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SLSA Dragonfly 912/582 POH & FTS rev.1 Pilot

1. Check One Item of Concern Safety of Flight Service Difficulty Reporting Party Contact Information Name Address City ST Zip Code Day Phone FAX email address Check Appropriate Owner Operator LSRI LSRM A amp P Other Explain Aircraft Specific Information Aircraft Information Engine Information Make Make Model Model Serial Number Serial Number N Number Gearbox Ratio Date of Mfg Propeller Mfg Propeller Serial Date of Problem Discovery dd mm yyyy Description Use Attachments and Photo s if Needed Comments Signature Date dd mm yyyy End 115
2. Figure 4 Preflight Areas 15 4 2 Engine starting WARNING Do Not attempt Hand starting by turning the propeller is Very Dangerous Always use the electric start system FUEL Approved types of fuel 90 octane quality unleaded auto gasoline use of 100 LL requires additional provisions listed in current Rotax manuals refer to Rotax Operators Manual or www flyrotax com for current recommendations OIL 582 Approved types and brands of TCW III mixed 50 1 912 Approved types and brands listed in the Current Rotax 912 manuals refer to Rotax Operators Manual or www flyrotax com for current recommendations STARTING THE ENGINE l Ensure rear seat belt is fastened so that it will not fly into prop and no other item is loose that will be drawn into the propeller stream Pump fuel to the carburetors by operating the squeeze bulb in the fuel line till the bulb is firm Ensure that the throttle is in Idle Position Closed Choke on Cold Start Check that prop is clear of bystanders When you are ready look both sides and call loudly CLEAR PROP Ensure that the front of the aircraft is clear Operate brakes On 8 582 Pump bulb until it beomes hard Pump primer 2 3 times 912 Equipped with Electric Boost Pump run pump until fuel is seen returning to tank through the return line E N SE 9 Call CLEAR PROP to warn observers amp look to insure it is clear 10 Turn IGNITION Switches ON and Pr
3. Fuel Consumption graphs in Section 5 5 of this manual 2 11 Applicable environmental limitations Aircraft has removable fuel tank to allow re filling in approved area 2 12 Daytime VFR only unless equipped with Optional Lighting Package 3 Emergency Procedures 3 1 General Information Stall due to low airspeed In all cases where low air speed has caused an inadvertent stall the aircraft will continue out of control until a flow of air is re established over the wings The immediate reaction must be STICK FORWARD Push the stick fully forward until the aircraft has recovered flying speed and then ease back on the stick till normal flying attitude Resist the temptation to pull the nose up Spins NOTE LIMITED AEROBATICS Note Aerobatic Maneuvers limited to approved maneuvers for the Dragonfly and performed by a Pilot with proper training in the Dragonfly Aerobatics Course Caution Engine is limited to positive G forces at all times Engine damage or failure may occur if negative G forces are held for more than a few seconds 10 In all cases where low air speed has caused an inadvertent stall and spin the control response reaction must be STICK FULL FORWARD and then FULL OPPOSITE RUDDER That means if you have entered a spin to the LEFT push hard on the RIGHT rudder pedal Once the spin has stopped reduce power to avoid over speed centralize the controls and gently recover from the dive Reset t
4. maximum certificated operating weight of the glider or unpowered ultralight vehicle and not greater than twice this operating weight ii A safety link is installed at the point of attachrnent of the towline to the towing aircraft with a breaking strength greater but not more than 25 percent greater than that of the safety link at the towed glider or unpowered ultralight vehicle end of the towline and not greater than twice the maximum certificated operating weight of the glider or unpowered ultralight vehicle The petitioner supports its request with the following information The petitioner states that an exemption from 91 309 a 2 91 309 a 3 would allow the towing aircraft to perform tow functions with a Bailey Tow and Release System without meeting the requirement of being equipped with a tow hitch of a kind and installed in a manner that is approved by the Administrator This exemption specifically applies to the Pitman Air Dragonfly Aircraft certificated as Special Light Sport Aircraft SLSA and Dragonfly Aircraft certificated as Experimental Light Sport Aircraft ELSA The petitioner also states the SLSA and the ELSA Dragonfly aircraft are built and maintained in accordance with Pitman Air Dragonfly Maintenance and Inspection procedures The petitioner is requesting this exemption include owrers of ELSA Dragonfly aircraft The owners would be offered inclusion in this exemption provided they agree to maintain the
5. 7 9 Oil 582 Approved types and brands of TCW III mixed 50 1 912 Approved types and brands listed in the Current Rotax 912 manuals refer to Rotax Operators Manual or www flyrotax com for current Oil recommendations 7 10 Operating Weights and Loading Refer to Section 6 Weight and Balance Information 26 8 Aircraft Handling and Servicing 8 1 Introduction Refer to Rotax Manuals for information regarding Engine and Gearbox 8 2 Ground Handling Pulling by hand using the rudder pedals give steering ability to the pulling and pushing by controlling the tail wheel alignment Pushing backwards Hold rudder pedals forward firmly and tail wheel will release and turn backwards Lifting Wing to lift wheel off the ground Should be done BY HAND at the front strut and wing attachment point 8 3 Towing Instructions Ground When towing with equipment like a Golf Cart Attach rope to Datum Point at intersection of nose tubes Tow Gently with a Competent Person in the Cockpit for Steering and Braking Operation 8 4 Tie Down Instructions Wings Tie down at the top of front strut where it intersects with the wing There is a Tie Down Loop Tail Tie Down Loop near rear wheel or Choose a solid point in the tail where tie down rope or chain will not damage the aircraft if pulled hard Note DO NOT use the Aero Tow Release Arm or Release Mechanism to tie down 8 5 Servicing Fuel Oil Coolant and other oper
6. Normally you will use the Up or Down button to select Yes and then press the right button to update your home position Selecting No will retain the last home position and is normally done only when on a cross country flight This page can also be manually accessed on the Set Limits pages to allow you to save the current position as your home position at any time Note The EIS assumes you are on the ground if the engine RPM has not exceeded 4100 RPM since the EIS was turned on and the GPS indicates you are not moving Using the GPS Page The GPS page is described in detail in figure 2 This page provide steering information to direct you to your home position as well as RPM altitude groundspeed distance and bearing to home When data can not be calculated or is unavailable it will be replaced with dashes to indicate that no valid data is available Connecting a GPS and Setting up the GPS Function Only 2 electrical connections are required to a GPS These are the serial data output line and ground Refer to the Cable Assembly diagram for an illustration of how these connections are made Go to the Configuration Set Pages and make the following selections See the section Configuration Set Pages for more details on how this is done GPS Page ON GPS Baud 4800 GPS Units Miles or Kilometers as desired Turn on the GPS Refer to its user s manual to select NMEA 0183 serial out
7. 100 The Triple Strength Link is used to fasten the Tow Bridle to the Quick Release Point B in Figure 1 We use TUF LINE BRAIDED DACRON 130 LB TEST GREEN SPOT NOTE Automotive GOOP can be applied over knots to help them last longer 5 Signals and Communications for Tow Operations 5 1 Introduction In accordance with 91 309 5 General course of action including takeoff and release signals airspeeds and emergency procedures for each pilot 5 2 Hand Arm and Rudder Signals NOTE These are simply examples The most important aspect of signals is that everyone involved in tow operations knows understands and uses the same set of signals Qr n 6 DEGIN TAKE OFF i f t TURN RIGHT TOW RELEASE ON GROUND 3 TAKE UP SLACK 4 HOLD 5 PILOT READY LEVEL WINGS 7 BEGIN TAKE OFF wepe akties GUDER ALOT B STOP ENGINE STOP OPERATION 10 TOWPLANE READY RELEASE TOWLINE os n A I IN AIR 3 SAILPLANE CANNOT 4 INCREASE SPEED 6 DECREASE SPEED RELEASE F J R DL J ri i wazpe rudder _ masr cut then rock wings l 7 TOW ANF CANNOT SELP ASE te By Memphis Soaring FIGURE 3 Common Signals 101 FIGURE 5 Common Aircraft Signals By Evergreen Soaring 102 5 3 Radio Communications Radio Communications are usually plain language However radio communications should always be accompanied by Arm Hand and Aircraft Action am
8. Of course this requires that your instrument includes the airspeed option b The tachometer must exceed the TachHi setting and then go below the TachLo entry This will generate an tachometer warning the red warning light will flash the page will change to the labeled page that includes tachometer and the tachometer will flash Acknowledging this alarm by pressing the Ack button results in the following c After the warning has been acknowledged the function is reset requiring the Hi setting to be again exceeded before the alarm is generated again d The warning light will go out when the landing checklist reminder warning is acknowledged The recommended setting for AspdLo and TachLo is a setting that is below what you normally encounter in takeoff climb cruise and descent but above what you encounter when entering the pattern or while in the pattern If you set the Lo threshold too low you may not get the warning until you have already landed if too high you may get it long before you are planning on landing The recommended setting for AspdHi and TachHi is a setting that is above what you normally encounter while in the pattern but reasonably below what you would encounter in takeoff climb cruise or descent If you set the Hi threshold too high you may not ever go above it preventing a landing checklist warning from being generated and if you set it too low you may get the alarm repeated due to power airspe
9. 30 31 32 Ke _ So OIT gt JOIP C H H C Combo Page 2 2D1 Tach 2D7 2P1 1 2P7 20 2D2 Volt 2D8 OP 2P2 6 2P8 21 2D3 EGH 2D9 CHH 2P3 11 2P9 28 2D4 2D10 2P4 15 2P10 31 2D5 E 2D11 C 2P5 16 2P11 32 2D6 OT 2D12 off 2P6 17 2P12 0 69 Bar Graphs use the first 8 character positions Shown as set at Pitman Air 1 2 3 4 5 6 7 9 10 11 12 13 14 15 16 H R M N 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 T A C H O T gt O P V O L T Graphical Leaning Pages Note Don t assign any items to position 1 8 as this space is reserved for the bar graphs The setup for this page applies to both bar graph pages GD1 Hr GP1 12 GD2 GP2 14 GD3 Mn GP3 15 GD4 Tach GP4 17 GD5 OT GP5 22 GD6 GP6 25 GD7 OP GP7 26 GD8 Volt GP8 29 GD9 off GP9 0 70 8 Disabling Pages Pitman Air disables Pages 0 4 6 7 9 11 12 13 14 amp 15 Up to 10 display pages may be disabled so that they do not appear when pressing the Next and Previous buttons Disabling pages can make it easier to get to the pages that you find the most useful You may find it useful to disable labeled pages which include information also shown on your programmable combination pages You may also f
10. Tach Reading is zero when one mag is turned off The connection to the oil or coolant temperature probe is open or not grounded A quick test is to touch the coolant temperature sensor lead to ground If the EIS show a high temperature the connection to the instrument is good If it does not change check the wire between the instrument and the oil or coolant temperature sensor especially the crimp on the quick disconnect that plugs onto the coolant temperature sensor This is normal as the tach signal is generated by one of the mags Tach is erratic Tachometer resistor is not installed or its value is too low See wiring diagram for tachometer connection Tach reading is steady but too low or too high TachP R is incorrectly set See Configuration Set Pages section Voltmeter reads to high All else OK An update version of software has been installed and the setting on the Units page the H N setting is incorrect Voltmeter reads above 20 V and other readings incorrect More than 5 volts is being applied to an auxiliary input This can be caused by an incorrectly calibrated capacitance fuel fuel probe a open ground wire to the manifold pressure sensor or similar Check the aux inputs be see if any are above 5 volts using a voltmeter 15 Warranty Grand Rapids Technologies Incorporated warrants this instrument to be free of defects in material and workmanship for 2 years from the date
11. This exemption terminates on November 30 2016 unless sooner superseded or rescinded Issued in Washington DC on November 18 2014 Michael J Zenkovich Deputy Director Flight Standards Service 107 Appendix F Aerobatic Training Syllabus Typical Dragonfly Aerobatics Training Syllabus Note This is a sample Syllabus used by Factory Test Pilots when teaching Aerobatics in the Dragonfly These maneuvers should not be attempted without Proper Training Accelerated Stalls 1 Enter a level turn while slowly increasing bank angle at 1 2 Vso 2 When aircraft has stalled at approx 45 degree bank Then release back pressure on the control stick lowering the angle of attack correcting back to level flight Common problems with coordinated accelerated stalls 1 Entry Speed too high or too low 2 Unable to maintain altitude nose too high nose too low 3 Unable to apply enough back pressure to the stick Accelerated Stalls Top Rudder 1 Enter a level turn while slowly increasing bank angle at 1 2 Vso But this time maintaining a skidding condition using rudder pressure opposite the turn 2 When aircraft has stalled asymmetrically then release back pressure on the stick while releasing pressure on the rudder followed by a mild correction to level flight Common Problems 1 Entry speed too high or too low 2 Unable to maintain altitude 3 Unable to apply enough back pressure 4 Unable to maintain rudder pr
12. 105 3 The Bailey Tow amp Release System in this case may be accepted by the FAA if built to the applicable ASTM standards and is approved for installation by the LSA manufacturer A grant of exemption from 91 309 a 2 a 3 i and ii would provide relief to the owners of the Dragonfly LSA from the regulatory requirement of having the tow and release assembly approved by the Administrator as required by 91 327 a 1 and 91 319 e 1 The FAA will not mandate owners and operators who opt to utilize the Bailey Tow and Release System to participate in the Continued Operational Safety Monitoring System for the Dragonfly SLSA and ELSA offered by Pitman Air LLC Also we will not require the owners and operators of the Dragonfly SLSA and ELSA to pay a fee for administrative and monitoring services These requests by Pitman Air LLC are non regulatory and will not be addressed by this exemption request The FAA s Decision In consideration of the foregoing I find that a grant of exemption is in the public interest Therefore pursuant to the authority contained in 49 U S C 106 f 40113 and 44701 delegated to me by the Administrator Pitman Air LLC is granted an exemption for the Bailey Tow amp Release System from 91 309 a 2 and 91 309 a 3 of Title 14 Code of Federal Regulations to the extent necessary for owners of the Dragonfly SLSA and ELSA aircraft certificated under 21 190 and 21 191 i 1 manufactured by
13. 23 23 0 357 35 7 MAC 64 5 6 3 2 CG WITH MAX FUEL amp TWO 90 KG 199 Ib PILOTS example Weight Arm Moment Aircraft 5151b 95 9in 49388 5 in lb Fuel 331b 60 0in 1989 0 in Ib Pilot 1991b 35 0in 6965 0 in Ib Co Pilot 1991b 82 0in 16318 5 in lb 946lb 74660 5 in Ib CG MOMENT 74660 78 92in MASS 946 As a percentage of MAC 78 92 60 18 92 18 92 293 29 3 MAC 64 5 6 3 3 Ballasting to Compensate for Light Pilot Weight Solo 582 will have minimum front pilot weight of 138 unless ballast is added to the lower front section of upper cockpit tube DFC 004 and or DFC 005 near the rudder pedals With 11 pound ballast in place minimum pilot weight solo is 120 Ibs Any pilot weight less than 140 Ibs must accommodate with ballast as shown with this formula 140 pilot weight 61 ballast needed i e pilot weighs 98 Ibs then 140 98 61 25 62 Ibs of ballast required 912 will have minimum front pilot weight of 175 unless ballast is added to the lower front section of upper cockpit tube DFC 004 and or DFC 005 near the rudder pedals With 32 pound ballast in place minimum pilot weight solo is 120 Ibs Any pilot weight less than 175 Ibs must accommodate with ballast as shown with this formula 175 pilot weight 59 ballast needed i e pilot weighs 98 Ibs then 175 98 59 45 43 Ibs of ballast required Ballast Location Place ballast in the form of Ankle weights from Wal Mart These can Velcro to the very front
