CMA9000 Manual

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INSTALLATION/ FLIGHT LINE MANUAL FLIGHT MANAGEMENT SYSTEM CMA-9000 H/W 100-601951-VAR S/W 169-614876-010

CMC Electronics Inc. 600 DR. FREDERIK PHILIPS BOULEVARD VILLE ST-LAURENT, QUEBEC, CANADA H4M 2S9 TEL: (514) 748-3148, FAX: (514) 748-3100

INSTALLATION/ FLIGHT LINE MANUAL FLIGHT MANAGEMENT SYSTEM CMA-9000 H/W 100-601951-VAR S/W 169-614876-010

CMC Electronics Inc. 600 DR. FREDERIK PHILIPS BOULEVARD VILLE ST-LAURENT, QUEBEC, CANADA H4M 2S9 TEL: (514) 748-3148, TELEX: 05-827822, FAX: (514) 748-3100

Publication No. 9000-GEN-0840 Item No. 929-600026-000

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May 10, 2007

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Although we constantly strive for accuracy and clarity, we may make errors on occasion. If we do, we would appreciate your comments to improve this manual. Please use the following Customer Comments form or e-mail us at [email protected] to inform us of any correction or send us a marked-up copy of this publication. We will acknowledge your comments and notify you of any intended action. Your assistance in improving this manual is sincerely appreciated.

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CMC Electronics Inc. CUSTOMER SUPPORT 600 DR. FREDERIK PHILIPS BOULEVARD VILLE ST. LAURENT, QUEBEC, CANADA H4M 2S9

FOLD BACK ……………………………………………………………………………………….......................................................................................................................................

INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

LIST OF EFFECTIVE PAGES NOTE The portion of the text affected by the latest change is indicated by a vertical line in the margin of the page. Changes to illustrations are indicated by miniature pointing hands or black vertical lines. Original................... 0.................... May 10, 2007 THE TOTAL NUMBER OF PAGES IN THIS PUBLICATION IS 400 CONSISTING OF THE FOLLOWING SUBJECT

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Title

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List of Effective Pages

LEP-1 LEP-2 LEP-3 LEP-4 LEP-5 LEP-6

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Record of Revisions

RR-1 RR-2

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Service Bulletin List

SB-1 SB-2

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Electrostatic Discharge

ED-1 ED-2

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Abbreviations

INTRO-1 INTRO-2 INTRO-3 INTRO-4

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Table of Contents

TC-1 TC-2 TC-3 TC-4 TC-5 TC-6

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Description and Operation 1 2 3 4

SUBJECT

May 10/07 May 10/07 May 10/07 May 10/07

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LIST OF EFFECTIVE PAGES SUBJECT

PAGE

Description and Operation 40 (cont’d) 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86

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SUBJECT

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87 88 89 90 91 92 93 94 95 96

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Installation

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Post-Installation Test

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Post-Installation Test (cont'd)

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Flight Line Test/ Troubleshooting

SUBJECT

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Maintenance Practices

401 402

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Servicing

501 502

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Removal/Installation

601 602

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Cleaning/Painting

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Approved Repairs

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Configuration Selection

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LIST OF EFFECTIVE PAGES SUBJECT Configuration Selection (cont'd)

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SUBJECT

Data Loader Unit (DLU)

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LIST OF EFFECTIVE PAGES SUBJECT Appendix A

Appendix B

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T-A1 T-A2 TC-A1 TC-A2 A-1 A-2 A-3 A-4 A-5 A-6 A-7 A-8 A-9 A-10 A-11 A-12 A-13 A-14 A-15 A-16 A-17 A-18 A-19 A-20 A-21 A-22 A-23 A-24

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T-B1 T-B2 TC-B1 TC-B2 B-1 B-2 B-3 B-4 B-5 B-6 B-7 B-8 B-9 B-10 B-11 B-12 B-13 B-14 B-15 B-16

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SUBJECT

Appendix C

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B-17 B-18 B-19 B-20 B-21 B-22

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T-C1 T-C2 TC-C1 TC-C2 C-1 C-2 C-3 C-4 C-5 C-6 C-7 C-8 C-9 C-10 C-11 C-12 C-13 C-14 C-15 C-16

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RECORD OF REVISIONS ASSIGNED TO (JOB TITLE)

REV. NO.

REVISION DATE

INSERTION DATE

On receipt of revisions, insert pages and record date inserted and initial. LOCATION

BY

REV. NO.

REVISION DATE

INSERTION DATE

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SERVICE BULLETIN LIST SERVICE BULLETIN NO.

SUBJECT

MANUAL REVISION NUMBER

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MANUAL REVISION DATE

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FORWARD ELECTROSTATIC DISCHARGE

This equipment contains components which are sensitive to damage by electrostatic discharge (ESD). Modules containing components sensitive to ESD are identified on the module by a label bearing the following marking.

"CAUTION-THIS EQUIPMENT CONTA I N S PA R T S S E N S I T I V E T O D A M A G E B Y E L E C T R O S TAT I C DISCHARGE (ESD). USE ESD PRECAUTIONARY PROCEDURES WHEN TOUCHING, REMOVING, OR INSERTING PARTS OR ASSEMBLIES."

When these modules have to be replaced and returned for service the following precautions should be observed: 1. Handle the modules as little as possible. Do not touch the leads, pin or tracks while handling. 2. Keep spare modules in the ESD protective packing until ready for use. 3. Discharge static before handling modules (removal or replacement) by touching a grounded metallic surface such as rack or cabinet hardware. Use of wrist strap grounded through a one megohm resistor is preferred when handling modules. (This ground should be the same as the equipment ground). 4. Do not slide static-sensitive modules over any surface. 5. Clothing must not come in contact with components or assemblies. Short sleeves are preferred; if long sleeves are worn then should be rolled up. 6. Package parts properly for storage or transportation. Modules which are removed from the equipment should be placed into ESD protective packing immediately. Do not place any paper, card or other plastic inside the ESD protective packing. 7. When packing these modules for storage or transportation, keep them in the bag. Fold over and seal the mouth of the bag to keep out any static generating packing material (eg, foamed polystyrene). Pack around the bag firmly to prevent motion which could generate static.

WARRANTY In the case of any ESD sensitive module bearing the marking described above which is received by CMC not in ESD protective packing, other than the initially reported fault, all warranty, present or future, is voided for failure related to ESD sensitive components.

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LIST OF STANDARD AND NONSTANDARD ABBREVIATIONS AAIM

-

ACCUR ACMS

-

ACT ADC ADF AFCS AFM AGL AHCAS

-

AHRS

-

ALT AMLCD

-

AMU ANP ANS APIRS

-

APPR APU ARINC ARR ATC ATP AWG

-

Aircraft Autonomous Integrity Monitoring Alternative Current Aircraft Aircraft Communications Addressing and Reporting System Accuracy Aircraft Condition Monitoring System Active Air Data Computer Automatic Direction Finder Automatic Flight Control System Aircraft Flight Manual Above Ground Level Advanced Helicopter Cocpkpit Avionics System Attitude and Heading Reference System Altitude Active Matrix Liquid Crystal Display Audio Management Unit Actual Navigation Performance Answer (HCS text message) Aircraft Piloting Inertial Reference System Approach Auxiliary Power Unit Aeronautical Radio Incorporated Arrival Air Traffic Control Acceptance Test Procedure American Wire Gauge

AC A/C ACARS

-

BCD BIT BITE BNR BRT BUF

-

Binary Coded Decimal Built-In-Test Built-In-Test Equipment BiNaRy Brightness Buffer

CDU CFG CHAR CHN/CHAN CLR CMC COMM COORD -

Control Display Unit Configuration Character Channel Clear CMC Electronics Inc. Communication Coordinate

CP CPU CRC CRP

-

Control Panel Central Processor Unit Cyclic Redundant Check Centrale Reference Primaire

DA dB DBASE DC DEGR DEP DIG DISC DITS

-

DLU DMAP DME

-

DOP DR DTK DTW DTO DVS

-

Drift Angle deciBel Database Direct Current Degradation Departure Digital Discrete Digital Information Transfer System Data Loader Unit Digital Map Distance Measurement Equipment Discrete Output Dead Reckoning Desired Track Distance To Waypoint Direct-To Doppler Velocity Sensor

EADI

-

ECD EFIS

-

EGI EHSI

-

EICAS

-

EIS EMI EOT ELT ERR ESD ETA EQP EXEC

-

Electronics Atttiude Display Indicator Eurocopter Deutschland Electronic Flight Instrumentation System Embedded GPS/INS Electronic Horizontal Situation Indicator Engine Instrument Crew Alerting System Electrical Instrument System ElectroMagnetic Integration End Of Transmission Emergency Locator Transmitter Error Electro Static Discharge Estimated Time of Arrival Equipment Execute

FAA FAF FC FLT

-

Federal Aviation Authority Final Approach Fix Fuel Computer Flight

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LIST OF STANDARD AND NONSTANDARD ABBREVIATIONS (cont’d) FMC FMS FPU FREQ FTE

-

Flight Management Computer Flight Management System Floating Point unit Frequency Fliht Technical Error

GAMA

-

GDOP GMT GND GNSSU

-

GPP

-

GPS GPU G/S GS GSM

-

General Aviation Manufucturers Association Geometric Dilution of Precision Greenwich Mean Time Ground Global Navigation System Sensor Unit Gessellschaft Fur Prozessrechner Programmierung mbH ( German company that makes HCS) Global Positioning System Ground Power unit Ground Speed Glide Slope Global System for Mobile Telecommunication

HCS

-

HDG HDOP HF HFOM HIL HSI H/W

-

Helicopter Communication System Heading Horizontal Dilution of Precision High Frequency Horizontal Figure Of Merit Horizontal Integration Limit Horizontal Situation Indicator Hardware

IDT I/F IFDS IFR I/O I/P ILS INIT INS INT IRS

-

Ident Interface Integrated Flight Display System Instrument Flight Regulations Input/Output Input Instrument Landing System Initial Inertial Navigation System Integrity Inertial Reference Sensor

JAA

-

Joint Aeronautical Authority

KG KT(s)

-

Kilograms Knot(s)

L LAT LB LCD LEGCHG LNAV LONG LRU LSK LSW

-

Left Latitude Pound Liquid Crystal Display Leg Change Lateral Navigation Longitude Line Replaceable Unit Line Select Key Least Significant Word

MAG MCDU MLS MOD MSL MSW MSG MTBF

-

Magnetic Multipurpose Control Display Unit Microwave Landing System Modified Mean Sea Level Mist Signficant Word Message Mean Time Between Failure

N/A NAS NAV NMI NMS NPA NVG

-

Not Applicable National Air Space NAVigation Nautical Miles Navigation Management System Non-Precision Approach Night Vision Goggle

OEI OFST OP O/P

-

One Engine Inoperative Offset Operational Output

PDL PDP PFD PG PLS P/N POF POS PREDEF PREV PROG PROM

-

Portable Data Loader Packet Data Protocol Primary Field Display Page Personnel Locator System Part Number Phase Of Flight Position Predefined Previous Progress Programmable Read Only Memory

QTY

-

Quantity

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LIST OF STANDARD AND NONSTANDARD ABBREVIATIONS (cont’d) R RAIM

-

REC REF REPE RF RMS RNP RTCA

-

RTE RTN RX

-

Right Receiver Autonomous Integrity Monitoring Recorder Reference Repeater Radio Frequency Radio Management System Required Navigation Performance Radio Technical Commission for Aeronautics Route Return Receive

SDI SMC SP SQK SSM STBY

-

Source Data Information System Management Computer Space Squawk Sign/Status Matrix Standby

TACAN TAS TAWS

-

TCAS

-

TCN TDN TK TKE TOGA TRK TSO TX TX1 TX2

-

TACtical Air Navigation system True Air Speed Terrain Awareness and Warning Systems Traffic Alert Collision Avoidance System TACAN Transition DowN Track Track Angle Error Take Off Go Around Track Technical Standard Order Transmit V/UHF radio #1 transmitting V/UHF radio #2 transmitting

UHF UTC UTM

-

Ultra High Frequency Universal Time Coordinate Universal Transverse Mercator

VAR VDOP VER VFR VHF VOR VSI VUHF

-

WOW WPT WXR

-

Weight On Wheel Waypoint Weather Radar System

XMIT XPDR XTK

-

Transmit ATC Transponder Cross Track

Variation Vertical Dilution of Precision Vertical Visual Flight Regulations Very High Frequency VHF Omni-directional Radio range Vertical Situation Indicator Very & Ultra High Frequency

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TABLE OF CONTENTS Section

Title

Page

SECTION I DESCRIPTION AND OPERATION ............................................................................................... 1 1. GENERAL........................................................................................................................ 1 A. Purpose of Manual................................................................................................... 1 B. Function of Equipment............................................................................................. 1 C. Reliability and Maintainability................................................................................... 1 D. External Interface Capabilities ................................................................................. 2 E. Description of the Primary Modes of Navigation ..................................................... 4 F. Annunciators and Keys............................................................................................ 7 G. Related Publications .............................................................................................. 18 H. Equipment Identification ........................................................................................ 19 2. EQUIPMENT SPECIFICATIONS .................................................................................. 21 3. DIGITAL EQUIPMENT................................................................................................... 33 A. Aircraft Condition Monitoring System (ACMS) ...................................................... 34 B. Air Data Computer (ARINC 429) ........................................................................... 35 C. Air Data Computer (ARINC 575) ........................................................................... 36 D. Attitude and Heading Reference System (ARINC 429)......................................... 36 E. Automatic Flight Control System ........................................................................... 37 F. Checker (ARINC 429)............................................................................................ 38 G. Collins DME-442/DME-4000 Distance Measuring Equipment Receiver (ARINC 429)........................................................................................................................ 38 H. Collins 700 Distance Measuring Equipment Receiver (ARINC 429)..................... 39 I. Chelton DM-441B Distance Measuring Equipment Receiver (ARINC .................. 40 J. ARINC 615 Data Loader Unit (ARINC 429)........................................................... 40 K. GAMA EFIS Interface Description ......................................................................... 40 L. IFDS and AHCAS/AHCAS2 EFIS Interface Description ....................................... 50 M. ARINC 702 EFIS Interface Description ................................................................. 54 N. Fuel Computer ....................................................................................................... 62 O. GPS Sensor ........................................................................................................... 62 P. Flight Recorder ...................................................................................................... 67 Q. Repeater ................................................................................................................ 67 R. System Management Computer............................................................................ 68 S. Chelton VN-411B, Collins VIR-432, Collins NAV-4500 NAV (VOR/ILS) RECEIVER (ARINC 429) .......................................................................................................... 68 T. VOR RECEIVER (ARINC 579) .............................................................................. 69 U. X-FMS for cross-talk (ARINC 429) ....................................................................... 69 V. Emergency Locator Transmitter ARTEX ELT-110-406HM/GPS (ARINC 429) ..... 70 W. Bendix King MST67A ATC Transponder (ARINC 429) ......................................... 70 X. Collins TDR 94D ATC Transponder (ARINC 429)................................................ 71 Y. Chelton VC-401B VHF COM radio (ARINC 429) ................................................ 72 Z. Chelton VC-401C VHF Comm (ARINC 429) ......................................................... 72 AA. Chelton ADF-431B, Collins ADF-462 ADF (ARINC 429) ...................................... 73 BB. Marconi Selenia SRT-651/N-A V/UHF radio (ARINC 429).................................... 73 CC. TEAM Audio Management Unit AMU (ARINC 429) .............................................. 74 DD. Aircraft Piloting Inertial Reference System (APIRS SFIM) .................................... 75 EE. Digital Map System................................................................................................ 75 FF. Data Concentrator ................................................................................................. 77

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TABLE OF CONTENTS (cont'd) Section

Title

Page

GG. HH. II. JJ. KK. LL. MM. NN. OO.

Radio Altimeter (ARINC 429)................................................................................. 78 LN-100GT Embedded GPS/INS Sensor (ARINC 429).......................................... 78 SIGMA50H Embedded GPS/INS Sensor (ARINC 429) ........................................ 80 Weather Radar (ARINC 429)................................................................................. 82 Doppler Velocity Sensor DVS (ARINC 429) .......................................................... 82 Personnel Locator System (ARINC 429).............................................................. 83 Thomson NC-12B TACAN (ARINC 429) ............................................................... 84 Data Loader unit Targa (RS-422) .......................................................................... 84 Helicopter Communication System (HCS) Software Protocol (RS-422) Future Growth ................................................................................................................... 85 PP. Radio Interface Box (RIB) equipment (RS-422) Future Growth ............................ 88 QQ. Inertial Reference System (ARINC 429)................................................................ 89 SECTION II INSTALLATION........................................................................................................................ 101 1. GENERAL.................................................................................................................... 101 2. EQUIPMENT LOCATION ............................................................................................ 101 A. General ................................................................................................................ 101 B. Location of the FMS............................................................................................. 101 C. Selection and location of the GPS receiver and related GPS Antenna............... 101 D. Active Antenna Installations (CMA-3012 and CMA-3024) .................................. 103 3. INTERWIRING AND OUTLINE DRAWING ................................................................. 105 4. HARNESS VOLTAGE CHECKOUT ............................................................................ 117 5. EGI INSTALLATION .................................................................................................... 117 6. DOPPLER INSTALLATION ......................................................................................... 118 7. ANNUNCIATOR INSTALLATION................................................................................ 119 SECTION III POST-INSTALLATION TEST ................................................................................................. 201 1. GENERAL.................................................................................................................... 201 2. CONDITIONS .............................................................................................................. 201 3. SYSTEM TEST PREPARATION ................................................................................. 201 A. Built-In Test.......................................................................................................... 201 B. Front panel brightness control ............................................................................. 203 C. Configuration Selection........................................................................................ 204 D. Navigation Database Loading.............................................................................. 204 4. PROCEDURE .............................................................................................................. 205 A. Power On ............................................................................................................. 205 B. Annunciator Test and RADIO Page..................................................................... 205 C. Heading Input Verification.................................................................................... 208 D. True Airspeed Verification ................................................................................... 209 E. GPS Sensor Unit ................................................................................................. 210 F. DME Status.......................................................................................................... 215 G. VOR/DME/TCN Status ........................................................................................ 216 H. Radio Test............................................................................................................ 217 I. Discrete Output Test............................................................................................ 217 J. EFIS Interface Test.............................................................................................. 218 K. Electromagnetic Compatibility Test ..................................................................... 221 L. IRS to FMS to IRS Ground Check....................................................................... 225

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TABLE OF CONTENTS (cont'd) Section

Title

Page

SECTION IV FLIGHT LINE TEST/TROUBLESHOOTING .......................................................................... 301 1. 2. 3. 4.

GENERAL.................................................................................................................... 301 ALERT MESSAGES .................................................................................................... 301 TROUBLESHOOTING PHILOSOPHY ........................................................................ 301 FAULT LOG ................................................................................................................. 302 A. SYSTEM ALERT MESSAGES ............................................................................ 302 B. MAINTENANCE ALERT MESSAGES................................................................. 312 C. MAINTENANCE ADVISORY MESSAGES.......................................................... 314 D. STATUS ADVISORY MESSAGES...................................................................... 321

SECTION V MAINTENANCE PRACTICES ................................................................................................. 401 1. GENERAL.................................................................................................................... 401 SECTION VI SERVICING ............................................................................................................................. 501 1. GENERAL.................................................................................................................... 501 SECTION VII REMOVAL/INSTALLATION .................................................................................................. 601 1. GENERAL.................................................................................................................... 601 2. REMOVAL PROCEDURES ......................................................................................... 601 A. General ................................................................................................................ 601 B. Flight Management System (FMS)...................................................................... 601 3. PRE-INSTALLATION INSPECTION............................................................................ 601 4. INSTALLATION OF UNITS.......................................................................................... 601 5. POST-INSTALLATION INSPECTION ......................................................................... 602 6. POST-INSTALLATION TESTS.................................................................................... 602 SECTION VIII CLEANING/PAINTING.......................................................................................................... 701 1. GENERAL.................................................................................................................... 701 A. Cleaning and Painting of Surfaces ...................................................................... 701 B. Display Glass Cleaning........................................................................................ 701 SECTION IX APPROVED REPAIRS ........................................................................................................... 801 1. GENERAL.................................................................................................................... 801 SECTION X CONFIGURATION SELECTION.............................................................................................. 901 1. GENERAL.................................................................................................................... 901 2. CONFIGURATION CAPABILITIES OF THE CMA-9000: FOUR CONFIGURATIONS901 3. FMS Configuration Selection Procedure ..................................................................... 901 A. FMS Configuration Procedure Using Configuration Diskette .............................. 903 B. Manual FMS Configuration Procedure ................................................................. 904

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TABLE OF CONTENTS (cont'd) Section

Title

Page

SECTION XI DATA LOADER UNIT (DLU) ................................................................................................ 1001 1. GENERAL.................................................................................................................. 1001 2. DATA LOADER DESCRIPTION................................................................................ 1001 A. ARINC 615 Data Loader Unit (DLU).................................................................. 1001 B. Loading a database or FMS configuration with an ARINC 615 DLU ................ 1003 3. RS422 DLU................................................................................................................ 1004 A. Loading a database or FMS configuration with the RS 422 DLU...................... 1004 B. Saving the User database or the FMS configuration into the RS422 DLU ....... 1006 APPENDIX A APPENDIX B APPENDIX C

Ground Functional Test Procedures for CMC Electronics Inc. CMA-9000 S/W 169-614876-0XX ................................................................................. T-A Flight Functional Test Procedures & Report for CMC Electronics Inc. CMA-9000 S/W 169-614876-0XX ................................................................................. T-B Procedures for Obtaining Civil Authorities Approval - IFR/VFR Operations For Follow-on FMS/GPS Equipment Installations CMC Electronics Inc. CMA-9000 S/W 169-614876-0XX ................................................................................. T-C

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LIST OF FIGURES Figure

Title

Page

Figure 1 CMA-9000 Flight Management System variation 100-601951-030 .................................................... 3 Figure 2A Annunciators and Keys of CMA-9000 variation 100-601951-030.................................................... 8 Figure 2B Annunciators and Keys of CMA-9000 variation 100-601951-VAR 001/101/301 ............................. 9 Figure 2C Annunciators and Keys of CMA-9000 variation 100-601951-VAR 002/003/005/102/103/302/30310 Figure 2D Annunciators and Keys of CMA-9000 variation 100-601951-VAR 040 ......................................... 11 Figure 2E Annunciators and Keys of CMA-9000 variation 100-601951-VAR 050 ......................................... 12 Figure 2F Annunciators and Keys (Sheet 1 of 5)............................................................................................. 13 Figure 3 Related Publications .......................................................................................................................... 18 Figure 5 Equipment Specification (Sheet 1 of 3) ............................................................................................. 21 Figure 6 Physical Specification ........................................................................................................................ 24 Figure 7 Environmental Specification (Sheet 1 of 2) ....................................................................................... 25 Figure 8A Single Basic System with Radio Tuning.......................................................................................... 27 Figure 8B Single Basic System without Radio Tuning..................................................................................... 28 Figure 8C Dual System .................................................................................................................................... 29 Figure 8D System Block Diagram Dual System .............................................................................................. 30 Figure 8E Dual FMS installation with radio tuning and suggested pins allocation (courtesy of Pilatus Aircraft Switzerland) ............................................................................................................................................... 31 Figure 9 FMS Viewing Envelope...................................................................................................................... 32 Figure 10 Triple FMS/Triple-LTN-92 IRS Interconnections ............................................................................. 93 Figure 11 FMU to LTN-92 INU Source Select (All Relays Shown Energized) ................................................ 94 Figure 12 Heading Sources for Triple FMS/Triple LTN-92 IRS/Dual Compass Couplers ............................... 95 Figure 101A Typical CMA-9000 Location (for a helicopter)........................................................................... 104 Figure 101B Typical CMA-9000 Location (for an aircraft) ............................................................................. 104 Figure 102A CMA-9000 Outline Drawing....................................................................................................... 105 Figure 102B CMA-9000 J1 Connector........................................................................................................... 106 Figure 104 Interwiring Specifications (Sheet 1 of 5) ...................................................................................... 112 Figure 105 Input Wiring Checks for CMA-9000 hardware variation 100-601951-XXX.................................. 117 Figure 201. Integral Lighting 5V Curve .......................................................................................................... 204 Figure 202. Typical Map Mode Display.......................................................................................................... 220 Figure 203. Typical ARC Mode Display ......................................................................................................... 220 Figure 204 EMC Matrix Chart ........................................................................................................................ 224 Figure 301 System Alert Messages (Sheet 1 of 10) ..................................................................................... 302 Figure 302 Maintenance Alert Messages (Sheet 1 of 2) .............................................................................. 312 Figure 303 Maintenance Advisory Messages (Sheet 1 of 7) ........................................................................ 314 Figure 304 Status Advisory Messages (Sheet 1 of 5) ................................................................................. 321 Figure 305 Testing/Troubleshooting Flow Chart (Sheet 1 of 7)..................................................................... 326 Figure 306 Maintenance Pages (Sheet 1 of 7) .............................................................................................. 333 Figure 307 Maintenance Test 1 ..................................................................................................................... 347 Figure 308 Maintenance Test 2 ..................................................................................................................... 347 Figure 309 Typical Full Rose Map Display (Sheet 1 of 2) ............................................................................. 348 Figure 310 Typical ARC NAV Display............................................................................................................ 349 Figure 311 Typical Plan Mode ....................................................................................................................... 350 Figure 312 Label 271 Maintenance Action FMS Status ................................................................................ 351 Figure 901 FMS Configuration Pages (Sheet 1 of 60)................................................................................... 909 Figure 902 Configuration Selections (Sheet 1 of 18)..................................................................................... 969

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LIST OF TABLES Table

Title

Page

Table 1 ARINC 429 Equipment Supported by the CMA-9000......................................................................... 33

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SECTION I DESCRIPTION AND OPERATION 1.

GENERAL A.

Purpose of Manual The purpose of this manual is to provide installation instructions and flight line maintenance for the CMA-9000. Different hardware variations of the CMA-9000 are available. Figure 1 illustrates CMA9000 hardware variation 030. Figures 2 illustrates the other variations.

B.

