE ASTER TITLE STYLE ECAM warning Smoke sensed Procedure

Smoke perception without ECAM warning

“ ECAM actions ”

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(A320 Only)

QRH SMOKE / FUMES/AVNCS SMOKE procedure Immediate actions

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QRH SMOKE / FUMES / AVNCS SMOKE procedure

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If smoke persists Or In case of doubt about the smoke source, apply: QRH SMOKE / FUMES / AVNCS SMOKE procedure

XFTDA1SMOKE0001 – OCT 2018

CLICK TO EDITSMMOKE ASTER TITLE STYLE

WITHOUT ECAM WARNING

QRH Note: This QRH procedure covers many cases of smoke sources (even all steps of the AVIONICS SMOKE ECAM procedure).

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CLICK TO EDITSMMOKE ASTER TITLE STYLE

WITH ECAM WARNING



BACK

On A320 only, the AVIONICS SMOKE ECAM procedure should be applied only when the smoke is confirmed visually or by smell. In that case, apply first the ECAM actions, before entering the QRH SMOKE/FUMES/AVNCS SMOKE procedure, or refer directly to the QRH. If not, consider a spurious alert.



If any doubt exists about the smoke origin, refer to the QRH SMOKE/FUMES/AVNCS SMOKE procedure.

CLICK TO EDITSMMOKE ASTER TITLE STYLE IMMEDIATE ACTIONS

 Be prepared to immediately perform a diversion.  With or without ECAM activations, these immediate actions correspond to the most common steps to be taken in smoke cases.

 Protect the crew,  Avoid any further contamination,  Establish communication with cabin crew.

QRH

ECAM warning SMOKE

BACK

CLICK TO EDITSMMOKE ASTER TITLE STYLE SMOKE/FUMES QRH PROCEDURE

BACK

 LAND ASAP.

Protect Crew, Avoid cockpit and cabin contamination, Establish communication with cabin crew.

Short term decisions.

 If SMOKE/FUMES becomes the GREATEST THREAT,  If situation becomes UNMANAGEABLE. At any time of the procedure: Removal of SMOKE/FUMES,

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ELEC EMER CONFIG.

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Investigate the source of smoke.

CLICK TO EDITOF MASTER STYLE REMOVAL SMOKETITLE /FUMES PF

PM

Smoke is dense, and becomes the greatest threat:

ORDER: “ REMOVAL OF SMOKE / FUMES PROCEDURE ”

SMOKE/FUMES/AVNCS SMOKE.………....APPLY

Procedure Layout

Smoke Removal above FL100 or MEAMORA. Descente initiated. At this stage, during descent, you can come back to the SMOKE/FUMES/AVNCS SMOKE procedure.

Smoke Removal without window opening.

Resume Smoke Removal at or below FL100 or MEA. If cockpit window opening required…

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CLICK EDIT MASTER STYLE TOTO SET ELEC EMER TITLE CONFIG PF

PM

Dense smoke still continues, being the greatest threat, or When all the specific actions have been unsuccessful:

Refer to the end of the SMOKE/FUMES/AVNCS SMOKE procedure to set ELEC EMER CONFIG

 Apply:

 Purpose: To shed as much electrical equipment as possible and thus try to isolate smoke source(s).

 Objective: Remain in ELEC EMER CONFIG to fly and restore normal electrical generation before landing to ensure normal landing.

Note: On A330 only, when necessary, the REMOVAL of SMOKE/FUMES procedure must be applied before the electrical emergency configuration is set, since manual control of cabin pressure cannot be selected in electrical emergency configuration.

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A320/A330

CLICK TOSEDIT TITLE STYLE TALLM RASTER ECOVERY MEMORY ITEM

DETECTION

RECOVERY

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PROC

1 Reduce AOA

2

Increase Energy

XFTDA4STALLRC01 – OCT 2018

CLICK TOSEDIT TITLE STYLE TALLM DASTER ETECTION

DETECTION OF BUFFET

“ STALL, STALL ” + CRICKET

REQUIRE A STANDARD CALLOUT AND AN IMMEDIATE ACTION

BACK

CLICK TOSEDIT TITLE STYLE TALLM RASTER ECOVERY PF

BACK

PM

“ STALL, I HAVE CONTROL ” Reduction of AOA

NOSE DOWN PITCH CONTROL………....………....APPLY Note : In the case of lack of pitch down authority, due to under wing mounted engines, reducing thrust may be necessary BANK.……………………….…………………WINGS LEVEL When STALL indications have stopped Increase energy

THRUST……...........INCREASE SMOOTHLY AS NEEDED

SPEEDBRAKES...……….………......CHECK RETRACTED

FLIGHT PATH……...………..….….RECOVER SMOOTHLY

If in clean configuration and below 20 000 ft: “ FLAPS 1 ” FLAPS 1 ……………………………....……........... SELECT

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CLICK TOSEDIT TITLE STYLE TALLM RASTER ECOVERY FLAPS 1

BACK

Select FLAPS 1 in order to increase the margin to the AOAstall.

