CH06 A330 FLT MGMT

Question 1

FLTMGT_01 Understand the control functions and indications on the ADIRS panel.

1. ON BAT Light

• The ON BAT light illuminates when one or more ______ is supplied only by the aircraft ________.
• It also illuminates for a few seconds at the beginning of a ________ ______ as part of the self test.

VOL. II, 34.2.12.2.7

Answer 1

FLTMGT_01 Understand the control functions and indications on the ADIRS panel.

1. ON BAT Light

• The ON BAT light illuminates when one or more IRs is supplied only by the aircraft batteries.
• It also illuminates for a few seconds at the beginning of a full alignment as part of the self test.

VOL. II, 34.2.12.2.7

Question 2

FLTMGT_01 Understand the control functions and indications on the ADIRS panel.

2. IR pbs
FAULT light - A fault is detected in the respective ______.

• Illuminated steady - The respective IR is ________.
• Flashing - Attitude and heading information may be recovered in ________ mode.
• OFF - If the pb is selected OFF, the OFF light ________ and the respective IR is selected off, without disabling the ________ portion of the ADIRU.

VOL. II, 34.2.12.2.7

Answer 2

FLTMGT_01 Understand the control functions and indications on the ADIRS panel.

2. IR pbs
FAULT light - A fault is detected in the respective IR.

• Illuminated steady - The respective IR is lost.
• Flashing - Attitude and heading information may be recovered in ATT mode.
• OFF - If the pb is selected OFF, the OFF light illuminates and the respective IR is selected off, without disabling the ADR portion of the ADIRU.

VOL. II, 34.2.12.2.7

Question 3

FLTMGT_01 Understand the control functions and indications on the ADIRS panel.

3. Mode Selectors

• OFF - Both the ________ and ________ of the respective IRU are ________.
• NAV - The ________ operating position.
• ATT - ________ mode.
  
  • ______ position information is lost.
  • In flight alignment is only possible in ________ mode.

VOL. II, 34.2.12.2.7

Answer 3

FLTMGT_01 Understand the control functions and indications on the ADIRS panel.

3. Mode Selectors

• OFF - Both the IR and ADR of the respective IRU are unpowered.
• NAV - The normal operating position.
• ATT - Attitude mode.
  
  • IR position information is lost.
  • In flight alignment is only possible in ATT mode.

VOL. II, 34.2.12.2.7

Question 4

FLTMGT_01 Understand the control functions and indications on the ADIRS panel.

4. ADR pbs

• FAULT light illuminated - A fault is detected in the respective ________.
• OFF - If the pb is selected OFF, the OFF light illuminates and the respective ________ is selected off, without disabling the______ portion of the ADIRU

Answer 4

FLTMGT_01 Understand the control functions and indications on the ADIRS panel.

4. ADR pbs

• FAULT light illuminated - A fault is detected in the respective ADR.
• OFF - If the pb is selected OFF, the OFF light illuminates and the respective ADR is selected off, without disabling the IR portion of the ADIRU

VOL. II, 34.2.12.2.7

Question 5

FLTMGT_02 Describe how to accomplish a full ADIRS alignment.

A green ____ ______ ______ memo is displayed on the ______ along with the approximate time until alignment is complete and navigation is possible (e.g., ____ ______ ______ > 7 MIN).

VOL. II, 34.2.13.2

Answer 5

FLTMGT_02 Describe how to accomplish a full ADIRS alignment.

A green IRS IN ALIGN memo is displayed on the UPPER E/WD along with the approximate time until alignment is complete and navigation is possible (e.g., IRS IN ALIGN > 7 MIN).

VOL. II, 34.2.13.2

Question 6

FLTMGT_03 Describe the errors that may be presented during an ADIRS alignment.

• The ______ ______ ______ along with the approximate time (e.g., ______ ______ ______ > 7 MIN) appears in _________ if the engines are running.

VOL. II, 34.2.13.6

Answer 6

FLTMGT_03 Describe the errors that may be presented during an ADIRS alignment.

• The IRS IN ALIGN along with the approximate time (e.g., IRS IN ALIGN > 7 MIN) appears in amber if the engines are running.