Function of Equipment The CMA-9000 is a self-contained cockpit mounted radio and flight management system. It provides the user with a color display of moderate resolution for alphanumeric data and a keyboard for data entry, data editing, and system control. Its display, background lighting and annunciators are compatible with Night Vision Goggles (NVG) for use in a tactical environment. The CMA-9000 contains ARINC 429, RS-422 RS232, and Discrete interfaces for integration with other avionics and communication systems for control and/or monitoring via the display and keyboard. The CMA-9000 can be used with an optional external Radio Interface Board (RIB) (Future Growth) to interface with analogue radios.

C.

Reliability and Maintainability The CMA-9000 exhibits a robust design in the environmental conditions specified in this document. System mean time between failures (MTBF) is 9,499 hours at 30° C ambient temperature in the airborne inhabited cargo (AIC) environment. In the airborne rotary wing (ARW) environment, system MTBF is 6,500 hours. The AMLCD Backlight Module is not considered in the MTBF calculations. It is noted that the CMA-9000 FMS is fitted with a lithium battery that is only used to maintain the real-time clock. Refer to Section VI, Servicing for Lamp and Battery replacement. The CMA-9000 incorporates provisions for Built-In-Test (BIT) of the installed equipment with no additional test equipment. The end-to-end test is capable of detecting faults with a 95% probability. The BIT monitors the integrity of the navigation database at least once every 15 minutes while powered, and announces any corruption of data.

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D.

External Interface Capabilities The CMA-9000 is capable of receiving information from external navigation sensors, including: • • • • • • • • • • •

GPS Global Positioning System EGI Embedded GPS/INS* DME Distance Measuring Equipment NAV VHF Omni-directional Radio range ADF Automatic Direction Finder ADC Air Data Computer DVS Doppler Velocity Sensor* AHRS Attitude Heading Reference System APIRS Aircraft Piloting Inertial Reference System TACAN TACtical Air Navigation system IRS Inertial Reference System

The CMA-9000 accepts true (EGI) or magnetic (AHRS or compass) heading inputs and True Air Speed (TAS), pressure or barometric corrected altitude from an ADC. The CMA-9000 is capable of exchanging information with other external equipment such as XPDR (ATC Transponder), COM and V/UHF (radios), EHSI (Electronic Horizontal Situation Indicator), DMAP (Digital Map), PLS (Personnel Locator System),ACMS (Aircraft Condition Monitoring System), AMU (Audio Management Unit), Electronic Flight Instrument System (EFIS), Flight Data Recorder (REC), Weather Radar (WXR), Emergency Locator Transmitter (ELT) and FC (Fuel Computer). The FMS is configurable to operate with the equipment if installed. The CMA-9000 is capable of transmitting and receiving information to/from external communication and navigation radios, including HF, VHF, UHF, VUHF, NAV, TACAN and ADF equipment when used with the optional external RIB unit (Future Growth). The CMA-9000 is also capable of receiving and transmitting information from other external equipment such as Data Loader Unit (DLU).

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0611007

Figure 1 CMA-9000 Flight Management System variation 100-601951-030

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Waypoint and computed navigation and guidance information is generated in both geographic and track-related reference frames for display to the pilot and for output to external aircraft display systems, including an Electronic Flight Instrument System (EFIS), EHSI (Electronic Horizontal Situation Indicator), or Digital Map Display System (DMAP). The CMA-9000 outputs on the ARINC 429 interface suitably formatted lateral steering signals (roll command or heading error) for use by the Automatic Flight Control System (AFCS) for aircraft flight guidance in the horizontal plane. In addition the CMA-9000 is capable of generating output to drive an Aircraft Condition Monitoring System (ACMS) or a Flight Data Recorder (REC) for in flight recording of FMS information. The FMS has the built-in capability to hold the following databases: navigation database, custom database, user database, radios tuning libraries, Fly Away and OEI cruise function parameters and a phone book. The above databases, the dimming curves (for external brightness dimming control), the unit configuration file and the magnetic variation model are updated as a CMA-9000 maintenance task via an ARINC 615 or Targa PDP/3-DOS DLU based on configuration. The unit software upgrades are updated as a CMA-9000 maintenance task via an ARINC 615 DLU or an RS-422 Xmodem loader. The pilot or maintenance crew may initiate the upload and download of the user database from the CMA-9000 pages. The databases that are handled by the FMS are configured to match the functions configured into the CMA-9000. E.

Description of the Primary Modes of Navigation The CMA-9000 can be configured to one of two distinct modes: the civil mode and the military mode. Integrity monitoring and resulting consequences as required by TSO-C115b, AC20-130A, and DO-236A are the main differences between the two options. When in the military navigation configuration option, the sensor navigation solutions will be assumed to have integrity unless proven otherwise. The navigation modes selection logic is geared to accuracy performance and the FMS will not necessarily force mode transitions based on integrity. Some integrity monitoring is nevertheless performed to raise alarms. The pilot is expected to consider navigation mode alarms and force navigation sensor selections if judged necessary. When in the civil navigation configuration option, the sensor navigation solutions will be assumed not to have integrity unless proven otherwise. The navigation modes selection logic is geared to safety (integrity) and the FMS may force mode transitions to remain in a navigation mode with integrity, thereby also preventing unnecessary alarms from being raised. This configuration option is intended to fully comply with TSO-C115, AC20-130A, and the integrity requirements of DO-236A. The CMA-9000 has several navigation modes. In sequence of priority, they are: Hybrid INS/GPS (military), GPS (civil), DME (civil), VOR/DME (civil) /TCN (military), Hybrid INS/DVS (military), Inertial (military), DVS (military), Kalman (civil) and Dead Reckoning (DR) (civil and military modes). While in operation the CMA-9000 continuously computes the independent sensor positions. Each sensor output is monitored and compared against validity criteria. Any sensor which is declared as failed or has degraded sufficiently will automatically be deselected and will be restored to inventory only when restored to its criteria levels.

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(1)

Global Positioning System (GPS) (Option) GPS is the highest priority navigation mode of the FMS, and will be used when sufficient satellite coverage exists in the Phase Of Flight (POF) for which it is approved. The sensor continuously monitors the integrity of the satellites by using a Receiver Autonomous Integrity Monitor (RAIM). The GPS will remain selected for navigation when it’s RAIM function computes a Horizontal Integrity Limit (HIL) value that is less than the GPS Integrity alert limit, which is a function of the current POF and Required Navigation Performance (RNP). When the HIL exceeds the alert limit, or if the GPS loses it’s RAIM function then the first secondary mode is selected.

(2)

Hybrid INS/GPS (EGI) When an EGI is configured and the hybrid solution is available and valid, it will have priority over a non-certified GPS. When the hybrid solution becomes invalid but the GPS solution remains valid, the GPS solution will be used. When both the hybrid and GPS solutions become invalid but the INS solution is valid, it will not be used. The INS solution will only be used if any radio (DME/VOR) solution fails.

(3)

DME/DME DME is the secondary navigation mode and will be used in areas with sufficient DME coverage and for which the appropriate navigation database is installed. In this mode the FMS automatically tunes the on-board DME equipment to acquire distance data from up to six DME ground stations to determine aircraft position. The position is updated once every 10 seconds from measured sensor data. In addition a velocity rate and heading based update is computed at least once every second. For DME sensors, the raw information received is compared with the predicted position and signals rejected if a discrepancy between the predicted position and DME slant range information exceeds the applicable tolerances.

(4)

VOR/DME or VOR/DME/TACAN (if TACAN installed) VOR/DME or VOR/DME/TACAN navigation is a reversionary navigation mode which is used in areas with sparse DME coverage where there are two or less VOR/DME/TACAN stations. This mode combines co-located DME distances and VOR bearing to determine position. The position is updated once every 10 seconds. For VOR, DME or TACAN sensors, the raw information received is compared with the predicted position. Signals will be rejected if the discrepancy between the predicted position and DME/VOR or TACAN information exceeds the applicable tolerances.

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

(5)

Hybrid INS/DVS When a SAGEM SIGMA50H EGI is configured and the hybrid INS/DVS position and velocities provided by the EGI are available and valid, a hybrid INS/DVS navigation becomes available. The FMS is computing an INS/DVS Navigation solution if all of the following are true: a) The FMS receives valid INS status, INS/DVS position, velocity, and Quality Factor data (e.g. navigation labels are received with SSM NORMAL and values are within the required range) from the EGI sensor. b) The INS status indicates Navigation mode. c) The INS is not declared Fail.

(6)

Inertial An Inertial navigation becomes available when an EGI is configured. In the INS navigation mode, the FMS is using the raw INS position and velocities provided by the EGI for navigation.

(7)

Kalman Filter (Optional) The CMA-9000 uses the Attitude and Heading Reference System (AHRS), and the GPS to provide a Kalman Filter navigation mode. In this mode, the primary navigation sensor is a GPS receiver. The AHRS is made into a dead-reckoning navigation system by emulating an INS navigator with a Kalman filter performing closed-loop GPS correction and alignment. Each sensor has specific performance characteristics and behavior which when combined provide for continuous navigation. The GPS receiver has bounded but noisy positioning and velocity errors and the GPS navigation solution is subject to the availability of the GPS satellite constellation. The AHRS exhibits steady error growth which when converted to a dead-reckoning system will yield steady error growth in the position and velocity navigation solution. However, the AHRS-based inertial navigation solution is always available. The Kalman Filter provides the means to combine both navigation modes so that accurate navigation can continue for some time after the GPS is lost. The GPS and the AHRS are integrated via a Kalman Filter to continuously correct and align the AHRS-based inertial navigation solution, as if the inertial navigation solution were static at a known position point. The inertial navigation solution based on the AHRS measurements offer short-term navigation when the GPS or other approved navigation sensor cannot provide navigation data. The inertial navigator uses measurements from the AHRS and corrections from the Kalman Filter when GPS is available. Once GPS is lost, the AHRS inertial navigation solution is provided until its error bounds have been exceeded. The CMA-9000 calculates these drift errors and makes the navigation solution unavailable when this error exceeds a limit. When exceeding the error the number will be 300 m 95% of the time which is equivalent to 400 m 99% of the time. The Kalman navigation mode typically lasts about 3-4 minutes. The GPS LOST discrete output is activated as soon as GPS data is not available and the Master Caution discrete output is activated when the 300 meter limit is exceeded.

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(8)

DVS The navigation mode based solely on Doppler is the less accurate FMS navigation mode based on sensor. It has priority over the Dead Reckoning mode only. When a RDN85 or ANV353 DVS is configured, the CMA-9000 can compute a navigation solution if all of the following criteria is verified: a) The FMS receives valid Doppler velocities and mode indication (e.g. labels are received with SSM NORMAL and values are within the required range) from the DVS; b) The Doppler mode is LAND, SEA or CALM SEA for the RDN85 or in OPER for the ANV353 DVS; c) The FMS receives valid heading data (e.g. labels are received with SSM NORMAL and values are within the required range) from an external sensor (refer to Section Heading Sources for possible heading inputs and selection logic). The navigation solution computed by the CMA-9000 is based on the following data: • Doppler velocities (longitudinal, lateral and vertical) • FMS System Selected Attitude (pitch and roll) • FMS System Selected Heading

(9)

Dead Reckoning (DR) When the external sensor data inputs become insufficient to maintain the normal navigation modes, the FMS reverts to the dead reckoning mode of navigation. The FMS must now rely on the last known aircraft position, combined with heading and TAS inputs, and the last valid computed wind, for its aircraft position calculation. Prolonged DR operation will result in decreased position accuracy. Alerts are provided when the estimated position accuracy exceeds the requirements for each phase of flight. The FMS will automatically recover its normal modes of operation and position accuracy upon restoration of the external sensor inputs.

F.

Annunciators and Keys The FMS contains a full alphanumeric keyboard with special function keys. There are six line select keys (LSK) on each side of the display area. The functions of the LSKs are specific to each screen page. Figure 2A thru 2D describes the annunciators and FMS keys.

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

1

3

2

FAIL

5

4

MSG

POS

6

NPA

TX1

7

8

9

TX2

CMC ELECTRONICS

10

10

18 16 11

32

INIT REF

DEP ARR

RTE

RADIO TPDR

LEGS

PROG

EXEC

MARK HOLD

MSG

BRT

12

31

1

2

3

30

4

5

6

A

B

C

D

E

F

G

13

7

8

9

H

I

J

K

L

M

N

14

.

0

+/ -

O

P

Q

R

S

T

U

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/

SP

V

W

X

Y

Z

CLR

29 28 27

26

25

24

23 22

21

20

33

19

15

0611006

Figure 2A Annunciators and Keys of CMA-9000 variation 100-601951-030

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FAIL

MSG

POS

NPA

GSM

SMS

CMC ELECTRONICS

INIT REF

RTE

DEP ARR

LEGS

PROG

EXEC

RADIO

ANS

SQK IDT

HOLD

FIX

BRT

1

2

3

4

5

6

A

B

C

D

E

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G

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0

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CLR 0610006

Figure 2B Annunciators and Keys of CMA-9000 variation 100-601951-VAR 001/101/301

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FAIL

MSG

POS

NPA

GSM

SMS

CMC ELECTRONICS

INIT REF

RTE

RADIO FUEL

DEP ARR

LEGS

MARK HOLD

PROG

EXEC

FIX

BRT

1

2

3

4

5

6

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CLR 0610007

Figure 2C Annunciators and Keys of CMA-9000 variation 100-601951-VAR 002/003/005/102/103/302/303

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FAIL

MSG

RNP

IND

ATC

CMC ELECTRONICS

INIT REF

RTE

DEP ARR

LEGS

PROG

EXEC

RADIO FMC

VNAV

HOLD

FIX

BRT

1

2

3

4

5

6

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B

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D

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CLR 0611003

Figure 2D Annunciators and Keys of CMA-9000 variation 100-601951-VAR 040

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FAIL

MSG

RNP

IND

ATC

CMC ELECTRONICS

INIT REF

RTE

DEP ARR

LEGS

PROG

EXEC

RADIO TACT

VNAV

HOLD

ATC

BRT

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CLR 0610005

Figure 2E Annunciators and Keys of CMA-9000 variation 100-601951-VAR 050

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The item numbers mentioned in the first column are used for referencing to annunciators and keys of Figures 2A, 2B, 2C, 2D and 2E. ITEM

DESCRIPTION

FUNCTION

1 2

LCD Display Screen FAIL Annunciator (NVIS AMBER)

Provides 14 lines of 24 characters. Illuminates at maximum brightness with the display blank upon detection of a FMS failure.

3

MSG Annunciator (NVIS AMBER)

4

POS Annunciator (NVIS AMBER) OFST Annunciator (NVIS GREEN) NPA Annunciator (NVIS GREEN) TX1 Annunciator - VAR 030 only (NVIS GREEN) GSM Annunciator (NVIS GREEN) TX2 Annunciator - VAR 030 only (NVIS GREEN) SMS Annunciator (NVIS GREEN)

Illuminates when a System Alert message appears in the scratchpad field of the FMS display. The annunciator stays illuminated as long as the condition causing the System Alert message remains, or until the message is acknowledged by pressing the CLR key, or until the System Alert message is viewed on the MESSAGE RECALL page accessed via the INIT REF key or the MSG key. New System Alert messages also cause illumination of the remote MSG annunciator on the instrument panel in the pilot's field of view (if installed). Any acknowledged alert message is available for recall on the MESSAGE RECALL page as long as the condition causing it remains. Illuminates when system is in dead reckoning navigation mode. Illuminates during offset (parallel track) navigation.

5 6 7

8

9

LDR Sensor

Illuminates when Non-Precision Approach is initiated. Illuminates when the configured V/UHF unit #1 emits RF power (radio is transmitting). Illuminates for incoming call on the GSM network. Illuminates when the configured V/UHF unit #2 emits RF power (radio is transmitting). Illuminates when the Short Message Service text message has been received. Detects ambient light conditions in order to perform autobrightness control of display screen and annunciators. The brightness of the screen and annunciators of the FMS can also be controlled by an external unit (e.g. CLDU). This item is configurable. The LDR sensor is not functional when the brightness is controlled by the 0-5 VDC external source.

Figure 2F Annunciators and Keys (Sheet 1 of 5)

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ITEM

DESCRIPTION

FUNCTION

10

Line Select Keys (LSK)

There are twelve LSKs on the FMS panel, six on either side of the display. LSKs are identified by their location from top to bottom of the screen and as left or right, e.g. LSK 1L, LSK 6R. Entry of data from the scratchpad into the selected field is accomplished by pressing the adjacent LSK which moves the data from the scratchpad to the selected field. Data entries are permitted only on lines adjacent to the LSKs. Data can also be duplicated from a data field into the scratchpad by pressing the LSK adjacent to the desired data line. Inward pointing arrow symbols indicate that an option may be selected in that field. Outward point arrow symbols indicate that a new page will be displayed when the adjacent LSK is pressed, or that an action will be initiated.

11

EXEC Annunciator (NVIS GREEN)

Illuminates when a modification to the active route is in process but has not been executed. When the EXEC annunciator is lit, the impact of the data displayed on the LEGS page may be reviewed on other FMS pages, except the PROGRESS pages, and may be made active for guidance of the aircraft by pressing the EXEC key.

12

EXEC Key

Is used to accept modifications to the active route (flight plan) performed on the LEGS, RTE (route) or HOLD pages. Modifications to the active flight plan will turn on the EXEC annunciator and display in reverse video a MOD status in the page title line and also an ERASE prompt. When data entries have been made active (by pressing the EXEC key), the title MOD status will revert to ACT (active). Until the MOD status is made active, the FMS will continue to use the previous active data for navigation and guidance even though it is not displayed. Any modification can be erased (cancelled) prior to EXECution by pressing the ERASE LSK.

13

BRT Key

When the internal brightness mode of the FMS is configured, this key controls the brightness of the screen and annunciators. After an elapsed time of 5 seconds, the first press of this key will always increase brightness; each depression of the BRT key alternately brightens or dims the display. The brightness of the screen and annunciators of the FMS can also be controlled by an external unit (e.g. CLDU). This item is configurable. It is not functional when the brightness is controlled by the 0-5 VDC external source. Figure 2F Annunciators and Keys (Sheet 2 of 5)

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ITEM 14

DESCRIPTION MSG Key - VAR 030 only

FUNCTION Accesses the MESSAGE RECALL page for display of System Alert messages. NOTE: This key can also be configured to act as a NEXT key to access successive MESSAGE RECALL pages.

FIX Key (all other variations)

15

CLR Key

16

PROG Key

Provides access to FIX page for all fix and abeam waypoint functions. NOTE: The MSG key provides access to the MSG RECALL page. This page provides flight crew awareness of any FMS ALERTS by displaying the active alert scratchpad messages. The MSG RECALL page can be accessed though other functions keys. Even though, this particular key can be software or hardware (e.g. different variations) configured to another purpose, CMC recommends to retain the MSG key as part of one of the front panel rapid page access keys. Clears one character to the left during scratchpad data entry. When pressed and held for more than 1 second, it clears the entire scratchpad. The CLR key also clears alert and advisory messages from the scratchpad. The DELETE message can be cleared by a single press of the CLR key. Pressing the CLR key with the scratchpad empty will display DELETE in the scratchpad. The delete process is completed by pressing the LSK next to the data to be removed. Accesses the PROGRESS pages for display of current flight and navigation status information. NOTE: This key can also be configured to act as a NEXT key to access successive PROGRESS pages.

17

18

HOLD Key

LEGS Key

Provides access to the HOLD page for the definition of HOLDING procedures at a designated waypoint or present position. NOTE: This key can also be configured to act as a NEXT key to access successive HOLD pages. Displays LEGS pages containing detailed data concerning each leg of the flight plan. NOTE: This key can also be configured to act as a NEXT key to access successive LEGS pages. Figure 2F Annunciators and Keys (Sheet 3 of 5)

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ITEM 19

DESCRIPTION DEP ARR Key

FUNCTION Provides access to the DEP/ARR page for the definition of departure and arrival procedures and runways. NOTE: This key can also be configured to act as a NEXT key to access successive DEPARTURES or ARRIVALS pages.

20

TPDR Key - VAR 030 only

Provides access to the ATC radio control page. This page allows the pilot to control the operation of the ATC Transponder.

ANS - VAR 001/101/301 only

SMS annunciator active: displays the newest message of the short message service on its dedicated page. GSM annunciator active: accepts the phone call when pressed the first time, hangs up when pressed a second time. Priority is given to GSM.

FUEL - VAR 002/003/005/102/103/302/303 only

Provides a quick access function to Fuel estimation and status pages. NOTE: This key can also be configured to act as a NEXT key to access successive pages, when applicable.

21

RTE Key

Provides access to the ROUTE page for the definition of routes entered into the FMS. NOTE: This key can also be configured to act as a NEXT key to access successive ROUTE pages.

22

RADIO Key

Provides access to RADIO tuning functions. NOTE: This key can also be configured to act as a NEXT key to access successive RADIO pages.

23

INIT REF Key

Provides access to pages of data required for initialization and various categories of reference data. NOTE: This key can also be configured to act as a NEXT key to access successive INIT REF pages.

24 25

SP Key Plus-Minus [+/-] Key

26

Slash (/) Key

Provides a "space" character for separation of words. Pressing the [+/-] will first display the "-" (minus) symbol. Pressing it a second time will display the "+" (plus) symbol. Separates data fields in scratchpad data entry.

27

Decimal (.) Key

Provides decimal point for numeric data entries. Figure 2F Annunciators and Keys (Sheet 4 of 5)

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

ITEM

DESCRIPTION

FUNCTION

28

Alpha-Numeric Keyboard

Allows entry of alpha-numeric data.

29

NEXT Key

When multiple-page displays are indicated in the page title line, pressing the NEXT key advances the display to the next higher page number or to page 1 if presently on the last page.

30

PREV Key

When multiple-page displays are indicated in the page title line, pressing the PREV key backs up the display to the previous page or to the last page if presently on page 1.

31

MENU Key

Displays the system menu for access to other ARINC 739 subsystems connected to the CMA-9000. (ARINC 739 MCDU is a Future Growth capability of the CMA-9000)

32

MENU Annunciator (NVIS GREEN)

Illuminates when a remote subsystem is connected (e.g. ARINC 739 MCDU) to the CMA-9000 and requires attention (Future Growth)

33

SQK_IDT - VAR 001/101/301 only

Provides a quick access function to Squawk ident of the active ATC transponder.

MARK (all other variations)

Provides access to the MARK-ONTOP page and stores the present position on this page and on the PREDEF WPT page.

Figure 2F Annunciators and Keys (Sheet 5 of 5) NOTE: Variations in above figure are in reference to the 100-601951-0xx hardware part number. NOTE: Items 16 to 19 and 20 to 23 already stated in description may also be configured to act as a NEXT key when displaying an applicable page. e.g.: When this option is selected and a page like the LEGS 1/X page is displayed, pressing LEGS again will provide access to the second LEGS page (e.g. LEGS 2/X page). NOTE: Items 14, 17, 20, 22 and 33 are software configurable: •

For hardware variation 030, the five push-button keys located on the second row of function keys are labeled: RADIO, TPDR, MARK, HOLD and MSG as illustrated in Figure 2A.



For hardware variation 001/101/301, the five push-button keys located on the second row of function keys are labeled: RADIO, ANS, SQK/IDT, HOLD and MSG as illustrated in Figure 2B.



For hardware variation 002/003/005/102/103/302/303, the five push-button keys located on the second row of function keys are labeled: RADIO, TPDR, MARK, HOLD and MSG as illustrated in Figure 2C.

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

G.

Related Publications The related publications are listed in Figure 3. PUBLICATION NAME

PUBLICATION NUMBER

Operators Manual for Flight Management System CMA-9000

9000-GEN-0101 with appropriate software 930-600052-000

Interface Specification for Flight Management System CMA-9000

408-A14876-XXX

Installation/Flight Line Manual for GNSSU CMA-3012

3012-GEN-0801A 924-990400-100

Component Maintenance Manual for GNSSU CMA-3012

3012-GEN-1202 924-990445-000

Installation/Flight Line Manual for GNSSU CMA-3024

3024-GEN-0801 929-600043-000

Targa PDP/3-DOS protocol

32001328 - Revision A Figure 3 Related Publications

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

H.

Equipment Identification The equipment identification is listed in Figure 4.