CLEAN CONF

FLAPS 1

FLAPS 1

VSW, CLEAN

VSW, FLAPS_1

CLICK TO EDIT TCAS MASTER TITLE STYLE MEMORY ITEM Intruders classification

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TCAS panel

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Traffic Advisory (TA)

Resolution Advisory (RA)

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A320/A330

“ TRAFFIC

“ DESCEND

TRAFFIC ”

DESCEND ”

Clear of conflict i

“ CLEAR OF CONFLICT ”

XFTDO2_TCAS__01 – OCT 2021

CLICK TO EDIT TCAS MASTER TITLE STYLE INTRUDER CLASSIFICATION

BACK

The intruders are classified in four levels and displayed accordingly on ND: Surrounding traffic TCAS only

TCAS + ADS-B - 05 

Other intruders

Proximate intruders

Traffic Advisory (TA)

Resolution Advisory (RA)

- 15 

- 10 

- 09 

- 05 

- 15 

- 10 

- 09 

- 05 

PROVIDES INFORMATION ABOUT THE TWO MOST DANGEROUS TA / RA INTRUDERS WITHOUT BEARING

CLICK TO EDIT TCAS MASTER TITLE STYLE TCAS PANEL

 The flight crew should select:  ABV in climb,  ALL in cruise,  BLW in descent or if the cruise altitude ≥ FL390,  THRT in heavy traffic terminal area,  TA in case of: •

Engine failure,



Flight with L/G down,



Operation at specific airport.

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CLICK TO EDIT M ASTER TITLE TRAFFIC ADVISORY (TA) STYLE PF

PM “ TRAFFIC, TRAFFIC ”

TCAS mode……….….CHECK ARMED “ TCAS BLUE ”

“ CHECKED ”

If A/THR available: AUTOTHRUST……..………...….ON

If AP/FD TCAS not avail:

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Do not maneuver based on a TA alone.

BACK

CLICK TO EDIT M ASTER TITLE TRAFFIC ADVISORY (TA) STYLE

AF/FD TCAS NOT AVAIL  If the AP/FD TCAS mode does not immediately arm, the AP/FD TCAS mode is failed.  In that case, the PF announces: “TCAS, I HAVE CONTROL” and the flight crew must be prepared to manually follow the RA orders, in the case of a subsequent RA.  Refer to "TCAS Procedure without AP/FD TCAS“

BACK

CLICKRTO EDIT MASTER TITLE ESOLUTION ADVISORY (RA)STYLE PF

BACK

PM “ CLIMB, CLIMB ”

“ TCAS” “ CHECKED ” If AP is OFF: FD orders...................FOLLOW AP can be engaged.

ATC

V/S.............................MONITOR i Fly the green area

“ AIRBUS xxx TCAS RA”

V/S.............................MONITOR

If any ”CLIMB” aural alert sounds during final approach TCAS MODE ORDERs ....... MONITOR/FOLLOW GO AROUND …………………………. CONSIDER If AP/FD TCAS not avail:

ATC

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Respect STALL, GPWS or WINDSHEAR WARNINGS

“ AIRBUS xxx TCAS RA”

CLICKRTO EDIT MASTER TITLE ESOLUTION ADVISORY (RA)STYLE

Monitor V/S

BACK

ESOLUTION ADVISORY (RA)STYLE CLICKRTO EDIT MASTER TITLE AP/FD TCAS NOT AVAILABLE

PF

BACK

PM

“ CLIMB, CLIMB ”

AP......................................OFF “ SET FDs OFF”

FDs......................................OFF i

Promptly and smoothly V/S........ ADJUST or MAINTAIN Fly the green area.

ATC

“ AIRBUS xxx TCAS RA”

V/S............................MONITOR

If any ”CLIMB” aural alert sounds during final approach GO AROUND …………………………. PERFORM

ATC

“ AIRBUS xxx GOING AROUND DUE TO TCAS RA”

Respect STALL, GPWS or WINDSHEAR WARNINGS

WHY « FDs.…OFF »?

TCAS RA: “DESCEND! DESCEND!”

THR CLB | OP CLB

NEXT

WHY « FDs.…OFF »?

NEXT

The flight crew forgets to switch off both FDs…

THR CLB | OP CLB

WHY « FDs.…OFF »?

BACK

When the speed reaches speed limit, the HIGH SPEED PROTECTION activates…

THR SPEED CLB |

CLICK TOCEDIT ASTER TITLE STYLE LEARM OF CONFLICT PF

BACK

PM

“ CLEAR OF CONFLICT ” ATC

“ AIRBUS xxx CLEAR OF CONFLICT, RETURNING TO … ”

TCAS RA performed using AP/FD TCAS AP/FD………..………………... MONITOR/FOLLOW LAT & VERT GUIDANCE ………………... ADJUST SPEED ………………………………..……. ADJUST

TCAS RA performed manually “ FDs ON ” FDs ……………………………..….…... REENGAGE LAT & VERT GUIDANCE ………………... ADJUST AP………….……..………………............. AS RQRD

A320

C TO EDITAM STYLE ULICK NRELIABLE IRASTER SPEEDTITLE SITUATION MEMORY ITEM

“UNRELIABLE SPEED” At any time, if the flight crew detects unreliable air data indication:

