Takeoff, Climb and Cruise
This guide will explain the correct procedures to accomplish takeoff, climb and establish cruise altitude.
Disclaimer
This is for simulation purposes only.
The level of detail in this guide is meant to get an Airbus A380 beginner safely up in the air and to cruise level under normal conditions, while simplifying details which are not (yet) important for a beginner.A beginner is defined as someone familiar with flying a GA aircraft or different types of airliners. Aviation terminology and know-how is a requirement to fly any airliner, even in Microsoft Flight Simulator.
MSFS Start from Gate or Runways
Microsoft Flight Simulator allows you to start your flight from cold & dark at a gate or directly from the runway with the aircraft ready for takeoff.
For this guide, we assume you started cold & dark at the gate and taxied to the runway holding point as per the previous chapters of this beginner guide.
If you did start on the runway, you have to make sure to set up the FMS and APS correctly anyway as otherwise the aircraft won't work as expected. You can't fly an airliner without a proper setup.
You can then skip the first part (Lineup) and directly continue reading Takeoff.
Prerequisites
Aircraft is in TAXI
state as per previous chapters.
Chapters / Phases
This guide will cover these phases:
Base Knowledge About the Airbus A380 for Flight
Base Knowledge About the Airbus A380 for Flight
This section is focused on differences to other non-Airbus airliners a user might be used to.
What is a Fly-by-Wire System?
Traditional mechanical and hydro-mechanical flight control systems use a series of levers, rods, cables, pulleys and more, which pilots move to adjust control surfaces to aerodynamic conditions. Their "hands on" design gives pilots a direct, tactile feel for how the aircraft is handling aerodynamic forces as they fly. On the other hand, mechanical systems are also complicated to operate, need constant monitoring, are heavy and bulky, and require frequent maintenance.
In fly-by-wire systems, when the pilot moves flight controls, those movements are converted into electronic signals, which are then interpreted by the aircraft's Electrical Flight Control System (EFCS) to adjust actuators that move flight control surfaces. Computers also monitor sensors throughout the aircraft to make automatic adjustments that enhance the flight.
Because fly-by-wire is electronic, it is much lighter and less bulky than mechanical controls, allowing increases in fuel efficiency and aircraft design flexibility, even in legacy aircraft. And to prevent flight critical failure, most fly-by-wire systems also have triple or quadruple redundancy back-ups built into them. source: BAE Systems
See also: Fly-by-wire Wikipedia
What is Autotrim?
The A380 has a feature called "Autotrim", which makes it unnecessary to hold the sidestick or use the trim wheel for holding the current pitch. This system is always active, even when the Autopilot is off (in Normal Law, which means under normal circumstances with a fully functional aircraft).
What is Autothrust?
The A380 has Autothrust which is similar to Autothrottle (e.g., in a Boeing), but it does not move the thrust levers. Basically, the thrust levers are only moved by the pilot and never move on their own. The thrust levers act as a maximum allowed power setting for the Autothrust system. During normal flight (after takeoff) the levers stay in the CL climb detent, and the Autothrust system will set engine power accordingly.
What is Autopilot?
The A380's Autopilot system works a bit differently from other manufacturer's systems. The A380 FCU controls allow setting certain values and then push or pull the knobs. Pushing usually means automatic control (Managed Mode) and pulling will use the manually selected value (Selected Mode).
The FCU (Flight Control Unit) shows three important values:
- SPD "---":
Means the Autopilot is in Managed Speed mode (e.g., 250kt <10000ft, 290kt above).
If we pull the SPD knob we can select a speed which the Autopilot will then apply. - HDG "---":
Means the lateral navigation is in Managed HDG Mode and the Autopilot follows the planned route. Dialing the HDG knob will let us select a heading and by pulling the knob we tell the Autopilot to fly this heading (Selected Heading Mode). - ALT "5000":
Means the selected altitude is 5000ft
Using the FCU Knobs in Microsoft Flight Simulator
In Microsoft Flight Simulator, pushing is clicking the knob "UP" and pulling is clicking the knob "DOWN"
What are Flight Phases
The A380 uses flight phases to manage different parts of a flight. These are preflight, takeoff, climb, cruise, descent, approach, go around, done. See also: Flight Phases.