EQUIPMENT NOMENCLATURE CMA-9000 Flight Management System (FMS)

CMA-9000 Flight Management System (FMS)

CMA-9000 Flight Management System (FMS)

CMA-9000 Flight Management System (FMS)

CMA-9000 Flight Management System (FMS)

CMA-9000 Flight Management System (FMS)

CMA-9000 Flight Management System (FMS)

CMA-9000 Flight Management System (FMS)

NAME FMS: Note: variation supplied FMS: Note: variation supplied FMS: Note: variation supplied FMS: Note: variation supplied FMS: Note: variation supplied FMS: Note: variation supplied FMS: Note: variation supplied FMS: Note: variation supplied

HW PART NUMBER 100-601951030

SW PART NUMBER Operational= 169-614876-001 Boot = 169615065-X01

PANEL TYPE

REMARKS

MIL-L-85762A Type I Class B NVIS green B

RADIO, TPDR, MARK, HOLD, MSG keys RADIO, ANS, SQK/IDT, HOLD, FIX keys RADIO, ANS, SQK/IDT, HOLD, FIX keys RADIO, FUEL, MARK, HOLD, FIX keys RADIO, FUEL, MARK, HOLD, FIX keys RADIO, FUEL, MARK, HOLD, FIX keys RADIO, FUEL, MARK, HOLD, FIX keys RADIO, ANS, SQK/IDT, HOLD, FIX keys

100-601951001

Operational= 169-614876-001 Boot = 169615065-X01

MIL-L-85762A Type I Class B NVIS green B

100-601951101/301

Operational= 169-614876-001 Boot = 169615065-X01

MIL-L-85762A Type I Class B NVIS green B

100-601951002

Operational= 169-614876-001 Boot = 169615065-X01

MIL-L-85762A Type I Class B NVIS Saturn Yellow

100-601951102/302

Operational= 169-614876-001 Boot = 169615065-X01

MIL-L-85762A Type I Class B NVIS Saturn Yellow

100-601951003/005

Operational= 169-614876-001 Boot = 169615065-X01

MIL-L-85762A Type I Class B NVIS green B

100-601951103/303

Operational= 169-614876-001 Boot = 169615065-X01

MIL-L-85762A Type I Class B NVIS green B

100-601951301

Operational= 169-614876-001 Boot = 169615065-X01

Non NVIS

INTEGRAL LIGHTING 5 VDC sense see note

5 VDC sense see note

28 VDC power see note

5 VDC sense see note

28 VDC power see note

5 VDC sense see note

28 VDC power see note

28 VDC power see note

Figure 4 Equipment Identification (Sheet 1 of 2)

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

EQUIPMENT NOMENCLATURE CMA-9000 Flight Management System (FMS)

CMA-9000 Flight Management System (FMS)

CMA-3024 Global Navigator System Sensor Unit (GNSSU MKII) CMA-3012 Global Navigator System Sensor Unit (GNSSU MKI) Trimble TA-12

Honeywell Global Navigator System Sensor Unit (GNSSU MKII)

NAME FMS: Note: variation supplied FMS: Note: variation supplied GPS Note: not supplied GPS Note: not supplied GPS Note: not supplied GPS Note: not supplied

Honeywell Global Navigator System Sensor Unit (GNSSU MKI)

GPS

CMA-3112 GPS Sensor Module (embedded in the CMA-900 FMS)

GPS/ FMS:

Note: not supplied

Not supplied

HW PART NUMBER 100-601951302

SW PART NUMBER Operational= 169-614876-001 Boot = 169615065-X01

PANEL TYPE

100-601951303

Operational= 169-614876-001 Boot = 169615065-X01

100-6019440XX/1XX

Operational = 169-614788-001

100-601600201,302,405, 504,702

Operational = 169-613751007,207,115,402, 305

ARINC 743A

-

24835-10

Operational = TA12-CX-0129

TA_12

-

HG2021GD0 3 (same as CMC 100601944-0XX) HG2021GD0 2 (same as CMC 100601600-3XX) P/N 245-601 650-1XX or – 2XX

Operational = 169-614788-001

ARINC 743

-

Operational = 169-613751-207

ARINC 743

-

Operational = 169-613850-5XX

ARINC 743

-

Non NVIS

Non NVIS

REMARKS RADIO, FUEL, MARK, HOLD, FIX keys RADIO, FUEL, MARK, HOLD, FIX keys ARINC 743A

INTEGRAL LIGHTING 28 VDC power see note

28 VDC power see note

-

Figure 4 Equipment Identification (Sheet 2 of 2) NOTE: "Sense" means that the energy needed to illuminate the keyboard is retrieved from the FMS aircraft power 28VDC on pins J1-4/5/6/7. "Power" means that the energy needed to illuminate the keyboard is retrieved from the Integral Lighting pins on pins J1-8/9/1.

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

2.

EQUIPMENT SPECIFICATIONS Equipment specification of the CMA-9000 are listed in Figure 5. The interconnection of an integrated unit is illustrated in Figure 6 and is included as an aid to better understanding the relationship of the FMS to other aircraft systems. CHARACTERISTIC

APPLICABLE DOCUMENTS/ AEEC ARINC 424

SPECIFICATION

Navigation System Database

ARINC 429

Mark 33 Digital Information Transfer System (DITS)

ARINC 545

Subsonic Air Data Computer System

ARINC 561

Air Transport Inertial Navigation Systems (INS)

ARINC 565

Mark 3 Subsonic Air Data System

ARINC 610A

Guidance for Use of Avionics Equipment and Software in Simulators

ARINC 615

Airborne Computer High Speed Data Loader

ARINC 702A

Advanced Flight Management Computer System (FMS)

ARINC 704

Inertial Reference Systems

ARINC 716

Airborne VHF Communication Transceiver

ARINC 739

Multi-Purpose Control and Display Unit

ARINC 743A

Airborne Global Positioning System Receiver

ARINC 601

Control/Display Interfaces

FEDERAL AVIATION ADMINISTRATION (FAA) TSO-C113 TSO-C115b (See NOTE 1)

Airborne Multipurpose Electronic Displays; FAA Standard Orders Area Navigation Equipment using Multi-Sensor Inputs NOTE 1: TSO-C115b (a)(1), with respect to RTCA DO-187 para 2.3, Vertical Navigation is not implemented. TSO-C115b (a)(2)(xii), Standalone VOR/DME approaches are not implemented.

Figure 5 Equipment Specification (Sheet 1 of 3)

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

CHARACTERISTIC

SPECIFICATION

TSO-C129a (See NOTE 2)

TSO-C115b AC 20-130A AC 20-138

AC 90-94

Airborne Supplemental Navigation Using Global Positioning System (GPS) NOTE 2: TSO-C129a (a)(3)(xix), Vertical Navigation (VNAV) is not implemented. Area Navigation Equipment using Multi-Sensor Inputs Airworthiness Approval of Navigation or Flight Management Systems integrating Multiple Navigation Sensors Airworthiness Approval of Global Positioning System (GPS) Navigation Equipment for use as a VFR and IFR Supplemental Navigation System Guidelines for Using Global Positioning System Equipment for IFR En Route and Terminal Operations and for Non-Precision Instrument Approaches in the U.S. National Airspace System

RTCA/EUROCAE DO-160E

Environmental Conditions and Test Procedures for Airborne Equipment

DO-178B

Software Considerations in Airborne Systems and Equipment Certification

DO-187A

Minimum Operational Performance Standards for Airborne Area Navigation Equipment Using Multi-Sensor Inputs Standards for Aeronautical Information Minimum Operational Performance Standards for Airborne Supplemental Navigation Equipment Using Global Poaitioning System (GPS)

DO-201A DO-208

DO-212

Minimum Operational Performance Standards for Airborne Automatic Dependent Surveillance (ADS) Equipment

DO-217

MASP, DGNSS Instrument Approach System: SCAT-I

DO-236B/ED-75

Minimum Aviation System Performance Specification Required Navigation Performance for Area Navigation Minimum Operational Performance Standards for Required Navigation Performance for Area Navigation

DO-283A ED-79

Certification Considerations for Highly-Integrated or Complex Aircraft Systems Figure 5 Equipment Specification (Sheet 2 of 3)

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

CHARACTERISTIC

SPECIFICATION

SAE AMS2521A

Reflection-Reducing Coatings for Instrument Glasses

ARP 1068B

Flight Deck and Instrumentation, Display Criteria and Associated Controls for Transport Aircraft Design Objectives for Liquid Crystal Displays for Part 25 (Transport) Aircraft Certification Considerations for Highly-Integrated or Complex Aircraft Systems

ARP 4256 ARP-4754/ED-79 AS8034

Minimum Performance Standard for Airborne Multipurpose Electronic Displays

JAA (Joint Aeronautical Authority) Leaflet No. 2

AMJ-20X2 - Advisory Material for the Airworthiness Approval of Navigation Systems for Use in European Airspace Designated for Basic RNAV Operations, 1 July 1996 Interim Guidance on GPS as a Supplementary Navigation System, 1 July 1996

Leaflet No. 3 INT/POL/27/29/1

Protection from the effects of HIRF, Issue 1, 01-10-96

TGL-10 (P-RNAV)

Airworthiness and operational approval operations in designated european airspace

for

Precision

RNAV

MILITARY SPECIFICATION MS25212C (ASG)

Control Panel Console Type, Aircraft Equipment, Basic Dimensions

MILITARY STANDARD MIL-C-14806A

Coating, Reflection Reducing, for Instrument Cover Glasses and Lighting Wedges

MIL-STD-810C

Environmental Test Methods and Engineering Guidelines

MIL-M-13231C MIL-C-14806A MIL-L-85762A

Markings Anti-Reflection Coating Lighting, Aircraft, Interior, Night Vision Imaging System (NVIS) Compatible

CMC 408-A14876-XXX

Interface specification for the CMA-9000 FMS

ECD SP L330 M0901 E01

EC135 NVG Cockpit, Issue C, 2nd Draft, Date Figure 5 Equipment Specification (Sheet 3 of 3)

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

PHYSICAL PHYSICAL SPECIFICATION Size

Weight

SPECIFICATION 147.57 mm (5.81 in) depth, 146.05 mm (5.75 in) wide, 171.45 mm (6.75 in) high 3.86 kg (8.5 lb) maximum

ELECTRICAL SPECIFICATIONS POWER REQUIREMENTS Power Dissipation

Power Interrupt and BIT Timer

+28 Vdc, 45.0W typical at ambient, 75.0W typical during cold temperature startup Integral lighting, 12.0W maximum at 5.0 Vdc (included in power specified in the sentence above) NOTE: CMC recommends a 5 Amp circuit breaker for the +28 Vdc power supply source. DO-160E, Section 16.0 Cat. A 200msec power interrupt No interrupt < 0.200 seconds Warm start 0.200 < t < 7 or 0.200 < t < 90 seconds (depending on the configuration.) Cold start t > 7 seconds or t > 90 seconds (depending on the configuration.) BIT duration 10.0 seconds maximum (Cold start only) NOTE: The power interruption duration, when the aircraft is on the ground, is software configurable to either 7 or 90 seconds. Figure 6 Physical Specification

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

ENVIRONMENTAL ENVIRONMENTAL SPECIFICATIONS Temperature

SPECIFICATION In accordance with Radio Technical Commission for Aeronautics (RTCA) Document No. DO-160E. However, only major characteristics are listed. DO-160E Section 4.5 Cat. A4B4 Non-operating high temperature 85°C (185°F) Non-operating low temperature -55°C (-67°F) Operating high temperature (see Note below) see note below Operating low temperature -40°C(-40°F) Forced cooling air required None

Decompression

NOTE: - At +55 °C, fully operational (tested for 2 hours). - At +70°C, fully operational for 30 minutes. - At +70°C, fully operational for 2 hours if display is initially set at 80 fL. (Display may dim. This specification is made in order to protect the lamp at high temperature. DO-160E Section 4.6 Cat. A4B4 2h at 40,000 ft. 45,000 ft. in 15 sec.

Overpressure

DO-160E Section 4.6.2 At –15,000 ft, 10 minutes, off

Temperature Variation

DO-160E Section 5.0 Cat. B

Humidity

DO-160E Section 6.0 Cat. A

Shock

Explosion proofness Waterproofness

DO-160E Section 7.0 Cat. B: DO-160E Section 7.2 operational shock DO-160E Section 7.3.1 impulse test DO-160E Section 7.3.2 sustained test DO-160E Section 8.0 Cat. H(R), S (M, B, B3) fixed wing DO-160E Section 8.0 Cat. R(G) rotor configuration (not applicable to VAR 030) DO-160E Section 9.0 Cat. X. No test required. DO-160E Section 10.0 Cat. W

Fluids Susceptibility

DO-160E Section 11.0 Cat. X. No test required.

Sand and Dust

DO-160E Section 12.0 Cat. D

Fungus Resistance

DO-160E Section 13.0 Cat. F

Salt Spray

DO-160E Section 14.0 Cat. X No test required.

Altitude

Vibration

Figure 7 Environmental Specification (Sheet 1 of 2)

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

ENVIRONMENTAL

SPECIFICATION

ELECTROMAGNETIC INTERFERENCE (cont’d) Magnetic Effect

DO-160E Section 15.0 Cat. Z

Power Input

DO-160E Section 16.0 Cat. A Momentary Power Interrupt (200 ms)

Voltage Spike conducted Audio Frequency conducted susceptibility

DO-160E Section 17.0 Cat. A DO-160E Section 18.0 Cat. R

Induced Signal susceptibility

DO-160E Section 19.0 Cat. ZC

RF Susceptibility

DO-160E Section 20.0 Cat. WW and RR

Emission of Radio Frequency Energy

DO-160E Section 21.0 Cat. M

Lighting Induced transient susceptibility

DO-160E Section 22.0 Cat. A3E3X The bonding resistance of the CMA-9000 is less than 2.5 mOhm.

Lightning Direct Effects Test

DO-160E Section 23.0 Cat. X.

Icing

DO-160E Section 24.0 Cat X.

Electrostatic Discharge (ESD)

DO-160E Section 25.0 Cat. A

Fire, Flammability

DO-160E Section 26.0 Cat. X.

Bench Handling

MIL-STD-810E, Method 516.4. Drop of 4 inches and at 45 degrees edge

Solar radiation

MIL-STD-810E, Procedure II Method 505.3

Figure 7 Environmental Specification (Sheet 2 of 2)

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

FLIGHT INSTRUMENTS COPILOT'S EADI

HSI/VSI MODE

PILOT'S EADI

COPILOT'S EFIS

HSI/VSI MODE

PILOT'S EFIS

APIRS

DISCRETE OUTPUTS (ANNUNCIATORS) GPS LOST XPDR1 STBY/ON XPDR2 STBY/ON MASTER CAUTION

DISCRETE INPUTS (CONTROLS) NIGHT/DAY NVG LAMP TEST ON/OFF TOGA LNAV ROLL STEEERING NAV1/XPDR1 CP ACTIVE (GROWTH)

CONCENTRATOR

7

4

RADIO NAVIGATION 2 ADF-2

DKG-3 MAP

ELT

PILOT'S FMS

DME

DKG-4 MAP

GPS TIME MARK

2

AUDIO

MISSION SYSTEM

AUDIO

RS-422

MOBILE COMM

VHF-AM 1

VHF-AM 2

ATC 1

ATC 2

NAV-2

GPS

NAV-1

ANTENNA

NAV/GLS

400.00 999.99 IDENT V O L (')

NAV HLD

NAV/GLS X F SBAS E DME R HLD M E M

TUNE

GLS OFF TST NAV CMC ELECTRONICS

NAV1/VHF AM1 CP ACTIVE (TO CDU)

NAV1/VHF AM1 CP ACTIVE (TO CDU)

COMMUNICATIONS SYSTEMS

XPDR2 STBY/ON FROM CDU

400.00 999.99 IDENT V O L (')

NAV HLD

X F SBAS E DME R HLD M E M TUNE

GLS OFF TST NAV CMC ELECTRONICS

NAVIGATION SYSTEM 0605025

Figure 8A Single Basic System with Radio Tuning

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

FLIGHT INSTRUMENTS (BASIC SYSTEM) COPILOT'S ADI TO FMS (A429 HS) (BASIC #1)

PILOT'S ADI

2 FUEL FLOW METER (ANALOG)

VMS

TO FMS (ARINC 429 HS) (FUEL FLOW)

ATT/HDG

TO FMS (A429 HS) (BASIC #2)

A429 LS

VOR/ILS VIR 432

AUDIO

A429 LS

VOR/ILS VIR 432

AUDIO

DME 442

AUDIO

RA HSI/VSI MODE

COPILOT'S HSI

HSI/VSI MODE

PILOT'S HSI

A429 LS

MISSION SYSTEM

A429 LS

A429 LS A429 LS

DIGITAL MAP

JOYSTICK

ETC 4098F

A429 LS A429 LS

RADIO NAVIGATION

TRUE/MAG TOGA LAMP TEST

WOW NVG NIGHT

A429 LS A429 LS A429 LS RS422

RLY

A429 LS PILOT'S CMA-9000

RS422

RS422

A429 HS

MASTER CAUTION

A429 HS

MESSAGE A429 HS

DATA TRANSFER UNIT

A429 HS

BASIC #1 BASIC #2 VMS

A429 HS

EGI (INS/GPS)

ADL NAVIGATION SYSTEM

0605028

Figure 8B Single Basic System without Radio Tuning

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

FLIGHT INSTRUMENTS COPILOT'S EADI

DISCRETE OUTPUTS (ANNUNCIATORS) GPS LOST (2) XPDR1 STBY/ON MASTER AHRS 1 CAUTION (2) DISCRETE INPUTS (CONTROLS) NIGHT/DAY NVG LAMP TEST ON/OFF TOGA LNAV ROLL STEEERING

HSI/VSI MODE

COPILOT'S EFIS

PILOT'S EFIS

HSI/VSI MODE AHRS 2

CONCENTRATOR

6

5

PILOT'S EADI

2

2 SWITCHED FOR BACKUP ONLY

DLU

RADIO NAVIGATION

MISSION SYSTEM DKG-3 MAP

PILOT'S FMS

DKG-4 MAP

ADF DF431B

AUDIO

AUDIO

DME DM441B

GPS TIME MARK

ELT

2 ARINC 429

VHF-AM 1 VC401C

VHF-AM 2 VC401C COMMUNICATIONS SYSTEMS

ATC-1 MST67A

NAV-2 VN411B

GPS CMA-3012

ANTENNA

NAV-1 VN411B

NAVIGATION SYSTEM 0605026

Figure 8C Dual System

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

CADC TAWS TCAS

X-Talk EHSI

FMS 1

GPS

FMS 2

Map data, Heading Mode S

Map data, Heading

FMU Steering

FDR

Aircraft Systems

CVR

Interphone Systems

Alt Alert

Steering

EHSI

Rad Alt

EADI

Nav Radios

ATC

EHSI, RMI & FD/AP

VHF COMM

ADC

FMU FIt Instr & FD/AP

CADC

FMU FIt Instr & FD/AP

Compass

ADF DME442

IRS

HF

FMU FIt Instr & FD/AP

Data Loader

ELT

Indicator

Wx Radar

Nav Radios

FMU

IRS

EADI 1

EADI 1

EHSI 1

EHSI 1

SELCAL

FD / AP A

Standby Horizon

FD / AP A 0605027

Figure 8D System Block Diagram Dual System

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2

2

BA TT BA TT

J1

26 27

G P S R e c e iv e r J 1 24 25

21 22 J1

05 06 J1

05 06

V O R /IL S 2

J1

21 22

R EAR FMS (J 1 P 4 )

RD GN RD GN RD GN RD GN

REAR FM S (J 1 P 3 4 ,3 7 )

R EAR FMS (J 1P 1 0/1 1) RD GN

RD GN

J1

V O R /IL S 1

1 31 3

INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

RD GN R EAR FMS (J 1P 12 /1 3)

RD GN RD GN RD GN

RD GN O SM C, FPFD, RPFD , C AT, HSG

R EAR FMS (J1 P 19 /20 ) RD GN

RD GN RD GN RD GN

R EAR FMS (J 1P 70 ,71 )

OSMC , FPFD , R PFD , H SG RD GN

R EAR FMS (J 1 P 3 8) C1

J1

ATC T ra n s p o n d e r

19 20 J1 13 14 J1

DME

01 02 J1 21 22

C2

REAR FM S (J1 P 2 1 /22 ) RD GN

C3

X2

X1

M C F A IL 2 R E LA Y AMU

RD GN

REAR FM S (J 1 P 2 3 /2 4 ) RD GN

F R O N T LA M P T E S T S W IT C H R EAR FMS (J 1 P 1 6 )

RD GN

D3 D1

D2

C A T 2 (J9 P 9/1 0)

J1

E F IS

44 45 J1 33 34

X2

X1

W O W 2 R ELAY

RD GN

RD GN

C O C K P IT C A T (J 5 02 P 1 1 , 1 2 ) C O C K P IT C A T (J5 02 P 29 , 3 0 )

RD GN

JJ11 74 75 03 04 05 06 07 70 71 10 11 12 13 14 15 53 85 86 19 20 21 22 23 24 25 26 27 28 34 37 83 84 100 38 32 35 33 36 99 45 41 42 81 82 40 46 47 93 94 125 51 52 16 54 55 111 112 115 116 62 63 121 122 50

F irs t F M S

R EAR FMS (J 1P 66 /6 7)

J1 J1 2 8 V D C IN T L IG H T IN G 0 1 66 67 O N /O F F C O N T R O L IR S A 4 2 9 I/P 1 5 I/P H I 78 I/P H I 79 6 8 I/P L O A D C A 4 2 9 I/P 1 6 69 I/P L O 72 A R IN C 4 2 9 O /P 5 IR S A 4 2 9 O /P 8 X -T A L K A 4 2 9 O /P 4 H S 73 A R IN C 4 2 9 I/P 1 H S 0 .5 -5 V d c A M L C D D IM M IN G 1 2 6 A M L C D D IM M IN G R E T U R N 0 2 A R IN C 4 2 9 I/P 2 L S 76 A R IN C 4 2 9 O /P 7 77 A R IN C 4 2 9 I/P 5 H S 0 .5 -5 V d c IN T L IG H T (P A N E L ) 0 8 IN T E G R A L L IG H T R E T U R N 0 9 C H A S S IS G N D 80 D IS C R E T E I/P 9 D IS C R E T E I/P 1 4 A R IN C 4 2 9 O /P 3 L S 4 3 D IS C R E T E I/P 1 5 44 A R IN C 4 2 9 I/P 6 L S M A S T E R C A U T IO N O /P (1 ) 3 9 31 G P S IN T W A R N O /P (4 ) 29 A R IN C 4 2 9 I/P 3 L S U /V H F 2 A 4 2 9 I/P 8 30 D IS C R E T E O /P 5 8 7 A R IN C 4 2 9 I/P 7 L S D IS C R E T E O /P 6 8 8 D IS C R E T E O /P 7 8 9 A R IN C 4 2 9 O /P 1 L S D IS C R E T E O /P 8 9 0 91 A R IN C 4 2 9 O /P 2 H S RS422 RX3 92 D IS C R E T E R E T U R N 4197 X -T A L K A 4 2 9 I/P 9 H S U /V H F 1 A 4 2 9 I/P 4 18 D IS C R E T E I/P 1 2 D IS C R E T E I/P 1 3 95 R S 2 3 2 /4 2 2 R X 1 D IS C R E T E I/P 1 6 96 M C F A IL (6 ) 97 R S 2 3 2 /4 2 2 T X 1 98 RS422 R X2 E M E R G E N C Y D IS C I/P (2 ) 48 101 RS422 TX2 RS 422 RX4 110023 RS 232 G ND 104 RS 422 TX 4 D IS C R E T E O /P 2 105 D IS C R E T E I/P 4 106 A R IN C 4 2 9 I/P 1 7 D IS C R E T E I/P 5 107 D IS C R E T E I/P 1 0 A R IN C 4 2 9 I/P 1 8 1 0 8 D IS C R E T E I/P 1 1 109 L A M P T E S T D IS C R E T E (3 ) 110 A R IN C 4 2 9 I/P 1 9 D IS C R E T E O /P 3 56 T O G A (D IS I/P 1 ) 57 V O L F B C K F C (I/P 1 0 ) RS422 TX3 113 114 A R IN C 4 2 9 I/P 2 1 S Y N C R E F I/P L O 117 G P S T IM E M A R K H I A R IN C 4 2 9 I/P 2 3 H I 58 G P S T IM E M A R K L O 59 A R IN C 4 2 9 I/P 1 1 118 W O W (8 ) 111189 A R IN C 4 2 9 I/P 2 3 L O S H IE L D R E T U R N 120 S H IE L D R E T U R N A R IN C 4 2 9 I/P 2 4 60 A R IN C 4 2 9 I/P 2 0 61 A R IN C 4 2 9 I/P 1 2 123 A R IN C 4 2 9 I/P 2 2 S Y N C O /P 1 Z 124 S Y N C R E F I/P H I 64 D A T A L O A D A 6 1 5 I/P 1 3 F U E L A 4 2 9 I/P 1 4 65 S Y N C O /P 1 X 27 S Y N C O /P 1 Y 1 1 5 V a c,4 0 0 H z P O W 1 128 D A Y /N IG H T D IS C R E T E (7 ) 1 1 5 V a c ,4 0 0 H z R T N A R IN C 4 2 9 O /P 6

RD GN

POW ER +28VDC +28VDC +28VDC +28VDC

J1

28 29 J1

RD GN

RD GN RD GN

J2 15

B rig h tn e s s C o n tro l D is p la y

RD GN

38 39

RD GN

ADC

FR ON T FMS (J 1P 6 8/6 9)

J1

J1

80

78 79

RD GN

J1 RD GN

18 27

J 11

B C

RD GN

RD GN

R a d io 8 1 In te rfa c e 1

J1 1 RD GN

AHRS

36 37 J1

RD GN

J1 29

U /V H F 1

A E

RD GN

REAR FM S (J 1 P 1 7 /1 8 )

R a d io E m e rg e n cy

J2

78 79

RD GN

REAR FM S (J 1 P 2 9/3 0 ) RD GN

U /V H F 2

JB 8E

RD GN

8F

O S M C (J 1 P 5 0/ 51 )

AMU JB RD GN

B 1 1A

RD GN

JB

B 1 1B

7A 7B

JB

RD GN

R EAR FMS (J 1P 25 /2 6)

B 1 0A

RD GN

B 1 0B

J2 A V IO N IC S C A T 2 (J 9 P 1 5 /1 6 )

46 Fuel 47 C o m p u te r

C3 C1

C2

RD GN

R EAR FMS (J 1P 6 4/6 5)

X1

X2

D A Y /N IG H T 3 FR ON T R ELAY

S e co n d F M S BATT BATT

FRONT FMS (J1P 4)

J1

10 11

G P S re ce ive r

J1

24 25

RD GN

FRONT FMS (J1P 10/11) RD GN

REAR FMS (J1P 34,37)

RD GN

RD GN RD GN RD GN

J1

V O R /IL S 1

15 16 J1

05 06 J1

05 06

V O R /IL S 2

J1

21 22

RD GN FRONT FMS (J1P 12/13)

RD GN RD GN

RD GN

RD GN

OSMC, FPFD, RPFD, CAT, HSG FRONT FMS (J1P 19/20)

RD GN RD GN RD GN

RD GN OSMC, FPFD, RPFD, HSG

FRONT FMS (J1P 70,71)

FRONT FMS (J1P 38)

RD GN

C1

J2

ATC T ran sp o n d e r

19 20 J2 21 22 J1

DME

01 02 J1 21 22

C2

FRONT FMS (J1P 21/22) RD GN

C3

X2

X1

M C F A IL 2 R E LA Y AMU

RD GN

FRONT FMS (J1P 23/24) RD GN

R E A R LA M P T E S T S W IT C H FRONT FMS (J1P 16) D3

RD GN

D1

D2

C A T 2(J9P 11/12)

J1

E F IS

44 45 J1 33 34

X2

X1

W O W 2 R E LA Y

RD GN

RD GN

RD GN

C O C K P IT C A T (J502 P 27, 28) C O C K P IT C A T (J502 P 36, 37)

