ATR 72-600 Systems [PDF]

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SYSTEMS Contact

For ordering manuals, please contact us at: Phone: +33 (0)5 6221 6207

SCAN YOUR AIRCRAFT

42 PEC 72 PEC Glass cockpit - 600

e-mail: [email protected] ATR Product Support & Services Portal: https://www.atractive.com

© ATR Product Support & Services - May 2014 Avions de Transport Régional. 1, allée Pierre-Nadot 31712 Blagnac Cedex - France Phone: +33 (0)5 62 21 62 07 - Fax: +33 (0)5 62 21 63 67 - https://www.atractive.com

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Dear Readers, Every effort has been made to ensure document quality. However please do not hesitate to share your comments and information with us by using the following address: [email protected] Yours faithfully,

Printed on 100% recycled paper using vegetable inks

Your ATR Training and Flight Operations support team.

© ATC May 2014 All reasonable care has been taken by ATC to ensure the accuracy of the present document. However this document does not constitute any contractual commitment from the part of ATC which will offer, on request, any further information on the content of this brochure. Information in this brochure is the property of ATC and will be treated as confidential. No use or reproduction or release to a third part may be made there of other than as expressely authorised by ATC.

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Introduction

Introduction This Systems guide is an essential tool for all ATR flight crews and engineers to learn or review ATR systems operation. To make learning process easier, systems are introduced in a user-friendly and efficient training method, including diagrams and schematics and displays as appropriate. This guide is a comprehensive document that efficiently complements FCOM 1st part – Systems description. Systems are organized as per FCOM chapters, including their ATA classification along with cockpit location. Cockpit panels familiarisation is presented with each relevant system description in a separate annex. This new guide release is intended for training on ATR 42-500 and 72-212A New Avionics Suite (42-600 and 72-600). It presents a generic aircraft not customized to your own aircraft systems. Should you find any discrepancy between Systems guide and your customized ATR operational documentation (AFM, FCOM & QRH), the latter takes precedence. NB: This Systems guide is also available for ATR 42-300, 72-200 not PEC, 42-500 and 72-212A.

The Training and Flight Operations support team.

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S y s t e m s 4 2/72 - 6 0 0 Chapter A. Aircraft general 1. Doors location .....................................................................................................................................................................................................................................................8 2. Cargo door panel ...........................................................................................................................................................................................................................................9 3. Doors panel ...........................................................................................................................................................................................................................................................9 4. External lights ................................................................................................................................................................................................................................................10 5. EXT LT panel .....................................................................................................................................................................................................................................................11 6. Memo panel display .................................................................................................................................................................................................................................11 7. Signs panel .........................................................................................................................................................................................................................................................11 8. Internal lighting ............................................................................................................................................................................................................................................12 9. LT panel ...................................................................................................................................................................................................................................................................13 10. ANN LT panel ...............................................................................................................................................................................................................................................13 11. Side panel .........................................................................................................................................................................................................................................................13 12. FLT COMPT LT panel .........................................................................................................................................................................................................................13

Chapter B. Integrated systems 1. Integrated Modular Avionics (IMA)......................................................................................................................................................................................16 2. Multi Function Computer (MFC)..............................................................................................................................................................................................17 3. Multi Purpose Computer (MPC) ..............................................................................................................................................................................................18 4. Schematic..............................................................................................................................................................................................................................................................19

Chapter C. Flight warning system 1. Cockpit colors philosophy ............................................................................................................................................................................................................22 2. FWS description ..........................................................................................................................................................................................................................................24 3. Alert window ....................................................................................................................................................................................................................................................25 4. EMER audio cancel & TO config test .............................................................................................................................................................................28 5. Aural alarms ......................................................................................................................................................................................................................................................29

Chapter D. Air 1. Pneumatic system......................................................................................................................................................................................................................................32 1.1. Schematic .................................................................................................................................................................................................................................................32 1.2. AIR BLEED panel.............................................................................................................................................................................................................................33 2. Air conditionning ........................................................................................................................................................................................................................................39 2.1. Schematic .................................................................................................................................................................................................................................................39 2.2. COMPT TEMP panel ...................................................................................................................................................................................................................40 3. Avionics ventilation .................................................................................................................................................................................................................................44 3.1. Schematic .................................................................................................................................................................................................................................................44 3.2. AVIONICS VENT panel .............................................................................................................................................................................................................44 4. Pressurization ................................................................................................................................................................................................................................................45 4.1. Schematic .................................................................................................................................................................................................................................................45 4.2. Cabin pressure indicators ..................................................................................................................................................................................................46 4.3. AUTO PRESS panel .....................................................................................................................................................................................................................46 4.4. MAN RATE KNOB and CABIN PRESS panel..............................................................................................................................................46

Chapter E. Automatic flight control system 1. Schematic ............................................................................................................................................................................................................................................................50 2. FMA ..............................................................................................................................................................................................................................................................................51 3. FGCP (Flight Guidance and Control Panel) ............................................................................................................................................................56 4. ICP (Index Control Panel) .................................................................................................................................................................................................................56

Chapter F. Communications 1. Schematic............................................................................................................................................................................................................................................................. 58 2. PTT selector and NOSE WHEEL STEERING CONTROL SW.............................................................................................................58 3. Audio control panel ..................................................................................................................................................................................................................................59 4. VHF control ..........................................................................................................................................................................................................................................................59 5. AUDIO SEL pb..................................................................................................................................................................................................................................................60 6. Loudspeaker volume knobs .........................................................................................................................................................................................................60

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Contents 7. TCAS control box ........................................................................................................................................................................................................................................60 8. EMER LOC XMTR panel .....................................................................................................................................................................................................................61 9. Cabin attendant handset...................................................................................................................................................................................................................61 10. Handmike and handset....................................................................................................................................................................................................................61 11. CALLS panel ...................................................................................................................................................................................................................................................61 12. Head set / boom set / hand mike panels ...................................................................................................................................................................61 13. ATC control.......................................................................................................................................................................................................................................................62 14. CVR panel...........................................................................................................................................................................................................................................................62 15. Crew oxygen mask ................................................................................................................................................................................................................................62

Chapter G. Electrical systems 1. Sources of power ........................................................................................................................................................................................................................................64 2. DC-AC schematic .......................................................................................................................................................................................................................................66 2.1. Normal supply: On ground with battery only ............................................................................................................................................66 2.2. Normal Supply: On ground with external power .........................................................................................................................................67 2.3. Hotel mode or DC GEN 1 FAULT ................................................................................................................................................................................68 2.4. Normal supply: with two generators on line..............................................................................................................................................69 2.5. Emergency supply: In dual DC GEN LOSS with the battery toggle switch on OVRD .......................70 2.6. Emergency supply: In dual DC GEN LOSS with the battery toggle switch on OVRD and second OVRD selected ..........................................................................................................................................................................................................71 2.7. Emergency supply: In dual DC GEN LOSS with TRU ....................................................................................................................72 3. DC-AC panel ......................................................................................................................................................................................................................................................73 4. Elec SD ......................................................................................................................................................................................................................................................................74 5. ACW schematic .............................................................................................................................................................................................................................................78 6. ACW panel ............................................................................................................................................................................................................................................................80 7. SD page ....................................................................................................................................................................................................................................................................81 8. Breaker panels ................................................................................................................................................................................................................................................82 8.1. Overhead panel .................................................................................................................................................................................................................................82 8.2. Electric rack behind F/O .......................................................................................................................................................................................................83

Chapter H. Emergency equipment 1. Emergency equipment situation.............................................................................................................................................................................................86 2. Emergency lighting system ...........................................................................................................................................................................................................86 3. First aid kit ............................................................................................................................................................................................................................................................87 4. Crash axe ...............................................................................................................................................................................................................................................................87 5. Megaphone ..........................................................................................................................................................................................................................................................87 6. Flashing light .....................................................................................................................................................................................................................................................87 7. Life jacket ..............................................................................................................................................................................................................................................................87 8. Escape rope ........................................................................................................................................................................................................................................................87 9. Gloves .........................................................................................................................................................................................................................................................................88 10. Water extinguisher .................................................................................................................................................................................................................................88 11. Halon extinguisher .................................................................................................................................................................................................................................88 12. Oxygen schematic..................................................................................................................................................................................................................................88 13. Oxygen panel and display ............................................................................................................................................................................................................89 14. Cockpit crew oxygen mask .......................................................................................................................................................................................................89 15. Portable oxygen bottle......................................................................................................................................................................................................................90 16. Passenger oxygen mask ................................................................................................................................................................................................................90 17. Protective breathing equipment ..........................................................................................................................................................................................90

Chapter I. Fire protection 1. Schematic..............................................................................................................................................................................................................................................................92 2. Avionics FWD and AFT smoke detection ...................................................................................................................................................................92 3. Fire handle ............................................................................................................................................................................................................................................................93 4. EWD (Engine and Warning Display)....................................................................................................................................................................................93 5. Condition levers fuel light ................................................................................................................................................................................................................93 6. Compartment smoke panel...........................................................................................................................................................................................................94 7. SD cabin...................................................................................................................................................................................................................................................................94

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S y s t e m s 4 2/72 - 6 0 0 Chapter J. Flight control 1. Roll schematic.................................................................................................................................................................................................................................................96 2. Pitch schematic .............................................................................................................................................................................................................................................96 3. Yaw schematic ................................................................................................................................................................................................................................................97 4. Gust lock .................................................................................................................................................................................................................................................................97 5. Stick Shaker/Stick Pusher push button and display ..................................................................................................................................97 6. Spoilers position indicator..............................................................................................................................................................................................................98 7. Pitch trim asym light ...............................................................................................................................................................................................................................98 8. Trim position indicator .........................................................................................................................................................................................................................98 9. Trim controls ......................................................................................................................................................................................................................................................99 10. Flaps schematic .................................................................................................................................................................................................................................... 100 11. Flaps position indicator............................................................................................................................................................................................................... 100 12. Flaps control lever .............................................................................................................................................................................................................................. 101

Chapter K. Flight instruments 1. Schematic.......................................................................................................................................................................................................................................................... 104 2. PFD (Primary Fight Display) ...................................................................................................................................................................................................... 105 3. MFD (Multi Function Display) .................................................................................................................................................................................................. 106 4. EWD (Engine and Warning Display)................................................................................................................................................................................ 107 5. ND - ARC MODE with terrain or weather radar information ...................................................................................................... 108 6. Source failure alert ................................................................................................................................................................................................................................ 108 7. Switching panel ......................................................................................................................................................................................................................................... 109 8. EFCP (control panel) ........................................................................................................................................................................................................................... 109 9. MCP (Multipurpose Control Panel) ................................................................................................................................................................................. 110 10. Weather radar control ................................................................................................................................................................................................................... 111 Primus 660 ........................................................................................................................................................................................................................................................ 111 11. TAT/SAT indicator ............................................................................................................................................................................................................................... 112 12. CLOCK................................................................................................................................................................................................................................................................ 112 13. RCDR panel ................................................................................................................................................................................................................................................. 113 14. STBY instruments ............................................................................................................................................................................................................................... 113 15. Airspeed indicator .............................................................................................................................................................................................................................. 114 16. Altimeter........................................................................................................................................................................................................................................................... 115 17. Vertical speed indicator and TCAS .............................................................................................................................................................................. 116

Chapter L. Fuel system 1. Schematic.......................................................................................................................................................................................................................................................... 118 2. Electrical fuel pump OFF............................................................................................................................................................................................................... 119 3. Starting procedure................................................................................................................................................................................................................................. 120 4. Normal procedure................................................................................................................................................................................................................................... 121 5. Cross feed procedure........................................................................................................................................................................................................................ 122 6. Engine feed jet pump low pressure................................................................................................................................................................................ 124 7. Low level ............................................................................................................................................................................................................................................................. 125 8. Engine fire procedure ........................................................................................................................................................................................................................ 126 9. Fuel panel........................................................................................................................................................................................................................................................... 127 10. SD Engine ....................................................................................................................................................................................................................................................... 127 11. Fuel QTY indication ........................................................................................................................................................................................................................... 128 12. XFEED advisory on memo panel display ............................................................................................................................................................. 128

Chapter M. Hydraulic system 1. Schematic.......................................................................................................................................................................................................................................................... 130 3. SD ACW and hydraulic ..................................................................................................................................................................................................................... 131 2. HYD PWR panel ......................................................................................................................................................................................................................................... 131 4. Pressure indication ............................................................................................................................................................................................................................... 132 5. AUX pump pedestal switch ....................................................................................................................................................................................................... 132 6. Hydraulic on Ramp (only on battery) ............................................................................................................................................................................ 133 7. Hydraulic on Ramp (aux pump P/B selected on the pedestal) ................................................................................................. 133 8. Hydraulic system normal operation............................................................................................................................................................................... 134

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Contents 9. Hydraulic system failures ............................................................................................................................................................................................................. 135 10. Hydraulic system crossfeed operation .................................................................................................................................................................. 135 11. Both main hydraulic pumps loss .................................................................................................................................................................................... 136 12. Both hydraulic systems loss ................................................................................................................................................................................................ 137

N. Ice and rain protection 1. Schematic.......................................................................................................................................................................................................................................................... 140 2. Probes and windshield HTG ..................................................................................................................................................................................................... 141 3. Rain protection ........................................................................................................................................................................................................................................... 141 4. Ice detector panel and icing AOA ..................................................................................................................................................................................... 141 5. Aircraft Performance Monitoring (APM) .................................................................................................................................................................. 142 6. De-icing schematic............................................................................................................................................................................................................................... 143 7. Airframe air bleed FAULT .............................................................................................................................................................................................................. 144 8. Anti-icing & de-icing panel ......................................................................................................................................................................................................... 145 9. De-icing/anti-icing indication (memo panel display) .............................................................................................................................. 145

O. Landing gear 1. Landing gear description ............................................................................................................................................................................................................. 148 2. Brakes schematic ................................................................................................................................................................................................................................... 148 3. LDG GEAR position indicators .............................................................................................................................................................................................. 149 4. Landing gear handles ........................................................................................................................................................................................................................ 149 5. Brakes temperatureand antiskid ....................................................................................................................................................................................... 149 6. Emergency parking brake handle..................................................................................................................................................................................... 150 7. Steering handwheel ............................................................................................................................................................................................................................. 150

P. Navigation system 1. Nav control ....................................................................................................................................................................................................................................................... 152 2. Marker sensibility setting ............................................................................................................................................................................................................. 152 3. ADF control ...................................................................................................................................................................................................................................................... 152 4. TAWS alert modes .................................................................................................................................................................................................................................. 153 5. TAWS pb............................................................................................................................................................................................................................................................... 157 6. TAWS panel...................................................................................................................................................................................................................................................... 157 7. ND OVERLAY ................................................................................................................................................................................................................................................. 158 8. FMS ............................................................................................................................................................................................................................................................................ 159

Q. Power plant 1. Engine schematic/72 .......................................................................................................................................................................................................................... 162 2. Power and propeller controls/72 ....................................................................................................................................................................................... 163 3. Engine indication ..................................................................................................................................................................................................................................... 166 4. ENG START panel/72 .......................................................................................................................................................................................................................... 168 5. ENG control panel/72......................................................................................................................................................................................................................... 168 6. PWR MGT panel/72............................................................................................................................................................................................................................... 169 7. ATPCS test panel/72 ........................................................................................................................................................................................................................... 169 8. Idle gate/72 ...................................................................................................................................................................................................................................................... 169

Annexes Annex 1. Cockpit panels ....................................................................................................................................................................................................................... 173 Annex 2. Abbreviations ........................................................................................................................................................................................................................... 187

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A. Aircraft general FCOM 1.00

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S y s t e m s 4 2/72 - 6 0 0

1. Doors location

Cargo door

Pilot communication hatch

Emergency exit type III

Rear entry door / emergency exit type I

ATA 52

Service door / emergency exit type I

Pilot emergency hatch

Aft avionics compartment door

Forward avionics access hatch

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A. Aircraft general

2. Cargo door panel

ATA 52

ARMED light – Selector armed green light is ON, when actuator selection switch working conditions are met: – cover panel opened – door unlocked by operating handle: all hooks are disengaged and FWD latchlock is unfastened

LCHD light blue light is ON when all door hooks and latch locks are fully engaged

GND HDL light Ground handling bus ON BAT red light is ON when ground handling bus is directly supplied by HOT main bat bus: means that the battery is discharging even if the BAT toggle switch is in OFF position (visible even when the cover panel is closed) This red light is ON when: – The refueling panel is open – The cargo door control panel is open – The passenger door is open and alert, that the battery is discharging before leaving the aircraft

Actuator selection switch is used to operate the door (OPEN or CLOSE) when the CARGO DOOR ARMED green light is on

Panel cover switch connects the ground handling bus on line when the panel cover is opened and allows operation of cargo door. During the opening, a self test of the MFC 1A and 2A is performed to initiate the control system of the cargo door.

CARGO LIGHT switch allows activation of the cargo bay light from outside

3. Doors panel

ATA 52

CAB OK and SVCE OK Light on when SW TEST depressed and check microswitches operation

UNLK At least 1 micro switch is opened SW TEST Tests continuity of microswitch system (on ground, doors opened)

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S y s t e m s 4 2/72 - 6 0 0

4. External lights

ABCDE F GH-

ATA 33

Navigation lights Taxi and T/O lights Landing lights Wing lights Beacon lights Strobe lights Logo lights Emergency light

Cabin panel

Memo panel display

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A. Aircraft general

5. EXT LT panel

ATA 33

BEACON and NAV supplied by SVCE BUS and BUS 1 LOGO supplied by SVCE BUS

STROBE, LAND supplied by ACW BUS 1 (Left Hand), ACW BUS 2 (Right Hand) TAXI & T.O Supplied by ACW BUS 2 WING Supplied by DC BUS 2

6. Memo panel display

ATA 33

SEAT BELT displayed in cyan when associated switch is selected ON

NO DEVICE displayed in cyan when associated switch is selected ON

SEAT BELT displayed in amber crossed when the signal is invalid.

NO DEVICE displayed in amber crossed when the signal is invalid.