14. 24 25 26 27 28 29 30 31 32 pi ol5 0l0 1 215 Altitude Airspeed 2 Once satisfied with the layout create a list of the entries Use the table above to determine the identifier used by the instrument for each of the items Fill out the list 1D1 TACH 1P1 1 1D2 OT 1P2 11 lt Note that this number corresponds to the start of the data being displayed 1D3 wy 1P3 14 1D4 OP 1P4 15 1D5 ALT 1P5 17 1D6 1P6 22 1D7 ASP 1P7 30 1D8 Off 1P8 0 1D9 AUX1 The entries set to Off are ignored 1P9 8 1D10 Off 1P10 0 1D11 Off 1P11 0 1D12 Off 1P12 0 3 Enter these into the instrument s Configuration Set pages 68 7 17 Worksheet for Planning User Definable Pages Shown as set at Pitman Air Note gt denotes field going further spaces 1 2 3 4 5 6 71 8 9 10 11 12 13 14 15 16 T A C H O T gt O P E G H gt 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 A L T gt gt I V S CIH H Combo Page 1 1D1 Tach 1D7 VS IPl1 1 1P7 24 1D2 OT 1D8 CHH 1P2 6 1P8 30 1D3 1D9 off IP3 9 1P9 0 1D4 EGH 1D10 off 1P4 13 1P10 0 1D5 Alt 1D11 off IP5 17 IP11 0 1D6 1D12 off 1P6 23 1P12 0 1 2 3 4 5 6 7 8 11 12 13 14 15 16 T A C H V O L T E G H gt E 17 18 19 20 21 22 23 24 25 26 27 28 29
15. 4 1 General 4 2 Installation 4 3 Inspections 5 Signals and Communications for Tow Operations FIGURE 3 Common Signals 6 Safety Bulletins 7 Operational and Service Difficulty Reporting Appendix E Aero Tow Exemption 104 Appendix F Aerobatic Training Syllabus 108 Owner Operator Responsibilities required by FAA amp Consensus Standard ASTM F2245 10c Safety of Flight amp Service Difficulty Report Form 114 Safety of Flight amp Service Difficulty Report Form 115 87 88 89 93 93 93 93 93 93 97 97 97 97 98 98 98 98 99 99 99 99 99 99 99 99 99 101 101 103 103 112 Copy this page to file Safety of Flight or Service Difficulty Report Safety of Flight amp Service Difficulty Report Form Mail to Pitman Air 1840 Airport Blvd Red Bluff CA 96080 or Online at www pitmanair com dragonfly Circle One Item of Concern Safety of Flight Service Difficulty Reporting Party Contact Information Name Address City ST Zip Code Day Phone FAX email address Check Appropriate Owner Operator LSRI LSRM A amp P Other Explain Aircraft Specific Information Aircraft Information Engine Information Make Make Model Model Serial Number Serial Number N Number Gearbox Ratio Date of Mfg Propeller Mfg Propeller Serial Date of Problem Discovery dd mm yyyy Description Use Attachments and
16. Bolt Fastener Construction 7 3 Flight controls Junker Style Ailerons Conventional Stick amp Rudder using Push Rods Bell Cranks and Cables for operation 7 4 Instrument panel Side mounted in fairing Engine Information System EIS w Warning Light refer to Appendix s A1 582 or A2 912 for details Standard 2 1 4 or 3 1 8 Falcon 0 80 mph Airspeed Indicator for markings refer to Section 9 1 or Appendix C Rearview Mirror 7 5 Flight instruments Airspeed Indicator for markings refer to Section 9 1 or Appendix C Altimeter in EIS 7 6 Engines Rotax 582UL 65 hp Mod 99 2 Cylinder 2 Cycle Dual CDI ignition Water Cooled w 4 1 reduction Model C Gearbox or Rotax 912UL 80 hp 4 Cylinder 4 Cycle Dual CDI ignition Water Cooled heads w 2 24 1 Reduction Gear Drive or Rotax 912ULS 100 hp 4 Cylinder 4 Cycle Dual CDI ignition Water Cooled heads w 2 43 1 Reduction Gear Drive Refer to Engine Operating procedures in the Rotax Operators Manual 7 7 Propeller 582UL Bolly BOS3 72x60 SR 4 blade or Kiev Prop 71 5 3 blade CW 912UL amp 912ULS Kiev Prop 71 5 3 blade CCW or Powerfin 72 3 blade Type F 7 8 Fuel and Fuel capacity Capacity 6 US Gallons 582 90 Octane Unleaded Auto Gas Premix 50 1 TCW III 2 Cycle Oil 912UL 85 octane unleaded auto gas 100 LL may be used but check provisions in Rotax Manuals 912UL 91 octane unleaded auto gas 100 LL may be used but check provisions in Rotax Manuals
17. FAA 9 4 2 Modifications Improvements or Corrections Modifications can only be done with an LOA Letter of Authorization from the manufacturer Any modifications or modifications to the aircraft without an LOA may result in the loss of the Airworthiness Status of the Aircraft 9 4 1 1 Safety Directives SD similar to but not equal to AD s Airworthiness Directives The manufacturer may issue one of three types of Safety Directives A Safety Alert SA for conditions that require immediate action and instructions B Service Bulletin SB for conditions that don t require immediate action but have a recommended future action C Notification N which doesn t necessarily recommend future action but is primarily for promulgation of Continued Airworthiness Information 9 4 3 Continued Operational Safety Reporting and Compliance Owners have a Responsibility to report any Safety Concerns Maintenance Problems and or Equipment and or Part Failure directly to the manufacturer as soon as practical 28 9 4 3 1 Each owner operator of a LSA shall read and comply with the maintenance and continued airworthiness information and instructions provided by the manufacturer 9 4 3 2 When the manufacturer issues one of these directives it will include information on exactly what needs to be done by whom how and what parts and tools are needed Aircraft logbooks must be updated to show completion of any Safety Directive Pr
18. Pilot s Operating Handbook amp Flight Training Supplement Light Sport Dragonfly SLSA 912 582 Kit ELSA 912 582 Airplane Registration Number Airplane Serial Number Date of Delivery dd mm yyyy This Manual only applies to SLSA Dragonfly Aircraft and ELSA Dragonfly Kits manufactured by Pitman Air in the United States of America copyright Ed Pitman amp Bill Moyes 2013 Record of Manual Revisions Note A current version of this manual is always available on the internet at http www pitmanair com dragonfly dd mm yyyy Revision Number amp Date Headings Paragraph Page numbers Rev 0 03 04 2013 All All All Add Exemption as Appendix E Old E moved Rev 1 01 12 2014 to F All All Serial Number Information PA or PAK Pitman Air or Pitman Air Kit Engine Production Number Example PA 582 111 Warning Limited Aerobatics The Dragonfly was not designed for many Aerobatic Maneuvers Prior authorized maneuvers only with proper training Solo Flight from Front Seat Only Always Insure that Weight amp Balance are within Limits Owner Operator Responsiblities The Owner Operator is responsible for Maintaining the Aircraft in accordance with the Inspection and Maintenance Procedures as defined in the Pilot Operating Handbook amp Maintenance Manuals Safety of Flight and or Service Difficulties must be Reported as soon as possible by using a copy
19. unusable fuel maximum oil and where appropriate engine coolant and hydraulic fluid Units Speed Kts Knots 1 15 mph miles per hour 1 84 km hr 1 km hr 1 6 MPH Pressure PSI Pounds per Square Inch in Hg inches of Mercury mb millibar Distances in inches 25 4 millimeters ft foot feet 305 meters Weights Kg kilograms 2 2 lbs 2 2 pounds Misc 1 Pound Ib 0 4536 Kilogram kg 1 Pound per sq in psi 6 895 Kilopascal kPa 1 Inch in 25 4 Millimeters mm 1 Foot ft 0 3048 Meter m 1 Statute mile 1 609 Kilometers km 1 Nautical mile NM 1 852 Kilometers km 1 Millibar mb 1 Hectopascal hPa 1 Millibar mb 0 1 Kilopascal kPa 1 Imperial gallon 4 546 Liters I 1 US gallon 3 785 Liters I 1 US quart 0 946 Liter I 1 Cubic foot ft3 28 317 Liters I 1 Degree Fahrenheit F 1 8 X C 32 1 Inch Pound in Ib 0 113 Newton Meters Nm 1 Foot Pound ft Ib 1 356 Newton Meters Nm 31 Checklists printable Sample PREFLIGHT CHECK LIST 1 Check aircraft papers Aircraft Registration Airworthiness Certificate POH Flight Manual Weight and Balance amp Operating Limitations 2 Check if logbooks are current and note latest maintenance performed PREFLIGHT INSPECTION Control surface hinge bolts secure Control linkage bolts secure Rudder control cable wear and bolts secure Propeller secure and free of nicks and dama
20. 14 5 miles away Is this reasonable You decide Note that bearing data should not be used for steering Groundspeed This includes the effects of wind It is displayed in miles hour MH symbol or kilometers hour KH symbol Determine your groundspeed in still air and use the difference from this speed to determine the headwind component This can be very useful for detecting winds which may be too strong to allow you to make it home Remember that wind speed can vary greatly with altitude Where is the home position This is the where the GPS was reporting you were at the last time you answered the wo omePos prompt with es At power up the EIS will prompt you automatically if you if you are at a new home position and the EIS determines you are on the ground not moving You may also access the SaveHomePos page on the set pages at any time Selecting Yes will update your home position to the current position so think twice before doing this while in flight Figure 2 Using the GPS Page 41 EGT 2 Yellow L2uOWARD Push on connectors may be White Green pl used for these connections elle mils g Included in parts pack EGT 1 Yellow Tachometer See Figure 7 CHT 1 White for this connection IE Waming Light 12V Power Serial Output Serial Input Gre Audio Output 2 yBrown to Intercom EGT 2 Red CHT 2 Red EGT 1 Red CHT 1 Red N C ANY Gr
21. 4 Highest CHT CHH 3 CHS Factory Use Only CHT Rate CHR 3 Highest EGT EGH 4 EGT Span EGS 4 Highest EGT Change EGPk 4 Leaning info EGT or delta from peak EGT for first cylinder to peak FRST2PK indicates which cylinder was first to peak FRST2PK 1P 1 Cylinder number of first to peak while leaning ROC VS 2 Vertical speed magnitude unsigned Use the 66 ROCSGN below to display an up or down arrow next to this value to show climb dive ROCSGN 1 This is the vertical speed sign an up or down arrow Airspeed ASP 3 Airspeed Hourmeter Hours 6 Fuel Remaining according Fuel 4 to the fuel flow calculation Altitude Alt 5 Flight timer hours Hr 2 Use a to separate hours and minutes and Flight Timer Minutes Mn 2 seconds Flight Timer Seconds Sc 2 Fuel Flow Function s EH 2 Use a to separate hours and minutes Endurance Hours Fuel Flow Function s EM 2 Endurance Minutes Cylinder number with C 1 This is not the temperature but which cylinder highest CHT has the hottest CHT such as cylinder 2 Cylinder number with E 1 Cylinder number with highest EGT highest EGT Outside Air Temperature Oat 3 The outside air temperature will be displayed in deg F only Carburetor Air Temp Crb 3 Barometric Pressure setting Baro 5 for altimeter ROCSGN rate of climb 1 This is the vertical speed sign an up or down sign up arrow for climb arrow d
22. 63 7 12 AspdLo AspdHi TachLo TachHi Landing Checklist Reminder RPM Range Limit 7 12 1 Landing Checklist Reminder 64 7 12 2 RPM Range Limit 64 45 49 49 49 51 54 58 59 64 7 13 7 14 7 14 1 7 15 7 15 1 7 15 2 7 16 7 17 8 9 9 1 9 2 9 2 1 9 2 2 9 2 3 9 2 4 9 2 5 9 3 10 10 1 10 3 11 12 13 14 AltCor Calibrating the Altimeter Barometric Pressure 65 AItSF 1 10k 2 20k 3 30k 4 40k Altimeter Adjustments SW Version 5 8 and above Precision Altimeter Calibration Procedure 65 User Definable Combination Pages 65 1D1 1P1 GD9 GP9 65 Table of User Definable Page Entries 66 Example Worksheet for setting up your custom pages Worksheet for Planning User Definable Pages Disabling Pages Engine Analysis Functions The EGT Tracking Function Leaning Functions Leaning with the Bar Graph Digital Leaning Page Special leaning functions First Cylinder to Peak FRST2PK EGPk First Cylinder to Peak Leaning Status Shock Cooling Detection Detailed Description of Other Functions Flight Timer 7310 2 Unit Temperature H20 Water Temperature Function Updating the EIS Software Check Entries Message Troubleshooting Common Problems Warranty 72 72 73 73 46 68 69 71 72 73 73 73 71 71 73 74 74 74 75 65 The fuel flow function includes an upper limit for the flow rate This is an important safety feature that allows detection of leaking fuel lin
23. Carburetor Temperature Probe The carburetor temperature probe is mounted in the carburetor such that it senses the air temperature in the venturi See the sheet that accompanies this probe for further details about its mounting 5 2 11 EGT amp CHT Extension Wire All models of the EIS correct the EGT and CHT inputs the thermocouple inputs for the ambient temperature This is called cold junction compensation To perform this compensation accurately all models of the EIS except those marked with the Ext CJ designation or those using the temperature compensating terminal strip require thermocouple extension wire Unlike other types of wire thermocouple extension wire is polarized Each conductor is made of a different alloy and is identified by the color of the insulation It is necessary to use matching extension wire for thermocouple probes and to observe this polarity for accurate readings For example the EIS requires type J thermocouple for sensing cylinder head temperature To extend the leads of the cylinder head temperature probe type J extension wire is required Extension wire type is identified by the color of the insulation on the two wires Color of Insulation on the Wires Use Red and White Cylinder Head Temperature Red and Yellow Exhaust Gas Temperature Leave slack in the wire between the engine and airframe to account for engine motion To avoid confusion it is a good idea to label each wire to ide
24. Pitman Air LLC equipped with the Bailey Tow amp Release System to tow aircraft end be in compliance with the issued operation limitations under 91 327 a 1 and 91 31 e 1 as applicable Operators of the Dragonfly aircraft that opt to utilize the Bailey Tow anc Release System on their Dragonfly aircraft must follow the Conditions and Limitations of this exemption subject to the conditions and limitations listed below Conditions and Limitations 1 The owner operator will utilize the Bailey Tow and Release System only on the Pitman Air Dragonfly Light Sport Aircraft certificated under 21 190 and 21 191 i 1 of Title 14 Code of Federal Regulations The owner operator will maintain and operate the tow hook assembly utilizing the Operation Maintenance amp Inspection Instructions for the Bailey Tow and Release System N 3 The information in the Dragonfly LSA maintenance manual and pilot operating handbook POH must meet the requirements of ASTM standard F2245 Annex A1 1 through A1 7 when the aircraft is equipped for towing 4 For tow operations the Light Sport Aircraft operator must meet the 100 hour inspection requirements of 91 319 g 1 or 2 or 91 327 c 1 or c 2 of Title 14 Code of Federal Regulations as certificated 106 4 5 A copy of this exemption must either be incorporated into the aircraft pilot operation handbook POH or carried on the aircraft while operating under this exemption
25. RPM 3500 or so off Tach reading is steady but TachP R is incorrectly set See Configuration Set Pages section too low or too high Instrument turns off by itself The battery or capacitor is not connected to the output of the regulator rectifier Does not apply to Key West regulator rectifiers 39 Highest Cylinder Temperature Tachometer Head Highest Exhaust Gas Temperature The 1 or 2 indicates which cylinder is the hottest This key advance the display page 3840 435 1020 Press and hold these two keys for several seconds to select the Configuration Set pages Press these two keys together to select the Set pages 152 14 s RPM 2 CHT 1 EGT CI LI Eo 4 Page0 _ gt A 72 Cool Volt OAT Battery Voltage and Outside Air Coolant Temperature displayed here Temperature Internal Instrument Temperature Used by the EIS to temperature compensate 80 1 22 86 the EGT and CHT Inputs Typically reads 20 30 Fuel an auxiliary input Fuel Timer Unit degrees F above ambient air temperature may be used to display fuel quantity fuel pressure or Flight Timer Tach Coolant or Outside Air Temp Fuel aux Highest CHT on the top row Altitude Vertical Speed and Highest EGT on the bottom row Vertical speed is shown in hundreds of feet per minute
26. S300 GNV LAVYJYNV 5 L uedg uado ae ty 1404S LHOM Twid3dS V SI LAVUOUIV SIHL O asoig asoy SNINAVM YS9ONASSVd E y NO 7 gt oo E C l P 440 lt x 2 TIM gt FA 440 EL uadg uedo O gage m EE Zmz m jaGueyo o yoalqns ase Aayy se o gt S505 Z ZLG WOD KE OIAY MMM 0 13434 3 o gt S a lt Sama m jenuey juang ut Paysi SIO TEE a peroddy xeyoy AUO SN LNVLYOdWI 3g g Be 110 YHOLOW TiNa Ssw37ay SNIIMOL ATE ouu HF 2f Z Nd 3sw37ay INITMOL 11Nd 3SY3734 SNIIMOL aa ES mara 2 00 E FE NO NO NO NO NO NO ta sese T Fy c FEIEREN 52209 at JJO 4330 440 JJO 43O 4430 is F So d 3 ZOVW 48M0d OVW ZOVW 48M0d OVW sx aD 2od diie ii o8ser 2a 533 bS geese 13 NOY a0 NO 5 gl LUVAS OLHSNA LUVAS OLHSNd End Appendix C End POH amp FTS This Page Intentionally Left Blank 92 Appendix D Bailey Release and Tow System Operating Instructions of Bailey Tow Release System 1 General Information 1 1 Introduction The Bailey Release and Tow System has been used and refined since 1990 on the Bailey Moyes Dragonfly for towing Hang Gliders Ultralight Gliders and Light Sailplanes This is more than a Release it is a complete System Comprised of key elements protecting both the Tow Plane and the Craft being towed The Bridle and Slider which is unique in the Dragonfly Aero Towing community allows more pitch control of the Tow Plane during towing This c
27. and investigate Can only EGT or CHT Coolant Temperature be monitored No Remember that EGT reflects the fuel air ratio and the internal temperatures of the engine The CHT and coolant reflect how well the engine is being cooled and the overall temperature of the engine When an engine is damaged due to high EGT lean mixture it is typical for the CHT or coolant temperature to remain normal When an engine is damaged due to high CHT and or coolant lack of cooling it is typical for the EGT to remain normal They measure different aspects of the engine that do not necessarily react together Operating Instructions for the EIS Model 2000G The Model 2000 is specifically designed for the powered parachute type aircraft requires very little input from the pilot Before using the Model 2000 for the first time Set the units for temperature altitude and fuel quantity if used as desired The instruments are set at the factory to Fahrenheit Feet and Gallons for temperature altitude and fuel respectively Read the section on Automatic Altimeter operation Set this as desired Engine limits are pre set at the factory You may review these limits and change them at any time if you desire All settings in the instrument may be set back to the initial factory settings by holding the right button Display when turning on the instrument 34 Before Each Flight 1 If the altimeter is operated in the Manual mode set the alt
