ILS ((MMR)) - DESCRIPTION AND OPERATION

** ON A/C NOT FOR ALL

1. General
The primary function of the Multi-Mode Receiver (MMR) is to receive and process Instrument Landing System (ILS) and Global Positioning System (GPS) signals. The MMR is a navigation sensor with two internal receivers.
The primary function of the Multi-Mode Receiver (MMR) is to receive and process Instrument Landing System (ILS) and Global Positioning System (GPS) signals.
The MMR also receives the approach data from the Global Navigation Satellite System (GNSS) Landing System (GLS) function.
The MMR is a navigation sensor with two internal receivers.

A. ILS Receiver
The function of the ILS is to provide the crew and airborne system users with lateral (LOC) and vertical (G/S) deviation signals, with respect to the approach ILS radio beam transmitted by a ground station.
The localizer operates in a frequency band which ranges from 108.1 MHz to 111.95 MHz and the glide uses the band from 329.15 MHz to 335 MHz as defined by ARINC specification 710.
The function of the ILS is to provide the crew and airborne system users with lateral (LOC) and vertical (G/S) deviation signals, with respect to the approach ILS radio beam transmitted by a ground station.
The localizer operates in a frequency band which ranges from 108.1 MHz to 111.95 MHz and the glide uses the band from 329.15 MHz to 335 MHz as defined by ARINC specification 710.

B. GPS Receiver
The GPS is a radio aid to worldwide navigation which provides:

the crew with a readout of accurate navigation information, e.g. position, track and speed
the Flight Management and Guidance Computer (FMGC) with position information, after hybridization in the Air Data/Inertial Reference Unit (ADIRU) with inertial parameters, for accurate position fixing.

** ON A/C NOT FOR ALL

2. Component Location

MMR - Component Location ** ON A/C NOT FOR ALL

The MMR system units are located in the aircraft as follows.

MMR - Component Location ** ON A/C NOT FOR ALL

The MMR system units are located in the aircraft as follows.

FIN	FUNCTIONAL DESIGNATION	PANEL	ZONE	ATA REF
** ON A/C NOT FOR ALL
40RT1	MMR-1	811	120	34-36-31
** ON A/C NOT FOR ALL
40RT2	MMR-2	96VU	120	34-36-31
** ON A/C NOT FOR ALL
40RT1	MMR-1	95VU	120	34-36-31
** ON A/C NOT FOR ALL
3RT	ANTENNA-LOCALIZER 1/2		110	34-36-11
** ON A/C NOT FOR ALL
3RT	ANTENNA-LOCALIZER 1/2	110AL	110	34-36-11
** ON A/C NOT FOR ALL
4RT	ANTENNA-GLIDE/SLOPE 1/2		110	34-36-18
** ON A/C NOT FOR ALL
4RT	ANTENNA-GLIDE/SLOPE 1/2	110AL	110	34-36-18
** ON A/C NOT FOR ALL
43RT1	ANTENNA-GPS ACTIVE, 1		210	34-36-16
43RT2	ANTENNA-GPS ACTIVE, 2		210	34-36-16
** ON A/C NOT FOR ALL
40RTMD1	GLS LICENCE MEDIA		210	34-36-00
41RTMD1	GLS LICENCE MEDIA		210	34-36-00

** ON A/C NOT FOR ALL

3. System Description

MMR - Monitoring and Display ** ON A/C NOT FOR ALL

MMR - Data Acquisition ** ON A/C NOT FOR ALL

MMR - Hybrid Architecture ** ON A/C NOT FOR ALL

The A/C comprises two independent MMRs, 40RT1 and 40RT2, linked to:

a common localizer antenna 3RT
a common glide/slope antenna 4RT
a GPS active antenna 43RT1 (linked to MMR1)
a GPS active antenna 43RT2 (linked to MMR2).

A. ILS Operation
The equipment given below can control the ILS operation:

the Multipurpose Control and Display Units (MCDU) and the Flight Management and Guidance Computers (FMGC) for frequency/course selection in normal operating mode.
the Radio Management Panels (RMPs) for frequency/course selection in back-up mode.

The ILS data are shown on the EFIS displays:

the CAPT Primary Flight Display (PFD) and F/O Navigation Display (ND) show the deviations from the ILS1.
the F/O PFD and CAPT ND show the deviations from the ILS2.

The Morse-coded audio identification signals are sent to the Audio Management Unit (AMU). These signals can be heard in the boomset and on the loudspeaker according to the selection by the crew on the Audio Control Panel (ACP).

B. GPS Operation

(1) Normal operation
In normal operation, the GPS 1 data are used by the ADIRUs 1 and 3; the GPS 2 data by the ADIRU 2.

NOTE: In order to reduce GPS initialization time, the GPS 1(2) receives data from the ADIRU 1(2).

The Inertial Reference (IR) portion of the ADIRU 1(2) provides the FMGC 1(2) with:

pure IR data
pure GPS data (in this case the ADIRU operates as a relay)
hybrid GPIR data.
The hybrid GPIR 1(2) data are used by the FMGC 1(2) for position fixing purposes.
The pure GPS data are used for display on the MCDU 1 and 2.

In case of one GPS failure, the three ADIRUs automatically select the only operative GPS to compute hybrid GPIR data.
In case of ADIRU 1 failure, the FMGC 1 uses ADIRU 3/GPS 1 data.
In case of ADIRU 2 failure, the FMGC 2 uses ADIRU 3/GPS 2 data.

NOTE: The primary source of the ADIRU 3 being the GPS 1, it is necessary to select the secondary input port of the ADIRU 3 (GPS 2) by means of the ATT HDG selector switch (13FP) to preserve side 1/side 2 segregation (GPS 1/ADIRU 1/FMGC 1 and GPS 2/ADIRU 3/FMGC 2 architecture).

In case of failure of two ADIRUs, the two FMGCs use only the operative ADIRU.
This ADIRU receives data from its own side GPS (e.g. ADIRU 1 - GPS 1).

C. GBAS Landing System (GLS) Function
The GLS function uses the ground stations and the GPS to calculate the approach data (Localizer (LOC) and Glide Slope (G/S)) for the landing system. The GLS function makes precision approaches possible (as does the Instrument Landing System (ILS)).
The GLS has these parts:

The GBAS ground station: for reference approach path, GPS differential corrections and integrity data uplink through the VHF Data Broadcast station.
The airborne part: receives and uses the VHF Data Broadcast signals from the GBAS station, with the GPS signals from the GPS satellite constellation to supply information on lateral and vertical directions.
The Multi-Mode Receiver (MMR) (40RT1 or 40RT2) receives the VHF Data Broadcast signal through the localizer antenna (3RT).

D. Maintenance Operation
The MMR system provides the Centralized Fault Display Interface Unit (CFDIU) with an interface for onboard testing and fault reporting purposes. The MCDUs show the maintenance data.

** ON A/C NOT FOR ALL

4. Power Supply
Each MMR system is energized through 115VAC busbars as follows:

401XP for system 1
204XP for system 2.
The system is supplied through these circuit breakers:

A. Circuit Breakers Table

PANEL	DESIGNATION	FIN	LOCATION
** ON A/C NOT FOR ALL
49VU	NAV/MMR/1	42RT1	G12
121VU	COM NAV/MMR/2	42RT2	L07

** ON A/C NOT FOR ALL

5. Interface

A. ILS Interface

(1) ILS digital outputs
The ILS transmits data in compliance with the low speed ARINC 429 standards. The table below contains all the output parameters in the numerical form.

-------------------------------------------------------------------------------

| PARAMETER LIST PARAMETER CHARACTERISTICS (NUMERIC) |

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

! 173 ! LOCALIZER!+ or - 0.155! DDM! 29 ! 12 ! 50 ! BNR! ! !

! ! DEVIATION! ! ! ! ! ms ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 174 ! GLIDE !+ or - 0.175! DDM! 29 ! 12 ! 50 !BNR ! ! !

! ! SLOPE ! ! ! ! ! ms ! ! ! !

! ! DEVIATION! ! ! ! ! ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 033 ! ILS !FROM 108.10 !MHz ! ! 15 !200 !BCD ! ! !

! ! FREQUENCY! TO 111.95 ! ! ! ! ms ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 017 ! RUNWAY ! FROM 0 TO !Deg.! ! 15 !300 !BCD ! ! !

! ! HEADING ! 359.9 ! ! ! ! ms ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 105 ! RUNWAY ! FROM 0 TO !Deg.! ! 11 !300 !BNR ! ! !

