Garmin 02136 Low Power Transmitter (2400-2483.5 MHz) User Manual 190 00303 91 0A

Garmin International Inc Low Power Transmitter (2400-2483.5 MHz) 190 00303 91 0A

Contents

USERS MANUAL 1

190-00303-91 December, 2013 Revision 1Garmin DeviceInstallation ManualDRAFT
Garmin Device Installation Manual 190-00303-91Page A Rev. 1© Copyright 2013Garmin Ltd. or its subsidiariesAll Rights ReservedExcept as expressly provided herein, no part of this manual may be reproduced, copied, transmitted, disseminated, downloaded or stored in any storage medium, for any purpose without the express prior written consent of Garmin.  Garmin hereby grants permission to download a single copy of this manual and of any revision to this manual onto a hard drive or other electronic storage medium to be viewed and to print one copy of this manual or of any revision hereto, provided that such electronic or printed copy of this manual or revision must contain the complete text of this copyright notice and provided further that any unauthorized commercial distribution of this manual or any revision hereto is strictly prohibited.Garmin International, Inc.1200 E. 151st StreetOlathe, KS  66062 USATelephone: 913.397.8200Aviation Panel-Mount Technical Support Line (Toll Free) 1.888.606.5482www.garmin.comGarmin (Europe) Ltd.Liberty House, Bulls Copse RoadHounsdown Business ParkSouthampton, SO40 9RB U.K.+44/ (0) 870.8501241Garmin AT, Inc.2345 Turner Rd., SESalem, OR  97302 USATelephone: 503.581.8101RECORD OF REVISIONSRevision Revision Date DescriptionA12/17/13 Initial ReleaseDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page iCURRENT REVISION DESCRIPTIONDOCUMENT PAGINATIONRevision Page Number(s)Section Number Description of ChangeAAll All Initial ReleaseSection Page RangeTable of Contents i – xSection 1  1-1 – 1-6Section 2 2-1 – 2-4Section 3 3-1 – 3-22Section 4 4-1 – 4-6Appendix A A-1 – A-12Appendix B B-1 – B-4Appendix C C-1 – C-4Appendix D D-1 – D-5DRAFT
Garmin Device Installation Manual 190-00303-91Page ii Rev. 1INFORMATION SUBJECT TO EXPORT CONTROL LAWSThis document may contain information which is subject to the Export Administration Regulations("EAR") issued by the United States Department of Commerce (15 CFR, Chapter VII, Subchapter C) andwhich may not be exported, released, or disclosed to foreign nationals inside or outside of the United Stateswithout first obtaining an export license.  The preceding statement is required to be included on any and allreproductions in whole or in part of this manual.DEFINITIONS OF WARNINGS, CAUTIONS, AND NOTESWARNINGThis product, its packaging, and its components contain chemicals known to the State of California to cause cancer, birth defects, or reproductive harm.  This Notice is being provided in accordance with California's Proposition 65.  If you have any questions or would like additional information, please refer to our web site at www.garmin.com/prop65.CAUTIONThe front bezel, keypad, and display can be cleaned with a microfiber cloth or with a soft cotton cloth dampened with clean water.  DO NOT use any chemical cleaning agents.  Care should be taken to avoid scratching the surface of the display.WARNINGWarnings are used to bring to the installer’s immediate attention that not only damage to the equipment but personal injury may occur if the instruction is disregarded.CAUTIONCautions are used to alert the individual that damage to equipment may result if the procedural step is not followed to the letter.NOTENotes are used to expand and explain the preceding step and provide further understanding of the reason for the particular operation.DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page iiiAviation Limited WarrantyAll Garmin avionics products are warranted to be free from defects in materials or workmanship for: two years from the date of purchase for new Remote-Mount and Panel-Mount products; one year from the date of purchase for new portable products and any purchased newly-overhauled products; six months for newly-overhauled products exchanged through a Garmin Authorized Service Center; and 90 days for factory repaired or newly-overhauled products exchanged at Garmin in lieu of repair.  Within the applicable period, Garmin will, at its sole option, repair or replace any components that fail in normal use. Such repairs or replacement will be made at no charge to the customer for parts or labor, provided that the customer shall be responsible for any transportation cost.  This warranty does not apply to: (i) cosmetic damage, such as scratches, nicks and dents; (ii) consumable parts, such as batteries, unless product damage has occurred due to a defect in materials or workmanship; (iii) damage caused by accident, abuse, misuse, water, flood, fire, or other acts of nature or external causes; (iv) damage caused by service performed by anyone who is not an authorized service provider of Garmin; or (v) damage to a product that has been modified or altered without the written permission of Garmin.  In addition, Garmin reserves the right to refuse warranty claims against products or services that are obtained and/or used in contravention of the laws of any country.THE WARRANTIES AND REMEDIES CONTAINED HEREIN ARE EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING ANY LIABILITY ARISING UNDER ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, STATUTORY OR OTHERWISE.  THIS WARRANTY GIVES YOU SPECIFIC LEGAL RIGHTS, WHICH MAY VARY FROM STATE TO STATE.IN NO EVENT SHALL GARMIN BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES, WHETHER RESULTING FROM THE USE, MISUSE OR INABILITY TO USE THE PRODUCT OR FROM DEFECTS IN THE PRODUCT.  SOME STATES DO NOT ALLOW THE EXCLUSION OF INCIDENTAL OR CONSEQUENTIAL DAMAGES, SO THE ABOVE LIMITATIONS MAY NOT APPLY TO YOU.Garmin retains the exclusive right to repair or replace (with a new or newly-overhauled replacement product) the product or software or offer a full refund of the purchase price at its sole discretion.  SUCH REMEDY SHALL BE YOUR SOLE AND EXCLUSIVE REMEDY FOR ANY BREACH OF WARRANTY.Online Auction Purchases: Products purchased through online auctions are not eligible for warranty coverage. Online auction confirmations are not accepted for warranty verification.  To obtain warranty service, an original or copy of the sales receipt from the original retailer is required.  Garmin will not replace missing components from any package purchased through an online auction.International Purchases:  A separate warranty may be provided by international distributors for devices purchased outside the United States depending on the country.  If applicable, this warranty is provided by the local in-country distributor and this distributor provides local service for your device.  Distributor warranties are only valid in the area of intended distribution.  Devices purchased in the United States or Canada must be returned to the Garmin service center in the United Kingdom, the United States, Canada, or Taiwan for service.  Garmin International, Inc. Garmin (Europe) Ltd.1200 East 151st Street Liberty House, Bulls Copse RoadOlathe, Kansas 66062, U.S.A. Hounsdown Business Park Phone:913/397.8200 Romsey, SO40 9RB, U.K.FAX:913/397.0836 Phone:44/ (0) 870.8501241                                       FAX:44/ (0) 870.850125DRAFT
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190-00303-91 Garmin Device Installation ManualRev. 1 Page vTABLE OF CONTENTSPARAGRAPH PAGESection 1 Garmin Device Installation Overview ..............................................1-11.1 Unpacking Unit................................................................................................................ 1-11.2 Introduction...................................................................................................................... 1-11.3 System Overview.............................................................................................................1-21.4 General Garmin Device LRU Specifications................................................................... 1-21.5 Mounting.......................................................................................................................... 1-31.6 Wiring/Cabling Considerations ....................................................................................... 1-31.7 Wiring Harness Installation ............................................................................................. 1-4Section 2 Garmin Device ....................................................................................2-12.1 Equipment Description .................................................................................................... 2-12.2 Electrical Specifications .................................................................................................. 2-22.3 Environmental Specifications .......................................................................................... 2-32.4  Installation Requirements ............................................................................................... 2-42.5 Installation Considerations .............................................................................................. 2-52.6 Mounting Requirements .................................................................................................. 2-52.7 Unit Installation ............................................................................................................... 2-52.8 Continued Airworthiness ................................................................................................. 2-52.9 Panel Cutout Template..................................................................................................... 2-5Section 3 GPS/SiriusXM® Antenna Installation .............................................3-13.1 Garmin Antennas .............................................................................................................3-23.2 Antenna Mounting Considerations .................................................................................. 3-33.3 Teardrop Footprint Antenna Installation (GA 55 and GA 56) ........................................ 3-83.4 ARINC 743 Footprint Antenna Installation (GA 55A, GA 57X).................................. 3-153.5 Non-Structural Mount Installation................................................................................. 3-24Section 4 Software, Configuration, Databases, and SiriusXM® Activation .4-14.1 Configuration Mode......................................................................................................... 4-14.3 Software Loading Procedure ........................................................................................... 4-24.4 Configuration Pages.........................................................................................................4-34.5 Garmin Database Updates ............................................................................................. 4-114.6 Sirius XM® Activation Instructions (Garmin Device only).......................................... 4-14Appendix A Garmin Device Pinouts ................................................................A-1A.1 Garmin Device ...............................................................................................................A-1Section B Connector Installation Instructions.................................................B-1B.1 Jackscrew Backshell Installation Instructions.................................................................B-1DRAFT
Garmin Device Installation Manual 190-00303-91Page vi Rev. 1PARAGRAPH PAGEAppendix C Outline and Installation Drawings .............................................C-1Appendix D Interconnect Example..................................................................D-1DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page viiLIST OF FIGURESFIGURE PAGESection 1 Garmin Device Installation Overview ..............................................1-1Figure 1-1  Coax Cable Installation....................................................................................... 1-5Section 2 Garmin Device ....................................................................................2-1Figure 2-1  Garmin Device .................................................................................................... 2-1Figure 2-2  Garmin Device Mounting Accessories ............................................................... 2-4Section 3 GPS/SiriusXM® Antenna Installation .............................................3-1Figure 3-1  Recommended Antenna Placement .................................................................... 3-5Figure 3-2  Carbon/Glass Buried Antenna Area.................................................................... 3-6Figure 3-3  Glare Shield Buried Antenna Area ..................................................................... 3-7Figure 3-4  Doubler Design, Teardrop Footprint Antenna, Skin Thickness 0.032" to 0.049"  .................................................................................................................. 3-10Figure 3-5  Doubler Design, Teardrop Footprint Antenna, Skin Thickness 0.049" to 0.051" ................................................................................................................... 3-10Figure 3-6  Doubler Design, Teardrop Footprint Antenna, Skin Thickness 0.051" to 0.063" ................................................................................................................... 3-11Figure 3-7  Sample Doubler Location, Teardrop Footprint Antenna, Metal Skin Aircraft. 3-11Figure 3-8  Skin Cutout Detail, Teardrop Footprint Antenna, Skin Thickness 0.032" to 0.049" ................................................................................................................... 