What are Flight Envelope Protections
The A380 includes many protections for the pilot, which make it nearly impossible to stall or overspeed the aircraft. It's beyond this beginner-guide to go into details (Normal law, Alternate Law, Alpha Floor, etc.)
Please refer to the A32NX Protections for more information on Protections on the A380 as the systems are similar.
1. Lineup
Situation
- ATC (Ground or Tower) has instructed us to hold at a runway holding point and wait until we are cleared to "line up"
or "take off".
- Aircraft is still in TAXI state (see previous chapters) and parking brakes are set.
Typically, it is here at the latest that we are asked to switch to Tower ATC frequency for takeoff clearance.
TAKEOFF OR LINEUP CLEARANCE ....................................... OBTAIN
If we are cleared to "line up" (or take-off) we will do the following steps.
What and Why
The following steps are done to ensure that the aircraft is ready for takeoff and that all systems are set up correctly.
CABIN CREW ........................................................ ADVISE
PACKS 1 and 2 .................................................AS REQUIRED
EXTERIOR LIGHTS ...................................................... SET
Exterior Lights
Set the RWY TURN OFF & CAMERA ON, the Landing light to ON, and the nose light to T.O.
TAXI (ETACS) (INOP)................................................... OFF
NAVIGATION DISPLAY RANGE ............................................. SET
Navigation Display Range
Set the ND range to at least see the first waypoint after takeoff.
ELECTRONIC FLIGHT INSTRUMENT SYSTEM CONTROL PANEL OPTIONS (EFIS)...... SET
EFIS Control Panel
It is recommended setting the weather radar on the pilot in command side, and the terrain radar on the pilot monitoring side.
The Weather Radar is currently not available for the FBW A380X for Microsoft Flight Simulator as the simulator does not provide the required data. The Terrain Radar is available and can be set to the pilot monitoring side.
TRAF .................................................................. ON
APPROACH PATH ................................................ CHECK CLEAR
STROBE LIGHTS ......................................................... ON
TAKEOFF RUNWAY ................................................... CONFIRM
SLIDING TABLE ..................................................... STOWED
TCAS TA ................................................. TA ONLY or TA/RA
Where and How?
Use the Flight Deck Overview to locate the items mentioned above. The Flight Deck Overview is a clickable cockpit that will show you where each item is located.
BEFORE TAKEOFF CHECKLIST (Line-Up - below the line .............. COMPLETE
Before Takeoff Checklist - Below the line
The Airbus A380 has a built-in checklist system that can be accessed via the Engine Warning Display (EWD).
To activate it you need to press the C/L
button on the
ECAM Control Panel (ECP).
You can navigate through the checklist by using the UP
and DOWN
buttons on the ECP. You can check/uncheck items
by pressing the buttons with the check mark on the ECP.
Some items are autosensed by the aircraft and will be checked automatically (e.g. Beacon).
Entering Runway
Before we start rolling, we visually check that no other aircraft is on final approach. We can also use TCAS on the ND to check for aircraft in the vicinity.
If everything is clear, we release the parking brake and slowly roll onto the runway in the direction of takeoff and come to a stop on the runway's center line.
There is also a rolling start, where we would not stop but directly apply thrust for takeoff once we are straight on the runway. But, as a beginner, a full stop is recommended so we can double-check everything.
When we reached our starting point, we stop and set the parking brakes.
If we were only cleared to "line up" we wait here until we get clearance to take off.
PARKING BRAKE ........................................................ SET
This concludes Lineup.
2. Takeoff
Situation
- Aircraft is on runway and fully setup for takeoff as per previous chapters.