J1 74 75 03 04 05 06 07 70 71 10 11 12 13 14 15 53 85 86 19 20 21 22 23 24 25 26 27 28 34 37 83 84 100 38 32 35 33 36 99 45 41 42 81 82 40 46 47 93 94 125 51 52 16 54 55 111 112 115 116 62 63 121 122 50

J1 01 66 67 68 69 78 79 72 73 A R IN C 4 2 9 I/P 1 H S 0 .5 -5 V d c A M L C D D IM M IN G 1 2 6 A M L C D D IM M IN G R E T U R N 0 2 76 A R IN C 4 2 9 I/P 2 L S A R IN C 42 9 O /P 7 77 A R IN C 4 2 9 I/P 5 H S0 .5 -5 V d c IN T L IG H T (P A N E L ) 0 8 09 IN T E G R A L L IG H T R E T U R N C H A S S IS G N D 80 D IS C R E T E I/P 9 4 3 D IS C R E T E I/P 1 4 A R IN C 4 2 9 O /P 3 L S D IS C R E T E I/P 1 5 44 A R IN C 4 2 9 I/P 6 L S M A S T E R C A U T IO N O /P (1 ) 3 9 31 G P S IN T W A R N 0 /P (4 ) 29 A R IN C 4 2 9 I/P 3 L S U /V H F 2 A 4 2 9 I/P 8 3 0 D IS C R E T E O /P 5 8 7 A R IN C 4 2 9 I/P 7 L S D IS C R E T E O /P 6 8 8 89 D IS C R E T E O /P 7 A R IN C 4 2 9 O /P 1 L S D IS C R E T E O /P 8 9 0 91 A R IN C 4 2 9 O /P 2 H S R S 42 2 R X 3 92 D IS C R E T E R E T U R N 49 X -T A L K A 4 2 9 I/P 9 H S 17 U /V H F 1 A 42 9 I/P 4 D IS C R E T E I/P 1 2 18 D IS C R E T E I/P 1 3 95 R S 2 3 2 /4 22 R X 1 D IS C R E T E I/P 1 6 96 M C F A IL (6 ) 97 R S 2 3 2 /42 2 T X 1 98 RS422 RX2 E M E R G E N C Y D IS C I/P (2 ) 48 101 RS422 TX2 RS422 RX4 102 1 03 RS232 GND RS422 TX4 104 D IS C R E T E O /P 2 D IS C R E T E I/P 4 105 A R IN C 4 29 I/P 1 7 1 0 6 D IS C R E T E I/P 5 D IS C R E T E I/P 1 0 A R IN C 42 9 I/P 1 8 1 0 7 D IS C R E T E I/P 1 1 108 L A M P T E S T D IS C R E T E (3 ) 109 A R IN C 42 9 I/P 1 9 1 D IS C R E T E O /P 3 10 T O G A (D IS I/P 1 ) 56 V O L F B C K R C (I/P 1 0 ) 57 RS422 TX3 113 A R IN C 4 2 9 I/P 2 1 114 S Y N C R E F I/P L O 117 A R IN C 4 2 9 I/P 2 3 H I G P S T IM E M A R K H I 58 G P S T IM E M A R K L O A R IN C 4 2 9 I/P 1 1 59 W O W (8 ) 118 A R IN C 4 2 9 I/P 2 3 L O S H IE L D R E T U R N 119 S H IE L D R E T U R N A R IN C 4 29 I/P 2 4 120 A R IN C 4 2 9 I/P 2 0 60 A R IN C 4 2 9 I/P 1 2 61 A R IN C 4 2 9 I/P 2 2 123 S Y N C O /P 1 Z S Y N C R E F I/P H I 1 2 4 D A T A L O A D A 61 5 I/P 1 3 64 F U E L A 42 9 I/P 1 4 6 5 S Y N C O /P 1 X S Y N C O /P 1 Y 1 1 5 V a c,4 0 0 H z P O W 1 2 7 D A Y /N IG H T D IS C R E T E (7 ) 1 1 5 V a c,4 0 0 H z R T N 1 2 8

FRONT FMS (J1P 66/67)

J1

2 8 V D C IN T LIG H T IN G

A R IN C 4 2 9 O /P 6

RD GN

P O W E R O N /O FF C O N T R O L IR S A 4 29 I/P 1 5 +2 8 V D C I/P H I A D C A 42 9 I/P 1 6 +2 8 V D C I/P H I +2 8 V D C I/P L O A R IN C 42 9 O /P 8 +2 8 V D C I/P L O A R IN C 42 9 O /P 5 X -T A L K A 4 2 9 O /P 4 H S

FRONT FMS (J1P 68/69)

J1 29

J2 15 RD GN

28 29

RD GN

RD GN

B righ tn e ss C o n tro l D isp la y

38 39

RD GN

78 79

J1 RD GN

ADC

J1

J1

RD GN

AHRS

J1

80

RD GN

R a d io 8 1 In te rfa ce 2

18 27

J1 RD GN

B C

RD GN

U /V H F 1

REAR FMS (J1P 17/18)

R a d io E m e rg e n cy

J2

REAR FMS (J1P 29/30) RD GN

J1

78 79

RD GN

RD GN

U /V H F 2

A E

RD GN

JB 9E 9F

O S M C (J1P 54/ 55)

AMU JB RD GN

10A 10B

JB RD GN

7A 7B

RD GN FRONT FMS (J1P 25/26)

JB 11A 11B

RD GN

J2 A V IO N IC C A T 2(J9P 17/19) D3 D2

X2

D1

46 Fuel 47 C o m p u ter

RD GN

FRONT FMS (J1P 64/65)

X1

D A Y /N IG H T 3 R E A R R E LA Y

Figure 8E Dual FMS installation with radio tuning and suggested pins allocation (courtesy of Pilatus Aircraft Switzerland)

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

NORMAL LINE

45° 45°

10°

30°

6 O' CLOCK DIRECTION OPTIMAL VIEWING ANGLE

VERTICAL BOTTOM: 30° VERTICAL TOP: 10° HORIZONTAL BOTTOM SIDES: 45° MG331

Figure 9 FMS Viewing Envelope

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3.

DIGITAL EQUIPMENT Table 1 shows a list of ARINC 429 equipment which may be connected to each CMA-9000 system (in a dual FMS installation). The digital inputs and outputs can be configured for high or low speed. QUANTITY 1

ACRONYM ACARS

1 1 Up to 2 Up to 2 1 Up to 3 1 1 1 1 Up to 2 1

ACMS AMU ADC ADF AFCS AHRS APIRS CHK DMAP DLU DME DVS

1 Up to 2 1 1 Up to 2 1 Up to 2 1 1 1 1 1 Up to 2 1 Up to 2 1 Up to 2

EFIS EHSI EGI ELT FC GPS CONC PLS PRI REC REPE SIMUL NAV TACAN VUHF WXR XPDR

DESCRIPTION Aircraft Communication Addressing and Reporting System (Future Growth) Aircraft Condition Monitoring System Audio Management Unit Air Data Computer Automatic Direction Finder Aircraft Flight Control System Attitude and Heading Reference System Aircraft Piloting Inertial Reference System ARINC 429 I/F Checker Digital Map System Data Loader Unit Distance Measuring Equipment Doppler Velocity Sensor* Electronic Flight Instrument System Electronic Horizontal Situation Indicator Embedded GPS INS (1)* Emergency Locator Transmitter (use REC o/p) Fuel Computer Global Positioning System (ARINC 743A) Data Concentrator Personnel Locator System Printer (Future Growth) Flight Recorder Repeater Simulator (Future Growth) VOR/ILS Receiver Tactical Air Navigation Receiver V/UHF Communication Radio Weather rader

ATC Transponder

I/O Both O/P Both I/P Both O/P I/P I/P Both Both (Note 1) Both Both I/P for RDN-85 Both for ANV-353 Both (Note 2) Both Both O/P I/P Both I/P I/P O/P O/P Both Both Both I/P Both I/P Both

NOTE 1: The FMS transmits output data to the DMAP unit via the EFIS output A429 bus. NOTE 2: The FMS receives and decodes input data from EFIS IFDS, AHCAS and AHCAS2 unit types only. *The installation of an EGI, DVS are not allowed with an approved FMS. Table 1 ARINC 429 Equipment Supported by the CMA-9000

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A.

Aircraft Condition Monitoring System (ACMS) (1)

FMS to Digital ACMS Link Summary This section provides information on the ARINC 429 outputs that are supplied by the FMS to the Aircraft Condition Monitoring System (ACMS).

LABEL-EQUIP ID 001-002 002-002 012-002 056-002 061-002 062-002 063-002 074-002 075-002 102-002 104-002 114-002 115-002 116-002 117-002 120-002 121-002 125-002 126-002 150-002 164-002 203-002 204-002 205-002 206-002 210-002 212-002 213-002 233-002 234-002 235-002 236-002 237-002 251-002 252-002 260-002 270-002 271-002 272-002 275-002a

DESCRIPTION Distance to the TO waypoint Time to go to the "TO" waypoint Ground Speed ETA at Destination Dep/Dest airports (dep123) Dep/Dest airports (dep4/dest1) Dep/Dest airports (dest234) Zero Fuel Weight (Aircraft Gross Weight - Aircraft Fuel Weight) Aircraft Gross Weight Selected Altitude Target Vertical Speed Desired track Waypoint bearing Cross-track (lateral deviation) Vertical deviation Range to target altitude Roll/steering command Greenwich Mean Time Vertical deviation UTC (Time) (Pilot Entered) MDA (Minimum Descent Altitude) Pressure altitude Baro Corrected Altitude Mach Number CAS/IAS True Airspeed Vertical Rate Static Air Temperature Flight number (char1/char2) Flight number (char3/char4) Flight number (char5/char6) Flight number (char7/char8) Flight number (char9/char10) Distance to Go Time to Go Date FMS status word 1 FMS failure word FMS sub-system validity word FMS status word 2

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TX RATE 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 1 sec 500 msec 500 msec 1 sec 1 sec 500 msec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 500 msec 500 msec 1 sec 1 sec 1 sec 1 sec 1 sec

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LABEL-EQUIP ID 310-002 311-002 312-002 313-002 314-002 315-002 316-002 317-002 320-002 321-002 325-002 335-002 354-002b 361-004 365-002 B.

DESCRIPTION Present position latitude Present position longitude Ground speed Track angle true True heading Wind Speed Wind Angle Track Angle Magnetic Magnetic Heading Drift angle Roll angle Track angle rate TO WPT name Baro Inertial Altitude Inertial vertical speed

TX RATE 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 1 sec 500 msec 500 msec

Air Data Computer (ARINC 429) (1)

Digital ADC to FMS Link Summary The Air Data Computer (ADC) provides True Air Speed (TAS), Pressure Altitude (P.ALT.) and Baro Corrected Altitude to the FMS following ARINC 429 specifications. LABEL-EQUIP ID 102-002 203-006 204-006 205-002 206-002 210-006 212-002 213-002 234-006 237-025

DESCRIPTION Mode Control Panel Selected Altitude Pressure Altitude Baro Corrected Altitude Mach Number Corrected Airspeed Or Indicated Airspeed True Air Speed Vertical Rate Static Air Temperature Baro Correction Barometric Correction

TX RATE 65 msec 450 msec 450 msec 125 msec 125 msec 100 msec 65 msec 500 msec 50 msec 50 msec

When a Rockwell, Barco or AHCAS2 EFIS is installed, the crew selected altitude type (barocorrected or standard) is also provided via label 170. LABEL-EQUIP ID 170-006

DESCRIPTION DH Selected

TX RATE 100 msec

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C.

Air Data Computer (ARINC 575) (1)

Digital ADC to FMS Link Summary The Air Data Computer (ADC) provides True Air Speed (TAS), Pressure Altitude (P.ALT.) and Baro Corrected Altitude to the FMS following ARINC 575 specifications. LABEL-EQUIP ID 210-575 203-575 204-575

D.

DESCRIPTION True Air Speed Pressure Altitude Barometric Altitude

TX RATE 500 msec 500 msec 500 msec

Attitude and Heading Reference System (ARINC 429) (1)

Digital AHRS to FMS Link Summary The Attitude And Heading Reference System (AHRS) provides True & Magnetic Heading, to the FMS following the ARINC 429 specifications. The FMS gives priority to the TRUE heading when both labels are available. LABEL-EQUIP ID 314-005 320-005

DESCRIPTION True Heading Magnetic Heading

TX RATE 50 msec 50 msec

When a Rockwell or Barco EFIS is installed, the heading source selection is also provided via label 275. LABEL-EQUIP ID 275-025 (2)

DESCRIPTION EFIS status

TX RATE 200 msec

Central Reference Primaire (CRP) AHRS to FMS Link Summary This section identifies the labels received by the FMS from an AHRS of type CRP LABEL-EQUIP ID 350-005 320-005

DESCRIPTION AHRS status Magnetic Heading

TX RATE 80 msec 20 msec

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

E.

Automatic Flight Control System (1)

AFCS to FMS Link Summary This section provides information on the ARINC 429 outputs that are supplied by the Automatic Flight Control System (AFCS) to the FMS. NOTE: LABEL 300 is always valid, regardless of the SSM value. It is used to compute tail deformation compensation value on helicopter. LABEL-EQUIP ID 300-025

(2)

DESCRIPTION Engines Hinge Moment

TX RATE 200 msec

FMS to Digital AFCS Link Summary This section provides information on the ARINC 429 outputs that are supplied by the FMS to the Automatic Flight Control System (AFCS). LABEL-EQUIP ID 121-002 214-002a* (see note) 216-002a* (see note)

NOTE:

DESCRIPTION Horizontal Command Track Angle Error For Steering Control Cross-Track Distance For Steering Control

TX RATE 100 msec 100 msec 100 msec

Labels 214 and 216 are installation configurable through the A429 GENERAL EQP 1/6 page

(a) Horizontal Command Output Characteristics The Horizontal Command to the AFCS has the following characteristics: Refresh rate = 100 msec Maximum bank angle = +/- 10 to 30 degrees based on configuration Maximum roll rate = 2.5 degrees/sec to 4.0 degrees/sec The "Status Matrix" should be interpreted as follows: NOTE: When the "NO COMPUTED DATA" status is set, the data should not be used for flight guidance.

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Normal: No Computed Data:

F.

- Valid roll command - System failures - Heading failure when not in GPS navigation mode or when flying a heading leg (heading to altitude, ...) - TAS failure when navigating in DR mode. - Aircraft airborne and speed below minimum speed. - Undefined active waypoint (Disco, end of route, no route) - Aircraft is not on intercept heading/course (installation configurable). - Unable to meet approach criteria 2 nm inbound to FAF.

Checker (ARINC 429) This equipment is used for testing purposes, it allows the user to monitor and transmit ARINC labels from a Maintenance page (A429 I/O CHECKER page) NOTE: The checker (CHK) is configured on a single ARINC 429 input bus and/or on a single ARINC 429 output bus.

G.

Collins DME-442/DME-4000 Distance Measuring Equipment Receiver (ARINC 429) (1)

Digital DME to FMS Link Summary The COLLINS 442 or COLLINS 4000 Distance Measuring Equipment (DME) Receiver provides the frequency of the DME station tuned, the distance to the DME station and the DME station identifier to the FMS. This is done in accordance with the GAMA specifications. LABEL-EQUIP ID 035-009 202-009

DESCRIPTION DME Frequency Distance from Station

TX RATE 100 msec 100 msec

The FMS is expecting these labels from the DME receiver, in the following sequence: CH 1 - FREQ(035), DIST(202) CH 2 - FREQ(035), DIST(202) CH 3 - FREQ(035), DIST(202) CH 1 - FREQ(035), DIST(202), IDENT(300), IDENT(300) CH 2 - FREQ(035), DIST(202), IDENT(300), IDENT(300) CH 3 - FREQ(035), DIST(202), IDENT(300), IDENT(300) NOTE:

The CMA-9000 is not using the DME station identifier ARINC 429 label 300-009 at this stage (Future Growth).

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(2)

FMS to Digital DME Link Summary This section provides information on the ARINC 429 RADIO TUNING output, supplied by the FMS to the COLLINS 442 or COLLINS 4000 DME receiver. The FMS sends an output of the next frequency to be tuned by the DME receiver. The frequency identifies a particular DME station. LABEL-EQUIP ID 035-002

H.

DESCRIPTION DME Frequency

TX RATE 100 msec

Collins 700 Distance Measuring Equipment Receiver (ARINC 429) (1)

Digital DME to FMS Link Summary The COLLINS 700 DISTANCE MEASURING EQUIPMENT (DME) RECEIVER provides the frequency of the DME station tuned and the distance to the DME station to the FMS. This is done in accordance with the ARINC specifications. LABEL-EQUIP ID 035-009a

DESCRIPTION DME Frequency

TX RATE 200 msec

202-009a

Distance From Station

167 msec

The FMS is expecting these labels from the DME receiver, in the following sequence: CH 1 - FREQ(035), DIST(202) CH 2 - FREQ(035), DIST(202) CH 3 - FREQ(035), DIST(202) CH 1 - FREQ(035), DIST(202), IDENT(300), IDENT(300) CH 2 - FREQ(035), DIST(202), IDENT(300), IDENT(300) CH 3 - FREQ(035), DIST(202), IDENT(300), IDENT(300) NOTE:

(2)

The CMA-9000 is not using the DME station identifier ARINC 429 label 300-009 at this stage (Future Growth).

FMS to Digital DME Link Summary This section provides information on the ARINC 429 RADIO TUNING output, supplied by the FMS to the COLLINS 700 DME receiver. The FMS sends an output of the next frequency to be tuned by the DME receiver. The frequency identifies a particular DME station. LABEL-EQUIP ID 035-002a

DESCRIPTION DME Frequency

TX RATE 100 msec

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

I.

Chelton DM-441B Distance Measuring Equipment Receiver (ARINC The Chelton DM-441B used to be known as the Bendix King DME receiver 441B. (1)

Digital FMS to Digital DME Link Summary The DME requires only a portion of the data available on the ARINC 429 link to which it is attached. The labels of interest to the DME are listed below. NOTE:

Output for hold mode channel only when in hold mode. NAV radio paired channels may be tuned directly by the NAV radio output or by using the FMS output.

The outputs listed below are formatted in accordance with the General Aviation Manufacturers Association (GAMA) specifications. LABEL-EQUIP ID 035-002

(2)

DESCRIPTION DME Frequency

TX RATE 100 msec, Burst

REMARKS Output on CH 3 for Navigator, CH4, 5 for Hold mode (burst), CH1, 2 when paired with NAV receiver.

Digital DME to FMS Link Summary This section describes the ARINC 429 data words and transmission protocol of the inputs to the FMS from the DME radio. LABEL-EQUIP ID 035-009 202-009

J.

DESCRIPTION DME Frequency DME Distance

RATE 150 msec 150 msec

ARINC 615 Data Loader Unit (ARINC 429) The ARINC 615 capable data loader unit sends/receives data to/from the FMS. The communication between the DLU and FMS takes place over the ARINC high speed data link using label 226 as per the ARINC 615-3 specification.

K.

GAMA EFIS Interface Description This section provides information on the ARINC 429 outputs that are supplied by the FMS to an EIS. The outputs are formatted to follow the GAMA specifications (General Aviation Manufacturers Association).

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

(1)

FMS to Digital Sperry EIS (Airline Version) Link Summary The FMS transmits the following labels according to the table below. LABEL-EQUIP ID 001-002 056-002 114-002 115-002 116-002a 117-002a 121-002 125-002 147-002 251-002 252-002 261-002 275-002a 310-002 311-002 312-002 313-002 314-002 315-002 316-002 321-002 326-002 352-002 371-002

DESCRIPTION Distance To The "To" Waypoint Estimated GMT At End Of Route Desired Track (True) Bearing To Waypoint (True) Cross Track Distance Vertical Deviation Horizontal Command Greenwich Meantime Magnetic Variation Distance To Go Time To Go GPS Discrete Word FMS Status Present Position Latitude Present Position Longitude Ground Speed Track Angle (True) True Heading Wind Speed Wind Angle (From) (True) Drift Angle Lateral Scale Factor Estimated Time To Destination Manufacturer Ident Code

TX RATE 1 sec 1 sec 50 msec 50 msec 50 msec 100 msec 100 msec 100 msec 1 sec 200 msec 200 msec 1 sec 3 times/sec 200 msec 200 msec 50 msec 50 msec 50 msec 100 msec 100 msec 50 msec 100 msec 1 sec 1 sec

This table provides the list of labels transmitted for route and navaid output and their rate of transmission. LABEL-EQUIP ID 074-002 075-002a 113-002 300-002 301-002 302-002 303-002 304-002 305-002 306-002 307-002 *

DESCRIPTION Data Record Header Active WPT From/To Message Checksum Station Type/Class Message Character 7-9 Message Character 10-12 Message Control Word Message Character 1-3 Message Character 4-6 Waypoint Latitude Waypoint Longitude

TX RATE * 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec

1/ Fixed rate at 10 seconds. 2/ Continuous rate depending on number of waypoints.

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FMS to Digital Sperry EIS (General Aviation Version) Link Summary The FMS will transmit the following labels according to the table below. LABEL-EQUIP ID 001-002 056-002 114-002a 115-002 116-002 117-002a 121-002 125-002 147-002 251-002 252-002 261-002 275-002 310-002 311-002 312-002 313-002 314-002 315-002 316-002 321-002 326-002 352-002 371-002

DESCRIPTION Distance To The "To" Waypoint Estimated GMT At End Of Route Desired Track (Magnetic) Bearing To Waypoint (True) Cross Track Distance Vertical Deviation Horizontal Command Greenwich Meantime Magnetic Variation Distance To Go Time To Go GPS Discrete Word FMS Status Present Position Latitude Present Position Longitude Ground Speed Track Angle (True) True Heading Wind Speed Wind Angle (From) (True) Drift Angle Lateral Scale Factor Estimated Time To Destination Manufacturer Ident Code

TX RATE 1 sec 1 sec 50 msec 50 msec 50 msec 100 msec 100 msec 100 msec 1 sec 200 msec 200 msec 1 sec 3 times/sec 200 msec 200 msec 50 msec 50 msec 50 msec 100 msec 100 msec 50 msec 100 msec 1 sec 1 sec

This table provides the list of labels transmitted for route and navaid output and their rate of transmission. LABEL-EQUIP ID 074-002 075-002a 113-002 300-002 301-002 302-002 303-002 304-002 305-002 306-002 307-002 *

DESCRIPTION Data Record Header Active WPT From/To Message Checksum Station Type/Class Message Character 7-9 Message Character 10-12 Message Control Word Message Character 1-3 Message Character 4-6 Waypoint Latitude Waypoint Longitude

TX RATE * 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec

1/ Fixed rate at 10 seconds. 2/ Continuous rate depending on number of waypoints.

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FMS to Digital EIS (GAMA compliant) Link Summary The FMS transmits the following labels according to the table below. LABEL-EQUIP ID 100-002 114-002 115-002 116-002 117-002a 121-002 147-002 150-002 251-002 252-002 261-002 275-002b 310-002 311-002 312-002 313-002 314-002 315-002 316-002 321-002 326-002 352-002 371-002

DESCRIPTION Selected Intercept Course (True/Mag) Desired Track (True) Bearing To Waypoint (True) Cross Track Distance Vertical Deviation Horizontal Command Magnetic Variation Greenwich Mean Time Distance To Go Time To Go GPS Discrete Word FMS Status Present Position Latitude Present Position Longitude Ground Speed Track Angle (True) True Heading Wind Speed Wind Angle (From) (True) Drift Angle Lateral Scale Factor Estimated Time To Destination Manufacturer Ident Code

TX RATE 200 msec 50 msec 50 msec 50 msec 100 msec 100 msec 1 sec 100 msec 200 msec 200 msec 1 sec 3 times/sec 200 msec 200 msec 50 msec 50 msec 50 msec 100 msec 100 msec 50 msec 100 msec 1 sec 1 sec

This table provides the labels transmitted at for route and navaid output and their rate of transmission. LABEL-EQUIP ID 074-002 075-002a 113-002 300-002 301-002 302-002 303-002 304-002 305-002 306-002 307-002 *

DESCRIPTION Data Record Header Active WPT From/To Message Checksum Station Type/Class Message Character 7-9 Message Character 10-12 Message Control Word Message Character 1-3 Message Character 4-6 Waypoint Latitude Waypoint Longitude

TX RATE * 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec

1/ Fixed rate at 10 seconds. 2/ Continuous rate depending on number of waypoints.

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FMS to Sextant Digital EIS (GAMA compliant, Avionique Nouvelle) Link Summary This table provides the labels transmitted at a fixed rate and their rate of transmission.

LABEL-EQUIP ID 100-002 114-002 115-002 116-002 117-002a 121-002 147-002 150-002 172-002a 251-002 252-002 261-002 270-002a 275-002c 310-002 311-002 312-002 313-002 314-002 315-002 316-002 321-002 326-002 352-002 371-002

DESCRIPTION Selected Intercept Course (True/Mag) Desired Track (True) Bearing To Waypoint (True) Cross Track Distance Vertical Deviation Horizontal Command Magnetic Variation Greenwich Mean Time ACK Of DMAP WPT TXFR Distance To Go Time To Go GPS Discrete Word FMS Status FMS Status Present Position Latitude Present Position Longitude Ground Speed Track Angle (True) True Heading Wind Speed Wind Angle (From) (True) Drift Angle Lateral Scale Factor Estimated Time To Destination Manufacturer Ident Code

TX RATE 200 msec 50 msec 50 msec 50 msec 100 msec 100 msec 1 sec 100 msec 100 msec 200 msec 200 msec 1 sec 100 msec 3 times/sec 200 msec 200 msec 50 msec 50 msec 50 msec 100 msec 100 msec 50 msec 100 msec 1 sec 1 sec

This table provides the labels transmitted at for route and navaid output and their rate of transmission. LABEL-EQUIP ID DESCRIPTION TX RATE 074-002 Data Record Header * 075-002a Active WPT From/To 100 msec 113-002 Message Checksum 100 msec 300-002 Station Type/Class 100 msec 301-002 Message Character 7-9 100 msec 302-002 Message Character 10-12 100 msec 303-002c Message Control Word 100 msec 304-002 Message Character 1-3 100 msec 305-002 Message Character 4-6 100 msec 306-002 Waypoint Latitude 100 msec 307-002 Waypoint Longitude 100 msec * 1/ Fixed rate at 10 seconds. 2/ Continuous rate depending on number of waypoints.