3-12Figure 3-9  Skin Cutout Detail, Teardrop Footprint Antenna, Skin Thickness 0.049" to 0.051" ................................................................................................................... 3-12Figure 3-10  Skin Cutout Detail, Teardrop Footprint Antenna, Skin Thickness 0.051" to 0.063" ................................................................................................................... 3-13Figure 3-11  Doubler Installation, Teardrop Footprint Antenna, Skin Thickness 0.032" to 0.049" ................................................................................................................... 3-13Figure 3-12  Doubler Installation, Teardrop Footprint Antenna, Skin Thickness 0.049" to 0.051" ................................................................................................................... 3-14Figure 3-13  Doubler Installation, Teardrop Footprint Antenna, Skin Thickness 0.051" to 0.063" ................................................................................................................... 3-14Figure 3-14  Doubler Design, ARINC 743 Footprint Antenna, Skin Thickness 0.032" to 0.049" ................................................................................................................... 3-17Figure 3-15  Doubler Design, ARINC 743 Footprint Antenna, Skin Thickness 0.049" to 0.051" ................................................................................................................... 3-18Figure 3-16   Doubler Design, ARINC 743 Footprint Antenna, Skin Thickness 0.051" to 0.063" ................................................................................................................... 3-19Figure 3-17  Sample Doubler Location, ARINC 743 Antenna, Metal Skin Aircraft .......... 3-20Figure 3-18  Skin Cutout Detail, ARINC 743 Footprint Antenna, Skin Thickness 0.032" to 0.049" ................................................................................................................... 3-20Figure 3-19  Skin Cutout Detail, ARINC 743 Footprint Antenna, Skin Thickness 0.049" to 0.051" ................................................................................................................... 3-21DRAFT
Garmin Device Installation Manual 190-00303-91Page viii Rev. 1FIGURE PAGEFigure 3-20  Skin Cutout Detail, ARINC 743 Footprint Antenna, Skin Thickness 0.051" to 0.063" ................................................................................................................... 3-21Figure 3-21  Doubler Installation, ARINC 743 Footprint Antenna, Skin Thickness 0.032" to 0.049" ................................................................................................................... 3-22Figure 3-22  Doubler Installation, ARINC 743 Footprint Antenna, Skin Thickness 0.049" to 0.051" ................................................................................................................... 3-22Figure 3-23   Doubler Installation, ARINC 743 Footprint, Skin Thickness 0.051" to 0.063" ................................................................................................................... 3-23Figure 3-24   Installation of ARINC 743 Footprint Antenna .............................................. 3-23Figure 3-25  Generic Non-structural ARINC 743 Footprint Antenna Installation.............. 3-25Figure 3-26  Example Bracket Antenna Mounting Under Glareshield ............................... 3-25Figure 3-27  Example Non-structural Antenna Mounting Under Glareshield .................... 3-26Figure 3-28  Example Teardrop Antenna Installation In Airframe Under Fabric Skin....... 3-27Figure 3-29  Example ARINC 743 Footprint In Airframe Under Fabric Skin.................... 3-27Figure 3-30  Example Non-structural Antenna Mounting On Airframe ............................. 3-28Figure 3-31  Example Teardrop Footprint Antenna Mounting Under Fabric Skin ............. 3-29Section 4 Software, Configuration, Databases, and SiriusXM® Activation .4-1Appendix A Garmin Device Pinouts................................................................A-1Figure A-1   View of J4601 Connector from Back of Unit .................................................. A-1Figure A-2   View of J4602 Connector from Back of Unit .................................................. A-2Figure A-3   View of J4603 Connector from Back of Unit .................................................. A-4Section B Connector Installation Instructions.................................................B-1Figure B-1  Shield Install onto a Jackscrew Backshell (78 pin example) .............................B-2Figure B-2   Method A.1 for Shield Termination ..................................................................B-3Figure B-3  Insulation/Contact Clearance .............................................................................B-5Figure B-4  Method A.2 (Daisy Chain) for Shield Termination ...........................................B-7Figure B-5   Method B.1 (Quick Term) for Shield Termination ...........................................B-9Figure B-6  Method B.2 (Daisy Chain-Quick Term) for Shield Termination.....................B-10Figure B-7  Daisy Chain between Methods A and B ..........................................................B-11Figure B-8  D-Sub Spliced Signal Wire illustration ............................................................B-12Appendix C Outline and Installation Drawings .............................................C-1Figure C-1  Garmin Device Outline Drawing .......................................................................C-1Figure C-2  Garmin Device Installation Drawing .................................................................C-2Figure C-3  Garmin Device Nutplate Drawing (not to scale)................................................C-3Figure C-4  Garmin Device Panel Cutout Drawing...............................................................C-4Appendix D Interconnect Example..................................................................D-1Figure D-1  Garmin Device Interconnect Example .............................................................. D-1DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page ixLIST OF TABLESTABLE PAGESection 1 Garmin Device Installation Overview ..............................................1-1Table 1-1  Garmin Device LRU Part Numbers ..................................................................... 1-2Table 1-2  Contents of Garmin Device Assembly (010-01057-XX)..................................... 1-2Table 1-3  Garmin Device LRU Power Requirements .......................................................... 1-2Table 1-4  Garmin Device LRU Physical Specifications ...................................................... 1-3Table 1-5  Pin Contact and Crimp Tools Part Numbers ........................................................ 1-4Section 2 Garmin Device ....................................................................................2-1Table 2-1  Garmin Device Supply Voltages.......................................................................... 2-2Table 2-2  Garmin Device Power Requirements ................................................................... 2-2Table 2-3  Garmin Device GPS Specifications ..................................................................... 2-2Table 2-4  Garmin Device Supported Antennas.................................................................... 2-3Table 2-5  Garmin Device Required Accessories.................................................................. 2-4Table 2-6  Contents of Garmin Device Connector Kit (011-01921-00)................................ 2-4Section 3 GPS/SiriusXM® Antenna Installation .............................................3-1Table 3-1  Supported Garmin Antennas ................................................................................ 3-2Table 3-2  GPS Antenna Minimum Requirements................................................................ 3-2Table 3-3   SiriusXM® Satellite Radio Antenna Minimum Requirements........................... 3-3Table 3-4  Teardrop Footprint Antenna Doubler Design and Installation............................. 3-8Table 3-5  ARINC 743 Footprint Antenna Doubler Design and Installation...................... 3-15Table 3-6  Minimum Distance Required Between Tube Structure and Antenna ................ 3-29Section 4 Software, Configuration, Databases, and SiriusXM® Activation .4-1Appendix A Garmin Device Pinouts  ...............................................................A-1Table A-1  J4602................................................................................................................... A-2Table A-2  Aircraft Power .................................................................................................... A-4Table A-3  Configuration Module ........................................................................................ A-5Table A-4  CDU System ID Program Pins ........................................................................... A-5Table A-5  Demo Mode ........................................................................................................ A-5Table A-6  RS-232................................................................................................................ A-6Table A-7  Lighting .............................................................................................................. A-6Table A-8  Mono Audio........................................................................................................ A-6Table A-9  Stereo Audio....................................................................................................... A-7Section B Connector Installation Instructions.................................................B-1Table B-1  Parts supplied for a Shield Block Installation (Figure B-1) ................................B-1Table B-2  Parts not supplied for a Shield Block Installation (Figure B-1) ..........................B-1Table B-3  Shielded Cable Preparations for Garmin Connectors..........................................B-3Table B-4  Shielded Cable Preparations – (Quick Term)......................................................B-9DRAFT
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190-00303-91 Garmin Device Installation ManualRev. 1 Page 1-11 GARMIN DEVICE INSTALLATION OVERVIEW1.1 Unpacking UnitCarefully unpack the equipment and make a visual inspection of the unit for evidence of damage incurred during shipment.  If the unit is damaged, notify the carrier and file a claim.  To justify a claim, save the original shipping container and all packing materials.  Do not return the unit to Garmin until the carrier has authorized the claim.Retain the original shipping containers for storage.  If the original containers are not available, a separate cardboard container should be prepared that is large enough to accommodate sufficient packing material to prevent movement.1.2 IntroductionThis manual provides an overview of the Garmin Device and its mechanical and electrical installation aspects.NOTEThe Garmin Device is not a TSO-certified product and has received no FAA approval or endorsement, and is therefore not suitable for installation in a type-certificated aircraft.The following outline describes the organization of this manual:Section 1 This section gives a basic overview of the Garmin Device system and interface.  This section contains generic information that pertains to all components of the Garmin Device system, such as wiring and backshell considerations.Section 2 This section describes the electrical and installation aspects of the Garmin Device.Section 3 This section describes the electrical and installation aspects of the Garmin GPS and SiriusXM® antennas.Section 4 This section contains software, configuration, database, and SiriusXM® activation information.Section 5 This section contains post-installation checkout for the Garmin Device.Appdx A This section contains pinout information for all Garmin Device LRU’s.Appdx B This section contains outline and installation drawings for the Garmin Antennas and Garmin Device units.Appdx C This section connector installation instructions.Appdx D This section contains interconnect drawings for the Garmin Device.DRAFT