28. battery but this will shut off the EIS Engine Information System and other powered items Land as soon as is practical and repair the problem 3 3 11 Overvoltage If voltage exceeds 16V the master switch should be turned off to prevent the battery from over heating Land as soon as is practical and repair the problem The EIS warning level should be set to 14 9 volts DC 3 3 12 Inadvertent spin In all cases where low air speed has caused an inadvertent stall and spin the control response reaction must be STICK FORWARD TO RELEA VE BACK PRESSURE that caused the Stall and then FULL OPPOSITE RUDDER That means if you have entered a spin to the LEFT push hard on the RIGHT rudder pedal Once the spin has stopped reduce power to avoid over speed centralize the controls and gently recover from the dive Reset the throttle power setting as required 3 3 13 Inadvertent Icing Encounter Carb Icing Structural With the open cockpit the likelihood of inadvertent icing is minimal Should this occur exit the icing area in the direction from which you came Carburetor Carb Icing is extremely rare on the 582 and 912 However our experience has shown that it can occur at a power setting between cruise and below full throttle and outside air temperatures between 68 and 74degrees F 20 24 C If this occurs go to full throttle and you will hear the engine clear up within a minute Then you can return to the desired throttle setting and be vig
29. change making all temperature limits incorrect unless reset to Celsius NOTE Limits that are not used should be set to zero This disables the limit to prevent nuisance false warnings Some limits may not have a practical use for routine flying but have been included to provide additional flexibility in diagnosing engine problems Normally these limits are set to zero CAUTION While the Set pages are selected the automatic warning feature of the instrument is disabled This is necessary to allow the pilot the ability to change an engine limit in the presence of an engine parameter that is intermittently outside of its limit The warning light is illuminated while the Set Limits pages are selected to remind you that the warning feature has been disabled and as a convenient means of testing this light All alarms will be annunciated as described in Using the Engine Information System unless otherwise noted in the table below 51 4 1 Set Page Table of Limits Brackets denote Dragonfly Factory Settings N U not used Setting Recommended Setting Cont Contrast Adjusts screen for maximum readability based on 2 or3 2 or 3 viewing angle and instrument temperature See end of table for more information about this setting Back_Light Sets the intensity of the backlight Lower settings correspond to Set this to maximum level acceptable 6to9 lower intensity with zero corresponding
30. display the tachometer reading being sensed by the tachometer input 2 This is accomplished by selecting N2 to be displayed on a combination page N2 will always show the RPM calculated from tachometer input 2 The normal Tach display will show EITHER tachometer input 1 if it is available OR tachometer input 2 if it is available 6 2 2 Testing Tachometer Accuracy A simple test to help verify the RPM readings are accurate can be made by running the engine at night and looking through the propeller at a florescent or mercury vapor light The pulsation of the light will make the propeller to appear to stopped at various RPMs Verify the propeller appears stopped at the RPMs shown in the following table Note that this applies to lights powered by 60 Hz electrical power such as that used in the United States and Canada Also remember that this is the propeller RPM and the engine RPM will by higher by the reduction ratio if the engine includes a propeller speed reduction unit 2 Blade Propeller 3 Blade Propeller 600 240 720 300 1200 480 1440 600 1800 1200 3600 2400 CAUTION If there is ANY DOUBT that the tachometer is working correctly use another tachometer that is known good to verify the EIS is giving the correct tachometer reading Attempting a take off with an inaccurate tachometer could result in less than full power being available and this could be very dangerous 58 6 3 Other Checks CAUTION Verify th
31. engine stoppage If not possible to reduce power try going to full power The carburetor provides the leanest mixture and highest EGTs around mid power Going to full power will normally reduce the EGTs assuming the engine is otherwise functioning normally Why monitor Cylinder Head Temperature CHT and Coolant Temperature Both CHT and coolant temperature reflect how well the engine is being cooled They revel problems association with insufficient cooling such as poor airflow over the engine and or radiator lack of coolant loose fan belts etc They do not provide any indication of the mixture being too lean and thus can not give any warning about excessive internal engine temperatures This is the job of EGT For air cooled engines CHT is the only means to measure how well the engine is being cooled For water cooled engines CHT allows detection of uneven coolant flow and provides earlier warning to loss of coolant than water temperature Exceeding these limit may result in damage but not nearly as quickly as exceeding EGT limits What causes high CHT and Coolant Temperatures High power settings and high ambient temperatures Problems with the engine s cooling system What to do when you get a high CHT and or Coolant alarm Reduce engine power as soon as practical Reduce the load on the engine by reducing the climb rate If normal temperatures can not be achieved with these actions land as soon as practical and safe
32. final approach to landing After practice the DRAGONFLY can be landed in very small areas safely This section is an outline of typical procedures for flying a DRAGONFLY It is represented here as a preliminary overview only More detailed explanations including emergency procedures are listed in the Pilot Operating Handbook POH provided with the DRAGONFLY The Student should read the POH prior to training 4 1 Take off If the runway and approach to the runway are clear Roll out to the take off position e If it is possible take off directly into the wind The maximum direct crosswind component at take off 12 mph Confirm the tail wheel is centered Controls in proper position for takeoff Apply the throttle smoothly to fully open forward 582 Engine speed approx 6500 RPM amp left rudder 912 914 Engine speed approx 5500 RPM amp right rudder e As soon as the airplane accelerates gently pull back on control stick keep the tail wheel slightly weighted until the airplane takes off e At take off release the back pressure on the stick and allow airspeed build to 42 mph At initial climb speed up to 48 mph Climb to a minimum height of 650 ft AGL in straight ahead flight before attempting to turn the aircraft or reduce to best climb speed 4 2 Climb Climb to a minimum height of 650 ft in straight ahead flight before attempting to turn the aircraft or reduce to best climb speed 4 3 Limitations for a complete list of lim
33. flight has lasted It resets at power up and starts counting when the engine is running based on the tachometer It displays the previous flight time until the current flight time reaches 3 minutes allowing you to easily recall the length of the previous flight A warning can be set when the timer exceeds your preset limit to remind you to check your fuel Favorite Page The instrument will automatically select your favorite page when the checklist is ended or the right button is double clicked or when leaving the Set Pages Your favorite display page is entered under the DISPLAY setting in the Set Limits pages It is the last setting on these pages Press to See Labels Pressing the right button Display when on a combination page that is a page with no labels will replace the numeric data with labels to identify the data Releasing the button returns the numeric data to the page Double clicking the Display button immediately takes you to your favorite page Normally a combination page is used as your favorite GPS Page 35 The GPS page gives you easy to read and easy to understand steering information to get you home It also provides groundspeed as well as the distance and magnetic bearing to home This function requires the connection of a GPS to the EIS to perform these functions Using the GPS page provided on the EIS has several advantages over that of a stand alone GPS namely Automatic Op
34. have 1 or 2 pulses per revolution while a 6 cylinder 4 stroke engine will have 1 5 or 3 If you choose the wrong setting the tachometer reading will be off by half or double the actual RPM A 27 k Ohm resistor must be connected between the instrument and the mag P lead as shown in figure 7 to protect the mag from being turned off by a failure in the instrument A magneto or ignition test is commonly performed before each flight for airplanes that include dual ignition systems This test requires turning off each ignition system and verifying that the engine will function on the remaining ignition system Two tachometer inputs are provided to allow sensing the engine RPM from either of two ignition systems so that the RPM indication is not lost during the magneto test The EIS will use tachometer input 1 when a tachometer signal is sensed If tachometer input 1 is not providing any RPM indication the EIS will use tachometer input 2 An external switch may also be used to manually select which ignition system provides the tachometer source Since magneto problems can often be detected early on by erratic tachometer readings an external switch allows the pilot to choose which magneto is to be monitored allowing him to choose a different mag on each flight and thus providing some monitoring of the health of each magneto A switch can be wired to choose which tachometer output is provide to the EIS tachometer input 1 as shown on the tachometer wiring
35. internal thermal fuse for internal protection Any fuse 5 Amps or less to protect wiring Notes to the insturment is sufficient Pin numbers on connector housing 4 8V Excitation Tachometer Input 2 Output re Figure 7 or this connection Ground pug Yello Outside Air Green aux 1 gt Temperature Gray _ OAT inp Probe range t Temp I Aux 2 Coole T Reawhite alls Orange Black Gray Black ay a I Seed Aux 6 A I White Oil Pressure Sender VDO Part Number Yee 360 004 Case must be connected to ground J models use 360 003 0 psi or Bar 7 Oil Temperature Un Ground The case of the sensor provides a ground connection for VDO type sensors Fuel Flow Input Connects to white wire of FloScan Model 201B flow sensor Optional Female d sub connector Be sure to identify it correctly This is a female d sub connector It can be identified by its solid end opposite the side the wires are installed The contacts for this connector are female socket type Rear View of Connector Housing This view shows the side of the connector housing that the wire are inserted into Aux5 and Aux6 apply only to instruments with software versions xxx46 or See the Installation section Wiring sub section of the manual for notes regarding proper grounding N C indicates No Connection Do not wire to these inputs They are r
36. is provided by this function This information is provided on a labeled page above the CRate label A maximum cylinder head rate of cooling limit may also be set Consult your engine manual to see if such a limit is published for your engine If no limit is published you may determine a limit by trial and error While not all agree that shock cooling of the cylinders is areal problem there is no doubt that internal stresses in the cylinders can be reduced by avoiding shock cooling In addition some of our customers with glider towing operations are convinced that shock cooling can cause cylinder cracking 10 Detailed Description of Other Functions 10 1 Flight Timer At power up of the EIS the flight timer shows the length of the previous flight in hours and minutes This makes it easy to recall the last flight time if power is turned off to the instrument before the time is noted This time will be displayed until 3 minutes into the next flight at which time it will be replace with the length of the current flight in hours minutes and seconds It is especially useful for measuring the progress on cross country flight since it never forgets to start For those who forget to wear a watch and who don t have a clock or a GPS this timer can be handy for navigation purposes also 10 2 Unit Temperature This function is displayed on the hourmeter page and shows the internal temperature of the instrument It is used by the instrument for cold
37. junction compensation of the EGTs and CHTs It is also useful for estimating the cabin temperature as it tends to stabilize at about 30 35 degrees F above the ambient temperature The unit temperature can also be checked to see if the instrument is being exposed to excessive heat Unit temperatures above 170 degrees F can degrade the readability of the display The display will return to normal when it is cooled to normal temperatures Temperatures above 200 deg F can activate the internal thermal fuse shutting down the instrument 10 3 H2O Water Temperature Function This function is provided for those using water cooled engines It may also be useful for measuring other temperatures in the range of 80 300 degrees F such as under cowl temperatures especially for composite airplanes 11 Use with Precision Airmotive Eagle Engine Controller 73 The EIS is compatible with the Precision Airmotive Eagle engine controller The following notes apply for installations with this system Fuel Flow No flow sensor is installed in the fuel lines The fuel flow output from the engine controller should be connected to the EIS fuel flow input as shown in the engine controller documentation Per this documentation a 1k ohm resistor is connected to the fuel flow output of the engine controller and the other side of this resistor connects to 5 or 12V We recommend using the fuel flow 12V for this voltage For the fuel flow function to work the EIS
38. of the pilot cage near the down tube connection by rudder pedals These should rest the weight on the foot rest but be wrapped around cockpit tube DFC 004 and or DFC 005 24 Make copies of this page for calculation worksheets 6 3 4 AIRCRAFT SPECIFIC WEIGHT AND CG POSITION The CG must never be further FORWARD than 76 1 in from the Datum nor further AFT than 83in from the Datum Dragonfly Serial No Weight at left main wheel Ib Weight at right main wheel Ib Weight at tail wheel Ib Empty weight with standard equipment Ib Maximum takeoff weight 1080 Ib Maximum load Ib Empty weight CG position inch CG position MAC MAC Date Inspector 6 3 5 Load Sheet EMPTY WEIGHT CALCULATIONS WEIGHT MOMENT ARM MOMENT Ib inch In Ib Left Front Wheel 50 Right front Wheel 50 Rear Wheel 196 Fuel 60 Pilot 35 Co Pilot 82 Installed Equipment Totals Totals W Totals M CG position M W CG 6 4 Installed optional equipment list affecting weight and balance or a reference as to where this information can be found Item Location Inches from Datum Weight Moment Totals to use above Do Not total these Sum Sum 25 7 Description of Airplane and Systems 7 1 General High Wing High Drag Tail Dragger Open Cockpit 2 Place Pusher 7 2 Airframe Aluminum Tube amp Fabric Cable braced
39. of oral written and flight testing The student will demonstrate knowledge of the Pilot Operating Handbook POH the aircraft systems and limitations and the regulations pertaining to Light Sport Aircraft and Sport Pilot The demonstration will include emergency as well normal procedures 84 3 4 Areas of Operation and Tasks In a manner similar to Practical Test Standards put forth by the FAA the Instructor will establish Areas of Operation corresponding to specific areas of knowledge and or skill needed by the student to complete the transition training Within each Area of Operation the instructor will identify specific Tasks that can be completed by the student in order to demonstrate proficiency 3 5 Ground Training Systems and Limitations The instructor should not only provide an overview of the aircraft but also an in depth description of the aircraft systems their operation and their limitations The description should include a discussion on how the systems may be different from what the student has previously experienced Areas of operation I Aircraft overview Complete review of information in Pilot Operating Handbook POH Il Flight and System controls Refer to POH Il Flight Instruments Refer to POH IV Performance and Limitations Refer to POH V Power Plant amp Propeller Refer to POH VI Electrical System Refer to Maintenance Manual VIL Fuel System Refer to Maintenance Manual VII Landing Gear Re