7. Signs panel

ATA 33 ON emergency exit lights illuminates. Supply: DC STBY or 6 V BAT packs

NO DEVICE and SEAT BELTS Cyan message on memo panel display when ON. (DC BUS 2)

ARM Emergency lights illuminate when 20V on STBY bus and at least 1 GEN operating

DISARM system deactivated

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S y s t e m s 4 2/72 - 6 0 0

8. Internal lighting

ATA 33

MIP/PED

OVHD

The STORM switch overrides the MIP/PED rotary selector to put in the maximum intensity setting

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A. Aircraft general

9. LT panel

ATA 33

MIP / PED Selects activation and intensity of integral lighting of the main instrument panels (MIP) and pedestal (PED)

MIP/PED

OVHD

OVHD rotary selector selects activation and intensity of overhead panels integral lighting

FLOOD knob selects activation and intensity panel flood lighting. (OFF TO BRT)

10. ANN LT panel

ATA 33 To check and control the intensity of: – the annunciator lights on the overhead and pedestal panels – the overhead panel flow bars TEST: All the associated lights come on bright BRT: associated light illuminate bright DIM: associated light are dimmed

11. Side panel

ATA 33 CAPT READING LT knob selects activation and intensity of the respective spot light

CAPT CONSOLE LT knob selects activation and intensity of the respective lateral console

12. FLT COMPT LT panel DOME switch BRT: dome lights are supplied with maximum intensity DIM: dome lights are dimmed OFF: both dome are off DOME light: the F/O dome light becomes BRT when the switch in BRT or DIM if: – dual DC GEN loss – or on ground, with BAT supply only

ATA 33

STORM switch On position, it overrides the MIP/ PED rotary selector to put in the maximum intensity setting

STBY COMPASS switch to illuminate the STBY COMPASS ON and OFF position

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B. Integrated systems FCOM 1.01

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S y s t e m s 4 2/72 - 6 0 0

1. Integrated Modular Avionics (IMA)

ATA 42

The Integrated Modular Avionic (IMA) provides computation, memory and Input/Output data processing resources, shared between several avionics applications. The Integrated Modular Avionic is mainly composed of the dual Core Avionic Cabinets (CAC 1&2). The term CAC (Core Avionic Cabinet) designs the whole equipment composed of the rack and the set of cards. In the basic configuration, each CAC is composed of: – 1 CPM (Core Processing Module) The CPMs provide shared memory and computation resources to execute hosted avionics applications. – 1 IOM-S (Input/Output Module) This IO Module is dedicated to provide ARINC and discrete I/O for all functions – 1 IOM-AP (Input/Output Module) This IO Module is dedicated to provide discrete and analog I/O for the Auto-Flight application. – 2 IOM-DC (Input/Output Module) The IOM-DC provide discrete and analog I/O for Data Concentration Application (DCA) . – 1 SWM (gateway and SWitch Module) This module is dedicated to connect together CPM and other Avionics Data Network subscribers. The communication means is based on AFDX network, linking network subscribers through SWM. The main applications hosted by the Core Avionic Cabinets are : – Flight Warning (FWA) – Auto-Flight (AFCA) – Centralized Maintenance (CMA) (only on CAC 1) – Data Concentration (DCA) The CAC 1 & 2, communicate with five display units and systems through different data bus formats: – AFDX: Avionics Full DupleX switched ethernet – A429: ARINC 429 – Analogic – Discretes Two of the five displays units (DU2 and DU4) are dedicated to two other functions: – Flight Management Application (FMA) – Radio Management Application (RMA)

DU 1

DU2 FMA 1 RMA 1

DU 3

DU 4 FMA 2 RMA 2

DU 5

AFDX A429 CPM 1

IOM /S 1

IOM /AP 11

IOM /DC 12

IOM SWM /DC 1 13

CPM 2

IOM /S 2

AFCA 1 FWA 1 DCA 1 CMA 1

CAC 1

IOM /AP 21

IOM /DC 22

IOM SWM /DC 2 23

AFCA 2 FWA 2 DCA 2 DISCRETE ANALOG

A429

CAC 2

SYSTEMS

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B. Integrated systems

2. Multi Function Computer (MFC)

ATA 31

Numerous logic funtions are performed by two independant computers (MFC1 and MFC2). Each computer includes two independant modules (A and B)

The purpose of these computers is to: – monitor, control, authorise operation of the aircraft systems – manage system failures and flight enveloppe anomalies and command triggering of associated warning Inter-card dialogue (ARINC 429)

MFC1A Hardwired logic Aircraft system outputs

Electrical power

28VDC Alternate supply

MFC1B

MFC2A

MFC2B

Aural

Hardwired logic

Aural

Computation (soft) Computation (soft)

Aircraft system inputs

28VDC Normal supply

Inter-card dialogue (ARINC 429)

DC ESS BUS or GND HDLG BUS HOT EMER BAT BUS

Aircraft system outputs

Aircraft system outputs

Aircraft system inputs

Aircraft system inputs

Electrical power

Electrical power

DC EMER BUS

MAIN BUS 1

28VDC Alternate supply

28VDC Normal supply

28VDC Normal supply

28VDC Alternate supply

Aircraft system outputs

Computation (soft) Computation (soft)

DC ESS BUS or GND HDLG BUS HOT EMER BAT BUS

Aircraft system inputs

Electrical power

DC EMER BUS

MAIN BUS 1

28VDC Alternate supply 28VDC Normal supply

FAULT illuminates and the FWS is activated when a malfunction or electrical supply fault is detected. The module automatically becomes inoperative. This light also flashes during self-test of the module. During powering, since all 4 modules are selected ON, the following sequence is executed: MFC 1A and MFC 2A FAULT lights flashing (selftest of these modules) MFC 1A and MFC 2A FAULT lights extinguish. MFC 1B and MFC 2B FAULT lights flashing (selftest of these modules) MFC 1B and MFC 2B FAULT lights extinguish

OFF The module stops operating

The MFC functions can be processed: – in one module only – in several modules (redundancy) – partially in 2 modules

NOTE: If the cargo door control panel is opened, the self test of MFC 1A and 2A are already done, and only the MFC 1B and 2B are tested. (See chapter A.2)

Example: MODULE SYSTEM

FUNCTION 1A

FLIGHT

STICK PUSHER

CONTROLS

STALL WARNING

1B

2A

2B

– The stick pusher function is integrated in modules 1A, 1B, 2A and 2B. – The stall warning function is integrated in modules 1B and 2B. – The stick pusher function is available if modules (1A AND 2A) OR (1A AND 2B) OR (1B AND 2A) OR (1B AND 2B) operate. This function is therefore not available if modules (1A AND 1B) OR (2A AND 2B) are lost. – The stall warning is available if modules 1B OR 2B operate. This function is therefore not available if modules 1B AND 2B are lost.

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3. Multi Purpose Computer (MPC)

ATA 31

The MPC unit is including two parts: – Flight Data Acquisition unit (FDAU) – Data Management unit (DMU) A) FDAU Part The MPC acquires data in digital, analog or discrete format from aircraft systems for various FDAU functions: – Flight Data Recording (SSFDR) (refer to chapter Flight Instruments). – Aircraft Performance Monitoring (APM) (Refer to chapter Ice and Rain Protection). – Data broadcast to CAC (to avionics system). – Time management. – Flight time management. – Flight number management. – Configuration management (A/C type, A/C ident, APM version). B) DMU Part The MPC has the capability to manage ACMS functions (Aircraft Condition Monitoring System) in order to: – facilitate the maintenance of the aircraft. – record data for the Flight Data Monitoring purpose (FDM) The main possible ACMS functions are: – QAR/DAR recording on a PCMCIA disk (QAR when the data frame is the FDR one’s/DAR when it is reprogrammed by a ground support equipment) → FDM purpose – Management of reports (take-off, cruise... ) → FDM purpose – Dialogue with the following aircraft equipments: MCDU, Printer, ACARS (optional) – Other maintenance functions.

PRINTER ACARS (Optional)

MCDU

DU 1

MPC DMU

DU 2

CAC 1

Accelerometer Signals From Aircraft Systems

DU 3

FDAU DU 4

CAC 2 DU 5

SSFDR

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B. Integrated systems

4. Schematic

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C. Flight warning system FCOM 1.02

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1. Cockpit colors philosophy

ATA 31

In normal operation, all lights are extinguished (Dark cockpit philosophy). With some exceptions, the lights illuminate to indicate a failure or an abnormal condition.

HIGH LEVEL COLOR CODE RULES FOR ATR 600 COLOR USED for DISPLAY PICTURES – PRINTING – PUSH BUTTONS – CONTROL PANELS

WHITE

WHITE means an inert information – Unit data and external world reference: graduations on IAS strip, Baro-Alt strip, VS strip & Heading rose. Engine & system parameter indicators graduations – Consulted data (MCDU) – Normal (non icing) speed references (VMLBO, Flaps retraction speed) – System selected OFF (displayed on Display Unit), Push Button OFF light on control panels, inert shape on Display Unit – Title, comments & action menu list – Advisory messages on MCDU (no crew action required) – Segregation area with horizontal or vertical lines

LIGHT GREY

LIGHT GREY is used for typing, for system picture inoperative functions & for virtual control buttons (VCP) – Light grey typing on Display Unit means associated virtual control is inhibited – Pipe shapes (fuel or air or hydraulics) are displayed light grey when no flow or pressure is detected – Virtual control button light grey means button is not auto maintained pushed Specific for ANF (Airport Navigation Virtual Control Panel): opened menu on a light grey background summarizes MCP (Manual Control Panel) current active PB functions

DARK GREY

DARK GREY is used for virtual control button (on Virtual Control Panel) – Dark grey virtual push button means associated virtual control is auto maintained pushed for a given time (i.e. IDENT for ATC transponder)

YELLOW

YELLOW is used for A/C references, for temporary information, for reversion configuration – On PFD & ND: IAS strip, Baro-Alt strip, VS strip & Heading rose A/C references are yellow in relationship with A/C mock up displayed yellow (same philosophy as Airbus) – Temporary data on Display Units & MCDU: manual insertion in progress (active flight plan update in progress, COM or NAV or SURV radio tuning in progress, Take Off performances data not yet confirmed) – Temporary FMA message (7 seconds) following an “unable” AP-FD manual selection (associated to triple “clic”) – Temporary System TEST phase launched by crew – Manual ADC, AHRS or NAV Source reversion: new active source is typed yellow to advise crew that a single source is used by both sides (amber is inappropriate as long as current source in not malfunctioning)

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C. Flight warning system AMBER

AMBER is used for Icing condition data, for detected malfunction, for abnormal range data, for aircraft parameter or computation result out of normal range – In icing conditions flight, aircraft may have downgraded performances and handling qualities. Crew shall not disregard it. An amber CAUTION level is associated (for ATR) to this flight condition change. Speed references are adjusted, icing speed references (VMLBO, Flaps retraction speed) are displayed amber to point out icing conditions effects (icing color reference is amber) – CAUTION alerts & messages (requiring crew action) are typed amber to point out icing or malfunction detected – Active or selected Abnormal Procedure title are typed amber (and displayed according to a defined priority level) – Active Status title associated to a previous system malfunction is typed amber – If a data resulting of a system calculation is out of range, this data is typed amber to point out the crew needs to adjust some flight parameters in order to recover normal target range (for instance, if unable to match an altitude constraint, constraint data will be typed amber, crew must react to fulfill the constraint) – If data (flight or system) are out of normal range, data parameter are displayed amber (Push Button Fault, dedicated amber light on a panel, system picture displayed amber, parameter value typed amber) – Invalid signals are displayed by amber crosses or dashes

RED

RED is associated to a warning & requests an immediate crew action – WARNING alerts & messages are typed red – Active or selected Emergency Procedure title are typed red (and displayed according to a defined priority level) – If a system is detected out of limits, data parameter are displayed red (dedicated red light, system picture displayed red, parameter value typed red)

MAGENTA

MAGENTA is associated to current constraint. – FMS Managed Speed and FMS current leg guidance are considered as current constraints. – Current FMS active leg data & lateral deviations are considered as current constraints information and displayed magenta to point out FMS source. – Active Speed and Altitude constraints are displayed magenta – Some specific constraints (Take Off pitch trim, GO-AROUND Torque) are displayed magenta – ANF (Airport Navigation) selections are magenta (according to Airbus rules applied).

CYAN

CYAN is dedicated to manual operations – Manual insertion are typed cyan – Manual target selections are cyan bugs (IAS, HDG, Baro-Alt, VS) or cyan dots (selected flaps or man selected TO TQ) – Active VCP selection in a menu (except ANF) – Alternate system selection is indicated cyan (XFEED valve) on system page and on control panel light – Override system selection is indicated cyan on system page and on control panel light – Armed AP-FD modes

LIGHT BLUE

LIGHT BLUE is dedicated to VCP area of Display Unit to make evident that VHF manual management page is active and discriminate it from the other ones.

GREEN

GREEN is dedicated to automatic normal functioning & to computed data in normal range for each interface: CONTROL PANEL, DISPLAY UNIT format & MCDU.

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2. FWS description

ATA 31

The FWS draws crew’s attention when a failure is detected and guides the crew to the system affected by the failure Three types of visual devices are used: – MASTER WARNING and MASTER CAUTION lights – FWS alert and procedure windows – LOCAL ALERT lights

Detection sequence INFORMATION

IDENTIFICATION

ISOLATION

Example: ACW Generator 1 failure

Local alert: fault light on the ACW gen 1 push-button

MASTER CAUTION light flashing + Single Chime

ELEC ACW GEN 1 on alert window and ACW GEN 1 on procedure window

Local alert: ACW GEN 1 FAULT on ACW/HYD Schematic Display (SD)

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C. Flight warning system

3. Alert window

ATA 31

ENGINE ENG 1 FIRE / ENG 2 FIRE

Engine fire detected

ENG 1 OUT / ENG 2 OUT

Engine 1 or 2 sensed out, in takeoff / go-around configuration

ENG 1+2 OUT

Both engine sensed out with aircraft in flight configuration

SINGLE ENGINE

Aircraft in flight configuration and one engine sensed out

ENG START

Start light ON past 45% NH or GCU failure during start

ELEC X START

Cross start failure. Opposite generator has not come on line to assist start at 10% NH (on ground only).

ENG EXCESS ITT

ITT more than 800°C (715°C in hotel mode)

ENG START NO NH

NH 106%

ENG 1 PEC SG CH / ENG 2 PEC SG CH

Lost of one PEC channel ----> operation on single channel

ENG 1 PEC / ENG 2 PEC

PEC Failure

ENG 1 OVER LIM / ENG 2 OVER LIM

TQ >120%, NH >106.4%, NL >106.8% and start rotary selector OFF

ENG1 OIL TEMP L / ENG2 OIL TEMP L

Oil temp low on ground 140°C

ENG 1 OIL PRESS / ENG 2 OIL PRESS

Oil press 50°C

FUEL 1 TEMP LO / FUEL 2 TEMP LO

Fuel temperature 25 PSI. Filter blocked and by-passed when ∆PSI >45 PSI

FUEL FEED LO PR

Engine feed low press 200 kg during 10s, in flight >200 kg during 60s

FUEL UNBALANCED

Difference between both tanks >200 kg

ELEC ELEC DC GEN 1+2

Dual DC GEN Loss

ELEC DC 1 / ELEC DC 2

DC BUS 1 or 2 not supplied

ELEC AC 1 / ELEC AC 2

AC BUS 1 or 2 not supplied

ELEC ACW 1 / ELEC ACW 2 / ELEC ACW 1+2 ACW BUS 1 or/and 2 not supplied ELEC DC ESS

DC essential bus not supplied

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ELEC DC EMER

DC emergency bus not supplied

ELEC DC GEN

One DC GEN Loss

ELEC INV 1 / ELEC INV 2

Inverter failure or supply loss

ELEC ACW GEN 1 / ELEC ACW GEN 2

One ACW GEN Loss

ELEC DC SHED

One of the DC SVCE / UTLY 1 and 2 busses is shed

ELEC BAT CHG

Thermal runaway / Bus voltage 274°c

AIR LEAK 1 / AIR LEAK 2

Leak detected with a loop when the temperature >153°C

AIR X VALVE

Air cross feed valve open in flight

AIR PACK / AIR PACK 1+2

Pack valve disagreement with PB selected position or Ovht downstream pack comp (>204°C).

AIR RECIR FAN 1 / AIR RECIR FAN 2

Fan low speed or motor overheat.

AIR DUCT OVHT

Duct overheat >92°C.

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C. Flight warning system EXCESS CAB ALT

Cabin altitude over threshold (10.000 ft or 11.000 ft if mod High Alt Rwy)

AIR AUTO PRESS

Auto press digital controller failure.

AIR VENT EXH

Avionic extraction fan failure or overheat

AIR OVBD

Ovbd Valve in disagreement with Ovbd Valve SW position.