Garmin Device Installation Manual 190-00303-91Page 1-2 Rev. 11.3 System OverviewTBD1.4 General Garmin Device LRU Specifications1.4.1 Garmin LRU Part Numbers1.4.2 Power SpecificationsAll LRUs are capable of operating at either 14 or 28 VDC.  See Table 1-3 for current draw specifications.Table 1-1  Garmin Device LRU Part NumbersLRU Unit Only Part Number Assembly Part NumberGarmin Device Americas DB 011-02920-00 010-01057-00Garmin Device Atlantic DB 011-02920-00 010-01057-01Garmin Device Pacific DB 011-02920-00 010-01057-02Garmin Device Americas DB 011-02920-01 010-01057-10Table 1-2  Contents of Garmin Device Assembly (010-01057-XX) Item Garmin P/N QuantityGarmin Device 011-01747-XX 1Cleaning Cloth 013-00380-00 1SD Card, Dummy 145-00561-00 1Important Safety and Product Information 190-00720-52 1Jeppesen Free Single Update 190-10003-03 1Table 1-3  Garmin Device LRU Power RequirementsLRU Supply Voltage Approx. Current DrawGarmin Device 10-32 Vdc 2.0 Amp @ 14Vdc1.0 Amp @ 28VdcDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 1-31.4.3 Physical SpecificationsMeasurements do not account for space or weight of wiring, cables, etc. 1.4.4 Cooling RequirementsWhile no forced cooling air is required for the Garmin Device, it is highly recommended that the air behind the panel be kept moving (by ventilation or a fan).NOTE Avoid installing the Garmin Device LRUs near heat sources.  If this is not possible, ensure that additional cooling is provided.  Allow adequate space for installation of cables and connectors.  The installer will supply and fabricate all of the cables.  All wiring should be in accordance with FAA AC 43.13-1B and AC 43.13-2A.1.5 MountingRefer to Sections 2 and 3 for specific mounting instructions for each component of the Garmin Device, and to Appendix C for Outline & Installation Drawings.1.6 Wiring/Cabling ConsiderationsUse MIL-W-22759/16 (or other approved wire) AWG #22 or larger wire for all connections unless otherwise specified.  The standard pin contacts supplied in the connector kit are compatible with up to AWG #22 wire.  See Figure D-1 for power/ground wire info.  In cases where some installations have more than one LRU sharing a common circuit breaker, sizing and wire gauge is based on aircraft circuit breaker layout, length of wiring, current draw on units, and internal unit protection characteristics.  Do not attempt to combine more than one unit on the same circuit breaker.RG400 or RG142 coaxial cable with 50 Ω nominal impedance and meeting applicable aviation regulations should be used for the installation.  Table 1-4  Garmin Device LRU Physical SpecificationsLRU Bezel WidthBezel HeightDepth Behind Panel (includes recommended backshell)Unit Weight(Unit Only)Unit Weight(w/connector)Nutplate WeightGarmin Device10.85 inches(275.5 mm)7.82 inches(198.6 mm)3.57 inches(90.7 mm)4.55 lbs(2.064 kg) TBD 0.045 lbs (.0204 kg)Garmin Device10.85 inches(275.5 mm)7.82 inches(198.6 mm)3.57 inches(90.7 mm)4.66 lbs(2.112 kg) TBD 0.045 lbs (.0204 kg)DRAFT
Garmin Device Installation Manual 190-00303-91Page 1-4 Rev. 11.7 Wiring Harness InstallationAllow adequate space for installation of cables and connectors.  Ensure that routing of the wiring does not come in contact with sources of heat, RF or EMI interference.  Analog Input wires routed too close to spark plugs, plug wires, or magnetos may result in erratic readings.The installer shall supply and fabricate all of the cables.  The connector is available in the Garmin Device Connector Kit (011-01921-10).  Electrical connections are made through a 50 pin D-subminiature connector for the Garmin Device units.  Appendix A defines the electrical characteristics of all input and output signals.  Required connectors and associated hardware are supplied with the connector kit.CAUTIONCheck wiring connections for errors before connecting any wiring harnesses.  Incorrect wiring could cause internal component damage.1.7.1 Cable Location ConsiderationsUse cable meeting the applicable aviation regulation for the interconnect wiring.  Any cable meeting specifications is acceptable for the installation.  When routing cables, observe the following precautions:• All cable routing should be kept as short and as direct as possible.• Check that there is ample space for the cabling and mating connectors.• Avoid sharp bends in cabling.• Avoid routing near aircraft control cables.• Avoid routing cables near power sources (e.g., 400 Hz generators, trim motors, etc.) or near power for fluorescent lighting.• Route the GPS antenna cable as far as possible away from all COM transceivers and antenna cables.Table 1-5  Pin Contact and Crimp Tools Part NumbersLRU Contact TypeGarmin Contact Part NumberRecommended PositionerRecommended Insertion/ Extraction ToolRecommended Hand Crimping ToolGarmin DeviceSocket, MilCrimp, Size 20336-00022-02 M22520/2-08, Daniels K13-1M81969/1-04 for size 22D pins and M81969/1-02 for size 20 pinsM22520/2-01Insertion/Extraction tools from ITT Cannon are all plastic; others are plastic with metal tip.Non-Garmin part numbers shown are not maintained by Garmin and consequently are subject to change without notice.DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 1-51.7.2 Cable Installation1. Route the coaxial cable to the unit location.  Secure the cable in accordance with good aviation practices.2. Trim the coaxial cable to the desired length and install the BNC connector (330-00087-00) per the cabling instructions on Figure 1-1.  If the connector is provided by the installer, follow the connec-tor manufacturer’s instructions for cable preparation.Figure 1-1 Coax Cable Installation3. Contacts for the 50 pin connectors must be crimped onto the individual wires of the aircraft wiring harness.  Table 1-5 list contact part numbers (for reference) and recommended crimp tools.1.7.3 Backshell AssembliesConnector kits include backshell assemblies.  Garmin’s backshell connectors give the installer the ability to quickly and easily terminate shield grounds at the backshell housing.  The instructions needed to assemble the backshell connector w/Shield Block grounding system are located in Appendix B.DRAFT
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190-00303-91 Garmin Device Installation ManualRev. 1 Page 2-12 GARMIN DEVICEFigure 2-1 Garmin Device2.1 Equipment DescriptionThe Garmin Device is not suitable for installation in a type-certificated aircraft.  The Garmin Device is mounted flush to the aircraft instrument panel using four #6 screws.  The Garmin Device is available in two models.  The Garmin Device is a Garmin Display Unit with a GPS receiver.  The Garmin Device provides these same features plus an SiriusXM® receiver.2.1.1 Navigation Functions• Display of position and ground speed• Display of stored navigation and map databases• Area navigation functions using the determined position/velocity and stored navigation data• Advisory approach navigation functions and associated databasesInsert pictureDRAFT
Garmin Device Installation Manual 190-00303-91Page 2-2 Rev. 12.1.2 Interface SummaryThe Garmin Device uses RS-232 communications interfaces.  The Garmin Device communicates with the following Garmin LRUs:• GDL 39/GDL39R• GNS 400/500 Series Units•GTN 6XX/7XX• GTX 327/330 Transponder• SL30 Nav/Comm Transceiver• SL40 Comm Transceiver2.2 Electrical Specifications2.2.1 Electrical Characteristics 2.2.2 Power Consumption2.2.3 GPS SpecificationsThe Garmin Device uses a high-sensitivity GPS receiver that continuously tracks and uses up to 12 satellites to compute and update its position. Table 2-1  Garmin Device Supply Voltages Characteristics SpecificationsPower Requirements 14/28 VDCTable 2-2  Garmin Device Power RequirementsLRU 14V (Maximum) 14V (Typical) 28V (Maximum) 28V (Typical)Garmin Device 3.0 Amp 1.8 Amp 1.9 Amp 0.9 AmpGarmin Device 3.5 Amp 2.0 Amp 2.0 Amp 1.0 AmpTable 2-3  Garmin Device GPS Specifications Characteristics SpecificationsAcquisition Timea) Warm Start (position known to 10 nm, time known to 10 minutes, with valid almanac and ephemeris): Less than 5 secondsb) Cold Start (position known to 300 nm, time known to 10 minutes, with valid almanac): Less than 45 secondsc) AutoLocate™ (with almanac, without initial position or time): Less than 60 seconds    Update Rate 5/second, continuousPositional Accuracy <10 meters   Antenna Power Supply Voltage (4.5 to 5.0), current (50 mA max)DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 2-32.2.4 AntennasTable 2-4 lists Garmin and non-Garmin antennas currently supported by the Garmin Device.  Refer to Section 3 for Garmin antenna installation information. For non-Garmin antennas, follow the manufacturer’s installation instructions.NOTEThe GPS antenna should provide a gain of 16 to 25dB, and requires a 4.5V to 5V supply voltage that can provide 50mA max.2.3 Environmental Specifications The Garmin Device has an Operating Temperature Range of -20°C to +60°C.  Table 2-4  Garmin Device Supported AntennasModel Mount Style Conn Type Antenna Type Mfr Antenna Part NumberGarmin Order NumberGA 26CSuction Cup, Magnetic or Flange MtBNC GPS Garmin 011-00149-04 010-10052-04GA 26XM Ground Plane Mt TNC SiriusXM®Garmin 013-00268-10 010-11373-00GA 55 Stud Mount TNC SiriusXM®Garmin 011-01033-00 010-10600-01GA 55A ARINC 743 TNC SiriusXM®Garmin 011-01153-00 010-10598-00GA 56 Stud Mount BNC GPS Garmin 011-00134-00 010-10040-01GA 57X [1]Screw Mount, ARINC 743 FootprintBNC TNCGPS SiriusXM®Garmin 011-01032-10 010-11370-10[1]  The GPS antenna connector is BNC type.  The SiriusXM® antenna connector is TNC type.DRAFT
Garmin Device Installation Manual 190-00303-91Page 2-4 Rev. 12.4  Installation Requirements2.4.1 Required AccessoriesEach of the following accessories is provided in the Installation Kit (010-12150-00), which is sold separately.  The connector kit is required to install the unit (Figure 2-2).  The Garmin Device Nutplate is available to reinforce the panel cutout in thin panel installations. 2.4.2 Additional Equipment RequiredA 3/32” hex drive tool is required to secure the Garmin Device to the panel as described in Section 2.7 Unit Installation. Figure 2-2 Garmin Device Mounting AccessoriesTable 2-5  Garmin Device Required AccessoriesItem Garmin P/N QuantityGarmin Device Connector Kit* 011-01921-10 1Garmin Device Nutplate* 115-01725-01 1*Included in Garmin Device Assembly (010-00667-XX) Table 1-1Table 2-6  Contents of Garmin Device Connector Kit (011-01921-00)Item Garmin P/N QuantitySub-Assy,bkshl w/Hdw,Jackscrew 011-01855-04 1Conn, Rcpt,D-Sub, Crimp Socket, C 330-00625-50 1Contact, Sckt, D-Sub, Crimp, Size 20 336-00022-02 30Insert pictureDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 2-52.5 Installation ConsiderationsFabrication of a wiring harness is required.  Sound mechanical and electrical methods and practices are recommended for installation of the Garmin Device.  Refer to Section 1.6 for wiring considerations, Appendix A.1 for pinouts.Connector kits include backshell assemblies.  Garmin’s backshell connectors give the installer the ability to quickly and easily terminate shield grounds at the backshell housing.  The instructions needed to assemble the backshell connector w/Shield Block grounding system are located in Appendix B.NOTEThe Garmin Device rear connector (J3701) is electrically isolated.  For installations using shielded cables, a ground pin must be tied to the connector shell.2.6 Mounting RequirementsRefer to Appendix C for outline and installation drawings.2.7 Unit InstallationThe Garmin Device is installed by holding the unit flush with the instrument panel and fastening the four 3/32” hex socket head screws to the panel as shown in Figure C-1.1 and C-1.2.2.8 Continued AirworthinessMaintenance of the Garmin Device is “on condition” only.  Periodic maintenance of the Garmin Device is not required.  Instructions for Continued Airworthiness (ICA) are not required for this product under 14 CFR Part 21 since the Garmin Device has received no FAA approval or endorsement.2.9 Panel Cutout TemplateA template that can be used for marking the panel for cutout is available from www.garmin.com.  See Figure C-1.3 for complete dimensions.DRAFT
Garmin Device Installation Manual 190-00303-91Page 2-6 Rev. 1This page intentionally left blankDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-13 GPS/SIRIUSXM® ANTENNA INSTALLATIONThis section contains general information as well as installation information for GPS and SiriusXM antennas.  Use this section to mount the GPS/SiriusXM antenna(s).In an installation with multiple Garmin Device units, each Garmin Device can be configured to use its own internal GPS receiver, or to receive GPS data transmitted by another Garmin Device. A minimum of one GPS antenna is required for installations using more than one Garmin Device unit, as the Garmin Device will “share” the GPS information with all Garmin Device units.  Additional GPS antennas may be used for redundancy, but are not required.NOTEOnly a single GPS antenna is required for installations using more than one Garmin Device unit, as the Garmin Device will “share” the GPS information with all Garmin Device units.DRAFT
Garmin Device Installation Manual 190-00303-91Page 3-2 Rev. 13.1 Garmin AntennasIf using a Garmin GA 26C or GA 26XM, refer to the accompanying installation instructions (190-00082-00 or 190-00522-03).  For GA 55/55A, or GA 56 or GA 57X antennas, refer to this section and the outline and installation drawings beginning with Figure C-1.Garmin recommends the antennas shown in Table 3-1.  However, any equivalent GPS or SiriusXM® antenna that meets the specifications listed in Table 3-2 and Table 3-3 should work with the system.   Table 3-1  Supported Garmin AntennasModel Part Number Description Weight Mounting ConfigurationGA 26C 011-00149-04 GPS Antenna NA Flange, Magnetic, or Suction Cup Mount (for in-cabin mounting)GA 26XM 013-00268-10 SiriusXM® Antenna NA Flange, Magnetic, or Suction Cup Mount (for in-cabin mounting)GA 55 011-01033-00 SiriusXM® Antenna0.25 lbs (0.11 kg) Stud mount (Tear-drop form factor)GA 55A 011-01153-00 SiriusXM® Antenna0.43 lbs (0.20 kg)Thru-mount (ARINC 743 style mount)GA 56 011-00134-00 GPS Antenna 0.24 lbs (0.11 kg) Stud mount (Tear-drop form factor)GA 57X 011-01032-10GPS/Siri-usXM® Antenna0.47 lbs (0.21 kg)Thru-mount (ARINC 743 style mount)Table 3-2  GPS Antenna Minimum RequirementsCharacteristics SpecificationsFrequency Range 1565 to 1585 MHzGain 16 to 25 dB typical, 40 dB max.Noise Figure <4.00 dBNominal Output Impedance 50 ohmsSupply Voltage 4.5 to 5.5 VDCSupply Current up to 50 mAOutput Connector BNCDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-3It is the installer’s responsibility to ensure that their choice of antenna meets FAA standards according to the specific installation.  This installation manual discusses only the antennas listed in Table 3-1.  Other antennas may be acceptable but their installation is not covered by this manual.There are several critical factors to take into consideration before installing an antenna for a satellite communications system.  These factors are addressed in the following sections.3.2 Antenna Mounting ConsiderationsThe information in this section does not pertain to in-cabin (internal) mounted antennas such as the GA 26C, refer to the accompanying installation instructions (190-00082-00).No special precautions need be taken to provide an electrical bonding path between the GPS Antenna and the aircraft structure.3.2.1 VHF COM/GPS InterferenceOn some installation VHF COM transceivers, Emergency Locator Transmitter (ELT) antennas, and Direction Finder (DF) receiver antennas can re-radiate through the GPS antenna.  The Garmin Device does not interfere with its own GPS receiver.  However, placement of the GPS antenna relative to a COM transceiver and COM antenna, ELT antenna, and DF receiver antenna is critical.Use the following guidelines, in addition to others in this document, when locating the Garmin Device and its antennas.• GPS Antenna—Locate as far as possible from all COM antennas and all COM transceivers, ELT antennas, and DF antennas.  The GPS antenna is less susceptible to harmonic interference if a 1.57542 GHz notch filter is installed on the COM transceiver antenna output.• Locate the Garmin Device as far as possible from all COM antennas.If a COM antenna is found to be the problem, a 1.57542 GHz notch filter (Garmin P/N 330-00067-00) may be installed in the VHF COM coax, as close to the COM as possible.If a COM is found to be radiating, the following can be done:1. Replace or clean the VHF COM rack connector to ensure good coax ground.2. Place grounding straps between the Garmin Device unit, VHF COM and a good ground.3. Shield the VHF COM wiring harness.Table 3-3   SiriusXM® Satellite Radio Antenna Minimum RequirementsCharacteristics SpecificationsFrequency Range 2332.5 to 2345 MHzGain (Typical) 24 dB*Noise Figure <1.2 dBNominal Output Impedance 50 ohmsSupply Voltage 3.6 to 5.5 VDCSupply Current (maximum) 55 mAOperating Temperature Gain -50 to +85° C*For each 1 dB gain over 24 dB, add 1 dB of attenuation into the antenna cable path between the antenna and the Garmin Device.DRAFT