40. of the controls in less than 3 rotations If neutral rudder and aileron are used this is reduced to 2 rotations At 690 Ibs gross solo and CG at 79 3 Dragonfly Flat Spin Recovery by itself without help is 1 One rotation The Dragonfly w 912 and average solo pilot weight takes approximately 1 1 2 one and one half rotations generally End of Appendix F 109 This Page Intentionally Left Blank 110 AIRCRAFT ACCEPTANCE CHECKLIST Pitman Air Bailey Moyes Dragonfly Aircraft Acceptance Checklist Owner Name Phone Address City State Zip Serial N Number Delivery Date Delivery Location Check O when accepted 1 Aircraft Documents Accepted O 2 Engine Logbook Serial Accepted O 3 Aircraft Manuals POH Maint Manual Accepted O 4 Equipment Manuals in POH Maint Manual Accepted O 5 Ballistic Chute Operation amp Service explained Accepted O 6 Electrical switches Circuit breakers Master switch Accepted O 7 Basic instruments and their operation Accepted O 8 Fuel shutoff and ignition switch Accepted O 9 Wing attach points Accepted O 10 Baggage location amp limitations Accepted O 11 Flight control visual inspection Accepted O 12 ELT and remote operation Accepted O 13 Main Landing Gear Accepted O 14 Ballistic chute blowout panel Accepted O 15 Antenna Accepted O 16 Airframe construction inspection and care Accepted O 17 Vertical stabilizer and lower fin Accepted O 18
41. of travel over the ground As a result no steering data can be provided and the EIS will display dashes indicating no steering data is available Caution Most GPS receivers tested to date will provide steering data on their display during this condition even though it is invalid Number 2 This is a tricky one If strong winds cause you to travel backwards it is impossible for the EIS or GPS to determine this is happening and steering from both of these devices will be incorrect even though there is no indication it is incorrect In this case you may notice that no matter what you do it is impossible to get on course using the steerng data 14R7 14 5 274 91 Bearing to home This is the direction to home Zero degrees represents due North 90 degrees is due east 180 is due south and 270 is due west In this example home is almost exactly east of your current position When the GPS is providing magnetic variation data the bearing will be displayed as magnetic referenced to magnetic north and an M will be displayed below the degree symbol If magnetic variation is unavailable true bearings will be provided and a T will be displayed below the degree symbol What good is bearing Its best use is with the distance data as a rough check to verify the home positon the EIS is steering you to is correct In this case the EIS has a home position that is almost due east of the airplanes current position and
42. on Select a baud rate of 4800 If necessary make any selection required to enable the GPRMC output sentence Most GPS receivers will transmit the GPRMC sentence automatically when the NMEA 0183 selection is made 36 Verify the EIS is receiving GPS data by checking the GPS page on the EIS If data is being received the X on this screen will disappear When the GPS locks onto the satellites a groundspeed of 0 will be displayed on the EIS Note Magellan brand GPS receivers do not activate the data output until they have locked onto satellites and are able to provide a valid position Garmin brand GPS receivers typically activate data output as soon as they are turned on even before any position data is available If no data is received by the EIS double check your electrical connections verify the GPS setup to transmit NMEA 0183 at 4800 baud and verify the EIS is set to a baud rate of 4800 A fluctuating voltage of a couple of volts can be measured between the GPS serial output line and ground to verify it is providing data output Peak Recording The EIS records the peaks maximums for 9 parameters during the flight The recording of these items begins when 3 minutes has elapsed on the flight timer at which time the peaks from the last flight are erased Since the peaks are recorded in non volatile memory the EIS is able to show you the peaks from the previous flight even if the EIS has been turned off since the end of the l
43. on combination screen 1 When On this display will toggle between the two EGTs every 2 seconds allowing you to observed both EGTs without switching pages CHT_Toggle When Off the highest CHT is displayed on combination screen 1 When On this display will toggle between the two CHTs every 2 seconds allowing you to observed both CHTs without switching pages Combo_Page Selects whether coolant temperature Cool or outside air temperature OAT is displayed on the combination pages The OAT selection is useful when coolant temperature is not being monitored 38 TachP R Indicates the number of pulses per revolution of the engine for tachometer sensing Rotax CDI engines require a setting of 6 The Rotax 912 requires a setting of 1 Fuel SF Fuel Off FuelSens Fuel level input scaling Normal settings are 5 0 and Forward respectively When using a Princeton Electronics fuel level probe set the Fuel SF to half of the desired full tank reading For example if you want to display the fuel level as 0 100 set the Fuel SF to 50 Messages at Power Up Non Rotax Tach Setting This indicates the TachP R setting is not standard for a Rotax engine This is a reminder that it may be set wrong The instrument will not change the TachP R setting however Limits Reset This indicates that a limit may have been altered unintentionally The instrument will reset all limits the initial factory setting Troubleshoot
44. option set it before each flight 2 If the instrument includes the fuel flow option review or update the fuel quantity setting as necessary Pressing the outer two buttons of the EIS will bring up the fuel quantity set page While on this page pressing the UP and DOWN left and center buttons will set the fuel quantity to whatever you have entered on the MAX Fuel setting on the configuration set pages All engine limits are stored with a checksum If the instrument determines a user setting has been lost it will generate a Check Entries message at power up If you see this message carefully review all user settings At power up the EIS will automatically select the page you have set as your favorite in the DISPLAY set page If an alarm is active the instrument will first annunciate the alarms requiring you to press the right button to acknowledge them before going to your favorite page Suggestion Include in your checklist a step to turn on the instrument before starting the engine Verify you get a low oil pressure warning and possibly others This is a simple way of verifying the oil pressure sensor is correctly measuring zero oil pressure This is recommended not because the sensor is prone to failure it is actually very reliable but because it is a very easy test to verify the most critical engine monitoring function 50 NOTE It is possible for the instrument or its sensors to suffer various kinds of fail
45. parachute and rocket should be returned to Manufacturer each 5 6 years for inspection and repack See manual There is a safety pin to prevent accidental deployment This must be removed before each flight and replaced after each flight Before each flight check that the parachute is securely mounted on the aircraft and that the bridle is securely attached to the main root tube Refer to current SECOND CHANTZ Recovery System Manual 19 4 13 2 AIRCRAFT DISASSEMBLY FOR TRANSPORT Transport on a trailer requires a trailer of sufficient size to accommodate the aircraft and provide protection while the aircraft is in transit It also requires cradles or support means to avoid damage to wing and control surface fabric and to prevent impact damage to the airfoil surfaces 1 Remove propeller 6 mounting bolts 2 Disconnect throttle and carburetors Disconnect Fuel Line and primer Disconnect multi plug wiring Disconnect starter cable Remove gap cover and wing straps Remove engine by removing 6 bolts through the Lord isolation mounts Disconnect rear wing to tail cables at tail and fuselage Disconnect Aileron push rods and Aileron torque tube Disconnect struts at bulkhead and jury struts Remove 4 wing mounting bolts and remove wings with struts attached to wings Fold jury struts to main strut Fold main struts to wings Mount wings on trailer 10 Disconnect horizontal stabilizer support cables by removing AN3 bolt at Stabilizer
46. pilot needs to remain vigilant from the time the aircraft first moves under its own power until after the landing is complete and the aircraft is brought to a full stop Also the weight constraints of designing and building a safe and practical LSA mean that only a certain amount of the design can be devoted to shock absorbing ground maneuvering equipment the landing gear It is a good idea for us to try to improve our flying skills and develop good flying techniques so that we may continue to enjoy many happy accident free hours of operation It is important to become familiar with the sight picture the view when looking out of your aircraft before your first flight and you will find that your landings are directionally more consistent and you are better able to judge your flare Remember that it s been said that the main wheels are for landing the tail wheel is only for steering on the ground The different flight characteristics the transition can be more than many expect It is recommended to not rush through your transition training and become thoroughly comfortable with all aspects of the aircraft The Dragonfly is capable of flying surprisingly slow Make it a goal to become comfortable and safe at both ends of the speed range At slow speeds become familiar with aircraft s flight characteristics and learn to recognize the onset of a stall Learn and practice correct stall recovery technique for your particular aircraft 3 LSA TRANSITI
47. reserve 1 2 4 Rate of climb Vx Best Angle of Climb 582UL 37 mph 750fpm solo 44 mph 350 fpm GROSS WEIGHT 912UL 37mph 900 fpm solo 44 mph 500 fpm GROSS WEIGHT 912ULS 37 mph 1100fpm solo 44 mph 750 fpm GROSS WEIGHT Vy Best Rate of Climb 582UL 42mph 850 fpm solo 47 mph 350 fpm GROSS WEIGHT 912UL 42 mph 1000 fpm solo 47 mph 550 fpm GROSS WEIGHT 912ULS 42 mph 1200 fpm solo 47 mph 800 fpm GROSS WEIGHT 1 2 5 Stall speed 30 38 mph 1 2 6 Total fuel capacity 6 1 gallons 5 9 useable 1 2 7 Maximum engine power output 582UL 64hp 48kW 6500 rpm 912UL 80hp 59 6kW 5600 rpm Max Continuous HP 912ULS 99 hp 73 5kW 5800 rpm 3 minutes Max 90 hp 69kW 5500 rpm Max Continuous HP Refer to Graphs in Section 2 10 2 Operating Limitations 2 1 Airspeed Indicator speed range markings Falcon Airspeed Indicator ASI refer to Appendix C 2 2 Stalling speed at maximum takeoff weight Vs 38 mph GROSS WEIGHT 2 3 Flap extended speed range N A No Flaps 2 4 Maneuvering speed VA at Gross Weight 55 mph and 60 mph solo 2 5 Never exceed speed VNE 66 mph 2 6 Service Ceiling 15 000 ft 2 7 Load factors 4G 2G 2 8 Approved maneuvers Limited Aerobatics e These Aerobatics shall only be performed Solo except for training with factory test pilot 2 8 1 Spins 2 8 2 Loops 2 8 3 Rolls Note Aerobatic Maneuvers limited to approved maneuvers for the Dragonfly and performed by a Pilot with proper training in th
48. the EIS to either on of these lighting coil leads Rotax 2 Stroke Engines The gray tach lead may be used for tachometer connections The only drawback to this method is that the tach reading might not always go to zero when turning off one mag during the mag check specially if the mag check is performed at low less than 3000 RPM If a battery is used tachometer connection may be made to the lighting coil as shown above to avoid loss of the tach reading during the mag check Figure 7a Tachometer Connections to Lighting Coil Equipped Engines Rotax Jabiru Hirth Zenoah etc Electronic Ignition g 1 k Ohm 1 2W resistor To Points or Connect directly to the tach brown black red stripes Ignition Module output from the igntion system No resistor required E 12 Volts To Tach Rotax 912 914 Input a7N Connect tach input to one of the two tachometer output of EIS wires Connect the other tach output wire to ground Ignition Magneto Equipped Engines Coil such as Lycoming Continental Franklin etc 39 k Ohm 1 2W resistor orange white orange stripes or 27 k Ohm 1 2W resistor red violet orange stripes int This resistor is Included in parts pack Point Ty pe it is covered with black heat shrink tubing and Ignition has male and female quick disconnects To Tach y Engine Input Magneto Kill Switch of EIS also called a P Lead or primary lead To Tach Note A switch may be installed to allow you
49. the system is first used or 5 years from date of purchase This warranty includes parts and labor The instrument includes a lifetime warranty for any manufacturing defects Grand Rapids Technologies expressly reserves the right to repair or replace a defective unit with new or reconditioned parts or equipment of the same or similar design This warranty is void if damage to the instrument is caused by incorrect connection of the tachometer lead or is otherwise installed incorrectly This warranty also does not cover the following A Damage during shipment B Damage from accident misuse negligence lightning or water C Damage caused by alteration or unauthorized repair Legal Rights Limitations of Liability Grand Rapids Technologies Incorporated is not liable for incidental or consequential damage commercial loss or any other loss or damage not specified in this warranty Some states do not allow limitations on the length of implied warranties or exclusion or limitation of incidental or consequential damages The above limitations or exclusions may not apply to you No individual or company may extend this warranty This warranty is valid only for the original purchaser Service may be obtained by returning the instrument to this address Grand Rapids Technologies 3133 Madison Ave SE Grand Rapids MI 49548 Attention Service Dept When returning the instrument for service please specify the nature of the problem Include a copy of y
50. thread compound should be used to seal the sensor Teflon tape should be avoided because it may electrically insulate the case of the sensor from ground If practical connect the ground wire to the same point where the instrument is grounded to minimize differences in ground voltages 5 2 3 Voltmeter The voltmeter senses its voltage through the power input to the instrument and thus does not require a separate connection 5 2 4 Oil Pressure Sender 55 The oil pressure sender should first be installed on the engine This sender uses an 1 8 27 NPT pipe thread fitting but may be adapted to any engine with the appropriate pipe fitting adapters The sender may also be mounted remotely using suitable hose connections This is necessary with some engines especially Lycoming The electrical connections are made through the case of the sender ground and the electrical terminal opposite the pipe thread fitting Ground is normally provided by the engine when the sensor is mounted directly to it but a separate ground wire may be necessary for remote installations 5 2 5 Magnetic Tachometer Sensor See instructions with this sensor for installation recommendations 5 2 6 External Alarm Output This output is used to control the external warning light included The output is an OPEN GROUND type output This means that when this output is off the alarm is not active this line is equivalent to an OPEN circuit When this output is on this output
51. to land by greasing it in on all three wheels together or front wheels first 4 10 Short field takeoff and landing procedures Take off Short Field 1 Position at farthest point back on runway possible 2 Hold Brakes with stick all the way back 3 Increase power to maximum and release brakes 18 4 As speed increases stick goes smoothly to neutral position to reduce angle of attack At Vx rotate nose up for take off and maintain until clear of obstacle then accelerate to Vy Landing Short Field 1 Position for Normal landing till finial 2 Carry extra speed and a steep approach angle with your aiming point just a little short of your intended touch down target 3 Throttle should be closed as soon as touch down target is assured 4 Use a forward slip if you are a little high or a slightly more shallow approach if low Always maintain some extra speed thru the gradient as the Dragonfly s High Lift High Drag Airfoil can lose speed quickly 5 Round out two to three feet above the landing surface 6 Pull back on the elevator just enough to maintain level flight As the airspeed bleeds off the Dragonfly will start to settle 7 Pull full back elevator Keeping the stick full back after touch down to put steering weight on the tail wheel and apply brakes as necessary 4 11 Soft field takeoff and landing procedures Take off Soft Field 1 Keep aircraft in motion and avoid use of the brakes 2 When aligned with the center o
52. valves bad sparkplug wires etc 378 343 374 321 378 CHT 5280 44128 59 Alt VSI Aspd H20 Altimeter Vertical Speed hundreds of feet per minute and Airspeed in miles per hour or knots and water temperature input x Denotes Disabled Pages see section 8 Figure 1a Model 4000 and 6000 Display Pages Figure la Description of Pages 47 The fight timer runs when the RPM is above the TIM RPM entry It shows the last flight time at ower up and until 3 minutes into the next flight his timer shows hours minutes seconds Internal Instrument Temperature Used by the EIS to temperature compensate the EGT and CHT Inputs N ra 1 22 57 108 191 5Hour Unit Engine Hours Accumulates when RPMis ___ above the TIM RPM entry Oil Temperature and Oil Pressure y Auxiliary Inputs User definable inputs that may be used for fuel level fuel pressure manifold pressure coolant pressure or a variety of other uses The scaling and labels are user selectable allowing you to change the AX1 label to MAP for instance 24 5 4 2 AX1 AX2 AX3 4 5 12 AX4 AX5 3 5 AX6 x Denotes Disabled Pages see section 8 75 F 24 C 13 8 OAT OAT Volt Outside Air Temperature and Voltmeter _ Carb Temperature 25 80 56 lt s CRate EgtSp Carb f f mn m Cylinder Head Rate of Cooling Shows the Fi rate of cooling in degrees minute of the f