! ! HEADING ! 359.9 ! ! ! ! ms ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 263 !ILS GROUND! ! ! ! 14 !150 !HYB ! ! !

! ! STATION ! ! ! ! ! ms ! ! ! !

! ! IDENT ! ! ! ! ! ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 264 !ILS GROUND! ! ! ! 14 !150 !HYB ! ! !

! ! STATION ! ! ! ! ! ms ! ! ! !

! ! IDENT ! ! ! ! ! ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 271 ! MMR ! ! ! ! 19 !400 !DISC! ! !

! ! DISCRETE ! ! ! ! ! ms ! ! ! !

-------------------------------------------------------------------------------

(2) ILS digital outputs
The ILS transmits data in compliance with the low-speed ARINC 429 standards. The table below contains all the output parameters in numerical form.

-------------------------------------------------------------------------------

| PARAMETER LIST PARAMETER CHARACTERISTICS (NUMERIC) |

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

! 017 ! RUNWAY ! FROM 0 TO !Deg.! ! 14 !300 !BCD ! ! !

! ! HEADING ! 359.9 ! ! ! ! ms ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 033 ! ILS !FROM 108.10 !MHz ! ! 15 !200 !BCD ! ! !

! ! FREQUENCY! TO 111.95 ! ! ! ! ms ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 105 ! RUNWAY ! FROM 0 TO !Deg.! ! 11 !300 !BNR ! ! !

! ! HEADING ! 359.9 ! ! ! ! ms ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 173 ! LOCALIZER!+ or - 0.155! DDM! 29 ! 12 ! 50 !BNR ! ! !

! ! DEVIATION! ! ! ! ! ms ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 174 ! GLIDE !+ or - 0.175! DDM! 29 ! 12 ! 50 !BNR ! ! !

! ! SLOPE ! ! ! ! ! ms ! ! ! !

! ! DEVIATION! ! ! ! ! ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 263 !ILS GROUND! ! ! ! 14 !150 !HYB ! ! !

! ! STATION ! ! ! ! ! ms ! ! ! !

! ! IDENT ! ! ! ! ! ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 264 !ILS GROUND! ! ! ! 14 !150 !HYB ! ! !

! ! STATION ! ! ! ! ! ms ! ! ! !

! ! IDENT ! ! ! ! ! ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 271 ! MMR ! ! ! ! 19 !400 !DISC! ! !

! ! DISCRETE ! ! ! ! ! ms ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 354 ! MMR ! 50 - 1000 ! ! ! ! !ISO ! ! !

! ! IDENT ! ! ! ! ! ! #5 ! ! !

! ! ! ! ! ! ! ! ! ! !

! 356 ! MMR FAULT! FROM 50 TO ! ms ! ! ! !ISO ! ! !

! ! MESSAGE ! 250 (NORMAL! ! ! ! ! #5 ! ! !

! ! ! MODE) ! ! ! ! ! ! ! !

! ! ! FROM 3 TO ! ! ! ! ! ! ! !

! ! ! 30 (INTER- ! ! ! ! ! ! ! !

! ! ! -ACTIVE ! ! ! ! ! ! ! !

! ! ! MODE) ! ! ! ! ! ! ! !

! ! ! ! ! ! ! ! ! ! !

! 377 ! EQUIPMENT! 1000 ! ! ! ! !DISC! ! !

! ! ID ! ! ! ! ! ! ! ! !

-------------------------------------------------------------------------------

B. GPS Interface

(1) GPS digital outputs
The GPS has three independently buffered high-speed ARINC 429 digital output buses connected to the three ADIRUs.
The table below contains all the output parameters in numerical form.

-------------------------------------------------------------------------------

| PARAMETER LIST PARAMETER CHARACTERISTICS (NUMERIC) |

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

! ! ! ! ! ! ! ! ! !

! 060 ! MEASURE- ! Pack ! N/A! N/A! ! 1s ! ! !

! ! MENT STS ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! !+/-268435456! ! ! ! ! ! !

! 061 ! PSEUDO ! 256 ! M ! 20 ! ! 1s !BNR ! !

! ! RANGE ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 062 ! PSEUDO ! 256 ! M ! 11 ! ! 1s !BNR ! !

! ! RANGE ! 0.125 ! ! ! ! ! ! !

! ! FINE ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 063 ! RANGE ! +/-4096 ! M/S! 20 ! ! 1s !BNR ! !

! ! RATE ! 0.0039 ! ! ! ! ! ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 064 ! DELTA ! +/-4096 ! M ! 20 ! ! 1s !BNR ! !

! ! RANGE ! 0.0039 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 065 ! SV POS X ! +/-67108864! M ! 20 ! ! 1s !BNR ! !

! ! ! 64 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 066 ! SV POS X ! 64 ! M ! 14 ! ! 1s !BNR ! !

! ! FINE ! 0.0039 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! +/-67108864! ! ! ! ! ! !

! 070 ! SV POS Y ! 64 ! M ! 20 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 071 ! SV POS Y ! 64 ! M ! 14 ! ! 1s !BNR ! !

! ! FINE ! 0.0039 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 072 ! SV POS Z ! +/-67108864! M ! 20 ! ! 1s !BNR ! !

! ! ! 64 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 073 ! SV POS Z ! 64 ! M ! 14 ! ! 1s !BNR ! !

! ! FINE ! 0.0039 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! UTC MEA- ! 10.0 ! ! ! ! ! ! !

! 074 ! SURE TIME! 9.536743 ! S ! 20 ! ! 1s !BNR ! !

! ! ! micro sec ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ALT ! +/-131072 ! ! ! ! ! ! !

! 076 ! (MSL) ! 0.125 ! Ft ! 20 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! 1024 ! ! ! ! ! ! !

! 101 ! HDOP ! 0.031 ! N/A! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! 1024 ! ! ! ! ! ! !

! 102 ! VDOP ! 0.031 ! N/A! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS TRACK! +/-180 ! ! ! ! ! ! !

! 103 ! ANGLE ! 0.0055 ! Deg! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! +/-180 ! ! ! ! ! ! !

! 110 ! LATITUDE ! 0.000172 ! Deg! 20 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! +/-180 ! ! ! ! ! ! !

! 111 ! LONGITUDE! 0.000172 ! Deg! 20 ! ! 1s !BNR ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! 4096 ! ! ! ! ! ! !

! 112 ! GROUND ! 0.125 ! Kts! 15 ! ! 1s !BNR ! !

! ! SPEED ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! 0.000172 ! ! ! ! ! ! !

! 120 ! LATITUDE ! 8.38 E-8 ! Deg! 11 ! ! 1s !BNR ! !

! ! FINE ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! 0.000172 ! ! ! ! ! ! !

! 121 ! LONGITUDE! 8.38 E-8 ! Deg! 11 ! ! 1s !BNR ! !

! ! FINE ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 125 ! UTC ! 23:59.9 !HR: ! 5 ! ! 1s !BCD ! !

! ! ! 0.1 MIN !MIN ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! !HORIZONTAL! 16 ! NM ! 17 ! ! 1s !BNR ! !

! 130 ! INTEGRITY! 0.00012 ! ! ! ! ! ! !

! ! LIMIT ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! VERTICAL ! 32768 ! Ft ! 17 ! ! 1s !BNR ! !

! 133 ! INTEGRITY! 0.25 ! ! ! ! ! ! !

! ! LIMIT ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! VERTICAL ! 32768 ! ! ! ! ! ! !

! 136 ! FIGURE ! 0.125 ! Ft ! 18 ! ! 1s !BNR ! !

! ! OF MERIT ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! 1.0 ! ! ! ! ! ! !

! 140 ! UTC FINE ! 0.9536743 ! S ! 20 ! ! 1s !BNR ! !

! ! ! micro sec ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! UTC FINE ! 0.953674 ! S ! 10 ! ! 1s !BNR ! !

! 141 ! FRACTIONS! micron s ! ! ! ! ! ! !

! ! ! 0.9313225ns! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! APPROACH ! 16 ! NM ! 17 ! ! 1s !BNR ! !

! 143 ! AREA ! 0.00012 ! ! ! ! ! ! !

! ! HIL ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! APPROACH ! 32768 ! Ft ! 17 ! ! 1s !BNR ! !

! 144 ! AREA ! 0.25 ! ! ! ! ! ! !

! ! HIL ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! !HR: ! ! ! ! ! !