Garmin Device Installation Manual 190-00303-91Page 3-4 Rev. 13.2.2 GPS/SiriusXM® Antenna Mounting LocationThe GPS antenna is a key element in the overall system performance and integrity for a GPS navigation system.  The mounting location, geometry, and surroundings of the antenna can affect the system performance and/or availability.  The following guidance provides information to aid the installer in ensuring that the optimum location is selected for the installation of the GPS antenna.  The installation guidelines presented here meet the intent of AC 20-138A section 16.  The greater the variance from these guidelines, the greater the chance of decreased availability.  Because meeting all of these installations guidelines may not be possible on all aircraft, these guidelines are listed in order of importance to achieve optimum performance.  Items 4a - 4c below are of equal importance, and their significance may depend on the aircraft installation.  The installer should use their best judgment to balance the installation guidelines.1. Mount the antenna on top of the aircraft in a location with an unobstructed view of the sky, as close to level as possible with respect to the normal cruise flight attitude of the aircraft.  If the normal flight attitude is not known, substitute the waterline, which is typically referenced as level while performing a weight and balance check.2. The GPS antenna should be mounted in a location to minimize the effects of airframe shadowing during typical maneuvers.  Typically mounting farther away from the tail section reduces signal blockage seen by the GPS antenna.3. The GPS antenna should ideally be located at the opposite end of the aircraft from the COM unit in order to make the GPS less vulnerable to harmonics radiated from the COM itself.4a. The GPS antenna should be mounted no closer than two feet (edge to edge) and ideally three feet from any VHF COM antenna or any other antenna which may emit harmonic (or other) interference at the L1 frequency of 1575.42 MHz.  An aircraft EMC (Electromagnetic Compatibility) check can verify the degradation of GPS in the presence of interference signals.  If an EMC check reveals unacceptable interference, insert a GPS notch filter in line with the offending VHF COM or the (re-radiating) ELT transmitter.NOTEThe separation requirement does not apply to GPS and COM combination antennas, provided the antenna has been tested to meet Garmin’s minimum performance standards.  The separating requirement includes the combination with an SiriusXM antenna element as well.4b. The GPS antenna should be mounted no closer than two feet (edge to edge) and ideally three feet from any antennas emitting more than 25 watts of power.  An aircraft EMC check can verify the degradation of GPS in the presence of interference signals.4c. To minimize the effects of shadowing at 5° elevation angles, the GPS antenna should be mounted no closer than 6 inches (edge to edge) from other antennas, including passive antennas such as another GPS antenna or SiriusXM antenna.5. To maintain a constant gain pattern and limit degradation by the windscreen, avoid mounting the antenna closer than 3 inches from the windscreen.6. For multiple GPS installations, the antennas should not be mounted in a straight line from the front to the rear of the fuselage.  Also varying the mounting location will help minimize any aircraft shading by the wings or tail section (in a particular azimuth, when one antenna is blocked the other antenna may have a clear view).DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-5Figure 3-1 shows the recommended placement of antennas.Figure 3-1  Recommended Antenna PlacementAdd antenna placement figureDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-6 Rev. 13.2.3  Buried Antenna (below the skin covering or glareshield) MountingThere are potential performance issues related to buried antennas that the kit builder/installer should be aware of prior to electing to install a buried antenna.  See also Section 3.5.3, Non-structural Installation to Glareshield.• Some gain of the antenna may be lost as the signal needs to penetrate through the skin of the aircraft.  The loss may not be apparent, but under the some of the worst case signal scenarios signal availability may be affected.• The materials in some aircraft are not suitable for GPS signals to penetrate, care should be taken to properly modify the aircraft structure to accommodate this.  Modifications of this sort are not recommended or inferred by Garmin or the installation of the Garmin Device, and the installer should seek the guidance of the kit manufacture for such modifications.• SiriusXM® – FIS antennas may typically be buried without performance impact if the overlying material is fairly transparent to the satellite signal.Figure 3-2 shows example areas of some mounting locations which have been used.  Low satellite reception and tracking are compromised in these installations due to fuselage and tail blockage.  It is not possible to determine the full impact of these locations, however initial flight testing has not shown any significant impact to availability, your results may vary.Figure 3-2  Carbon/Glass Buried Antenna AreaAdd buried antenna figureDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-7 Mounting the antenna under the glare shield (Figure 3-3) is a good option for SiriusXM® – FIS antennas, although it is not typically the best option for a GPS antenna.  This location results in the aft fuselage shading the antenna.Figure 3-3  Glare Shield Buried Antenna AreaNOTEDue to the excessive temperature environment and large areas of signal blockage caused by the fuselage, mounting the antenna under the engine cowling (forward of the firewall) is not recommended and likely will not provide adequate GPS reception.3.2.4 Antenna Doubler/Backing PlateThe antenna installation must provide adequate support for the antenna considering a maximum drag load of 5 lbs. (at subsonic speed).  When penetrating the skin with a large hole (i.e. for the coax connector) a doubler plate is required to re-instate the integrity of the aircraft skin.  Never weaken the aircraft structure when choosing a mounting area.  Make use of any available reinforcements where appropriate.3.2.5 Antenna Grounding PlaneAlthough no ground plane is required, the antennas typically perform better when a ground plane is used.  The ground plane should be a conductive surface as large as practical, with a minimum diameter of 8 inches.  To use an antenna in aircraft with fabric or composite skin, a ground plane is recommended.  It is usually installed under the skin of the aircraft, below the antenna, and is made of either aluminum sheet or of wire mesh.3.2.6 Antenna GroundingThe antenna is grounded through the mounting hardware and the coax connection.  The mounting hardware (washers and nuts) and doubler plate should make contact with an unpainted grounded surface ensuring proper antenna grounding.  It is important to have good conductivity between the coaxial shield and the ground plane.  The bottom of the antenna does not need to make contact with the ground plane (i.e. the surface may be painted).  The antenna will capacitively couple to the ground plane beneath the paint or aircraft cover.  Add buried antenna figureDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-8 Rev. 13.3 Teardrop Footprint Antenna Installation (GA 55 and GA 56)This section describes the structural mounting of the teardrop footprint antenna installation.An acceptable installation method is to use Garmin P/N: 115-00846-10 doubler plate with the GA 55 or GA 56 stud mount antennas.  Another acceptable method is to fabricate and install one of three doublers (Figure 3-4, Figure 3-5, and Figure 3-6), depending on the thickness of the skin.  The three doubler designs vary only by number of rivets and hole preparation for installation with flush rivets.  Table 3-4 provides a summary of design and installation details for selecting the appropriate antenna doubler/backplate. Figure 3-7 shows an example of the doubler installed between stringers on the top fuselage skin, just off centerline.  The location should be flat, with no gaps between the skin and doubler, to keep from deforming the skin during installation.  Refer to the drawings beginning with Figure C-1 for Garmin Antenna installation drawings.3.3.1 Preparation of Doubler1. Use Garmin P/N: 115-00846-10, or refer to Table 3-4 for guidance on selecting the appropriate doubler drawing based on the thickness of skin at the antenna location.  Make the doubler from 2024-T3 Aluminum (AMS-QQ-A-250/5), 0.063” sheet thickness.  2. For installation in aircraft skins of thickness less than 0.051”, countersink the rivet holes in the doubler for use with flush head rivets (MS20426AD4-x).  3. When using Garmin P/N: 115-00846-10 doubler, sixteen rivet holes exist in the part.  For installation of Garmin P/N: 115-00846-10 in skins of thickness between 0.032” and 0.049”, only the rivets identified for use through the skin cutout detail (Figure 3-8) and doubler installation (Figure 3-11) are required. Table 3-4  Teardrop Footprint Antenna Doubler Design and InstallationAircraft Skin Thickness 0.032” to 0.049” 0.049” to 0.051” 0.051” to 0.063”Doubler Design (Figure) Figure 3-4 Figure 3-5 Figure 3-6Number of Rivets Required 12 16 16Type of Rivets Required1MS20426AD4-x MS20426AD4-x MS20426AD4-xSkin Preparation for Rivets Dimple Dimple CountersinkDoubler Preparation for Rivets Countersink Countersink NoneSkin Cutout Detail (Figure) Figure 3-8 Figure 3-9 Figure 3-10Doubler Installation (Figure) Figure 3-11 Figure 3-12 Figure 3-131Rivet length determined at installation, dependent on thickness of material (rivet length = grip length + 1.5 * rivet diameter)DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-93.3.2  Antenna Installation Instructions1. Refer to Table 3-5 and the outline and installation drawings beginning with Figure C-3 for guidance on selecting the appropriate mounting cutout.  Drill or punch the holes to match the mating part (doubler).2. Install a doubler plate to reinforce the aircraft skin, as required.  Refer to Section 3.3.1 for doubler preparation and Table 3-5 for additional guidance on the doubler installation.  Dimple aircraft skin when the skin thickness is less than 0.051” for installation of flush head rivets.  Countersink aircraft skin when the skin thickness is between 0.051” and 0.063” for installation of flush head rivets.3. For the stud mount teardrop footprint antenna, place install gasket on top of aircraft skin using the four screw holes to align the gasket.  4. Washers and locking nuts are required to secure the antenna.  Torque the four #8-32 stainless steel locking nuts 12-15 in-lbs.  Torque should be applied evenly across all mounting studs or screws to avoid deformation of the mounting area.5. Ensure that the antenna base and aircraft skin are in continuous contact with the gasket or o-ring, as appropriate to the antenna model.  6. Seal the antenna and gasket to the fuselage using Dow Corning 738 Electrical Sealant or equivalent.  Run a bead of the sealant along the edge of the antenna where it meets the exterior aircraft skin.  Use caution to ensure that the antenna connectors are not contaminated with sealant.CAUTIONDo not use construction grade RTV sealant or sealants containing acetic acid.  These sealants may damage the electrical connections to the antenna.  Use of these type sealants may void the antenna warranty.DRAFT