Once we are cleared for takeoff, we will start the takeoff roll:
ATC CLEARANCE ................................................... OBTAINED
PACKS .......................................................CHECK AS REQ.
Takeoff Roll
PARKING BRAKE ........................................................ OFF
BRAKES ............................................................. PRESS
TAKEOFF ..........................................................ANNOUNCE
THRUST LEVERS ........................................................ 25%
BRAKES ........................................................... RELEASE
THRUST LEVERS ............................................ FLX/MCT OR TOGA
CHRONOMETER ........................................................ START
DIRECTIONAL CONTROL ........................................... USE RUDDER
PRIMARY FLIGHT DISPLAY and ENGINE indications ....................... SCAN
PFD
-
The PFD Flight Mode Annunciator (FMA) now shows several things which we should check when the aircraft starts rolling:
From the left:
- Thrust: set to MAN TOGA
- Vertical guidance:
- Active (green): SRS (pitch guidance to maintain V2+10)
- Armed (blue): CLB mode (is next after SRS is done)
- Lateral guidance:
- Active (green): RWY (automatic runway axis follow up through ILS use)
- Armed (blue): NAV (navigation guidance according to HDG knob)
- Autopilot:
- Flight Director, Autothrust:
TAKEOFF THRUST ..................................................... CHECK
Vertical and Lateral Guidance
Vertical and lateral guidance are only shown via Flight Director, as we have not turned on the Autopilot yet and need to be followed manually by the pilot.
Keep the aircraft on the center line while accelerating down the runway.
Monitor Speeds and V-Speeds
V-Speeds
There are three important speeds for takeoff, which we have configured earlier when programming the MCDU's PERF page for takeoff. These are shown on the PFD's speed tape.
V1: The speed beyond which takeoff should no longer be aborted. V1 is depicted as a cyan "1" next to the speedband in the PFD.
VR: Rotation speed. The speed at which the pilot begins to apply control inputs to cause the aircraft nose to pitch up, after which it will leave the ground. VR is depicted as a cyan circle next to the speedband in the PFD.
V2: Takeoff safety speed. The speed at which the aircraft may safely climb with one engine inoperative. V2 is depicted by a magenta triangle next to the speedband in the PFD.
On a long enough runway, V1 (depicted by "1") and VR (depicted by "o") are often very close together and can't be clearly distinguished on the PFD speed tape.
As we lift off from the ground, monitor the PFD's V/S band. As long as that shows a positive rate of climb we are ok to take the gear up. In real life the pilot monitoring would be the one to call out "positive rate of climb."
V1 ............................................................... MONITOR
At V1
The throttle hand remains on the thrust levers until reaching V1 to be able to quickly abort the start. Remove the hand from the thrust levers at V1 to avoid accidentally aborting after V1.
ROTATION ......................................................... PERFORM
Rotation
At VR apply smooth positive backward stick movement on the sidestick and aim for a rotation rate (pitch rate) of
3deg/sec for about 5 seconds (15°-18° pitch attitude). Once airborne, follow the flight director's
guidance for pitch attitude.
Count one-one thousand, two-one-thousand, etc. and hit 15 degrees at five-one-thousand - practice this.
POSITIVE CLIMB ................................................... CONFIRM
Positive Climb
The pilot flying (PF) will call out "Positive Climb" when the vertical speed indicator shows a positive rate of climb. The pilot monitoring (PM) will confirm this callout.
LANDING GEAR .......................................................... UP
Gear up
- We confirm that the landing gear is up by looking at the landing gear annunciators, and the lower SD Wheels page.
AUTOPILOT .................................................... AS REQUIRED
This concludes Takeoff.
3. Initial Climb
Situation
- Aircraft has left the ground and is climbing at about 15°.
After Takeoff
After takeoff, the aircraft will use FLX/MCT
or TO GA
thrust until thrust reduction altitude is reached (typically ~
1500 ft above runway, this is part of the FMS setup)
After reaching thrust reduction altitude, the PFD FMA
now shows a flashing LVR CLB message to instruct the pilot to
move thrust levers to the CL
detent.
