A400M Training Manual: ATA 34 Navigation System - PDF
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2021
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Summary
This document is a training manual for the A400M aircraft, focusing on the ATA 34 Navigation System. It provides detailed descriptions and operations of various subsystems, including the GPS Air Data Inertial Reference SubSystem, Standby Navigation SubSystem, and Radio Navigation SubSystem. It was released in June 2021.
Full Transcript
Table of contents Chapter 1. GPS Air Data Inertial Reference SubSystem - Description & Operations 1.1 GPS Air Data Inertial Reference SubSystem - Description 1.1.1 General Description 1.1.2 Controls & Indications 1.1.3 Component Location 1.1.4 Detailed Description (only for Standard A/C...
Table of contents Chapter 1. GPS Air Data Inertial Reference SubSystem - Description & Operations 1.1 GPS Air Data Inertial Reference SubSystem - Description 1.1.1 General Description 1.1.2 Controls & Indications 1.1.3 Component Location 1.1.4 Detailed Description (only for Standard A/C configuration) 1.1.5 GPS Air Data Inertial Reference Unit 1.1.6 Probes 1.1.7 Detailed Controls & Indications 1.2 GPS Air Data Inertial Reference SubSystem - Operation 1.2.1 GADIRS Operation On Ground 1.2.2 GADIRS test Chapter 2. Standby Navigation SubSystem - Description & Operations 2.1 Standby Navigation SubSystem - Description 2.1.1 General Description TRAINING 2.1.2 Component Location 2.1.3 Detailed Description 2.1.4 ISIS unit and Probes 2.1.5 Detailed Controls & Indications Chapter 3. Radio Navigation SubSystem - Description & Operations 3.1 Radio Navigation SubSystem - Description - Tuning and Display Control 3.1.1 General Description 3.1.2 Controls & Indications 3.1.3 Detailed Description USE 3.2 Radio Navigation SubSystem - Description - Multimode Receiver System 3.2.1 General Description 3.2.2 Component Location Released in June 23, 2021 ONLY Training Use Only 1 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf 3.2.3 Detailed Description 3.2.4 Detailed Controls & Indications 3.3 Radio Navigation SubSystem - Description - VOR/Marker 3.3.1 General Description 3.3.2 Component Location 3.3.3 Detailed Description 3.3.4 Detailed Controls & Indications 3.4 Radio Navigation SubSystem - Description - Distance Measuring Equipment 3.4.1 General Description 3.4.2 Component Location 3.4.3 Detailed Description 3.4.4 Detailed Controls & Indications 3.5 Radio Navigation SubSystem - Description - Automatic Direction Finder (Optional) 3.5.1 General Description 3.5.2 Component Location 3.5.3 Detailed Description 3.5.4 Detailed Controls & Indications 3.6 Radio Navigation SubSystem - Description - Tactical Air Navigation 3.6.1 General Description 3.6.2 Component Location 3.6.3 Detailed Description 3.6.4 Detailed Controls & Indications TRAINING 3.7 Radio Navigation SubSystem - Operation 3.7.1 Equipments Hard BITE Test USE Chapter 4. Radio Altimeter SubSystem - Description & Operations 4.1 Radio Altimeter SubSystem - Description 4.1.1 General Description 4.1.2 Component Location ONLY 4.1.3 Detailed Description - Basic Functions 4.1.4 Detailed Description - Military Functions (Optional) Released in June 23, 2021 Training Use Only 2 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf 4.1.5 Detailed Controls & Indications 4.2 Radio Altimeter SubSystem - Operation 4.2.1 Equipment Hard BITE Test Chapter 5. Integrated Surveillance SubSystem - Description & Operations 5.1 Integrated Surveillance SubSystem - Description - Equipment 5.1.1 General Description (only for Dual Configuration) 5.1.2 General Description (only for Single Configuration) (Optional) 5.1.3 Controls & Indications 5.1.4 Component Location 5.1.5 Detailed Description (only for Dual Configuration) 5.1.6 Detailed Description (only for Single Configuration) (Optional) 5.2 Integrated Surveillance SubSystem - Description - Weather Radar System 5.2.1 General Description 5.2.2 Detailed Description 5.2.3 Detailed Controls & Indications 5.3 Integrated Surveillance SubSystem - Description - Terrain Awareness Warning System 5.3.1 General Description 5.3.2 Detailed Description 5.3.3 Detailed Controls & Indications TRAINING 5.4 Integrated Surveillance SubSystem - Description - Traffic Collision Avoidance System 5.4.1 General Description 5.4.2 Detailed Description 5.4.3 Detailed Controls & Indications 6.1 Military Radar SubSystem- Description 6.1.1 General Description 6.1.2 Component Location USE Chapter 6. Military Radar SubSystem- Description & Operations (Optional) 6.1.3 Detailed Description ONLY 6.1.4 Detailed Controls & Indications Chapter 7. Enhanced Vision SubSystem - Description & Operations (Optional) Released in June 23, 2021 Training Use