Garmin Device Installation Manual 190-00303-91Page 3-10 Rev. 13.3.3  Reference FiguresFigure 3-4  Doubler Design, Teardrop Footprint Antenna, Skin Thickness 0.032" to 0.049" Figure 3-5  Doubler Design, Teardrop Footprint Antenna, Skin Thickness 0.049" to 0.051"Figure to be addedFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-11Figure 3-6  Doubler Design, Teardrop Footprint Antenna, Skin Thickness 0.051" to 0.063"Figure 3-7  Sample Doubler Location, Teardrop Footprint Antenna, Metal Skin AircraftFigure to be addedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-12 Rev. 1Figure 3-8  Skin Cutout Detail, Teardrop Footprint Antenna, Skin Thickness 0.032" to 0.049"Figure 3-9  Skin Cutout Detail, Teardrop Footprint Antenna, Skin Thickness 0.049" to 0.051"Figure to be addedFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-13Figure 3-10 Skin Cutout Detail, Teardrop Footprint Antenna, Skin Thickness 0.051" to 0.063"Figure 3-11  Doubler Installation, Teardrop Footprint Antenna, Skin Thickness 0.032" to 0.049" Figure to be addedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-14 Rev. 1Figure 3-12  Doubler Installation, Teardrop Footprint Antenna, Skin Thickness 0.049" to 0.051"Figure 3-13  Doubler Installation, Teardrop Footprint Antenna, Skin Thickness 0.051" to 0.063"Figure to be addedFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-153.4 ARINC 743 Footprint Antenna Installation (GA 55A, GA 57X)This section describes the structural mounting of the ARINC 743 footprint antenna (GA 55A, GA 57X) installation.  One acceptable method is to use Garmin P/N: 115-00846-00 doubler plate.  Another acceptable method is to fabricate and install one of three doublers, Figure 3-14, Figure 3-15, or Figure 3-16, depending on the thickness of the skin.  The three doubler designs vary only by number of rivets and hole preparation for installation with flush rivets.  Figure 3-24 shows installation of the ARINC 743 footprint antenna. Table 3-5 provides a summary of design and installation details for the antenna doubler.  Figure 3-17 shows an example of the doubler installed between stringers on the top fuselage skin, just off centerline.  The location should be flat, with no gaps between the skin and doubler, to keep from deforming the skin during installation.  3.4.1 Preparation of Doubler1. Use Garmin P/N: 115-00846-00, or refer to Table 3-5 for guidance on selecting the appropriate doubler drawing based on the thickness of skin at the antenna location.  Make the doubler from 2024-T3 Aluminum (AMS-QQ-A-250/5), 0.063” sheet thickness.2. For installation in aircraft skins of thickness less than 0.051”, countersink the rivet holes in the doubler for use with flush head rivets (MS20426AD4-x).  3. When using Garmin P/N: 115-00846-00 doubler, sixteen rivet holes exist in the part.  For installation of Garmin P/N: 115-00846-00 in skins of thickness between 0.032” and 0.049”, only the rivets identified for use through the skin cutout detail (Figure 3-18) and doubler installation (Figure 3-21) are required. Table 3-5  ARINC 743 Footprint Antenna Doubler Design and InstallationSkin Thickness 0.032” to 0.049” 0.049” to 0.051” 0.051” to 0.063”Doubler Design (Figure) Figure 3-14 Figure 3-15 Figure 3-16Number of Rivets Required 12 16 16Type of Rivets Required1MS20426AD4-x MS20426AD4-x MS20426AD4-xSkin Preparation for Rivets Dimple Dimple CountersinkDoubler Preparation for Rivets Countersink Countersink NoneSkin Cutout Detail (GA 55A) Figure 3-18 Figure 3-19 Figure 3-20Doubler Installation (Figure) Figure 3-21 Figure 3-22 Figure 3-231Rivet length determined at installation, dependent on thickness of material (rivet length = grip length + 1.5 * rivet diameter)DRAFT
Garmin Device Installation Manual 190-00303-91Page 3-16 Rev. 13.4.2  Antenna Installation Instructions1. Refer to Table 3-5 (and the outline and installation drawings beginning with Figure C-1) for guidance on selecting the appropriate mounting cutout.  Drill or punch the holes to match the mating part (doubler).2. Install a doubler plate to reinforce the aircraft skin, as required.  Refer to Section 3.4.1 for doubler preparation and Table 3-5 for additional guidance on the doubler installation.  Dimple aircraft skin when the skin thickness is less than 0.051” for installation of flush head rivets.  Countersink aircraft skin when the skin thickness is between 0.051” and 0.063” for installation of flush head rivets.3. Place the install gasket on top of aircraft skin using the four screw holes to align the gasket.4. Locking nuts are required to secure the antenna (locking nuts installed on doubler).  Torque the four supplied #10-32 stainless steel screws (Garmin P/N: 211-60212-20, MS51958-67, or equivalent) 20-25 in-lbs.  Torque should be applied evenly across all mounting studs to avoid deformation of the mounting area.5. Ensure that the antenna base and aircraft skin are in continuous contact with the gasket.  6. Seal the antenna and gasket to the fuselage using Dow Corning 738 Electrical Sealant or equivalent.  Run a bead of the sealant along the edge of the antenna where it meets the exterior aircraft skin.  Use caution to ensure that the antenna connectors are not contaminated with sealant.CAUTIONDo not use construction grade RTV sealant or sealants containing acetic acid.  These sealants may damage the electrical connections to the antenna.  Use of these type sealants may void the antenna warranty.DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-173.4.3 Reference Figures Figure 3-14  Doubler Design, ARINC 743 Footprint Antenna, Skin Thickness 0.032" to 0.049"Figure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-18 Rev. 1 Figure 3-15  Doubler Design, ARINC 743 Footprint Antenna, Skin Thickness 0.049" to 0.051"  Figure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-19Figure 3-16   Doubler Design, ARINC 743 Footprint Antenna, Skin Thickness 0.051" to 0.063"  Figure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-20 Rev. 1Figure 3-17  Sample Doubler Location, ARINC 743 Antenna, Metal Skin AircraftFigure 3-18  Skin Cutout Detail, ARINC 743 Footprint Antenna, Skin Thickness 0.032" to 0.049" Figure to be addedFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-21Figure 3-19  Skin Cutout Detail, ARINC 743 Footprint Antenna, Skin Thickness 0.049" to 0.051"Figure 3-20  Skin Cutout Detail, ARINC 743 Footprint Antenna, Skin Thickness 0.051" to 0.063"Figure to be addedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-22 Rev. 1Figure 3-21  Doubler Installation, ARINC 743 Footprint Antenna, Skin Thickness 0.032" to 0.049"Figure 3-22  Doubler Installation, ARINC 743 Footprint Antenna, Skin Thickness 0.049" to 0.051"Figure to be addedFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-23Figure 3-23   Doubler Installation, ARINC 743 Footprint, Skin Thickness 0.051" to 0.063"Figure 3-24   Installation of ARINC 743 Footprint AntennaFigure to be addedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-24 Rev. 13.5 Non-Structural Mount InstallationThis section provides installation examples and considerations for non-structural mounting of teardrop and ARINC 743 footprint antennas.  Typical installations may be below a non-metallic glareshield, under the composite or fabric skin, or on an external, non-structural surface.  Other non-structural installations may exist, but are not presented in this manual.External mounting of the antenna is preferred, although the antenna can be mounted inside the aircraft.  When mounted internally, the antenna does not have to be aligned with the aircraft forward direction, but should be equal to the aircraft typical cruise attitude.There should be a solid mechanical base in the mounting area for the antenna, and existing surfaces or brackets may be used with the doubler plate.  Alternately, non-structural brackets may be fabricated in the field as necessary to mount the antenna.  Brackets should be made of minimum 0.032” thickness aluminum and should span as short a distance as possible.  Some fabric aircraft include aluminum paste in the fabric finishing process, often referred to as “silver coats”.  Presence of thick fabric and/or heavy “silver coats” may degrade the signal strength of the antenna.  3.5.1 Generic Non-structural Antenna InstallationFigure 3-25 shows the generic non-structural installation for the ARINC 743 footprint (GA 55A/GA 57X) antenna.  The teardrop footprint antennas (GA 55, GA 56 stud mount) can also be installed in this manner.For mounting the teardrop style antenna (GA 55 or GA 56), a doubler plate similar to Figure 3-4 or P/N 115-00846-10 can be used with the mounting surface to support the antenna.  Rivets used to secure the doubler plate to the mounting surface are optional in a non-structural installation.  Screws, washers, and locking nuts as shown in the outline and installation drawings beginning with Figure C-1, are required to secure the Teardrop style antenna to the mounting surface.  Torque the locking nuts to 12-15 in-lbs, torque should be applied evenly across all mounting studs.A doubler plate similar to Figure 3-11, or P/N 115-00846-00 (ARINC 743 style) can be used with the mounting surface to support the antenna.  Rivets used to secure the doubler plate to the mounting surface are optional in a non-structural installation.  Locking nuts are required to secure the ARINC 743 antenna (locking nuts installed on doubler).  Torque the four supplied #10-32 stainless steel screws (Garmin P/N: 211-60212-20, MS51958-67, or equivalent) evenly across all mounting screws.3.5.2 Considerations for Non-Structural MountingExternal mounting of the antenna is preferred, although the antenna can be mounted inside the aircraft.  When mounted internally, the antenna does not have to be aligned with the aircraft forward direction, but should be equal to the aircraft typical cruise attitude.There should be a solid mechanical base in the mounting area for the antenna, and existing surfaces or brackets may be used with the doubler plate.  Alternately, non-structural brackets may be fabricated in the field as necessary to mount the antenna.  Brackets should be made of minimum 0.032” thickness aluminum and should span as short a distance as possible.  Some fabric aircraft include aluminum paste in the fabric finishing process, often referred to as “silver coats”.  Presence of thick fabric and/or heavy “silver coats” may degrade the signal strength of the antenna.  DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-25Figure 3-25  Generic Non-structural ARINC 743 Footprint Antenna Installation3.5.3 Non-Structural Installation to GlareshieldFigure 3-26 shows an example of a bracket created to support an antenna mounted on the underside of the glare shield.  Figure 3-27 shows the non-structural mounting of the antenna under the glareshield, with the bracket assembly shown in Figure 3-26.Figure 3-26  Example Bracket Antenna Mounting Under Glareshield Figure to be addedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-26 Rev. 1Figure 3-27  Example Non-structural Antenna Mounting Under Glareshield Figure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-273.5.4 Non-structural Installation to AirframeInternal Non-structural InstallationFigure 3-28 and Figure 3-29 show examples of under the fabric skin non-structural mounting of the antenna to the airframe of a tube-and-fabric aircraft.In Figure 3-28, a bracket is made to attach to the airframe, just under the fabric for a teardrop antenna installation.  The doubler plate and mounting hardware described in the generic installation (Section 3.5.1) are used with the bracket as the antenna mounting surface.  In Figure 3-29, a similar case is shown using the generic installation of the ARINC 743 footprint antenna.  The doubler plate is optional for this type of installation with either the Teardrop or the ARINC 743 antenna.  Figure 3-28  Example Teardrop Antenna Installation In Airframe Under Fabric SkinFigure 3-29  Example ARINC 743 Footprint In Airframe Under Fabric SkinFigure to be addedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 3-28 Rev. 1External Non-structural InstallationFigure 3-30 is an example of an external, non-structural mounting of the antenna in a tube-and-fabric aircraft.  The antenna support bracket shown should be made of 2024-T3 Aluminum with a minimum material thickness 0.032” and maximum distance between airframe tubes of 36”.  The bracket is installed to the airframe under the fabric, and the antenna is mounted externally to the bracket.  The generic installation of the (Section 3.5.1) antenna is used, with the antenna support bracket as the mounting surface.  Follow the applicable gasketing and sealant instructions in Section 3.3.2 (Teardrop style) or Section 3.4.2 (ARINC 743 style).Figure 3-30  Example Non-structural Antenna Mounting On Airframe Figure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 3-29Minimum Distance from Metal Tube Structure RequirementsFigure 3-31 shows minimum distance from metal tube structure requirements for internal, non-structural mounting of the antenna.  Table 3-6 presents minimum distance requirements between the tube structure and the antenna for cases where the antenna sits underneath the fabric in a metal-tube structure aircraft.  Figure 3-31 illustrates the tube diameter (d) and minimum distance (l) references in the Table 3-6.    Figure 3-31  Example Teardrop Footprint Antenna Mounting Under Fabric Skin. Table 3-6  Minimum Distance Required Between Tube Structure and AntennaIllustrated Case Tube Diameter d (in)Minimum Distance l (in)Top of antenna at or above the center of the tube structure (Figure 3-31, top)0.625 3.60.75 4.31.00 5.71.25 7.2Top of antenna between the center and bottom of the tube structure (Figure 3-31, bottom)0.625 7.20.75 8.61.00 11.51.25 14.3Figure to be addedDRAFT
