A330-200/300 Differences from A318/A319/A320/A321 (CFM56/V2500) Navigation PDF

Summary

This document is a training manual about navigation systems for the A330-200/300 aircraft. It details differences between this model and similar aircraft, including control and indicating systems for various navigation tools. The manual is specifically for training purposes only. Information is included on the Air Data and Inertial Reference System (ADIRS), radio navigation tuning, ADIRS switching, and more.

Full Transcript

A330-200/300 DIFFERENCES FROM A318/A319/A320/A321
(CFM56/V2500)
TRAINING MANUAL

NAVIGATION
THIS MANUAL IS FOR TRAINING PURPOSES ONLY AND SHOULD NOT BE USED
FOR ANY OTHER PURPOSE
THESE NOTES ARE NOT UPDATED

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NAVIGATION
Navigation System Control & Indicating (2).................... 2
WEATHER RADAR
GENERAL
Weather Radar Component Location (2)..................... 144
ADIRS & Standby Instruments General Description. (3).......... 4 WXR/PWS D/O (3)..................................... 148
Radio Navigation Tuning Description (3)..................... 10
ATC/TCAS/T2CAS/T3CAS
ADIRS
ATC/TCAS Component Location (2)........................ 160
ADIRS System Component Location (2)...................... 12 ATC/TCAS/T2CAS/T3CAS D/O (3)........................ 164
ADIRS D/O (3)......................................... 20 Navigation System Operation, Control & Indicating (3)......... 184
ADIRS Switching D/O (3)................................. 28
Navigation System Line Maintenance (2)..................... 32
ISIS
Stand By Instruments Component Location (2)................. 46
Standby Instruments D/O (3)............................... 48
MMR
Multi Mode receivers Component Location (2)................. 60
MMR D/O (3)........................................... 66
VOR/MKR-DME-ADF-DDRMI
VOR System Component Location (2)....................... 78
VOR/MKR-DME-ADF D/O (3)............................ 80
TAWS/EGPWS
EGPWS System Component Location (2)..................... 94
TAWS/EGPWS D/O (3)................................... 98
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RADIO ALTIMETER
Radio altimeter System Component Location (2).............. 138
Radio Altimeter D/O (3).................................. 142

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NAVIGATION SYSTEM CONTROL & INDICATING (2)
LOCATE CONTROL/INDICATING IN THE COCKPIT
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This Page Intentionally Left Blank
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ADIRS & STANDBY INSTRUMENTS GENERAL DESCRIPTION. (3)
GENERAL
The Air Data and Inertial Reference System (ADIRS) is composed of
three identical Air Data and Inertial Reference Units (ADIRUs), one
ADIRS Mode Selector Unit (ADIRS MSU) and several sensors. The
ADIRUs receive information from the sensors in order to compute air
data and internal laser gyros and accelerometers to compute inertial data.
This data is displayed to the crew and sent to the MCDU and other aircraft
systems. The sensors also send information to the Integrated Standby
Instrument System (ISIS) for standby display.
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GENERAL