EXCESS CAB ∆P

Cabin/ Outside pressure difference in excess of 6.6 psi

AIR FWD DET FAN

Forward fan sensed inop

AIR AFT DET FAN

Lavatory fan sensed inop

AIR DITCH

Ditch P/B selected on

OXY

Oxygen supply off or oxygen lo pressure sensed

ANTI ICE A-ICING BLEED

Airframe bleed fault alert covering low pressure, overheat and AFR airbleed P/B off

A-ICING FRAME

Airframe deicing fault confirmed by MFC

A-ICING AUTO

Auto mode fault detected or MAN mode selected

A-ICING SEL

Mode selector fault

A-ICING DETECT

Ice detector fault

A-ICING ENG 1 / A-ICING ENG 2

Deicing boots fault detected on engine 1 or 2

A-ICING PROP 1 / A-ICING PROP 2

Blade deicing fault detected on at least one blade on enigne 1 or 2

A-ICING HORNS 1 / A-ICING HORNS 2

Horn deicing fault detected on Horns 1 (rudder & left elevator) or Horns 2 (aileron & right elevator)

A-ICING L WSHLD / A-ICING R WSHLD

Windshield deicing fault detected on left (L) or right (R) side

A-ICING WINDOWS

Either Left or Right side windows deicing fault detected

A-ICING ALPHA / A-ICING ALPHAS

Either Left or Right or both alpha probe deicing fault detected

A-ICING PIT CPT / --- PIT F/O / --- PIT SBY

Pitot heating fault (captain, first officer or stand by)

A-ICING TAT CPT / A-ICING TAT F/O

TAT probe heating fault (captain or first officer)

ICING

Ice accretion detected by ice detector

AUTO PILOT AP PITCH TRIM

Pitch trim failed

PITCH MISTRIM

Pitch mistrim

AILERON MISTRIM

Aileron mistrim

RUDDER MISTRIM

Rudder mistrim

YAW AUTO TRIM

Yaw auto trim fail

MPC APM FAULT

A fault has been detected in the APM system

DEGRADED PERF

Abnormal drag increase

INCREASE SPEED

Aircraft speed lower than Minimum Severe Icing Speed + 2kt

AVIONICS AUDIO SEL CAPT / AUDIO SEL F/O

RCAU on CAPT or F/O side is sensed fault or has a power loss

SGL DME / DME LOSS

One DME lost (2 DME config)/ Both DME lost (2 DME config) or DME lost (single DME config)

RMS / RMS 1+2

One RMS lost / RMS 1+2 lost

TCAS

TCAS sensed fault

XPDR

At least one XPDR detected fault

AHRS / AHRS 1+2

One AHRS fault / Both AHRS fault

AHRS NOT ALIGN

AHRS sensed not aligned

ADC / ADC 1+2

One ADC fault / Both ADC fault

ATT DISAGREE

3° pitch and 3° roll discrepancy

HDG DISAGREE

8° discrepancy

ALT DISAGREE

60ft + (Zp1 + Zp2)/460

IAS DISAGREE

10kt discrepancy

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VHF / VHF 1+2 / HF / HF 1+2

VHF or HF set(s) sensed failed

VHF EMITTING / HF EMITTING

Transmitting / Emitting for more than 29s

DU 1(2)(3)(4)(5) DISCRPNCY

Discrepancy on one DU (internal and external with other DU)

DU DISCREPANCY

Discrepancy on not identified DU (at least 2 DU discrepancy)

DU TEMP HI

Temperature >70°C after brightness reduction

MULTI DUs T HI

Temperature >70°C after brightness reduction for at least 2 DUs

FWS SGL CH

Flight Warning Application (FWA) loss on one CAC

AVNX SGL SWITCH

gateway and SWitching Module (SWM) card loss on one CAC

AVNX CPM 1 / CPM 2

Core Processing Module (CPM) card loss on one CAC

AVNX IOM 12 / IOM 13 / IOM 22 / IOM 23

Input/Output Module (IOM) card loss

AVNX CPM x + IOM xx

Core Processing Module (CPM) card loss on one CAC and Input/ Output Module (IOM) card loss on the other CAC

AVNX IOM xx + xx

2 Input/Output Module (IOM) cards loss

MISCELLANEOUS CONFIG

Configuration warning refer to chapter C.4 here below

RAD-ALT

Single RA loss on 2 RA installed configuration

RAD-ALT LOSS

RA loss on single RA configuration or dual RA loss on 2 RA configuration

GPWS

GPWS fault sensed

TERRAIN

Terrain mode fault sensed

DOORS

Any door sensed open on ground

DOOR EMER / DOOR FWD COMPT

Emergency hatch or Forward compartment door sensed unlocked in flight

DOOR LH (RH) FWD / DOOR LH (RH) AFT

Respective door sensed unlocked in flight

DATALINK

CMU fault or loss of link for more than 120s

MAINT PANEL

Maintenance panel sensed open

DATA RECORDER

Loss of power supply to Data recorder detected

VOICE RECORDER

Loss of power supply to Voice recorder detected

FDAU

FDAU sensed failed

BAD CONF / CONF UPDATED

At least one DU software discrepancy at A/C power up

MFC MFC 1A / MFC 1B / MFC 2A / MFC 2B

Single MFC channel failure

MFC 1A(1B)(2A)(2B) + 1B (1A)(2A)(2B)

Multiple MFC channels failures (combinations)

4. EMER audio cancel & TO config test EMER AUDIO CANCEL Guarded switch, cancel the aural specific of an undue continuous aural except for landing gear, VMO, VFE, VLE, stall warning, pitch trim whooler, landing gear, AP disconnection

ATA 31 TO CONFIG TEST – To check T/O configuration (PWR MGT in T/O+ TLU LO SPD illuminated + pitch trim in green sector+flaps 15° + no AIL LOCK LIT on FWS) by simulating power levers at T/O position, except PARK BRAKE – To perform an automatic RECALL

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C. Flight warning system

5. Aural alarms

ATA 31

CLACKER VMO VLO VFE

DOOR BELL Attendant or ground calls

WHOOLER Pitch trim in motion (more than 1s)

CAVALRY CHARGE AP Disconnects

C CHORD Altitude alerts

CRICKET Stall warning associated STICK SHAKER/PUSHER AOA (Angle Of Attack)

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D. Air FCOM 1.03

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1. Pneumatic system

ATA 21/36

The pneumatic system supplies aircraft systems which use pressurized air: These systems are: – Air conditioning – Ventilation – Pressurization – De-icing

1.1. Schematic PACK 1

X VALVE OPEN

PACK 2

OVHT

OVHT

T LOOP

T LOOP

T° >153°C

T° >153°C

ENG.1 BLEED

ENG.2 BLEED

LEAK

ENG 1 FIRE PROP BRK SELECTOR OFF

FAULT

T >274°C

FAULT

T >274°C

OFF

BLEED VALVE OVER PRESSURE SWITCH (80 PSI)

BLEED VALVE

HP VALVE

HP VALVE

T >270°C HP

ENG 2 FIRE

OFF

ON

ENG/WING DE ICING

LEAK

ENG 1

T >270°C LP

LP

ENG 2

HP

ENG/WING DE ICING

LEFT LEAK DETECTION LOOP RIGHT LEAK DETECTION LOOP

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D. Air 1.2. AIR BLEED panel ENG BLEED Controls both bleed and HP valves. Spring loaded closed. Must have air and electricity to open Auto closure when OVHT, leak, overpressure, fire handle pulled, UPTRIM triggered or prop brake on (left one only). Inhibited during eng start

GRD X FEED Spring loaded closed. Inhibited in flight. Auto opens on ground when only one bleed valve is opened

PACK VALVE FAULT pack valve disagreement with pb / or OVHT downstream pack comp. (>204°C). FWS. Valve auto closed. Ground cooling turbo fan failure

OVHT either duct temp switch above 274°C. FWS. Auto closure bleed valves (LP and HP). May be reset after cooling

OVERHEAD PANEL ENG BLEED FAULT Bleed valve disagreement with selected position (or in case of OVHT or LEAK). FWS. Associated valves auto closed

PACK VALVE Spring loaded closed. Must have air and elec power to open. 6’’ delay on RH valve for pax comfort

LEAK activates when T° detected by bleed loop exceeds 153 ±8°C. EWD. Auto closure after 1’’ of following valves: Bleed, HP, pack and GND Xfeed if left bleed leak affected DO NOT RESET BLEED

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2

4

3 1

5

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D. Air Item

Display

Description

BLEED VALVE ON , OPENED AND ENGINE RUNNING

Item

Display

Description

BLEED OFF

BLEED VALVE OFF

BLEED FAULT

BLEED VALVE FAULT

3

LEAK

BLEED LEAK

4

OVHT

BLEED OVERHEAT

2

BLEED VALVE OFF

1

BLEED VALVE ON BUT CLOSED

X FEED NORMAL OPERATION X FEED OPEN & AIR FLOW BLEED VALVE OFF BUT NOT CLOSED AND ENGINE RUNNING

X FEED X FEED

BLEED VALVE OFF BUT NOT CLOSED AND ENGINE NOT RUNNING

NORMAL OPERATION XFEED CLOSED NOTHING DISPLAYED

X FEED X FEED NORMALLY CLOSED BUT OPENED & AIR FLOW

5

X FEED

X FEED NORMALLY CLOSED BUT OPENED & NO AIR FLOW

X FEED X FEED NORMALLY OPENED BUT CLOSED

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AIR CONDITIONING IN HOTEL MODE On ground, when engine 2 is started in hotel mode: – The right HP bleed valve is opened (air supplied by HP compressor at low engine power) – The right Eng bleed valve opened (at NH 45% + 30s) – The cross feed valve is opened – Both packs are supplied with air at 38 psi

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D. Air

AIR CONDITIONING IN NORMAL FLIGHT – Both HP bleed valves are closed (air supplied by LP compressor at high engine power) – The cross feed valve is closed – Each pack is supplied by its dedicated engine with air at 25 psi

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AIR CONDITIONING IN FLIGHT WITH A BLEED FAULT In case of: • Overtemperature (T>274°C) • Leak (T>153°C outside the duct) • Overpressure (P>80 psi) The eng bleed valve is closed and the FAULT is triggered on the bleed P/B and on the pack P/B. The other engine supplies the cockpit and cabin ducts throught the mixing chamber – HP bleed valves is closed (air supplied by LP compressor at high engine power) – The cross feed valve is closed – One pack is supplied by its dedicated engine with air at 25 psi

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D. Air

2. Air conditionning

ATA 21

The air conditionning system is provided to keep the flight compartments at the required temperature, pressure, humidity and cleanliness for the comfort of the passengers and crew.

2.1. Schematic

Cooling of air: – by ground turbo fans: • IAS ≤ 150 kt and ldg gear is retracted for less than 10 min • IAS ≤ 150 kt and ldg gear is extended. – by ram air when IAS >150 kt

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2.2. COMPT TEMP panel

RECIRC FAN Assists pack air flow RECIRC FAN FAULT: fan low speed or motor overheat + FWS. No auto disconnect

COMPT INDICATOR Duct temperature limited to 88°C. (191°F) by pneumatic temp.limiter

TEMP SEL OVHT: duct overheat >92 °C + FWS. Pack valve will not auto close

MAN compt temp knob controls directly temp control valve

TEMP SEL AUTO: the temperature is regulated by the electronic temperature controller, taking into account: – duct temperature – zone temperature demand selector – associated compartment temperature – aircraft skin temperature

FLOW NORM: 22 psi (pack valves) HIGH: 30 psi (pack valves)

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D. Air

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4

5

3 6

1 8

7 2

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D. Air Item

Display

PACK

1

Description

Item

Display

PACK VALVE ON

PACK OFF

PACK VALVE OFF

PACK FAULT

PACK FAULT

PACK STBY

PACK VALVE STANDBY P/B DEPRESSED AND BLEED VALVE P/B RELEASED OUT

EXTRACT FAN ON

4

EXHAUST OVBD EXHAUST FAULT

FULL OPEN

FULL CLOSE

RECIRCULATION FAN ON

RECIRCULATION FAN FAULT

RECIRC

RECIRCULATION FAN 1 OR 2 OFF

RECIRC

RECIRCULATION FAN 1 OR 2 FAULT

MANUEL MODE OVBD VLV FULL OPEN MANUEL MODE OVBD VLV FULL CLOSED

AUTOMATIC MODE OVBD VLV PARTIALLY OPEN OVBD VALVE

OVBD VLV FAULT DISPLAY OVBD VLV OPEN

OVBD VALVE

OVBD VLV FAULT DISPLAY OVBD VLV CLOSED

AUTO

6

3

EXTRACTION FAN FAULT DISPLAY

AUTOMATIC MODE OVBD VLV FULL CLOSED

5

BOTH PACK VALVES ON OR BOTH RECIRC FANS ON

LEFT PACK VALVE AND RECIRC FAN 2 OFF OR FAULT

EXHAUST MODE P/B RELEASED

AUTOMATIC MODE OVBD VLV FULL OPEN

RECIRCULATION FAN OFF

2

Description

AUTOMATIC TEMPERATURE CONTROL

MAN

MANUAL TEMPERATURE CONTROL

OVHT

DUCT OVERHEAT ALERT

21 °C

VALID SENSOR MEASUREMENT

-- °C

INVALID MEASUREMENT

AIR HIGH FLOW

HIGHT FLOW SELECTED

7

8 RIGHT PACK VALVE AND RECIRC FAN 1 OFF OR FAULT

PACK VALVES AND RECIRC FANS OFF OR FAULT ON BOTH SIDES

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3. Avionics ventilation

ATA 21

The ventilation system provides cooling through ambient air extraction to limit the internal operating temperature of the electronic equipment

3.1. Schematic

ELEC SMK

3.2. AVIONICS VENT panel FAULT fan failure/overheat (fan inhibited for 120 s. after eng start or after a GPU power on. FWS)

EXHAUST MODE NORM – On ground, ENG 1 off: extract fan on. OVBD valve full open, U/F valve closed – Air/ground, ENG 1 on: extract fan operates. OVBD valve closed. U/F valve opened

OVBD extract fan off OVBD valve partially opened (in flight only). U/F valve closed

FAULT OVBD valve in disagreement with ovbd valve SW position

OVBD VALVE – AUTO except in emergency – direct control of OVBD valve. The full open position is possible only if the delta P is 6.35 PSI or < –0.5

Cabin pressure

Manual controller knob MANUAL MODE

Pneumatic outflow valve

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S y s t e m s 4 2/72 - 6 0 0 4.2. Cabin pressure indicators Pressure control mode AUTO or MAN DIFF Differential pressure: max +6.35/–0.5

ALT Cabin alt: based on 29.92 in.hg (1013,2 Hpa)

RATE Cabin rate of climb

4.3. AUTO PRESS panel

AUTO PRESS (DC BUS ) Memorize departure field elevation up to 3500 ft

DUMP FUNCTION ON (guarded pusbutton) Both outflow valves fully open in auto mode only.

ELV SET Trigger switch to set landing elevation

DESCENT RATE NORM= –400 ft/min FAST= –500 ft/min Fast is used when Vs > –1500 ft/ min

TEST Displays alternately 18800 and –8800, FAULT appears on MAN pb. Test is inhibited in flight

4.4. MAN RATE KNOB and CABIN PRESS panel

NORM AUTO MODE position. When used in MAN mode, cabin rate selection +2500/–1500 fpm

FAULT digital controller failure. FWS

DITCH pb ON both outflows are fully closed

MAN digital controller out of operation. (no more digits on landing elevation display)

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D. Air

1

Item

Display

6 8 3.00

0

3

Description

2 Item

Display

Description

AUTOMATIC PRESSURE CONTROL AUTO PRESS CAB ALT 5020 FT NOMINAL DISPLAY

ΔP NOMINAL DISPLAY

AUTOMATIC PRESSURE CONTROL AUTO PRESS CAB ALT 1300 FT FAULT

0

6 8 0.25

0

6 8 7.00

ΔP ALERTING DISPLAY

6 8

INVALID ΔP

ΔP PRE-ALERTING DISPLAY

MAN PRESS CAB ALT 5020 FT TARGET 5020 FT

MANUAL PRESSURE CONTROL NOMINAL DISPLAY

1

0

3

2000 0

700 UP

MAN PRESS MANUAL PRESSURE CONTROL CAB ALT 2050 FT TARGET ____ FT INVALID TARGET

RATE OF CLIMB

MAN PRESS CAB ALT ____ FT INVALID CAB ALT TARGET 2050 FT MAN PRESS CAB ALT 8900 FT CAB ALT PRE-ALERTING DISPLAY TARGET 5020 FT MAN PRESS CAB ALT 10100 FT CAB ALT ALERTING DISPLAY TARGET 5020 FT

2000

MAN PRESS NO DESTINATION IN CAB ALT 5200 FT TARGET LDG ELEV FMS AND BACK COURSE OF THE LOC (UPPER MODE)

BC * LNAV ‘’LO‘’ or ’‘ ‘’

NAV MODE ASSOCIATED WITH A FMS (UPPER MODE)

LNAV BC

LNAV BC *

10

3

Mode change

1

8

AP FD DUAL SPD HLD TCS FD SINGLE CH

13 1

7

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4

5

ARM

Mode change

+7s

PITCH HOLD

PITCH HOLD

VOR

IAS

IAS

IAS MODE (UPPER MODE)

VOR

VS

VS

VS MODE (UPPER MODE)

4

5 Mode change + CAPTURE

+7s

HOLD

ALT SEL

ALT 9

ALT 9

ALT

ALT MODE (UPPER MODE)

GS

GS 9

GS9

GS

APP MODE ASSOCIATED WITH AN ILS (COMMON UPPER MODE)

1

2 Mode change

4 +7s

HDG HOLD LOC

PITCH HOLD MODE (BASIC MODE)

VOR

ARM

ARM

Description

LOC✶

HOLD

HDG HOLD LOC✶ Item

LOC Display

Description

5

ARM

Mode change

0

GA

GS

GS✶

+7s

HOLD

GA MODE COMMON MODE

GA GS✶

Description

GS

APP MODE COMMON MODE

Description

AP

ENGAGEMENT OF THE AP/YD ON THE FGCP (⊳ AP u AND ⊳ YD u)

YD

ENGAGEMENT OF THE YD ON THE FGCP (⊳ YD u)

FD

FLIGHT DIRECTOR COMMAND BARS DISPLAYED ON THE PFD

6

7

COUPLING ON CAPT SIDE WITH THE CPL P/B ON THE FGCP (⊳ CPL) COUPLING ON F/O SIDE WITH THE CPL P/B ON THE FGCP (CPL u)

8 DUAL

DUAL COUPLING IN CAT 2 APPROACH (⊳ CPL u)

9

SPD HLD

SPEED HOLD IN PROVISION FOR CAT 3

10

TCS

ACTIVATION OF THE TCS PUSH BUTTON

CAT 1

ILS CAT 1 APPROACH

CAT 2

ILS CAT 2 APPROACH

13

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E. Automatic flight control system

16

15

ROLL HOLD LO ICING DGD PERF VOR RETRIM ROLL R WING DN CAT1 14

PITCH HOLD ALT SEL CHECK NAV SRC 12

AP FD DUAL SPD HLD TCS FD SINGLE CH 11

11 AP/YD disengagement, approach category retrogression, AFCS internal failure. Message AP DISENG

Message + 7s

Aural alert

AP DISENG

Cavalry Charge AP/YD DISENG

AP/YD DISENG

YD DISENG AP/YD DISENG

YD DISENG AP/YD DISENG

AP/YD INVALID

YD DISENG

AP INVALID

AP/YD DISENG

AP INHIBIT

YD DISENG

YD INHIBIT

Display logic

Comments

Red message, reverse The AP/YD can be disengaged either video flashing. Reset by the automatically or manually Quick Disconnect P/B Amber message, reverse The AP/YD can be disengaged either video flashing. Reset by the automatically or manually Quick Disconnect P/B Amber message, reverse video flashing.