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190-00303-91 Garmin Device Installation ManualRev. 1 Page 4-14 SOFTWARE, CONFIGURATION, DATABASES, AND SIRIUSXM® ACTIVATION4.1 Configuration ModeSome software loading and all configuration settings are performed in the configuration mode.  To enter configuration mode, hold down the left-hand softkey (softkey #1) while powering on the Garmin Device.  4.2 Software/Audio Data Identification4.2.1 LRU Software and Audio Data Version IdentificationDo the following steps to verify the unit’s current software and audio data versions:1. Turn on the unit in configuration mode.2. Use the FMS Joystick or Touch Panel to select the CONFIG MAIN page (if needed). 3. Note the displayed software and audio database versions.Figure to be addedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 4-2 Rev. 14. Use the FMS Joystick or Touch Panel to scroll down as needed to display the audio database (and other) information.4.3 Software Loading ProcedureSoftware loading is performed in normal mode.See the Garmin website (www.garmin.com) for instructions on downloading and installing software.4.3.1 Garmin Device Software Loading Procedure1. Power on the Garmin Device in normal mode, then insert the properly formatted SD card into the SD card slot. NOTEIt is also acceptable to insert the SD card before powering on the unit.2. A Software update window will appear on the screen, highlight YES and press the ENT key to begin the update.Figure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 4-3 3. The unit will reboot, then software update will begin automatically.4. Ensure power is not removed while the update is being performed 5. The unit will reboot after the update is complete.4.4 Configuration Pages4.4.1 Main Configuration PageThe Main Configuration Page is used to display LRU (device) specific information such as Unit and System ID’s and Database information for the various databases used by the Garmin Device.  This page has no user-selectable options.1. In configuration mode, use the FMS Joystick or Touch Panel to select and view the MAIN Page.Figure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 4-4 Rev. 1 4.4.2  ACFT Configuration PageThe Aircraft Configuration Page allows setting the parameters for Flight Planning, Aircraft Identifier, and Map Symbol.  The aircraft’s cruise speed, fuel flow, aircraft identifier, and map symbol can be entered on this page.  Figure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 4-5The flight planning fields let you adjust the default values (cruise speed and fuel flow)  used for flight planning calculations.Aircraft Identifier–The aircraft identifier can be entered using the FMS Joystick. Map Symbol– The aircraft symbol that is displayed on the Map page can be selected.1. In configuration mode, use the FMS Joystick or Touch Panel to select the ACFT Page.2. Use the FMS Joystick  or Touch Panel to select the desired configurable item and make the desired change.  Then press the ENT Key or use the FMS Joystick or Touch Panel to select the next item.  Press the FMS Joystick to move the cursor to the page selection menu when finished.4.4.3 W/B (Weight/Balance) Configuration PageThe W/B Configuration Page allows setting the weight and balance parameters for the airplane, these parameters are then used on the Main Menu W/B Page in normal mode.  Weight/Balance may be used during pre-flight preparations to verify the weight and balance conditions of the aircraft.  By entering the weight and arm values into the Aircraft window, the Garmin Device can calculate the total weight, moment, and center of gravity (CG).Before entering the various figures, the empty weight of the airplane and the arm (or “station”) for each weight should be determined.  These figures should be determined using the pilot’s operating handbook for the airplane, which also notes the weight limitations and fore/aft CG limits.  Compare those figures to the values calculated by the Garmin Device.Each station listed in the Station window has an editable name and arm location.  This allows the setting of the units of measure used for that station (weight, or units of avgas or jet fuel).  Optionally a maximum value can be set for a particular station (e.g. a fuel tank might have a max capacity of 50 gallons) or the max can be set to zero so that no maximum will be imposed.The LOADING LIMITS window contains fields for the entry of minimum and maximum aircraft weight, and the minimum and maximum CG location.1. In configuration mode, use the FMS Joystick to select the W/B Page.Figure to be addedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 4-6 Rev. 12. Use the FMS Joystick to select the desired configurable item and make the desired change, then press the ENT Key or use the FMS Joystick to select the next item.3. To create a new station, press the NEW softkey, enter the name, units, max weight, and arm, then highlight DONE and press the ENT key.4. To edit or delete a station, highlight the desired station, then press the edit or delete softkey.5. Press the FMS Joystick to move the cursor to the page selection menu when finished.4.4.4  UNITS Configuration PageThe Units Configuration Page allows selection of the desired displayed units for the listed items in the Units Configuration window.  The various settings for Location Format, Map Datum, and Heading can be accessed in the Position Configuration window.  See the Garmin Device Pilot’s Guide for a description of Location Format and Map Datum.1. In configuration mode, use the FMS Joystick to select the UNITS Page. 2. Use the FMS Joystick to select the desired configurable item and make the desired change.  Then press the ENT Key or use the FMS Joystick to select the next item.  Press the FMS Joystick to move the cursor to the page selection menu when finished.Figure to be addedFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 4-74.4.5 DSPL (Display) Configuration PageThe DSPL Configuration Page allows setting the parameters for Display and Backlight Control configuration.1. In configuration mode, use the FMS Joystick to select the DSPL Page.Figure to be addedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 4-8 Rev. 12. Use the FMS Joystick to select the desired configurable item and make the desired change.  Then press the ENT Key or use the FMS Joystick to select the next item.  Press the FMS Joystick to move the cursor to the page selection menu when finished.Figure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 4-94.4.5.1 Display Configuration Window:Backlight Intensity: Can be set to Auto or Manual (this setting is also available in normal mode on the Display Setup page).Auto–Sets the backlight intensity (display brightness) based on the aircraft’s instrument lighting bus voltage.Manual–Allows setting the display brightness by changing the Backlight Intensity (0-9) setting found beside the ‘Manual’ setting. Default Mode: Can be set to Auto or Manual (described above).  This controls the backlight mode that will be active each time the system is powered on.4.4.5.2 Automatic Backlight Control Window (settings apply only to ‘Auto’ setting):Input Voltage–Displays the current lighting bus voltageBacklight Level–Displays the current backlight level (0-100%)Graph–Brightness is displayed as the vertical (Y) axis, and aircraft lighting bus voltage is displayed as the horizontal (X) axis.  The graph changes according to the auto backlight control settings, and the lighting bus voltage.Off Threshold–Sets the lighting bus threshold voltage.  At the threshold voltage, the backlighting is turned on per the Min Brightness setting.  Below the threshold voltage, the backlighting defaults to a Backlight Level of 100% .  The’ ±’ setting controls the range that the Off Threshold voltage is in effect.  Default values are 2.9V & ±0.15V. Min Brightness (Voltage and Percentage)–Sets the lower bus voltage required to turn the backlighting on to the percentage of brightness set by the Min % setting.  Default values are 3.0V and 10%.  Max Brightness (Voltage and Percentage)–Sets the upper bus voltage required to turn the backlighting on to the percentage of brightness set by the Max % setting.  Default values are 12.0V and 100%.Input Type–Sets the aircraft lighting bus voltage for either 12 or 24V input to match the aircraft lighting  bus voltage.Time Constant–Adjusts the speed (in seconds), that the brightness level responds to changes in the input voltage level.4.4.6 SOUND Configuration PageThe SOUND Configuration Page allows setting the parameters for various alert and message tones.1. In configuration mode, use the FMS Joystick to select the SOUND Page.2. Use the FMS Joystick to select the desired configurable item and make the desired change.  Then press the ENT Key or use the FMS Joystick to select the next item.  Press the FMS Joystick to move the cursor to the page selection menu when finished.Figure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 4-10 Rev. 1The configuration options for the SOUND Configuration Page are listed/described as follows:Alert Volume – Controls the volume level of audio alerts (settings: Off, 1-10)Message Tones – Controls the volume level of message tones (settings: Off, 1-10)Terrain Audio – Enables/disables terrain awareness audio alertsTIS Audio – Enables/disables TIS traffic audio alertsAlert Output – If set to MONO + STEREO, alert tones and messages will be output on both the mono and stereo outputs.  If set to MONO ONLY, alert tones and messages will be output only on the mono output.4.4.7 COMM Configuration PageThe COMM Configuration Page allows setting the parameters for the communication ports.1. In configuration mode, use the FMS Joystick to select the COMM Page.2. Use the FMS Joystick to select the desired configurable item and make the desired change.  Then press the ENT Key or use the FMS Joystick to select the next item.  Press the FMS Joystick to move the cursor to the page selection menu when finished.A green checkbox will appear next to the name of each RS-232 port when it is receiving valid data.Figure to be addedFigure to be addedFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 4-11The RS-232 comm port configuration options for the COMM Configuration Page are listed/described as follows:Garmin Data Transfer - The proprietary format used to exchange data with a PC.NMEA Out - Supports the output of standard NMEA 0183 version 3.01 data at a baud rate of 4800.Aviation In - The proprietary format used for input to the Garmin Device (baud rate of 9600) from an FAA certified Garmin panel mount unit.  Allows the Garmin Device to display a Go To or route selected on the panel mount unit, which eliminates the need to enter the destination on both units.Aviation In/NMEA & VHF Out - Receives aviation data and transmits out both NMEA data, at 9600 baud, and VHF frequency tuning information to a Garmin Nav/Comm radio.TIS In - Receives TIS data from a Garmin Mode S transponder.TIS In/NMEA & VHF Out - Receives TIS data and transmits out both NMEA data, at 9600 baud, and VHF frequency tuning information to a Garmin Nav/Comm radio.MapMX - The preferred data source when interfacing with an external navigator, and is only available from Garmin units with a WAAS GPS receiver.  When MapMX data is received, the Garmin Device display can show more accurate information about the external navigator flight plan (e.g. DME, arcs, and holding patterns).SL30 Nav/Comm - RS-232 format.  Outputs frequency tuning and course selection data to an SL30.SL40 Comm - Outputs frequency tuning data to an SL40.4.5 Garmin Database UpdatesThe Garmin Device MFD database updates can be obtained by visiting the ‘flyGarmin’ website (www.fly.garmin.com).  The ‘flyGarmin’ website requires the unit’s System ID to update databases.  This allows the databases to be encrypted with the unit’s unique System ID when copied to the SD Card.Since these databases are stored internally in each Device, each Device will need to be updated separately.  The SD card may be removed from the applicable Device after installing the database(s).  After the databases have been updated, check that the appropriate databases are initialized and displayed on the splash screen during power-up.4.5.1 Updating Garmin DatabasesEquipment required to perform the update is as follows:•  Windows-compatible PC computer (Windows 2000 or XP recommended)•  SanDisk SD Card Reader, P/Ns SDDR-93 or SDDR-99 or equivalent card reader•  Updated database obtained from the flyGarmin website•  SD Card, 2 GB recommended (Garmin recommends SanDisk® or Toshiba brand)After the data has been copied to the SD card, perform the following steps:1. Insert the SD card in the card slot of the Garmin Device to be updated.2. Turn on the Garmin Device to be updated.NOTESteps 1 and 2 can be performed in reverse order.3. Upon turn-on, a screen appears which lists the databases on the SD card.  A green checkbox indicates that the database already installed on the G300 is up to date, an empty checkbox indicates that the database on the SD card is more current and should be installed (alternatively, the Database Update page can be accessed via Main Menu > Tools > Database > Menu > Update Databases).DRAFT