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ADIRS & STANDBY INSTRUMENTS GENERAL DESCRIPTION. (3)
ADIRS GENERAL SWITCHING
The ADIRU SWITCHING panel is located on the center pedestal. In
The ADIRUs are used as primary means of navigation. Each ADIRU is normal configuration, ADIRU 1 supplies the CAPT EFIS, and heading
a combination of an Air Data Reference (ADR) and an Inertial Reference to the DDRMI. ADIRU 2 supplies the F/O EFIS and ADIRU 3 is in
(IR) inside a single unit. standby. In case of failure of the ADR or IR function of ADIRU 1 or
INPUTS 2, the affected instruments and displays can be manually switched to
ADIRU 3 by turning the switch on the SWITCHING panel.
The ADIRUs receive data from several air data sensors. Pitot and
static inputs are processed by Air Data Modules (ADMs) and sent to CONTROLS
the ADIRUs, in addition, the information from the Angle Of Attack The ADIRS MSU is used to turn the ADIRUs on and off. The
(AOA) and Total Air Temperature (TAT) sensors send their OFF/NAV/ATT switch controls of the ADIRS MSU allow to power
information directly to the ADIRUs. Standby pitot and static data are each ADIRU. The ADIRS MSU provides FAULT/OFF indications
also sent to the ISIS. The inertial part of the ADIRUs receives Global of the IR and ADR parts of the ADIRUs. It also enables switching
Positioning System (GPS) information from the Multi Mode Receiver from normal operation mode to back-up mode in case of loss of
(MMR). The GPS is optional on the A330/A340-200/300. navigation capability. In this case, only attitude and heading
COMPUTATION information is available.
IRS initialization is normally performed through the FMGEC via the
The ADIRUs inertial part calculates and outputs: attitude, heading,
MCDU. The MCDU also displays ADIRS parameters. The Flight
angular rate, acceleration, vertical speed, aircraft position and ground
Control Unit (FCU) provides the capability of adjusting the barometric
speed. The ADIRUs air data part provides anemometric data such as
reference to the ADIRUs.
airspeed, Mach number, static and total temperature, and barometric
altitude.
NOTE: Note : with the latest version of the Flight Management
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OUTPUTS System (FMS), an auto-alignment by GPS is available.
The ADIRUs provide information to many of the Line Replaceable INTERFACE
Units (LRUs) as well as attitude and heading information displayed
The ADIRUs are directly connected to different user systems [Flight
on the PFD and ND via the Display Management Computers (DMCs).
Warning Computer (FWC), Full Authority Digital Engine Control
ADIRU 1 and ADIRU 3 provide heading data to the Digital Distance
(FADEC), DDRMI],and to the Flight Control Computers (FCCs).
and Radio Magnetic Indicator (DDRMI).
The wiring between the RAs and the ADIRUs is for the Indicated Air
Displayed heading data is referenced to true or magnetic north, control
Speed (IAS).
of the type of output is selectable by the flight crew via the
true/MAGnetic pushbutton. The ADIRUs also provide information
to the Flight Management Guidance and Envelope Computer
(FMGEC) for flight management purposes.
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ADIRS GENERAL - INPUTS... INTERFACE

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ADIRS & STANDBY INSTRUMENTS GENERAL DESCRIPTION. (3)
ISIS GENERAL
The ISIS replaces three conventional standby instruments:
- the standby altimeter,
- the standby horizon indicator,
- the standby airspeed indicator.
PRESENTATION
ISIS is composed of:
- a pressure module with its associated pressure sensors,
- an inertial module with its associated gyroscopes and accelerometers,
- a computation module for operational parameters calculation
(altitude, airspeed, attitude) and graphics generation,
- a display module (color liquid crystal display).
DISPLAY
ISIS can display:
- airspeed and Mach number,
- pitch and roll angles,
- lateral acceleration,
- altitude,
- ILS information,
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- reference barometric pressure in Hpa.
Optionally, ISIS can also display:
- metric altitude,
- barometric correction in IN.HG,
- magnetic heading.
MAINTENANCE/TEST FACILITIES
ISIS is fitted with a BITE. Specific maintenance and test menus are
directly accessible by using the keys on the front face of the
instrument. ISIS is connected to the Central Maintenance Computer
(CMC) for BITE status interrogation.

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ISIS GENERAL - PRESENTATION... MAINTENANCE/TEST FACILITIES

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RADIO NAVIGATION TUNING DESCRIPTION (3)
valid FMGEC controls its own side receivers, via its own side RMP and
GENERAL the opposite receivers directly.
The aircraft is fitted with the following radio navigation aids: BACKUP TUNING
- 2 VOR receivers,
- 2 DME receivers, If both FMGECs have failed, the receivers can be manually tuned via the
- 2 ILS receivers, RMPs. This is the backup tuning mode. The CAPT and F/O use their
- 2 ADF receivers (1 or 2 ADF are optional on A340-500/600). RMPs to control their own side receivers. The ILS course and frequency
are the only radio navigation data exchanged (ILS 1 and ILS 2 must be
AUTOMATIC TUNING identical).
In normal operation, each Flight Management Guidance and Envelope
NOTE: Note: the third RMP does not operate in radio navigation backup
Computer (FMGEC) automatically tunes its own side receivers via its
mode.
associated Radio Management Panel (RMP). This is the automatic tuning
mode presented in the schematic below.