VOL. II, 34.2.13.6

Question 7

FLTMGT_03 Describe the errors that may be presented during an ADIRS alignment.

• Alignment errors can occur due to:
• excessive aircraft ________ during alignment,
• or a position ________.
• The green _____ _____ ____memo on the E/WD flashes during the alignment process if an alignment problem exists:
  
  • If excessive motion is detected, the alignment is automatically ________.
  • Each IRU memorizes the computed present position when it is _______._
  • If a significant ________ exists between the position entered on INIT page A and the last ________ position, the ______ ______ prompt is displayed again on INIT page A and the position must be______.

VOL. II, 34.2.13.6

Answer 7

FLTMGT_03 Describe the errors that may be presented during an ADIRS alignment.

• Alignment errors can occur due to:
• excessive aircraft movement during alignment,
• or a position disagreement.
• The green IRS IN ALIGN memo on the E/WD flashes during the alignment process if an alignment problem exists:
  
  • If excessive motion is detected, the alignment is automatically restarted.
  • Each IRU memorizes the computed present position when it is shutdown.
  • If a significant difference exists between the position entered on INIT page A and the last memorized position, the ALIGN IRS prompt is displayed again on INIT page A and the position must be re-entered.

VOL. II, 34.2.13.6

Question 8

FLTMGT_04 Describe the EFIS data switching process.

Normally, ADIRU 1 supplies data for:

• the ______ ________,
• ________,
• ________,
• and ATC transponder _______.

ADIRU 2 supplies data for:

• the______ ______ ______,
• ______,
• and ATC transponder ____.

ADIRU 3 normally does not provide information to the instrument system, and serves as a backup for ______ 1 or 2.

VOL. II,31.2.5.6

Answer 8

FLTMGT_04 Describe the EFIS data switching process.

Normally, ADIRU 1 supplies data for:

• the Captain’s PFD,
• ND,
• DDRMI,
• and ATC transponder 1.

ADIRU 2 supplies data for:

• the first officer’s PFD,
• ND,
• and ATC transponder 2.

ADIRU 3 normally does not provide information to the instrument system, and serves as a backup for ADIRU 1 or 2.

VOL. II,31.2.5.6

Question 9

FLTMGT_04 Describe the EFIS data switching process.

• Should a failure of either heading and attitude data, or air data be indicated on the EFIS:
  
  • ADIRU ________ can be selected as a backup for either pilot’s instruments by using the:
    
    • ______ ______ and
    • ______ ______ selectors.

VOL. II,31.2.5.6

Answer 9

FLTMGT_04 Describe the EFIS data switching process.

• Should a failure of either heading and attitude data, or air data be indicated on the EFIS:
  
  • ADIRU 3 can be selected as a backup for either pilot’s instruments by using the:
    
    • ATT HDG and
    • AIR DATA selectors.

VOL. II,31.2.5.6

Question 10

FLTMGT_04 Describe the EFIS data switching process.

Should a failure of either heading and attitude data, or air data be indicated on the EFIS:

• Selecting CAPT on 3 or F/O on 3 will transfer the data source from the normal source to _________ ____.
• In case of total failure of ADIRU 1 or 2, both the ________ ________and ___ ____ selectors will need to be selected to:
  
  • CA ON ____ or
  • F/O ON ____ as appropriate.

VOL. II,31.2.5.6

Answer 10

FLTMGT_04 Describe the EFIS data switching process.

Should a failure of either heading and attitude data, or air data be indicated on the EFIS:

• Selecting CAPT on 3 or F/O on 3 will transfer the data source from the normal source to ADIRU 3.
• In case of total failure of ADIRU 1 or 2, both the AIR DATA and ATT HDG selectors will need to be selected to:
  
  • CA ON 3 or
  • F/O ON 3 as appropriate.

VOL. II,31.2.5.6

Question 11

FLTMGT_05 Recall what flight instrument data is AD information vs IR information.

Air Data
• PFD

• Indicated ______/______
• Barometric ________
• ______ ______velocity (barometric)

• ND

• ________ Speed (______)

• SD

• ______ ______ ______ (________) and ________ __ __________ (______)

V2 34.2.12.2.3
34.2.12.2.5

Answer 11

FLTMGT_05 Recall what flight instrument data is AD information vs IR information.