If safe conduct of the flight is impacted: The crew must apply the memory items. AP……………………………………..…………………………………OFF A/THR……………………………………………..…………………….OFF FD……………………………………….............................................OFF PITCH/THRUST: Below THRUST RED ALT……………………………......15°/TOGA i Above THRUST RED ALT and below FL100……………10°/CLB Above THRUST RED ALT and above FL100……………..5°/CLB FLAPS: if CONF 0(1)(2)(3)………………....…MAINTAIN CURRENT CONF if CONF FULL……………….....SELECT CONF 3 AND MAINTAIN SPEEDBRAKES………………………………….CHECK RETRACTED L/G………………………………………………………………………..UP When at or above MSA or Circuit Altitude : Level Off for troubleshooting

If safe conduct of the flight is not impacted or after Memory Items:

UNRELIABLE SPEED PROC

TO LEVEL OFF

FLIGHT PATH STABILIZED

i

i

AFFECTED ADR IDENTIFICATION PROC

ECAM ACTIONS

Apply UNRELIABLE SPEED INDICATION procedure.

XFTDA6UNRASPD01 – A320 – OCT 2022

CULICK TO EDITAIR MASTER TITLE STYLE NRELIABLE SPEED SITUATION PITCH/THRUST Apply the QRH procedure without delay because flying with the memory pitch/thrust values for an extended period of time can lead to exceed the aircraft speed limits.

FL100

5° / CLB

Adjust PITCH and THRUST while climbing

10° / CLB

THRUST RED ALT

15° / TOGA

Adjust PITCH and THRUST while climbing

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CLICK TO EDIT ASTER TO M LEVEL OFFTITLE STYLE PF

BACK

PM

AP …..…………………………………………………….. OFF “SET FDs OFF”

FDs ………………………………………………...…….. OFF

A/THR ……………………………………………...…….. OFF SPEEDBRAKES ………………..…. CHECK RETRACTED PITCH/THRUST ………. DETERMINE FROM QRH TABLE PITCH/THRUST ………...……………………………..APPLY LEVEL OFF ………………………………………. PERFORM

i

Below FL250, use reversible BUSS (if installed) If needed and reliable (BIRD is reliable if barometric altitude is reliable): “ BIRD ON ” TRK/FPA (BIRD)………………………….………….SELECT

RESPECT STALL WARNING

CLICK TO EDIT ASTER TO M LEVEL OFFTITLE STYLE LEVEL OFF ….. PERFORM

If the altitude indication is unreliable, refer to the GPS altitude

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CLICK TO EDITPATH MASTER TITLE STYLE FLIGHT STABILIZED PF

BACK

PM

AP …..…………………………………………………….. OFF “SET FDs OFF”

FDs ……………………………………………...……….. OFF

A/THR ……………………………………………...…….. OFF SPEEDBRAKES ………………..…. CHECK RETRACTED

FLIGHT PATH ………………….……… KEEP STABILIZED Below FL250, use reversible BUSS (if installed) If needed and reliable (BIRD is reliable if barometric altitude is reliable): “ BIRD ON ” TRK/FPA (BIRD)………………………….………….SELECT

RESPECT STALL WARNING

CLICK TO EDITADR MASTER TITLE STYLE AFFECTED IDENTIFICATION

 In order to identify and isolate the faulty ADR(s), the flight crew must crosscheck speed and altitude indications on CAPT PFD, F/O PFD and STBY instruments.  To help the identification of the affected ADR(s), the flight crew can use the Pitch and Thrust tables of the QRH procedure and the reversible BUSS (if installed).

 If affected ADR(s) cannot be identified or all ADRs are affected: •

WHEN ABOVE FL250: Most of the time, temporary phenomenon. Continue flying pitch and thrust targets with the CLIMB, CRUISE, and DESCENT tables until the phenomenon disappears, or until below FL250.



WHEN BELOW FL250: Generally, permanent situation. Speed and altitude indications are replaced by the Back-Up Speed Scale and the Back-Up Altitude Scale. i

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CLICK TO EDITADR MASTER TITLE STYLE AFFECTED IDENTIFICATION BUSS DISPLAY

 Before extending the slats/flaps, reduce speed to the bottom part of the green area.  APPR Speed…..….Fly the fixed green target.

If the BUSS does not react to longitudinal stick inputs when flying the green area of the speed scale, disregard the BUSS and use pitch / thrust tables.

BACK

Airplane Upset Prevention and Recovery Training Elements of Active Monitoring

START

OCT 2022

Active monitoring •

Pilots must preventively be always situationally aware. An engaged pilot will be ready to intercept, and so recognize, timely and effectively an unintentional airplane divergence.



Active monitoring allows you to do so.



Active monitoring is the critical element to ensure awareness and avoidance of undesired airplane states.



Active monitoring provides the strongest countermeasure against startle effect.



Active monitoring has some human barriers: complacency, fatigue, time pressure, mental workload, lack of vigilance, looking without seeing, poor workload management… but its performance can significantly be improved.

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Active monitoring •

Active monitoring is the responsibility of all crew members. The purpose is to ensure that the airplane state is understood and correct for the situation.