Garmin Device Installation Manual 190-00303-91Page 4-12 Rev. 11. The database(s) can be updated by either highlighting UPDATE ALL and pressing the ENT key; or by using the FMS Joystick to highlight a single database and pressing the ENT Key.2. When the update process is complete, the screen displays the database status.Figure to be addedFigure to be addedFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page 4-133. Once the database(s) have been updated, the SD card can be removed from the unit4. The unit must be restarted by pressing the Restart softkey.4.5.2 Available DatabasesAirport Directory DataThe Airport Directory contains airport statistics such as pattern altitudes, noise abatement information, FBO phone numbers, hours of operation, local attractions, ground transportation, lodging, and services.  This database is updated on a quarterly cycle, and has no expiration date.BasemapThe basemap contains data for the topography and land features, such as rivers, lakes, and towns.  It is updated only periodically, with no set schedule.  There is no expiration date.Chartview™ DatabaseChartView is an optional feature that must be activated by purchasing a ChartView unlock card (010-00769-53).  ChartView resembles the paper version of Jeppesen® terminal procedures charts.  The ChartView database is stored on an SD memory card that remains in the display during normal operation.  The ChartView database is updated by removing the database card, updating the database on the card, and reinserting the card.  ChartView data is updated by purchasing database subscription updates from Jeppesen Sanderson.  FliteChartsThe FliteCharts database contains terminal procedure charts for the United States only.  This database is updated on a 28-day cycle.Jeppesen® Aviation Data (NavData™)The Jeppesen database contains the general aviation data (NavData) used by pilots (Airports, VORs, NDBs, SUAs, etc.) and is updated on a 28-day cycle.  ObstacleThe obstacle basemap contains data for obstacles, such as towers, that pose a potential hazard to aircraft.  Obstacles 200 feet and higher are included in the obstacle database.  It is very important to note that not all obstacles are necessarily charted and therefore may not be contained in the obstacle database.  This database is updated on a 56-day cycle.Figure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page 4-14 Rev. 1SafeTaxiThe SafeTaxi database contains detailed airport diagrams for selected airports.  These diagrams aid in following ground control instructions by accurately displaying the aircraft position on the map in relation to taxiways, ramps, runways, terminals, and services.  This database is updated on a 56-day cycle, and has no expiration date.TerrainThe terrain database contains the elevation data which represents the topography of the earth.  This database is updated on an irregular basis.VFR/IFR Chart ViewingVFR, IFR, and TPC Charts can be obtained by visiting the 'flyGarmin' website (www.fly.garmin.com).4.6 Sirius XM® Activation Instructions (Garmin Device only)Follow the below instructions to activate the SiriusXM receiver in the Garmin Device.Before SiriusXM Satellite Weather can be used, the service must be activated by calling SiriusXM at 1.800.985.9200.  Service is activated by providing SiriusXM Satellite Radio with a Radio ID.  SiriusXM Satellite Radio uses the Radio ID to send an activation signal that allows the Garmin Device MFD to display weather data an/or entertainment programming.  SiriusXM service should activate in 45 to 60 minutes.1. The Radio ID can be displayed by accessing the XM Audio Page, and then pressing the INFO Softkey. Record the Radio ID for reference during SiriusXM Activation.2. Make sure that the aircraft's SiriusXM antenna has an unobstructed view of the southern sky.  It is highly recommended that the aircraft be outside of and away from the hangar.3. Hook up the aircraft to external power if available.  The complete activation process may take 45-60 minutes or more, depending on the demand on the SiriusXM activation system.4. Power on the avionics and allow the Garmin Device to power up.  Do not power cycle the units during the activation process.5. Go to the SiriusXM Info Page.  During the activation process the unit may display several different activation levels, this is normal and should be ignored.  When the service class (Aviator Lite, Aviator, or Aviator Pro) and all of the weather products for the class that you subscribed to are displayed, the activation is complete.  Wait 30 seconds to allow the Garmin Device to store the activation before removing power.NOTEDuring the activation process do not change channels or pages.DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page A-1APPENDIX A GARMIN DEVICE PINOUTSA.1 Garmin DeviceA.1.1 J4601 ConnectorThe J4601 connector is used only for connections to the GSU 25.Figure A-1   View of J4601 Connector from Back of UnitPin Pin Name I/O1CAN BUS HI Out2CAN BUS LO --3RESERVED --4RS-232 TX Out5RS-232 RX In6GND --7PWR 1 In8PWR 2 In9GND --Figure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page A-2 Rev. 1A.1.2 J4602 ConnectorFigure A-2   View of J4602 Connector from Back of UnitTable A-1  J4602Pin Pin Name I/O1MONO AUDIO OUT HI Out2STEREO AUDIO OUT LO --3STEREO AUDIO OUT LEFT Out4SPARE --5SPARE --6DO NOT USE --7DO NOT USE --8DO NOT USE --9CDU SYSTEM ID PROGRAM* 2 In10 CDU SYSTEM ID PROGRAM* 1 In11 RESERVED FOR FUTURE DEVELOPMENT, DO NOT USE --12 RESERVED FOR FUTURE DEVELOPMENT, DO NOT USE --13 RS-232 OUT 3 Out14 RS-232 IN 2 In15 POWER GROUND --16 POWER GROUND --17 CONFIG MODULE POWER OUT (3.3V VERY LOW CURRENT) Out18 MONO AUDIO OUT LO --19 STEREO AUDIO OUT RIGHT Out20 STEREO AUDIO OUT LO --21 RESERVED FOR FUTURE DEVELOPMENT, DO NOT USE In22 RESERVED FOR FUTURE DEVELOPMENT, DO NOT USE InFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page A-323 RS-232 IN 4 In24 RS-232 IN 5 In25 CDU SYSTEM ID PROGRAM* 3 In26 28V LIGHTING BUS HI In27 SIGNAL GROUND --28 CAN BUS TERMINATION --29 RS-232 IN 3 In30 RS-232 OUT 2 Out31 AIRCRAFT POWER 2 In32 AIRCRAFT POWER 1 In33 CONFIG MODULE CLOCK I/O34 SIGNAL GROUND --35 SIGNAL GROUND --36 SIGNAL GROUND --37 SIGNAL GROUND --38 RESERVED FOR FUTURE DEVELOPMENT, DO NOT USE In39 RESERVED FOR FUTURE DEVELOPMENT, DO NOT USE In40 RS-232 OUT 4 Out41 RS-232 OUT 5 Out42 CDU SYSTEM ID PROGRAM* 4 In43 14V LIGHTING BUS HI In44 SIGNAL GROUND --45 CAN BUS LO I/O46 CAN BUS HI I/O47 RS-232 IN 1 In48 RS-232 OUT 1 Out49 CONFIG MODULE GROUND --50 CONFIG MODULE DATA I/O* Indicates Active LowTable A-1  J4602Pin Pin Name I/ODRAFT
Garmin Device Installation Manual 190-00303-91Page A-4 Rev. 1A.1.3 J4603 ConnectorJ4603 is used for CAN connections to LRUs other than the GSU 25.Figure A-3   View of J4603 Connector from Back of UnitA.1.4 Aircraft PowerAIRCRAFT POWER 1 AND AIRCRAFT POWER 2 are “diode ORed” to provide aircraft power redundancy.  Use 22 AWG wire (min) for all power and ground connections.A.1.5 Configuration ModulePin Pin Name I/O1CAN BUS HI Out2CAN BUS LO --3RESERVED --4RESERVED --5RESERVED --6RESERVED --7RESERVED --8RESERVED --9RESERVED --Table A-2  Aircraft PowerPin Name Connector Pin I/OAIRCRAFT POWER 1 J4602 32 InAIRCRAFT POWER 2 J4602 31 InPOWER GROUND J4602 15 --POWER GROUND J4602 16 --Figure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page A-5Connect the configuration module to the PFD1 unit; do not connect a config module to PFD2 or the MFD.A.1.6 CDU System ID Program PinsCDU SYSTEM ID PROGRAM* 4, pin 42.  Demo mode is for in-store demonstration use only, never ground pin 42 in an aircraft installation.Table A-3  Configuration ModulePin Name Connector Pin I/OCONFIG MODULE POWER OUT (3.3V, very low current) J4602 17 OutCONFIG MODULE CLOCK J4602 33 I/OCONFIG MODULE GROUND J4602 49 --CONFIG MODULE DATA J4602 50 I/OTable A-4  CDU System ID Program PinsPin Name Connector Pin I/OCDU SYSTEM ID PROGRAM* 1 J4602 10 InCDU SYSTEM ID PROGRAM* 2 J4602 9InCDU SYSTEM ID PROGRAM* 3 J4602 25 InTable A-5  Demo Mode(J4602, Pin 42) DISPLAY MODEOpen MFDGround DEMODRAFT
Garmin Device Installation Manual 190-00303-91Page A-6 Rev. 1A.1.7 Serial DataA.1.7.1 RS-2325 Channels of RS-232 I/O data.A.1.7.2 CAN Bus TerminationPin 28 of the J4602 connector is used as the CAN Bus Termination.A.1.8 LightingThe Garmin Device display and keys can be configured to track 28 VDC or 14 VDC lighting busses using these inputs. A.1.9 AudioA.1.9.1 Mono AudioTable A-6  RS-232Pin Name Connector Pin I/ORS-232 IN 1 J4602 47 InRS-232 OUT 1 J4602 48 OutRS-232 IN 2 J4602 14 InRS-232 OUT 2 J4602 30 OutRS-232 IN 3 J4602 29 InRS-232 OUT 3 J4602 13 OutRS-232 IN 4 J4602 23 InRS-232 OUT 4 J4602 40 OutRS-232 IN 5 J4602 24 InRS-232 OUT 5 J4602 41 OutTable A-7  LightingPin Name Connector Pin I/O14V LIGHTING BUS HI J4602 43 In28V LIGHTING BUS HI J4602 26 InTable A-8  Mono AudioPin Name Connector Pin I/OMONO AUDIO OUT HI J4602 1OutMONO AUDIO OUT LO J4602 18 --DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page A-7A.1.10 Stereo AudioTable A-9  Stereo AudioPin Name Connector Pin I/OSTEREO AUDIO OUT LEFT J4602 3OutSTEREO AUDIO OUT LO* J4602 20 --STEREO AUDIO OUT RIGHT J4602 19 OutSTEREO AUDIO OUT LO* J4602 2--*The left and right common pins (pins 2 and 20) may be tied together or only one may be used.  It is not necessary to use both common pins.DRAFT
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190-00303-91 Garmin Device Installation ManualRev. 1 Page B-1APPENDIX B CONNECTOR INSTALLATION INSTRUCTIONSCAUTIONThis instruction manual assumes skill and knowledge of aircraft harness fabrication techniques. DO NOT PERFORM THIS INSTALLATION IF YOU ARE UNQUALIFIED.NOTEThe Garmin Device rear connector (J4601) is electrically isolated. For installations using shielded cables, a ground pin must be tied to the connector shell.B.1 Jackscrew Backshell Installation InstructionsB.1.1 Shield Block Installation PartsTable B-1 and Table B-2 list the parts needed to install a Shield Block.  Parts listed in Table B-1 are supplied in the Device Connector Kit (011-01921-00).  Parts listed in Table B-2 are to be provided by the installer. Table B-1  Parts supplied for a Shield Block Installation (Figure B-1)Figure Ref Description GPN or MIL spec1Cast Backshell Housing  125-00175-006Contacts 336-00094-0012 Clamp  115-01078-0413 Screw,4-40x.375,PHP,SS/P,w/Nylon  211-60234-1014 Cover  115-01079-0415 Screw,4-40x.187,FLHP100,SS/P,w/Nylon  211-63234-06Table B-2  Parts not supplied for a Shield Block Installation (Figure B-1)Figure Ref Description GPN or MIL spec2Multiple Conductor Shielded Cable (2-conductor shown in Figure B-1)Parts used depend on method chosen3Drain Wire Shield Termination (method optional) Parts used depend on method chosen4Braid, Flat (19-20 AWG equivalent, tinned plated copper strands 36 AWG, Circular Mil Area 1000 -1300)Parts used depend on method chosen5Floating Shield Termination (method optional) Parts used depend on method chosen7Ring terminal, #8, insulated, 18-22 AWG MS25036-149Ring terminal, #8, insulated, 14-16 AWG MS25036-153Ring terminal, #8, insulated, 10-12 AWG MS25036-156DRAFT
Garmin Device Installation Manual 190-00303-91Page B-2 Rev. 1NOTEIn Figure B-1, “AR” denotes quantity “As Required” for the particular installation.Figure B-1  Shield Install onto a Jackscrew Backshell (78 pin example) 8Screw, PHP, 8-32x.312", Stainless MS51957-42Screw, PHP, 8-32x.312", Cad Plated Steel MS35206-2429Split Washer, #8, (.045" compressed thickness) Stainless MS35338-137Split Washer, #8, (.045" compressed thickness) Cad-plated steel MS35338-4210Flat Washer, Stainless, #8, .032" thick, .174"ID, .375" OD NAS1149CN832RFlat washer, Cad-plated Steel, #8, .032" thick, .174"ID, .375" OD NAS1149FN832P11 Silicon Fusion Tape -Table B-2  Parts not supplied for a Shield Block Installation (Figure B-1)Figure Ref Description GPN or MIL specFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page B-3B.1.2 Shield Termination Technique – Method A.1 (Standard)NOTEFor the following steps please refer to the drawings showing the installation of a Jackscrew Backshell.1. The appropriate number of Jackscrew Backshells will be included in the particular LRU connector kit.Figure B-2   Method A.1 for Shield Termination 2. At one end of a shielded cable (item 2) measure a distance between “Window Min” to “Window Max” (Table B-3) and cut a window (max size 0.35”) in the jacket to expose the shield (Figure B-2).  Use caution when cutting the jacket to avoid damaging the individual braids of the shield.  When dealing with a densely populated connector with many cables, it may prove beneficial to stagger the windows throughout the “Window Min” to “Window Max” range.  If staggering is not needed the “Ideal Window” length is recommended.Suggested tools to accomplish the window cut:• Coaxial Cable Stripper• Thermal Stripper• Sharp Razor Blade Table B-3  Shielded Cable Preparations for Garmin ConnectorsBackhell SizeNumber of Pins Std/HDFloat Min (inches)Float Max (inches)Ideal Float (inches)Window Min (inches)Window Max (inches)Ideal Window (inches)19/15 1.25 2.25 1.75 2.75 5.25 4.25215/26 1.5 2.5 2.0 3.0 5.5 4.5325/44 1.5 2.5 2.0 3.0 5.5 4.5437/62 1.5 2.5 2.0 3.0 5.5 4.5550/78 1.5 2.5 2.0 3.0 5.5 4.5Figure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page B-4 Rev. 13. Connect a Flat Braid (item 4) to the shield exposed through the window of the prepared cable assembly (item 2) from step 2.  The Flat Braid should go out the front of the termination towards the connector.  It is not permitted to exit the rear of the termination and loop back towards the connector (Figure B-2).  Make this connection using an approved shield termination technique.NOTEFAA AC 43.13-1B Chapter 11, Section 8 (Wiring Installation Inspection Requirements) may be a helpful reference for termination techniques.Preferred Method: Slide a solder sleeve (item 3) onto the prepared cable assembly (item 2) and connect the Flat Braid (item 4) to the shield using a heat gun approved for use with solder sleeves.  It may prove beneficial to use a solder sleeve with a pre-installed Flat Braid versus having to cut a length of Flat Braid to be used.  The chosen size of solder sleeve must accommodate both the number of conductors present in the cable and the Flat Braid (item 4) to be attached.  Solder Sleeves with pre-installed Flat BraidA preferred solder sleeve would be the Raychem S03 Series with the thermochromic temperature indicator (S03-02-R-9035-100, S03-03-R-9035-100, S03-04-R-9035-100). These solder sleeves come with a pre-installed braid and effectively take the place of items 3 and 4.  