Air Data
• PFD

• Indicated airspeed/Mach
• Barometric altitude
• Backup vertical velocity (barometric)

• ND

• True Air Speed (TAS)

• SD

• Total Air Temperature (TAT) and Static Air Temperature (SAT)
• *V2 34.2.12.2.3**
  34. 2.12.2.5

Question 12

FLTMGT_05 Recall what flight instrument data is AD information vs IR information.

Inertial Reference:

• PFD

• _A_______
• _V_______velocity
• F______ P______ vector
• _H_______ (______ or ______)
• _T_______

• ND

• _H_______ (true or magnetic)
• ______ wind direction and velocity
• W______ vector relative to the aircraft H________ (displayed as an arrow on the ________)
• _T_______
• G______ ______
• _P_______ (refined and provided via the FMS)

• DDRMI

• ________ (true or magnetic)

V2
34.2.12.2.5

Answer 12

FLTMGT_05 Recall what flight instrument data is AD information vs IR information.

Inertial Reference:

• PFD

• Attitude
• Vertical velocity
• Flight path vector
• Heading (true or magnetic)
• Track

• ND

• Heading (true or magnetic)
• True wind direction and velocity
• Wind vector relative to the aircraft heading (displayed as an arrow on the ND)
• Track
• Ground speed
• Position (refined and provided via the FMS)

• DDRMI

• Heading (true or magnetic)

V2
34.2.12.2.5

Question 13

FLTMGT_05 Recall what flight instrument data is AD information vs IR information. V2 34.2.12.2.3
34.2.12.2.5

Inertial Reference

• ND

• o ________g (true or magnetic)
• o True ________ direction and ________
• o Wind ________ relative to the aircraft ________ (displayed as an arrow on the ND)
• o ________
• o ________ speed
• o ________ (refined and provided via the FMS)

• DDRMI

• o _________ (true or magnetic)

Answer 13

FLTMGT_05 Recall what flight instrument data is AD information vs IR information. V2 34.2.12.2.3
34.2.12.2.5

Inertial Reference
• ND

• o Heading (true or magnetic)
• o True wind direction and velocity
• o Wind vector relative to the aircraft heading (displayed as an arrow on the ND)
• o Track
• o Ground speed
• o Position (refined and provided via the FMS)

• DDRMI

• o Heading (true or magnetic)

Question 14

FLTMGT_05 Recall what flight instrument data is AIR DATA AD information vs IR information. V2 34.2.12.2.3
34.2.12.2.5

Inertial Reference
• DDRMI

• o ___________ (_______ or ________)

Answer 14

FLTMGT_05 Recall what flight instrument data is AIR DATA AD information vs IR information. V2 34.2.12.2.3
34.2.12.2.5

Inertial Reference
• DDRMI

• o Heading (true or magnetic)

Question 15

FLTMGT_06 Describe how GPS is integrated into the navigational systems.

The aircraft has ________ GPS receivers.

• Each GPS receiver is integrated, along with the____ receivers, in a modular avionics unit called the:
  
  • ______ ______ ______ (MMR).
• Each MMR processes the data received and transmits it to its associated ________.
  
  • The ________ then calculates a combined ______-______ position (the GPIRS position).
  • The FMS uses the ______-______ position whenever GPS information is available.
  • In normal operation, ADIRU 1 and 3 are supplied by ________
    
    • ADIRU 2 is supplied by ________.
  • If one MMR receiver fails, the remaining receiver ________ supplies all ________

VOL. II, 34.2.14.1

Answer 15

FLTMGT_06 Describe how GPS is integrated into the navigational systems.

The aircraft has two GPS receivers.

• Each GPS receiver is integrated, along with the ILS receivers, in a modular avionics unit called the:
  
  • Multi Mode Receiver (MMR).
• Each MMR processes the data received and transmits it to its associated ADIRU.
  