Active monitoring mitigates complacency and, therefore, helps preventing undesired aircraft states (UAS)



Active monitoring means keeping track of: • The environment • The airplane's energy state, and • The flight path.



Active monitoring creates expectations about future airplane state. This will help in detecting deviations and to take timely corrective actions.

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Review of observable behaviors for monitoring

Competency

Observable Behaviors

− − Application of Procedures & Compliance with Regulations (PRO)

− − − − −

Identifies where to find procedures and regulations Applies relevant operating instructions, procedures and techniques in a timely manner Follows Standard Operating Procedures (SOPs) unless a higher degree of safety dictates an appropriate deviation Operates aircraft systems and associated equipment correctly Monitors aircraft systems status Complies with applicable regulations Applies relevant procedural knowledge

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Review of observable behaviors for monitoring

Competency

Observable Behaviors − −

Airplane flight path management, automation (FPA)

− − − −

Uses appropriate flight management, guidance systems and automation, as installed and applicable to the conditions Monitors and detects deviations from the desired aircraft trajectory and takes appropriate action Manages the flight path to achieve optimum operational performance Maintains the desired flight path during flight using automation whilst managing other tasks and distractions Selects appropriate level and mode of automation in a timely manner considering phase of flight and workload Effectively monitors automation, including engagement and automatic mode transitions

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Review of observable behaviors for monitoring

Competency

Observable Behaviors

− − − Airplane flight path management, manual control (FPM)

− − − −

Controls the aircraft manually with accuracy and smoothness as appropriate to the situation Monitors and detects deviations from the desired aircraft trajectory and takes appropriate action Manually controls the aeroplane using the relationship between aeroplane attitude, speed and thrust, and navigation signals or visual information Manages the flight path to achieve optimum operational performance Maintains the desired flight path during manual flight whilst managing other tasks and distractions Uses appropriate flight management and guidance systems, as installed and applicable to the conditions Effectively monitors flight guidance systems including engagement and automatic mode transitions

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Review of observable behaviors for monitoring

Competency

Observable Behaviors − − −

Problem Solving Decision Making (PSD)

− − − − − −

Identifies, assesses and manages threats and errors in a timely manner Seeks accurate and adequate information from appropriate sources Identifies and verifies what and why things have gone wrong, if appropriate Perseveres in working through problems whilst prioritising safety Identifies and considers appropriate options Applies appropriate and timely decision-making techniques Monitors, reviews and adapts decisions as required Adapts when faced with situations where no guidance or procedure exists Demonstrates resilience when encountering an unexpected event

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Review of observable behaviors for monitoring

Competency

Observable Behaviors − − −

Situation awareness & management of − information (SAW) − − −

Monitors and assesses the state of the aircraft and its systems Monitors and assesses the aeroplane’s energy state, and its anticipated flight path Monitors and assesses the general environment as it may affect the operation Validates the accuracy of information and checks for gross errors Maintains awareness of the people involved in or affected by the operation and their capacity to perform as expected Develops effective contingency plans based upon potential risks associated with threats and errors Responds to indications of reduced situation awareness

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Review of observable behaviors for monitoring

Competency

Workload management (WLM)

Observable Behaviors − − − − − − − − −

Exercises self-control in all situations Plans, prioritises and schedules appropriate tasks effectively Manages time efficiently when carrying out tasks Offers and gives assistance Delegates tasks Seeks and accepts assistance, when appropriate Monitors, reviews and cross-checks actions conscientiously Verifies that tasks are completed to the expected outcome Manages and recovers from interruptions, distractions, variations and failures effectively while performing tasks

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Airplane Upset Prevention and Recovery Training A320 - Flight Control Laws - Summary

START

OCT 2022

Practical Advices •

Pay attention to the setting of your seat position and adjust your armrest carefully



Longitudinal control: G-load demand and automatic pitch trim provide longitudinal stability



Lateral control: Rate of roll demand, automatic turn coordination and Dutch roll damping provide lateral stability



You only need to perform minor corrections on the sidestick when the aircraft deviates from its intended flight path



When you sense an over control, you should set the sidestick to the neutral position



Aggressive and opposite flight control inputs must not be applied. Such inputs can lead to loads higher than the limit, and can result in structural damage or failure.

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Use of Rudder The rudder should not be used:



To induce roll



To counter roll induced by any type of turbulence



To complement the flight control laws for turn coordination and Dutch roll damping.

Rudder is used only during:



Crosswind operations (takeoff roll, flare, landing roll)



Asymmetric thrust (yaw moment compensations)



Loss of both yaw damper systems



Rudder trim runaway



Landing with abnormal landing gear position



Lack of roll efficiency in the case of severe damage.