! 150 ! UTC ! 23:59:59 !MIN:! 17 ! ! 1s !BNR ! !

! ! ! 1.0 s !S ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 162 ! DEST ! 23:59 !HR: ! 11 ! !0.5s!BNR ! !

! ! ETA ! 1 MIN !MIN ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 163 ! ALT ! 23:59 !HR: ! 11 ! !0.5s!BNR ! !

! ! WAYPNT ! 1 MIN !MIN ! ! ! ! ! !

! ! ETA ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! VERTICAL ! +/-32768 ! Ft/! ! ! ! ! !

! 165 ! VELOCITY ! 1.0 ! Mn ! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! N/S ! +/-4096 ! ! ! ! ! ! !

! 166 ! VELOCITY ! 0.125 ! Kts! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! E/W ! +/-4096 ! ! ! ! ! ! !

! 174 ! VELOCITY ! 0.125 ! Kts! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 226 ! DATA ! N/A !N/A !N/A ! !N/A !ISO ! !

! ! LOADER ! ! ! ! ! !#5 ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! !HORIZONTAL! 16 ! ! ! ! ! ! !

! 247 ! FIGURE ! 6.1E-5 ! NM ! 18 ! ! 1s !BNR ! !

! ! OF MERIT ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! N/A !DAY:! ! ! ! ! !

! 260 ! DATE ! 1 Day !MON:! 6 ! ! 1s !BCD ! !

! ! ! !YEAR! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! ! ! ! ! ! ! !

! 273 ! SENSOR ! N/A !N/A !N/A ! ! 1s !DISC! !

! ! STATUS ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 343 ! DEST ! 16 !NM ! 11 ! !0.5s!BNR ! !

! ! HIL ! 0.0078 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ALT ! ! ! ! ! ! ! !

! 347 ! WAYPNT ! 16 !NM ! 11 ! !0.5s!BNR ! !

! ! HIL ! 0.0078 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 354 ! GPSSU ! N/A !N/A !N/A ! ! !ISO ! !

! ! IDENT ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 356 ! MAINT ! N/A !N/A !N/A ! ! !ISO ! !

! ! DATA ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! EQUIP- ! ! ! ! ! ! ! !

! 377 ! MENT ! N/A !N/A !N/A ! ! 1s !BCD ! !

! ! ID ! ! ! ! ! ! ! !

-------------------------------------------------------------------------------

(2) GPS digital outputs
The GPS has three independently buffered high-speed ARINC 429 digital output buses connected to the three ADIRUs.
The table below contains all the output parameters in numerical form.

-------------------------------------------------------------------------------

| PARAMETER LIST PARAMETER CHARACTERISTICS (NUMERIC) |

-------------------------------------------------------------------------------

-------------------------------------------------------------------------------

! ! ! ! ! ! ! ! ! !

! 057 ! USER ! ! ms ! ! ! !BNR ! !

! ! RANGE ! ! ! ! ! ! ! !

! ! ACCURACY ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 060 ! MEASURE- ! Pack ! N/A! N/A! ! 1s ! ! !

! ! MENT STS ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! !+/-268435456! ! ! ! ! ! !

! 061 ! PSEUDO ! 256 ! M ! 20 ! ! 1s !BNR ! !

! ! RANGE ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 062 ! PSEUDO ! 256 ! M ! 11 ! ! 1s !BNR ! !

! ! RANGE ! 0.125 ! ! ! ! ! ! !

! ! FINE ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 063 ! RANGE ! +/-4096 ! M/S! 20 ! ! 1s !BNR ! !

! ! RATE ! 0.0039 ! ! ! ! ! ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 064 ! DELTA ! +/-4096 ! M ! 20 ! ! 1s !BNR ! !

! ! RANGE ! 0.0039 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 065 ! SV POS X ! +/-67108864! M ! 20 ! ! 1s !BNR ! !

! ! ! 64 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 066 ! SV POS X ! 64 ! M ! 14 ! ! 1s !BNR ! !

! ! FINE ! 0.0039 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! +/-67108864! ! ! ! ! ! !

! 070 ! SV POS Y ! 64 ! M ! 20 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 071 ! SV POS Y ! 64 ! M ! 14 ! ! 1s !BNR ! !

! ! FINE ! 0.0039 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 072 ! SV POS Z ! +/-67108864! M ! 20 ! ! 1s !BNR ! !

! ! ! 64 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! ! ! ! ! ! ! !

! 073 ! SV POS Z ! 64 ! M ! 14 ! ! 1s !BNR ! !

! ! FINE ! 0.0039 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! UTC MEA- ! 10.0 ! ! ! ! ! ! !

! 074 ! SURE TIME! 9.536743 ! S ! 20 ! ! 1s !BNR ! !

! ! ! micro sec ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ALT ! +/-131072 ! ! ! ! ! ! !

! 076 ! (MSL) ! 0.125 ! Ft ! 20 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! 1024 ! ! ! ! ! ! !

! 101 ! HDOP ! 0.031 ! N/A! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! 1024 ! ! ! ! ! ! !

! 102 ! VDOP ! 0.031 ! N/A! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS TRACK! +/-180 ! ! ! ! ! ! !

! 103 ! ANGLE ! 0.0055 ! Deg! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! +/-180 ! ! ! ! ! ! !

! 110 ! LATITUDE ! 0.000172 ! Deg! 20 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! +/-180 ! ! ! ! ! ! !

! 111 ! LONGITUDE! 0.000172 ! Deg! 20 ! ! 1s !BNR ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! 4096 ! ! ! ! ! ! !

! 112 ! GROUND ! 0.125 ! Kts! 15 ! ! 1s !BNR ! !

! ! SPEED ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! 0.000172 ! ! ! ! ! ! !

! 120 ! LATITUDE ! 8.38 E-8 ! Deg! 11 ! ! 1s !BNR ! !

! ! FINE ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! 0.000172 ! ! ! ! ! ! !

! 121 ! LONGITUDE! 8.38 E-8 ! Deg! 11 ! ! 1s !BNR ! !

! ! FINE ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 125 ! UTC ! 23:59.9 !HR: ! 5 ! ! 1s !BCD ! !

! ! ! 0.1 MIN !MIN ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! !HORIZONTAL! 16 ! NM ! 17 ! ! 1s !BNR ! !

! 130 ! INTEGRITY! 0.00012 ! ! ! ! ! ! !

! ! LIMIT ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! VERTICAL ! 32768 ! Ft ! 18 ! ! 1s !BNR ! !

! 133 ! INTEGRITY! 0.125 ! ! ! ! ! ! !

! ! LIMIT ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! VERTICAL ! 32768 ! ! ! ! ! ! !

! 136 ! FIGURE ! 0.125 ! Ft ! 18 ! ! 1s !BNR ! !

! ! OF MERIT ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! 1.0 ! ! ! ! ! ! !

! 140 ! UTC FINE ! 0.9536743 ! S ! 20 ! ! 1s !BNR ! !

! ! ! micro sec ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! UTC FINE ! 0.953674 ! S ! 10 ! ! 1s !BNR ! !

! 141 ! FRACTIONS! micron s ! ! ! ! ! ! !

! ! ! 0.9313225ns! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! APPROACH ! 16 ! NM ! 17 ! ! 1s !BNR ! !

! 143 ! AREA ! 0.00012 ! ! ! ! ! ! !

! ! HIL ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! APPROACH ! 32768 ! Ft ! 17 ! ! 1s !BNR ! !

! 144 ! AREA ! 0.25 ! ! ! ! ! ! !

! ! VIL ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! !HR: ! ! ! ! ! !

! 150 ! UTC ! 23:59:59 !MIN:! 17 ! ! 1s !BNR ! !

! ! ! 1.0 s !S ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 162 ! DEST ! 23:59 !HR: ! 11 ! !0.5s!BNR ! !

! ! ETA ! 1 MIN !MIN ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 163 ! ALT ! 23:59 !HR: ! 11 ! !0.5s!BNR ! !

! ! WAYPNT ! 1 MIN !MIN ! ! ! ! ! !

! ! ETA ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! VERTICAL ! +/-32768 ! Ft/! ! ! ! ! !

! 165 ! VELOCITY ! 1.0 ! Mn ! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! N/S ! +/-4096 ! ! ! ! ! ! !

! 166 ! VELOCITY ! 0.125 ! Kts! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! E/W ! +/-4096 ! ! ! ! ! ! !

! 174 ! VELOCITY ! 0.125 ! Kts! 15 ! ! 1s !BNR ! !

! ! ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 226 ! DATA ! N/A !N/A !N/A ! !N/A !ISO ! !

! ! LOADER ! ! ! ! ! !#5 ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! !HORIZONTAL! 16 ! ! ! ! ! ! !

! 247 ! FIGURE ! 6.1E-5 ! NM ! 18 ! ! 1s !BNR ! !

! ! OF MERIT ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ! dd:mm:yr !DAY:! ! ! ! ! !

! 260 ! DATE ! 1 Day !MON:! 6 ! ! 1s !BCD ! !

! ! ! !YEAR! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! GPS ! ! ! ! ! ! ! !

! 273 ! SENSOR ! N/A !N/A !N/A ! ! 1s !DISC! !

! ! STATUS ! ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! 343 ! DEST ! 16 !NM ! 11 ! !0.5s!BNR ! !

! ! HIL ! 0.0078 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! ALT ! ! ! ! ! ! ! !

! 347 ! WAYPNT ! 16 !NM ! 11 ! !0.5s!BNR ! !

! ! HIL ! 0.0078 ! ! ! ! ! ! !

!--------------!----------!------------!----!----!----!----!----!-------------!

! ! EQUIP- ! ! ! ! ! ! ! !

! 377 ! MENT ! N/A !N/A !N/A ! ! 1s !BCD ! !

! ! ID ! ! ! ! ! ! ! !

-------------------------------------------------------------------------------

** ON A/C NOT FOR ALL

6. Component Description

A. MMR - External Description FIN: 40-RT-1 FIN: 40-RT-2

MMR - External Description ** ON A/C NOT FOR ALL

The face of the MMR is fitted with a handle, two attaching parts, a TEST pushbutton switch and three LEDs. The LRU STATUS LED has two colors (red/green).
The three LEDs have the following name, color and function:

LRU STATUS (red) indicates that an internal fault is detected during the front panel self-test sequence
LRU STATUS (green) indicates that no internal fault is detected during the front panel self-test sequence
CONTROL FAIL (red) indicates that no control input is available during the test sequence.
ANT FAIL (red) indicates that a failed antenna is detected during the test sequence.

The back of the MMR is equipped with one ARINC 600 size one connector, which includes three plugs:

Top Plug (TP): connection with the GPS antenna
Middle Plug (MP): service interconnection
Bottom Plug (BP): connection with the power supply circuit, and the LOC and G/S coaxial interconnections.

MMR - External Description ** ON A/C NOT FOR ALL

The face of the MMR is fitted with a handle, two attaching parts, two pushbutton switches and a Liquid Crystal Display. Either pushbutton switch can be used to enter the functional test mode in conjunction with various LCD screen menus or messages.
The common LCD pages are as follows:

Normal Mode page
Test in Progress page: pushing the PUSH TO TEST key on the Normal Mode page initiates the manual Functional Test and after one second, displays the Test in Progress page.
No Failure Test Complete page and Failure Present Test Complete page: these pages are accessible from the Test in Progress page. Pushing the MAINT key starts the display of the Maintenance Mode pages of the system.
Display-Fault Header Mode page: this page is selected by pushing the WHY? key on the Failure Present Test Complete page. By pushing the MORE key, the system cycles the Display-Fault Mode pages corresponding to the external failure present.
Flight Fault Memory Mode page: this page is selected by pushing the MORE key on the last Maintenance Mode page. Pushing the YES key allows the previous flight leg failures to be displayed. Pushing the MORE key returns the system back to the first Maintenance Data page.
Data Recorder Mode page: this page is displayed when a Data Recorder Card is inserted into the front panel slot.
Program Load pages

The back of the MMR is equipped with one ARINC 600 size-one connector, which includes three plugs:

Top Plug (TP): connection with the GPS antenna
Middle Plug (MP): service interconnection
Bottom Plug (BP): connection with the power supply circuit, and the LOC and G/S coaxial interconnections.

B. MMR - Internal Description FIN: 40-RT-1 FIN: 40-RT-2

MMR - Block Diagram ** ON A/C NOT FOR ALL

The MMR consists of four parts:

the power supply unit
the ILS receiver
the GPS receiver
the system processor unit.

MMR - Block Diagram ** ON A/C NOT FOR ALL

The MMR consists of three subsystems:

the ILS subsystem
the GNSS subsystem
the common subsystem.

The primary function of the MMR is to receive and process ILS and GPS signals. The ILS receiver and the GPS receiver make up two of the subassemblies. The ILS signals, including both localizer and glideslope, are used to determine flight path deviations during precision approach and landing, and are supplied to the aircraft flight control and instrument systems. These deviations are based on radio frequency signals that the unit receives from a ground-based instrument landing system.
The GPS receiver simultaneously tracks signals from up to twelve GPS satellites. The signals are processed to generate a three-dimensional position and a precise time. The receiver generates an estimate of the positional accuracy provided. An integrity alert is activated if an unannounced satellite malfunction is detected. The receiver has the capability of excluding satellites that are malfunctioning.
The system processor card has the functions that follow:

output position and deviation data to other aircraft systems,
receive ILS frequency selections,
receive ADIRU & FMGC data for GPS initialization,
dialog with the Centralized Fault Display Interface Unit (CFDIU).

it outputs position and deviation data to other aircraft systems,
it receives ILS frequency selections,
it receives ADIRU and FMGC data for GPS initialization,
it dialogs with the Centralized Fault Display Interface Unit (CFDIU).

(1) Power supply
The aircraft supplies the 115 VAC, 400 Hz, single phase power to the MMR. The input power is routed from the rear interconnect to the forward power supply. The forward power supply provides power factor corrections, and outputs +200 VDC for the aft power supply. The aft power supply steps the +200 VDC down to +/- 6.5 and +/- 13.5 VDC outputs. These unregulated voltages are routed to the other subassemblies where they are post-regulated to +/- 5 VDC and +/- 12 VDC. Post-regulation provides a level of separation between the subassemblies and possible noise on the power lines. It will also allow shut-off of the circuit areas when not needed for a specific phase of flight (not used today).

(2) ILS Receiver
The MMR receives VHF localizer and UHF glideslope signals at the antenna jacks in the bottom plug of the rear connector. Coaxial cables route the RF from the rear connector to the ILS receiver. The ILS receiver includes four functional areas: VHF receiver, UHF receiver, primary instrumentation processor, and monitor instrumentation processor.

The VHF receiver filters, mixes and amplifies VHF signals. The resulting intermediate frequency signals are converted into serial data and processed by both the primary and the monitor instrumentation circuits. The UHF receiver filters, mixes, amplifies, and detects UHF signals. The detected signals are converted into serial data and processed by the instrumentation processors. The primary instrumentation processor outputs flight path deviations to the system processor. The system processor forwards the flight path deviations to the aircraft instrumentation and auto-pilot computers (FMGC).
The monitor instrumentation processor performs a validity check of the primary instrumentation processor deviation output, and disables the outputs if the check fails. The primary and monitor instrumentation processors use ARINC 429 buses for intercommunications and for communications with the system processor.

(3) GPS Receiver
The MMR receives RF signals through an active GPS antenna (preamplifier implemented within the antenna). The GPS receiver filters, mixes, and performs analog-to-digital conversions. The resulting data is processed by microprocessors that output position, velocity, time, and integrity data to the system processor. The system processor transmits ARINC 743A-compliant data for use by other aircraft systems. The GPS receiver also outputs a time mark discrete signal that tells users of the ARINC 743A data the instant in time when the position solution is valid.

(4) System Processor
The system processor controls the flow of data to the ILS and GPS receivers including mode and frequency selections, GPS initialization, and maintenance data requests. The system processor also controls the transmission of output data including ILS deviation, GPS position, velocity, time, integrity, time marks and maintenance data. Circuitry on the system processor converts received data from serial into parallel and also formats parallel data to serial data for transmission on the bus.

(5) ILS subsystem
This module comprises an RF, a main processor and monitor processor assemblies. The ILS RF module converts the RF signals received by the glide slope and localizer antennas into analog signals for processing by the main DSP. The module consists of two RF sections, one for the UHF glide slope signals and one for the VHF localizer signals. A BITE circuitry is included to both test and continuously monitor various stages of each receiver.
The main processor unit processes the analog signals from the ILS RF module and generates the audio and deviation outputs. The board is divided into three major sections:
. a DSP section processes the analog output from the RF module and generates automatic gain control and test signals to the RF module.
. a CPU section processes the data from the DSP section, to provide information to the front panel display and data and control signals to the Input/Output section.
. an I/O section provides, through ARINC 429 buses, the interfaces with other aircraft systems including the CFDIU, control panel(s), displays and the Auto Flight System (AFS).
The monitor processor unit provides a redundant dissimilar signal-processing path for the localizer and glide slope signals from the main DSP.