  • The ADIRU then calculates a combined GPS-IRS position (the GPIRS position).
  • The FMS uses the GP-IRS position whenever GPS information is available.
  • In normal operation, ADIRU 1 and 3 are supplied by MMR 1
    
    • ADIRU 2 is supplied by MMR 2.
  • If one MMR receiver fails, the remaining receiver automatically supplies all ADIRUs

VOL. II, 34.2.14.1

Question 16

FLTMGT_06 Describe how GPS is integrated into the navigational systems.

Multi Mode Receiver (MMR):

• Each MMR processes the data received and transmits it to its associated ________.
• The ________ then calculates a combined ______-______ position (the ________ position).

The FMS uses the ______-______ position whenever GPS information is available.

• In normal operation, ______ __ and __ are supplied by MMR 1
• and ______ __ is supplied by MMR 2.
• If one ________ receiver fails, the remaining receiver automatically supplies all ADIRUs

VOL. II, 34.2.14.1

Answer 16

FLTMGT_06 Describe how GPS is integrated into the navigational systems.

Multi Mode Receiver (MMR):

• Each MMR processes the data received and transmits it to its associated ADIRU.
• The ADIRU then calculates a combined GPS-IRS position (the GPIRS position).

The FMS uses the GP-IRS position whenever GPS information is available.

• In normal operation, ADIRU 1 and 3 are supplied by MMR 1
• and ADIRU 2 is supplied by MMR 2.
• If one MMR receiver fails, the remaining receiver automatically supplies all ADIRUs

VOL. II, 34.2.14.1

Question 17

FLTMGT_06 Describe how GPS is integrated into the navigational systems. VOL. II, 34.2.14.1

The FMS uses the GP-IRS position whenever GPS information is available.

In normal operation, ADIRU 1 and 3 are supplied by MMR 1 and ADIRU 2 is supplied by MMR 2.

If one MMR receiver fails, the remaining receiver automatically supplies all ADIRUs

Answer 17

FLTMGT_06 Describe how GPS is integrated into the navigational systems. VOL. II, 34.2.14.1

The FMS uses the GP-IRS position whenever GPS information is available.

In normal operation, ADIRU 1 and 3 are supplied by MMR 1 and ADIRU 2 is supplied by MMR 2.

If one MMR receiver fails, the remaining receiver automatically supplies all ADIRUs

Question 18

FLTMGT_06 Describe how GPS is integrated into the navigational systems.

Note: Do not enter the gate coordinates unless GPS is inoperative.

• When GPS is operative, the ADIRUs calculate a _____–_____ hybrid position which is more accurate than the gate position.

VOL. II, 34.2.14.1

Answer 18

FLTMGT_06 Describe how GPS is integrated into the navigational systems.

Note: Do not enter the gate coordinates unless GPS is inoperative.

• When GPS is operative, the ADIRUs calculate a GPS-IR hybrid position which is more accurate than the gate position.

VOL. II, 34.2.14.1

Question 19

FLTMGT_07 Describe the Polar navigation features.

• Due to ______ ______ anomalies, only true heading is available in the polar regions.
• True heading may be selected for display at any time using the ______ ______ pb on the forward instrument panel.
• If TRUE is not selected when approaching the polar regions, the _____ _____ _____message is displayed on the _____.
• If TRUE is not selected manually, a switchover to TRUE will occur ________ accompanied by an ________ message.
• VOL. II, 34.4.4.15

Answer 19

FLTMGT_07 Describe the Polar navigation features.

• Due to magnetic field anomalies, only true heading is available in the polar regions.
• True heading may be selected for display at any time using the NORTH REF pb on the forward instrument panel.
• If TRUE is not selected when approaching the polar regions, the SELECT TRU REF message is displayed on the ND.
• If TRUE is not selected manually, a switchover to TRUE will occur automatically accompanied by an ECAM message.
• VOL. II, 34.4.4.15

Question 20

FLTMGT_07 Describe the Polar navigation features.

Caution: If the heading reference is allowed to switch over automatically, an ________ disconnect may occur.

• This is because a heading ________ may occur if all ________ do not reach the switch over ________ simultaneously.

VOL. II, 34.4.4.15

Answer 20

FLTMGT_07 Describe the Polar navigation features.

Caution: If the heading reference is allowed to switch over automatically, an autopilot disconnect may occur.

• This is because a heading disagreement may occur if all IRUs do not reach the switch over latitude simultaneously.