53. when it is necessary to leave the scene of the accident Automatic Portable ELT AP Configuration 5 6 Intercom Self Contained portable units of owners choice can be temporarily attached to the aircraft i e Velcro straps etc 6 RECOVERY PARACHUTE SYSTEM The specific operating instructions and limitations for the SECOND CHANTZ 1100 Parachute are located in the SECOND CHANTZ owner s manual supplied in the aircraft documents More specific information is also located in the Pilot Operating Handbook The SECOND CHANTZ Parachute System Optional in the DRAGONFLY is a very high performance system The Vne of the parachute system is above the Vne of the aircraft In an emergency the parachute system should be activated even if at a very low altitude Before activating if it is possible Stop the Engine and Tighten the Pilot and Passenger Seat Belt Harnesses The parachute system handle is located in the central console above amp between the seats To activate the system the handle has to be pulled to the stop The history of emergency parachute use in light aircraft has shown that pilots have to be mentally prepared to use of the system before the need arises The process of Looking Reaching and Pulling is a way to practice mentally the physical action of activation Briefing your passenger on the use of the system is important in the unlikely event of the pilot being incapacitated Make certain to always replace the safety pin in
54. wind up to 15 mph creates no problem Both the rudder and tail wheel turn the aircraft in the same direction For a left turn PUSH LEFT PEDAL For right turn PUSH RIGHT PEDAL Cont d next page 16 At times Low Speed Taxiing can be improved by pulling up elevator to hold the rear wheel firmly on the ground When taxiing down wind keep the stick in Neutral Position When attempting to taxy across wind lean the stick into the wind to reduce lift on the upwind flaperon Failure to keep the aircraft balanced can lead to Ground Loops 4 4 Normal takeoff Checklist sample Immediately prior to takeoff the pilot must go through the following Start Checklist 1 Seatbelts securely buckled 2 Free movement of rudder pedals and stick to the extreme positions 3 Safety pin removed from parachute release 4 Sufficient fuel in tank for the intended flight time 5 Engine warmed up sufficiently Water Temp 140 F Choke OFF 6 Electrical instruments ON 7 Adjust Altimeter 8 Check wind direction Procedure When the runway and the flight path approach to the runway are clear taxi into the take off position Always take off into prevailing wind Takeoffs can be conducted in cross wind conditions up to 15 mph Release the brakes and when the aircraft starts to roll keep the stick slightly pulled back At 20 mph the tail wheel will lift off With the tail wheel 1ft off the ground keep accelerating while keeping the aircraft on a straight line wi
55. 2 58 35 241 e gov ND airrecordsND asp Quality Assurance Monitoring Refer to Quality Assurance Manual QAM Current information can be obtained through www pitmanair com dragonfly or www safetydirectives com dragonfly 1 General Information 1 1 Introduction to airplane This Light Sport Aircraft is manufactured to meet the requirements United States of America Light Sport Category The pilot s weight range is from 143lbs Standard 582 to 187 lbs Standard 912 unless ballast is utilized see Weight and Balance Section 6 page 20 and this aircraft when flown solo must only be flown from the front seat for weight and balance reasons The pilot s weight is essential to be in the front seat to keep the aircraft balanced within its Center of Gravity CG Range Refer to Weight and Balance Section 6 page 20 The pilot must have a valid Sport Pilot Certificate or higher with proper endorsements This aircraft must be flown and operated within the current FAA Regulations The Dragonfly is designed to fly with the Flaperons in permanent partial Flaps on position The low speed capabilities of this aircraft create a particular set of characteristics and each pilot shall become familiar with its ground handling and flight characteristics before towing or carrying passengers This aircraft s engines are not certified aircraft engines All engines are subject to failure This should always be considered when choosing a flight path The p
56. 5 Turn ignition switches OFF 6 Secure stick w seatbelts 7 Secure plane w tiedowns and chocks NOTES Appendix A1 EIS 582 only Model 2000G ENGINE INFORMATION SYSTEM With GPS Interface Grand Rapids Technologies Incorporated 3133 Madison Ave SE Grand Rapids MI 49548 616 245 7700 Fax 616 245 7707 Rev 07 31 01 Introduction The Importance of the Engine Information System Two stroke engines are lightweight and powerful making them ideally suited for ultralight aircraft Their only potential weakness is their intolerance for operating outside their strict temperature limits Exceeding these limits can cause engine damage in as little as tens of seconds The EIS greatly overcomes this weakness by continuously monitoring all critical engine parameters and alerting you with a bright red flashing light should damaging engine conditions develop With this close monitoring it is nearly impossible to knowingly exceed these limits making the two stroke engine well suited as an ultralight aircraft engine Understanding EGT and CHT Why they are critical to safe engine operation The need for monitoring engine RPM and coolant temperatures water cooled engines is obvious to most pilots The tachometer gives you a measure of the power being produced and allows you to keep RPM within limits to prevent damage from mechanical stresses that result from high RPM The coolant temperature allows detection of high engine temperatures that cou
57. 5 2 10 Carburetor Temperature Probe 57 5 2 11 EGT amp CHT Extension Wire 57 5 3 Verify the Wiring A Quick Check 57 6 Check Out 6 1 Initial Application of Power to the Instrument 58 6 2 Tachometer Initial Test 58 6 2 1 Testing Tachometer Inputs 58 6 2 2 Testing Tachometer Accuracy 58 6 3 Other Checks 59 7 Configuring the EIS for your airplane 7 1 Setting up your Auxiliary Inputs Labels and Scaling 59 7 1 1 Aux1 Aux2 Aux3 Aux4 Aux5 Aux6 59 7 1 2 Dual TIT Option and Aux5 Aux6 59 7 1 3 Auxiliary Scale Factors and Offsets 1SF 1OFF 2SF 2OFF 60 7 1 4 Configuring an Auxiliary Input for a Fluid Temperature Sensor 60 7 1 5 Auxiliary Forward Reverse Sensing Selection 60 7 1 6 Auxiliary Decimal Integer Selection D I 60 7 1 7 Transfer function 60 7 2 Units Fahrenheit Celsius and Gallons Liters 61 7 3 FC1 amp FC2 Fuel Flow Activation Codes 61 7 4 FloCal Fuel Flow Calibration 61 7 5 FloCalR Return Fuel Flow Calibration 61 7 6 TachP R Setting for Correct Tachometer Readings 62 7 6 1 Tach Connections to Magneto P leads Ignition Coils or Tach Outputs 62 7 6 2 Tach Connections to Lighting Coils Jabiru Rotax and others 62 7 6 3 Rotax 912 Engine 62 7 6 4 TachP R Table 63 7 7 TachSen 63 7 8 Peak Leaning Function Sensitivity Adjustment 63 7 9 Max Fuel Fuel Capacity Entry for Fuel Flow Option 63 7 10 Hours Setting Hourmeter 63 7 11 Tim RPM Hourmeter amp Flight Timer RPM Threshold
58. 9 2g o Q Y PASSENGER WARNING THIS AIRCRAFT IS A SPECIAL LIGHT SPORT AIRCRAFT AND DOES NOT COMPLY WITH THE FEDERAL REGULATIONS FOR STANDARD AIRCRAFT PASSENGER WARNING THIS AIRCRAFT IS A SPECIAL LIGHT SPORT AIRCRAFT AND DOES NOT COMPLY WITH THE FEDERAL REGULATIONS FOR TOWLINE RELEASE PULL TOWLINE RELEASE PULL STANDARD AIRCRAFT 90 5 sy 3 D 5 a Q gt gt 5 gt Q a EET 440 U pe s xo U pei sl oZ oZ gZ oZ 29 0 90 90 9O a ar 3 ap 5 T 5 T 5 TT 5 TT 5 TT AT ENO A dublin sw6n sybq 1464 14517 5 i 5 5 5 HLIM ATAO LON S300 ONV Lavuouly SqGnS j fuonGeai iina Bupu EL EL EL EL EL edh ene 3 a m o 2 o o O O ONINYVM YSONASSVd 22 22 22 232 22 wos sNOUY NOR Wedel FHL YeI S14 104 a lt A lt a lt oa lt a lt HLIM Ald 09 LON S300 ANV LivuouIV yu w jddns Buyuyesy 344 Rite dled Jojpue yoogpueH Buyjesedo yo d Juann y u p uy p seUljepinb g ON sojg asojg Daleks ee Et Bujurey sedoid yy asuepiosse T gt Y NO fasng osn XeN isd GZ Jel Ul u peyanpuos eq Ajuo Aew Ot Lu xnav sa gt s SOILLVEOUAV SNIdS az f aas Vans XEN ISA GZ ae YU oO N sn sny4 T aw sa Xen sd gz yul 2 gt SAOLNHS 4 xe isd awiu wos SNOUV INOJN U30234 SHL z JJO an SS N Sa GZ 9 el u HUM A1dIW09 LON
59. Airframe Identification Plate Accepted O 19 Trim Operation Accepted O 20 Flight control push pulls cables and balance weight Accepted O 21 Rudder and ground steering operation Accepted O 22 Aileron Characteristics Accepted O 23 Pitot tube Accepted O 24 Fueling aircraft amp Fuel cap vent characteristics Accepted O 25 Wing root seal Accepted O 26 Engine Fasteners Accepted O 27 Tail Wheel assembly and rigging Accepted O 28 Exhaust Accepted O 29 Propeller Serial Accepted O 30 Engine intake filters amp radiator Accepted O 31 Oil amp checking the oil mix Accepted O 32 Coolant Accepted O 33 Fuel Strainer Accepted O 111 34 Seat amp rear strap operation Accepted O 35 Back Seat amp Side Storage amp Seat belts Accepted O 36 Fuel system Accepted O 37 Engine controls Accepted O 38 Flight controls Accepted O 39 Trim controls Accepted O 40 Brake system Accepted O 41 Filling tires Accepted O 42 No step areas Accepted O 43 Cleaning and Care no alkaline cleaners Accepted O 44 Landing characteristics Accepted O OPTIONAL ITEM CHECKLIST Pitot Cover Accepted O Tie down straps Accepted O ELT Serial Accepted O Cockpit cover Accepted O Fuel Tank Accepted O Master Keys Accepted O Portable antenna ELT Accepted O Manuals POH Maint Manual Kit Assembly amp Parts Manual Accepted O Bailey Release and Tow System if Equipped Optional Equipment Accepted O Owner Operator Responsibilities required by FAA
60. Delete This Page before printing To Keep Page Orientation Correct Instructions for Printing amp Binding This page gets wasted to maintain orientation of pages throughout the manual when viewing online To allow viewing 2 Pages Up Begin printing on Page 1 the Cover and print both sides of paper Page orientation is important This can be seen when you get to Pages 22 amp 23 which should be facing you when the Manual is open as well as many more as you progress through the manual This has the Narrative and the proper Drawing facing you at the same time Print on 20 Lb Min Premium Paper or better Printing both sides of paper I prefer Spiral Bound with Clear Front Cover and Heavy Black Back Cover This allows the manual to be opened and folded back leaving the desired page exposed and lays flat when opened to expose 2 pages while doing Inspections or Maintenance I generally get them printed at Staples or Office Depot where it costs as little as 15 00 USD per manual in Black amp White printing only the Front Cover page1 in Color Some of the pictures are in Color for the benefit of online viewing but we print them in black amp white Thank you for your interest in our products Be Safe amp Have Fun Ed Pitman Delete This Page before printing To Keep Page Orientation Correct Publication Number DF912 582 POH amp FTS rev 1 12 1 2014 mm dd yyyy Bailey Moyes 7 Pitman aji Dr
61. ON SYLLABUS 3 1 Overview The objective of transition training is for a pilot to develop the knowledge skill and proficiency to operate an unfamiliar model of aircraft The training should not be limited to flight training but should also include ground training The syllabus used should be effective and tailored to the student s individual experience and needs Previously learned skills may be useful in the learning process but differences should be emphasized At the end of the course the transitioning pilot should be able to demonstrate having reached the objective and meeting the standards by the use of oral written and practical test standards PTS The training should include but not be limited to The aircraft systems specific to the Dragonfly Aircraft The flight characteristics and limitations The care and cleaning of aircraft made from modern materials Modern aircraft engines Responsibilities of Owners and Operators of Light Sport Aircraft Information pertaining to transition training can be obtained from government publications as well as from leading industry organizations 3 2 Objective The overall objective of the transition training is to obtain the required knowledge and skill level to safely operate a Bailey Moyes DRAGONFLY 3 3 Completion Standards At the end of the course the transitioning pilot should be able to demonstrate having reached the course objectives and meeting the completion standards by the use
62. Offset sometimes abbreviated AuxOff This instrument uses the labels 1SF amp 1OFF for the AuxSF and AuxOff for auxiliary input 1 2SF amp 2 OFF is for auxiliary 2 and so on 7 1 4 Configuring an Auxiliary Input for a Fluid Temperature Sensor The auxiliary inputs can be configured to provide accurate readings when connected to a fluid temperature sensor by setting the auxiliary scale factor to a special code of 0 This tells the instrument that the auxiliary input has been wired to a fluid temperature sensor of the type the instrument has been factor set for such as type V or type S as shown on the label on the rear cover The EIS will then convert the signal on the auxiliary input into a reading in degrees F or C according to the selection on the UNITS page The user must install a resistor between the 4 8V output of the instrument and the auxiliary input used for the fluid temperature and also connect the fluid temperature sensor to the aux input and ground The value of the resistor to be used is given in the following table Instrument sensor type as shown on Value of 1 resistor to the rear cover This letter will appear connect between 4 8V output in the Software Version and auxiliary input 7 1 5 Auxiliary Forward Reverse Sensing Selection This selection tells the instrument whether each auxiliary input will be sensed forward increasing voltage increasing value or reverse increasing voltage decreasing valu
63. Photo s if Needed Comments Signature Date dd mm yyyy Introduction ASTM standards used Design amp Performance and Required Equipment F 2245 11 Quality Assurance and Production Acceptance Tests F 2279 06 Continued Operational Safety Monitoring F 2295 06 Maintenance amp Inspection Procedures F 2483 05 Pilot Operating Handbook POH F 2245 11 amp F 2746 09 Terminology for LSA F 2626 07 Airframe Emergency Parachutes F 2316 08 Kit Assembly Instructions F2563 06 Required Product Information F2745 11 In accordance with 14 CFR part 21 190 America s LSA Manufacturer Many Airframe Parts Manufacturer Pitman Air Lite Flite Pty Ltd 1840 Airport Blvd 1144 Botany Road Red Bluff CA 96080 Botany NSW 2019 Email ed_pitman hotmail com Australia Ed Pitman 530 945 1860 9 5 Pacific Time Ph 61 2 9316 5543 Technical support Fax 61 2 9316 8488 Bobby Bailey 352 429 5660 Eastern Time Email bill moyes com au Rhett Radford 603 6905200 Eastern Time Documentation Recovery Contact the Pitman Air business location above or For N Numbered Aircaft your documentation can be obtained through the FAA http registry faa gov aircraftinquiry Look up your craft by N Number and use the obtain information as shown below This is the most current Airworthiness Certificate data however it may not reflect the current aircraft configuration For that information see the aircraft record A copy can be obtained at http 16
64. Quality Assurance Monitoring Firm during audits on a visual level only We Need Owners Name This can be done by Mail to N Number Pitman Air Aircraft Serial Number Ed Pitman Previous Address w City ST Zip Country 1840 Airport Blvd New Address w City ST Zip Country Red Bluff CA 96080 Phone Numbers Or on our website www pitmanair com dagonfly 10 Required Placards amp Markings 10 1 Airspeed Indicator Falcon 0 80 mph 2 1 4 or 3 1 8 0 80 mph Minimum Controllable Airspeed Range Light Green Arch 30 38 mph Normal Operating Range Green Arch 38 55 mph Caution Range Yellow Arch 55 66 mph Never Exceed Speed Vne Red 66 mph aoe 10 2 Throttles Open Close Arrows 10 3 Fuel Tank Premium Unleaded Premix 50 1 2 Cycle TCW III 10 4 Master Switch On Off 10 5 Electrical Box Mag1 On Off Power On Off Mag2 On Off Starter Push to Start 10 6 Fuses EIS FuseS amp amp AUX 5 amp 10 7 Tire Pressure on Rim Inflate 20 psi Max 10 8 Gearbox GEAR OIL 75W 140 10 9 Passenger Warning Standard 1 x 3 4 Warnings from Aircraft Spruce Special Light Sport or Experimental as appropriate 10 10 Light Sport or Experimental 29 Abbreviations AOI Aircraft Operating Instructions C Celsius CAS Calibrated air speed cm Centimeter cm3 Centimeter Cube cu in Cubic Inches F Fahrenheit ft Feet ft Ibs Foot Pounds FTS Flight Training Supplem