THRUST LEVERS ......................................................... CL
A/THR........................................................ CHECK ACTIVE
Autothrust
This activates the Autothrust system (FMA shows A/THR
in white now). In the A380 (and most Airbus models) we will
not touch the thrust levers again before final approach and landing (under normal flight conditions).
The aircraft will now climb to the altitude selected in the FCU (in our case, 5.000ft).
PACKS 1 and 2 ................................................... AS REQ'D
AUTOPILOT .................................................... AS REQUIRED
Autopilot
Activate the Autopilot at this point by pressing the AP1 button on the FCU.
The FMA now shows AP1 in white in the upper-right corner.
At F speed: FLAPS 1 .................................................. SET
Flaps during takeoff and climb
Depending on the start configuration, there will be different markers next to the speedband in the PFD
to show when to
retract flaps:
CONF-2
(Flaps position 2): At "F" and positive speed trendCONF-1+F
(Flaps position 1): At "S" and positive speed trend
When reaching S-speed retract flaps.
S-speed is signified with an S next to the speed band in the PFD
.
We always retract flaps by only one step at a time. So, when we took off with FLAPS 2
(CONF-2
) we retract FLAPS
at "F" to FLAPS 1
. Then at "S" we retract them to FLAPS 0
.
At S speed: FLAPS ZERO ............................................... SET
EXTERIOR LIGHTS ...................................................... OFF
Taxi and Rwy Turn Off Lights
The TAXI
and RWY TURN OFF
lights are automatically switched off when the landing gear is retracted. The flight
crew should still move the switches to the OFF
position as part of after take off flows.
GROUND SPOILERS ................................................... DISARM
APU BLEED ............................................................ OFF
APU MASTER SWITCH .................................................... OFF
TCAS ............................................................... TA/RA
ANTI-ICE ..................................................... AS REQUIRED
How and Where
Use the Flight Deck Overview to locate the items mentioned above. The Flight Deck Overview is a clickable cockpit that will show you where each item is located.
At this point, the aircraft is climbing to the initially cleared altitude. The Autopilot will manage the climb to the selected altitude.
Departure ATC Check-In
This is usually a good time to contact ATC Departure to check in with your current altitude. In most cases, ATC will now give us a higher climb altitude. If we did not receive a higher altitude, we will level off at the previously cleared altitude (cleared by ATC or navigational charts). If we have the Autopilot activated, it will level off automatically at the Selected Altitude.
FLIGHT LEVEL ............................................. SET AS REQUIRED
Flight Level
Dial the newly cleared altitude into the FCU. (e.g., 15 000 ft) and push for managed climb (CLB) or pull for open climb (OP CLB)
Use OP CLB or CLB mode and not V/S
It is not recommended to use V/S for climbing or descending in the A380 (at least not for beginners) as the V/S guidance has priority over the speed guidance, and speed needs to be watched very closely when using V/S.
If the selected target V/S is too high (relative to the current thrust condition and speed), the FMGC will steer the aircraft to the target V/S, but the aircraft will also accelerate or decelerate. When the speed reaches its authorized limit, V/S automatically decreases to maintain the minimum or maximum speed limit.
See also Protections.
This concludes the Initial Climb.
4. Climb
Situation:
- Aircraft is climbing to or is at our initially cleared climb altitude.
- After takeoff checklist is completed.
- ATC has given us clearance for further climb.
CRUISE FLIGHT LEVEL ...................................... SET AS REQUIRED
Climb to Cruise Level
Typically, the climb to the flight plan's cruise level (e.g., FL240) happens in several steps (step climbs). Each to be instructed and cleared by ATC.
The aircraft will now continue climbing while managing thrust and pitch level. The Autopilot ensures that the aircraft stays at the Selected or Managed Speed setting and climbs to the new altitude while managing thrust automatically.