When an AFCS Internal failure inhibits AP/YD or YD engagement

AP/YD DISENG

Yellow message, steady for 7 seconds

When AP or YD engagement are attempted and an AFCS External failure or condition inhibits AP engagement

SPD HLD INHIBIT YD INHIBIT

YD DISENG AP/YD DISENG

Yellow message, steady for 7 seconds

When speed hold engagement are attempted and an AFCS External failure or condition inhibits speed hold engagement

CHECK SPD HLD YD INHIBIT

CHECK SPD HLD AP/YD DISENG

Amber message, reverse video flashing

When speed hold is unable to maintain target speed

FD SINGLE CH YD INHIBIT

FD SINGLE CH AP/YD DISENG

Amber message, reverse video flashing for 7 seconds, then steady until failure is cleared

When one FD channel is lost

Amber permanent steady message

When “single AHRS” and /or “single ADC” configuration is active. After an AHRS or ADC failure, the “single AHRS” and/or “single ADC” configuration is selected on the switching control panel

FD SINGLE SRC YD INHIBIT

FD SINGLE SRC AP/YD DISENG

CAT 2 INVALID YD INHIBIT

FD SINGLE SRC AP/YD DISENG

Triple clicks

Amber message, reverse video flashing for 7 seconds, then disappears

Loss of CAT2 valid requirements during a CAT2 approach

CAT 3 INVALID YD INHIBIT

FD SINGLE SRC AP/YD DISENG

Triple clicks

Amber message, reverse video flashing for 7 seconds, then disappears

Loss of CAT3 valid requirements during a CAT3 approach

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S y s t e m s 4 2/72 - 6 0 0 12 Unexpected mode change, or problem in navigation parameters Message flashing CHECK NAV SRC

CHECK NAV SRC

CHECK T/O SPEED

Message + 7s PITCH MISTRIM

CHECK NAV SRC

CHECK T/O SPEED

ADC INVALID

CHECK T/O SPEED

ATT INVALID

CHECK T/O SPEED

HDG INVALID

CHECK T/O SPEED

NAV INVALID

CHECK T/O SPEED

SPD AUTO INOP

SPD AUTO INOP

EXCESS DEV

ALT OFF

FD MODE CHG

CHECK T/O SPEED

CHECK T/O SPEED

EXCESS DEV

EXCESS DEV

FD MODE CHG

Aural alert

Display logic Yellow message flashing for 7 seconds then disappears Amber message, reverse video flashing for 7 seconds, then steady until failure is cleared by trying to engage another FD mode, or by pressing STBY pb Amber message, reverse video flashing for 7 seconds, then steady

Comments If the crew try to engage a NAV mode where as the wrong nav source is selected, or if the navigation source is lost – If an armed or engaged NAV mod dropped off following a nav source change – If a VOR/LOC nav frequency change induces the current mode loss – In case of coupling change If VCP lcing selection disagrees with the actual icing conditions (HORNS ON/OFF)

– In case of ADC data miscomparison, the AP/YD is disengaged (disengagement only for discrepancy on CAS and TAS). After clearing the AP/YD DISENG warning, the FMA displays ADC Yellow message, flashing for INVALID, associated with CHECK ALT or CHECK IAS on the PFD 7 seconds, then disappears – Or in case of loss of ADC redundant sensor indicated by a flag, the AP/YD is disengaged. After clearing the AP/YD DISENG warning, the FMA displays ADC INVALID – In case of AHRS data miscomparison, the AP/YD is disengaged (disengagement only for discrepancy on attitude parameter). After clearing the AP/YD DISENG warning, the FMA displays Yellow message, flashing for ATT INVALID, associated with CHECK ATT on PFD if Roll or Pitch 7 seconds, then disappears angles are not coherent – Or in case of loss of AHRS redundant sensor indicated by a flag, the AP/YD is disengaged. After clearing the AP/YD DISENG warning, the FMA displays ATT INVALID – In case of AHRS data miscomparison, the FMA displays HDG Yellow message, flashing for INVALID, associated with CHECK HDG on the PFD & ND, if 7 seconds, then disappears magnetic headings are not coherent (No AP/YD disengagement) – Or in case of loss of AHRS redundant sensor indicated by a flag Yellow message, flashing for In case of loss of NAV redundant sensor indicated by a flag 7 seconds, then disappears If AUTO is selected with the ”AUTO/MAN” SEL P/B and the speed Amber message, reverse target from both FMS is not valid. The AUTO speed mode is video flashing for not available and the speed is automatically switched to MAN 7 seconds, then disappears (Cyan Speed Target Bug). The Speed Target Bug is automatically synchronized to the current value of A/C speed – When the ICP AUTO/MAN push-button is pressed while man is selected and IAS target from the selected FMS is invalid – The aircraft is not in the good configuration before selecting Yellow message, flashing for SPD AUTO 7 seconds, then disappears good configuration: - Flaps 15° - PWR MGT TO - Alt sel > Alt A/C - IAS mode engaged Red message, reverse video Excessive deviation on the GS or the LOC. The message on the flashing for 7 seconds, then FMA is associated with the GS or the LOC deviation scale flashing steady amber amber to indicate a flight path excusion Amber message, reverse During Altitude Capture video flashing for – When the selected altitude is changed (transition to basic pitch) 7 seconds, then disappears – When baro correction is changed (transition to basic pitch) Amber message, reverse video flashing for 7 seconds, then steady until failure is When an AHRS failure (ATT INVALID cleared by changing AHRS or HDG INVALID) leads to the FD mode cancellation source selection, or by selecting another FD mode, or by pressing STBY P/B

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E. Automatic flight control system

nav

nav

mode

STEEP APP

EXCESS DEV

Green message steady

When steep approach is selected

AFCS TEST

EXCESS DEV

Amber flashing

During the AFCS test (maintenance opération)

14 Trim status Message

Message + 7s

AP PITCH TRIM FAIL

AP PITCH TRIM FAIL

PITCH MISTRIM

PITCH MISTRIM

Aural alert

Display logic

Displayed when the AFCS is not able to command the pitch trim and the AP is engaged

ons

ged r

ENG

When the pitch servo motor reaches a torque value threshold

RETRIM ROLL R WING DN RETRIM ROLL R WING DN RETRIM ROLL L WING DN RETRIM ROLL L WING DN

FD

Comments

NIL

Amber message, reverse video flashing 7 seconds, then steady

When the aileron servo motor reaches a first torque value threshold

AILERON MISTRIM

AILERON MISTRIM

When the aileron servo motor reaches a second torque value threshold

YAW AUTO TRIM FAIL

YAW AUTO TRIM FAIL

Displayed when the AFCS is not able to command the yaw autotrim

RUDDER MISTRIM

RUDDER MISTRIM

aged ).

itch

a ENG

When the rudder servo motor reaches a second torque value threshold

DG

ment) a flag

15 Icing message (refer to chapter ice and rain protection) 16 APM message (refer to chapter ice and rain protection)

speed

AN cally

When both FD channel are lost. The FMA is black. The AFCS FAIL is the only message displayed

an is

AFCS FAIL

ng

the ashing

pitch) h)

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3. FGCP (Flight Guidance and Control Panel) NAV SOURCE Selector CAPT side Select the NAV source for CAPT EHSI and/or ND (FMS1, VOR/ILS1, VOR/ ILS2, FMS2)

VS mode to use FD with a desired vertical speed

IAS mode to use FD with a target indicated airspeed. (Cyan speed bug: MAN on ICP) (Magenta speed bug: AUTO on ICP) NAV mode to use FD with VOR and LNAV course

HDG mode to use FD with HDG SEL

ATA 22

AP pb engages autopilot and yaw damper and disengages only autopilot Engagement inhibited for 5 sec after T/O

NAV SOURCE Selector F/O side Select the NAV source for F/O EHSI and/or ND (FMS1, VOR/ ILS1, VOR/ILS2, FMS2)

CRS 1 knob selects course on CAPT EHSI and/or ND

FD bars P/B to set ON/OFF

CRS 2 knob selects course on F/O EHSI and/or ND

HDG knob selects HDG bug on both EHSI and/or ND. Pushing on the knob, synchronize the heading to the actual one.

APP mode to use FD with ILS information course (lateral and vertical): – lateral (LOC) – vertical (GS)

BC mode to use FD with localizer in back course

Pitch wheel to adjust VS or pitch attitude in basic mode

ALT mode to use FD with a desired altitude

FD bars P/B to set ON/OFF

YD pb engages yaw damper and disengages yaw damper and autopilot if engaged

CPL pb permit to couple AP/FD on CAPT or F/O side. Dual coupling for CAT 2

STBY pb cancels all FD upper modes (armed and captured and active modes) and returns in basic modes.

4. ICP (Index Control Panel)

Speed target selection Selection of the speed bug between: – AUTO: Speed bug managed by the FMS (Magenta) – MAN: Speed bug set manually by the speed knob (Cyan)

ALT knob controls the preselected altitude on PFD

ATA 22,31

Speed knob Used to set the speed bug In MAN mode

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F. Communications FCOM 1.05

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1. Schematic

ATA 23

The communication system provides communication between: – aircraft and ground stations – cockpit crew stations – cabin attendant station – ground crew stations

CAPT SIDE – oxy mask mike – hand mike – boom set – head set – PTT switch – nose wheel steering control PTT – loudspeaker – loudspeaker audio level – audio control panel

COM SYSTEM

NAVIGATION SYSTEM

COCKPIT VOICE RECORDER

CABIN ATTENDANT OBSERVER SIDE – oxy mask – boom set – head set – PTT switch

REMOTE CONTROL AUDIO UNIT

GROUND CREW

PASSENGER F/O SIDE – oxy mask mike – hand mike – boom set – head set – PTT switch – loudspeaker – loudspeaker audio level – audio control panel

PUBLIC ADDRESS SYSTEM

2. PTT selector and NOSE WHEEL STEERING CONTROL SW

PTT selector interphone: forward position neutral: center position radio: backward position

GPWS

TCAS

ATA23

NOSE WHEEL STEERING CONTROL switch When depressed, BOOM SET or OXY mike is connected for transmission

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F. Communications

3. Audio control panel

Transmission keys Only one key can be engaged at a time. It illuminates white when selected

VOICE ONLY key When depressed, it inhibits NAV receivers station identification. Light illuminates amber when selected.

Volume control knob to set volume from associated communication or navigation facilities

ATA 23 INT/RAD selector Provides selection of transmission mode when using OXY MASK or BOOM SET mike INT: hot mike position. Interphone is always operative between crew stations. Other transmissions require to select a transmission key and use a PTT pb NEUTRAL: Interphone is inoperative. Other transmissions require selecting a transmission key and using a PTT pushbutton. RAD: This position is required to automatically connect for transmissions BOOM SET and OXY MASK mikes without using a PTT pb, when released the selector is springloaded to NEUTRAL.

4. VHF control

ATA 23 VCP

MCDU MCP

MCP and MCDU allow to tune VHF frequencies MCDU allows to: – set the squelch (SQL - ON/OFF) – set directly the EMER frequency (121.5 Mhz)

VHF 1 Frequency Display

Selection Push Button To change the selection cursor To VHF

Rotary selector To tune the VHF frequency

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5. AUDIO SEL pb FAULT illuminates amber and the FWS is activated when an associated RCAU processing board failure or power loss is detected

ATA 23 AUDIO SEL Controls functioning of associated RCAU processing board. NORM: RCAU functions normally ALTN affected crew station is connected directly to VHF 1 for CAPT station or VHF 2 for F/O station. Volume is adjusted by affected loudspeaker volume control

6. Loudspeaker volume knobs

ATA 23 LOUDSPEAKER Communication reception. In case of aural alert: – normal volume is always available regardless of knobs position. – during any transmission the volume of both loudspeakers is muted

7. TCAS control box

ATA 34 VCP

MCDU

MCP

MCP and MCDU allow to set between AUTO, TA ONLY and STBY MCDU allows to set between ABV, NORM, BLW on the displays.

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F. Communications

8. EMER LOC XMTR panel AUTO TEST RST is used in case of undue alert or to test the emergency beacon. two cases are possible for the test – network X MIT ALERT illuminates amber during 2’’ – failure XMIT ALERT lt flashes during 15 seconds

9. Cabin attendant handset

ATA 23 Switch AUTO transmission is made automatically on 121.5 MHz, 243 MHz and 406 MHz when deceleration exceeds 5 g MAN allows commanded operation or test

ATA 23 Cabin attendant handset PA: public adress to make an annoncement to passengers INT: internal communications with crew EMER: emergency call

10. Handmike and handset

ATA 23

11. CALLS panel

ATA 23

EMER illuminates in case of emergency call from cabin

12. Head set / boom set / hand mike panels

CALLS ATTND to call cabin from cockpit. One time for a normal call three times for an emergency call MECH to call the ground crew from cockpit A horn is generated In case of cabin crew or ground crew call, depress RESET to cancel both associated visual and aural alerts

ATA 23

Head set / boom set panel / hand mike panels allows connection of a boom set, a head set and a hand mike

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13. ATC control

ATA 23 VCP

MCDU

MCP and MCDU allow: – to set the transponder code – to set the mode (ON/ STBY) – to set the ALT mode (ON/OFF) – to set XPDR 1 or 2

MCP

MCDU allows to: – set the flight identification (FLT ID) – set directly the EMER code (7700)

14. CVR panel

ATA 23 TEST pb when depressed and held, the test circuit is activated – the pointer moves to a location between graduations 8 and 10 – if a headset is plugged into the jack, the 600 HZ signal is heard

COCKPIT VOICE RECORDER Monitor indicator for test only. Movement of pointer in white band indicates all channels are operative

ERASE pb provides fast erasure of recordings when the landing gear shock absorbers are compressed and parking brake is set (depress for 2 sec. to completly erase) During erasure, a 400Hz audio signal can be heard in the headset

HEADSET jack when headset is plugged into the jack: – cockpit sounds picked up by the microphone are audible – erase tone is audible when ERASE pb is depressed

MICROPHONE picks up cockpit conversations and alert sounds

15. Crew oxygen mask

ATA 23

A micro phone is incorporated inside the crew oxygen mask

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G. Electrical systems FCOM 1.06

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1. Sources of power

ATA 24

Three type of currents are available: Direct current (DC) Alternating current with constant frequency (AC) Alternating current with variable frequency (ACW)

Two DC starter/generators 61,5% NH generator mode

Two batteries

DC power 28 VDC

Two inverters

AC power VAC 26 V VAC 115 V

ACW power 115V/200V

TRU (Emergency supply)

DC power 28 VDC

DC GPU

Two AC wild frequency alternators minimum NP 66%

AC GPU

The TRU provides power to the emergency loads in case of dual DC generators loss. It is supplied by the ACW bus 2.

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G. Electrical systems The DC Starter Generator is driven by the HP spool throught the Accessorry Gear Box (AGB) – From 0 to 45% NH as a Starter – Above 61.5% as a Generator The ACW Generator is driven by the Reduction Gear Box, and is available when NP > 66%

DC Starter Generator

Accessory gear box

ACW Generator

Reduction gear box

In Hotel Mode or with the propeller feathered, there is no ACW. When the propeller is unfeathered (CL in AUTO /100% OVRD), The NP is maintained at a minimum of 70,8%, in order to have ACW (minimum 66%)

DC Starter Generator

Accessory gear box

ACW Generator

Reduction gear box

HOTEL MODE OR PROPELLER FEATHERED

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2. DC-AC schematic

ATA 24

2.1. Normal supply: On ground with battery only AC BUS 1

AC BUS 2

AC STBY BUS BAT INV 1

INV 2 ON

TRU

DC STBY BUS

DC EMER BUS

EMER BAT CHG

DC ESS BUS

HOT EMER BAT BUS

HOT MAIN BAT BUS

MAIN BAT CHG

DC/AC overhead panel

UTLY BUS 1

DC BUS 1

UTLY BUS 2

DC BUS 2

BTC DC SVCE BUS DC GEN 1

EXT. PWR

FAULT

AVAIL

GND HDLG BUS

DC GEN 2 FAULT

The GOUND HANDLING BUS is supplied only on ground, by three different ways: – BAT OFF or BAT ON with the EXT PWR not available, the GND HDLG BUS is supplied by the HOT MAIN BAT BUS for ground servicing only when: - The refueling panel is open - The cargo door control panel is open - The passenger door is open – BAT OFF or BAT ON with the EXT PWR available but not ON, the GND HDLG BUS is supplied from the EXT PWR via the DC SVCE BUS – BAT ON with EXT PWR ON or with one GEN on line, the GND HDLG BUS is supplied by the from the DC BUS 1 via DC SVCE BUS.

NOTE: The GND HDLG BUS is disconnected when airborne.

ELEC SD page: on battery only

ELEC SD page: on battery + GPU available

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G. Electrical systems 2.2. Normal Supply: On ground with external power AC BUS 1

AC BUS 2

AC STBY BUS BAT INV 1

INV 2 ON

TRU

DC STBY BUS

DC EMER BUS

EMER BAT CHG

DC ESS BUS

HOT EMER BAT BUS

HOT MAIN BAT BUS

UTLY BUS 1

DC BUS 1

UTLY BUS 2

MAIN BAT CHG

DC BUS 2

DC/AC overhead panel BTC DC SVCE BUS DC GEN 1 FAULT

GND HDLG BUS

EXT. PWR

DC GEN 2

AVAIL

FAULT

ON

The BTC is closed and the GPU supplies all the DC and AC busses. Even if the GEN are available, the GPU has always priority.

ELEC SD page

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S y s t e m s 4 2/72 - 6 0 0 2.3. Hotel mode or DC GEN 1 FAULT AC BUS 1

AC BUS 2

AC STBY BUS BAT INV 1

INV 2 ON

TRU

DC STBY BUS

DC EMER BUS

EMER BAT CHG

DC ESS BUS

HOT EMER BAT BUS

HOT MAIN BAT BUS

UTLY BUS 1

DC BUS 1

UTLY BUS 2

MAIN BAT CHG

DC BUS 2

DC/AC overhead panel BTC DC SVCE BUS DC GEN 1

EXT. PWR

DC GEN 2

FAULT

GND HDLG BUS

The BTC is closed and the GEN 2 supplies all the DC and AC busses. In hotel mode the GND HDLG BUS is supplied by the DC BUS 1 through the DC SVCE BUS.

ELEC SD page

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G. Electrical systems 2.4. Normal supply: with two generators on line AC BUS 1

AC BUS 2

AC STBY BUS BAT INV 1

INV 2 ON

TRU

DC STBY BUS

DC EMER BUS

EMER BAT CHG

DC ESS BUS

HOT EMER BAT BUS

HOT MAIN BAT BUS

UTLY BUS 1

DC BUS 1

UTLY BUS 2

MAIN BAT CHG

DC BUS 2

DC/AC overhead panel BTC DC SVCE BUS DC GEN 1

EXT. PWR

DC GEN 2

GND HDLG BUS

The BTC is opened and each GEN supply its respective busses. On ground the GND HDLG BUS is supplied by the DC BUS 1 through the DC SVCE BUS, and disconnected when airborne.