65. URE 2 Knots used for Safety Links CAUTION Any increase in Safety Link strength or change of configuration can cause structural damage and or allow either or both aircraft to get into unsafe attitudes Safety Links must be installed in the configurations outlined within NOTE Automotive GOOP can be applied over knots to help them last longer The Tow System Release and Airframe have been tested in accordance with AC 43 13 2B Chapter 8 804 d 1 2 amp 3 NOTE This Placard must be in the Cockpit and view of the Tow Pilot Glider towline assembly Safety Link breaking strength not to exceed 130 lbs and tied in the manner specified in the manuals and Banner towing is excluded by the Light Sport Rule AC 43 13 2B 807 NOTE Placard in Cockpit to indicate Release operation Emergency Release Squeeze Lever to Release Towline 2 4 Angles Angles tested in accordance with AC 43 13 2B 806 and additionally to a 33 degree cone of forces 2 5 Forces Forces to the Aircraft structure are limited by the Safety Links These have been tested in both slow application and quick application of forces Tested in the cone of forces to 675 Ibs in accordance with AC 43 13 2B 804 d 1 2 6 Specifications 2 6 1 Tow Lines and Safety Links Towlines and Bridle are made of Spectra 1000 or Dyneema UHMwPE 1100 to 2200 due to the dragging of the line during landing and taxi we use a more durable line The small diameter and light weight of
66. a spin with opposite rudder input Center the ailerons and elevator until the rotation stops then level out the airplane gently If the attempt to level out the airplane fail or leveling out is doubtful because of too low altitude the Emergency Parachute System should be actuated Remember SECOND CHANTZ recommends at least 500 AGL to safely deploy the parachute 4 7 Approach and Landing Land into the wind or the runway with the least crosswind if possible The final approach to landing is to be carried out in level attitude In case of carburetor icing hazard Open Throttle gently to free ice Engine power at about 10 20 slightly above idle to confirm that the engine still has power Approach speed about 40 mph solo to 50 mph at gross weight At the distance of to 3 ft over the ground close the throttle and land the airplane gently When landing with crosswind perform a crabbing approach or slip carefully Light wind landing can be 3 point Gusty wind landing is best on main wheels and approach at slightly higher speed The flights low over obstacles during approach to landing should be avoided 4 8 Control of the Emergency Location Transmitter ELT Before switching off the radio equipment adjust frequency to the international emergency frequency 121 5 and check if the ELT is activated 4 9 Engine stop Under normal conditions the engine is sufficiently cooled during the landing approach and roll out therefore it can be stopped
67. ach cylinder has changed from the saved lean point Each pixel is 10 deg F Bars growing left of center show decrease in EGT to the right is an increase in EGT EGT Page Top row left to right is EGT1 and EGT 2 Bottom row is EGT3 and EGT4 Model 6000 show EGT1 2 3 on top row and EGT3 4 5 on the bottom row The digital data on the bar graph pages are the same for each page and are user definable The page has been configured to show the highest CHT and highest EGT on the top row The bottow row shows the RPM manifold pressure and fuel flow The Model 6000 shows 6 temperatures for the EGT Digital Leaning and Cruise Monitor pages The L identifies the Digital Leaning Page The number above the L indicates which cylinder was first to peak after selecting RESET from the Save LEAN PT page 44 50 2 Digital Leaning Page This L _ 34 1452 L identifies this page It shows the actual EGT for each cylinder that is at or near peak Negative numbers indicate the amount the EGT has dropped from its peak The PEAK entry adjusts the sensitivity of this function CHT page Show 4 CHTs with highest CHT shown above the CHT label The hottest CHT is show above the CHT label Cruise Monitor Page Displays the amount the EGT for each cylinder has changed since the SAVE LEAN PT was selected Allows detection subtle changes in EGT due to developing problems such as fouled plugs sticking
68. amnstharsisasibasesopuastasbnaoas 7 0 8 AIRCRAFT ACCEPTANCE CHECKLIST 8 0 82 1 GENERAL 1 1 Read this before your first training flight This document is provided to supplement the information provided in the Pilot Operating Handbook POH Flight Manual but does not replace it Specific information on operation of the engine and systems are provided in the POH Specific information on maintenance is contained in the Bailey Moyes DRAGONFLY Maintenance Manual provided with each aircraft and available online at www pitmanair com dragonfly Please pay attention to the pre flight check and maintenance instructions for the aircraft the Rotax engine and the SECOND CHANTZ emergency parachute system and the operation manuals for other installed equipment such as the EIS and SECOND CHANTZ Parachute Do not attempt to learn the basics of these systems in the aircraft Preparing by studying the basic operation of this equipment prior to your first transition training flight will be time well spent The Bailey Moyes DRAGONFLY is equipped with non certified engines Flying the DRAGONFLY must always be done with the possibility of a safe landing due to the loss of the engine power The Bailey Moyes DRAGONFLY is a VFR Only Aircraft Because of the low cruising speed and range of the DRAGONELY flight into vastly different weather patterns and meteorological conditions are not likely to occur Vigilance is still important and required The entry into
69. amp Consensus Standard ASTM F2245 10c 1 Each owner operator of a LSA shall read and comply with the maintenance and continued airworthiness information and instructions provided by the manufacturer 2 Each owner operator of a LSA shall be responsible for providing the manufacturer with current contact information where the manufacturer may send the owner operator supplemental notification bulletins 3 The owner operator of a LSA shall be responsible for notifying the manufacturer of any safety of flight issue or significant service difficulty upon discovery 4 The owner operator of a LSA shall be responsible for complying with all manufacturer issued notices of corrective action and for complying with all applicable aviation authority regulations in regard to maintaining the airworthiness of the LSA 5 An owner of a LSA shall ensure that any needed corrective action be completed as specified in a notice or by the next scheduled annual inspection 6 Should an owner operator not comply with any mandatory service requirement the LSA shall be considered not in compliance with applicable ASTM standards and may be subject to regulatory action by the presiding aviation authority Customer Name printed Customer Signature Date Sales Person Name printed Sales Person Signature Date For Production Office get the following items 112 Copy of Acceptance for QA documents Copy of W amp B in POH Copies of Assembly Documents Copy o
70. ast flight These peaks will not be erased until 3 minutes into the next flight This can be very useful for evaluating the highest RPM generated by your engine peak engine temperatures as well as your maximum altitude and your maximum distance from your home position The peaks that are recorded are as follows Tachometer Cylinder Head Temperature 1 amp 2 Exhaust Gas Temperature 1 amp 2 Coolant Temperature Voltmeter Altimeter GPS Range from your home position To view the peaks select the Set Limits pages and page down to the Show Peaks page Use the UP DOWN to select YES Press and hold the right button to leave the set pages The peak values for the above items will replace their current values on the various display pages The EIS will alternately flash the symbol PK and the peak data to identify the peaks The Show Peaks function can be turned off by returning to the Show Peaks page and selecting NO This function is also automatically turned off at power up or whenever the RPM exceeds 4100 The Show Peaks function is disabled when the RPM is above 4100 Warning System Operation The alarm system is the most important part of the system It allows you to enjoy flying without the need to constantly monitor your instrument Damaging engine conditions are made immediately obvious All alarms cause the warning light to flash and the page to change automatically to a labele
71. at no leaks are observed around the coolant temperature sensor if so equipped as well as the oil pressure and temperature sensors Loss of engine oil or coolant will severely damage your engine and will result in sudden stoppage The remainder of the functions should now be checked out by observing the measurements displayed by the EIS Any measurements that appear unreasonable should be checked to verify their accuracy Your EIS is now ready to use Please refer to the Before Each Flight section 7 Configuring the EIS for your airplane Configuring the EIS for your airplane simply involves setting various entries in the Configuration Set pages These settings tell the instrument details about your engine such as how many pulses per revolution for the tachometer units etc how the auxiliary inputs are used the desired units etc The best way to set these items is to work your way through the list describing these settings below To access the Configuration Set pages press and hold the center and right button until the screen shows UP DOWN NEXT on the bottom row The display will momentarily show the Set Lean Pt page while holding these buttons This is normal After about 5 10 seconds the Configuration Set pages will be displayed This deliberate action is required so that anyone unfamiliar with the instrument will not inadvertently alter the configuration of your instrument The settings shown on
72. at will activate the Hourmeter and Flight Timer While the engine RPM displayed by the EIS is less than the entry on this page the hourmeter and flight timer will not advance Setting this entry slightly above the 63 power setting used for taxi will more accurately measure the actual flying time and will more closely match the tach time Setting this entry to zero will allow the hourmeter and flight timer to run whenever the engine is running 7 12 AspdLo AspdHi TachLo TachHi Landing Checklist Reminder RPM Range Limit Not Used for Dragonfly These entries can be used to generate a landing checklist reminder or as an alarm when operating within a restricted RPM band The landing checklist reminder is especially desirable in aircraft with retractable landing gear or for those of you like myself that just can t remember to perform a pre landing checklist This is an excellent feature and I encourage you to use it It s the kind of automation that helps overcome the unreliability of the human pilot 7 12 1 Landing Checklist Reminder Not Used for Dragonfly The landing checklist reminder function will generate an airspeed and or tachometer warning when the following condition is met a The airspeed must exceed the AspdHi setting and then go below the AspdLo setting This will generate an airspeed warning the red warning light will flash the page will change to the labeled page that includes airspeed and the airspeed will flash
73. ated D Selecting the Save Lean Point page and selecting RESET will reset the highest EGT for each cylinder to its current temperature In light of these rules the typical procedure for leaning is as follows 1 Select the digital lean page This is the page with the L in the lower right corner 2 Select the Save Lean Point window and select RESET This resets the highest EGTs to the current temperatures You will note that immediately after doing this the lean page will show all positive values since all EGTs will be the newly stored highest This also causes the First to Peak indicator to reset to 0 3 Slowly lean the engine As you do the EGTs should all increase unless you have a cylinder already operating past peak EGT in which case it will decrease indicating an engine problem exists As the EGTs increase the instrument will be updating its internal highest for each cylinder and the numbers on the page will show EGTs 4 As leaning continues a cylinder will reach it peak EGT and then begin to fall Once it has fallen by more than your setting for PEAK below its highest the value shown on the screen will switch to a negative number The First to Peak function will now indicate which cylinder number was the first to peak 5 Typically the engine is then enriched to 50 degrees rich of peak although this is a matter of your preference As you enrichen all EGTs will drop except those that wer
74. ath chosen should allow for emergency landings Changes to the controls and control surfaces should not be attempted There is a balance of aerodynamic forces to consider 1 1 Equipment List 1 1 1 Required Equipment 1 1 2 1 Flight and Navigation Instruments 1 1 2 1 1 Airspeed indicator for markings refer to Section 10 1 1 1 2 1 2 Altimeter in EIS Manual Appendix A of this manual 1 1 2 2 Powerplant Instruments 1 1 2 2 1 Fuel quantity indicator Visual on Tank 1 1 2 2 2 Tachometer RPM EGT CHT Coolant Temp Hour Meter in EIS Manual Appendix A of this manual 1 1 2 2 3 Engine kill switch Mag 1 amp Mag 2 to Off Position Master Switch OFF will not stop engine 1 1 2 2 4 Engine instruments as required by the engine manufacturer in EIS Manual Appendix A of this manual Set EIS Warning Limits to Rotax specifications 1 1 2 3 Miscellaneous Equipment 1 1 2 3 1 Ballistic Recovery System SECOND CHANTZ 1100 Compressed Air Propelled 1 1 2 3 2 Bailey Release and Tow System when used for Aero Towing 1 1 2 4 Safety Belts and Harnesses 1 1 2 5 ELT AMERI KING ELT AK 450 1 2 Summary of the performance specifications 1 2 1 Gross Weight 1080 Ibs 490 kg 1 2 2 Top speed 582UL 66mph 6500 rpm amp 912ULS 66 mph 5000 rpm Cruise speed 582UL 54mph 5200rpm amp 912ULS 54mph 4300rpm 1 2 3 Full fuel range 582UL 50sm 5200rpm 912UL 78sm 4300rpm amp 912ULS 70sm 4300 rpm 6 Gallon Tank with 30 min
75. ating fluids Airframe Hinge Points of Controls Push Rod Guides and Cables should be lubricated with a PTFE Dry Lubricant Product like Tri Flow or Ace Hardware Sherline Products PTFE Dry Lubricant Super Lube So that it will not attract and hold dust and dirt Rotax Engine Refer to Rotax Owners Manual furnished with the Aircraft Or online at www flyrotax com 8 5 1 Approved Fuel Grades and Specifications Refer to Rotax Owners Manual furnished with the Aircraft Or online at www flyrotax com High Octane 90 Quality Brand Unleaded Auto Gas 10 Ethanol is allowed However Gasoline containing Methanol should never be used 8 5 2 Approved Oil Grades and Specifications Refer to Rotax Owners Manual furnished with the Aircraft Or online at www flyrotax com 2 Cycle TCW III oil 8 6 Cleaning and Care DO NOT use alkali base cleaners on fabric or aluminum Fabric surfaces Mild Cleaners like Dawn Dish Soap can be used Metal Surfaces WD 40 or similar light lubricant and NON ABRASIVE Scotch Pad or plastic bristled brush 27 9 Supplements 9 1 Additional Information Rotax Engines Refer to Rotax Owners Manual furnished with the Aircraft And Rotax Maintenance Manual which can be down loaded Online at www flyrotax com EIS Engine Information System refer to Grand Rapids Technologies Inc EIS Manual Appendix A of this manual 9 2 Operation of Equipment or Accessories 9 2 1 EIS refer to Appe
76. ave made a mistake in your calibration 7 14 AItSF 1 10k 2 20k 3 30k 4 40k Altimeter Adjustments SW Version 5 8 and above These entries are provided to allow precision calibration of the altimeter To prevent inadvertent alteration of these entries they can be accessed only by setting the Max Volts limit to 0 2 These entries will appear immediately after the ALTCor setting To perform the calibration set the Max Volts limit to 0 2 and follow the Precision Altimeter Calibration Procedure in the following section 7 14 1 Precision Altimeter Calibration Procedure 1 Set the AltCor as described above 2 Connect an air data test set to the airplane Be sure the pitot connection is secure as damage to the airspeed pressure sensor could occur if the pitot connection from the air data test set becomes disconnected during this calibration 3 Set the air data test set altitude to an altitude near the airplane s ceiling Use the AltSF adjustment to correct the displayed altitude so that it matches the altitude selected on the air data test set Be sure the altimeter baroset setting on the test set agrees with that altimeter baroset setting in the EFIS 4 Set the air data test set to an altitude near sea level Change the AltCor to correct the altimeter reading 5 It may be necessary to repeat steps 3 and 4 a few times as there are some interactions between these adjustments 6 Set the air data test set successive
77. ay of watching your engine for the slightest change in its operation for every second of the cruising portion of your flight Imagine this function was sensitive enough to detect a single spark plug just beginning to foul or a valve intermittently sticking or a minute intake manifold leak or a host of any other problems which could not possibly be detected by the human senses Imagine the confidence you will feel as you set out over forests mountains or a body of water knowing that your engine has been subject to this scrutiny This is the real power of the EGT tracking function Please read on The tracking function is normally activated during the cruise portion of the flight This is because the exhaust gas temperatures will vary with the mixture power setting and load on the engine During the cruise portion of the flight these variables are fixed making changes in exhaust gas temperature due to engine problems easier to detect This is especially true during flight in smooth air where there is no turbulence to cause fluctuations in engine power To activate this function call up the SET LEAN POINT prompt by momentarily pressing the center and right buttons Press the button under the YES selection to activate the function This will store the current exhaust gas temperatures internally and calculate the change from these temperatures for each cylinder You will now see a graphical representation of the change in exhaust gas te