Only 3 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf 7.1 Enhanced Vision SubSystem - Description 7.1.1 General Description 7.1.2 Component Location 7.1.3 Detailed Description 7.1.4 Detailed Controls & Indications Chapter 8. GPS Rebroadcast SubSystem - Description & Operations (Optional) 8.1 GPS Rebroadcast SubSystem - Description 8.1.1 Detailed Description Chapter 9. Navigation System - Maintenance 9.1 On Board maintenance System 9.1.1 OMS Pages 9.2 Maintenance Tasks 9.2.1 Servicing Tasks TRAINING USE Released in June 23, 2021 ONLY Training Use Only 4 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf A400M Training Manual ATA 34 Navigation System TRAINING USE Released in June 23, 2021 ONLY Training Use Only 5 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description Chapter 1. GPS Air Data Inertial Reference SubSystem - Description & Operations 1.1 GPS Air Data Inertial Reference SubSystem - Description 1.1.1 General Description General GADIRUs, Probes and Sensors The GPS Air Data/Inertial Reference System (GADIRS) is based on 3 redundant and independent air data channels. Each channel is made up of one GPS Air Data and Inertial Reference Unit (GADIRU) with its associated equipment. The GADIRUs receive data from the following main components: TRAINING - 3 Multi-Function Probes (MFP) - 6 Integrated Static Probes (ISP) (note that each GADIRU is connected to two ISPs) - 3 Side Slip Angle (SSA) probes - 2 Outside Air Temperature (OAT) sensors (note that the OAT 1 sensor is shared between GADIRU 1 and GADIRU 3) USE Released in June 23, 2021 ONLY Training Use Only 6 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 7 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description GPS Antennas (Standard A/C Configuration) In addition, the GADIRS has independent GPS channels. The GADIRUs are connected to the following components: - 3 Fixed Reception Pattern Antennas (FRPA), one for each GADIRU - 2 Controlled Reception Pattern Antenna Units (CRPAU) with associated Controlled Reception Pattern Antennas (CRPA), for GADIRU 1 and GADIRU 2 TRAINING USE Released in June 23, 2021 ONLY Training Use Only 8 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 9 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description GPS Antennas (Standard A/C without Antijam Configuration) Some A400M configurations do not require the anti-jamming capability. It implies that only FRPAs are used to feed the GADIRUs. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 10 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 11 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description Architecture ADR Architecture For the ADR part of the system, each of the 3 GADIRUs receives data from the four types of sensors: - One MFP, which provides Angle Of Attack (AOA), Total Air Temperature (TAT) and Total Pressure (Pt) - Two ISPs, which provide static pressure (Ps) - One SSA probe, which provides Side Slip Angle - One OAT sensor, which provides Outside Air Temperature during slow speed phases (one for GADIRU1 & 3, the other for GADIRU2) The GADIRUs computes and sends air data via Avionic Data Communication Network (ADCN) and through direct links to: - Head Up Display System (HUDS) - Other A/C systems For the link with the crew, the ADR uses the HMI resources provided by the Flight Management System (FMS) and Control Display System (CDS), which interchange data via ADCN with the GADIRU. The ADR also interface with the crew through direct links between GADIRUs and: - The CDS for the barometric reference setting TRAINING - The GADIRS Control Panel (ADR pushbuttons), within the Integrated Control Panel System (ICPS), for fault indication and disabling - The Air Data selector in the Source Switching Panel (SSP) for source switching. It also sends its command via IOMs and ADCN to the user systems (CDS, HUDS, etc) to change their selection of air data input A command from the ICPS Anti-ice Control pushbutton is used to activate the ice protection of the ISP, MFP and SSA probes while USE the aircraft is on the ground. In flight the ice protection is managed automatically. Released in June 23, 2021 ONLY Training Use Only 12 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 13 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description IR Architecture The IR part of each GADIRU measures the aircraft accelerations from their internal sensors: - The axis-orientated accelerations are sensed by means of the Accelerometers, which are linear acceleration sensors - The corresponding ax angular velocity Pitch, Roll, and Yaw are sensed by means of the Gyros From the sensors, the IR constantly computes the A/C attitude (Pitch, Roll, and Yaw) and, by the detection and