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FMS to Rockwell/Rockwell2/AHCAS2 Custom EIS (GAMA Compliant) Link Summary This table provides the labels transmitted and their rate of transmission. LABEL-EQUIP ID 074-002 075-002 076-002 113-002 114-002 115-002 116-002 117-002a 121-002 140-002 147-002 150-002 164-002 172-002a 203-002 204-002 210-002 216-002 220-002 251-002 252-002 260-all except 002c 270-002b 271-002 275-002a 300-002 303-002d 304-002 305-002 306-002 307-002 310-002 311-002 312-002 313-002a 314-002 315-002 316-002 321-002a 326-002 352-002 371-002

DESCRIPTION Data Record Header Active WPT From/To Msl Altitude (From GPS) Message Checksum Desired Track (True) Bearing To Waypoint (True) Cross Track Distance Vertical Deviation Horizontal Command Roll Steering Magnetic Variation Time Utc Radio Height ACK Of DMAP WPT TXFR Standard ALT Corrected ALT True Airspeed Cross Track Offset INS/GPS Altitude Distance To Go Time To Go Date (D/M/Y) Status Word FMS Failure Word FMS Status Word Station Type/Class Message Control Word Message Character 1-3 Message Character 4-6 Waypoint Latitude Waypoint Longitude Present Position Latitude Present Position Longitude Ground Speed Track Angle (True) True Heading Wind Speed Wind Angle (From) (True) Drift Angle Lateral Scale Factor Estimated Time To Destination Manufacturer Ident Code

TX RATE See NOTE 100 msec 200 msec 100 msec 100 msec 100 msec 200 msec 100 msec 100 msec 100 msec 1 sec 300 msec 200 msec 100 msec 200 msec 200 msec 200 msec 1 sec 200 msec 200 msec 1 sec 1 sec 333 msec 1 sec 333 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 200 msec 200 msec 200 msec 100 msec 50 msec 333 msec 333 msec 100 msec 333 msec 1 sec 1 sec

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NOTE:

(6)

Fixed rate at 10 seconds. Continuous Rate Depending on Number of Waypoints.

Rockwell/Rockwell2 EFIS to FMS Summary The FMS will receive from the Rockwell/Rockwell2 EFIS units the following input ARINC 429 labels and decode them via the input EFIS (EFI) equipment:

LABEL-EQUIP ID 005 - 025b 006 - 025b 063-025b 067-025b 167-025 274-025b 275 - 025a 320- 005a (7)

RECEIVED FROM ROCKWELL2 ROCKWELL2 ROCKWELL2 ROCKWELL2 ROCKWELL2 ROCKWELL2 ROCKWELL/ROCKWELL2 ROCKWELL

DESCRIPTION AFCS Vx velocity AFCS Vy velocity Fix marker for transdown Roll/Yaw Active mode Hover height AHRS Status word ND Status - EFIS Switch Label EFIS Heading Angle

TX RATE 200 ms 200 ms 50 ms 200 ms 40 ms 200 ms 200 ms 20 ms

FMS to BARCO GAMA EFIS (GAMA Compliant) Link Summary

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LABEL-EQUIP ID 074-002 075-002a 076-002 113-002 114-002 115-002 116-002 117-002a 121-002 140-002 147-002 150-002 203-002 204-002 210-002 216-002 251-002 252-002 260-all except 002c 270-002b 271-002 275-002a 300-002 303-002d 304-002 305-002 306-002 307-002 310-002 311-002 312-002 313-002a 314-002a 315-002 316-002 321-002a 326-002 352-002 371-002

DESCRIPTION Data Record Header Active WPT From/To MSL Altitude (From GPS) Message Checksum Desired Track (True) Bearing To Waypoint (True) Cross Track Distance Vertical Deviation Horizontal Command Roll Steering Magnetic Variation Time UTC Standard ALT Corrected ALT True Airspeed Cross Track Offset Distance To Go Time To Go Date (D/M/Y) Status Word FMS Failure Word FMS Status Word Station Type/Class Message Control Word Message Character 1-3 Message Character 4-6 Waypoint Latitude Waypoint Longitude Present Position Latitude Present Position Longitude Ground Speed Track Angle (True) True Heading Wind Speed Wind Angle (From) (True) Drift Angle Lateral Scale Factor Estimated Time To Destination Manufacturer Ident Code

TX RATE 10 sec less See NOTE 1 100 msec 200 msec See NOTE 3 100 msec See NOTE 4 100 msec 100 msec 200 msec 100 msec 100 msec 100 msec 1 sec 300 msec 200 msec See NOTE 2 200 msec See NOTE 2 200 msec See NOTE 2 1 sec 200 msec 1 sec 1 sec 333 msec 1 sec 333 msec 100 msec See NOTE 4,5 100 msec See NOTE 4 100 msec See NOTE 4 100 msec See NOTE 4 100 msec See NOTE 4 100 msec See NOTE 4 200 msec 200 msec 200 msec 100 msec 50 msec 333 msec 333 msec 100 msec 333 msec 1 sec 1 sec

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NOTES: 1. Label 113 transmission rate depends on the following: • Fixed rate at 10 seconds. • Continuous rate depends on number of waypoints, navaids, and airports to be transmitted. The resulting rate may be faster than once every 10 seconds. 2. Labels 203, 204, and 210 are repeated from the air data computer. 3. Label 076 GPS MSL Altitude is repeated from the GPS Sensor. 4. Each label in a record is sent 10 times per second. 5. Station type, class is only sent for NAVAID records. 6. Transmission of these labels is optional depending on the length of the ident. They may be transmitted with NUL characters even if the ident is less than 7 characters long. (8)

BARCO EFIS to FMS Summary The FMS will receive from the BARCO EFIS units the following input ARINC 429 labels and decode them via the input EFIS (EFI) equipment:

LABEL-EQUIP ID 271-025

DESCRIPTION PFD Configuration

RATE 200 ms

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FMS to Meggit EIS (GAMA Compliant) Link Summary This table provides the labels transmitted and their rate of transmission. LABEL-EQUIP ID 001-002 012-002 074-002 075-002 100-002 113-002 114-002 115-002 116-002 117-002a 121-002 125-002 147-002 251-002 252-002 260-All 261-002 275-002a 300-002 303-002e 304-002 305-002 306-002 307-002 310-002 311-002 312-002 313-002 314-002 315-002 316-002 317-002 320-002 321-002a 326-002 352-002 371-002 377-002 NOTE 1:

DESCRIPTION Distance To The "To" Waypoint Ground Speed Data Record Header Active WPT From/To Selected Intercept Course Message Checksum Desired Track (True) Bearing To Waypoint (True) Cross Track Distance Vertical Deviation Horizontal Command Greenwich Mean Time Magnetic Variation Distance To Go Time To Go Date (D/M/Y) GPS Discrete Word FMS Status Word Station Type/Class Message Control Word Message Character 1-3 Message Character 4-6 Waypoint Latitude Waypoint Longitude Present Position Latitude Present Position Longitude Ground Speed Track Angle (True) True Heading Wind Speed Wind Angle (From) (True) Track Angle (Magnetic) Magnetic Heading Angle Drift Angle Lateral Scale Factor Estimated Time To Destination Manufacturer Ident Code Equipment Hex ID

TX RATE 200 sec 500 msec See Note 1 1 sec 200 msec 100 msec 50 msec 50 msec 50 msec 100 msec 100 msec 200 msec 1 sec 200 msec 200 msec 1 sec 1 sec 333 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 200 msec 200 msec 50 msec 50 msec 50 msec 100 msec 100 msec 200 msec 50 msec 50 msec 100 msec 1 sec 1 sec 1 sec

- Fix rate at 4 sec. - Continuous rate depending on number of waypoints.

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L.

IFDS and AHCAS/AHCAS2 EFIS Interface Description (1)

IFDS/AHCAS/AHCAS2 to FMS Summary The FMS will receive from the IFDS or AHCAS2 units the following input ARINC 429 labels and decode them via the input EFIS (EFI) equipment:

LABEL-EQUIP ID 071 -025 111 - 025 113 - 025 167 - 025 273 - 025 275 - 025 320 - (all) 320 - 005b 320 - 005 360 - 025 361 - 025 (2)

DESCRIPTION

RATE

AHCAS Joystick Discrete Word 1 AHCAS Joystick Discrete Word 2 Aircraft gross weight Hover height Roll/Yaw Active mode Return Armed mode (Automatic Hover mode) Heading Angle AHCAS Heading Angle AHRS Status Word AHCAS Joystick Latitude AHCAS Joystick Longitude

25 ms 25 ms 200 ms 40 ms 200 ms 40 ms 20 ms 25 ms 80 ms 150 ms 150 ms

FMS to IFDS/AHCAS Link Summary (a) Navigation Sub-frame Except for labels 124 and 125, all other labels are sent with SDI=00 for this sub-frame. Labels 124 and 125 will be sent with SDI 00 (used by the Plan sub-frame) and 10 (used by the Preparation sub-frame). The FMS will transmit the following ARINC 429 labels over the Navigation sub-frame at specific rates as defined in the table below.

LABELS-EQUIP ID 012-002 026-002c 027-002c 036-002c 037-002c 076-002a 113-002c 114-002b 115-002 116-002 117-002a 120-002a 120-002a 124-002c 125-002c 140-002

DESCRIPTION Ground speed (BCD) Active route ident (first 7, 8 and 9) Active route ident (first 10, 11 and 12) Active route ident (characters 1, 2 and 3) Active route ident (characters 4, 5 and 6) GPS altitude Selected radial – magnetic Desired track DTK – magnetic Bearing next waypoint Cross track distance XTK VERTICAL DEVIATION FMS Latitude Fine FMS Longitude Fine TO waypoint number and Destination type Pattern type & starting waypoint number Roll command

RATE 333.33 ms 1000 ms 1000 ms 1000 ms 1000 ms 200 ms 333.33 ms 333.33 ms 200 ms 100 ms 100 msec 200 ms 200 ms 1000 ms 1000 ms 200 ms

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LABELS-EQUIP ID 150-002 163-002 164-002 201-002 203-002 204-002 216-002 220-002 251-002 252-002 260-002c 266-002 270-002c 270-002d 275-002a 300-002a 304-002s 310-002a 311-002a 312-002 314-002 315-002 317-002c 321-002a 326-002 340-002 341-002 342-002 343-002 372-002

DESCRIPTION GMT Time Track Angle Error TKE Radio height Distance to go (BCD) Pressure Altitude (FMS) Baro Corrected Altitude Cross Track Offset ALT INS/GPS Distance to go (BNR) Time to go Date H/C Delta Mass FMS Status (IFDS) FMS Status (AHCAS) FMS Status word 2 ACK of DMAP wpt xfer / True/Mag Magnetic variation FMS Latitude Coarse FMS Longitude Coarse Ground speed (BNR) True Heading Wind speed Track angle – magnetic Drift angle HIS scale PLS Waypoint Latitude PLS Waypoint Longitude DMAP Center Waypoint Latitude DMAP Center Waypoint Longitude Wind direction – magnetic

RATE 1000 ms 333.33 ms 200 ms 333.33 ms 200 ms 200 ms 1000 ms 200 ms 100 ms 1000 ms 1000 ms 333.33 ms 200 ms 200 ms 333.33 ms 200 ms 1000 ms 200 ms 200 ms 200 ms 200 ms 1000 ms 200 ms 333.33 ms 333.33 ms 200 ms 200 ms 1000 ms 1000 ms 1000 ms

(b) Waypoint Data Sub-frames 1

Sector Sub-frame This sub-frame will contain all the parameters defining an active flight plan or pattern. The FMS will transmit this sub-frame all the time with all the parameters having SDI=00 and a refresh rate of 1800 ms (which makes this sub-frame distinct of the "navigation" sub-frame). The parameters that are not used are sent with SSM NCD. The parameters of this frame are listed in the table above. The transmission order of this sub-frame is as follows: FROM, TO, TO+1, …, TO+9. For a Hover procedure the sector sub-frame will contain the TDN and MRK waypoints in the last but one and respectively last position of the transmission.

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Plan Sub-frame

2

This sub-frame will contain all the parameters necessary to define an active flight plan or pattern. The FMS will transmit this sub-frame all the time with all parameters having SDI = 01 and a refresh rate of 1800 ms. The parameters that are not used are sent with SSM NCD. The sub-frame update is done in increasing order starting with the CENTER waypoint and finishing with waypoint (TO+9). The parameters of this sub-frame are listed in the table above. In order to properly display the Plan sub-frame information, the IFDS will use the information sent in the ARINC labels 124-00 and 125-00 of the navigation sub-frame. For a Hover procedure the plan sub-frame will contain the TDN and MRK waypoints always in the (TO+8) and (TO+9) positions. 3

Preparation Sub-frame This sub-frame will contain all the parameters necessary to define a flight plan or a pattern that is being prepared (see NOTE 1). This sub-frame is sent all the time. All the parameters are sent with SDI = 10 and a refresh rate of 1800 ms. Unused parameters are sent with SSM NCD. Patterns are transmitted in the Preparation sub-frame only when there is no active hover procedure, holding pattern and search pattern in the Active route. In the particular case of waypoint identifiers, the waypoint ident parameters will always be sent NCD, except when the Inactive route is transmitted in the Preparation sub-frame, in which case the waypoint ident parameters are sent with SSM NORM only for those waypoints defined in the Inactive route. This sub-frame will contain all the parameters necessary to transmit the information related to one of the procedures or route selected according to the priority logic defined below: • • • • • • • • •

an offset leg if one is defined in the Active route; else a holding pattern if a holding pattern waypoint is defined in the Active route or modified Active route and is located in the route before any discontinuity (if one exists) and before any search waypoint (if one exists) which was not created off-route (see NOTE 2); else a search pattern if a search pattern waypoint is defined in the Active route or modified Active route and is located in the route before any discontinuity (if one exists); else the Inactive route, if one is defined.

NOTE 1:

In order to display correctly the Preparation sub-frame, the IFDS uses the information sent in the navigation sub-frame on the ARINC labels 124-10 and 125-10.

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NOTE 2:

4

A holding pattern waypoint always has priority over a search pattern waypoint created off-route. Off-route search pattern waypoints are created from the CDU SAR pages using a search waypoint Ident or a search waypoint Reference Ident and are always inserted as the first waypoint of the route. It is important to clarify that Off-route SAR waypoints are actually part of the route. The term "Off route" relates to their nature fof being created outside of the planned route, e.g. they are "Off route".

Waypoint Data For a pattern other than hover, the FMS will send the waypoint identifier as NCD. For a hover procedure, waypoint identifiers are sent only for TRANSDOWN (TDN) and MARK ON TOP (MRK) waypoints; NCD for others. Within each sub-frame and at every 100ms, the FMS will transmit all data related to each waypoint in the following order: LAT, LON, and ident (4 ARINC labels). Each sub-frame is refreshed every 1800ms. NOTE: The transmission of all 11 waypoints for each sub-frame requires 1100ms. Therefore, 7 additional empty transmission slots of 100ms are required to make up the 1800ms sub-frame refresh rate. The FMS will transmit to the IFDS EFIS the Active route waypoints (via Sector and Plan sub-frames) or Inactive route waypoints (via Preparation sub-frame) with the '/' character appended followed by the attribute 'H' for a holding pattern or 'O' for overfly or 'S' for a search pattern,. T' for a Tactical DTO and 'R' for Radial-To.

(c) Holding pattern For a holding pattern in order to display on the IFDS EFIS the same active leg in both plan and sector sub-frames, the FMS will compute a supplementary leg of zero length that is super-imposed on the holding fix. (d) DME arcs and Fix Radius turns (arc legs) When legs of types "Arc to a Fix" and "Radius to a Fix" are encountered in the Active route or when a Hover procedure becomes active in the Active route, the FMS will compute intermediate arc waypoints in order to draw the desired arc (Sector and Plan sub-frames only). No identifiers are provided for those intermediate arc waypoints. When legs of types "Arc to a Fix" and "Radius to a Fix" are encountered in the Inactive route (Preparation sub-frame only), no intermediate arc waypoints are computed.

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(e) Tactical DTO waypoint When a route waypoint with a Tactical DTO qualifier ("/T") becomes the Active TO waypoint, then the FMS will replace on IFDS EFIS the display of any existing legs leading to the Tactical DTO waypoint by an initial leg starting from aircraft present position to the waypoint. Once the waypoint is overflown, the FMS will no longer connect aircraft present position to the waypoint. If the Tactical DTO qualifier is removed from the Active TO waypoint before it is overflown, then the FMS will display back on IFDS EFIS the original leg as specified by the attributes of the active FROM/TO waypoints. (f)

Active Leg Backwards Extension Upon engaging specific leg types for which the displayed leg course on IFDS EFIS does not match the desired course (e.g. CF, CI, VI, CA, VA, CD, VD, CR, VR, FA, FC, FD legs and downpath DF leg), the FMS will re-draw on IFDS EFIS, in lieu of the active leg and any existing previous legs, a new active leg whose course matches the desired course and which extends backwards from the active waypoint.

(g) Search pattern In order to display a search pattern on the IFDS & AHCAS EFIS types, the FMS will transmit, via the Sector, Plan and Preparation sub-frames, a maximum of 10 search pattern waypoints at a time out of the total 80 search pattern waypoints (including the search pattern origin). The origin identifier will be transmitted over the Sector and Plan sub-frames only. In addition, for the AHCAS EFIS type only, search pattern waypoints (excluding the origin) will be transmitted, via the Sector, Plan and Preparation subframes, with valid identifiers of the form "nn", where nn is a number whose range is [01, 79]. M.

ARINC 702 EFIS Interface Description This section provides information on the ARINC 429 outputs supplied to an EHSI. The outputs are transmitted in alternating blocks of dynamic and background data, according to the ARINC 702A specification. (1)

ARINC 702 EFIS to FMS Link Summary The data sent from the EHSI to the FMS consists of the map mode, scale and symbol option selections made by the flight crew on the EHSI control panel. These selections are encoded into the discrete words listed below. LABEL-EQUIP ID 272-002a 273-002

DESCRIPTION EFIS Discrete #1 EFIS Discrete #2

TX RATE 200 msec 200 msec

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(2)

FMS to ARINC 702 EFIS Link Summary FMS to Smiths Industries 5-ATI EHSI: DYNAMIC DATA LABEL-EQUIP ID

DESCRIPTION

TX RATE (MSEC)

001-002

FMS Distance to Waypoint

1000

012-002

FMS Ground Speed (BCD)

1000

056-002a

Estimated Time of Arrival

1000

116-002

Cross-Track Distance

100

117-002

VERTICAL DEVIATION

100

126-002

Vertical Deviation

100

120-002

Range to Altitude

100

210-002

True Airspeed

100

271-002a

FMC Discrete Word 1

500

303-002b

Start of Dynamic Data

50

310-002

FMC Present Position - Latitude

100

311-002

FMC Present Position - Longitude

100

312-002

FMS Ground Speed

200

313-002

Track Angle True

50

315-002

Wind speed

1000

316-002

Wind Direction

200

317-002

Track Angle Magnetic

50

354-002

Alpha Numeric Text

1000

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BACKGROUND DATA OCTAL LABEL

BIT POSITION

PARAMETER

0

1

2

3

4

5

6

7

301

1

1

0

0

0

0

0

1

START OF TRANSMISSION (SOT) (BACKGROUND)

303

1

1

0

0

0

0

1

1

START OF TRANSMISSION (SOT) (DYNAMIC)

100

0

1

0

0

0

0

0

0

VECTOR - Active Flight Plan

300

1

1

0

0

0

0

0

0

VECTOR - Active Flight Plan Changes

040

0

0

1

0

0

0

0

0

VECTOR - Inactive Flight Plan

140

0

1

1

0

0

0

0

0

VECTOR - Radial

020

0

0

0

1

0

0

0

0

VECTOR - Offset Path

160

0

1

1

1

0

0

0

0

VECTOR IDENTIFIERS

250

1

0

1

0

1

0

0

0

SYMBOL: VORTAC + Identifier

150

0

1

1

0

1

0

0

0

SYMBOL: TUNED VORTAC (Astronautics only)

350

1

1

1

0

1

0

0

0

SYMBOL: VOR + Identifier

030

0

0

0

1

1

0

0

0

SYMBOL: TUNED VOR (Astronautics only)

230

1

0

0

1

1

0

0

0

SYMBOL: DME/TACAN + Identifier

130

0

1

0

1

1

0

0

0

SYMBOL: TUNED DME/TACAN (Astronautics)

330

1

1

0

1

1

0

0

0

SYMBOL: Waypoint + Identifier

070

0

0

1

1

1

0

0

0

SYMBOL: Active Waypoint + Identifier

270

1

0

1

1

1

0

0

0

SYMBOL: Airfield + Identifier

170

0

1

1

1

1

0

0

0

SYMBOL: Origin/Destination Airfield + Identifier

004

0

0

0

0

0

1

0

0

SYMBOL: Altitude Profile Point + Identifier

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BACKGROUND DATA (Cont'd) OCTAL LABEL

BIT POSITION

PARAMETER

0

1

2

3

4

5

6

7

104

0

1

0

0

0

1

0

0

SYMBOL: Conditional Waypoint (Astronautics Only)

304

1

1

0

0

0

1

0

0

SYMBOL: Active Conditional Waypoint (Astronautics Only)

204

1

0

0

0

0

1

0

0

SYMBOL: Selected Reference Point

244

1

0

1

0

0

1

0

0

SYMBOL: Selected Reference Point + Distance

224

1

0

0

1

0

1

0

0

TEXT: Type 1 - Navigation Advisory

264

1

0

1

1

0

1

0

0

MAP REFERENCE GROUP - Latitude

164

0

1

1

1

0

1

0

0

MAP REFERENCE GROUP - Longitude

364

1

1

1

1

0

1

0

0

DISCRETE WORD - Map Mode

014

0

0

0

0

1

1

0

0

DISCRETE WORD - Range

054

0

0

1

0

1

1

0

0

ROTATED SYMBOLS: Runway + Ident

254

1

0

1

0

1

1

0

0

ROTATED SYMBOLS: Airport + Runway + Ident

354

1

1

1

0

1

1

0

0

ROTATED SYMBOLS: Holding Pattern - R

034

0

0

0

1

1

1

0

0

ROTATED SYMBOLS: Holding Pattern - L

234

1

0

0

1

1

1

0

0

ROTATED SYMBOLS: Procedure Turn - R

134

0

1

0

1

1

1

0

0

ROTATED SYMBOLS: Procedure Turn - L

302

1

1

0

0

0

0

1

0

END OF TRANSMISSION (EOT)

000

0

0

0

0

0

0

0

0

FILL-IN WORDS

NOTE: The labels are shown in the order of transmission. (3)

Map Data Updating The FMS outputs map data to the EFIS every 50 msec, in alternating blocks of background data (64 words) and dynamic data, until a complete map background data block of 512 words are transmitted. After completion of the map background data transmission, the dynamic data continues to be updated at 20 Hz until a new map background data block is transmitted. Map background data is updated and transmitted once every 3 seconds, except on a mode, scale or option change, when the FMS updates and transmits new map background data within 1 second.

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(4)

Dynamic Data Format The first word of each dynamic data transmission is a Start of Dynamic Data (SOD) word, label 303.

(5)

Background Data Format (a) Start of Transmission Word The first word of each 64-word data block is a Start Of Transmission (or SOT) word, label 301. Each SOT word contains a field indicating the position of the block in the sequence of such blocks into which the transmission is divided. This count is from 1 to 8. Each SOT word also contains a binary count of the total number of usable background data words to be contained in the transmission. This count does not include the SOT, EOT and fill-in words, hence the maximum is 496. This count is set to zero in subsequent background data blocks. (b) End of Transmission Word The last word of each 64-word data block is an End Of Transmission (EOT), label 302. (c) Fill-in Word The 62 usable data words of each map background data block contain the positional, character and control information used by the EHSI to construct the map background. If the final block of the transmission contains less than 62 useful words, it is padded with fill-in words, label 000, and terminated with the End of Transmission word at position 64. (d) Data Types Seven types of data are transmitted as part of the EFIS background data: Control Words (SOT, EOT, Filler), Position, Distance, Length, Angular, and Discrete. (e) Data Type Word Groups Three types of background data word groups may be transmitted: vector word groups, symbol word groups, and map reference word groups. Word groups are formatted as a sequence of data labels where the label field is used to encode the data type and the sign/status matrix is used to designate the start and end of the group, as well as to identify special control words, as follows:

31 0 0 1 1

BIT 30 1 0 1 0

WORD DESCRIPTION First word of data type group Intermediate position or character words Control word, symbol rotation or vector conic data Last word of data type group

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1

Vector Word Groups

VECTOR WORD GROUP

OCTAL LABEL

DATA FORMATS POSITION

ANGULAR

DISTANCE

CHARACTER

Active Flight Plan

100

Lat, Long

Inbound course, course change

Turn Radius

-

Inactive Flight Plan

040

Lat, Long

Inbound course, course change

Turn Radius

-

Active Flight Plan Changes

300

Lat, Long

Inbound course, course change

Turn Radius

-

Offset Flight Plan

020

Lat, Long

Inbound course, course change

Turn Radius

-

Vector Identifiers

160

-

-

-

Offset Distance + Direction

Vector Radial

140

Lat, Long

-

-

-

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2

Symbol Word Groups

SYMBOL WORD GROUPS

OCTAL LABEL

DATA FORMATS POSITION

ANGULAR

LENGTH

CHARACTER

VORTAC (VOR/DME)

250

Lat, Long

-

-

Identifier

VOR

350

Lat, Long

-

-

Identifier

DME/TACAN

230

Lat, Long

-

-

Identifier

Airport

270

Lat, Long

-

-

Identifier

Origin/Dest Airport

170

Lat, Long

-

-

Identifier

Flight Plan Waypoint

330

Lat, Long

-

-

Identifier + Constraints

Conditional Waypoint

104

Lat, Long

-

-

Identifier

Active Waypoint

070

Lat, Long

-

-

Identifier + Constraints

Active Conditional Waypoint

304

Lat, Long

-

-

Identifier

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SYMBOL WORD GROUPS

OCTAL LABEL

DATA FORMATS POSITION

ANGULAR

LENGTH

CHARACTER

Rotated Airport

254

Lat, Long

Runway Heading

-

Airport ID Runway ID

Runway

054

Lat, Long

Runway Heading

Paved Length

Airport ID Runway ID

Altitude Profile Point

004

Lat, Long

-

-

Identifier

Selected Reference Point

204

Lat, Long

-

-

-

SRP Distance

244

Lat, Long

Distance

Displayed Distance

Holding Pattern Left

034

Lat, Long

Inbound Course

-

-

Holding Pattern Right

354

Lat, Long

Inbound Course

-

-

Proc Turn Left

134

Lat, Long

Inbound Course

-

-

Proc Turn Right

234

Lat, Long

Inbound Course

-

-

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3

Map Reference Word Groups

MAP REFERENCE WORD GROUP

N.