MANUAL TUNING
In manual tuning mode, the crew uses the RADIO NAV page on the
CAPT or F/O MCDU. The manual settings are sent to the corresponding
receivers via the FMGECs and the RMPs. When MCDUs 1 and 2 are
ON, it is not possible to use MCDU 3 for manual tuning.

MCDU SWITCHING
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If one MCDU has failed and has been set to OFF, the third MCDU will
take over. If the CAPT and F/O MCDUs are set to OFF, MCDU 3 operates
as the CAPT MCDU.

FM SWITCHING
In case of failure of a single FMGEC, the switching panel can direct the
control of all the radio navigation receivers to the remaining FMGEC. If
one FMGEC fails, manually switching to the remaining FMGEC must
be performed through the Flight Management (FM) rotary switch. The

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GENERAL... BACKUP TUNING

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ADIRS SYSTEM COMPONENT LOCATION (2)
ADIRUs LOCATION
The 3 ADIRUs are installed in the avionics compartment.
To get access to ADIRU 1 and 2, the floor 122JF (floor in front of the
800 VU rack) must be removed.
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ADIRUS LOCATION

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ADIRS SYSTEM COMPONENT LOCATION (2)
ADIRS MSU PANEL LOCATION
The ADIRS MSU (Mode Selector Unit) is installed on the overhead
panel, left hand side.
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ADIRS MSU PANEL LOCATION

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ADIRS SYSTEM COMPONENT LOCATION (2)
SWITCHING PANEL LOCATION
The switching panel is installed on the forward part of the pedestal. The
switching panel is used for the selection of the IR or the ADR part of
ADIRU 3 when there is a malfunction of ADIRU 1 or 2.
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SWITCHING PANEL LOCATION

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ADIRS SYSTEM COMPONENT LOCATION (2)
PITOT AND STATIC PROBES
The pitot and static probes are installed on the nose and the forward
fuselage. The pitot and static probes are connected to 8 Air Data Modules
(ADM). The ADMs do a conversion of the air pressure into digital format
and they send these data to the ADIRUs.

NOTE: The position of the CAPT, F/O and Stand-by static ports can
change with the different aircraft versions and types and the
different A/C aerodynamic shapes (fuselage length, location of
engines, etc.).
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PITOT AND STATIC PROBES

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ADIRS D/O (3)
respectively connected to ADR1 and ADR3. For the F/O TAT sensor,
ADIRU PRINCIPLE only one sensing element is connected to ADR2.
The Air Data/Inertial Reference Unit (ADIRU) comprises an Air Data
NOTE: Optionally, a specific TAT sensor installed with a tube
Reference (ADR) and an Inertial Reference (IR) both included in a single
receives compressed air picked up on the bleed air muscle
unit.
pressure line manifold. This compressed air induces a suction
SENSOR CONNECTION effect and creates airflow inside the sensor. This type of
TAT sensor is used to compensate the solar heating effect
The probes are connected to the ADR of the ADIRU. on the ground.
STATIC PORTS WATER DRAIN AND HEATING
CAPT and F/O static ports directly provide static pressure to 4 Air The probes are installed in such a way that their pressure lines do not
Data Modules (ADMs) which convert this pressure into digital format. require a water drain except for the stand-by static line. The probe
ADR1 and ADR2 compute the average static pressure value from the and sensor heating is achieved through the probe heating system.
left and right ADMs. Standby static ports provide an average pressure
directly to the Integrated Standby Instrument System (ISIS) indicator
and to a single ADM connected to ADR3.
PITOT PROBES
The three pitot probes directly provide the total pressure to three
ADMs. The standby pitot probe also supplies the standby airspeed
indicator function of the ISIS indicator.
ANGLE OF ATTACK SENSOR
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Each Angle Of Attack (AOA) sensor provides a primary and a backup
signal to each ADIRU. In case of failure, the selection is automatically
made by the ADIRU. The AOA sensor is equipped with a self-test
device which is activated from the MCDU through the ADIRU. The
AOA sensors are also called Alpha probes.
TOTAL AIR TEMPERATURE SENSORS
Each Total Air Temperature (TAT) sensor has two independent sensing
elements. For the CAPT TAT sensor, sensing elements 1 and 2 are