(6) GNSS subsystem
The MMR receives RF signals through an active GPS antenna (preamplifier implemented within the antenna). The GPS receiver filters, mixes, and performs analog-to-digital conversions. The resulting data is processed by microprocessors that output position, velocity, time, and integrity data to the main processor. The main processor transmits ARINC 743A-compliant data for use by other aircraft systems.

(7) Common subsystem
The common subsystem consists of the power supply, the front panel assembly (LCD) and the rear interconnector assembly.
The aircraft supplies the 115VAC, 400Hz, single-phase power to the MMR. The input power is routed from the rear interconnection to the forward power supply. The forward power supply has four output voltages: 5VDC, +/- 12VDC and 24VDC. The 24VDC output is designed to power two additional auxiliary output modules if additional output voltage levels are required.

C. GPS Antenna FIN: 43-RT-1 FIN: 43-RT-2

GPS Active - Antenna ** ON A/C NOT FOR ALL

Two L-Band antennas are mounted on the top of the fuselage, at the centerline, to receive signals from the GPS satellites. The GPS antenna is an active antenna with an integrated preamplifier and filter. It receives GPS signals at 1575.42 MHz and matches to a 50 ohms coaxial cable at the input to the MMR. The antenna has a right-hand circular polarized and omnidirectional radiation pattern.
The power supply of the preamplifier is provided by the MMR through the coaxial cable.

NOTE: The antenna connectors have a hole to install a lockwire and safety the coaxial cable.

D. Localizer Antenna FIN: 3-RT

ILS - Antennas ** ON A/C NOT FOR ALL

The localizer antenna is an airborne antenna used to receive LOC signals in the 108-112MHz range. It is a folded half-loop type driven by capacitive coupling. The antenna has two independent RF connectors used to feed two independent ILS receivers. Connector separation is provided by a hybrid junction in the antenna.

E. Glide Slope Antenna

ILS - Antennas ** ON A/C NOT FOR ALL

The glide slope antenna is an airborne antenna used to receive GLIDE signals in the 329-335MHz range. It is a folded half-loop type driven by capacitive coupling. The antenna has two independent RF connectors used to feed two independent ILS receivers. Connector separation is provided by a hybrid junction in the antenna.

** ON A/C NOT FOR ALL

7. Operation

A. ILS Operation

(1) Normal operation

MMR - Control and Indicating ** ON A/C NOT FOR ALL

Each MMR is connected to one Radio Management Panel (RMP). The MMR 1 is connected to the RMP 1 (the MMR 2 to the RMP 2). The MMR 1 receives management bus from the FMGC 1 through the RMP 1 (the MMR 2 from the FMGC 2 through the RMP 2).
In normal operation, the FMGC 1(2) tunes the MMR 1(2) either automatically or manually by means of the MCDU. In this case the RMP 1(2) operates as a relay which sends the frequency information from the FMGC 1(2) to the receiver 1(2).
Via a second port, the MMR 1(2) receives a second management bus (ILS FREQ + RWY HDG) directly from the FMGC 2(1).
The receiver selects one of the two input ports according to the FREQ/FUNCT DATA SOURCE SEL discrete signal, which is received from the FMGC 1(2) through the RMP 1(2).

(2) Operation in case of failure
With failure of one FMGC, the second FMGC automatically controls the two MMRs, the off side directly, the on side through its RMP.
With failure of the RMP 1(2) or two RMPs, the RMP concerned is transparent to data and discrete from FMGC.

(3) Manual operation
In manual operation (at any time, or with failure of two FMGCs) the RMP 1 can control the MMR 1 after ON NAV mode selection. Same possibility for the RMP 2 (MMR 2).

MMR - ILS - Course and Frequency Selection in Manual Mode ** ON A/C NOT FOR ALL

In this mode the RMP 1 can control the MMR 2 through the RMP 2 after ON NAV mode selection on the RMP 2. Same possibility for RMP 2 through RMP 1.
After any frequency selection it is always necessary to select the associated course.

(4) Reconfiguration switching
In normal utilization, the ILS 1 data are shown on the CAPT PFD and the F/O ND; the ILS 2 data on the F/O PFD and the CAPT ND.
The DMC 1 supplies data to the CAPT PFD and ND; the DMC 2 to the F/O PFD and ND.
With failure of the DMC 1(2) it is possible to switch over to the DMC 3 with the EIS DMC selector switch located on the panel 8VU on the center pedestal.
In this case, the DMC 3 totally replaces the DMC 1(2) through the stage of the output switching relay of the failed DMC. With failure of the PFD, there is an automatic transfer of the PFD image onto the ND.
With failure of the CAPT (F/O) ND, you obtain the transfer of the ND image onto the CAPT (F/O) PFD when you push the PFD/ND XFR pushbutton switch on panel 301VU (500VU).
When you set the PFD potentiometer to OFF on the panel 301VU (500VU) this causes:

deactivation of the CAPT (F/O) PFD
transfer of the PFD image onto the CAPT (F/O) ND.

(5) Audio control
The MMR applies its audio output to the audio integrating system. This system controls and directs the output to the headsets and/or the loudspeakers. The Audio Management Unit (AMU) controls the audio level through the ACP. On the ACP, the pilot must push the ILS pushbutton switch and adjust the related potentiometer to the correct audio level.
With ILS/DME collocated stations, the DME identification morse code can be listened in sequence with the ILS audio signal when you push the ILS pushbutton switch on the ACP and the ILS pushbutton switch on the FCU.

(6) Data display

MMR - ILS Data Display ** ON A/C NOT FOR ALL

(a) On the PFDs
On the right and below the attitude sphere, the deviation indications come into view in approach. These are:

the vertical deviation scale
the lateral deviation scale
the related aircraft deviation symbols.

If you select an ILS approach, the scales and symbols give GLIDE SLOPE and LOCALIZER deviations. The scales come into view when you push the ILS pushbutton switch on the EFIS control section of the Flight Control Unit (FCU). The deviation symbols come into view when the related G/S and LOC signals from the ILS receiver are valid.
If the ILS indications are available with the ILS pushbutton switch pushed they have priority over the deviation information of the R NAV approach.
In this mode the data given after are shown (item 5): in the left bottom corner:

ILS frequency (plus ILS identification if available)
ILS - DME distance.

At the top section of the PFD a Flight Mode Annunciator shows the various armed/active longitudinal and lateral modes:
(item 1): the G/S longitudinal modes are shown in the 2nd column (cyan for armed or green for active)
(item 2): the LOC longitudinal modes are shown in the 3rd column (cyan for armed or green for active)
VERTICAL DEVIATION (item 3)
The vertical scale shows a classical glide slope deviation. It is linear with 2 dots on each side. Two dots correspond to plus (or minus) 0.175 ddm (150 microA) deviation. The index shows magenta G/S indication.
Until the glide beam is captured, the glide index is not shown (No Computed Data). When the index is against one stop only one half of it is in view (the outer half index).
The glide slope index and the scale flash permanently in case of G/S excessive deviation warning.
With a glide fault, the G/S index goes out of view and a red G/S failure warning message is shown in the middle of the scale.

MMR - ILS Warning Display ** ON A/C NOT FOR ALL

LATERAL DEVIATION (item 4)
The horizontal scale shows a classical LOC deviation with 2 dots on each side. Two dots correspond to plus (or minus) 0.155 ddm (150 microA) deviation. The index shows magenta LOC indication.
Until the LOC is captured, the LOC index is not shown (No Computed Data). When the index is against one stop, only one half of it is shown.
The LOC index and the scale flash permanently in case of LOC excessive deviation warning.
With a localizer fault, the LOC index goes out of view and a red LOC failure warning message is shown in the middle of the scale.