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Flight Control Laws - Summary

A320

Normal Law Flight Mode

Alternate Law Flight Mode

Pitch

G-load demand with auto-trim and full envelope protections

G-load demand with auto-trim and with (or without) reduced protections

Roll

Roll rate demand with protection

Yaw

Mechanical control with automatic turn coordination and yaw oscillations damping

Direct Law

Direct law

(no auto-trim)

Direct law without protection Mechanical control with yaw oscillations damping only

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Mechanical control

(turn coordination and yaw damping lost)

Abnormal attitude law Due to extreme values in pitch, bank, angle of attack or speed A320

Abnormal Attitude Law

After recovery

Pitch

G-load demand without auto-trim and without protections (except g-load)

G-load demand with auto-trim and without protections (except g-load)

Direct law without protection

Roll

Yaw mechanical control

Yaw

(turn coordination and yaw damping lost)

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Airplane Upset Prevention and Recovery Training Elements of Aerodynamics

START

OCT 2022

The Angle of Attack

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The Angle of Attack

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The Angle of Attack

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The Angle of Attack

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The Angle of Attack

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The Recommended Maximum Altitude

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The Recommended Maximum Altitude

PROG page



The recommended maximum altitude is continuously updated in flight and based on the current gross weight and outside air temperature.



It provides the aircraft with a 0.3 g buffet margin, a minimum rate of climb at MAX CL thrust, and level flight at MAX CRZ thrust.



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The Recommended Maximum Altitude •

When flying at the maximum altitude, some margins are reaching their required minimum in terms of: • Thrust • Airspeed • Buffet threshold • Angle of attack, and • Bank angle, or any other maneuvers.

Any environmental factors such as icing conditions or turbulence could rapidly lead to a slowdown, a buffet onset, a stall condition and, subsequently, a high altitude upset. Any increase of outside air temperature during a flight at the maximum altitude shall be monitored as the performances will be impacted.

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Power-Drag Curve and Airspeed Stability

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Drag / Thrust

Power-Drag Curve and Airspeed Stability

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Drag / Thrust

Power-Drag Curve and Airspeed Stability

(Green dot)

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Drag / Thrust

Power-Drag Curve and Airspeed Stability

(Green dot)

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A sudden airspeed increase (or decrease) leads to a drag increase (or decrease), helping to return to the initial airspeed

Drag / Thrust

Power-Drag Curve and Airspeed Stability

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Power-Drag Curve and Airspeed Stability

A sudden airspeed increase (or decrease) leads to a drag increase (or decrease), helping to return to the initial airspeed

Drag / Thrust

Normal flight, “Front side of the Power-Drag curve”, or “First regime”

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Drag / Thrust

Power-Drag Curve and Airspeed Stability

A sudden airspeed decrease (or increase) leads to a drag increase (or decrease), pushing the aircraft to decelerate (accelerate) further

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Power-Drag Curve and Airspeed Stability

Drag / Thrust

Slow flight, “Backside of the PowerDrag curve”, or “second regime”

A sudden airspeed decrease (or increase) leads to a drag increase (or decrease), pushing the aircraft to decelerate (accelerate) further

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Power-Drag Curve and Airspeed Stability

Drag / Thrust

Slow flight, “Backside of the Power- Normal flight, “Front side of the Power-Drag curve”, or “First regime” Drag curve”, or “second regime”

(Green dot)

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Maximum Design Maneuvering Speed -VA

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Maximum Design Maneuvering Speed -VA •

Speed above which a single full deflection of any flight control surface should not be attempted due to a risk of damage to the airplane structure.



This limitation only applies in alternate or direct flight control laws.

CAUTION Rapid and large reversal control inputs, with large changes in pitch, roll or yaw,

may result in loads higher than the limit and structural failures at any speed, even below VA. In the event of such rudder inputs, the rudder travel limiter does not prevent structural damage or failure.

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A300-600 - VA

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A310 - VA

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A320 - VA

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A330 - VA

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A340-300 - VA

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A340-600 - VA

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A350-900 - VA

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A380 - VA

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Airplane Upset Prevention and Recovery Training Airplane Upset Recovery Techniques

START

OCT 2022

Upset Recovery Techniques – Reminder •

An airplane upset is an undesired airplane state characterized by unintentional divergences from parameters normally experienced during operations. An upset condition exists any time an airplane is diverging from what the pilots are intending it to do.



The first upset recovery actions must be effective and timely. Only engaged - and therefore situationally aware – pilots can effectively and timely recover from an upset.



Actions to recover from an upset encompass the following basic activities: 1. Become situationally aware and analyze the situation (Recognition) 2. Arrest the flight path divergence and recover to a stabilized flight path (Recovery).

These activities must be part of every upset recovery.

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Upset Recovery Techniques – Reminder •

All upset recovery techniques assume the airplane is NOT STALLED. When needed, RECOVER FROM STALL FIRST.



The techniques represent a logical progression for recovering the airplane. They are not necessarily procedural. The sequence of actions is for guidance only and represents a series of options for the pilot to consider and to use depending on the situation. Not all actions may, or should, be necessary once recovery is underway.



The Primary Flight Display (PFD) is the primary reference for recovery.



Exaggerated control inputs through reflex responses must be avoided. Control inputs to counter a developing upset must be smooth, positive, and proportional to the amount and rate of pitch, roll, or yaw experienced.