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ADIRU PRINCIPLE & SENSOR CONNECTION

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ADIRS D/O (3)
AIR DATA MODULE
The static and pitot probes are connected with the ADIRU through the
ADMs.
ADM INPUTS
The 8 ADMs are identical and the ADIRU provides 13.5V DC to
supply each associated ADM. The ADM inputs have one pressure
input and several discrete inputs. The discrete inputs determine the
ADM location and the type of pressure data (pitot or static) to provide
to the ADR.
ADM FUNCTIONAL DESCRIPTION
A microcomputer processes an ARINC signal according to the discrete
inputs and to the digitized pressure.
ADM OUTPUT
The ADM output is an ARINC bus, which provides digital pressure
information, type of pressure, ADM identification and BITE status
to the ADIRU.

ADR COMPUTATION
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The ADR processes sensor and ADM inputs in order to provide air data
to users.

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AIR DATA MODULE & ADR COMPUTATION

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ADIRS D/O (3)
ADR COMPUTATION (continued)
AIR DATA MONITORING FUNCTION
When the crew selects all ADRs OFF, the Backup Speed Scale and
backup altitude scale replace at the same time the normal speed and
altitude scale on the two PFDs. The backup altitude scale displays the
GPS Altitude. This makes it possible for the flight crew to fly at a
safe speed and altitude when there is an unreliable speed/altitude
indication.
The air data monitoring function makes it possible to fly at a safe
speed, stay above the stall speed and below the maximum structural
speeds. The function lets the pilots reach a safe speed by an adjustment
of the thrust and the pitch. The two red areas show the range in which
the speed is too fast and the range in which the speed is less than the
stall speed. The amber areas show the range of high speeds with an
appropriate margin to the maximum structural speeds and the range
of low speeds with an appropriate margin to the stall. The green area
shows the safe speed range. The target speed (green) is the most
satisfactory speed. During approach, it shows the target speed for the
approach.
The GPS ALT flag (white) is an indication that the GPS altitude
replaces the barometric altitude. When amber dashes are on the last
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two digits, they are an indication of a degraded altitude display mode.

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ADR COMPUTATION - AIR DATA MONITORING FUNCTION

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ADIRS D/O (3)
IR COMPUTATION
Three accelerometers, one for each axis, provide linear accelerations.
Three ring laser gyros, provided with two laser beams, circulating into a
ring, provide inertial rotation rate for each axis. Each ADIRU provides
IR data to users by combining the computation of the signals provided
by the laser gyros and the accelerometers outputs.
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IR COMPUTATION

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ADIRS SWITCHING D/O (3)
PRINCIPLE
The Air Data/Inertial Reference System (ADIRS) is composed of three
Air Data/Inertial Reference Units (ADIRUs). [ Various instruments and
systems receive data from the ADIRS such as the PFD, the ND, the
ECAM SD for inertial and air data display, via the Display Management
Computers (DMCs), or directly for the Digital Distance and Radio
Magnetic Indicator (DDRMI).
The ADIRS provides barometric altitude to the mode S of the ATC
transponder.
The ADIRS provides data to the Flight Management Guidance and
Envelope Computer (FMGEC) for aircraft position computation and for
the computation of various characteristic speeds.
The ADIRS provides data to the Weather Radar (WXR) system for
antenna attitude stabilization.
Basically, ADIRU 1 is associated with system 1 and the DDRMI, ADIRU
2 with system 2, and ADIRU 3 is in standby.
If an Air Data Reference (ADR) or an Inertial Reference (IR) fails, the
AIR DATA or ATTitude HeaDingG selector enables the crew to use
ADR 3 or IR 3. The manual switching is mainly performed to recover
displays. The computers select their inputs according to the switching
for consistency of computation and display.
GCL13151 - GEHT0M0 - FM34D2F34AE0302

NOTE: Each FMGEC receives data from the 3 ADIRUs. The switching
only concerns characteristic speeds.
The ADIRU data sent to the ECAM SD are Static Air
Temperature (SAT), Total Air Temperature (TAT) and
International Standard Atmosphere (ISA).