OCTAL LABEL

DATA FORMAT POSITION

ANGULAR

LENGTH

CHARACTER

Plan Mode Ref Pt Lat

264

Lat

-

-

-

Plan Mode Ref Pt Long

164

Long

-

-

-

Discrete Word 1

364

-

-

-

-

Discrete Word 2

014

-

-

-

-

Fuel Computer The Fuel Computer (FC) provides fuel contents and/or fuel flow to the FMS following the ARINC 429 specifications. The FMS is configurable for single, dual or no FC inputs. The FMS is configurable for fuel inputs displayed either in kilograms or pounds. The FMS is configurable for 1 or 2 labels type for both fuel quantity and fuel flow. The FMS has a configuration item for the value of the most significant bit of the fuel quantity and a separate configuration item for the value of the most significant bit of the fuel flow. The FMS has a configuration item for Source Destination Identifier (SDI OFF/ON) for both fuel quantity and fuel flow.

O.

GPS Sensor (1)

ARINC 743A Standard GPS Receiver which includes CMA-3024, CMA-3012 and CMA-3112 (a) Digital GPS to FMS Link Summary

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The FMS decodes the GPS sensor unit the labels listed in the following table, according to the ARINC 743A specifications. LABEL-EQUIP ID 273-00B 076-00B 101-00B 102-00B 103-00B 110-00B 120-00B 111-00B 121-00B 112-00B 130-00B 133-00B 136-00B 140-00B 165-00B 166-00B 174-00B 247-00B 260-00B 150-00B 162-00B 343-00B 370-00B

DESCRIPTION GPS Sensor Status GPS Altitude GPS HDOP GPS VDOP GPS Track Angle GPS Latitude GPS Latitude Fine GPS Longitude GPS Longitude Fine GPS Ground Speed GPS HIL (Integrity) GPS VIL (Integrity) GPS Vertical Fom GPS UTC Fine GPS Vertical Velocity GPS N/S Velocity GPS E/W Velocity GPS Horizontal Fom GPS Date GPS UTC GPS Destination WPT ETA GPS Destination WPT HIL GPS Height

TX RATE 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec* 1 sec* 1 sec

NOTE: The labels are shown in their transmission order. This order must be respected by the GPS receiver. Labels 162 and 343 are sent when applicable.

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(b) FMS to Digital GPS Link Summary This section provides information on the ARINC 429 outputs that are supplied by the FMS to the GPS sensor. The outputs are formatted to follow the ARINC 743A specifications. LABEL-EQUIP ID 041-002 042-002 143-002 144-002 146-002 150-002 152-002 170-002 203-002 210-002 260-002 310-002 311-002 312-002 313-002 314-002

DESCRIPTION Initialize Latitude Initialize Longitude Destination WPT Long. Destination WPT Lat. SV Deselect A GMT (UC) Destination WPT ETA SV Deselect B Pressure Altitude True Air Speed Date Latitude Longitude Ground Speed Track Angle True True Heading

TX RATE 100 msec (1) 100 msec (1) 500 msec (2) 500 msec (2) 500 msec (2) 200 msec 500 msec (2) 500 msec (2) 50 msec 100 msec 1 sec 200 msec 200 msec 50 msec 50 msec 50 msec

NOTES: 1. These words are transmitted in burst of 2 seconds duration on power-up and when a new position is entered. 2. These words are transmitted in burst of 3 seconds duration when doing a predictive RAIM request. (c) GPS Time Mark input (d) The GPS time mark discrete provides for the GPS to be synchronized with other aircraft systems.

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(2)

ARINC 743 Standard GPS Receiver which includes HONEYWELL, HG2021GD02, HG2021GD03 and TRIMBLE TASMAN TA-12. (a) Digital GPS to FMS Link Summary The GPS sensor unit provides the labels listed in the following table to the FMS, with respect to the ARINC 743 specification. LABEL-EQUIP ID 273-00B 076-00B 101-00B 102-00B 103-00B 110-00B 120-00B 111-00B 121-00B 112-00B 130-00Ba 136-00B 165-00B 166-00B 177-00B 247-00B 260-00B 150-00B 140-00B 162-00B 343-00B

DESCRIPTION GPS Sensor Status GPS Altitude GPS HDOP GPS VDOP GPS Track Angle GPS Latitude GPS Latitude Fine GPS Longitude GPS Longitude Fine GPS Ground Speed GPS HIL (Integrity) GPS Vertical Fom GPS Vertical Velocity GPS N/S Velocity GPS E/W Velocity GPS Horizontal Fom GPS Date GPS UTC GPS UTC Fine GPS Destination WPT ETA GPS Destination WPT HIL

TX RATE 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec

NOTE: The labels are shown in their transmission order. This order must be respected by the GPS receiver. Labels 162 and 343 are sent when applicable.

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(b) FMS to Digital GPS Link Summary This section provides information on the ARINC 429 outputs that are supplied by the FMS to the GPS sensor. The outputs are formatted to follow the ARINC 743 specifications. LABEL-EQUIP ID 041-002 042-002 125-002 126-002 127-002 143-002 144-002 150-002 152-002 203-002 210-002 260-002 310-002 311-002 312-002 313-002 314-002

DESCRIPTION Initialize Latitude Initialize Longitude Gmt (UC) SV Deselect A SV Deselect B Destination WPT Long. Destination WPT Lat. GMT (UC) Destination WPT ETA Pressure Altitude True Air Speed Date Latitude Longitude Ground Speed Track Angle True True Heading

TX RATE 100 msec (1) 100 msec (1) 200 msec 500 msec (2) 500 msec (2) 500 msec (2) 500 msec (2) 200 msec 500 msec (2) 50 msec 100 msec 1 sec 200 msec 200 msec 50 msec 50 msec 50 msec

NOTES: 1.

These words are transmitted in burst of 2 seconds duration on power-up and when a new position is entered.

2. These words are transmitted in burst of 3 seconds duration when doing a predictive RAIM request. (c) GPS Time Mark input The GPS time mark discrete provides for the GPS to be synchronized with other aircraft systems.

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P.

Flight Recorder When configured, this equipment transmits data for the ACMS and the lables defined below: LABEL-EQUIP ID 44-002 45-002 45-002 276-002a 347-002a 350-002a 351-002a 352-002a 353-002a 355-002a 356-002a 357-002a 362-002a 363-002

Q.

DESCRIPTION First 2 characters of Approach Procedure Name 3rd and 4th characters of Approach Procedure Name Last 4 characters of Approach Procedure Name FMS VNAV Status discrete word Maintenance VOR/DME latitude Maintenance GPS latitude Maintenance GPS longitude Maintenance DME latitude Maintenance DME longitude Maintenance VOR/DME longitude Maintenance Inertial latitude Maintenance Inertial longitude Desired vertical path angle for approach VNAV Target altitude

TX RATE 1 sec 1 sec 1 sec 1 sec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec 500 msec

Repeater This equipment relays data from selected input port to selected output port. NOTE:

The ARINC 429 labels received from a single ARINC 429 input bus (e.g. Single interface equipment) can be configured to be repeated. The Reapeater can be configured to any ARINC 429 output bus.

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R.

System Management Computer (1)

Digital SMC to FMS Link Summary The SYSTEM MANAGEMENT COMPUTER (SMC) provides TOTAL FUEL CONTENTS and FUEL FLOW RATE to the FMS following the ARINC 429 specifications. LABEL-EQUIP ID 247-048 347-048

S.

DESCRIPTION Total Fuel Contents Fuel Flow Rate

TX RATE 80 ms 80 ms

Chelton VN-411B, Collins VIR-432, Collins NAV-4500 NAV (VOR/ILS) RECEIVER (ARINC 429) • • •

The Chelton VN-411B used to be known as the Bendix King NAV receiver 411B. The Collins NAV-45000 combines a VOR/ILS/MB and an ADF receiver in the same enclosure. The same interface protocol is compatible with Chelton VN411B and Collins VIR-432 and NAV-4500.

(1)

Digital NAV to FMS Link Summary The NAV or VOR RECEIVER provides the frequency of the VOR station tuned, the VOR omni bearing to the FMS following the ARINC specifications. LABEL-EQUIP ID 034-011 222-011

(2)

DESCRIPTION VOR/ILS Frequency VOR Bearing Word

TX RATE 200 ms 200 ms

Digital FMS to NAV Link Summary The NAV requires only a portion of the data available on the ARINC 429 link to which it is attached. The labels of interest to the NAV are listed below. The outputs listed below are formatted in accordance with the General Aviation Manufacturers Association (GAMA) specifications.

LABEL-EQUIP ID 034-002

DESCRIPTION VOR/ILS Frequency

TX RATE Burst/200 MS

REMARKS Burst when backup CP installed

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T.

VOR RECEIVER (ARINC 579) (1)

Digital VOR to FMS Link Summary The VOR RECEIVER provides the VOR omni bearing to the FMS following the ARINC 579 specifications. LABEL-EQUIP ID 222-579

U.

DESCRIPTION VOR Bearing Word

TX RATE 200 ms

X-FMS for cross-talk (ARINC 429) (1)

Digital X-FMS to FMS Link Summary In multiple-FMS installations, the FMS will transmit/accept the following labels to/from the offside FMS(s), in accordance with proprietary protocol specifications for cross-talk. LABEL-EQUIP ID 010-002x 011-002x 013-002x 014-002x 015-002x 016-002x 017-002x 020-002x 021-002x 022-002x 060-002x 061-002x 062-002x 063-002x 064-002x 065-002x 066-002x 067-002x 102-002x 205-002x 206-002x 212-002x 213-002x 226-002x 274-002x 277-002x 330-002a

DESCRIPTION Best Sensor Latitude Best Sensor Longitude Best Sensor Track Angle Best Sensor Ground Speed True Air Speed Heading ADC Altitude Best Sensor Latitude Fine Best Sensor Longitude Fine QNH Block Transfer Data Word Block Transfer Data Word Best Sensor Accuracy (MS) GPS HIL (Integrity) Inbound Holding Course INS Time In NAV INS Actual Navigation Performance (ANP) Best Sensor Accuracy (LS) Selected Altitude Mach Number Computed Air Speed/Indicated Air Speed Vertical Speed Static Air Temperature Block Transfer Control Word Cross-Talk Control/Status Word EFIS Status Word System Altitude

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EXPECTED RATE 1sec 1sec 1sec 1sec 100 msec 50 msec 100 msec 1sec 1sec 50 msec as required as required 1sec 1sec 1sec (1) 5-10 sec 50 msec 1sec 1sec 1sec 1sec 1sec 1sec as required 50 ms 50 ms 100 msec

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(a) This word is received only when the cross-side FMS is performing an entry procedure into a holding pattern or is on a flight plan leg terminated by a holding fix. (2)

FMS to Digital X-FMS Link Summary The ARINC 429 labels are the same as listed in (1) above.

V.

Emergency Locator Transmitter ARTEX ELT-110-406HM/GPS (ARINC 429) (1)

Digital FMS to ELT Link Summary The ELT requires only a portion of the data available on the ARINC 429 link to which it is attached. The labels of interest to the ELT are listed below. The outputs listed below are formatted in accordance with the General Aviation Manufacturers Association (GAMA) specifications. LABEL-EQUIP ID 310-002x 311-002x

DESCRIPTION Present Position Latitude Present Position Longitude

TX RATE 100 msec 100 msec

W. Bendix King MST67A ATC Transponder (ARINC 429) (1)

Digital FMS to XPDR Link Summary The transponder requires only a portion of the data available on the ARINC 429 link to which it is attached. The labels of interest to the transponder are listed below. LABEL-EQUIP ID 031-002

DESCRIPTION ACTRBS

TX RATE 100 - 200 msec or Burst

In addition to the above label, the CMA-9000 outputs the following labels to the ATC to support the Elementary Surveillance (ELS) (flight identification) requirement. LABEL-EQUIP ID 233-002 234-002 235-002 236-002

DESCRIPTION Flight ID (Char1/Char2) Flight ID (Char3/Char4) Flight ID (Char5/Char6) Flight ID (Char7/Char8)

TX RATE 1 sec 1 sec 1 sec 1 sec

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(2)

Digital XPDR to FMS Link Summary This section describes the ARINC 429 data words and transmission protocol of the inputs to the CMA-9000 from the transponder.

LABEL-EQUIP ID 350-018

X.

DESCRIPTION Mode S BIT Automatic Message Mode

TX RATE 500 – 1000 msec

Collins TDR 94D ATC Transponder (ARINC 429) (1)

Digital FMS to XPDR Link Summary The transponder requires only a portion of the data available on the ARINC 429 link to which it is attached. The labels of interest to the transponder are listed below. The CMA-900 will transmit transponder labels in either continuous or burst tuning modes (installation configurable).

LABEL-EQUIP ID 031-002

DESCRIPTION ACTRBS

TX RATE 100 - 200 msec or Burst

In addition to the above label, the CMA-9000 outputs the following labels to the ATC. LABEL-EQUIP ID 233-002 234-002 235-002 236-002 (2)

DESCRIPTION Flight ID (Char1/Char2) Flight ID (Char3/Char4) Flight ID (Char5/Char6) Flight ID (Char7/Char8)

TX RATE 1 sec 1 sec 1 sec 1 sec

Digital XPDR to FMS Link Summary This section describes the ARINC 429 data words and transmission protocol of the inputs to the FMS from the transponder.

LABEL-EQUIP ID 031-018b 350-018b

DESCRIPTION Transponder Reply Word Transponder diagnostics Word

TX RATE 500 – 1000 msec 500 – 1000 msec

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Y.

Chelton VC-401B VHF COM radio (ARINC 429) The Chelton VC-401B used to be known as the Bendix-King VC-401B VHF COM radio. The Chelton VC-401B supports only a frequency step of 25kHz. (1)

Digital FMS to VHF Link Summary The VHF radio requires only a portion of the data available on the ARINC 429 link to which it is attached. The labels of interest to the VHF radio are listed below.

LABEL-EQUIP ID 030-002

(2)

DESCRIPTION VHF COM Frequency (25 kHz Frequency Steps)

TX RATE 100 - 200 msec or Burst

Digital VHF to FMS Link Summary This section describes the ARINC 429 data words and transmission protocol of the inputs to the FMS from the VHF radio. LABEL-EQUIP ID 030-016

Z.

DESCRIPTION VHF COM Frequency (25 kHz steps)

TX RATE 100 – 200 msec

Chelton VC-401C VHF Comm (ARINC 429) The Chelton VC-401C used to be known as the Bendix-King VC-401C VHF COM radio. The Chelton VC-401C supports both frequency steps of 25kHz and 8.33 kHz. (1)

Digital FMS to VHF Link Summary The VHF radio requires only a portion of the data available on the ARINC 429 link to which it is attached. The labels of interest to the VHF radio are listed below.

LABEL-EQUIP ID 030-002 047-002

DESCRIPTION VHF COM Frequency (25 kHz Steps) VHF COM Frequency (8.33 kHz Steps)

TX RATE 100 - 200 msec or Burst 100 - 200 msec or Burst

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(2)

Digital VHF to FMS Link Summary This section describes the ARINC 429 data words and transmission protocol of the inputs to the FMS from the VHF radio. LABEL-EQUIP ID 030-016 047-016

DESCRIPTION VHF COM Frequency (25 kHz frequency steps)

TX RATE 100 – 200 msec

VHF COM Frequency (8.33 kHz frequency steps)

100 – 200 msec

AA. Chelton ADF-431B, Collins ADF-462 ADF (ARINC 429) (1)

Digital FMS to ADF Link Summary The ADF requires only a portion of the data available on the ARINC 429 link to which it is attached. The labels of interest to the ADF are listed below.

(2)

LABEL-EQUIP ID 032-002

DESCRIPTION ADF Frequency

TX RATE 200 msec

320-002

Magnetic Heading

50 msec

Digital ADF to FMS Link Summary This section describes the ARINC 429 data words and transmission protocol of the inputs to the FMS from the ADF radio. LABEL-EQUIP ID 032-012 162-012

DESCRIPTION ADF Frequency Relative Bearing

TX RATE 200 msec 67.5 msec

REMARKS echo

BB. Marconi Selenia SRT-651/N-A V/UHF radio (ARINC 429) Either a single or no V/UHF is installation configurable via maintenance pages. After a V/UHF is configured, the output can be moved to any ARINC 429 output bus. (1)

Digital FMS to V/UHF Link Summary The V/UHF requires only a portion of the data available on the ARINC 429 link to which it is attached. The labels of interest to the V/UHF are listed below.

LABEL-EQUIP ID 271-002b 272-002b 273-002b

DESCRIPTION V/UHF Command Word 1 V/UHF Command Word 2 V/UHF Command Word 3

MAX TX RATE 200 msec 200 msec 200 msec

REMARKS Tuning and mode setting Tuning and mode setting Tuning and mode setting

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(2)

Digital V/UHF to FMS Link Summary This section describes the ARINC 429 data words and the transmission protocol of the inputs to the FMS from the V/UHF radio.

LABEL-EQUIP ID 271-017 272-017 273-017 274-017

DESCRIPTION V/UHF Status Word 1 V/UHF Status Word 2 V/UHF Status Word 3 V/UHF Status Word 4

MAX TX RATE 200 msec 200 msec 200 msec 200 msec

REMARKS Feedback label Feedback label Feedback label Feedback label

CC. TEAM Audio Management Unit AMU (ARINC 429) (1)

Digital FMS to AMU Link Summary The labels of interest to the AMU are listed below. NOTE: These labels are only output to the AMU when the FMS is in control of the AMU.

LABEL-EQUIP ID 051-002b 053-002b 055-002b 155-002b 160-002b 275-002b

(2)

DESCRIPTION COM 1/2 Volume NAV 1/2 Volume Intercom Volume DME 1/2 or TACAN 1/2 Volume ACM CFM

MAX TX RATE 300 ms 300 ms 300 ms 300 ms 300 ms 300 ms

REMARKS Volume setting Volume setting Volume setting Volume setting Aircraft configuration settings Common Frequency mode

Digital AMU to FMS Link Summary This section describes the ARINC 429 data words and the transmission protocol of the inputs to the FMS from the AMU.

LABEL-EQUIP ID 051-136 053-136 055-136 155-136 270-136

DESCRIPTION COM 1/2 Volume NAV 1/2 Volume Intercom Volume DME 1/2 or TACAN 1/2 Volume AMU Status

MAX TX RATE 300 ms 300 ms 300 ms 300 ms 300 ms

275-136

CFM

300 ms

REMARKS Volume setting Volume setting Volume setting Volume setting Audio Board 1/2/3 status Desensitization, Mute, COM1/2/3 TX

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DD. Aircraft Piloting Inertial Reference System (APIRS SFIM) (1)

Digital (APIRS SFIM) to FMS Link Summary This input is for the purpose of Kalman Filtered navigation mode only, normal AHRS input requires heading only (magnetic, true). The labels processing on this input will synchronize the APIRS labels with the GPS Time Mark signal for use by the Kalman Filter. LABEL-EQUIP ID 006-005 273-005 320-005 324-005 325-005 326-005 327-005 330-005 331-005 332-005 333-005

DESCRIPTION Major/Minor Cycle # General Operating Mode Status Heading Angle Pitch Angle Roll Angle Pitch Rate Roll Rate Yaw Rate Longitudinal Acceleration Lateral Accelleration Normal Acceleration

TX RATE 128 Hz 64 Hz 64 Hz 64 Hz 64 Hz 128 Hz 128 Hz 128 Hz 128Hz 128 Hz 128 Hz

EE. Digital Map System (1)

Digital DMAP to FMS Link Summary The data input to the FMS from the DMAP comprises multi-waypoint flight plans, or singlewaypoint (direct-to) flight plans. The inputs are formatted in accordance with the General Aviation Manufacturers Association (GAMA) specifications.

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LABEL-EQUIP ID 074-0CEa 113-0CEa 301-0CEa 302-0CEa 303-0CEa 304-0CEa 305-0CEa 306-0CEa 307-0CEa 371-0CEa

DESCRIPTION Data Record Header Message Checksum Message Character 7-9 Message Character 10-12 Message Control Word Message Character 1-3 Message Character 4-6 Waypoint Latitude Waypoint Longitude Manufacturer Ident Code

TX RATE as required 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec

REMARKS NOTE 1 NOTE 2 NOTE 2,3 NOTE 2,3 NOTE 2 NOTE 2 NOTE 2 NOTE 2 NOTE 2

NOTE 1:

Transmitted once at the start of each route transmission.

NOTE 2:

The set of labels (303, 304, 305, 301, 302, 306, 307 and 113) specify the first navigation point are transmitted immediately after Label 074. Each set of labels specifying successive navigation points will follow at intervals of 100 milliseconds.

NOTE 3: 5

Not transmitted by the DMAP ELBIT unit.

(a)

Example of Transmission The transmission of a normal or Direct-To flight plan from the DMAP to the FMS will follow the example below. A Direct-To flight plan will consist of a single waypoint as follows: T = 0.0 SECONDS (DIRECT-TO WAYPOINT, NO IDENTIFIER) 074 DATA RECORD HEADER 303 MESSAGE CONTROL WORD 304 WPT IDENT CHAR 1-3 (CHAR 1, 2, 3 = NUL) 305 WPT IDENT CHAR 4-6 (CHAR 4, 5, 6 = NUL) 301 WPT IDENT CHAR 7-9 (CHAR 7, 8, 9 = NUL) 302 WPT IDENT CHAR 10-12 (CHAR 10, 11, 12 = NUL) 306 WPT LATITUDE 307 WPT LONGITUDE 113 MESSAGE CHECKSUM

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FF. Data Concentrator (1)

Digital FMS to Data Concentrator Link Summary The Data Concentrator will receive data from the ARINC 429 link of the FMS but does not use any data itself. The inputs needed will be configured on the input port connected to the Data Concentrator. The labels received are described in the sections for those individual equipment types. NOTE: The Data Concentrator only receives data. If some equipment configured for the Data Concentrator has outputs, those must be configured onto output busses in the normal manner.

(2)

Digital Data Concentrator to FMS Link Summary The FMS receives data from the Data Concentrator via up to two dedicated ARINC 429 links.

The labels listed below assume ADF, DME, NAV and ADC are installed on the Data Concentrator, this is for example only, the actual labels expected will depend on the equipment configuration. LABEL-EQUIP ID

DESCRIPTION

032-012

ADF Frequency

TX RATE MAX RATE ALLOWED 135 msec

034-011

VOR/ILS Frequency

150 msec

035-009

DME Frequency

135 msec

162-012 202-009 203-006 204-006 210-006 222-011

ADF Bearing DME Distance Standard Altitude 1013.25 Baro Corrected Altitude True Airspeed VOR Omnibearing

45 msec 135 msec 20 Hz 20 Hz 20 Hz 100 msec

REMARKS

radio feedback radio feedback radio feedback, NOTE 1 NOTE 1 NOTE 2 NOTE 2 NOTE 2

NOTE 1:

DME is a special equipment and can be installed only on one side of the Data Concentrator (per equipment). All others may have redundant input on both sides.

NOTE 2:

These parameters are transmitted or not depending on the ADC connected.