MMR - ILS Data Display ** ON A/C NOT FOR ALL

MMR - ILS Warning Display ** ON A/C NOT FOR ALL

(b) On NDs in the ROSE ILS mode
In the ROSE ILS mode, the ND gives a display which is similar to that of a conventional Horizontal Situation Indicator (HSI): a heading dial orientated to the magnetic North turns and gives the actual magnetic heading of the aircraft in relation to the stable yellow lubber line.
The ND is always heading up:
A yellow aircraft model, at the center of the heading dial is stable and pointed up to the yellow lubber line.
Small white triangles are put each 45 deg. on the circumference in relation to the lubber line.
They are stable and do not turn with the heading dial.
A green diamond-shaped symbol moves around the heading dial and gives the actual track of the aircraft.
The ND shows the indications given after, when available, in its right top corner (item 8):

the side of the displayed ILS receiver
the frequency
the course
the identification.

The ND shows the ILS APP message in its center top section (item 7) when the pilot has selected the ILS approach on the MCDU.
LATERAL DEVIATION (item 6)
A dagger-shaped pointer points to the selected ILS course. Its center part is the lateral deviation bar, which can move on a scale which is perpendicular to the pointer and has two dots on each side. The position of the bar on the scale gives the localizer deviation. The extreme dots correspond to plus or minus 0.155 ddm (plus or minus 150 microA). With LOC fault a red LOC warning message comes into view in the middle of the LOC scale and the LOC deviation bar goes out of view.
VERTICAL DEVIATION (item 9)
A magenta lozenge gives the glide slope deviation on a vertical scale at the right of the heading dial if the aircraft is within the condition of reception of the ILS glide slope signal.
The extreme dots of the vertical scale correspond to plus or minus 0.175 ddm (plus or minus 150 microA). With G/S fault, a red G/S warning message comes into view at the top of the scale and the index goes out of view.

(c) On NDs in ARC and ROSE NAV modes
When you push the ILS pushbutton switch in ARC or ROSE NAV mode, the ND shows the symbols given after (item 11):

a magenta dagger-shaped pointer which points to the selected QFU
an arrow which indicates the lateral deviation of the aircraft related to the localizer axis.

(7) Warnings

MMR - ILS Warning Display ** ON A/C NOT FOR ALL

The warnings related to the ILS are:

local warning on the instruments that use the ILS information
MASTER CAUT lights on CAPT and F/O glareshield panels
aural warning: single chime (SC)
warning message shown on the upper display unit of the ECAM system.

B. GPS Function - Normal Operation

(1) General
To reduce initialization time, the MMR 1(2) receives position data, LAT/LONG (labels 310/311) from the ADIRU 1(2) and SET LAT, SET LONG (labels 041, 042) UTC/Date from the FMGC 1(2) through the ADIRU 1(2).
Each MMR receives the GPS satellite RF signals from the active antenna to compute and provide the three ADIRUs with:

UTC, date
position, altitude
ground speed, track angle
N/S speed, E/W speed, vertical speed
horizontal and vertical dilution of precision, figure of merit
satellite position
satellite measurement (pseudo-range, delta range, range rate, UTC measurement time)
GPS measurement status, sensor status
real time and predictive integrity data.

Within each ADIRU an hybridization function performs the following:

monitoring of the MMR using GPS status word and ADIRU BITE
generation of failure message for ECAM display
use of pseudo-range/delta range data to compute GPS position
use of inertial data to smooth GPS position/velocity
use of a Kalman filter to estimate and minimize errors
use of IR data to improve the robustness of the MMR RAIM algorithm.
transmission of GPS and GPIR data to the FMGC for position fixing and display purposes.

(2) GPS primary navigation function principle in the FMGC
A navigation mode with the least error is chosen based upon the mixed IR position and the best GPIR or radio position available.

NOTE: The GPIR position used by the FMGC to determine the aircraft position is computed in the GPIR partition of the ADIRU (hybrid solution).

The FMS mode of navigation is selected according to the following hierarchy:

GPIR/Inertial
DME/DME/Inertial
DME/VOR/Inertial
Inertial only.

The GPIR/INERTIAL mode is selected as long as the following conditions are satisfied:

GPIR position is available and with an estimated accuracy consistent with the intended operation.
GPIR integrity is available and compatible with the applicable phase of flight requirement.
As long as the GPS/INERTIAL mode is active, no DME/DME or VOR/DME radio updating is allowed. However, LOC updating can apply to GPS/INERTIAL position.
In this navigation mode, N IR/GPS indication is displayed on the POSITION MONITOR page with N being the number of IRs used to compute mixed IR position.
The selected hybrid GPIRS position is displayed on the POSITION MONITOR page in place of the radio position.
The mixed IR position and the IR deviations displayed on the POSITION MONITOR page do not change and are still computed using pure IR inputs.
Aircraft position is generated by a series of filters which use inertial position, GPIR position or radio position, and aircraft velocity as input.
A position bias is computed once every second through the position bias filter. This position bias is computed as the difference between the GPIR position (or radio position) and the inertial position.
The aircraft position is finally computed every 200 ms based on the corrected inertial position and the aircraft velocity using the aircraft position filter.
The GPS/INERTIAL mode can be manually inhibited by pushing the line key adjacent to the DESELECT GPS indication on the SELECTED NAVAIDS page.
MMR - GPS SELECTED NAVAIDS Page on MCDU ** ON A/C NOT FOR ALL
FMGC computed integrity:
When the GPIR position is available in the FMGC but the GPIR integrity is not delivered by the ADIRS, the FMGC is capable of computing an equivalent integrity called AIM (Alternate Integrity Monitoring), using IR data, during a limited period of time. The goal of this FMGC functionality is to improve the availability of the GPS Primary function in the cockpit.

(3) Clock synchronization on GPS time

(a) If a GPS signal is present and valid when the power is on, the clock synchronizes on the GPS time using labels 150 and 260.

(b) If the signal is not present during synchronization, the clock displays dashes on all the digits.

(d) If the signal becomes not valid after synchronization, the clock runs on its internal time base.

(4) Display of GPS data on MCDU - GPS MONITOR

GPS - GPS MONITOR Page on MCDU ** ON A/C NOT FOR ALL

The GPS data are displayed on the GPS MONITOR page of the MCDU.
To get the GPS MONITOR page, push the DATA key on the MCDU, then the line key adjacent to the GPS MONITOR indication.
The upper part is dedicated to GPS 1 data, the lower part to GPS 2 data.
The following data are displayed:

GPS position (lat/long)
true track
GPS altitude
figure of merit (in meters)
ground speed
number of satellites tracked
mode.

(5) Display of GPS data on MCDU - PREDICTIVE GPS

GPS - PREDICTIVE GPS Page ** ON A/C NOT FOR ALL

The integrity prediction results given by the GPS portion of the MMR on Flight Management System (FMS) request are displayed on the PREDICTIVE GPS page of the MCDU (from the progress page which displays required navigation accuracy and estimated position accuracy and GPS PRIMARY indication).
The prediction concerns the destination (DEST) and any pilot entered waypoint (WPT) and the integrity availability (HIL < 0.3 Nm) is displayed by Yes (Y) or No (N) for the seven times defined by the five minutes increments for plus or minus 15 minutes around DEST or WPT.

(6) Display of GPS data on MCDU - Progress page
The progress page indicates whether the GPS is used by the FMGC for navigation. If it is used, the GPS PRIMARY indication is displayed. If it is not used, the GPS PRIMARY LOST message is shown.

(7) Display of GPS data on MCDU - MCDU scratchpad
GPS PRIMARY in white or GPS PRIMARY LOST in amber show on the MCDU scratchpad.

(8) Display of GPS data on MCDU - SELECTED NAVAIDS page
It is possible to select GPS for navigation computation within the FMS on the SELECTED NAVAIDS page.
If you deselected GPS, the message GPS IS DESELECTED appears on the MCDU when a GPS approach starts.

(9) Display of GPS data on MCDU - ARRIVAL page
To select a GPS approach, use the ARRIVAL page.

(10) Display of GPS messages on ND

MMR - GPS Data Displayed on the NDs ** ON A/C NOT FOR ALL

(a) Display of GPS PRIMARY LOST amber message
This message is displayed at the bottom of the image in all the ND modes (except engine standby modes) when the GPS primary is lost (this message cannot be cleared from the MCDU). In this case, the GPS is not used for navigation (accuracy and integrity for the intended operation can still be met by the use of alternate navigation means).

(b) Display of GPS PRIMARY white message
This message is displayed at the bottom of the image in all the ND modes (except engine standby modes) when the GPS becomes primary (this message can be cleared from the MCDU).

(c) Display of GPS APP green message
This approach message is displayed at the top of the image in all the ND modes (except engine standby modes) when a GPS approach is selected in the flight plan.