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GCL13151 - GEHT0M0 - FM34D2F34AE0302

PRINCIPLE

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ADIRS SWITCHING D/O (3)
SWITCHING
Here is an example of ADIRS switching IR 1 failed in order to see the
effect on the schematic.
GCL13151 - GEHT0M0 - FM34D2F34AE0302

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GCL13151 - GEHT0M0 - FM34D2F34AE0302

SWITCHING

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NAVIGATION SYSTEM LINE MAINTENANCE (2)
GENERAL
The Air Data and Inertial Reference System (ADIRS) is composed of
three identical Air Data and Inertial Reference Units (ADIRUs), one
ADIRS Mode Selector Unit (ADIRS MSU) and several sensors. The
ADIRUs receive information from the sensors in order to compute air
and internal laser gyros and accelerometers to compute inertial data. This
data is displayed to the crew and sent to the MCDU and other A/C
systems. The sensors also send information to the Integrated Standby
Instrument System (ISIS) for standby display.
GCL13151 - GEHT0M0 - FM34B1000000001

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GENERAL

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NAVIGATION SYSTEM LINE MAINTENANCE (2)
ADIRS - ALIGNMENT
BATTERIES TEST

NOTE: Note: There is no specific ADIRS battery.
ALIGNMENT OF THE IRS
The Flight Management Guidance and Envelope System (FMGES)
uses the reference point coordinates of the departure airport to align
the Inertial Reference System (IRS). It automatically calls these up
from the database after the operator has entered a company route or
an origin-destination city pair and pressed the ALIGN IRS on the
MCDU. The operator can manually adjust these coordinates to the
gate position. A complete alignment takes 10 minutes. A specific
alignment procedure has to be respected beyond 73°and 82° north or
south (to refer to FCOM documentation). The alignment procedure
is not possible beyond 82° north or south.
GCL13151 - GEHT0M0 - FM34B1000000001

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ADIRS - ALIGNMENT - BATTERIES TEST & ALIGNMENT OF THE IRS

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NAVIGATION SYSTEM LINE MAINTENANCE (2)
ADIRS - ALIGNMENT (continued)
AUTOMATIC ALIGNMENT BY GPS (OPTION)
With the latest ADIRUs, an optional automatic alignment by GPS
position is possible. This initialization by GPS does not require any
operator action. Less than 1 minute after setting the ADIRS to NAV,
the INIT page displays the GPS position, without displaying the
ALIGN IRS prompt message. The complete alignment will take
between 5 and 10 minutes depending on the local latitude and up to
17 minutes between 73°and 82° north or south. If the operator enters
a company route, or an origin-destination city pair, the INIT page
displays the departure airport reference-point coordinates, and the
IRS ALIGN prompt message appears. If the prompt key is not pressed,
the ADIRS will be aligned on the GPS position. If the prompt key is
pressed the ADIRS will be aligned on the reference point coordinates
of the departure airport. The operator can also modify the indicated
aircraft position using the MCDU latitude and longitude keys of the
INIT page. In that case the ALIGN IRS prompt key will appear and
has to be pressed.
GCL13151 - GEHT0M0 - FM34B1000000001

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ADIRS - ALIGNMENT - AUTOMATIC ALIGNMENT BY GPS (OPTION)

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NAVIGATION SYSTEM LINE MAINTENANCE (2)
ADIRS - ALIGNMENT (continued)
FAST REALIGNMENT
During transit or en-route stops with brief ground times, the flight
crew may do a fast re-alignment by selecting from NAV to OFF and
then back to NAV within 5 seconds. The Inertial Reference (IR) starts
a 30 seconds realignment with existing attitude, heading angles and
velocities set to zero.

NOTE: Note: The ALIGN IRS prompt will appear and has to be
pressed to achieve the alignment. With the optional
automatic alignment by GPS, the procedure is the same
except that no pilot entry is necessary (no action needed on
the ALIGN IRS prompt).
GCL13151 - GEHT0M0 - FM34B1000000001

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ADIRS - ALIGNMENT - FAST REALIGNMENT

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NAVIGATION SYSTEM LINE MAINTENANCE (2)
INTERRUPTION DURING ALIGNEMENT NOTE: Note: If the test failed twice, the IRS detects a fault situation
(indications on MSU and EWD). In that case, switch the
EXCESSIVE MOTION ADIRUs to OFF, wait 20 seconds and try a complete new
If taxing or towing causes a step input exceeding a threshold, alignment.
alignment or rapid realignment is stopped and then the ADIRUs revert
to the beginning of a 10 minutes alignment. Step input threshold:
0.5ft/s, 30 seconds after motion has been detected, and no other motion
has occurred, a 10 minutes alignment begins.