ELEC SD page

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S y s t e m s 4 2/72 - 6 0 0 2.5. Emergency supply: In dual DC GEN LOSS with the battery toggle switch on OVRD AC BUS 1

AC BUS 2

AC STBY BUS BAT INV 1

INV 2 OVRD

The BAT toggle switch has to be selected to OVRD. The OVRD position ensures that busses are supplied by their respective battery by overriding all protections. This position is protected by a switch guard.

TRU

DC STBY BUS

DC EMER BUS

EMER BAT CHG

DC ESS BUS

HOT EMER BAT BUS

HOT MAIN BAT BUS

UTLY BUS 1

DC BUS 1

UTLY BUS 2

MAIN BAT CHG

DC BUS 2

BTC DC SVCE BUS DC GEN 1

EXT. PWR

FAULT

DC GEN 2 FAULT

DC/AC overhead panel

GND HDLG BUS

ELEC SD page

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G. Electrical systems 2.6. Emergency supply: In dual DC GEN LOSS with the battery toggle switch on OVRD and second OVRD selected AC BUS 1

AC BUS 2

AC STBY BUS

BAT INV 1

INV 2 OVRD

After a Dual DC GEN loss, the UNDV is triggered when the DC STBY BUS 18V WITH OVRD UND/V PB IN OVRD POS.

DC BUS ON

OVRD UNDV DC STBY BUS

DC STBY BUS VOLTAGE 18V WITH BAT TOGGLE P/B SW IN OVRD POSITION

Item

Display HOT BUS EMER BAT 28 V

HOT BUS

16

EMER BAT 28 V

DC MAIN BUS INVALID VOLTAGE OR 18V DC EMER BUS VALID VOLTAGE AND >18V WITH BAT TOGGLE P/B SW IN OVRD POSITION DC EMER BAT INVALID VOLTAGE OR 18V

XX V

DC EMER BAT VALID VOLTAGE AND >18V

EMER BAT

13

XX V

DC MAIN BAT VALID VOLTAGE AND 42 – 3 PBE ––> 72

ATA 26

PBE stowage box

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I. Fire protection FCOM 1.08

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S y s t e m s 4 2/72 - 6 0 0 The fire protection system provides detection, warning and extinguishing for each engine, cabin and lavatory.

1. Schematic

ATA 26

FIRE DETECTION

FIRE EXTINGUISHING SYSTEM

AND

LOOP 1A Bottle N°1

Bottle N°2

ENG 1 FIRE ENG 1 ENG 2

2. Avionics FWD and AFT smoke detection

ATA 26

FORWARD CARGO SMOKE DETECTION

AFT CARGO OR LAVATORY SMOKE DETECTION

AVIONICS COMPARTMENT SMOKE DETECTION

AIR CAUTION / FAN FAILURE

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I. Fire protection

3. Fire handle SQUIB TEST Electrical test of the squibs

ATA 26 LOOP FAULT: change in resistance, inhibits fire signal until turned off. LOOP 1A (1B, 2A, 2B) on FWS (DC emer)

AGENT 1 DISCH: Bottle depressurized. Opposite agent DISCH light will also illuminate on other fire panel. Bottle located in the wing fairing of the associated side

ENGINE FIRE HANDLE Pulled on the respective engine: – PROP: feather – FUEL: LP valve closed – AIR: BLEED and HP valve closed – DEICING: deice and shutoff valve closed – ELEC : DC and ACW gen. disconnected – SQUIBS armed lts illumination + Hydraulic to prop brake closed on engine 2 Agent 2 bottle located on the opposite side FIRE TEST MW + CRC + ENG 1 FIRE on FWS + fire handle illuminated + FUEL S/O light on CL (if out of FUEL S/O position)

AGENT SQUIB armed when T handle pulled. Discharges bottle. (DC EMER/HOT MAIN BAT)

FAULT TEST MC + SC + LOOP on FWS Fault lights in A/B loop pb

OFF takes respective loop out of parallel circuit. Allows other loop to activate fire signal alone.

4. EWD (Engine and Warning Display) Engine Fire detected by two loops. (Not detected if one loop fault. Detection recovered when the faulty loop is selected OFF) LOOP Engine fire loop FAULT. When a loop FAULT. No detection of Engine Fire (Detection recovered when the faulty loop is selected OFF) NAC OVHT RH Nacelle Overheat >170°C Alert on FWS

5. Condition levers fuel light

ATA 26

FUEL SO Illuminates red in case of fire signal from associated engine. Extinguishes after CL is set at fuel shut off position or if fire detection signal stops

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6. Compartment smoke panel

ATA 26 NORM one fan runs FAULT: the fan is out of order and illuminates amber + FWS is activated ALTN: The alternate fan runs, ALTN light illuminates cyan

SMK TEST Tests the smoke detectors operation

Normal operation Fan Fault associated with AIR AFT DET FAN on FWS

DET FANS ALTN DET FANS

Aft Fan Fault, selection of the alternate FAN

On SD CABIN

7. SD cabin Avionics smoke

Forward cargo smoke

Aft cargo compartment smoke Lavatory smoke

Aft compartment & lavatory Detection fans

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J. Flight control FCOM 1.09

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The elevators, ailerons and rudder are mechanically actuated The spoilers and flaps are hydraulically actuated.

1. Roll schematic

ATA 27

2. Pitch schematic

ATA 27

In case of jamming, pitch control will be recovered by disengaging the pitch coupling system (by applying a differential force of 52 daN).

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J. Flight control

3. Yaw schematic

ATA 27

4. Gust lock

ATA 27 GUST LOCK lever permits to lock mechanically the roll and pitch axes against wind gusts. The PL travel is limited to slightly above FI. Aircraft equipped with a spring tab on the aileron. The roll locking system is composed of two electro-mechanical locking devices. The AIL LOCK is triggered whenever one of the locking actuators is in disagreement with the gust lock position (lock or unlock position)

5. Stick Shaker/Stick Pusher push button and display

ATA 27

STICK SHAKER/PUSHER PB – FAULT light indicates a stick pusher or stick shaker failure – OFF position: enables to switch OFF the stick pusher and the stick shaker system STICK PUSHER illuminates to indicate that the stick pusher is operating

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6. Spoilers position indicator

ATA 27 SPOILERS position indicator When illuminated, each green light indicates that the associated spoiler is not in the fully retracted position (more than 2.5° aileron travel)

7. Pitch trim asym light

ATA 27 PITCH TRIM ASYM Amber labels are displayed to indicate a pitch tabs desynchronization greater than 0.7°

8. Trim position indicator

ATA 27 Pitch trim position indicates the right trim actuator controlled tab travel. A green sector identifies the take off range. If take off (or take off config test) is performed with pitch trim out of this range, CONFIG warning will be generated by the FWS.

Roll trim position indicates the LH aileron trim controlled tab travel

Yaw trim position indicates units of trim motor displacement

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J. Flight control

AP engaged

Manual mode Associated to: PITCH TRIM ASYM on FWS Or PITCH MISTRIM or AP PITCH TRIM FAIL with AP engaged, on FMA and FWS Or Pointer outside of green band in pre take off condition (Take off CONFIG)

AP engaged Yaw Damper engaged (Yaw Auto Trim active)

Manual mode Associated to: RETRIM ROLL L(R) WING DN In case of roll retrim with AP engaged The cyan arrow indicates the side to retrim The trim is inhibited on the other side. Associated to: AILERON MISTRIM On FMA The cyan arrow indicates the side to retrim The trim is inhibited on the other side

9. Trim controls

Yaw TRIM control switches controls the yaw trim actuator. As a safety device both levers must be moved and held in the same direction (nose LH or nose RH) to energize the system and trim the aircraft. When used, the RCU is declutched. The Yaw TRIM manual control is inhibited when the autopilot is engaged (Yaw autotrim) When the autopilot is engaged, the “RUDDER MISTRIM” message can be triggered on FMA.

Manual mode Yaw Damper off (no Yaw Auto Trim) Associated to: RUDDER MISTRIM on FMA Or YAW AUTOTRIM FAIL on FWS The cyan arrow indicates the side to retrim

ATA 27 Roll TRIM control SW controls the roll trim actuator. For operation, both sws must be moved and held in the same direction (L WING DN or R WING DN) to energize the system (safety reasons). The roll trim is inhibited during autopilot operation. When the autopilot is engaged, the “RETRIM ROLL R(L) WING DOWN” or “AILERON MISTRIM” messages can be triggered on the FMA. These messages authorize to retrim on the dedicated side. The other side is still inhibited STBY PITCH control SW is a guarded sw which controls the electrical motors of each trim actuator. Action on this switch will disengage the autopilot.

Pitch trim rocker two switches installed on each control wheel. It is necessary to operate both rocker switches to activate the normal electrical motor of each trim actuator and to control nose up or down. The switches are spring loaded to neutral position. An aural whooler is generated by the FWS if trim is used for more than 1 second. Action on this switch will disengage the autopilot.

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10. Flaps schematic

11. Flaps position indicator F L A P

F L A P

ATA 27

Flaps retracted SEL



ATA 27

Flaps retracted SEL

0° Flaps extension toward 15°

SEL 15° Flaps extended at 15° SEL 15°

SEL 15°

Flaps jam or asym, associated to or on FWS Flaps unlock, associated to

SEL 15°

on FWS

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J. Flight control

12. Flaps control lever

ATA 27

FLAPS control lever controls the flaps operation. Distinct positions correspond to flaps 0°, 15°, 30° (72-600) or 25°, 35° (42-600)

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K. Flight instruments FCOM 1.10

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1. Schematic

ATA 31

The Avionics Full DupleX switched ethernet (AFDX) allows transmission of data in all directions between the CAC 1&2 and the DUs. The AFDX is controlled by the SWM’s (Module of the CAC). The SWM (Gateway and Switch module) is connecting together CPM (Core Processing Module) and other Avionics Data Network subscribers. SWM external interface mainly consists of: AFDX with the 5 Display Units, AFDX with the CPM, AFDX interconnection between the 2 SWM, Ethernet with dataloading Port. AFCS (Auto Flight Control System) is managed by the two Auto Flight Control Application (AFCA) of the CACs. The AFCAs receives data from the two ADC, two AHRS and aircraft equipments as navigation and some sensors.The AFCAs receives data from the two FMS (Flight Management Application: DU 2 & 4). The AFCS generates commands to flight control actuators and to the FD bars. AHRS (Attitude and Heading Reference System) comprises: (1) An AHRU (Attitude and Heading Reference Unit) which integrates inertial components, to compute the gyro-heading, the attitude, acceleration and the vertical speed. (2) A Removable Memory Module to store compensation parameters (3) A flux valve which detects the direction of the earth’s magnetic field line. The AHRS gyro-magnetic heading computation automatically updates the heading value with the magnetic heading of the flux valve. ADC (Air Data Computers) is supplied with static air pressure (static ports), total air pressure (pitot ports), total air temperature (TAT probe). With these inputs, the ADC computes pressure altitude, IAS, TAS, TAT, SAT. DU (Display Unit): – Collects all the data, coming from the AFDX (CAC 1 & 2), from Arinc 429 (control panels, CACs, aircraft equipments), from discrete lines – Converts the data in video format, through the FDA (Flight Display Application). NOTES: The FMA (Flight Management Application) and RMA (Radio Management Apllication) are part of the DU 2 & 4 Each DU can display three different formats: the Primary Flight Display (PFD), the Multi Function Display (MFD), the Engine and Warning Display (EWD)

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K. Flight instruments

2. PFD (Primary Flight Display) ROLL ATTITUDE scale 0 , 10, 20, 30, 45 and 60° Lateral ARM, CAPTURE✶ and HOLD mode

Bank angle limit: two green ticks

Flight Mode Annunciator (FMA)

ATA 31 Vertical ARM, CAPTURE✶ and HOLD mode

SLIP indicator

Horizon and pitch scale is white and has reference marks every 2.5° up to 20° up or down, then marks at 25, 30, 50, 80°.

FLIGHT DIRECTOR command bars (green)

Vertical deviation indication

RADIO ALTITUDE indication

VSI (Vertical Speed Indicator)

Altimeter: altitude tape

Lateral deviation indication

TCAS and Transponder annunciator

DH indication

Indication of True Air Speed, Ground Speed, and wind

Airspeed indicator: Speed tape

EHSI (Electronic Horizontal Situation Indicator). The EHSI can be replaced by a mini ND (Navigation Display) when the the ND is replaced by an other format on the MFD.

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3. MFD (Multi Function Display)

ATA 31

MFD upper window

Memo panel display VCP (Virtual Control Panel Window)

MFD upper window selection

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K. Flight instruments

4. EWD (Engine and Warning Display) ATA 31

Trim indicator

Primary engine display

Brake messages Test status

Permanent Data

Flap indicator

Alert window

Procedure window

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5. ND - ARC MODE with terrain or weather radar information

TERRAIN

6. Source failure alert

DU total loss

AHRS failure

ATA 31

WEATHER RADAR

ATA 31

FAIL A fatal failure has been detected by DU software or by the hardware

ADC failure

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K. Flight instruments

7. Switching panel

ATA 34

ATT/HDG pb enables to use AHRS 2 information. When captain pb is depressed SYS 2 illuminates white on CAPT pb, CAPT 2 illuminates green on F/O pb

DISPLAY pb In normal conditions, enables to cycle the three formats on DU 2 (capt switching), on DU 4 (F/O switching). In case of failure of any DU (DU 1 or 2 on capt side or DU 4 or 5 on F/O side) enables to cycle the three formats on the remaining DU

ADC pb enables to use ADC 2 information. When captain pb is depressed SYS 2 illuminates white on CAPT pb, CAPT 2 illuminates green on F/O pb

8. EFCP (control panel) MFD PERF page: The performance page can be displayed, by pressing on the PERF push button.

MFD ND page: Three different ND format can be displayed on the MFD, by pressing on the ND push button, and then by selecting the format on the FORMAT rotary knob.

MFD SYS page: Four different system pages can be displayed on the MFD, by pressing the SYS push button consecutively.

BRG1(2)push button: By pressing it, VOR1(2) or ADF1(2) or no indication is displayed.

RANGE “+/–” push button: By pressing it, the range of the Navigation Display page is increased /decreased.

ATA 31

MFD VID page: In provision for video display

FORMAT rotary knob: By turning it, the format of the ND is changed. RCL PB A first push enables to display in the Alert Window the alert messages previously cleared but still detected. A second push scrolls down the alert messages list in case of overflow in the alert window.

MAN DEL By pressing on it, procedures inserted manually are deleted

MFD MISC page: Engine run up page

MFD MAP page: Airport map page (option)

Procedure control pb: Allows to move on upward/downward line in the procedure window and to validate actions

CLR PB By pressing on it, a clearable alert displayed on the Alert Window is cleared. PROC MENU By pressing on it, procedure menu is displayed in the procedure window.

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9. MCP (Multipurpose Control Panel)

ATA 31

Multi directionnal pad To move the cursor for choosing a selection area COM P/B Selection on VCP – VHF – HF 1 (if installed) – HF 2 (if installed)

Enter P/B To validate the selection area

NAV P/B Selection on VCP – VOR – ADF – ND OVLY (ND Overlay)

SURV P/B (surveillance) Selection on VCP – XPDR – TCAS

ESC P/B (Escape) Before validation, the escape P/B allows to recover the previous value

Numeric Key Board Allows setting the frequency or transponder code.

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K. Flight instruments

10. Weather radar control

ATA 34

Primus 660

GAIN setting to set receiving amplification

MODE selector OFF radar is off STBY radar is on but no pulse is sent by the antenna TEST range at 100 NM, 3 arcs green, yellow and red WX normal operating position, intensity of weather obstacles is displayed by different colors (black: no cloud; green: normal cloud; yellow: dense; red: severe storm) G MAP enables to display ground obstacles (black, pale blue, yellow, magenta)

RCT pb activates Rain Echo Attenuation Compensation technique function and permits display with more accurracy the weather situation behind storms

TGT pb activates target alert

SECT pb Used to select either the normal 12 looks/minute 120° sector scan or the faster update 24 looks/ minute 60° sector scan

TILT control to adjust radar antenna in pitch axis from 15° down to 15° up

Turns the pitch and roll stability on and off. When selected off, an amber legend illuminates above the pushbutton

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11. TAT/SAT indicator

ATA 34 TAT indicator indicates total air temperature SAT indicator indicates static air temperature

TAS indicator indicates true air speed

12. CLOCK

MODE P/B By pressing the MODE pushbutton, six annunciators (DT, GPS, INT, LT, ET and CHR) indicate which mode is selected (the functions INT, LOC and DT are available in succession, ET and CHR functions are controlled by the ET and CHR buttons respectively, the GPS is automatically selected when GPS is valid). Chronometer (CHR) P/B – START: Display is active and the chronometer starts incrementing – STOP: The value displayed at the instant the push-button was depressed is held as long as no action occurs on this push button. – RESET: the LCD display is zeroed and blanked.

ATA 31

Elapsed time (ET) P/B – When selecting the ET push button, the ET display comes on. – When the elapsed time counter is stopped, by pressing the ET push button for more than two seconds the display is blanked and value is zeroed. For the time set, the ET P/B is used to decrease the digits (-)

TEST P/B For the time set, the TEST P/B is used to increase the digits (+)

Six digits display of either: – Universal Time Coordinated (from GPS or internal time) – Date: MONTH / DAY / YEAR – Local Time

Four digits display of either: – ELAPSED TIME (ET) – CHRONOMETER TIME (CHR)

ELAPSED TIME When depressed ON the flight time starts automatically when airborne

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K. Flight instruments

13. RCDR panel

ATA 31

RCDR pb when depressed, both cockpit voice recorder and digital flight data recorder are energized (manual mode). ON lt illuminates cyan RESET pb when depressed, inhibits recording in the manual mode

14. STBY instruments

ATA 34

STANBY COMPASS STANDBY COMPASS Hidden in up position. Compass control should be placed on DN for use. The compass rose is graduated in 10 degrees increments

IESI: Integrated Electronic Standby Instrument Menu P/B Enable sub function selection menu

STD P/B Reset at 1013.25Hpa, when pushed more than 0.2 sec.

LATERAL ACCELERATION INDEX indicates the aircraft’s lateral acceleration. It is represented by a trapezoidal index that moves beneath the roll index.