measurement of motions, speeds and accelerations, can deduce at any time the A/C position from an initial reference point. GADIRS uses also position data from its internal, dedicated Military GPS and from the Civil GPS of the Multi Mode Receiver (MMR) system. The GADIRUs merge and filter the measurements from all the different sources (IR, military GPS and/or civil GPS) to provide a hybrid solution for position. The GADIRUs send inertial data and hybrid position, via ADCN and through direct links to: - HUDS - Other A/C systems The GADIRUs also send inertial data to the Integrated Standby Instrument System (ISIS). For the link with the crew, the IR uses the HMI resources provided by the FMS and CDS, which interchange data via ADCN with the GADIRUs. The IR also interfaces with the crew through direct links between GADIRUs and: TRAINING - GADIRS Control Panel (IR pushbuttons), within the ICPS, for fault indication and disabling - The Attitude/Heading selector in the SSP for source switching. It also sends its command via IOMs and ADCN to the user systems (CDS, HUDS) to change their selection of air data input. USE Released in June 23, 2021 ONLY Training Use Only 14 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 15 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description GPS and Time Architecture (Standard A/C Configuration) The GPS provided by GADIRS is a military GPS that delivers data with superior accuracy than the civil GPS. The GADIRS receive the GPS signals through two kinds of antennas: - FRPA - CRPA, which is linked to an electronic unit called Controlled Reception Pattern Antenna Unit (CRPAU). Two GPS outlets provide the GPS signal from the two CRPAUs for use by portable GPS units. The GADIRU sends GPS data via ADCN to the A/C systems. For the link with the crew, the GPS uses the HMI resources provided by the FMS and CDS, which interchange data via ADCN with the GADIRU. The GADIRUs also receive commands through direct links from the Antenna Selection Switch, which is within the ICPS. It allows the crew to switch between FRPA and CRPA. The switch status is also transmitted to other systems. Thanks to GPS function, the GADIRS provides the “system time”. It is achieved by the Clock function of the GADIRU. According to crew selection (internal or external) from CDS, the time source for the Clock is either the military GPS of the GADIRU or the civil GPS of the MMR. The flight crew also can manually set the Clock. The “system time” is the unique time reference on board of the A/C. It is sent via ADCN to CDS to be displayed and to other systems. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 16 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 17 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description GPS and Time Architecture (Standard A/C without Antijam Configuration) Some A400M configurations do not require the anti-jamming capability. It implies that only FRPAs are used to feed the GADIRUs. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 18 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 19 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description Power supply Power supply (Standard A/C Configuration) - General GADIRU 1 and its associated equipments are normally supplied via AC Emergency Bus and DC Essential Bus. GADIRU 2 and its associated equipments are normally supplied via the Secondary Electric Power Distribution Center (SEPDC) 2. GADIRU 3 and its associated equipments are normally supplied via SEPDC 1. Depending on conditions (electrical emergency and SSP Air Data selector) they can be also supplied by AC Emergency Bus and DC Essential Bus. The ICPS provides to all 3 GADIRUs the commands for power ON/OFF. When the OFF state is commanded, each GADIRU starts internally a power down sequence and disconnects itself from the power supply. The OFF command is triggered only on ground. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 20 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 21 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description Power supply (Standard A/C without Antijam Configuration). General Some A400M configurations do not require the anti-jamming capability. It implies that only FRPAs are used to feed the GADIRUs. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 22 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 23 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description Power Supply - GADIRUs Each GADIRU is supplied with 115VAC and 28VDC for back up, which are redundant power supply inputs (only one is needed for GADIRU operation). In normal electrical configuration: - GADIRU1 is powered with 115 VAC from the AC Emergency Bus. - GADIRU2 is powered with 115 VAC from the SEPDC 2. - GADIRU3 is powered with 115 VAC from the SEPDC 1. In case of loss of main electrical generation, the principle is to supply two GADIRUs (GADIRU 1 and 3) from the AC Emergency Bus: - GADIRU1 is still powered with 115 VAC from the AC Emergency Bus. - GADIRU2 is no longer powered with 115 VAC since normal power from SEPDC 2 is lost. - GADIRU3 is powered with 115 VAC from the AC Emergency Bus, after automatic switching ensured by the Emergency Relay. In case of total loss of 115 VAC supply, the Hot Bus Essential will supply the GADIRU1 and 3 on 28 VDC Back-up Power input through respective Time Delay Opened (TDO) Relays. These relays remain activated by a control signal supplied by the DC Essential Bus. If the DC Essential Bus is lost, the 28 VDC Back-up power supply is ensured through a 10 seconds timer in the TDO Relays, time TRAINING necessary for the Ram Air Turbine (RAT) deployment. USE Released in June 23, 2021 ONLY Training Use Only 24 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations General Description TRAINING USE Released in June 23, 2021 ONLY Training Use Only 25 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications 1.1.2 Controls & Indications GADIRS Hardware Controls GADIRS CTL Panel The GADIRS control panel is used to disconnect the Inertial Data and/or the Air Data output from the ADCN, in the event of a failure, to avoid erroneous data to pollute the aircraft systems. The GADIRS control panel is made of six illuminated pushbuttons: one IR and one ADR for each of the three GADIRUs. In case the GADIRU internal monitoring detects erroneous IR and/or ADR data, the corresponding “FAULT” indication is illuminated. When one of the switches is pressed, the corresponding GADIRU stops IR or ADR data transmission to ADCN, and the “OFF” indication is illuminated (data are still processed, but not transmitted). The corresponding GADIRU is not actually switched off when one of these switches is pressed. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 26 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications TRAINING USE Released in June 23, 2021 ONLY Training Use Only 27 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications Controls on the Maintenance Panel A single GADIRS Power ON/OFF push-button, located on the overhead panel (maintenance panel), is used to power on/off all 3 GADIRU. Note: The OFF mode cannot be triggered in flight conditions (the GADIRUs disregard the command). The Anti-ice Control pushbutton is used to manually activate the air data probes anti-ice while the aircraft is on the ground and the engines are stopped. Normally the Anti-ice is managed automatically. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 28 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications TRAINING USE Released in June 23, 2021 ONLY Training Use Only 29 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications GADIRS Source Switching Panel The SSP provides to GADIRS user systems the information that the crew desires to see: GADIRS data from on-side GADIRU (1 or 2) or GADIRS data from GADIRU 3. The SSP contains two rotary switches that determine the GADIRU that is used as the source of data: - Attitude and Heading Selector, which is related to the IR part within the GADIRU - Air Data Selector, which is related to the ADR part within the GADIRU In normal position the data parameters displayed on the CDS and HUD Displays come from the one side GADIRU, and the GADIRU 2 for the 3rd crewmember station display. Other positions of the two switches allow the crew to reconfigure one side of the cockpit to display parameters from GADIRU 3 instead of parameters coming from the normal GADIRU (1 or 2). Whatever the position of the switch, the 3rd crewmember station uses the same source system as the right side of the cockpit. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 30 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications TRAINING USE Released in June 23, 2021 ONLY Training Use Only 31 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications GADIRS Indications and Software Control Format Display Indications GADIRS parameters are displayed on numerous CDS formats. The primary Human-Machine Interface (HMI) for the air data part of GADIRS is on the PFD format. PFD and HUD show the following parameters: - Bank, Pitch and Yaw angles, Aircraft Altitude and Reference, Vertical speed, Heading and Track, Airspeed and Mach Navigation and Tactical Display (NTD) shows the following parameters: - Heading, Wind speed and direction, Ground speed, True Air Speed Engine and Warning Display (EWD) shows: - Alerts upon failures of part of the GADIRS System Display (SD) format shows on its Permanent Data Zone: - Total Air Temperature (TAT), Static Air Temperature (SAT), delta from International Standard Atmosphere (ISA), Vertical Acceleration, UTC Time TRAINING USE Released in June 23, 2021 ONLY Training Use Only 32 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications TRAINING USE Released in June 23, 2021 ONLY Training Use Only 33 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications Software Control The FM format is fitted with several pages allowing the control of sub parts of the GADIRS. In the figure, only some examples (Monitor, IRS, and GPS) are represented. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 34 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Controls & Indications TRAINING USE Released in June 23, 2021 ONLY Training Use Only 35 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Component Location 1.1.3 Component Location GADIRUs Location GADIRUs LOCATION Three GADIRUs are located in the nose fuselage section and more exactly: - GADIRU 1 between frame 10/11 - GADIRU 2 between frame 11/12 - GADIRU 3 between frame 9/10 TRAINING USE Released in June 23, 2021 ONLY Training Use Only 36 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Component Location TRAINING USE Released in June 23, 2021 ONLY Training Use Only 37 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Component Location PROBES and ANTENNAS Location This picture shows the location of the following probes and antennas: Three FRPA, installed on the Forward Fuselage, top area. Two CRPAs, installed on the wing-to-fuselage fairing. Two CRPAUs, installed in the center fuselage, near to the CRPAs. Three MFP, Nr. 1 & 3 on the left side and Nr. 2 on the right side of the nose fuselage. Six ISP, located on the left & right side of the nose fuselage. Three SSA, located on the nose fuselage near the Nose Landing Gear Wheel Well. Two OAT sensors, installed on the nose landing gear bay. NOTE: Take in account that the CRPAs and CRPAUs are not installed in the A400M Aircraft without Antijam Configuration. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 38 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - A400M Training Manual Description & Operations Component Location TRAINING USE Released in June 23, 2021 ONLY Training Use Only 39 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) 1.1.4 Detailed Description (only for Standard A/C configuration) GADIRS Functions GADIRS Functions We have seen in general until here the purpose of the GADIRS System, its components and its behaviour. We are now going to analyze in details what the GADIRU is and how it works. As we know, the main functions of GADIRS are ADR, IR, GPS, and CLOCK. During this lesson we’ll talk also about the Hybridization function, which is a computation function. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 40 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) TRAINING USE Released in June 23, 2021 ONLY Training Use Only 41 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) ADR Part ADR Computed Parameters The ADR part computes and provides the air data parameters indicated on the figure, which are essential to many systems like Control and Display System (CDS), Heads Up Display System (HUDS), Flight Management System (FMS), Flight Control and Guidance System (FCGS), Flight Warning System (FWS), Landing Gear Extension and Retraction System (LGERS) and High Lift System (HLS). The Primary Flight Control Panel (PFCP) provides the ADR with the barometric value for pressure correction setting. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 42 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) TRAINING USE Released in June 23, 2021 ONLY Training Use Only 43 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) Air Data Probes Architecture There are 3 sets of probes on the aircraft, one by GADIRU. The ADR part of each GADIRU is supplied by data coming from its associated set of air data probes. A set of Air Data Probes is composed of: - 1 Multi Function Probe (MFP), - 1 Side Slip Angle Probe (SSA), - 2 Integrated Static Probes (ISP), - 1 Outside Air Temperature Sensor (OAT) All probes except OAT transmit the air data parameters to its associated GADIRU via ARINC 429 buses. They also receive de-icing automatic activation signals from the GADIRUs via ARINC 429 buses and a discrete signal from the Probe and Window Heat push button dedicated to manual De-icing activation. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 44 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) TRAINING USE Released in June 23, 2021 ONLY Training Use Only 45 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) ADR Monitoring Overview Due to the importance of the air data parameters, they are continuously monitored. An internal ADR monitoring checks the reliability of the computed parameters. An external monitoring done by peripheral systems checks the reliability of received parameters. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 46 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) TRAINING USE Released in June 23, 2021 ONLY Training Use Only 47 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) ADR Internal Monitoring The internal ADR monitoring includes the two following checks: - The comparison between the left and right static pressures. - The comparison of air data computed by the ADR with other systems like ISIS, which uses its own probes and FADEC, which use their own air data sensors. In case of discrepancy, an alert NAV ADR 1(2) (3) FAULT is triggered. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 48 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) TRAINING USE Released in June 23, 2021 ONLY Training Use Only 49 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) ADR External Monitoring The external ADR monitoring is performed by the PRIMs and the FWS. The PRIMs monitor the airspeed/mach and the altitude values coming from the three ADRs and the ISIS. In case of discrepancy, an alert NAV AIR DATA DISAGREE (ADR 1) (ADR 2) (ADR 3) (STDBY INSTRUMENTS) REJECTED BY PRIM is triggered. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 50 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) TRAINING USE Released in June 23, 2021 ONLY Training Use Only 51 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) ADR External Monitoring (Continue) The FWS compares the altitude displayed on CM1 side and the altitude displayed on CM2 side. In case of discrepancy, an alert NAV CM1 & CM2 ALT DISAGREE is triggered. The HUD displays the message CHECK ALT flashing green and the PFD displays CHECK ALT flashing amber. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 52 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) TRAINING USE Released in June 23, 2021 ONLY Training Use Only 53 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) ADR Alerts As a summary, the wording used in the ECAM alerts gives the source of the monitoring and the rationale of the problem: - FAULT indicates a self detected failure - DISAGREE indicates a data difference between two sources - REJECTED BY indicates when a system is rejected by another monitoring system. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 54 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) TRAINING USE Released in June 23, 2021 ONLY Training Use Only 55 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) IR Part IR Part The IR part, composed by gyros and accelerometers, provide the following functional data as described in this section. - Attitudes (Pitch, Roll, Yaw, etc) - Velocities (Ground speed, vertical speed, etc) - Position (Latitude, Longitude, etc) - Altitude (Baro inertial Altitude based on ADR altitude data) - Heading (Magnetic heading, True heading, Grid heading, etc) - Load factors - Angular rates The main users of the inertial data are the systems indicated on the figure. Three gyros, one for each rotation axis, give inertial rotation data. Three accelerometers, one for each axis, give linear accelerations. The IR constantly computes the gyros and accelerometers outputs to produce the inertial data that are sent to the user systems. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 56 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) TRAINING USE Released in June 23, 2021 ONLY Training Use Only 57 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem - Description & Operations A400M Training Manual Detailed Description (only for Standard A/C configuration) MIL GPS Part MIL GPS versus CIV GPS The GPS provided by GADIRS is a military GPS that delivers data with superior accuracy than the civil GPS. Compared with the CIV GPS, the MIL GPS provides: 1. Increased position accuracy 2. Additional time data functionality (Military Code Time) 3. The cryptography functionality 4. Increased resistance against jamming and spoofing environments. The MIL GPS operates in the following modes: - A military mode called P(Y) (Precise encrYption) using cripto keys to provide a precision positioning service with robustness against spoofing and jamming - Civil Coarse Acquisition (C/A) mode to provide a standard positioning service if P(Y) mode is not available. TRAINING USE Released in June 23, 2021 ONLY Training Use Only 58 / 735 This document shall be used in accordance with the provisions described on the front page. NTCSS Release 2023-01 51_ATA34_Lv2&3_CAT B2_P_JUN21.pdf GPS Air Data Inertial Reference SubSystem -