C. GPS function - Warning

(1) GPS failure
The two Flight Warning Computers (FWC) monitor the GPSs with a status word that each GPS sends.
If a GPS failure occurs, the NAV GPS 1(2) FAULT message is shown in the lower part of the upper ECAM Display Unit (DU).
This message is shown in the conditions that follow:

The MASTER CAUT lights come on on the glareshield.
An aural warning is started: Single Chime (SC).

NOTE: The failure is also shown on the INOP SYSTEM page of the lower ECAM DU. The message that is shown is GPS 1(2).

(2) Loss of the GPS PRIMARY navigation
When there is a loss of the GPS PRIMARY navigation, the navigation function is unsatisfactory. It goes back to the standard navigation function with the Inertial Reference System (IRS) positions and the radio positions if available (in this condition, the properties of the Required Navigation Performance (RNP) continue to be available).
These warnings are started to show the loss of the GPS PRIMARY navigation:

The GPS PRIMARY LOST message is shown on the NDs (it is not possible to erase this message) and on the Multipurpose Control & Display Unit (MCDU) (it is possible to erase this message).
If there is a GPS non-precision approach, an aural alert is started (Triple Click).

(3) GPS/FMS position disagreement
When the GPS PRIMARY function is in operation, and one of the FM positions goes away from GPS positions 1 or 2 by more than:

A longitude threshold that is related to the latitude:
- 0.5' for latitudes below 55 degrees
- 0.9' for latitudes at or above 55 degrees, and below 70 degrees.

A latitude threshold of 0.5', with no relation to the latitude.

Then, the lower ECAM shows the NAV FM/GPS POS DISAGREE amber caution. The master caution light comes on and the single chime operates.
This amber caution is prevented during the takeoff phase.
Above a latitude of 70 degrees, a longitude difference does not start the alarm.

D. GLS Function
The operation of the GLS is the same as the operation of the ILS.

ILS and GLS - PFDs ** ON A/C NOT FOR ALL

The GLS function gives the deviations and the precision approach parameters.
In the ROSE ILS mode, the ND gives the indications that follow in its top right corner: LOC frequency (in the ILS mode), FMS Landing System (FLS) slope (in the FLS and the Combined ILS/FLS modes) or the GLS Channel (in the GLS mode).

** ON A/C NOT FOR ALL

8. BITE Function

A. CFDIU Interface

(1) BITE description
The BITE facilitates maintenance on in-service aircraft. It detects and identifies a failure related to the MMR. The BITE of the MMR is connected to the CFDIU.
The BITE:

transmits permanently MMR status and its identification message to the CFDIU,
memorizes the failures which occurred during the last 63 flight legs,
monitors data inputs from the various peripherals,
transmits to the CFDIU the result of the tests performed and self-tests,
can communicate with the CFDIU through the menus.

The BITE can operate in two modes:

the normal mode,
the menu mode.

(a) Normal mode
During the normal mode, the BITE cyclically monitors the status of the MMR. It transmits its information to the CFDIU during the concerned flight.
In case of fault detection, the BITE stores the information in the fault memories.
These items of information are transmitted to the CFDIU by an ARINC 429 message with label 356.

(b) Menu mode
The menu mode can only be activated on ground.
This mode enables communication between the CFDIU and the MMR BITE by means of the MCDU.

MMR - Maintenance Test Procedure ** ON A/C NOT FOR ALL

When you get access to the SYSTEM REPORT/TEST/NAV page, the ILS1 and ILS2 indications can be shown instead of the MMR1 and MMR2 indications. In this case, you must do the following steps:

make sure that the the engines are shut down
open CFDIU SUPPLY circuit breaker 2TW
open CFDIU BACK UP circuit breaker 8TW
make sure that MMR1 and MMR2 circuit breakers, 42RT1 and 42RT2, are closed
wait for 30 seconds then close the CFDIU circuit breakers 2TW and 8TW
wait for 180 seconds then get access to the SYSTEM REPORT/TEST/NAV page.

All the information displayed on the MCDU during the BITE Test configuration can be printed by the printer (Ref. AMM D/O 31-35-00-00).
The MMR menu mode is composed of:

LAST LEG REPORT
MMR - Last Leg Report ** ON A/C NOT FOR ALL
This menu contains the fault messages (class 1 internal and external) detected during the last flight.
PREVIOUS LEGS REPORT
MMR - Previous Legs Report ** ON A/C NOT FOR ALL
MMR - Previous Legs Report ** ON A/C NOT FOR ALL
This report contains the fault messages related to the external or internal failures (class 1) recorded during the previous 63 flight legs.
LRU IDENTIFICATION
MMR - LRU Identification ** ON A/C NOT FOR ALL
MMR - LRU Identification ** ON A/C NOT FOR ALL
Allows to display the P/N, the serial number and the software number of the equipment.
GND SCANNING
MMR - Ground Scanning ** ON A/C NOT FOR ALL
MMR - Ground Scanning ** ON A/C NOT FOR ALL
Based on the monitoring and fault analysis during flight, provides information of the failures detected while using this function.
TROUBLE SHOOTING DATA
MMR - Trouble Shooting Data ** ON A/C NOT FOR ALL
MMR - Trouble Shooting Data ** ON A/C NOT FOR ALL
Provides correlation parameters and snapshot data concerning the failure displayed in the LAST LEG REPORT and PREVIOUS LEGS REPORT.
CLASS 3 FAULTS
MMR - Last Leg Class 3 Faults ** ON A/C NOT FOR ALL
MMR - Last Leg Class 3 Faults ** ON A/C NOT FOR ALL
Allows to display the class 3 faults recorded during the last flight leg.
GROUND REPORT
MMR - Ground Report ** ON A/C NOT FOR ALL
MMR - Ground Report ** ON A/C NOT FOR ALL
Allows to present the class 1 or 3 internal failures detected on ground.
SYSTEM TEST
MMR - System Test ** ON A/C NOT FOR ALL
MMR - System Test ** ON A/C NOT FOR ALL
MMR - System Test ** ON A/C NOT FOR ALL
Allows a check of the correct operation of the MMR.

(2) List of components
All the components are listed in Para. 2. Component Location.

(3) BITE description
The BITE facilitates maintenance on in-service aircraft. It detects and identifies a failure related to the MMR. The BITE of the MMR is connected to the CFDIU.
The BITE:

transmits permanently MMR status and its identification message to the CFDIU,
memorizes the failures which occurred during the last 63 flight legs,
monitors data inputs from the various peripherals,
transmits to the CFDIU the result of the tests performed and self-tests,
can communicate with the CFDIU through the menus.

The BITE can operate in two modes:

the normal mode,
the menu mode.

(b) Menu mode
The menu mode can only be activated on ground.
This mode enables communication between the CFDIU and the MMR BITE by means of the MCDU.

MMR - Maintenance Test Procedure ** ON A/C NOT FOR ALL

When you get access to the SYSTEM REPORT/TEST/NAV page, the ILS1 and ILS2 indications can be shown instead of the MMR1 and MMR2 indications. In this case, you must do the following steps:

make sure that the the engines are shut down
open CFDIU SUPPLY circuit breaker 2TW
open CFDIU BACK UP circuit breaker 8TW
make sure that MMR1 and MMR2 circuit breakers, 42RT1 and 42RT2, are closed
wait for 30 seconds then close the CFDIU circuit breakers 2TW and 8TW
wait for 180 seconds then get access to the SYSTEM REPORT/TEST/NAV page.

All the information displayed on the MCDU during the BITE Test configuration can be printed by the printer (Ref. AMM D/O 31-35-00-00).
The MMR menu mode is composed of:

LAST LEG REPORT
MMR - Last Leg Report ** ON A/C NOT FOR ALL
This menu contains the fault messages (class 1 internal and external) detected during the last flight.
PREVIOUS LEGS REPORT
MMR - Previous Legs Report ** ON A/C NOT FOR ALL
This report contains the fault messages related to the external or internal failures (class 1) recorded during the previous 63 flight legs.
LRU IDENTIFICATION
MMR - LRU Identification ** ON A/C NOT FOR ALL
Allows to display the P/N, the serial number and the software number of the equipment.
GND SCANNING
MMR - Ground Scanning ** ON A/C NOT FOR ALL
Based on the monitoring and fault analysis during flight, provides information of the failures detected while using this function.
TROUBLE SHOOTING DATA
MMR - Trouble Shooting Data ** ON A/C NOT FOR ALL
Provides correlation parameters and snapshot data concerning the failure displayed in the LAST LEG REPORT and PREVIOUS LEGS REPORT.
CLASS 3 FAULTS
MMR - Last Leg Class 3 Faults ** ON A/C NOT FOR ALL
Allows to display the class 3 faults recorded during the last flight leg.
GROUND REPORT
MMR - Ground Report ** ON A/C NOT FOR ALL
Allows to present the class 1 or 3 internal failures detected on ground.
SYSTEM TEST
MMR - System Test ** ON A/C NOT FOR ALL
MMR - System Test ** ON A/C NOT FOR ALL
Allows a check of the correct operation of the MMR.
SPECIFIC DATA
Specific Data 1/2 ** ON A/C NOT FOR ALL
Specific Data 2/2 ** ON A/C NOT FOR ALL
This menu gives access to GPS data and discrete configuration data.