78. bad weather with IFR conditions by VFR pilots and aircraft is extremely dangerous Vigilance of changing conditions is required As the owner or operator of an aircraft you are responsible for the safety of your passenger and yourself Do not attempt to operate the DRAGONFLY in any manner that would endanger the aircraft the occupants or persons on the ground WARNING Use alkali free cleaning products only to clean both the structure and engine NEVER USE Simple Green 1 2 Manufacturer Pitman Air 1840 Airport Blvd Red Bluff CA 96080 Ph 530 529 3030 Ed 530 945 1860 Pacific Time ed_pitman hotmail com www pitmanair com Bobby Bailey 352 429 5660 Eastern Time Rhett Radford 603 6905200 Eastern Time 1 3 Australia Parts Facility Lite Flite Pty Ltd 1144 Botany Road Botany NSW 2019 Australia Ph 61 2 9316 5543 Fax 61 2 9316 8488 Email bill moyes com au 83 2 PREFACE LIGHT SPORT AIRCRAFT Light Sport Aircraft may seem familiar to us by their appearance but they are in fact quite different from the traditional aircraft we are used to First LSAs weigh significantly less than many aircraft With a typical empty weight of approx 515 pounds and a maximum take off weight of up to 1080 pounds they are indeed light aircraft The light weight coupled with a generous wing surface area means that they have a low wing loading making them more susceptible to wind currents than larger more heavily loaded aircraft A good
79. by using a copy of the Form in the POH by Mail or Online at www pitmanair com dragonfly sofreportform htm The Owner is Responsible for keeping all Current Contact Information on file at Pitman Air This can be done by Mail or Online at www pitmanair com dragonfly contactform htm Current versions of all Manuals are at available Online at www pitmanair com dragonfly manuals 81 TABLE OF CONTENTS Chapter Topic Section 1 A oes Boke rae eset 1 0 1 1 Read this before your first training flight eee eeseeeeeeeeseeeneeceeeeeneeeeneeeees 1 1 1 2 Manulfactuter pne iiisni asec T EE EEEE 1 2 1 3 Florida Facility siren en aE E E E E E adnan tad 1 3 1 4 Australia Parts Facility 1 4 2 PREFACE LIGHT SPORT AIRCRAFT 0 2 0 3 LSA TRANSITION SYLLABUS 0 ceeecceeesssssssssseseeseseeseeneent 3 0 3 1 OV ELVIS W neroian E E RAE R A R E E caiaecsaseveesatee 3 1 3 2 ODJ ECVE ne ane EERE E EA R E R 3 1 3 3 Completion Standards lt incsisscsccocissesss estes sevsecsterssts avtese aro e a EERE 3 2 3 4 Areas of Operation and Tasks eseeessseesseeeeseeesererrsrssrrrssrerrsrrerssreresresesreeee 3 2 3 5 Ground Traning meeen eae aie eieae sees a e EATA R E E 3 2 3 6 BSG Training cos ecscpizceestscxcvad ciceoxdsgited N E AER 3 3 4 NORMAL FLIGHT PROCEDURES eesti 4 0 4 1 Take Offrire a Gace ties a estan died thio eee ae ae beeen Ea 4 1 4 2 COS eater ver E re ert eee ree eee eee ne ree ee eee 4 2 4 3 Limitations for a complete list of limitations pleas
80. connections as it provides the greatest amount of filtering and tolerance of noise on the tachometer signal from the engine The H high sensitivity setting is best for connections to electronic ignition systems that provide a 0 5V pulse output Since less filtering is provided when the high sensitivity setting is used it should not be used unless required The tachometer input can tolerate signals of 200V or greater regardless of the TachSen setting 7 8 Peak Leaning Function Sensitivity Adjustment Not Used for Dragonfly This entry serves as a sensitivity adjustment for the digital leaning functions For a detailed description of its use refer to the section Digital Leaning Page 7 9 Max Fuel Fuel Capacity Entry for Fuel Flow Option Not Used for Dragonfly This entry is used by the fuel flow function to provide a simple means of resetting the fuel quantity to the airplane s usable fuel capacity By pressing the left and center button together while on the FUEL set page it will be set to the entry made on this page 7 10 Hours Setting Hourmeter This function allows you to set the hour meter so that it matches the actual time on your engine The hour meter may be set to any value between 0 and 6553 5 hours The hour meter will advance only when the tachometer is above the TIM RPM entry It will reset to zero after 6553 5 hours 7 11 Tim RPM Hourmeter amp Flight Timer RPM Threshold This entry controls the RPM th
81. ctions Two special functions are provided that are helpful when leaning These functions are selectable on the user definable pages and are provided on the factory default bar graph pages 9 2 4 First Cylinder to Peak FRST2PK This function indicates which cylinder peaked first during leaning This function will display 0 after selecting RESET from the SAVE LEAN POINT page It will remain as 0 until a cylinder has peaked fallen by more than the PEAK setting from its highest EGT Once the first cylinder has peaked this function will show which cylinder was the first to peak It will not change until RESET is selected from the SAVE LEAN POINT page 9 2 5 EGPk First Cylinder to Peak Leaning Status This function displays the leaning page information for whichever cylinder was the First to Peak The function will display O until a cylinder peaks and then displays either the current exhaust gas temperature for this cylinder if it is currently less than the PEAK setting of its maximum EGT or the number of degrees below the peak EGT detected Note that it is perfectly feasible depending on your leaning preference to lean the engine using only the EGPk display Using this display alone you can lean until the first cylinder peaks and enrichen or not as desired 9 3 Shock Cooling Detection The cylinder head rate of cooling in degrees minute for the cylinder head temperature that is dropping the fastest
82. cylinder head temp which is cooling the most f rapidly Allows for detection of shock cooling f EGT Span This shows the difference between the hottest and coolest EGT It is especially useful to help characterize your engine allowing easy detection unusual EGT readings A flashing cay will alert you to a new alarm At the same time the EIS will automatically switch toa labeled page and will flash the offending item to clearly identify the problem Ng If the pilot s corrective action solves the problem the warning light will stop flashing and the instrument will return to the page it was previously on If the problem can not be solved the pilot at dn ab he ew the al ith the Next Ack ack ledge button Annunciation of Alarms warning Nght wil stop Seshane bul wal ENa Burrineted By far this is the most important function of the EIS until the problem goes away lhe display page wil retum Without alarms it is the engine that alerts the pilot ehad peed as pr viousiy on after thealarm is Note how the warning light makes the alarm obvious and the labeled page and blinking display clearly identify the problem so that the proper F ig ure 1 b Model 4000 a nd 6000 corrective action may be taken D i S play Pag es Figure 2 Operation 48 Congratulations on your purchase of Grand Rapids Technologies Engine Information System EIS We are pleased that you have chosen our product to meet your aircraft in
83. d screen which includes the out of limit parameter The offending parameter is flashed on the display along with the warning light until the problem goes away or until it is acknowledged by pressing the Next Ack button Acknowledged alarms cause the warning light to stay on steady until the condition ends and does not inhibit other alarms 37 Set Limit Pages The settings on these pages are accessed by pressing the left and center buttons together This will immediately bring up the set pages displaying each item listed one at a time While on the set pages the bottom row of the display will show UP Down Next indicating the function of the buttons while on these pages As such the left and center buttons allow you to change the setting and the right button takes you to successive settings To leave these pages repeatedly press the right button or press and hold the right button until the normal display pages return The items that can are set on these pages are in order as follows Contrast defaults to the best setting at power up It may be altered if desired to enhance readability Alt Set allow you to select Auto or Manual for the altimeter setting function Alt shows the current altimeter setting Altitude is manually set here New Home Pos This setting is only available it the GPS page is turned on Selecting Yes and pressing the right button stores the current position as your home position Dashes will be
84. d this false alarm reset the Lean Point useful for detection of intermittent Selecting Set Lean Page and Yes activates alarm Reset de problems Normal operation may activates alarm require a larger setting to prevent false alarms due to normal EGT fluctuation caused by turbulence or other small power load fluctuations Max EGT Dec Maximum Decrease in EGT from the Lean Point See also Max Set limit based on experience You N U 0 EGT Inc description may find that this limit is significantly different from the Max EGT Inc See also Max EGT Inc description 53 Max Crate Maximum Cooling Rate for CHT The alarm is provided in Set limit based on engine N U 0 degrees minute and corresponds to the maximum rate of decrease manufacturer s recommendation If in CHT No limit applies to the maximum rate of increase All no limit is provided establish a limit cylinders are checked for this limit based on experience Max CHT Maximum Cylinder Head Temperature Often engines will Set according to engine 275 F normally operate significantly lower than the engine manufacturer s manufacturer s recommendation limit Consider setting this limit lower than the maximum to get early warning of abnormal CHTs Min CHT Minimum Cylinder Head Temperature Intended for engine Set limit based on experience or to 150 F troubleshooting problems Also useful as an engine not warmed up z
85. diagram or alternatively an on off switch can be wired inline with tachometer input 1 This switch can be opened to force the EIS to use tachometer input 2 7 6 2 Tach Connections to Lighting Coils Jabiru Rotax and others When the tachometer connection is made to the lighting coil typically 1 2 as many pulses will be generated as there are poles in the lighting coil For 3 phase electrical systems 1 3 as many pulses as there are poles in the lighting coil For CDI equipped Rotax Engines 12 magnets are used generating 6 pulses per revolution of the engine For non CDI type Rotax engines 2 pulses per revolution is generated Jabiru 4 cylinder engines generate 5 pulses revolution and Jabiru 6 cylinder engines generate 4 pulses revolution 7 6 3 Rotax 912 Engine The tachometer output from this engine provides 1 pulse per revolution 62 7 6 4 TachP R Table Tach P R Setting Pulses per Revolution Typical Use 0 1 Pp I 4cylinder4strokes_ 2 3 E A 5 6 fl l i 8 Pp y 9 pO 10 10 Pp 11 Pp y 12 12 Oooo y 13 Oooo y 14 Oooo y 15 4 5 T 16 C a 17 1 25 18 1 75 19 2 25 9 cylinder 4 stroke inc M14 Radial Larger than 19 not Don t use TachP R Don t use TachP R valid Settings above 19 Settings above 19 7 7 TachSen Each tachometer input includes a sensitivity adjustment identified as Tach1Sen and Tach2Sen on the configuration set pages The L low sensitivity setting is best for most tachometer
86. displayed when no valid GPS position has been received in the last 60 seconds Not Used Show Peaks allows you to display the peak values in place of the current values on the various display pages This function is inhibited while the RPM is greater than 4100 See the Show Peaks section for more information Set to NO Max Timer gives you the maximum time before the flight timer will issue an alarm The limit is entered in minutes If you exceed this limit it can be increased easily in flight Not Used Max Cool is the maximum coolant temperature Set to 175 F or 80 C Max RPM is the maximum RPM This limit is set in 30 RPM increments Set to 6400 Min Fuel applies to the optional fuel level input Not Used Max Volt is used to warn of overcharging due to a failed regulator A good limit for this is 15 0 volts If a battery is not used this alarm is not required Max Volt Set to 15 volts Min Volt is used to warn of battery discharging A good setting for this is 12 0 12 8 volts Min Volt Set to 12 volts Max EGT is a very critical alarm as high EGT can destroy an engine in seconds to minutes It reflects the fuel air mixture being burned by the engine A typical limit is 1200 1250 degrees F Max EGT Set to 1200 F or 650 C Max CHT warns of inadequate cooling Max CHT Set to 300 F or 150 C Display is used to enter your favourite display page Display Set to Page 4 Configuration Set Pages These pages contai
87. e Dragonfly Aerobatics Course Caution Engine is limited to positive G forces at all times Engine damage or failure may occur if negative G forces are held for more than a few seconds 2 9 Fuel Total fuel capacity 6 1 gal Total usable fuel 5 9 gal Approved types of fuel 90 octane quality unleaded auto gasoline refer to Rotax Operators Manual or www flyrotax com for current recommendations 2 10 Maximum engine power output Rotax 582 64hp 48kW 6500 rpm Graphs produced by Rotax ENGINE PERFORMANCE ENGINE TORQUE Fas eass f oe BCDE 582 UL DCD 40 kW EE 3000 3500 4000 4500 5000 5500 6000 6500 7000 3000 3500 4000 4500 5000 5500 6000 6500 7000 Engine Speed rpm Engine Speed rpm Rotax 912ULS 99 hp Rotax 912UL 80 hp Engine Perfor Manifold Engine Perfor Manifold Bice reor speed mance ee pressure Power setting speed mance Ema m pressure ng rpm kW HP dale in HG rpm kW HP 7 in HG Take off 5800 73 5 100 121 0 89 24 27 5 Take off power 5800 59 6 80 98 1 7235 full throttle power ft lb ft lb max conti 88 36 max continous 74 27 5500 58 0 78 100 7 nuous power 5500 69 0 90 119 8 ftlb 27 power ftlb full throttle 75 5000 51 0 68 97 4 A ar 26 75 5000 43 5 58 83 1 S z 27 2 65 4800 44 6 60 88 7 ae 26 65 4800 37 7 50 75 0 ae 26 5 55 4300 38 0 50 84 3 cond 24 55 4300 31 9 43 70 8 poe 26 3
88. e The sheet included with the auxiliary input sensor will tell you if forward or reverse is required In most cases forward sensing is used This page displays all 6 forward reverse selections on one page Use the left and center buttons to select the combination that fits your needs The signs apply from leftmost to rightmost auxiliary to auxiliary 6 respecitively The following screen shows auxiliary 2 set to reverse sensing with all other inputs set to forward sensing UP DOWNI NEXT 7 1 6 Auxiliary Decimal Integer Selection D D This selection allows you to chose whether the display includes a decimal point before the last digit the D selection or not the I selection The decimal selection is useful for displaying such values as Manifold Pressure inches and tenths of inches of mercury or possibly fuel level gallons and tenths of gallons Integer values are typically used for most auxiliary input functions including fuel pressure coolant pressure ammeter etc As with the Forward Reverse sensing function the leftmost D or I character on the right of the screen applies to auxiliary 1 and the rightmost to auxiliary 6 Use the UP and DOWN buttons to select the desired combination 7 1 7 Transfer function 60 The transfer function mathematically defines the relationship between the auxiliary input voltage and the numeric data displayed on the instrument Thi
89. e Releases in operation that are more the 20 years old and are still in good working condition Some older units had a zinc plated steel spring that eventually corrodes But the newer Stainless Steel Spring has shown no signs of problems We have never experienced a broken spring in 20 years but it must be inspected every Annual or 100 Hour Inspection 3 Checklists 3 1 Pre Flight second person needed 1 Visually inspect all components and lines 2 Inspect Release Mechanism 3 Without pressure on Bridle insure Release Locking Arm on Release Assembly and Handle return to Normal Positions 4 With pull being applied to bridle test that line releases properly and with smooth motion of the release handle 5 Insure that Safety Links are proper size material and installed properly Links are in good condition Both the Bridle Safety Link and Safety Links to be used on the glider end 3 2 Pre Tow 1 Insure that Pilots Ground Crew and Helpers have the proper Ratings Authorizations Waivers and Experience necessary to conduct Safe Operations 2 Insure that all Ground and in flight signals and communications between Tow Plane Pilot Glider Pilot and Ground Crew are agreed upon and everyone involved knows these signals and there will be no confusion during operations 3 Insure that Ground Crew and Bystanders are aware of the Safety Practices and Safe Zones during Tow Operations 3 3 Post Flight 1 Conduct the Pre Flight Inspection to see