For more information, refer to the FCTM (Procedures / Abnormal and Emergency Procedures / Miscellaneous / Upset Prevention and Recovery)

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Upset Recovery Techniques – Nose High

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Upset Recovery Techniques – Nose High

Nose High Actions -

Recognize and confirm the situation

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Upset Recovery Techniques – Nose High

Troubleshooting the cause of the upset is secondary to initiating the recovery. However, the pilot still must recognize and confirm the situation before a recovery can be initiated. This means:

• Assess the energy: Energy state and energy rate of change CM1 • Confirm the airplane attitude: Pitch and bank angles

• Announce: “NOSE HIGH”

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CM2

Upset Recovery Techniques – Nose High

Nose High Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

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Upset Recovery Techniques – Nose High

If the AP and A/THR responses enable to stop the flight path divergence, the flight crew may keep the AP and A/THR engaged.

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?

Upset Recovery Techniques – Nose High

Nose High Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Apply nose down pitch order

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Upset Recovery Techniques – Nose High

The flight crew must apply as much nose down pitch order as required to obtain a nose down pitch rate. In the case of lack of pitch down authority, the flight crew may use incremental inputs on the trim (nose down) to improve the effectiveness of the elevator control. Note: Excessive use of pitch trim may make the upset situation worse or may result in high structural loads.

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Upset Recovery Techniques – Nose High

Nose High Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Apply nose down pitch order

-

Adjust the thrust

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Upset Recovery Techniques – Nose High

Select up to maximum thrust available while ensuring adequate pitch control. Increasing thrust may reduce the effectiveness of nose-down pitch control. It may be necessary to limit or reduce thrust to the point where control of the pitch is achieved.

CG

Pitch up moment of underwing mounted engines

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Upset Recovery Techniques – Nose High

Nose High Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Apply nose down pitch order

-

Adjust the thrust

-

Adjust the roll not to exceed 60 degrees

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Upset Recovery Techniques – Nose High

The bank angle must not exceed 60 degrees. If all normal pitch control techniques are unsuccessful, the flight crew can keep the current bank or bank the aircraft to enable the nose to drop toward the horizon. The bank angle should be the least possible to start the nose down and never exceed approximately 60 degrees. If the bank angle is already greater than 60 degrees, the flight crew should reduce it to an amount less than 60 degrees.

60 degrees maximum

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Upset Recovery Techniques – Nose High

Nose High Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Apply nose down pitch order

-

Adjust the thrust

-

Adjust the roll not to exceed 60 degrees

-

Recover the level flight

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Upset Recovery Techniques – Nose High

Recover to level flight at a sufficient airspeed while avoiding a stall due to premature recovery at low speed, or excessive gloading at high speed.

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Upset Recovery Techniques – Nose High

Nose High Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Apply nose down pitch order

-

Adjust the thrust

-

Adjust the roll not to exceed 60 degrees

-

Recover the level flight

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Upset Recovery Techniques – Nose Low

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Upset Recovery Techniques – Nose Low

Nose Low Actions -

Recognize and confirm the situation

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Upset Recovery Techniques – Nose Low

Troubleshooting the cause of the upset is secondary to initiating the recovery. However, the pilot still must recognize and confirm the situation before a recovery can be initiated. This means:

• Assess the energy: Energy state and energy rate of change CM1 • Confirm the airplane attitude: Pitch and bank angles

• Announce: “NOSE LOW”

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CM2

Upset Recovery Techniques – Nose Low

Nose Low Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

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Upset Recovery Techniques – Nose Low

If the AP and A/THR responses enable to stop the flight path divergence, the flight crew may keep the AP and A/THR engaged.

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?

Upset Recovery Techniques – Nose Low

Nose Low Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Recover from stall (if required)

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Upset Recovery Techniques – Nose Low

Even in a nose low situation, the aircraft may be stalled and it would be necessary to recover from a stall first.

This counter-intuitive action is just a reminder as you must always recover from stall first.

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Upset Recovery Techniques – Nose Low

Nose Low Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Recover from stall (if required)

-

Adjust the roll in the shortest direction to wings level

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Upset Recovery Techniques – Nose Low

In general, a nose low, high-angle-of-bank requires prompt action, because the decreasing altitude is rapidly being exchanged for an increasing airspeed. L or R? The bank angle indicator will show you the shortest direction to wings level.

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Upset Recovery Techniques – Nose Low

Nose Low Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Recover from stall (if required)

-

Adjust the roll in the shortest direction to wings level

-

Adjust the thrust and the drag

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Upset Recovery Techniques – Nose Low

The flight crew should reduce the thrust and/or use the speedbrakes to control the speed.

and/or

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Upset Recovery Techniques – Nose Low

Nose Low Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Recover from stall (if required)

-

Adjust the roll in the shortest direction to wings level

-

Adjust the thrust and the drag

-

Recover the level flight

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Upset Recovery Techniques – Nose Low

Recover to level flight at a sufficient airspeed while avoiding a stall due to premature recovery at low speed, or excessive gloading at high speed.

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Upset Recovery Techniques – Nose Low

Nose Low Actions -

Recognize and confirm the situation

-

Takeover and disconnect AP and A/THR (if required)

-

Recover from stall (if required)

-

Adjust the roll in the shortest direction to wings level

-

Adjust the thrust and the drag

-

Recover the level flight

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Airplane Upset Prevention and Recovery Training Extreme Attitude Training

START

OCT 2022

Extreme Attitude Training •

Aim: • To reinforce 3D mental picture in order to recognize and confirm developed upset situations.