VOL. II, 34.4.4.15

Question 21

FLTMGT_07 Describe the Polar navigation features. VOL. II, 34.4.4.15

When selected heading references on the PFDs, NDs, and DDRMI are relative to true north:

• _______is displayed above the _______ and _______ heading scales.

VOL. II, 34.4.4.15

Answer 21

FLTMGT_07 Describe the Polar navigation features. VOL. II, 34.4.4.15

When selected heading references on the PFDs, NDs, and DDRMI are relative to true north:

• TRU is displayed above the PFD and ND heading scales.

VOL. II, 34.4.4.15

Question 22

FLTMGT_07 Describe the Polar navigation features.

• The heading reference will not ____________ switch back to _______ when magnetic heading information becomes available.
  
  • Selection of ________ should be delayed until clear of the polar region.

VOL. II, 34.4.4.15

Answer 22

FLTMGT_07 Describe the Polar navigation features.

• The heading reference will not automatically switch back to MAG when magnetic heading information becomes available.
  
  • Selection of MAG should be delayed until clear of the polar region.

VOL. II, 34.4.4.15

Question 23

FLTMGT_08 Recall where to find the navigational accuracy level in the MCDU.

GPS PRIMARY:

• GPS PRIMARY is displayed when the ________ navigation mode is ______ ______
• When GPS PRIMARY is not available or navigation mode is not GPS/IRS, the field is ________.
• The MCDU scratchpad and ______ displays the message ______ ______ when the field first appears
  
  • and _______ ______ _______ when the field becomes blank.
• VOL. II, 34.6.8.1. 11-14

Answer 23

FLTMGT_08 Recall where to find the navigational accuracy level in the MCDU.

GPS PRIMARY:

• GPS PRIMARY is displayed when the FMS navigation mode is GPS PRIMARY.
• When GPS PRIMARY is not available or navigation mode is not GPS/IRS, the field is blank.
• The MCDU scratchpad and ND displays the message GPS PRIMARY when the field first appears
  
  • and GPS PRIMARY LOST when the field becomes blank.
• VOL. II, 34.6.8.1. 11-14

Question 24

FLTMGT_08 Recall where to find the navigational accuracy level in the MCDU.

REQUIRED:

• The REQUIRED field displays the default value for the _____ ____________ ______ (______) level in NM for the current area or procedure.
  
  • The field can be modified if a different ________ value is known for the particular area or procedure.

VOL. II, 34.6.8.1. 11-14

Answer 24

FLTMGT_08 Recall where to find the navigational accuracy level in the MCDU.

REQUIRED:

• The REQUIRED field displays the default value for the Required Navigation Performance (RNP) level in NM for the current area or procedure.
  
  • The field can be modified if a different RNP value is known for the particular area or procedure.

VOL. II, 34.6.8.1. 11-14

Question 25

FLTMGT_08 Recall where to find the navigational accuracy level in the MCDU.

ACCUR:

• The ACCUR field displays the evaluation of the ________ accuracy value as compared to the ________ accuracy level.
• If the ________ position error is equal to or ______ ______ the ________ value, the field displays ________.
• If the error is greater than the ________ value the field displays ________.
• VOL. II, 34.6.8.1. 11-14

Answer 25

FLTMGT_08 Recall where to find the navigational accuracy level in the MCDU.

ACCUR:

• The ACCUR field displays the evaluation of the ESTIMATED accuracy value as compared to the REQUIRED accuracy level.
• If the ESTIMATED position error is equal to or less than the REQUIRED value, the field displays HIGH.
• If the error is greater than the REQUIRED value the field displays LOW.
• VOL. II, 34.6.8.1. 11-14

Question 26

FLTMGT_08 Recall where to find the navigational accuracy level in the MCDU.

ESTIMATED:

• The ESTIMATED field displays the current estimated ______ ______ in NM as computed by the ________.

VOL. II, 34.6.8.1. 11-14

Answer 26

FLTMGT_08 Recall where to find the navigational accuracy level in the MCDU.

ESTIMATED:

• The ESTIMATED field displays the current estimated position error in NM as computed by the FMS.

VOL. II, 34.6.8.1. 11-14