ANTI-ICE ..................................................... AS REQUIRED
At 10,000 feet
Turn off the landing lights, and if the aircraft is stable (good weather, no planned turns, etc.) you can turn off
the seatbelt signs. The aircraft will now accelerate to CLB speed (defined in MCDU PERF CLB
page).
LANDING LIGHT ........................................................ OFF
SEAT BELT SIGNS .............................................. AS REQUIRED
EFIS OPTIONS ................................................. AS REQUIRED
ECAM MEMO ......................................................... REVIEW
OPTIMAL/MAX ALTITUDE ............................................... CHECK
BAROMETRIC REFERENCE ........................................ SET STANDARD
At the transition altitude
When the aircraft reaches the transition altitude, the barometric setting will automatically flash on the primary flight display. It is recommended to set STD on the electronic flight instrument system control panel and on the integrated standby instrument system.
NOTE: this will vary depending on where you are in the world. For example, in the U.S. the transition altitude is
18,000 feet. In the Netherlands it is 3000. Check with your local aviation authority for more details. Upon passing the
set transition altitude, you will set your barometer to STD
, as notated in the Check Baro Setting item in the previous
section. Standard altitude is 29.92 in
or 1013 QNH
.
This concludes the Climb.
5. Cruise
Situation
- Aircraft has leveled off at planned cruise level.
- Speed is cruise speed as per ECAM PERF CRZ page.
ALT CRZ on flight mode annunciator ................................. CHECK
Cruise Phase
The FMA now shows ALT CRZ
in white in the second column of the FMA (Vertical Guidance). This means the aircraft is
in cruise mode and will maintain the selected altitude.
Verify that the aircraft is cruising on the cruise flight level inserted on the CRZ panel of the flight management system of the active performance page. This will ensure that the aircraft flies at the targeted cruise speed so fuel consumptions is optimized. This will also benefit to a soft autothrottle mode, as well have more accurate predictions.
This is usually the quietest time of the flight. It allows time to double-check the systems by going through all ECAM pages, etc.
ECAM MEMO ......................................................... REVIEW
SD PAGES .......................................................... REVIEW
FLIGHT PROGRESS .................................................. MONITOR
Regular ATC frequency changes with altitude and position check-ins are common.
Here are some typical activities which might happen during cruise mostly on request from ATC or other circumstances like weather, traffic, etc.
Altitude Change
Altitude change (also called flight level change)
Like before, during climb, set your new altitude in the FCU and push the ALT knob. The aircraft will descent or climb
to the new altitude automatically.
Course Change w/Selected Heading
Course change with Selected Heading (given or cleared by ATC)
Dial heading knob to the desired heading and pull knob for Selected Heading Mode. The aircraft will automatically
change course to the new heading. If you want the aircraft to follow the planned route again, you can push the knob
for Managed Heading Mode.
Direct course to a waypoint (DIR TO)
Direct course to a waypoint (DIR TO)
ATC regularly instructs us to go "direct to (waypoint) XYZ". Use the MFD F-PLN page to click the waypoint from the
flight plan's list of waypoints and select "FROM P.POS DIR TO". This bring you to the DIR TO page.
In rare cases it is a waypoint not in the current flight plan, then you enter the DIR TO page by using the DIR TO button on the bottom right of the MFD F-PLN page. There you can type in the waypoint name.
Confirm the change by pressing the "INSERT DIR TO*" button on the bottom right of the DIR TO page.
ATC requests specific speed
ATC requests specific speed
Sometimes ATC requests a specific speed to keep separation between aircraft. Pull the speed knob to switch to Selected
Speed Mode. The current speed will be preselected. Dial to the desired speed. The aircraft will immediately begin to
target the new speed by either increasing or decreasing thrust.
At some point (200-300 NM from destination) we would start with descent-planning and setting up the aircraft for descent and approach.
This concludes the Cruise.
Continue with Descent Planning and Descent