NOTE: Note: It is not necessary to re-initialize the position if already
entered.
TEST OF STORED POSITION
When the initial position is entered, the ADIRUs check if it is within
a threshold of the computed position, which has been stored at the
last ADIRU shutdown. If not, an MCDU message "REALIGN IRS"
is displayed requiring insertion of the present position. Test threshold:
1° for latitude and longitude during alignment, 0.5° during rapid
realignment.

NOTE: Note: If the new position does not pass the test, the system
waits for another position entry. If the same position (out
GCL13151 - GEHT0M0 - FM34B1000000001

of the threshold) is entered twice, the ADIRUs accept it as
a deliberate choice.
TEST OF COMPUTED LATTITUDE
At the end of the alignment, the ADIRUs check if the entered latitude
is within a threshold of the self computed latitude. If not, an MCDU
message "REALIGN IRS" is displayed requiring insertion of the
present position. At a new position entry, the IRS alignment is
necessary. If this position passes the test, the alignment is completed.

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INTERRUPTION DURING ALIGNEMENT - EXCESSIVE MOTION... TEST OF COMPUTED LATTITUDE

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NAVIGATION SYSTEM LINE MAINTENANCE (2)
MAINTENANCE TIPS
In some situations, if you do not know the airport point coordinates, you
can waste time aligning the ADIRS and doing the maintenance task. For
example, the GPS is not available and you are not at your usual airport.
An easy way to retrieve the local data for longitude and latitude (to align
the ADIRS) can be to print out the Post Flight Report (PFR). On the PFR
header, the origin-destination city pair is normally presented. Take the 4
letters of the destination city and enter them, via the MCDU scratchpad
line, both in the "FROM" and "TO" fields of the INIT page, e.g.
"LFBO/KJFK". Then press on the ALIGN IRS prompt.
GCL13151 - GEHT0M0 - FM34B1000000001

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MAINTENANCE TIPS

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NAVIGATION SYSTEM LINE MAINTENANCE (2)
ADM PNEUMATIC CONNECTION
To connect the Air Data Module (ADM) quick-disconnect coupling,
make sure that you can see the blue ring on the coupling and pull it to
make sure that it is correctly attached.
GCL13151 - GEHT0M0 - FM34B1000000001

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ADM PNEUMATIC CONNECTION

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STAND BY INSTRUMENTS COMPONENT LOCATION (2)
STANDBY INSTRUMENTS COMPONENT LOCATION
The Integrated Standby Instrument System (ISIS) is installed on the main
instruments panel, captain side. The Standby Compass, which provides
the flight crew with the magnetic heading, is installed below the overhead
panel, attached by two screws.
GCL13151 - GEHT0M0 - FM34CACOMPLOC01

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STANDBY INSTRUMENTS COMPONENT LOCATION

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STANDBY INSTRUMENTS D/O (3)
GENERAL
The aircraft is fitted with a standby compass that displays the magnetic
heading, and one Integrated Standby Instrument System (ISIS), which is
a combined standby altimeter, horizon indicator and airspeed indicator.
The ISIS displays the following information:
- airspeed,
- mach number,
- pitch and roll angles,
- lateral acceleration,
- altitude in feet (ft),
- Glide Slope (G/S) and LOCalizer deviations,
- BAROmetric reference in hectopascals (hPa).
A light sensor on the ISIS front face automatically controls the display
brightness. As soon as the ISIS is energized, it shows the initialization
display for 90 s. This display has four yellow boxes indicating ATTitude,
SPeeD, ALTitude and INIT 90s.
GCL13151 - GEHT0M0 - FM34D3000000002

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GENERAL

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STANDBY INSTRUMENTS D/O (3)
STANDBY COMPASS
The standby compass provides the crew with magnetic heading. It consists
of a magnetic element rotating freely inside a compass bowl. The compass
bowl is immersed in a damping liquid. The magnetic element is linked
to a compass card, which moves behind a lubber line and gives the
magnetic heading. Rotating the standby compass on its mounting screws
can provide a correction of deviation. The upper mounting plate is
provided with graduations, which indicate the number of degrees of
deviation. A non-magnetic lamp assembly provides illumination of the
reading dial. Compensation is achieved by inserting a special key in two
holes, marked B and C, located below the graduated mounting plate. In
the cockpit, on the center vertical member, a label is installed and provides
information on the last calibration of the standby compass.