(4) List of components
All the components are listed in Para. 2. Component Location.

(5) Reporting function
The tables below give the list of internal/external failures.

(a) Internal failure:

-----------------------------------------------------------------------------

I ATA I CLASS I MESSAGE I

I I (A/C) I I

I----------------------------------------------------------------------------

I 34-36-31 I 1 I MMRi (40RTi) I

I 34-36-11 I 1 I LOCALIZER ANTENNA (3RT)/COAX CABLE/MMRi(40RTi) I

I 34-36-18 I 1 I GLIDE ANTENNA (4RT)/COAX CABLE/MMRi (40RTi) I

I 34-36-16 I 1 I GPS ANTENNAi (43RTi)/COAX CABLE/MMRi(40RTi) I

I I I i = (1,2) I

-----------------------------------------------------------------------------

(b) External failure:

-----------------------------------------------------------------------------

I ATA I CLASS I MESSAGE I

I I (A/C) I I

-----------------------------------------------------------------------------

I 31-32-34 I 3 I CFDIU (1TW)/MMRi (40RTi) I

I 22-83-34 I 3 I FMGCi (1CAi)/RMPi (1RGi)/MMRi (40RTi) I

I 22-83-34 I 3 I FMGCj (1CAj) BUS ILS/MMRi (40RTi) I

I 22-83-34 I 3 I FMGC1 (1CA1) BUS GPS/MMRi (40RTi) I

I 22-83-34 I 3 I FMGC2 (1CA2) BUS GPS/MMRi (40RTi) I

I 34-12-34 I 3 I ADIRUk (1FPk)/MMRi (40RTi) I

I 32-31-71 I 3 I LGCIUi (5GAi)/FMGCi (1CAi)/MMRi (40RTi) I

I 31-62-34 I 1 I DMCi (1WTi)/MMRi (40RTi) I

I I I j,i = (1,2) or (2,1) I

I I I k = 1, 2 or 3 I

-----------------------------------------------------------------------------

(6) Reporting function
The tables below give the list of internal/external failures.

(a) Internal failure:

-----------------------------------------------------------------------------

I ATA I CLASS I MESSAGE I

I I (A/C) I I

I----------------------------------------------------------------------------

I 34-36-31 I 1 I MMRi(40RTi) I

I 34-36-11 I 1 I LOCALIZER ANTENNA(3RT)/COAX CABLE/MMRi(40RTi) I

I 34-36-18 I 1 I GLIDE ANTENNA(4RT)/COAX CABLE/MMRi(40RTi) I

I 34-36-16 I 1 I GPS ANTENNAi(43RTi)/COAX CABLE/MMRi(40RTi) I

I 34-36-XX I 1 I GLIDE ANTENNA SWITCHING/MMRi(40RTi) I

I I I i = (1,2) I

-----------------------------------------------------------------------------

(b) External failure:

-----------------------------------------------------------------------------

I ATA I CLASS I MESSAGE I

I I (A/C) I I

-----------------------------------------------------------------------------

I 31-32-34 I 3 I CFDIU(1TW)/MMRi(40RTi) I

I 22-83-34 I 3 I FMGCi(1CAi)/RMPi(1RGi)/MMRi(40RTi) I

I 22-83-34 I 3 I FMGC1(1CA1) BUS ILS/MMRi(40RTi) I

I 22-83-34 I 3 I FMGC2(1CA2) BUS ILS/MMRi(40RTi) I

I 22-83-34 I 3 I FMGC1(1CA1) BUS GPS/MMRi(40RTi) I

I 22-83-34 I 3 I FMGC2(1CA2) BUS GPS/MMRi(40RTi) I

I 34-12-34 I 3 I ADIRUk(1FPk)/MMRi(40RTi) I

I 24-00-00 I 1 I POWER SUPPLY INTERRUPT I

I 32-31-71 I 3 I LGCIUi(5GAi)/FMGCi(1CAi)/MMRi(40RTi) I

I 31-62-34 I 1 I DMCi(1WTi)/MMRi(40RTi) I

I 34-36-XX I 3 I PIN PROG/MMRi(40RTi) I

I I I j,i = (1,2) or (2,1) I

I I I k = 1, 2 or 3 I

-----------------------------------------------------------------------------

(7) Interactive function
To gain access to the BITE, it is necessary to use one MCDU (Ref. AMM D/O 22-82-00-00).

MMR - Last Leg Report ** ON A/C NOT FOR ALL

MMR - LRU Identification ** ON A/C NOT FOR ALL

MMR - Previous Legs Report ** ON A/C NOT FOR ALL

MMR - Ground Scanning ** ON A/C NOT FOR ALL

MMR - Trouble Shooting Data ** ON A/C NOT FOR ALL

MMR - Last Leg Class 3 Faults ** ON A/C NOT FOR ALL

MMR - Ground Report ** ON A/C NOT FOR ALL

MMR - System Test ** ON A/C NOT FOR ALL

All the information displayed on the MCDU during the BITE TEST configuration can be printed by the printer (Ref. AMM D/O 31-35-00-00).

B. BITE Implementation

(1) Activation of the receiver face test
The receiver face test can be activated by pushing the TEST pushbutton switch on the receiver face, if the test inhibit discrete is not active.
The sequence below is then generated on the receiver face.
Depending on the outcome of the receiver face test, one of the following results is displayed:

-----------------------------------------------------------------------------

I SEQUENCE I LRU STATUS I CONTROL I ANT FAIL I I TIME I

I NO. I LED (DS1) I FAIL LED I LED I DEFINITION I DEFINITION I

I I I (DS2) I (DS3) I I I

I---------------------------------------------------------------------------I

I 1 I Red I Red I Red I LED self- I 2 seconds I

I I I I I test I I

I---------------------------------------------------------------------------I

I 2 I Green I Red I Red I LED self- I 2 seconds I

I I I I I test I I

I---------------------------------------------------------------------------I

I 3 I Off I Off I Off I Unit self- I 2 seconds I

I I I I I test I minimum I

I---------------------------------------------------------------------------I

I 4 I Green I Off I Off I Unit passedI 30 seconds I

I I-------------------------------------------------I I

I I Red I I I Unit I I

I I I I I failed I I

I I-------------------------------------------------I I

I I I Red I I Control I I

I I I I Iinput failedI I

I I-------------------------------------------------I I

I I I I Red I Antenna I I

I I I I I failed I I

I---------------------------------------------------------------------------I

I 5 I Off I Off I Off I Test I Until next I

I I I I I complete I requested I

I I I I I I self-test I

-----------------------------------------------------------------------------

(2) Activation of the functional test
The functional test can be activated by pushing the line key adjacent to the TEST indication on the MMR maintenance sub-menu.
It is similar to the receiver face test except that the receiver face LEDs are not controlled to reflect the status of the unit, which is reported on the MCDU.

(3) Activation of the receiver face test
The receiver face test can be activated by pushing the PUSH TO TEST key on the Normal Mode page of the LCD, if the air/ground discrete indicates that the aircraft is on the ground and if the tune/test inhibit discrete is not active.
One second after beginning of test, the Test in Progress page is displayed with a moving "thermometer" showing the progress of the test up to the end of the test.
Once the test is completed, the No Failure Test Complete page is displayed if no failures are detected. If failures have been detected, the Failure Present Test Complete page is displayed.

(4) Activation of the functional test
The functional test can be activated by pushing the line key adjacent to the TEST indication on the MMR maintenance sub-menu.
It is similar to the receiver face test except that the receiver face LEDs are not controlled to reflect the status of the unit, which is reported on the MCDU.

[Rev.10 from 2021] 2026.04.02 06:23:16 UTC