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Extreme Attitude Training



Objectives: • To rapidly observe PFDs in upset situations • To recognize stall conditions, if any • To assess the airplane energy state and energy rate of change • To confirm the airplane attitude: Pitch and bank angles • To verbalize the situation (NOSE HIGH or NOSE LOW) • To determine actions to be performed for an effective recovery.

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Extreme Attitude Training

Display the next slide for 2 seconds only

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Extreme Attitude Training

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Extreme Attitude Training

Any stall? Energy state and rate of change? Airplane attitude: pitch and bank? Which actions for Nose High or Nose Low?

Find out the answers on the next slide…

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Extreme Attitude Training

Nose Low Actions

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-

Adjust the thrust and the drag, if necessary

-

Recover the level flight

Extreme Attitude Training

Display the next slide for 2 seconds only

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Extreme Attitude Training

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Extreme Attitude Training

Any stall? Energy state and rate of change? Airplane attitude: pitch and bank? Which actions for Nose High or Nose Low?

Find out the answers on the next slide…

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Extreme Attitude Training

Nose High Actions -

Apply nose down pitch order

-

Adjust the thrust

-

If all normal pitch control techniques are unsuccessful, adjust the roll not to exceed 60º

-

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Recover the level flight

Extreme Attitude Training

Display the next slide for 2 seconds only

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Extreme Attitude Training

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Extreme Attitude Training

Any stall? Energy state and rate of change? Airplane attitude: pitch and bank? Which actions for Nose High or Nose Low?

Find out the answers on the next slide…

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Extreme Attitude Training

Nose Low Actions (V/S is negative)

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-

Adjust the roll to the right to wings level

-

Adjust the thrust, if necessary

-

Recover the level flight

Extreme Attitude Training

Display the next slide for 2 seconds only

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Extreme Attitude Training

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Extreme Attitude Training

Any stall? Energy state and rate of change? Airplane attitude: pitch and bank? Which actions for Nose High or Nose Low?

Find out the answers on the next slide…

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Extreme Attitude Training

Nose Low Actions -

Roll to the left to wings level

-

Adjust the thrust and/or the drag, if necessary

-

Recover the level flight avoiding excessive g-loading

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Extreme Attitude Training

Display the next slide for 2 seconds only

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Extreme Attitude Training

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Extreme Attitude Training

Any stall? Energy state and rate of change? Airplane attitude: pitch and bank? Which actions for Nose High or Nose Low?

Find out the answers on the next slide…

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Extreme Attitude Training

Nose High Actions

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-

Apply nose down pitch order

-

Adjust the thrust

-

Reduce the roll not to exceed 60º

-

Recover the level flight

Extreme Attitude Training

Display the next slide for 2 seconds only

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Extreme Attitude Training

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Extreme Attitude Training

Any stall? Energy state and rate of change? Airplane attitude: pitch and bank? Which actions for Nose High or Nose Low?

Find out the answers on the next slide…

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Extreme Attitude Training

Nose Low Actions -

Roll to the right to wings level

-

Adjust the thrust and the drag

-

Recover the level flight avoiding excessive g-loading

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Extreme Attitude Training

Display the next slide for 2 seconds only

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Extreme Attitude Training

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Extreme Attitude Training

Any stall? Energy state and rate of change? Airplane attitude: pitch and bank? Which actions for Nose High or Nose Low?

Find out the answers on the next slide…

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Extreme Attitude Training

Stall recovery -

Apply nose down pitch order (reduce the AOA and unload)

In the case of lack of pitch down authority, reducing thrust may be necessary -

Simultaneously, bank to left to wings level

When out of stall: Apply the appropriate upset recovery technique

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Extreme Attitude Training

Display the next slide for 2 seconds only

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Extreme Attitude Training

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Extreme Attitude Training

Any stall? Energy state and rate of change? Airplane attitude: pitch and bank? Which actions for Nose High or Nose Low?

Find out the answers on the next slide…

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Extreme Attitude Training

Stall recovery -

Apply nose down pitch order (reduce the AOA)

-

Bank to the right to wings level

When out of stall: -

Increase the thrust smoothly as needed

-

Check speed brakes retracted

-

Recover smoothly the level flight avoiding a stall due to premature recovery at low speed

-

Select FLAPS 1, if speed is still lower than VFE Next

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A320/A330

CLICK TO EDIT MASTER TITLE STYLE WINDSHEAR Symptoms

TAKEOFF

MEMORY ITEM

i

APPROACH/ LANDING

MEMORY ITEM

PREDICTIVE WINDSHEAR

REACTIVE WINDSHEAR

PREDICTIVE WINDSHEAR

REACTIVE WINDSHEAR

PROC

PROC

PROC

PROC

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XFTDN3WINDSHR01 – JUL 2021

CLICK TO EDIT MASTER TITLE STYLE WINDSHEAR SYMPTOMS

 PFD:

 ND:

• Speed Trend, unusual A/THR activity,

• Ground Speed,

• Speed margin to VLS,

• Wind Direction / Velocity.