STANDBY AIRSPEED INDICATOR The actual airspeed is given in a T shaped window positioned in the center of the white moving speed tape on the left of the IESI.

Brightness

STANDBY HORIZON – The pitch scale has markers every 2.5 degrees up to ±20°. If pitch exceeds ±25° degrees large red chevron will indicate excessive attitude and direction to follow to resume normal attitude. – The roll scale has markers are set at 10, 20, 30, 45, 60 degrees of bank.

SEL P/B – Change cursor selection between VHF COM, VHF NAV, BARO SETTING and COURSE when VOR mode. – Used to validate manual entry.

SET ROTARY SWITCH – Sub fonction menu scroller – Baro setting – VHF com tuning – VHF nav tuning – Course setting in VOR mode

STANDBY ALTIMETER The altitude indication is given in a rectangular window positioned in the center of the white moving altitude tape on the right of the IESI. Altitude in meters can also be displayed on the IESI underneath the altitude tape. The barometric reference is displayed in cyan. It corresponds to either the selected barometric pressure or the standard pressure.

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15. Airspeed indicator

ATA 34

VmLB0 (icing condition)

Speed bug read out Speed trend Predicted airspeed in 10s

VmLB0 (normal condition) Maximum speed Vmo/Mmo or Vfe or Vle or Vtlu

Flaps retraction speed

Speed bug –Automatic speed bug (Magenta) managed by the FMS. –Manual speed bug (Cyan) selected on the ICP.

VminOPS Upper amber limit VPROT Upper red limit Activation of the stick shaker

V1, VR and V2 (Cyan) Actual IAS

Before rotation

Initial climb

Cruise

Flaps extension speed (VFE NEXT) VmHB15 normal (white line) VmHB15 icing (amber line) Flaps retraction speed Vref VmHB30 or Vmcl whichever is higher

Approach Flaps 15°

Approach Flaps 30°

The speed bug is controlled by the ICP (Index Control Panel)

Speed target selection Selection of the speed bug between: – AUTO: Speed bug managed by the FMS

Speed knob Used to set the speed bug In MAN mode

– MAN: Speed bug set manually by the speed knob

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K. Flight instruments

16. Altimeter

ATA 34

Selected Altitude ALT SEL

Current altitude or FL

ALTITUDE ALERT An amber frame is flashing (± 1000ft) then a yellow frame is steady (± 250ft)

DA / MDA

Landing Elevation Barometric setting in Hpa and InHG

Barometric setting knob The knob is used to set the barometric reference. Pushing the knob sets standard barometric reference (29.92 INHG / 1013.25 Hpa)

DH / MDA knob Outer knob permits to select between DH (Decision Height) or MDA (Minimum Descent Altitude). Inner knob is used to set DH or MDA values, depending of the outer knob position.

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17. Vertical speed indicator and TCAS ATA 34 VS target readout Set by the FGCP Pitch Wheel (PW)

VS digital readout

VS scale

VERTICAL SPEED INDICATOR based on both inertial (AHRS) and barometric data (ADC).

VS pointer

VS target Set by the FGCP Pitch Wheel (PW)

Above (+) or Below (–) separation height descending or climbing Open diamond Other traffic

Solid diamond Proximate traffic (PA) traffic within ± 1200 ft and 6 NM Solid circle Traffic Advisory (TA) Traffic in caution area 20 to 48s before collision area Solid cube Resolution Advisory (RA) Traffic in warning area 15 to 35s before collision area

TCAS Status

Resolution Advisory (RA) vertical rates to be avoided.

RANGE RING 2.5NM around the A/C

AIRCRAFT own aircraft symbol

TCAS no bearing advisory: In case the bearing of the TA or RA intruder is not available, a message provides an indication on the two most dangerous RA or TA intruders

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L. Fuel system FCOM 1.11

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1. Schematic

ATA 28

The fuel is stored in two tanks, one in each wing. Each tank is fitted with: – a vent surge tank to ensure positive pressure and allows a thermal expansion without spillage – a main wing tank – a feeder tank, always full to protect the engine feed system against negative or lateral load factors Total quantity 4500 kg

ATR 42

Refueling panel Refueling point

Gravity filling cap Access door

Main wing tank

Vent surge tank (100 l)

Main wing tank

Feeder tank (200 l / 160 kg)

Vent surge tank

Total quantity 5000 kg

ATR 72

Refueling panel Gravity filling cap Access door

Main wing tank

Refueling point Vent surge tank (100 l)

Main wing tank

Feeder tank (200 l / 160 kg)

Vent surge tank

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L. Fuel system

2. Electrical fuel pump OFF

ATA 28

ENGINE 1 HMU FWS

FCOC FEED LO PR MOTIVE FLOW VALVE

LP VALVE

ENGINE 1 FIRE PULL

R TANK CROSSFEED VALVE PUMP RUN OFF FEEDER JET PUMP

ELECTRO PUMP

ENGINE FEED JET PUMP

MEMO PANEL DISPLAY L TANK

FEEDER COMPARTMENT

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3. Starting procedure

ATA 28

ENGINE 1 HMU FWS

FCOC FEED LO PR MOTIVE FLOW VALVE

LP VALVE

ENGINE 1 FIRE PULL

R TANK CROSSFEED VALVE PUMP RUN OFF FEEDER JET PUMP

ELECTRO PUMP

ENGINE FEED JET PUMP MEMO PANEL DISPLAY

L TANK

FEEDER COMPARTMENT

ENGINE SHUT DOWN WITH ELECTRICAL PUMP RUNNING Both fuel engine electrical pumps push buttons are pressed IN and green RUN lights illuminate. The electrical pumps are energized and begin to supply fuel to engines. The FEED LO PR amber light extinguishes when the pressure is > 4 psi in the pipe. At the same time, the feeder jet pump is activated by the electrical pump output pressure, to supply and maintain the feeder tank full.

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L. Fuel system

4. Normal procedure

ATA 28

ENGINE 1 HMU FWS

FCOC FEED LO PR MOTIVE FLOW VALVE

LP VALVE

ENGINE 1 FIRE PULL

R TANK CROSSFEED VALVE PUMP RUN OFF FEEDER JET PUMP

ELECTRO PUMP

ENGINE FEED JET PUMP

P >8.5 PSI + 30s MEMO PANEL DISPLAY L TANK

FEEDER COMPARTMENT

ENGINE RUNNING / NORMAL OPERATION OF THE FUEL SYSTEM After engine start, the flow, from return line of the HMU, opens the Motive Flow Valve, in order to supply the Engine Feed Jet Pump. The Engine Feed Jet Pump begins to operate by driving fuel from the feeder tank. At the same time, it supplies the Feeder Jet Pump. When the Engine Feed Jet Pump outlet pressure reaches 8.5 PSI, the electrical pump is de-energized after 30s time delay. In normal operation of the fuel system, the engine is only supplied by the Engine Feed Jet Pump and the electrical pump is de-energized. Conditions to energize the electrical pump (See details on pages hereafter) – Cross feed operation – Engine Feed Jet Pump outlet pressure drops below 5 psi – Low Level

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5. Cross feed procedure

ATA 28

ENGINE 1 HMU FWS

FCOC FEED LO PR MOTIVE FLOW VALVE

LP VALVE

ENGINE 1 FIRE PULL

R TANK CROSSFEED VALVE PUMP RUN OFF FEEDER JET PUMP

ELECTRO PUMP

ENGINE FEED JET PUMP

MEMO PANEL DISPLAY L TANK

FEEDER COMPARTMENT

Cross feed valve could be used to supply an engine from the opposite tank. The cross feed is not used to tranfer fuel from one tank to the other tank. With the Xfeed valve push button pressed IN, the valve opens, green flow bar is horizontal. Both electrical pump are energized.

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L. Fuel system CROSS FEED PROCEDURE CONT’D ENGINE 1 HMU FWS

FCOC FEED LO PR MOTIVE FLOW VALVE

LP VALVE

ENGINE 1 FIRE PULL

R TANK CROSSFEED VALVE PUMP RUN OFF FEEDER JET PUMP

ELECTRO PUMP

ENGINE FEED JET PUMP

MEMO PANEL DISPLAY L TANK

FEEDER COMPARTMENT

By selecting OFF the corresponding PUMP push button, the electrical pump is de-energized and the motive flow valve is supplied to close. The engine is fed from the opposite tank.

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6. Engine feed jet pump low pressure ATA 28 ENGINE 1 HMU FWS

FCOC FEED LO PR MOTIVE FLOW VALVE

LP VALVE

ENGINE 1 FIRE PULL

R TANK CROSSFEED VALVE PUMP RUN OFF FEEDER JET PUMP

ELECTRO PUMP

ENGINE FEED JET PUMP

P < 5 PSI MEMO PANEL DISPLAY L TANK

FEEDER COMPARTMENT

In the event of engine feed jet pump failure, the pressure switch ( 160 kg → Feeder tank not full due to a failure of the feeder jet pump. In this condition, the fuel is transfered from the main tank to the feeder tank through the flappers.

LO LVL with FQI 160kg (feeder tank not full)

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8. Engine fire procedure

ATA 28

ENGINE 1 HMU FWS

FCOC

P < 4 PSI MOTIVE FLOW VALVE

LP VALVE

FEED LO PR

ENGINE 1 FIRE PULL

R TANK CROSSFEED VALVE PUMP RUN OFF FEEDER JET PUMP

ELECTRO PUMP

ENGINE FEED JET PUMP

P > 600 mbar MEMO PANEL DISPLAY L TANK

FEEDER COMPARTMENT

In case of engine fire, when corresponding engine fire handle is pulled, it closes associated LP shut off valve.

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L. Fuel system

9. Fuel panel

ATA 28 XFEED valve Activates both elect fuel pumps.

FEED LO PR Delivery pressure < 4 PSI. Pump failure or fuel starvation. FWS.

PUMP Control electrical pump power and jet pump motive flow valve. Runs automatically if: – jet pump press < 5 PSI or till reaching 8.5 PSI during engine start. – XFEED in line – fuel LO LVL * When the quantity is < 160 kg or * When the quantity is > 160 kg, but the feeder tank is not full (Feeder jet pump failure) – during fuel quantity test

FLOW BAR Shows position of valve. No bar: valve fault or moving.

RUN illuminates green when elec fuel pump is running.

10. SD Engine

ATA 31

FUEL TEMPERATURE in °C

Fuel Xfeed valve Fuel Xfeed valve open

Fuel LP valve

OFF

Electrical pump OFF

Fuel LP valve open

XFEED

XFEED

Fuel Xfeed valve closing or opening

Fuel Xfeed valve closed

RUN

Electrical pump ON and the pump is running

Fuel LP valve closing or opening

Electrical pump ON and the pump is not running

Fuel LP valve closed

XFEED Fuel Xfeed valve not closed or not open after XFEED 3s

Electrical pump OFF and the pump is running

Fuel LP valve not closed or not open after 3s

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11. Fuel QTY indication

Fuel used

ATA 28

Fuel On Board (FMS computed)

Fuel quantity indication If >160 kg If 50 kg If OVERHEAT – If not ––> UNDERPRESSURE

In case of overheat, the ENG P/B is deselected, the AFR AIR BLEED is selected again to isolate the affected engine.

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N. Ice and rain protection

8. Anti-icing & de-icing panel PROP ACW supply. Inhibited below NP 63%

HORNS ACW supply. Inhibited on ground. Either horn activates AOA Lt

FAULT power loss on at least 1 blade. A-ICING PROP 1 (2) on FWS

DE ICING air is always available regardless of bleed pb. NORM: 60’’ / cycle SLOW: 240’’ / cycle

MODE SEL AUTO Automatic selection of cycle depending on ADC1/2 to MFC1B/2B FAULT when ADC or MFC fail: Fast mode is automatically selected for ENG and AIRFRAME DEICING and High Power for PROP ANTI-ICE. A-ICING AUTO on FWS. MAN: manual selection of cycles depending on SAT

FAULT both MFC modules have failed to control boots cycles. The monitoring is preformed by the stby controller. A-ICING SEL on FWS AFR AIR BLEED OVRD: no MFC. Boots inflated by separate stantby controller (cycle 60’’)

ENG FAULT: distribution valve opened but no air pressure. OR valve closed and pressure detected OR AFR AIR BLEED off and air temp above deice valve >230°C for more than 6’’. A-ICING ENG 1 ( 2) on FWS

MODE SEL ENG AND AIRFRAME SLOW: 240’’/cycle FAST: 60’’/cycle

HORNS FAULT Power loss. A-ICING HORNS 1 (2) on FWS SIDE WINDOWS Defog only. FAULT for power loss. A-ICING WINDOWS on FWS. (DC BUS)

MODE SEL PROP NORM: 10’’ on per 3 blades; then 10’’ off between cycles. ON (HIGH POWER): 20’’ on per 3 blades. No stop between cycles.

ENG ON: signal sent to MFC to start deice cycle on the engine air intake, deice valve opened even if AFR AIR BLEED off

ATA 30

AIR FRAME FAULT: valve opened but no downstream pressure. Or valve closed and downstream pressure detected. A-ICING FRAME on FWS

AIR FRAME ON: signal sent to MFC to start deice cycle on the airframe AFR AIR BLEED FAULT: air dowstream deice valve < 14 psi more than 10’’ OR Air upstream of the deice valve > 230°C. A-ICING BLEED on FWS

9. De-icing/anti-icing indication (memo panel display)

OFF : isol valves closed. Deice valves closed unless ENG 1 / 2 deice on.

ATA 30

CYAN When selected ON AMBER When FAULT

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O. Landing gear FCOM 1.14

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1. Landing gear description

ATA 32

The landing gear is hydraulically operated. In case of hydraulic failure, it may be extended by gravity.

LANDING GEAR CONTROL

STEERING HANDWHEEL

2. Brakes schematic

EMERGENCY / PARKING BRAKE HANDLE

ATA 32

PILOT BRAKE PEDALS

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O. Landing gear

3. LDG GEAR position indicators

ATA 32

System 2 UNLK gear not locked in selected position or (on GND) uplock box not opened. Green Lt down lock engaged

System 1 UNLK gear not locked in selected position or (on GND) uplock box not opened. Green Lt down lock engaged.

4. Landing gear handles

GEAR HANDLE RED LIGHT any gear not sensed down and locked with some conditions. FWS.

LDG GEAR EMERGENCY EXTENSION HANDLE permits to unlock the landing gear

5. Brakes temperature and antiskid BRK TEMP WHEELS BRK HOT on FWS for any brake T° >160°C (42) T° >150°C (72)

ATA 32

ANTISKID Operative if speed > 10 kts. Activates when speed > 23 kts + 50% diff between wheels (locked wheel protection). Braking action inhibited at touchdown as long as wheel spin up speed < 35 kts or 5 sec. (touchdown protection). CAUTION: THE TEST INHIBITS BRAKES

OFF Pb released, system deactivated

TEST pb (inhibited if speed > 17 kts) = MC + SC+ FWS.

ATA 32

Test duration Test duration in flight on ground 3 sec. +

6 sec. +

17 sec.

14 sec.

F (FAULT) wheel channel failure + WHEELS A-SKID on FWS

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6. Emergency parking brake handle EMERGENCY BRAKE HANDLE permits to apply a metered pressure. The brake accumulator allows at least six braking applications without any antiskid operation if the blue hydraulic system is not available (Springloaded to the off position)

7. Steering handwheel N/W STEERING SW activates or deactivates the nose wheel steering system (guarded type in the ON position) OFF: unpressurizes the steering system (91° of deflection)

ATA 32 PARKING BRAKE permits a full pressure on the brakes. When brake handle is not in the fully released position, amber PRKG BRK caution light is displayed on FWS and is taken into account by the T/O CONFIG. (Springloaded to the off position)

ATA 32 THE STEERING HAND WHEEL controls the nose wheel angle up to 60° in either direction: – clockwise: steering to the right – counter clockwise: steering to the left

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P. Navigation system FCOM 1.15

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1. Nav control

ATA 34 VCP

MCDU

MCP

MCP and MCDU allow: – to tune VOR/ILS/DME frequencies – to set tune mode (AUTO/ MAN) – to do DME HOLD In AUTO tuning, the NAV source has to be on FMS (Inhibited on V/ILS)

2. Marker sensibility setting

ATA 34 MCDU

MCDU allows to set MKR sensibility (LO/HI position)

3. ADF control

ATA 34 VCP

MCDU

MCP

MCP and MCDU allow: – to tune ADF frequencies – to set mode (ADF/ANT) – to set tone (OFF/ON)

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P. Navigation system

4. TAWS alert modes

ATA 34

The Terrain Awareness Warning System provides visual and aural alerts in case of dangerous flight path conditions which would result inadvertent ground contact if maintained. The TAWS performs the following alert modes: – Reactive warning modes * Mode 1: excessive descent rate * Mode 2: excessive terrain closure rate * Mode 3: altitude loss after take-off * Mode 4: unsafe terrain clearance * Mode 5: below glideslope * Mode 6: altitude callouts – Predictive warning modes: * Terrain Caution and Warning * Obstacle Caution and Warning

MODE 1 excessive descent rate

MODE 2 excessive terrain closure rate

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MODE 3 altitude loss after take-off

MODE 4 unsafe terrain clearance

MODE 5 below glideslope

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P. Navigation system

MODE 6 altitude callouts

TERRAIN CLEARANCE FLOOR (TCF)

The Terrain Clearance Floor (TCF) mode creates an increasing terrain clearance envelope around the airport runway directly related to the distance from the runway.

Runway Field Clearance Floor (RFCF)

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TERRAIN AND OBSTACLE AWARENESS

This function use the aircraft geographic position from the GPS, aircraft altitude and a worldwide terrain database to predict potential conflict between the aircraft flight path and the terrain, and to provide aural alert and graphic displays of the conflicting terrain.

The terrain advisory line is drawn along the points where a terrain caution alert will occur if the aircraft continues along its current trajectory.

“TERRAIN AHEAD” or “OBSTACLE AHEAD”

When a terrain caution or warning occurs, the terrain advisory line is removed from the display and the terrain display is changed to identify the terrain that caused the alert.