NOTE: Note: For the compensation, only the specific tool must be used.
It is not permitted to use magnetic screw drivers with metal
objects near it (no vehicles or other aircraft in a radius of 250ft,
no buildings with magnetic materials in a radius of 600ft around
the aircraft).
GCL13151 - GEHT0M0 - FM34D3000000002

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STANDBY COMPASS

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STANDBY INSTRUMENTS D/O (3)
provided the Computed Air Speed (CAS) is greater than 50 kts. In
ISIS case of a power supply cut-off less than 50 ms, there is no effect on
the display.
DESCRIPTION
The back of ISIS is equipped with two pressure connectors: OPERATION
- one is connected to the standby pitot probe for total pressure When ISIS is energized, a delay of 90 seconds is necessary for
acquisition, initialization. ISIS computes and displays its own air and inertial
- the other one is connected to the combined standby static probes for parameters. When the airspeed data is not valid, the ground speed
static pressure acquisition. information is given as a back-up by the Air Data/Inertial Reference
The ISIS indicator contains the following subassemblies: Unit (ADIRU) 1 or ADIRU 3 about the ATT/HDG selector switch
- one pressure module, position. The ADIRU also gives Ground Speed (GS) information for
- one inertial module, flight/ground condition, as a back-up. A BAROmetric selector knob
- one computation module, is used for the display and adjustment of the standard barometric
- one display module and, pressure in hPa. When the Landing System P/BSW, which is on the
- one interface module. upper right part of the indicator, is pushed, the G/S and LOC scales
The pressure module is connected to the total and static pressure come into view. With the BUGS P/BSW, the BUGS page can be
connectors. Each pressure line is connected to a pressure sensor in displayed. This page is used to program characteristic speeds and
the pressure module. The inertial module is composed of three altitudes displayed on the related speed and altitude scales. The (-)
gyrometers (gyrolaser) measuring angular speeds and two specific P/B is used to get access to the next bug and the (+) P/B to return to
linear accelerometers (pitch + roll). The computation module includes the previous bug. The computation module uses data from the pressure
a Central Processing Unit (CPU), which calculate the operational and inertial modules to process the air and inertial parameters. The
parameters (attitude, altitude and airspeed), and a graphic card, which pressure module sends the total and static pressure data and the inertial
receives the data from the CPU and sent it to the display module. The module sends accelerations and angular rates data. When they are
GCL13151 - GEHT0M0 - FM34D3000000002

display module is fitted on the front face of ISIS. It is of the Liquid computed, the parameters are sent to the display module for indication
Crystal Display (LCD) type. The front face is also fitted with several to the crew. The LS data is sent by the Multi-Mode Receiver (MMR)
knobs for operation purposes. The interface module is composed of: 1. The Air Data/Inertial Reference System (ADIRS) parameters
- a filtering board linked to an electrical connector at the back of ISIS, computed by ISIS are sent to the Flight Data Interface and
- the 28V DC power supply unit, Management Unit (FDIMU). The ISIS can operate from 0 to 600 kts
- the interface board which links the pressure, inertial, computation without deterioration of airspeed data. It can operate from -2,500 to
and display modules. 55,000 ft and up to 40,000 ft/min without deterioration of altimeter
data. For the horizon data, the ISIS can operate from -180 to +180
POWER SUPPLY
deg without deterioration.
ISIS is supplied with 28V DC from the ESSential BUS bar. In case
of loss of this bus bar, the HOT BUS bar automatically takes over,
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GCL13151 - GEHT0M0 - FM34D3000000002

ISIS - DESCRIPTION... OPERATION

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STANDBY INSTRUMENTS D/O (3)
ISIS (continued)