For detailed instructions on product use, reference Raychem installation procedure RCPS 100-70.Raychem recommended heating tools:•HL1802E•AA-400 Super Heater•CV-1981•MiniRay •IR-1759Individual solder sleeves and Flat BraidSolder Sleeves:Reference the following MIL-Specs for solder sleeves.(M83519/1-1, M83519/1-2, M83519/1-3, M83519/1-4, M83519/1-5) Flat Braid: If the preferred Raychem sleeves are not being used, the individual flat braid selected should conform to ASTMB33 for tinned copper and be made up of 36 AWG strands to form an approximately 19-20 AWG equivalent flat braid.  A circular mil area range of 1000 to 1300 is required.  The number of individual strands in each braid bundle is not specified. (e.g. QQB575F36T062)NOTEFlat Braid as opposed to insulated wire is specified in order to allow continuing air worthiness by allowing for visual inspection of the conductor.DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page B-5Secondary Method:Solder a Flat Braid (item 4) to the shield exposed through the window of the prepared cable assembly (item 2).  Ensure a solid electrical connection through the use of acceptable soldering practices.  Use care to avoid applying excessive heat that burns through the insulation of the center conductors and shorts the shield to the signal wire.  Slide a minimum 0.75 inches of Teflon heat shrinkable tubing (item 3) onto the prepared wire assembly and shrink using a heat gun.  The chosen size of heat shrinkage tubing must accommodate both the number of conductors present in the cable and the Flat Braid (item 4) to be attached.Teflon Heat Shrinkable Tubing: Reference the following MIL-Spec for Teflon heat shrinkable tubing (M23053/5-X-Y).4. At the same end of the shielded cable (item 2) and ahead of the previous shield termination, strip back “Float Min” to “Float Max” (Table B-3) length of jacket and shield to expose the insulated center conductors (Figure B-2).  The “Ideal Float” length may be best to build optimally.Preferred Method:The jacket and shield should be cut off at the same point so no shield is exposed.  Slide 0.75 inches minimum of Teflon heat shrinkable tubing (item 5) onto the cable and use a heat gun to shrink the tubing. The chosen size of heat shrinkage tubing must accommodate the number of conductors present in the cable.Secondary Method:Leave a max 0.35 inches of shield extending past the jacket.  Fold this 0.35 inches of shield back over the jacket.  Slide a solder sleeve (item 5) over the end of the cable and use a heat gun approved for solder sleeves to secure the connection.  The chosen size of solder sleeve must accommodate the number of conductors present in the cable.5. Strip back approximately 0.17 inches of insulation from each wire of the shielded cable (item 2) and crimp a contact (item 6) to each conductor.  It is the responsibility of the installer to determine the proper length of insulation to be removed.  Wire must be visible in the inspection hole after crimping and the insulation must be 1/64 – 1/32 inches from the end of the contact as shown in Figure B-3.Figure B-3  Insulation/Contact ClearanceFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page B-6 Rev. 16. Insert newly crimped pins and wires into the appropriate connector housing location as specified by the installation wiring diagrams.7. Cut the Flat Braid (item 4) to a length that, with the addition of a ring terminal, will reach one of the tapped holes of the Jackscrew backshell (item 1) (Figure B-1).  An appropriate amount of excess length without looping should be given to the Flat Braid (item 4) to allow it to freely move with the wire bundle.NOTEPosition the window splice to accommodate a Flat Braid (item 4) length of no more than 4 inches. 8. Guidelines for terminating the newly cutoff Flat Braid(s) (item 4) with insulated ring terminals (item 7):• Each tapped hole on the Jackscrew Backshell (item 1) may accommodate only two ring terminals (item 7). • It is preferred that only two Flat Braid(s) (item 4) be terminated per ring terminal.  Two Flat Braids per ring terminal will necessitate the use of a Ring terminal, #8, insulated, 14-16 AWG (MS25036-153). • If only a single Flat Braid is left or if only a single Flat Braid is needed for this connector a Ring terminal, #8, insulated, 18-22 AWG (MS25036-149) can accommodate this single Flat Braid.• If more braids exist for this connector than two per ring terminal, it is permissible to terminate three braids per ring terminal.  This will necessitate the use of a Ring terminal, #8, insulated, 10-12 AWG (MS25036-156).9. Repeat steps 2 through 8 as needed for the remaining shielded cables.10. Terminate the ring terminals to the Jackscrew Backshell (item 1) by placing items on the Pan Head Screw (item 8) in the following order: Split Washer (item 9), Flat Washer (item 10) first Ring Terminal, second Ring Terminal (if needed) before finally inserting the screw into the tapped holes on the Jackscrew Backshell. Do not violate the guidelines presented in Step 8 regarding ring terminals.11. It is recommended to wrap the cable bundle with Silicone Fusion Tape (item 11) (GPN: 249-00114-00 or a similar version) at the point where the backshell clamp and cast housing will contact the cable bundle.NOTEChoosing to use this tape is the discretion of the installer.12. Place the smooth side of the backshell clamp (item 12) across the cable bundle and secure using the three screws (item 13).  Warning: Placing the grooved side of the clamp across the cable bundle may risk damage to wires.13. Attach the cover (item 14) to the backshell (item 1) using the two screws (item 15).DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page B-7B.1.3 Shield Termination Technique - Method A.2 (Daisy Chain)In rare situations where more braids need to be terminated for a connector than three per ring terminal it is allowable to daisy chain a maximum of two shields together before coming to the ring terminal (Figure B-4).  All other restrictions and instructions for the shield termination technique set forth for Method A.1 are still applicable.  NOTEThe maximum length of the combined braids should be approximately 4 inches.Figure B-4  Method A.2 (Daisy Chain) for Shield TerminationB.1.4 Shield Termination – Method B.1 (Quick Term)If desired, the drain wire termination (item 3) and the floating shield termination (item 5) can be effectively combined into a “Quick Term”.  This method eliminates the float in the cable insulation and moves the placement of the window which was described by the dimensions “Window Min” and “Window Max” from Method A.  This technique is depicted in Figure B-5. NOTEThe original purpose for separating the shield drain termination (item 3) from the float termination (item 5) in Method A was to allow for a variety of lengths for the drain wires so that the shield drain terminations (item 3) would not all “bunch up” in the harness and to eliminate loops in the drain wires.  If Method B is chosen, as described in this section, care must be taken to insure that all drain shield terminations can still be inspected.  With connectors which require a large number of shield terminations it may be best to use Method A.  This will allow the drain shield terminations (item 3) a larger area to be dispersed across.Using this method, the instructions from Section B.1.2 (Method A) are followed except that:1. Step 2 is eliminatedFigure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page B-8 Rev. 12. Steps 3 and 4 are replaced by the following:At the end of the shielded cable (item 2), strip “Quick Term Min” to “Quick Term Max” (Table B-4) length of the jacket to expose the shield.  Next trim the shield so that at most 0.35 inches remains extending beyond the insulating jacket.  Fold this remaining shield back over the jacket.  Connect a Flat Braid (item 4) to the folded back shield of the prepared cable assembly.  The flat braid should go out the front of the termination towards the connector.  It is not permitted to exit the rear of the termination and loop back towards the connector.  (Figure B-5).  Make this connection using an approved shield termination technique.NOTEFAA AC 43.13-1B Chapter 11, Section 8 (Wiring Installation Inspection Requirements) may be a helpful reference for termination techniques.Preferred Method:Slide a solder sleeve (item 3) onto the prepared cable assembly (item 2) and connect the Flat Braid (item 4) to the shield using a heat gun approved for use with solder sleeves.  It may prove beneficial to use a solder sleeve with a pre-installed Flat Braid versus having to cut a length of Flat Braid to be used.  The chosen size of solder sleeve must accommodate both the number of conductors present in the cable and the Flat Braid (item 4) to be attached.NOTEReference Section B.1.2 for recommended solder sleeves and flat braid.  The same recommendations are applicable to this technique.DRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page B-9Secondary Method:Solder a Flat Braid (item 4) to the folded back shield on the prepared cable assembly (item 2).  Ensure a solid electrical connection through the use of acceptable soldering practices.  Use care to avoid applying excessive heat that burns through the insulation of the center conductors and shorts the shield to the signal wire.  Slide a minimum of 0.75 inches of Teflon heat shrinkable tubing (item 3) onto the prepared wire assembly and shrink using a heat gun.  The chosen size of heat shrinkage tubing must accommodate both the number of conductors present in the cable as well as the Flat Braid (item 4) to be attached. Teflon Heat Shrinkable Tubing: Reference the following MIL-Spec for general Teflon heat shrinkable tubing (M23053/5-X-Y)Figure B-5   Method B.1 (Quick Term) for Shield Termination Table B-4  Shielded Cable Preparations – (Quick Term)Backshell Size Number of Pins Std/HDQuick Term Min (inches)Quick Term  Max (inches)Quick Term Float (inches)19/15 1.25 2.25 1.75215/26 1.5 2.5 2.0325/44 1.5 2.5 2.0437/62 1.5 2.5 2.0550/78 1.5 2.5 2.0Figure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page B-10 Rev. 1B.1.5 Shield Termination-Method B.2 (Daisy Chain-Quick Term)In rare situations where more braids need to be terminated for a connector than three per ring terminal it is allowable to daisy chain a maximum of two shields together before coming to the ring terminal (Figure B-6).  All other restrictions and instructions for the shield termination technique set forth for Method B.1 are still applicable.  NOTEThe maximum length of the combined braids should be approximately 4 inches.Figure B-6  Method B.2 (Daisy Chain-Quick Term) for Shield TerminationFigure to be addedDRAFT
190-00303-91 Garmin Device Installation ManualRev. 1 Page B-11B.1.6 Daisy Chain between Methods A and BIn rare situations where more braids need to be terminated for a connector than three per ring terminal and a mixture of Methods A and B have been used, it is allowable to daisy chain a maximum of two shields together from a Method A termination to a Method B (Figure B-7).  All other restrictions and instructions for the shield termination technique set forth for Method A and B are still applicable. NOTEThe maximum length of the combined braids should be approximately 4 inches.Figure B-7  Daisy Chain between Methods A and BB.1.7 ID Program Pins (Strapping)NOTEThe Garmin Device rear connector (J4601) is electrically isolated.  For installations using programming pins, a ground pin must be tied to the connector shell.ID Program Pins provide a ground reference used by the hardware as a means of configuration for system identification.  The following instructions will illustrate how this ground strapping should be accomplished with the Jackscrew Backshell:1. Cut a 4 inch length of 22 AWG insulated wire. WARNINGFlat Braid is not permitted for this purpose.  Use only insulated wire to avoid inadvertent ground issues that could occur from exposed conductors.2. Strip back approximately 0.17 inches of insulation and crimp a contact (item 6) to the 4” length of 22 AWG insulated wire.  It is the responsibility of the installer to determine the proper length of insulation to be removed.  Wire must be visible in the inspection hole after crimping and the insulation must be 1/64 – 1/32 inches from the end of the contact as shown in Figure B-3.3. Insert newly crimped pins and wires into the appropriate connector housing location as specified by the installation wiring diagrams.4. At the end opposite the pin on the 22 AWG insulated wire strip back 0.2 inches of insulation.5. Terminate this end via the ring terminals with the other Flat Braid per Steps 8 and 11 pertaining to shield termination.  If this ground strap is only wire to terminate, attach a Ring terminal, #8, insulated, 18-22 AWG (MS25036-149).Figure to be addedDRAFT
Garmin Device Installation Manual 190-00303-91Page B-12 Rev. 1B.1.8 Splicing Signal WiresNOTEFigure B-8 illustrates that a splice must be made within a 3 inch window from outside the edge of clamp to the end of the 3 inch max mark.WARNINGKeep the splice out of the backshell for pin extraction, and outside of the strain relief to avoid preloading.Figure B-8 shows a two wire splice, but a maximum of three wires can be spliced.  If a third wire is spliced, it is located out front of splice along with signal wire going to pin.Splice part numbers:  •Raychem D-436-36/37/38•MIL Spec MIL-S-81824/1This technique may be used with shield termination methods: A.1, A.2, B.1, B.2, C.1 and C.2. Figure B-8  D-Sub Spliced Signal Wire illustrationFigure to be addedDRAFT

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