“TERRAIN AHEAD, PULL UP” Or “OBSTACLE AHEAD PULL UP”

The Pull-Up Warning is generated as long as the current aircraft trajectory will not safely clear the terrain, and the aircraft performances are able to clear the terrain in climb

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P. Navigation system

“AVOID TERRAIN”

The Pull-Up maneuver will not allow for a safe clearance with terrain, and the crew has to immediately initiate an appropriate vertical and turning escape maneuver in order to avoid terrain

5. TAWS pb

ATA 34

6. TAWS panel

ATA 34 TAWS selector is guarded in the norm position. FLAP OVRD mode 4 alert caused by flap extension is inhibited to avoid nuisance in case of reduced flaps landing

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7. ND OVERLAY

ATA 31

The MCP allows to set ND OVLY – Traffic – Weather radar – Terrain – Navaid – Airport

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P. Navigation system

8. FMS

ATA 34

The dual THALES Flight Management System (FMS) installed on ATR 72/42-600 aircraft is composed of two identical sets of software applications, called FMS1 and FMS2. Each FMS is hosted within the DU2 and DU4, normally used with the MFD format.This dual FMS is built on dual cockpit system architecture. It is used to be normally handled with both FMS, synchronized by the cross talk function.

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Q. Power plant FCOM 1.16

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1. Engine schematic

ATA 61/72

Aircraft fitted with – two Pratt &Whitney, PW 127 M (72-600/42-600) – two, six blades propellers (Hamilton) It is a free turbines engine, composed of 3 concentric shafts of spools: – The shaft of the HP spool composed of the HP turbine and the HP compressor (rotation speed of the HP spool: NH). The HP spool drives the accessory gear box (AGB) – The shaft of the LP spool composed of the LP turbine and the LP compressor (rotation speed of the LP spool: NL) – The Power shaft composed of 2 power turbines (Free turbines). This 2 power turbines drive the propeller through the reduction gear box (RGB) (rotation speed of the propeller NP)

REDUCTION GEAR BOX These equipments are fitted on the RGB – the ACW generator – the Propeller Valve Module (PVM) – the propeller pump (HP) and overspeed governor – the auxiliary feathering pump – the propeller brake (on RH engine only)

HIGH PRESSURE COMPRESSOR centrifugal type

LOW PRESSURE COMPRESSOR centrifugal type

HIGH PRESSURE TURBINE

POWER TURBINE

ACCESSORY GEAR BOX driven by the HP spool. Drives – the DC starter/generator – the HP fuel pump – the engine oil pumps

DIFFUSER PIPES

ANNULAR COMBUSTION CHAMBER

LOW PRESSURE TURBINE

6 blades propeller

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Q. Power plant

2. Power and propeller controls

ATA 61/72

The different powers ratings for the engine are: (SHP: Shaft Horse Power) – RTO (Reserve Take Off) (maximum power) Used in case of an engine flame out during take off (up trim) or in case of go around (ramp) – MCT (Maximum continuous) – TO (Take Off 0,9 RTO) – Climb – Cruise

72-600 2750 SHP

42-600 2400 SHP

2500 SHP 2475 SHP 2192 SHP 2132 SHP

2400 SHP 2160 SHP 2160 SHP 2132 SHP

Power (PWR) = Torque (TQ) x NP For the same power: If TQ increases, NP decreases If TQ decreases, NP increases Power setting is characterized by constant power lever (PL) and condition lever (CL) positions. The power adapted to the flight phase is selected by the pilot through a power management selector (PWR MGT). – With input coming from the PWR MGT and the position of the PL, the EEC (Engine Electronic Control) control the fuel flow to the engine.

MAX PWR (Full stop): Maximum Power → TQ up to115% (On emergency only) GO around position (Beginning of the ramp): RTO → TQ up to100% NOTCH position: PWR MGT in – TO: – MCT – CLB – CRZ

→ NP 100% and 0,9 RTO → TQ up to 90% → NP 100% and TQ up to 90,9% (72-600) → NP 100% and TQ up to 100% (42-600) → NP 82% and TQ up to 97% (72-600) → NP 82% and TQ up to 109,7% (42-600) → NP 82% and TQ up to 94,5% (72-600) → NP 82% and TQ up to 108,3% (42-600)

Reversion in manual mode when EEC FAULT (green band 66%) FTR (Feather position). The fuel governing mode is cancelled (No ACW generator) Fuel Shut Off position: Close the shut off valve on the HMU

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Q. Power plant – The PWR MGT has four positions: TO, MCT, CLB, CRZ – Considering that CLs are in AUTO and the PLs are in the notch, the control system delivers max rated power corresponding to the mode selected (the max rated power is delivered only when the engine is not thermodynamically limited)

ATR 72-600 NORMAL OPERATION, EEC ON, ISA CONDITIONS SHP

115% TQ

A

102% TQ 100% TQ

RTO (UP TRIM)

2750 2500 2475 2192 2132

MCT OR TO

B

TO 90% TQ

C

D

LINE A: One engine out operation LINE B: Normal TO or MCT LINE C: CLB LINE D: CRZ NOTE: Sensible sector designed to allow for fix throttle engine control.

100% Np 100% Np

MCT 90.9% TQ

RAMP

100% Np

WALL

NOTCH

0

50

67

81

100

POWER LEVER ANGLE

– TO – MCT – CLB – CRZ

PWR = 2475 SHP PWR = 2500 SHP PWR = 2192 SHP PWR = 2132 SHP

NP=100% NP=100% NP=82% NP=82%

TQ = 90% TQ = 90,9% TQ = 97% TQ = 94,5%

The RTO (Reserve Take-Off) is obtained in case of up trim (one engine out during take off) or with the PL to the ramp – RTO

PWR = 2750 SHP

ATR 42-600

NP=100%

TQ = 100%

NORMAL OPERATION, EEC ON, ISA CONDITIONS SHP

115% TQ

A 2400

MCT OR TO

2160

102% TQ 100% TQ

RTO (UP TRIM)

B

90% TQ

100% Np 100% Np

C

2132

LINE A: One engine out operation LINE B: Normal TO or MCT LINE C: CRZ NOTE: Sensible sector designed to allow for fix throttle engine control.

RAMP

WALL

NOTCH

0

– TO – MCT – CLB – CRZ

PWR = 2160 SHP PWR = 2400 SHP PWR = 2160 SHP PWR = 2132 SHP

50

NP=100% NP=100% NP=82% NP=82%

67

TQ = 90% TQ = 100% TQ = 109,7% TQ = 108,3%

81

100

POWER LEVER ANGLE

The RTO (Reserve Take-Off) is obtained in case of up trim (one engine out during take off) or with the PL to the ramp – RTO

PWR = 2400 SHP

NP=100%

TQ = 100%

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3. Engine indication

ATA 31

Power Management selection Analogic indication

RTO Torque at TO Objective TQ in MCT CLB CRZ

UPTRIM

ATPCS uptrim activation

GO Around Torque

91.1 102 .5 125 .6 --- . HBV L AB

Normal

LO PITCH LO PITCH NO REV

Lo Pitch Normal operation on ground

Abnormal Over-limit Invalid numeric torque HBV failure Discrepancy between EEC and aircraft configuration

Lo Pitch Abnormal operation in flight No Lo Pitch on ground with PL below FI

Lost of propeller control by one PEC channel

AUTO FTR

Auto Feather activation

Propeller brake is applied

Red line for “S”: limit during engine start

Red line for “H”: limit during Hotel Mode

---.-

NP %

---.-

NP information

90 . 0 110 .0 122 . 0 --- . -

Normal operation Abnormal operation Red limit NP invalid signal

500

800 --- . -

999

ITT numeric counter ITT invalid signal

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Q. Power plant

60

Normal

19.5

Normal transient range

81.0

Normal operating range

0

90

60 0

137

Amber exceedance

60 104.0

Amber exceedance range

110.0

Red limit

---.-

Invalid data

0 60

–35 0

60

Red limit 190 0

100.0 105 164 .0 --- . -

---.-

Normal 31

63

Normal operating range Amber exceedance range Red limit Invalid data

NL %

---.-

NL information Amber exceedance

Red limit

KG/H or LBS/H

100

LAB FUEL Invalid data –– –

1+2

394 --- L AB

START

Start in progress

START

Fault occurs during a start sequence

START

Start invalid signal

X START FAIL Cross start failed flag X START FAIL Cross start failed invalid signal

FLOW KG/H 12.0

KG/MN

The fuel quantity consumed by two engines/minute Fuel flow unit is set to KG/MN or LBS/MN

90 .0 110. 0 122. 0 --- . -

Normal operation Abnormal operation Red limit NL invalid signal

Fuel CLOG when ∆PSI>25 PSI. Filter blocked and by-passed when ∆PSI>45 PSI

Normal indication Invalid data Unit or type discrepancy

500

800 --- . -

999

ITT numeric counter ITT invalid signal

IGN ITT is displayed only during start sequence

Red line for “S”: limit during engine start

Red line for “H”: limit during Hotel Mode

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4. ENG START panel CRANK dry motoring (no ignition)

ON starter engaged. At 45% NH, light goes off and the starter is disconnected

START A OR B on ground, only exciter A or B is supllied (except for the position A&B) In flight regardless of start selection (A, B or A+B) both exciters are energized

UNLOCK PROP BRAKE not fully locked or not fully released. After 15 sec: FWS alarm. Also used to check lock/unlock time: – 5 sec. to unlock – 10 sec. to lock

ATA 61/72 FAULT Illuminates when: – remains ON with NH >45% or – GCU failure during start or – starter failure or – ENG 2 only: ENG START selector on start position + PROP BRK ON + GUST lock not engaged ON Continuous ignition (both A & B). Memo panel light.

42/72 PEC

READY engagement or disengag. conditions are met: – A/C on ground – gust lock engaged – CL on FTH or FUEL S/O – blue hyd press available on the prop brake input >2100psi – Fire handle not pulled

PROP BRK Brake fully locked same indication on the memo panel

5. ENG control panel ARMING CONDITIONS PWR MGT sel on TO +ATPCS pb in +both PL > 49° +both TQ > 46% (72) and > 53% (42) = (arm green LT illuminated)

ATPCS – ARM on ground = uptrim + auto FTR (2.15’’ delay) – ARM in flight (In case of go around) = auto FTR only

ATA 61/72 TRIGGER one TQ below 18% Cancel: PWR MGT out of TO or ATPCS pb OFF or at least one PL retarded below 49° or both TQ 2.5° aileron travel. Lt ON=Spoiler not fully retracted (BLUE HYD PWR). Light on when SW TEST depressed and all door microsws opened. (Passengers and service doors opened) At least 1 microsw is opened. (DC BUS 2) Tests continuity of microsw. System (on ground, doors opened). Fuel delivery pressure below 4 PSI. Pump failure or fuel starvation. FWS.

ENGINE FIRE HANDLE Pulled: on the respective engine Prop Feather Fuel LP valve closed Air Bleed valve closed Deice Deice & shutoff valve closed Elect DC & ACW gen. disconnected Squibs Armed (Lts illuminated) Hydraulic Hyd prop brake (eng 2 only)

Fire test MW+CRC+ ENG 1 FIRE on EWD and FWS +Fire handle illuminated +FUEL S/O Lt on CL (if out of Fuel S/O position) Fault test MC+SC+ loop on FWS FAULT Lts on A/B Loop pb. OFF Takes respective loop out of parallel circuit. Allows other loop to activate fire signal.

The opening of the cargo door control panel cover. Self Test of MFC 1A/2A. FAULT Malfunction or electrical supply fault: AUTO disengagement – FWS

Gear position secondary system as sensed by MFC 2. UNLK gear not in selected position or uplock not opened (on Gnd) Green Lt down lock engaged

Controls XFEED valve. Activates both elect fuel pumps. Controls elect pump power supply and jet pump motive flow valve. Runs automatically if: Jet pump press 92°C. FWS. Pack valve will not auto close. MAN Compt temp knob controls directly temp control valve. Selects the zone where T° check is desired. PACK VALVE Spring loaded closed. Must have air pressure and select power to open (6 sec delay on RH pack for pax comfort). FAULT pack valve disagreement with PB or Ovht downstream of pack comp (>204°C). FWS. Valve auto closed. LEAK activates when temperature detected by bleed loop exceeds 156°C. FWS. Auto closure after 1 sec of following valves: Bleed, HP, PACK and GND XFeed. DO NOT RESET BLEED.

Tests all lights. Ldg Elev indicators show all 8 segments.

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Annexes

Menu P/B Enable sub function selection menu

Brightness

SEL P/B Change cursor selection between VHF COM, VHF NAV, BARO SETTING and COURSE when VOR mode.

BOOST (if installed) ON The boost can be selected on ground with the PL below FI, or in flight after an engine failure. When the torque is thermodynamically limited, the boost increase the torque: – With PWR MGT in TO by: – 4.5% up to 4000ft – 4% above 4000ft – With PWR MGT in MCT by 4% The selection of the boost is latched when the PLs are advanced above FI, and can not be changed during flight (except in case of engine failure). FAULT For any disagreement between the position of the push button and the rating of both EEC (MC+SC+FAULT+ENG BOOST on FWS).

FAULT stick shaker or pusher failure. OFF turns off both shaker and pusher

STD P/B Reset at 1013.25Hpa, when pushed more than 0.2 sec.

IESI (Integrated Electronic Stantby Instrument) displays the following information: – Attitude – Airspeed – Altitude – Baro pressure setting – VHF 1 – VOR/ILS 1

SET ROTARY SWITCH – Sub fonction menu scroller – Baro setting – VHF com tuning – VHF nav tuning – Course setting in VOR mode

PWR MGT 2 co-axial sw, (LH: Bottom/RH: Top) providing FDAU (MPC), PEC, PIU and EEC with basic power requirements.

FAULT: illuminates when both PEC channels are lost FWS. OFF: PEC is deactivated and Np is limited at 102.5% by the overspeed governor if power is sufficient.

APM FAULT Failure in the APM function computation APM Test PTT performed daily

PTT pb press for 3 sec. – icing will flash on the display if system works correctly (steady if ice detector failure is detected). – FAULT LT illuminate. A-ICING DETECT is displayed steady on the FWS. ICING AOA Lt illuminates green as soon as 1 horn anti-icing ON. Stall alarm (stick shaker threshold lowered). It can be extinguished manually only by releasing ICING AOA Pb (DC EMER) provided both Horns anti-icing selected OFF.

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S y s t e m s 4 2/72 - 6 0 0 Panel with EWD format.

Arming conditions: PWR MGT sel on TO +ATPCS pb in + both PL >49° + both TQ > 53%(42) both TQ > 46% (72) ARM green LT on.

ATPCS – ARM on ground = uptrim + auto FTR (2.15” delay) – ARM in flight (In case of go around) = auto FTR only.

ATPCS Trigger one TQ 23 kts + 50% diff between wheels (locked wheel protection). Braking action inhibited at touchdown as long as wheel spin up speed 17 kts) = MC + SC EWD 4 amber F on EWD. Test duration: 3 sec. in flight and 6 sec. on ground

Gear handle red Lt any gear not sensed down and locked with the further conditions: a) Any gear not down and locked + flaps normal landing configuration + Zra -1500 ft/mn

NORM AUTO mode selection MAN digital controller out of operation. No more digits in landing elevation display

TEST displays alternatively 18800 and –8800, FAULT appears on MAN pb (Test inhibited in FLT)

FAULT digital controller failure. FWS

DUMP ON (guarded) both outflow valves fully open in AUTO mode only

ON both outflow valves forced to fully closed

CABIN RATE KNOB NORM AUTO MODE position. When used in MAN mode, cabin rate selection +2500/–1500 ft/mn

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S y s t e m s 4 2/72 - 6 0 0 MCDUs (Multifunction Control Display Unit) Access to the FMS, MPC, and ACARS (Data Link) when the ACARS is installed.

WEATHER RADAR CONTROL PANEL

COCKPIT DOOR CONTROL PANEL Allows to control CDLS (Cockpit Door Locking System)

MULTIPURPOSE CONTROL PANEL (MCP) Allows cockpit crew to control the virtual control panel format (VCP) on MFD

POWER LEVER ( PL )

EMER & PARKING BRAKE CONDITION LEVER (CL) GA push button when depressed the GA FD mode is selected with: – HDG HOLD lateral mode with the wings level – GA vertical mode

EMER AUDIO CANCEL This SW cancels an undue aural alert. Cancelled aural warning will be reactivated: – at next A/C energization – after MFC 1B/2B reset – after pressing RCL pb – following TO config test The alerts here after are rearmed as soon as the triggering condition disappears – landing gear – VMO, VFE, VLE – Stall warning – Pitch trim whooler – AP disconnect

HYD AUX PUMP CONTROL (HOT MAIN BAT BUS) – Aux pump stopped 30” after p/b released (MFC supplied) – Aux pump stopped after p/b released (MFC not supplied)

IDLE GATE IDLE GATE FAIL activated when the gate does not engage automatically in flight or does not extend automatically on ground In this case the idle gate lever enables manual override in case of failure of the automatic logic – In flight: push – On ground pull (an amber band appears)

F/O AUDIO CONTROL PANEL

Manual recording on DFDR or CVR (when supplied by GPU) Manual recording stopped with the reset P/B

EFis Control Panel (EFCP) Allows to control: -Display of the MFD pages (ND, SYST, PERF, MISC, VID and MAP) -Navigation Display (ND) functionalities -Warning Display (WD)

CAPT AUDIO CONTROL PANEL

FLAPS

TO CONFIG TEST pb: Check if the TO configuration is correct for take off: – PWR MGT TO – Flaps 15° – Pitch trim in the green band – TLU LO SPD – no AIL LOCK light The same test is performed when advancing the PL with this additional requirement: – Parking Brake released

ACARS & MPC PRINTER

Panel & flood light control

Aileron, rudder & stby pitch trims

ATPCS test (static or dynamic)

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Annexes

FD lateral mode

FD vertical mode

NAV SOURCE Selector CAPT side Selects the NAV SOURCE for CAPT EHSI and/or ND depending on display configuration

ALT knob controls the preselected altitude on the PFD

NAV SOURCE Selector F/O side Selects the NAV SOURCE for F/O EHSI and/or ND depending on display configuration

FD bars ON/OFF switch

Chrono P/B Start/Stop/Zero

Chrono P/B Start/Stop/Zero

CRS 1 knob selects Course on CAPT EHSI

STBY COMPASS Hidden in up position. Compass Control should be place on DN For use. The compass rose is graduated in 10 degrees increments

Pitch wheel to adjust – VS or – Pitch attitude in basic mode

CRS 2 knob selects Course on F/O EHSI and ND

– AP pb engages autopilot and yaw damper and disengages only autopilot

HDG knob selects HDG bug on both EHSI and ND

– YD pb engages yaw damper and disengages yaw damper and autopilot if engaged – CPL pb permit to couple AP/FD On CAPT or F/O side In CAT 2 (ILS selected on NAV 1&2) – 1200 ft RA: Dual coupling < > – 800 ft RA: CAT 2 invalid if still in single coupling – 500 ft RA: ILS excess dev activated – 100 ft RA: GS excess dev deactivated

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S y s t e m s 4 2/72 - 6 0 0

TAWS

TAWS visual alert GPWS If any TAWS mode is activated PULL UP Alert triggered after the GPWS alert in mode 1, 2 and terrain and obstacle awareness modes

GPWS switch and associated lights: ON: All basic GPWS modes are operative FLAP OVRD: In reduced flaps landing, to inhib the mode 4 alert OFF: All basic GPWS modes inhibited. OFF: light come on FAULT: GPWS FAULT —— > some or all GPWS basic modes are lost FAULT: TERR FAULT —— > some or all enhanced modes are lost OFF: All enhanced (TCF&TAD) modes inhibited

AHRS switching P/B To select the opposite side AHRS source. When depressed, SYS 2 is illuminated on CAPT side, while CAPT / 2 is illuminated green on F/O side The CAPT P/B has priority

ACARS message ATC DLK (ATC Data LinK) is illuminated when a message is received through the ACARS. The message can be read on the MCDU

MASTER WARNING MASTER CAUTION

Display P/B The P/B allows to switch formats (PFD/EWD/MFD) on the DU2, or on DU1 if DU2 is OFF.