• FPV, • V/S excursions, • Heading variations, • Pitch attitude, • Glide slope deviation. ILS 33R

BACK

CREDICTIVE LICK TO EDIT MASTER TITLE STYLE P WINDSHEAR AT TAKEOFF PF

PM “ MONITOR RADAR DISPLAY ” or “ WINDSHEAR AHEAD, WINDSHEAR AHEAD ” Before takeoff roll:

TAKEOFF……........…………...………........…….…..DELAY MOST FAVORABLE RWY…………………..………SELECT TOGA THRUST for T.O…………………………….SELECT

During the takeoff roll: TAKEOFF……........…………...……….....…….…..REJECT If “ MONITOR RADAR DISPLAY ” is displayed during takeoff roll, it is the decision of the Captain to: - Continue with the takeoff, or - Reject the takeoff

When airborne: THR LEVERS..…………...………....…….……………TOGA AP (if engaged)…………………………………….KEEP ON SRS ORDERS……………..………………………..FOLLOW

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CREDICTIVE LICK TO EDIT MASTER TITLE STYLE P WINDSHEAR AT TAKEOFF

WINDSHEAR ALERT ZONES Alerts available from ground up to 1200ft: ADVISORY ALERT AREA i

CAUTION ALERT AREA i

WARNING ALERT AREA i

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CREDICTIVE LICK TO EDIT MASTER TITLE STYLE P WINDSHEAR AT TAKEOFF ADVISORY ALERTS  No message on the PFD,  No aural alert,  Only the windshear icon is displayed on the ND.

PWS SCAN

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P WINDSHEAR AT TAKEOFF CREDICTIVE LICK TO EDIT MASTER TITLE STYLE CAUTION ALERTS

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“ MONITOR RADAR DISPLAY ”

ILS 33R

PWS SCAN

CREDICTIVE LICK TO EDIT MASTER TITLE STYLE P WINDSHEAR AT TAKEOFF WARNING ALERTS

“ WINDSHEAR AHEAD, WINDSHEAR AHEAD ”

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LICK TO EDIT MASTER IN TITLE STYLE PC REDICTIVE WINDSHEAR APPROACH For ADVISORY and CAUTION alerts refer to predictive windshear at takeoff. WARNING ALERTS

“ GO AROUND, WINDSHEAR AHEAD ” ILS 33R

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CRLICK TO EDIT MASTER AT TITLE STYLE EACTIVE WINDSHEAR TAKEOFF PF

PM

A red flag “ WINDSHEAR” is displayed on each PFD associated with an aural synthetic voice “ WINDSHEAR ” repeated three times.

“ WINDSHEAR, WINDSHEAR, WINDSHEAR ”

Below V1 with significant airspeed variations:

“ STOP” TAKEOFF……........…………...……….....…….…..REJECT After V1:

“ WINDSHEAR TOGA” THR LEVERS..…………...………....…….……………TOGA REACHING VR……………………………………….ROTATE SRS ORDERS……………..………………………..FOLLOW  DO NOT CHANGE CONFIGURATION (SLATS/FLAPS, GEAR) UNTIL OUT OF WINDSHEAR.  CLOSELY MONITOR FLIGHT PATH AND SPEED.  RECOVER SMOOTHLY TO NORMAL CLIMB OUT OF WINDSHEAR.

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P WINDSHEAR WHEN AIRBORNE CREDICTIVE LICK TO EDIT MASTER TITLE STYLE, PF

INITIAL CLIMB

“ WINDSHEAR AHEAD, WINDSHEAR AHEAD ”

THR LEVERS TOGA…...…….......…….SET OR CONFIRM AP (if engaged)…………………………………….KEEP ON SRS ORDERS……………..………….……………..FOLLOW

PM

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CP LICK TO EDIT MASTERINTITLE STYLE REDICTIVE WINDSHEAR APPROACH PF

PM “MONITOR RADAR DISPLAY” or windshear suspected

APPROACH…………………………..…………….…..DELAY DIVERSION………………………………………..CONSIDER However, if the flight crew decide to perform the approach CONF 3 LDG…………...…….............................CONSIDER VAPP increase (max 15 KTS)……….......….....CONSIDER The flight crew may increase VAPP displayed on MCDU PERF page. The use of managed speed is recommended to take advantage of ground speed mini function.

“GO AROUND WINDSHEAR AHEAD”

GO AROUND…………...…….....................…….PERFORM AP (if engaged)…………………………………….KEEP ON

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CLICK TO EDIT MASTERIN TITLE STYLE REACTIVE WINDSHEAR APPROACH PF

PM

A red flag “ WINDSHEAR ” is displayed on each PFD associated with an aural synthetic voice “ WINDSHEAR ” repeated three times.

“ WINDSHEAR, WINDSHEAR, WINDSHEAR ”

THR LEVERS TOGA…...…….......…….SET OR CONFIRM AP (if engaged)…………………………………….KEEP ON SRS ORDERS……………..…………….…………..FOLLOW

 DO NOT CHANGE CONFIGURATION (SLATS/FLAPS, GEAR) UNTIL OUT OF WINDSHEAR.  CLOSELY MONITOR FLIGHT PATH AND SPEED.  RECOVER SMOOTHLY TO NORMAL CLIMB OUT OF WINDSHEAR.

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