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GG. Radio Altimeter (ARINC 429) (1)

Radio Altimeter to FMS Link Summary The RADIO ALTIMETER provides RADIO ALTITUDE to the FMS following the ARINC 429 specifications. LABEL-EQUIP ID 164-007

DESCRIPTION Radio Altitude (BNR)

MAX RATE 200 msec

REMARKS Altitude in feet

HH. LN-100GT Embedded GPS/INS Sensor (ARINC 429) (1)

Digital EGI to FMS Link Summary This section describes the ARINC 429 data words and the transmission protocol of the inputs to the FMS from the LN-100GT EGI. LABEL-EQUIP ID 010-00Be 011-00Be 076-00Be 103-00Be 110-00Be 111-00Be 112-00Be 120-00Be 121-00Be 150-00Be 163-004e 166-00Bf 171-004e 172-004e 174-00Bf 214-004e 220-004e 240-004e 240-00Be 243-004e 250-00Be 251-00Be 260-00Be 265-00Be 270-004e 270-004e 270-00Be 271-00Be

DESCRIPTION GPS SA/AS Key Status GPS Integrity GPS Altitude Mean Sea Level GPS Ground Track GPS Latitude (MSW) GPS Longitude (MSW) GPS Ground Speed GPS Latitude (LSW) GPS Longitude (LSW) GMT Time UTC Navigation Time North South GPS Speed Hybrid Quality Factor Pure Inertial Quality Factor East West GPS Speed Alignment Counter Baro Inertial Altitude Latitude, Ppos Hyb GPS (LSW) GPS Est Horizontal Position Error Longitude, Ppos Hyb GPS (LSW) GPS Discrete Data #2 GPS Discrete Data #3 GPS Date GPS Vertical Velocity INS Output Status Label Maintenance Label GPS Discrete Data No 1 GPS Satellite Used 1-16

TX RATE 1sec 1 sec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 100 msec 1sec 40 msec 160 msec 40 msec 40 msec 160 msec 40 msec 40 msec 40 msec 40 msec 40 msec 1sec 1 sec 1sec 100 msec 40 msec 40 msec 100 msec 100 msec

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LABEL-EQUIP ID 272-00Be 276-00Be 277-00Be 301-004e 302-004e 306-004e 307-004e 310-004e 311-004e 314-004e 315-004f 316-004f 321-004e 324-004e 325-004e 340-00Be 340-004e 342-004e 343-004e 344-004e 345-004e 346-004e 350-004f 351-004f 365-004e 366-004e 367-004e (2)

DESCRIPTION GPS Satellite Used 17-32 GPS Dilution Factor, VDOP HDOP GPS Dilution Factor, PDOP GDOP Velocity North, Hybrid GPS Velocity East, Hybrid GPS Latitude, Ppos Hyb GPS (MSW) Longitude, Ppos Hyb GPS (MSW) Latitude Pure Inertial Longitude Pure Inertial True Heading Wind speed Wind direction Drift Angle Pitch Angle Roll Angle Satellites visible X Lever Arm to GPS Antenna (+ Forward) Z Lever Arm to GPS Antenna (+ Down) Yaw Boresight Pitch Boresight Roll Boresight Y Lever Arm to GPS Antenna (+ Right) RAIM integrity AAIM integrity Velocity Vertical, Pure Inertial Velocity North, Pure Inertial Velocity East, Pure Inertial

TX RATE 100 msec 1sec 1sec 40 msec 40 msec 40 msec 40 msec 40 msec 40 msec 40 msec 160 msec 160 msec 40 msec 40 msec 40 msec 1sec 40 msec 40 msec 40 msec 40 msec 40 msec 40 msec 160 msec 160 msec 40 msec 40 msec 40 msec

Digital FMS to EGI Link Summary This section describes the ARINC 429 data words and the transmission protocol of the outputs from the FMS to the LN-100GT EGI. LABEL-EQUIP ID 005-002s 006-002s 041-002 042-002 054-002s 055-002s 150-002 203-002 210-002 260-002s 270-002b 271-002a 304-002s 306-002

DESCRIPTION Set Latitude WGS84, (LSW) Set Longitude WGS84, (LSW) Set Latitude WGS84, (MSW) Set Longitude WGS84, (MSW) Delta Latitude Update/ Pure INS Delta Longitude Update/ Pure INS GMT Time, UTC Pressure Altitude (standard) True Airspeed Date Discrete Data Input Status Discrete Data Input Status Magnetic variation Latitude INI/END

TX RATE 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec

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LABEL-EQUIP ID 307-002 340-002s 342-002s 343-002s 344-002s 345-002s 346-002s II.

DESCRIPTION Longitude INI/END X Lever Arm to GPS (+Fwd) Z Lever Arm to GPS Antenna (+Dwn) Yaw Boresight Entry Pitch Boresight Entry Roll Boresight Entry Y Lever Arm to GPS Antenna (+Rt)

TX RATE 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec

SIGMA50H Embedded GPS/INS Sensor (ARINC 429) (1)

Digital EGI to FMS Link Summary This section describes the ARINC 429 data words and the transmission protocol of the inputs to the FMS from the SIGMA50H EGI. LABEL-EQUIP ID 010-00Bf 011-00Bf 076-00Bf 103-00Bf 110-00Bf 111-00Bf 112-00Bf 120-00Bf 121-00Bf 150-00Bf 163-004f 166-00Bf 171-004f 172-004f 174-00Bf 214-004f 220-004f 240-004f 240-00Bf 243-004f 260-00Bf 265-00Bf 270-004f 270-004f 270-00Bf 271-00Bf 276-00Bf 277-00Bf 301-004f 302-004f 306-004f

DESCRIPTION GPS SA/AS Key Status GPS Integrity GPS Altitude Mean Sea Level GPS Ground Track GPS Latitude (MSW) GPS Longitude (MSW) GPS Ground Speed GPS Latitude (LSW) GPS Longitude (LSW) GMT Time UTC Navigation Time North South GPS Speed Hybrid/GPS Quality Factor Hybrid/DVS Quality Factor East West GPS Speed Alignment Counter Baro Inertial Altitude Latitude, Ppos Hyb GPS (LSW) GPS Est Horizontal Position Error Longitude, Ppos Hyb GPS (LSW) GPS Date GPS Vertical Velocity INS Output Status Label Maintenance Label GPS Discrete Data No 1 NB. GPS Satellite Used GPS Dilution Factor, VDOP HDOP GPS Dilution Factor, PDOP GDOP Velocity North, Hybrid GPS Velocity East, Hybrid GPS Latitude, Ppos Hyb GPS (MSW)

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RATE 960 msec 960 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 960 msec 40 msec 160 msec 40 msec 40 msec 160 msec 40 msec 160 msec 160 msec 960 msec 40 msec 960 msec 160 msec 40 msec 40 msec 160 msec 160 msec 960 msec 960 msec 40 msec 40 msec 40 msec

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(2)

LABEL-EQUIP ID 307-004f

DESCRIPTION Longitude, Ppos Hyb GPS (MSW)

RATE 40 msec

310-004f 311-004f 314-004f 315-004f 315-00Bf 316-004f 316-00Bf 321-004f 324-004f 325-004f 340-004f 342-004f 343-004f 344-004f 345-004f 346-004f 350-004f 351-004f 365-004f 366-004f 367-004f

Latitude Pure INS/DVS Longitude Pure INS/DVS True Heading Wind Speed

40 msec 40 msec 40 msec 160 msec

Wind Direction

160 msec

Drift Angle Pitch Angle Roll Angle X Lever Arm to GPS Antenna (+ Forward) Z Lever Arm to GPS Antenna (+ Down) Yaw Boresight Pitch Boresight Roll Boresight Y Lever Arm to GPS Antenna (+ Right) RAIM Integrity AAIM Integrity Velocity Vertical, INS/DVS Velocity North, INS/DVS Velocity East, INS/DVS

40 msec 40 msec 40 msec 40 msec 40 msec 40 msec 40 msec 40 msec 40 msec 160 msec 160 msec 40 msec 40 msec 40 msec

Digital FMS to EGI Link Summary This section describes the ARINC 429 data words and the transmission protocol of the outputs from the FMS to the LN-100GT EGI. LABEL-EQUIP ID 007-002 054-002s 055-002s 270-002b 271-002a 306-002 307-002 340-002s 342-002s 343-002s 344-002s 345-002s 346-002s

DESCRIPTION Initial Altitude Delta Latitude Update/ Pure INS Delta Longitude Update/ Pure INS Discrete Data Input Status Discrete Data Input Status Latitude INI/END Longitude INI/END X Lever Arm to GPS (+ Forward) Z Lever Arm to GPS (+ Down) Yaw Boresight Entry Pitch Boresight Entry Roll Boresight Entry Y Lever Arm to GPS Antenna (+ Right)

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RATE 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec 160 msec

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JJ. Weather Radar (ARINC 429) (1)

Weather Radar to FMS Link Summary This section describes the transmission protocol of the inputs to the FMS from the weather radar via ARINC 429.

LABEL-EQUIP ID 360-008 361-008

DESCRIPTION WXR joystick Lat (BNR) WXR joystick Lon (BNR)

MAX RATE 160 msec 160 msec

REMARKS Latitude +/-90 deg Longitude +/-180 deg

KK. Doppler Velocity Sensor DVS (ARINC 429) NOTE: The installation of a DVS is not allowed with an approved FMS. (1)

Doppler Velocity Sensor (RDN85 and ANV353 DVS) to FMS Link Summary This section describes the inputs to the FMS from the Doppler Velocity Sensor (DVS) via ARINC 429.

LABEL-EQUIP ID 050-025

DESCRIPTION DVS Longitudinal speed (BNR)

051-025

DVS Lateral speed (BNR)

052-025

DVS Vertical speed (BNR)

343-025 344-025 345-025 353-025

DVS Boresight YAW (BNR) DVS Boresight PITCH (BNR) DVS Boresight ROLL (BNR) DVS status word

RATE 80 msec (RDN85)/ 40 msec (ANV353) 80 msec (RDN85)/ 40 msec (ANV353) 80 msec (RDN85)/ 40 msec (ANV353) 40 msec (ANV353) 40 msec (ANV353) 40 msec (ANV353) 80 msec (RDN85)/ 40 msec (ANV353)

REMARKS +/- 1024 knots +/- 1024 knots +/- 8192 feets per min +/- 180 degrees +/- 180 degrees +/- 180 degrees

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(2)

FMS to Doppler Velocity Sensor (ANV353 DVS) Link Summary This section describes the outputs from the FMS to the Doppler Velocity Sensor via ARINC 429.

LABEL-EQUIP ID 124-002d 164-002 167-002d 171-002d 172-002d 324-002 325-002 371-002

DESCRIPTION DVS Maintenance (DIS) Radio height (BNR) DVS Boresight YAW (BNR) DVS Boresight ROLL (BNR) DVS Boresight PITCH (BNR) Pitch angle (BNR) Roll angle (BNR) DVS Control

RATE 200 msec 100 msec 200 msec 200 msec 200 msec 100 msec 100 msec 200 msec

REMARKS 0/8142 ft. +/- 180 degrees +/- 180 degrees +/- 180 degrees +/- 180 degrees +/- 180 degrees

LL. Personnel Locator System (ARINC 429) The FMS decodes the range and the steering of the PLS waypoint from the labels in table below. (1) Cubic AN/ARS6 PLS LABEL-EQUIP ID 202-(300) 222-(300)

DESCRIPTION PLS range PLS steering

Rate 200 msec 200 msec

NOTE: 1. PLS Range is the distance between the aircraft and the PLS position. 2. PLS Bearing (steering) is the bearing to the PLS position with the heading of the aircraft as reference (+- 90 degrees). (2)

Cubic V12 PLS LABEL-EQUIP ID 110 –300a 111 –300a 162 –300a 202 –300a 240 –300a 276 –300a

DESCRIPTION PLS Latitude 1000 PLS Longitude 1000 PLS Bearing 200 PLS Range 200 PLS Operating mode 200 PLS Surviving number 200

Rate 1000 msec 1000 msec 200 msec 200 msec 200 msec 200 msec

NOTE: 1. PLS Range is the distance between the aircraft and the PLS position. 2. PLS Bearing is the bearing to the PLS position with the heading of the aircraft as reference (+- 180 degrees).

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MM. Thomson NC-12B TACAN (ARINC 429) This section describes the ARINC 429 data words and the transmission protocol of the outputs from the NC 12B Thomson TACAN used by the FMS. LABEL-EQUIP ID

DESCRIPTION

033 201 222

TACAN Channel TACAN Distance TACAN Omni bearing

Rate (msec) 50 msec 50 msec 50 msec

NN. Data Loader unit Targa (RS-422) This section describes the RS-422 data words and the transmission protocol of the interface Targa data loader and CMA-9000 FMS. When the Targa DLU is configured, the data loader unit sends/receives data to/from the FMS. The communication between the DLU and FMS takes place over the RS422 serial link at 38.4 kbps using the Packet Data Protocol PDP/3-DOS. In order to load files from the Targa DLU to the FMS, the following file extension convention shall be used (otherwise, file transfer is not performed): DATA TYPE USER_DATA NAV_DATA CUSTOM_DATA RADIO_DATA CONFIG_0 CONFIG_1 CONFIG_2 CONFIG_3 PRECAN _MSG MAGVAR_MODEL OEI_MODEL

DESCRIPTION User database Navigation database Custom database Radio Tuning libraries and GSM library OP CSCI configuration file OP CSCI configuration file OP CSCI configuration file OP CSCI configuration file Precanned Messages Magnetic variation model database OEI model data tables

FILE EXTENSION *.UDB *.NDB *.RTE *.RAD *.CFG *.CFG *.CFG *.CFG *.PCM *.MVA *.OEI

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OO. Helicopter Communication System (HCS) Software Protocol (RS-422) Future Growth This section describes the RS-422 data words and the transmission protocol of the HCS interface and CMA-9000 FMS. (1)

HCS Software Protocol (a) Transmission of Data Frames The information interchange is based on simple data frames that start with the ASCII character STX and end with an ETX. The maximum frame length including ETX and STX is 512 characters. Data can be sent without delay between the characters. The receiving system has to read in the complete frame as fast as the data are sent. There is no flow control mechanism to stop the sending station. (b) Polling The FMS polls the Helicopter Communication System periodically. That means a Command or Request Frame is sent by the FMS and the HCS answers in an Answer Frame. Serial Message Frame Types between the HCS and the FMS: FRAME TYPE Command/Request Frame Answer Frame

DESCRIPTION The FMS sends a Command or Request Frame to the HCS. The HCS answers in an Answer Frame

(c) Command / Request Frame If the FMS sends a Command Frame to the HCS, the HCS will respond with an Answer Frame that consists of STX, Status Code (0,1,A,B,@), Attention Code, Checksum and ETX. The FMS can decide whether the command has been accepted depending on the Status Code. If the FMS sends a Request Frame, the HCS responds with an Answer Frame that may have the result of a previous command of this type in the Answer Area. If not, the Status Code informs the FMS that the Command is not yet processed. Command/Request Frame Message Format from the HCS to the FMS

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BYTE NO. 0 1 2 to 1+PL

2+PL to 3+PL 4+PL

CONTENTS OF THE COMMAND/REQUEST FRAME STX Command/Request Parameter Area

Checksum ETX

DESCRIPTION Start of Text Command Code ( '@','A'-'Z') or Request Code ('a'-'z') The Parameter Frame contains the necessary parameters of a command. (Parameter Length (PL) is the length of the Parameter Area) A checksum transmitted in character 2+PL and 3+PL of the Command/Request Frame. End of text

(d) Answer Frame The Answer Frame contains a Status Code that informs the Display Unit about data transmission problems and availability of an answer. Additionally, the FMS gets the information, whether the previously transmitted command could be stored. If an answer is available the Answer Area contains the requested answer data. Every Answer Frame contains an Attention Code. If the character is '@' there is no further answer available in the HCS. If the Character is between 'a' and 'z', it tells the FMS that an answer is available. This answer can be requested by a Request Frame with a Request Code that is equal to the previously received Attention Code. Answer Frame Message Format from the FMS to the HCS: BYTE NO.

0 1

CONTENTS OF THE ANSWER FRAME STX Status Code

2 to 1+AF

Answer Area

2+AF

Attention Code

3+AF 4+AF 5+AF

Checksum ETX

DESCRIPTION

Start of text The Status Character contains one of the following: - command is stored and will be processed ('0') - command refused ('1') - new answer available ('2') - answer available (‘3’) - no answer available ('4') - transmission error occured ('A') - input buffer overflow ('B') - ‘@’ command received (‘@’) The Answer Frame contains the necessary parameters of a command. (Answer Frame (AF) is the length of the Parameter Frame) If an answer has become available, the Attention Code contains the value of the Request Code that can be used to order the Answer Frame. Otherwise, a '@' is inserted. A checksum transmitted in character 3+AF and 4+AF of the Answer Frame. End of text

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(e) Calculation of Checksum In addition to the parity bit that will be transmitted with each character, at the end of a frame a Checksum is inserted. The Checksum is calculated over all characters (7 bit codes) of the data frame excluding STX and ETX. The resulting Checksum is the least 8 significant bits value of the sum over the character codes. The Checksum is transmitted as a two character wide hexadecimal number. As hexadecimal digits the characters '0' to '9' and 'A' to 'F' should be used. The most significant digit is transmitted first. (f)

High Level Software Protocol between HCS and Display Unit 1

Commands and requests sent to the HCS by the FMS:

Commands and requests consist of several information units, which depend on the type of command, request or answer. 2

Format of the Application Data:

In this chapter the format of the application messages is described, which are sent from the FMS to the DC and vice versa. The application messages are inserted in the parameter area of the command ‘S’= ‘ Send a normal message’, when sending a message from the FMS to the DC or inserted in the answer area of the request ‘r’ = ‘Receive a message’, when a message has been received from the DC. The length of the complete message is restricted for Short Messages to 140 bytes. The length of the application messages can be up to 108 characters in direction from the DC to the FMS and up to 66 characters from the FMS to the DC. The last direction is restricted to the length of 66 characters, because the HCS adds to each message characters with information, got by the ‘P’ command, about geographical position, date, time, altitude and remaining flight time according the fuel level. The application data exchanged between DC and FMS and vice versa are passed through by the HCS unchanged. 3

Information Flow:

The following information flows demonstrate examples for the main functions of the communication between the HCS and FMS. As examples only the exchanged application data is shown without STX, Checksum and ETX. The requests shown in the following should be repeated by the CDU until the answer frame indicates a valid answer.

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4

Polling of the CDU-Driver on the HCS by the FMS:

The CDU-driver on the HCS is polled by the FMS about every 100 msec. That means every time the FMS sends a command or a request, the HCS sets up the corresponding answer and sends it to the FMS. Whenever a command is received, outstanding answers for this command type are erased. Answers are erased after having been read. The ‘Send Status’ command and the null command can be sent always by the FMS. In general the null command can be replaced by the ‘Send Status’ command to provide the HCS continuously with the latest status. Whenever the FMS-driver on the HCS receives a message, that means a string of characters beginning with STX and ending with ETX, the following activities will be performed at the HCS: It is checked whether the command/request format code is valid. If so the corresponding answer will be set up with status code and answer area, if available. It will be checked whether any different answer is available. If this is so, the next available answer is announced by the corresponding attention code. The answer frame is sent to the FMS. The delay between reception of a frame and answer to this frame is less than 50 msec. PP. Radio Interface Box (RIB) equipment (RS-422) Future Growth (1) This section describes the RS-422 data words and the transmission protocol of the RIB interface and CMA-9000 FMS. The FMS shall communicate with the RIB in accordance to the protocol listed below. (a) Serial Port Radio Equipment The RIB has the capability to control the following serial radio equipment: • • • •

AN/ARC-164 UHF AM Radio; AN/ARC-186 VHF FM Radio; AN/ARC-182 UHF/VHF AM/FM Radio; and AN/ARN-118 TACAN Radio.

(b) Parallel Port Radio Equipment The RIB has the capability to control the following parallel radio equipment: • •

ADF-206 Radio; and VIR-31 NAV Radio.

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QQ. Inertial Reference System (ARINC 429) (1) LTN-92 INS Interface. (a) FMU To/From INU (LTN-92) (See Figure 11, 12 and 13). Figure 11 illustrates the FMU-INU interconnections. The INU high-speed ARINC 429 data bus (HS429) is connected to all three FMUs. This provides ARINC 704 IRS data, including navigation, attitude, acceleration, baro-inertial altitude, true and synthetic magnetic heading, status and maintenance data. The FMU processes the IRS alerts and status messages, which are output on the highspeed data bus, to generate MCDU scratchpad alert messages. The INU CDU bus output provides CDU character data labels, which the FMU processes for the creation of emulated IRS display pages on the MCDU. Under normal operations, the general output bus from each FMU is connected in parallel to the CDU and FMS input ports of its onside INU. The FMU transmits on the general output bus serial data containing both MCDU keystroke and INS initialization data labels. These data labels are automatically recognized by the appropriate INU port without label conflict. Emulated INS-CDU keystrokes are transmitted by the FMU using label 030. The FMU also outputs a status word on label 151 to the INU at a rate of greater than 2 Hz (nominally 10 Hz). The CDU Valid discrete input of the INU is connected to a source of 28 VDC. (b) Primary/Backup FMU-INU Source Switching To enable continued control of an INU in the event of its onside FMU failure, an automatic source select capability is provided to allow the INU CDU and FMS input ports to be switched to a backup FMU (see Figures 10-12). Each INU FMS source select function is controlled by the system valid discrete output of its onside FMU as illustrated in Figures 135 and 136. This source select function is implemented by the Flight Interface Unit (FIU).

INU INU #1 INU #2 INU #3

Primary FMU FMU #1 FMU #2 FMU #3

Backup FMU FMU #2 FMU #3 FMU #1

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(c) LTN-92 CDU Emulation 1

INU Display Data to FMS

LABEL NUMBER 266-004c 200-004c 230-004c 260-004c 310-004c 201-004c 231-004c 261-004c 311-004c 202-004c 232-004c 262-004c 312-004c 203-004c 233-004c 263-004c 313-004c 205-004c 235-004c 265-004c 315-004c

DESCRIPTION INU CDU Display Control Word Display Line 1 Char 1 - 4 Char 5 - 8 Char 9 - 12 Char 13 - 16 Display Line 2 Char 1 - 4 Char 5 - 8 Char 9 - 12 Char 13 - 16 Display Line 3 Char 1 - 4 Char 5 - 8 Char 9 - 12 Char 13 - 16 Display Line 4 Char 1 - 4 Char 5 - 8 Char 9 - 12 Char 13 - 16 Display Line 5 Char 1 - 4 Char 5 - 8 Char 9 - 12 Char 13 - 16

EXPECTED RATE 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec 250 msec

(2) ADIRU/ laseref V/LTN-101 (a) The FMS outputs the following labels to the ADIRU: LABEL NUMBER 041-002 042-002 043-002 For ADIRU and laseref V 125-002 For LTN-101 150-002 203-002 210-002 260-002 NOTE:

DESCRIPTION Initial latitude Initial longitude Initial Magnetic Heading UTC

OUTPUT RATE 100 msec (1) 100 msec (1) 100 msec (1)

UTC

100 msec (1)

Pressure Altitude True Air Speed Date

200 msec 200 msec 100 msec (1)

100 msec (1)

These words are transmitted in bursts of 2-second duration.

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(b) FMS Control Data to INU. LABEL NUMBER 030-004c 151-004c

DESCRIPTION INU CDU Keystroke INU CDU Control Word

EXPECTED RATE as required 100 msec

(c) Inertial Reference System (IRS). 1

LTN-92 IRS Data to FMS.

LABEL NUMBER 072-004 073-004 151-004 152-004 153-004 154-004 155-004 156-004 157-004 158-004 160-004 161-004 310-004 311-004 312-004 313-004 314-004 317-004 320-004 321-004 322-004 324-004 325-004 335-004 361-004 365-004 366-004 367-004 270-004

DESCRIPTION Inertial latitude Inertial longitude IRS maintenance word #1 IRS maintenance word #1 IRS maintenance word #1 IRS maintenance word #1 IRS maintenance word #1 IRS maintenance word #1 IRS maintenance word #1 IRS maintenance word #1 IRS maintenance word #1 IRS maintenance word #1 Present position latitude (updated) Present position longitude (updated) Ground speed Track angle true True Heading Track angle mag Mag heading Drift angle Flight path angle Pitch angle Roll angle Track angle rate Inertial altitude Inertial vertical speed North-South velocity East-West velocity IRS discrete Word

EXPECTED RATE 125 msec 125 msec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 1 sec 125 msec 125 msec 31.25 msec 31.25 msec 31.25 msec 31.25 msec 31.25 msec 31.25 msec 31.25 msec 15.625 msec 15.625 msec 15.625 msec 31.25 msec 31.25 msec 62.5 msec 62.5 msec 500 msec

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2

FMS to Position Initialization Data LTN-92.

LABEL NUMBER 041-002 042-002 150-002 260-002 NOTE:

DESCRIPTION Initial latitude Initial longitude UTC Date

EXPECTED RATE 100 msec (1) 100 msec (1) 100 msec (1) 100 msec (1)

These words are transmitted in bursts of 2-second duration.

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FMU 1 SYSTEM VALID

FMU 3

FMU 2

TP-1A

TP-1A

TP TP MP 15C 1C 1A 15D 1D 1B

TP 8C 8D

TP 9C 9D

TP TP 1C 15C 1D 15D

J1B 49 50

F M S

C D U

J2B J1B 65 47 66 48

INU 1 A/C 28VDC J1B-53 (CDU WARN)

TP 9C 9D

MP TP TP 1A 15C 1C 1B 15D 1D

C D U

J1B 35 36

H S 4 2 9

J1B 49 50

F M S

C D U

J2B J1B 65 47 66 48

C D U

J1B 35 36

H S 4 2 9

J1B 49 50

F M S

C D U

J2B J1B 65 47 66 48

INU 3 A/C 28VDC J1B-53 (CDU WARN)

TP 8C 8D

SYSTEM VALID

TP 9C 9D

FIU (INU # 2 BACKUP RELAY)

FIU (INU # 3 BACKUP RELAY)

FIU (INU # 1 BACKUP RELAY) H S 4 2 9

MP TP 1A 8C 1B 8D

TP-1A

SYSTEM VALID

C D U

J1B 35 36

INU 2 A/C 28VDC J1B-53 (CDU WARN) 929-600008-000 043

Figure 10 Triple FMS/Triple-LTN-92 IRS Interconnections

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PART OF FIU

429 O/P #5 FMU2

429 O/P #5 FMU1

Hi Lo

TP-8C

Hi Lo

TP-8C

SYSTEM VALID FMU1

1 INU1 FMS I/P

Hi Lo

INU1 CDU I/P

2

Hi Lo

INU2 FMS I/P

5

Hi Lo

INU2 CDU I/P

2

Hi Lo

INU3 FMS I/P

5

Hi Lo

INU3 CDU I/P

3 4 5

TP-8D

TP-1A

Hi Lo

2

TP-8D

6 X1

X2

429 O/P #5 FMU3

429 O/P #5 FMU2

Hi Lo Hi Lo

1 3 4 6 X1

SYSTEM VALID FMU2

X2

429 O/P #5 FMU1

429 O/P #5 FMU3

Hi Lo Hi Lo

1 3 4

SYSTEM VALID FMU3

6 X1

Aircraft 28 VDC

X2

0102007

Figure 11 FMU to LTN-92 INU Source Select (All Relays Shown Energized)

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MP-9C, 9D MP-11A, 11B, 11C INU2

I/P 11

INU3

I/P 12

MP-9C, 9D MP-11A, 11B, 11C

FMU 1

FMU 3

I/P 9

I/P 12 TP 15C, 15D

INU 1

J1-B 49, 50

MP-9C, 9D MP-11A, 11B, 11C

I/P 9

INU1

I/P 11

INU2

FMU 2 I/P 11

TP 1C, 1D

INU1

I/P 12

INU3

MP 1A, 1B

FMU2

FMU1

FMU1

FMU3

FMU2

FMU3

COMPASS

I/P 9

J1-B 49, 50

INU 3

COUPLER 1

COMPASS

J1-B 49, 50

INU 2

COUPLER 2

HS 429 TRUE & MAG HDG SYNCHRO MAG HDG APFD A

APFD C

APFD B 929-600008-000 056

Figure 12 Heading Sources for Triple FMS/Triple LTN-92 IRS/Dual Compass Couplers (2) ADIRS ( LTN-101, Laseref V or Honeywell ADIRU) interface. (d) FMU To/From ADIRS The ADIRU Nav data bus is fed to all FMUs. The FMS extracts from this bus the INS position, heading, velocities, status data. The FMS configuration pages expects the following physical interconnections when configuring the FMS ARINC 429 input ports receiving ADIRU data: FMU FMU #1 FMU #2 FMU #3

Primary ADIRS (pIRS) ADIRU #1 ADIRU #2 ADIRU #3

Secondary ADIRS (xIRS) ADIRU #2 ADIRU #1 ADIRU #2

Tertiary ADIRS (tIRS) ADIRU #3 ADIRU #3 ADIRU #1

Under normal operations, the ADIRS expects initialization data from its onside FMS. To enable continued control of an ADIRS in the event of its onside FMU failure, the initialization data of all FMUs is sent to all ADIRSs. ADIRS ADIRS #1 ADIRS #2 ADIRS #3

Primary FMU FMU #1 FMU #2 FMU #3

Secondary FMU FMU #3 FMU #1 FMU #2

Tertiary FMU FMU #2 FMU #3 FMU #1

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(e) Initialization Data from FMU to ADIRS Each ADIRS Remote Test Discrete Input is connected to its onside FMS. The user can initiate an ADIRS Remote TEST via the FMS/MCDU IRS DATA page. The FMS accepts the following labels from the ADIRS: Label For Honeywell ADIRU and Laseref V: 126-004b, d For LTN-101: 160-004a 270-004 271-004b, d 310-004 311-004 312-004 313-004 314-004 317-004 320-004 321-004 322-004 324-004 325-004 335-004 350-004b, d 361-004 365-004 366-004 367-004

Description Time In NAV

Expected Rate 640 msec

Time In NAV

1000 msec

IRS discrete status #1 IRS discrete status #2 Inertial position latitude Inertial position longitude Inertial Ground speed Track Angle True True Heading Track angle magnetic Magnetic heading Drift angle Flight path angle Pitch angle Roll angle Track angle rate IRS Maintenance Word Inertial altitude Inertial vertical speed North-South velocity East-West velocity

320 msec 320 msec 160 msec 160 msec 80 msec 40 msec 40 msec 40 msec 40 msec 40 msec 40 msec 20 msec 20 msec 20 msec 320 msec 40 msec 20 msec 80 msec 80 msec

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SECTION II INSTALLATION 1.