ADC switching P/B To select the opposite side ADC source. When depressed, SYS 2 is illuminated on CAPT side, while CAPT / 2 is illuminated green on F/O side The CAPT P/B has priority

MFD upper window Displays the different pages selected on the EFCP: – ND page (Navigation Display: shown here) – SYST page (System) – PERF page (Performance) – MAP page (airport mapping) – MISC page (in provision) – VD page (Video in provision)

ND page (Navigation Display) Different mode selected on the EFCP: – ARC mode – ROSE mode – PLAN mode

STEEP APP P/B (optional) When selected ON, moves the mode 1 threshold, to avoid TAWS triggering in steep slope approach

AUDIO 1 SEL FAULT: When the associated RCAU part is failed. ALTN: Affected crew station is connected directly to VHF1 if CAPT station is affected.

Index Control Panel (ICP) Baro setting control

Index Control Panel (ICP) Speed target control

DISPLAY UNIT 1 (DU1) In the normal configuration, with CAPT as PF, the PFD format is displayed

Memo Panel Display Displays the following system information when selected FUEL XFEED PROP HORN SIDE WINDOW ENG AIFRAME NO DEVICE SEAT BELT

VCP window (Vitual Control Panel) Displays the informations about: The COM selection The NAV selection (shown here) The SURV (surveillance) selection DISPLAY UNIT 2 (DU2) In the normal configuration, with CAPT as PF, the MFD format is displayed with the ND page. The FMA 1 (Flight Management Application 1) and the RMA 1 (Radio Management Application 1) are included in the DU2 functions

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Annexes MFD upper window Displays the different pages selected on the EFCP: – ND page (Navigation Display) – SYST page (System: shown here) – PERF page (Performance) – MAP page (airport mapping) – MISC page (in provision) – VD page (Video in provision)

Display P/B The P/B allows to switch formats (PFD/EWD/MFD) on the DU4, or on DU5 if DU4 is OFF.

Airspeed Indicator (ASI)

Flight Mode Annuciator (FMA)

MASTER WARNING MASTER CAUTION

ELAPSED TIME P/B When the ELAPS TM P/B is depressed ON the flight time starts automatically, on the EWD, when airborne

Attitude Display Indicator (ADI)

Altimeter

ADC switching P/B To select the opposite side ADC source. When depressed, SYS 1 is illuminated on F/O side, while F/O /1 is illuminated green on CAPT side The CAPT P/B has priority

Vertical Speed Indicator (VSI)

SYST page (System page) Different mode selected on the EFCP: – ACW-HYDRAULIC – ENGINE (secondary engine display) – CABIN (shown here) – AC-DC ELECTRIC

CLOCK

AHRS switching P/B To select the opposite side AHRS source. When depressed, SYS 1 is illuminated on F/O side, while F/O /1 is illuminated green on CAPT side The CAPT P/B has priority

LOUDSPEAKERS VOLUME KNOBS Individual knob for each loudspeaker

VCP window (Vitual Control Panel) Displays the informations about: The COM selection (shown here) The NAV selection The SURV (surveillance) selection

DISPLAY UNIT 4 (DU4) In the normal configuration, with F/O as PM, the MFD format is displayed with the SYST page. The FMA 2 (Flight Management Application 2) and the RMA 2 (Radio Management Application 2) are included in the DU4 functions

DISPLAY UNIT 5 (DU5) In the normal configuration, with F/O as PM, the PFD format is displayed.

Navigation Area With the ND on the MFD, the EHSI is displayed on the PFD. With an other page on the MFD, a mini ND is displayed on the PFD. The mini ND can be in ARC mode or ROSE mode, selected on the EFCP.

Index Control Panel (ICP) Speed target control: – Speed target selection Selection of the speed bug between: – AUTO: Speed bug managed by the FMS (Magenta) – MAN: Speed bug set manually by the speed knob (Cyan) – Speed knob Used to set the speed bug In MAN mode (Cyan)

Index Control Panel (ICP) Baro setting control: – Barometric setting knob The knob is used to set the barometric reference. Pushing the knob sets standard barometric reference (29.92 INHG / 1013.25 Hpa) – DH / MDA knob Outer knob permits to select between DH (Decision Height) or MDA (Minimum Descent Altitude). Inner knob is used to set DH or MDA values, depending of the outer knob position.

READING LT knob Control the respective spot light

CONSOLE LT knob Control the lights of the associated lateral console

AUDIO 2 SEL FAULT: When the associated RCAU part is failed. ALTN: Affected crew station is connected directly to VHF2 if F/O station is affected.

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S y s t e m s 4 2/72 - 6 0 0

Parking/emergency braking accumulator pressure indicator This indicator is used when the MFDs are not energized, to check brake accumulator pressure. When the switch is activated, the indicator is energized for two minutes When the accumulator pressure is 3100 psi, the indicator displays blinks.

N/W STEERING ON: The steering solenoid valve is electrically armed. The steering is available with an angle up to 60° in either direction OFF: The steering system is unpressurized. Should be OFF for towing and push back The steering is disconnected with an angle up to 91° in either direction

Nose wheel steering Push To Talk When depressed, BOOM SET or OXY mike is connected for transmission over the selected communication facility

Test & Reset slider Blinker indicator Normal/100% selector RH red grips (inflate harness) Emergency rotaty knob

Position of the selector: EXT PWR DC panel indicates the DC GPU voltage & current AC panel indicates the AC GPU voltage, load & current GEN 1/ 2 DC panel indicates the DC Generator voltage & current AC panel indicates the ACW Generator voltage, load & current INV 1/ 2 No indication on DC panel AC panel indicates the AC Inverter voltage, load & current MAIN and EMER BAT DC panel indicates the DC Main & Emer Battery voltage & current No indication on AC panel

PRELIMINARY COCKPIT PREPARATION: OXYGEN MASK TEST INT/RAD SELECTOR (On AUDIO CONTROL PANEL) .................................SET TO INT PRESS TO TEST AND RESET PB ............................................. DEPRESS AND HOLD

NOTE: Hose and mask charged with oxygen. Observe blinker momentarily turns yellow and must turn dark if there is no leak PRESS TO TEST AND RESET PB ...................................................................... HOLD RED GRIPS ON EACH SIDE OF THE HOSE ......................................................PRESS

NOTE: Oxygen pressure inflates the harness. Observe blinker momentarily turns yellow and must turn dark PRESS TO TEST AND RESET PB ...................................................................... HOLD EMERGENCY KNOB ....................................................................................... SELECT

NOTE: Emergency flow is tested. Observe blinker momentarily turns yellow during oxygen flow and must turn dark when the knob is released. NOTE: In this 3 cases, check that oxygen flow sounds though loudspeakers OXY LO PR LIGHT ................................................................. CHECK EXTINGUISHED N/100% Selector ..................................................................................... SET to 100%

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Annexes

FLIGHT DECK VENTILATION ISOLATION EXTRACT AIR FLOW CAUTION: Close only in case of FWD COMPT smoke Enables, in case of smoke in the forward cargo compartment, to isolate the flight deck ventilation preventing smoke to enter the flight compartment

MAIN PNL Before the flight, check that all the switch and selector are in the normal position. If not, the MAIN PANEL is displayed on the FWS

BITE LOADED magnetic indicator Indicates that a failure has been recorded by the maintenance system. Report to maintenance

BRK TEMP TEST When depressed, MC, SC, WHEELS BRK HOT on FWS

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Annexes

Annex 2. Abbreviations A AAS AC A/C ACARS AC BTC AC BTR ACW ADC ADF ADI ADN ADS AFCS AFDX A/FEATH AFCA AFT AFU AGB AHRS AHRU AIL ALT ALTM ALTN AMP AOA AP APP APU APAU ARINC A 429 ARM ASI ASYM ATC ATPCS ATT ATTND AUTO AUX AVAIL

Anti-icing Advisory System Alternating Current Aircraft ARINC Communication Addressing and Reporting System AC Bus Tie Contactor AC Bus Tie Relay Alternating Current Wild Frequency Air Data Computer Automatic Direction Finder Attitude Director Indicator Avionic Data Network Air Data System Automatic Flight Control System Avionic Full DupleX Auto Feathering Auto Flight Control Application Rear Part Auto Feather Unit Accessory Gear Box Attitude and Heading Reference System Attitude and Heading Reference Unit Aileron Altitude Altimeter Alternate Ampere Angle of Attack Auto-Pilot Approach Auxiliary Power Unit AutoPilot Actuator Unit Aeronautical Radio INCorporated ARINC 429 Armed Air Speed indicator Asymmetry Air Traffic Control Automatic Take off Power Control System Attitude Attendant Automatic Auxiliary Available

B BARO BAT BC BITE BPCU BPU

Barometric Battery Back Course Built in Test Equipment Bus Power Control Unit Battery Protection Unit

BRG BRK B-RNAV BRT BTC BTR

Bearing Brake Basic Area Navigation Bright Bus Tie Contactor Bus Tie Relay

C CAB CAC CAPT CAT C/B CDI CDLS CHAN CHC CL CLA CLB CLR CMA CMS CMPTR CMU COM COMPT CONFIG CPL CPM CRC CRS CRZ CTL CVR

Cabin Core Avionic Cabinet Captain Category Circuit Breaker Course Deviation Indicator Cockpit Door Locking System Channel Charge Contactor Condition Lever Condition Lever Angle Climb Clear Centralized Maintenance Application Cabin Management System Computer Communication Management Unit (ACARS) Communication Compartment Configuration Auto Pilot Coupling Core Processing Module Continuous Repetitive Chime Course Cruise Control Cockpit Voice Recorder

D DC DCA DELTA P DEV DFDR DGR DH DIFF DISCH DIM DIST DLK DME DMU DN DSPL DU

Direct Current Data Concentration Application Differential Pressure Deviation Digital Flight Data Recorder Degraded Decision Height Differential Discharge Light Dimmer Distance Data LinK Distance Measuring Equipment Data Management Unit Down Display Display Unit

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S y s t e m s 4 2/72 - 6 0 0 E EEC EFCP EFIS EHSI EHV ELEC ELV EMER ENG EQPT ESS ETOPS EWD EXT

H Engine Electronic Control EFis Control Panel Electronic Flight Instrument System Electronic Horizontal Situation Indicator Electro Hydraulic Valve Electrical Elevation Emergency Engine Equipment Essential Extended Twin Operations Engine & Warning Display Exterior, External

F F FAIL FAP FCOC FCU FD FDA FDAU FEATH, FTR FF FGC FGCP FGS Fl FLT FMA FMA FMS F/O FOS FQI FT FU FWD FWS

Farenheit Failed, Failure Flight Attendant Panel Fuel Cooled Oil Cooler Fuel Control Unit Flight Director Flight Data Application Flight Data Acquisition Unit Feathered, Feathering Fuel Flow Flight Guidance Computer Flight Guidance and Control Panel Flight Guidance System Flight Idle Flight Flight Management Application Flight Modes Annunciators Flight Management System First Officer Flight Operations Software Fuel Quantity Indication Foot, Feet Fuel Used Forward Flight Warning System

G GA GCU GEN GI GND GPS GPU GRD G/S GSPD

Go Around Generator Control Unit Generator Ground Idle Ground Global Positioning System Ground Power Unit Ground Glide Slope Ground Speed

HBV HDG HF HI HLD HMU HP HSI HTG HYD

Handling Bleed Valve Heading High Frequency High Hold Hydromechanical Unit High Pressure Horizontal Situation Indicator Heating Hydraulic

I IAS ICP IDT IESI IGN ILS IMA IND IN/HG INHI INOP INST INT INV IOM ISOL ITT

Indicated Air Speed Index Control Panel Ident Integrated Electronic Standby Instrument Ignition Instrument Landing System Integrated Modular Avionics Indicator Inches of Mercury Inhibit Inoperative Instrument Interphone Inverter Input Output Module Isolation Inter Turbine Temperature

JK KHZ KT

Kilo-Hertz Knot

L LAT LAV LB LDG L/G LH LMU LNAV LO LOC LO-PR LP LT LVL

Lateral Lavatory Pound Landing Landing Gear Left Hand Light Management Unit Lateral Navigation Low Localizer Low Pressure Low Pressure Light Level

M MAX MAP MB MC MCDU MCP

Maximum Mapping Millibar Master Caution Multifunction Control Display Unit Multifunction Control Panel

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Annexes MCT MECH MFC MFCU MFD MGT MHZ MIC MLG MIN MIP MISC MKR MLW MM MMO MOD MPC MPU MSG MSN MTOW MW MZFW

Maximum Continous Mechanic Multi Function Computer Mechanical Fuel Control Unit Multi Function Display Management Megahertz Microphone Main Landing Gear Minimum Main Instrument Panel Miscellaneous Marker Maximum Landing Weight Millimeter Maximum Operating Mach Modification Multi Purpose Computer Micro Processor Unit Messages Manufacturer Serial Number Maximum lake off Weight Master Warning Maximum Zero Fuel Weight

N NAC NAV ND NDB NEG NH NIL NL NM NORM NP N/W NWS

Nacelle Navigation Navigation Display Non Directional Beacon Negative High Pressure Spool Rotation Speed Nothing, No Object Low Pressure Spool Rotation Speed Nautical Mile Normal Propeller Rotation Speed Nose Wheel Nose Wheel Steering

O OAT OVBD OVERTEMP OVHT OVRD OXY

Outside Air Temperature Overboard Overtemperature Overheat Override Oxygen

P PA PB PEC PED PERF PFD PIU PL PLA PNL

Passenger Address Push Button Propeller Electronic Control Pedestal Performance Primary Flight Display Propeller Interface Unit Power Lever Power Lever Angle Panel

POS P-RNAV PRESS PRIM PRKG PROP PSI PSU PT PT (TCAS) PTB PTT PTW PVM PWR PW

Position Precision Area Navigation Pressurization, Pressure Primary Parking Propeller Pound per Square Inch Pax Service Unit Point Proximity traffic Pitch Trim Box Push To Talk, Push To Test Pitch Thumb Wheel (same as PW) Propeller Valve Module Power Pitch Wheel (same as PTW)

Q QAR QT QTY

Quick Access Recorder Quart Quantity

R RA (TCAS) RA RAD/ALT RAD/INT RCAU RCDR RCL RCU RECIRC REV RGA RGB RH RLY RMA RMI RMS RNP RPM RTO RUD

Resolution Advisory Radio Altitude Radio Altitude Radio/Interphone Remote Control Audio Unit Recorder Recall Releasable Centering Unit Recirculation Reverse Reserve Go-Around Reduction Gear Box Right Hand Relay Radio Management Application Radio Magnetic Indicator Radio Management System Required Navigation Performance Revolution Per Minute Reserve Take-Off Rudder

S SAT SBY SC SEL SGL SGU SMK SMKG S/O (SO) SOV SPD SPLR SPLY

Static Air Temperature Stand By Single Chime, Starter Contactor Selector Single Symbol Generator Unit Smoke Smoking Shut Off Shut Off Valve Speed Spoiler Supply

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S y s t e m s 4 2/72 - 6 0 0 STBY STRG SSFDR SURV SVCE SW SWM SYS

Stand By Steering Solid State Flight Data Recorder Surveillance Service Switch gateway and SWitch Module System

T TA (TCAS) TAD TAS TAT TAWS TCF TCS TEMP TGT TK TLU T/O (TO) TOW TQ TRU TTG

TRAFFIC Advisory Terrain Awareness Display True Air Speed Total Air Temperature Terrain Awareness Warning System Terrain Clearance Floor Touch Control Steering Temperature Target Tank Travel Limiting Unit Take off Take off weight Torque Transformer Rectifier Unit Time To Go

U U/F UHF UNCPL UNDV

Underfloor Ultra High Frequency Uncouple Undervoltage

UNLK UTLY

Unlock Utility

V VC VCP VENT VERT VHF VID VMO VNAV VOR VSI

Calibrated Airspeed Virtual Control Panel Ventilation Vertical Very High Frequency Video Maximum Operating Speed Vertical Navigation VHF OMNI Directional Range Vertical Speed Indicator

W WARN WOW XFEED XFR

Warning Weight On Wheel Cross feed Transfer

XY YD YDAU

Yaw Damper Yaw Damper Actuator Unit

Z ZA ZCTH ZFW ZP ZRA

Aircraft Altitude Theoretical Cabin Altitude Zero Fuel Weight Pressure Altitude Radio Altimeter Altitude

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Dear Readers, Every effort has been made to ensure document quality. However please do not hesitate to share your comments and information with us by using the following address: [email protected] Yours faithfully,

Printed on 100% recycled paper using vegetable inks

Your ATR Training and Flight Operations support team.

© ATC May 2014 All reasonable care has been taken by ATC to ensure the accuracy of the present document. However this document does not constitute any contractual commitment from the part of ATC which will offer, on request, any further information on the content of this brochure. Information in this brochure is the property of ATC and will be treated as confidential. No use or reproduction or release to a third part may be made there of other than as expressely authorised by ATC.

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42 PEC 72 PEC Glass cockpit - 600

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