GENERAL The installation of a CMA-9000 Flight Management System (FMS) in an aircraft requires the approval of the appropriate air/radio division of the government of the country issuing the aircraft certificate of airworthiness. Contact with the appropriate government authority prior to the installation and during the system planning is highly recommended in order to minimize approval problems. If installation assistance is required contact CMC's Avionics Field Engineering Department at the telephone/telex/FAX numbers on the title page of this manual.

2.

EQUIPMENT LOCATION A.

General (1)

The location of a Flight Management System within an aircraft varies with the type of aircraft in which it is installed. A typical location of a single FMS installation is illustrated in Figure 101.

(2) System planning is necessary since the FMS must be correctly interfaced with other aircraft system and instrumentation. (3) The FMS is installed in the cockpit area, located either in the instrument panel or in the pedestal. (4) The FMS is secure with four captive Dzus fasteners. B.

Location of the FMS (1)

C.

Where the FMS is to be used as a flight instrument in the guidance and control of the aircraft, it should be located where it is clearly visible to the pilot with the least possible deviation from his normal position and from his line of vision when he is looking forward along the flight path. Where a dual FMS is to be used as flight instrument in the guidance and control of the aircraft, one unit should be located where it is clearly visible to the pilot and the other to the co-pilot. A typical location of the second co-pilot FMS could be right next to the pilot FMS on the center pedestal.

Selection and location of the GPS receiver and related GPS Antenna (1)

Recommendation of GPS receiver and antenna selection CMC Electronics currently offers three types of GPS receiver: the CMA-3012, the CMA-3112 (embedded in the CMA-900 FMS) and the CMA-3024. The CMA-9000 is certified to work with any of these GPS receivers. The latest generation, the CMA-3024 offers growth capability to WAAS and EGNOS. CMC Electronics recommends the selection of the CMA-3024 GPS receiver and an active GPS antenna.

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(2)

GPS receiver location With all avionic equipment, if at all possible, the GPS receiver should be installed in a pressurized and temperature-controlled area with low levels of humidity and moisture in order to reduce environmental stresses. If necessary, it can be installed in an un-pressurized location. The GPS receiver location is dependent upon the location of the GPS antenna. When using a passive antenna, the GPS receiver should be located on the inside of the aircraft near to the GPS antenna to minimize the RF losses in the interconnecting RF cable. This is particularly important in this case since cables longer than a few meters will quickly degrade the sensitivity and the performance of the GPS receiver. Using active antennas allows much longer cable runs, thus more flexibility in installation.

(3)

GPS antenna selection and location When installed with CMA-3012 or CMA-3024 GPS receiver, the GPS antenna must comply with the requirements of RTCA DO-228 change 1. The GPS antenna should be installed on the outer aircraft skin, nominally along the aircraft centerline and upward in a horizontal attitude in normal flight. Typically the antenna will be installed on the forward topside portion of the aircraft fuselage to minimize the shadowing effect of the vertical stabilizer and wings. Proper antenna separation from RF sources is required to provide the RF isolation necessary to minimize the risks of RF interference. It is recommended to install GPS antennas at least one meter away from other transmitting antennas, and at least one hundred and sixty (160) inches (4.064 meters) from SATCOM and GLOBALSTAR antennas. The two antennas in dual GPS receiver antenna installations should be separated by a minimum of twelve (12) inches (0.3048 meter).

Refer to CMA-3012 Installation Manual GNSSU (3012-GEN-1202) for information related to GPS receiver and antenna installation. Refer to CMA-3024 GNSSU MKII CMC Installation Manual 3024-GEN-0801 publication 929600043-XXX for additional information on GPS receiver and related GPS antenna installation information.

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D.

Active Antenna Installations (CMA-3012 and CMA-3024) Recommended Active Antenna Types

PART NUMBER

DESCRIPTION & NOMINAL RF POWER GAIN

S67-1575-132

GPS antenna, active, 29.5 dB gain

S67-1575-133

GPS antenna, active, 33 dB gain

AT575-143W-TNCF000-RG-29.5-NM

GPS antenna, active, DO-228, 29.5 dB gain

MAXIMUM GAIN OF ANTENNA

MANUFACTURER

32.5 dB

Sensor Systems

36 dB

Sensor Systems

32.5 dB

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Figure 101A Typical CMA-9000 Location (for a helicopter)

0607001

Figure 101B Typical CMA-9000 Location (for an aircraft)

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3.

INTERWIRING AND OUTLINE DRAWING The following figures provide dimensional, mounting, connector pin assignments and other data required to correctly install the CMA-9000.

1.87 ±.05

D38999/20FJ35AN MAITING WITH D38999/26FJ35SN NOTES: (UNLESS OTHERWISE SPECIFIED) 1. APPLICABLE STANDARDS/SPECIFICATIONS: ASME Y14.5M-1994. 2. WEIGHT OF UNIT: 8.5 LBS MAX (3.86 Kg). 3. INPUT POWER : 75W TYP, (98W MAX) WITH HEATER : 45W TYP, (67W MAX) WITHOUT HEATER 4. POWER FOR INTEGRAL LIGHTNING: 8W TYP, (12W MAX) (INCLUDED IN INPUT POWER, NOTE 3. FOR VARIATION WITH SENSE CONFIGURATION, REFER TO FIGURE 4) 5. COLOR OF CONTROL PANEL: MATT BLACK. COLOR OF HOUSING: CHEMICAL FILM, CLEAR.

5.02 ±.05

6. CONTROL PANEL DIMENSIONS PER MS25212 AND AS SHOWN. 7. MOUNTING HARDWARE: DZUS FASTENER 1/4 TURN PF35-53RB. 8. NEOPRENE RUBBER GASKET MAY EXCEED MAXIMUM DIMENSIONS.

5.365

6.75 MAX

5.73 ±.05

6.645 REF

6.375

.215 .200

5.75 MAX .762 ±.020

5.82 ±.02 0612006

Figure 102A CMA-9000 Outline Drawing

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0505003

Figure 102B CMA-9000 J1 Connector

PLUG/PIN NO. J1 connector 20FJ35AN J1 backshell P1 connector 26FJ35SN P1 straight cable-clamp back-shell M85049-38-25N P1 elbow cable-clamp back-shell M85049-39-25N

CMC PART NUMBER 230-990123-702 702-990121-803 230-990304-647 230-990304-648

FCI INTERNATIONAL PART NUMBER N/A N/A 805-25F35SN 8D-109F02

N/A

8D-109F03

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PLUG/PIN NO.

SIGNAL NAME

REMARKS

POWER INPUT J1-4 J1-5

+28 VDC I/P HI

Connect to positive side of aircraft +28 Vdc power supply

J1-6 J1-7

+28 VDC I/P LO

Connect to negative side of aircraft +28 Vdc power supply

J1-3

SPARE

Future Growth - On/Off switch (see note below)

J1-53

CHASSIS GROUND

Connect to good aircraft ground plane

J1-54 J1-55

SHIELD RETURN

Internal Ground Connection

J1-127

SPARE

Future Growth - Connect to HOT side of aircraft 115 Vac power supply

J1-128

SPARE

Future Growth - Connect to COLD side of aircraft 115 Vac power supply

IMPORTANT INSTALLATION NOTES: 1) Discrete I/P 1 to 16 supports either open/ground or 0/28 VDC type of discrete signal. The open is defined as >100 Kohms and the ground is defined as 18.5 VDC OFF = computed gross weight OR (radio altitude - fly away height) < 15 ft NOTE: This message is enabled only on the SIMUL FLY AWAY 1/2 and SIMUL OEI CRUISE 2/2 pages. When a Direct-To with InterceptCourse is pending (modified route), The FMS detects that current aircraft heading does not intercept desired course to fix. When a Direct-To with InterceptCourse is pending (modified route), The FMS detects that current aircraft track does not intercept desired course to fix. Pressure altitude is invalid or out of bounds. Holding pattern entry procedure to be used at crossing of holding fix (displayed 10 seconds to holding fix). The library password has been successfully changed. The interception of the moving waypoint is not possible (greater than 500 nm). NOTE: this message is generated when the moving waypoint is not the active waypoint. The FMS detects holding pattern entry procedure to be used at crossing of holding fix (displayed 10 seconds to holding fix). Hover procedure execution. Displayed until the TDN waypoint is reached, at which point the message is removed automatically.

ACTION Ensure KALMAN navigation mode should be deselected.

Advise maintenance to verify the content of the Log file and delete some entries. Verify and reload OEI_FLYAWAY file

Verify intercept course entry and the heading of the aircraft.

Verify intercept course entry and the track.

Enter a valid pressure altitude. Acknowledge the holding pattern entry.

Configuration can be used. Take appropriate measures to meet the moving waypoint.

Acknowledge the holding pattern entry.

Acknowledge the hover procedure.

Figure 304 Status Advisory Messages (Sheet 4 of 5)

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MESSAGE VOR/DME NAV DESELECTED

WAYPOINT BYPASSED

WIND NOT VALID

X-FMS NAV DESELECTED

DESCRIPTION VOR Sensor manually deselected by the pilot. NOTE: Message enabled only when DESELECT page configured. FMS detects that the airplane crosses the wayline (perpendicular line to the next leg at the waypoint) of the next leg before the bisector or the wayline of the active leg. Wind speed invalid. NOTE: This message is enabled only on the SIMUL FLY AWAY 1/2 and SIMUL OEI CRUISE 2/2 pages. FMS-FMS synchronized navigation manually deselected by the pilot. NOTE: Message enabled only in a multiple-FMS installation when DESELECT page configured.

ACTION Ensure VOR/DME/NAV navigation mode should be deselected.

Acknowledge that the FMS sequences both the active and the next leg.

Verify and reload OEI_FLYAWAY file

Ensure xFMS navigation mode should be deselected.

Figure 304 Status Advisory Messages (Sheet 5 of 5)

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SYSTEM TEST PROCEDURE FOR FMS

FMS INITIALIZE

DISPLAY TEST

FMS TEST

SENSOR TEST

EFIS INTERFACE

ANNUNCIATOR TEST

GO TO F SHEET 7

Figure 305 Testing/Troubleshooting Flow Chart (Sheet 1 of 7)

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START TEST

PRESS [INIT REF],

IDENT 1/2 APPEARS?

NO

1. REPLACE FMS

YES

D.BASE DATE CORRECT? CFG NO. S/W NO.

NO

YES

1. D. BASE EXPIRED USING PDL LOAD LATEST DATABASE 2. S/W NO. INCORRECT IF MAINTENANCE ALLOWED TO UPLOAD S/W, THEN UPLOAD PROPER S/W P/N ELSE REPLACE FMS 3. CFG NO. INCORRECT RECONFIGURE FMS

PRESS

POS INIT 1/2 PAGE IS DISPLAYED?

NO

1. REPLACE FMS

YES

POSITION TIME DATE CORRECT?

NO

RE-ENTER CORRECT DATA AS PER OP'S MANUAL

YES

GO TO A SHEET 3

Figure 305 Testing/Troubleshooting Flow Chart (Sheet 2 of 7)

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A

VERIFY REFFERENCES ARE CORRECT PRESS [INIT REF],

NAV STATUS INDEX 1/1 PAGE IS DISPLAYED TO MONITOR THE INSTALLED SENSORS, PRESS THE SOFTKEY ADJACENT TO ROUTE DME

GO TO C SHEET 5

PRESS GPS STATUS 1/2 PAGE IS DISPLAYED

IS OP MODE IN NAV (SUFFICIENT TIMEAT LEAST30 MINUTES MUST BE GIVEN FOR SENSOR TO TRACK SVs)?

NO

VORDME

GO TO D SHEET 5

1. ENSURE AIRCRAFT LOCATED IN CLEAR AREA 2. CHECK GPS ANTENNA CABLE/CONNECTORS 3. REPLACE GPS SENSOR/GPS ANTENNA

YES

PRESS [NEXT] GPS STATUS 2/2 PAGE IS DISPLAYED

GO TO B SHEET 4

Figure 305 Testing/Troubleshooting Flow Chart (Sheet 3 of 7)

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B

COMPARE GPS LAT/LON TO FMS SYSTEM POSITION ON POS INIT/REF PAGE DIFFERENCE > 1000 METERS?

YES

1. ENSURE AIRCRAFT LOCATED IN CLEAR 2. CHECK GPS ANTENNA CABLE/CONNECTORS 3. REPLACE GPS SENSOR

NO

PRESS NAV STATUS INDEX 1/1 PAGE IS DISPLAYED

GO TO C SHEET 5

Figure 305 Testing/Troubleshooting Flow Chart (Sheet 4 of 7)

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C

(IF DME IS INTERFACE TO FMS) NAV STATUS INDEX 1/1 PRESS MONITOR THAT THE DME STATIONS IN THE IMMEDIATE AREA ARE DISPLAYED RECORD FOR LATER COMPARISON

PRESS NAV STATUS INDEX 1/1 PAGE IS DISPLAYED PRESS VOR/DME STATUS 1/1 PAGE IS DISPLAYED

D

RECORD: VOR IDENT, RAD/DIS, FREQ, DME DIS

PRESS [INIT REF] [NEXT] INIT/REF INDEX 2/2 PAGE IS DISPLAYED

PRESS MAINTENANCE 1/1 PAGE IS DISPLAYED ENTER PASSWORD (USUALLY 1) MAINTENANCE 1/2 PAGE IS DISPLAYED

GO TO E SHEET 6

Figure 305 Testing/Troubleshooting Flow Chart (Sheet 5 of 7)

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E

NOTE: THE FOLLOWING TESTS AFFECT ONLY THE ANALOG/DISCRETE OUTPUTS. SHOULD THE FMS BE CONNECTED VIA THE DIGITAL BUS TO AN EFIS THESE TESTS ARE NOT APPLICABLE

PRESS , [NEXT] ANNUNCIATOR TEST 2/3 APPEARS

TOGGLE ANNUNCIATOR FROM OFF TO ON ANNUNCIATOR ILLUMINATES?

NO

1. CHECK A/C WIRING 2. ENSURE INDICATOR LAMP IS GOOD 3. MEASURE VOLTAGE ON DISCRETE PINS 4. REPLACE FMS

YES

IF DUEL SYSTEM ARE INSTALLED REPEAT TESTS ON NUMBER 2 SYSTEM

GO TO F SHEET 7

Figure 305 Testing/Troubleshooting Flow Chart (Sheet 6 of 7)

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F

EFIS INERFACE TEST

NOTE: TO CARRY OUT THE FOLLOWING TESTS, THERE MUST BE AT LEAST 4 WAYPOINTS IN THE ACTIVE ROUTE

SELECT A COMPANY ROUTE FROM THE FMS LIBRARY WHICH ORIGINATES IN THE PRESENT LOCATION

BEARING TO THE FIRST WAYPOINT IS IT OK?

NO

1. REPLACE FMS 2. CHECK A/C WIRING

YES

COUPLE THE FMS TO THE EFIS SELECT MAP MODE SELECT A RANGE TO DISPLAY MORE THAN ONE WAYPOINT

IS THE INFORMATION DISPLAY ON THE DISPLAY SCREEN? (A TYPICAL SIMPLIFIED MAP MODE DISPLAY IS SHOWN IN FIGURE 309)

NO

1. REPLACE FMS 2. CHECK A/C WIRING

YES

END OF TEST

Figure 305 Testing/Troubleshooting Flow Chart (Sheet 7 of 7)

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CMA-9000 MAINTENANCE PAGES

PART NUMBER

MAINTENANCE

1/1

1/1

PASSWORD -----

NEXT

PREV



2.

Provided the ABC Model XXX FMS/GPS navigation system is receiving adequate usable signals, it has been demonstrated capable of and has been shown to meet the accuracy specifications of: VFR/IFR en route oceanic and remote, en route domestic, terminal and instrument approach (FMS/GPS, Loran-C, VOR, VOR-DME, TACAN, NDB, NDB-DME, RNAV) operation (see limitations under para. 6 below) within the North Atlantic Minimum Navigation Performance Specification (MNPS) Airspace using the WGS-84 (or NAD 83) coordinate reference datum in accordance with the criteria of AC 20-XXX, AC 91A9, AC 120-33, and RMI Switch -

8.



9.



10. 11. 12. If the FMS/GPS is installed as a stand-alone GPS navigation system,

FAA Approved Date: ______

Page of

Figure C-1 Sample Airplane Flight Manual Supplement (Sheet 6 of 7)

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Installation Center/Repair Station 123 fourth Street Anytown, USA

Model XXX FMS/GPS Navigation System

13. If the FMS/GPS is installed as a multi-sensor navigation system, 14. CAUTION: FOR OPERATION WITH NON BARO-CORRECTED ALTITUDE INPUTS, ENTER AND CROSS CHECK ALTITUDE SETTING ON FMS.

FAA Approved Date: ______

Page of

Figure C-1 Sample Airplane Flight Manual Supplement (Sheet 7 of 7)

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GLOSSARY

1.

Availability The availability of the FMS/GPS system is the percentage of time that the services of the FMS/GPS system are usable. Availability is an indication of the ability of the system to provide usable service within the specified coverage area. Signal availability is the percentage of time that navigational signals transmitted from the satellites are available for use.

2.

Barometric Altitude Altitude in the earth's atmosphere above mean standard sea level pressure datum, measured by a pressure (barometric) altimeter and corrected for local barometric pressure setting.

3.

Differential FMS/GPS A technique used to improve FMS/GPS system accuracy by determining positioning error from the FMS/GPS satellites at a known fixed location and subsequently transmitting the determined error, or corrective factors, to FMS/GPS users operating in the same area.

4.

Distance Root Mean Square (DRMS) The root-mean-square value of the distances between the measured and true location in a collection of measurements. The two dimensional circular error distribution, where 95 percent of the position solutions must lie within the defined radius of the circle, is represented by two times the DRMS (2 DRMS).

5.

En Route Operations The phase of navigation covering operations between departure and arrival terminal phases. The en route phase of navigation has two subcategories: en route domestic and en route oceanic/remote.

6.

En Route Domestic The phase of flight between departure and arrival terminal phases, with departure and arrival points within the U.S. National Airspace System (NAS).

7.

En Route Oceanic and Remote The phase of flight between the departure and arrival terminal phases, with an extended flight path over an ocean.

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8.

Flight Technical Error (FTE) Navigation error introduced by the pilot's (or autopilot's) capability to utilize displayed guidance information to track the desired flight path.

9.

Geometric Altitude Altitude above the surface of the WGS-84 ellipsoid.

10. Geometric Dilution of Precision (GDOP) A measure of the satellite geometric effects that degrade a user's position determination. 11. FMS/GPS Equipment Classes A(), B() and C() FMS/GPS equipment is categorized into the following classes (ref. TSO-C129a), refer to Figure C-2: CLASS

STANDALONE

A1 A2

MULTISENSOR NMS

AUTOPILT RAIM * RAIM REQUIRED EQUIVLNT

ENROUTE

TERMINAL

X

X

X

X

X

X

X

X

B1

X

X

X

X

B2

X

X

X

X

B3

X

X

X

X

B4

X

X

X

X

C1

X

X

X

X

X

C2

X

X

X

X

X

C3

X

X

X

X

X

C4

X

X

X

X

X

NONPREC. APPROACH

* Receiver Autonomous Integrity Monitoring

NOTE:

For guidance on approval of Stand Alone FMS/GPS equipment (Class A), refer to FAA Notice AC20-130. For guidance on approval of FMS/GPS equipment used in multi-sensor Navigation Management Systems or Flight Management Systems (Class B and C), refer to FAA Notice AC20-130.

Figure C-2 FMS/GPS TSO-C129a Equipment Classes and Applications

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a.

Class A() Equipment incorporating both the FMS/GPS sensor and navigation capability. This equipment incorporates receiver autonomous integrity monitoring (RAIM). Class Al equipment includes en route, terminal, and non-precision approach navigation capability. Class A2 equipment includes en route and terminal navigation capability only.

b.

Class B() Equipment consisting of a FMS/GPS sensor that provides data to an integrated navigation system (e.g., flight management system, multi-sensor navigation system, etc.). Class B1 equipment includes RAIM and provides en route, terminal, and-non-precision approach capability. Class B2 equipment includes RAlM and provides en route and terminal capability only. Class B3 equipment requires the integrated navigation system to provide a level of FMS/GPS integrity equivalent to RAIM and provides en route, terminal, and non-precision approach capability. Class B4 equipment requires the integrated navigation system to provide a level of FMS/GPS integrity equivalent to RAIM and provides en route and terminal capability only.

c.

Class C() Equipment consisting of a FMS/GPS sensor that provides data to an integrated navigation system (e.g., flight management system, multi-sensor navigation system, etc.), which provides enhanced guidance to an autopilot or flight director in order to reduce flight technical error. Installation of Class C() equipment is limited to aircraft approved under FAR Part 121 or equivalent criteria. Class C l equipment includes RAIM and provides en route, terminal, and non-precision approach capability. Class C2 equipment includes RAIM and provides en route and terminal capability only. Class C3 equipment needs the integrated navigation system to provide a level of FMS/GPS integrity equivalent to RAIM and provides en route, terminal, and non-precision approach capability. Class C4 equipment requires the integrated navigation system to provide a level of FMS/GPS integrity equivalent to RAIM and provides en route and terminal capability only.

12. Horizontal Dilution of Precision (HDOP) A measure of the satellite geometric effects which degrade a user's horizontal position determination. 13. Integrity The probability that the system will provide accurate navigation as specified or timely warnings to users when FMS/GPS data should not be used for navigation. 14. Mask Angle A fixed elevation angle referenced to the user's horizon below which FMS/GPS satellites are ignored by the receiver software.

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INSTALLATION/FLIGHT LINE MANUAL CMA-9000 FLIGHT MANAGEMENT SYSTEM

15. Non-Precision Approach Operations Those flight phases conducted on charted Instrument Approach Procedures (IAP's) commencing at the initial approach fix and concluding at the missed approach point or the missed approach holding fix, as appropriate. 16. Pressure Altitude Altitude in the earth's atmosphere above mean standard sea level pressure datum plane, measured by a pressure (barometric) altimeter set to standard pressure (29.92 inches of mercury). 17. Pseudorange The distance from the user to a satellite plus an unknown user clock offset distance. With four satellite signals it is possible to compute position and offset distance. 18. Receiver Autonomous Integrity Monitoring (RAIM) A technique whereby a civil FMS/GPS receiver/processor determines the integrity of the FMS/GPS navigation signals using only FMS/GPS signals or FMS/GPS signals augmented with altitude. This determination is achieved by a consistency check among redundant pseudorange measurements. At least one satellite in addition to those required for navigation must be in view for the receiver to perform the RAIM function. 19. Stand-Alone FMS/GPS Navigation System Stand-alone FMS/GPS equipment is equipment that is not combined with other navigation sensors or navigation systems such as DME, Loran-C, Inertial, etc. Stand-alone FMS/GPS equipment can, however, include other augmentation features such as aItimetry, smoothing, clock coasting, etc. 20. Supplemental Air Navigation System An FAA approved navigation system that can be used for navigation provided an alternate navigation system, which meets all of the regulatory requirements for the route of flight, is also installed on the aircraft. 21. System Availability The percentage of time (specified as 98 percent) that at least 21 of the 24 FMS/GPS satellites must be operational and providing a usable navigation signal. 22. Terminal Area Operations Those flight phases conducted on charted Standard Instrument Departures (SID's), on Standard Terminal Arrivals (STAR's), or other flight operations between the last en route fix/waypoint and an initial approach fix/waypoint. 23. Track Angle Error Track angle error is the difference between the desired track and actual track (magnetic or true).

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To order a Manual with the Binder: 929-600026-000 To order a Manual on CD: 929-600026-005

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