90. e leaned past peak The cylinders which were leaned past peak with first increase and then decrease The key to making it simple it to ignore all but the first to peak the first to go negative Use this cylinder to adjust mixture to your desired setting such as 50 degrees rich of peak Note that the leaning page is typically most meaningful while leaning and for several minutes after leaning This is because of the effect of the highest EGT always being re computed Consider for instance the scenario where you leaned a hour ago but during the last hour you made some power changes encountered turbulence changed altitude or similarly caused the EGTs to reach new highs Once re stabilized in cruise even if the EGTs returned to the same temperatures they were at immediately after leaning the new highs for the EGTs stored internally will cause the lean page to show different values than that showed immediately after leaning The PEAK setting allows you to specify how sensitive the instrument will be to detecting the first cylinder to go past peak As you lean an exhaust gas temperature could go down a few degrees during the leaning process due to varying engine loads turbulence or other factors The instrument will not declare a cylinder to be the first to peak unless it is the first cylinder to fall by the amount specified in the PEAK setting from the maximum temperature that cylinder has achieved 72 9 2 3 Special leaning fun
91. e max fuel N U 0 rate of fuel burn exceeds this limit Useful for detecting badly flow rate at full takeoff power leaking fuel lines loose connections to fuel injectors etc Very Applicable only if the fuel flow useful safety feature for all engines but especially fuel injected option is installed engines Be sure to use it Max OilP Maximum Oil Pressure Useful as a reminder to reduce RPM when 98 or less Max oil pressure 102 warming a cold engine especially in winter conditions to avoid displayed by the instrument is 99 psi excessive oil pressure Min OilP Minimum Oil Pressure Essential Be sure to use this one Warns As recommended by the engine 12 of loss of oil pressure As this is the most serious alarm some pilots manufacturer or 20 psi may take drastic action when seeing this alarm Consider you situation carefully if you get this alarm An instrumentation failure sensor failure is possible as is complete engine stoppage or anything in between Use your judgement Min Crz_OP Minimum Cruise Oil Pressure Generates a warning when the oil As recommended by engine N U 0 pressure is below this limit This limit is active only when the manufacturer if available If not engine RPM is above the min Lim RPM setting This allows setting provided set based on experience a low oil pressure limit that apply only at higher engine RPM Max OilT Maximum Oil Temperature As recommended by engine 284 F manufactur
92. e refer to the AOI 4 2 4 4 Crisis Flight cirsio eae eae E iee eE EErEE E E E EEEE EEA E ES 4 2 4 5 Banked Tutti cchcciivtatie deeligiahinwentaisd E A A EEEE RESE 4 3 4 6 SAET EEA AAA AET A A TAS 4 3 4 7 Approachand Landing sreisnnecr oiiire a e i ia R E E unites 4 4 4 8 Control of the Emergency Location Transmitter ELT if equipped 4 4 4 9 Engine Stope aa a E E ot AE EES N 4 4 5 STANDARD EQUIPMENT 12111151115011111rtstrrsrtrrrrrsrse oreen 5 0 5 1 Glass Cockpit Dynon EFIS 100 sssesseseseesesesrssrsrsreessrrersrrererrssenresrerrsreeessrere 5 1 5 2 Glass Cockpit Dynon EMS D120 ssssssssssseseeseresssererrsrerrsrrrrsrssrerreerrnsrrrrsrerrsreet 5 2 5 3 Hobbs Hour Metier aia EEEE 5 2 5 4 Backup Instrumentation including sssesesseeesesereesereeestreresrererrsserrnsrrresrenrsreer 5 3 5 5 Radio Garmin 5L40 installed with antenna 0 ieee eee eeeeeceeeceeeteeseeeeeeeenes 5 3 5 6 Transponder Garmin GTX 327 Mode A C installed with antenna 5 3 5 7 Altitude Encoder ACK A30 Classic or Dynon Advanced eeeeeeeeereees 5 4 5 8 GPS Garmin 496 XM with USA database eee esse eeeeceseeeeeteeeeeeeseeees 5 4 5 9 ELT Ameriking AK450 Installation and operation manual eee 5 5 5 10 Intercom PM 3000 A with aux music input and connection to GPS Audio 5 5 6 SECOND CHANTZ PARACHUTE SYSTEM 0000000000 6 0 7 PERFORMANCE 3s sac sons snosap canada sdeov
93. ed When used in this manner these entries will not function as a checklist reminder 64 To use the TachHi and TachLo entries as an RPM range alarm the TachHi setting must be a lower value than the TachLo setting When the EIS detects that you have set them in this way these entries define the RPM range within which it will generate an RPM alarm For example if you wish an alarm when the RPM falls between 2000 and 2250 RPM set TachHi to 2000 and TachLo to 2250 7 13 AltCor Calibrating the Altimeter Barometric Pressure To calibrate the altimeter so that the barometric pressure it registers is correct the follow procedure should be followed This procedure must be performed with a new instrument and should be re checked on an annual basis a Turn on the instrument and allow 5 minutes or more for its internal temperatures to stabilize b Using the Altimeter Set page set the altimeter so that the barometric pressure display matches the current altimeter setting Note that this is the 4 digit number immediately after the ALT label on this set page No decimal point is provided so an altimeter setting of 29 92 will be displayed as 2992 c Adjust the ALTCor setting on the configuration set pages so that the altitude display in feet matches the local elevation The nominal value of the ALTCor is 128 Increasing this number by one will change the altimeter display by 6 feet d If your ALTCor falls outside the range of 50 200 you may h
94. ed changes made while in the pattern You may find some trial and error is necessary to fine tune your settings so your reminder is generated reliably and not more than once An example of the use of this function may best illustrate how to us it I have found from experience that based on my flying habits my RPM does not go below 1900 until I am in beginning my descent in the pattern for landing I have also noted that while in the pattern even when making large power changes my RPM does not go above 2400 although it always goes above 2400 during takeoff I set my TachLo entry to 1900 and my TachHi entry to 2400 With my flying habits I consistently get an RPM warning landing checklist reminder really when I enter the pattern Caution At power up of the instrument the checklist function is reset This means if the instrument is turned off and on again while in flight and you do not exceed the Hi threshold again you will not get the warning Also remember that if something unusual happens such as partial power loss staying in the pattern etc you may not go above your Hi threshold and thus will not get a landing checklist reminder Do not rely solely on the landing checklist reminder function to perform your pre landing checklist 7 12 2 RPM Range Limit This function is available in software version 5 0 and above only The TachHi and TachLo settings are also used to specify an RPM range for which an alarm will be generat
95. el ballast The CG must never be further FORWARD than 76 1 in from the Datum nor further AFT than 83 in from the Datum The aircraft must never be flown solo from the back seat The pilot minimum weight of 60 kg in the front seat is necessary to keep the aircraft in its CG range The CG range as a percentage of the chord of the wing is from 35 7 with the lightest pilot to 26 1 with the heaviest pilot The figures shown are typical of a Dragonfly fitted with a 582 liquid cooled Rotax engine The limiting figures are still valid if the aircraft is fitted with other engine types Reference should be made to the aircraft specific figures recorded in Section 6 3 4 Page 22 The empty weight CG should be 95 9in from the Datum or 55 6 of the MAC 6 3 Center of gravity CG range and determination The weight and position of the center of gravity CG of the empty aircraft must be established to conduct load sheet calculations The aircraft must be weighed and measured in a fixed position and attitude and in windless conditions with wings level Use a plumb line to project the following positions to the ground for measurements The Datum is the point from which all measurements are taken and for the Dragonfly is the nose or cockpit front cross tube The attitude selected is to raise the tail wheel till the Horizontal Stabilizer is level by measurement with a spirit level See fig 2 6 1 The weights and measurements are recorded in this positi
96. ends Disconnect elevator connecting bracket 11 Horizontal stabilizer and elevator will fold up to the vertical stabilizer and Rudder Tie both the horizontal stabilizer tips together 12 The fuselage and cockpit is easily handled and mounted on or in a trailer Ow 90 Gy NOTE Some of this procedure can be avoided by leaving the engine and propeller mounted if your trailer has sufficient space However the engine must be supported in the trailer when the wings and struts are removed For assembly reverse the procedure Two experienced people can assemble a Dragonfly in 20 min Maintenance refer to Maintenance Manual for instructions for Continued Airworthiness 5 Performance 5 1 Takeoff total distance over a 50 foot obstacle distances performed by factory test pilot 582UL Solo 650ft Gross Weight 1080 950ft 912ULS Solo 600ft Gross Weight 1080 790 825 ft 912ULS Solo 450ft Gross Weight 1080 590 605 ft 5 2 Landing total distance over a 50 foot obstacle distances performed by factory test pilot 582UL Solo 500ft Gross Weight 1080 590 655 ft 912UL amp 912ULS Solo 525 ft Gross Weight 1080 590 655 ft 5 3 Rate of climb 582UL 42mph 900 fpm solo 47 mph 350 fpm GROSS WEIGHT 912ULS 42 mph 7 1200 fpm solo 47 mph 800 fpm GROSS WEIGHT 5 4 Cruise speeds 582UL Cruise at 4600 5000 rpm will give 45 50 mph solo Consumption at cruise is 4 0 US gal per hour Range is appr
97. ent Hg Mercury HP Horse Power hr s Hour s IAS Indicated Air Speed in Inch in lbs Inch Pounds ISA International Standard Atmosphere Kg Kilogram km hr Kilometers per hour kt s Nautical Mile per Hour knot 1 nautical mph 1852 3600 m s kW Kilowatt Ib s Pound s 1 1b 0 4539 kg m Meter Max Maximum mb Millibar s Min Minimum min Minute s MIP Maintenance and Inspection Procedures mm Millimeter MPH Miles per hour MTOW Maximum Take Off Weight N Newton Nm Newton Meter PIC Pilot In Command POH Pilot Operating Handbook in lieu of AOI psi Pounds per Square Inch gage pressure RPM Revolutions Per Minute s Seconds SI International System of units sq ft Square Feet sq m Square Metre TOSS Take Off Safety Speed Va Maneuvering Speed Vc Operating Cruising Speed Vdf Demonstrated Flight Diving Speed 30 Vh Maximum Sustainable Speed in straight and level flight Vne Never Exceed Speed Vso Stalling Speed or the minimum steady flight speed in the landing configuration Vs1 Stalling Speed or the minimum steady flight speed in a specific configuration Vt Maximum Glider Towing Speed Vx Speed at which Best Angle of Climb is achieved Vy Speed at which Best Rate of Climb is achieved W Empty Weight including required minimum equipment
98. er Min OilT Minimum Oil Temperature Intended for troubleshooting engine Set limit based on experience 120F problems Also useful as an engine not warmed up yet reminder Max RPM Warns when engine exceeds maximum RPM Set according to engine 5700 manufacturer s recommendation Min RPM Warns when engine RPM falls below this entry Useful for Set limit based on experience 1480 troubleshooting engine problems May also be used as a warning that the engine RPM is dropping too low on the landing rollout which could result in engine stall Min Fuel Minimum Fuel Quantity Generates a warning when the fuel flow Set to at least enough useable fuel to N U 0 function s fuel quantity drops below this limit provide 30 60 minutes of fuel at cruise power Applicable only if the fuel flow option is installed Min Aux 1 6 Minimum amp Maximum for Aux input Set limit as needed depending on the 52 Max Aux 1 6 use of the auxiliary input Some uses of the auxiliary inputs do not require N U all 0 s limits such as manifold pressure and some do such as fuel pressure Max H20 Maximum water temperature limit Set limit as recommended by engine N U 0 manufacturer Min H20 Minimum water temperature limit Intended for troubleshooting Set limit based on experience N U 0 engine problems Also useful as an engine not warmed up yet reminder Max Vo
99. eral Regulations GRANT OF EXEMPTION By letter dated June 7 2013 Mr Edgar D Pitman Member Pitman Air LLC 1840 Airport Blvd Red Bluff CA 96080 petitioned the Federal Aviation Administration FAA on behalf of Pitman Air LLC Pitman for an exemption from 91 309 a 2 and 91 309 a 3 of Title 14 Code of Federal Regulations 14 CFR The proposed exemption if granted would allow Pitman to utilize the Bailey Tow amp Release System on the Dragonfly Light Sport Aircraft The petitioner requests relief from the following regulations Section 91 309 a 2 prescribes in pertinent part that no person may operate a civil aircraft towing a glider or unpowered ultralight vehicle unless The towing aircraft is equipped with a tow hitch of a kind and installed in a manner that is approved by the Administrator and Section 91 309 a 3 prescribes in pertinent part the towline used has breaking strength not less than 80 percent of the maximum certificated operating weight of the glider or unpowered ultralight vehicle and not more than twice this operating weight However the towline used may have a breaking strength more than twice the maximum certificated operating weight of the glider or unpowered ultralight vehicle if i A safety link is installed at the point of attachment of the towline to the glider or unpowered ultralight vehicle with a breaking strength not less than 80 percent of the AFS 13 411 E 104 gt
100. eration A GPS requires the creation of a waypoint for each location you fly from and also requires that you manually select the correct waypoint as the Goto in order to get steering information to it The EIS does this automatically Large Readable Display The EIS display is much larger and more easily read than any of the low cost GPS units available today Easy to Understand Steering All handheld GPS receivers reviewed to date provide steering information that is sometimes invalid and often hard to interpret The EIS provides simple steering information and provides it only when it is valid Convenient Grouping of Information The GPS pages shows all relevant GPS data as well as altitude and tachometer on one screen Although engine temperatures are not shown they are being monitored by the EIS alarms Saving your Home Position At power up the EIS will determine if you are on the ground If you are and the GPS is providing data to the EIS it will determine if you at the same location you flew from last time If the EIS determines you are at a new location it will prompt you to see if you would like to save this as your new home position If you are at the same place you flew from your last flight it will not issue this prompt NewHomePos No If valid GPS position data is lost the No Yes Up Down Next prompt will be replaced with dashes indicating C C C no position is available for saving as your home position
101. ero if not used yet reminder Display Define which page number is your favorite The instrument will Set the your favorite page number 1 select this page at power up or when leaving the set pages after all alarms if any are acknowledged This page is also selected by double clicking the Display button See figure 2 for page numbering This is a very useful feature Be sure to use it Contrast The contrast of the LCD display is set on this page Four levels of contrast may be selected 0 3 with the lower settings best for higher ambient temperatures and the higher settings best for normal and cooler temperatures Make your selection to achieve the most desirable appearance of the display It may be necessary to change it in response to large ambient temperature changes although this is rare The contrast setting will automatically reset to level 2 at power up if it is set below level 2 5 INSTALLATION 5 1 Mounting the Instrument Position and other considerations The first step in mounting the instrument is selection of a suitable location in the aircraft The location must be selected such that it is not exposed to water or fuel and preferably away from other devices that generate heat The instrument does not generate electrical noise that will interfere with radios nor is it affected by transmissions from radios or engine ignition systems It is not likely to affect a magnetic compass The excellent readabi
102. es have the correct air pressure Check that the tires are free of any damage Check that the wheel nuts are in place and not loose and that the undercarriage legs axles are securely fastened to the fuselage 4 1 4 Emergency parachute Check that the emergency parachute is securely fastened to the aircraft with the cover sitting in the correct position and with the bridle secured around the main root tube Remove the safety pin from the release handle and stow in a secure position Re Insert the safety pin in Post Flight Inspection Minimum Pressure 4200 psi 4 1 5 Left part of the wing Remove the inspection panel behind the parachute and inspect the inside of each side of the wing ensuring that all battens are in place and that all tubing and support cables are undamaged Replace the inspection panel and secure using the Velcro strips Check that the Dacron wing surface is free of holes or other damage Check that each end of the strut and outside support cables are securely fastened on the fuselage tail and wing respectively Check that the aileron is securely fastened to the wing and that it moves freely between the extreme positions Check that the linkages and connections to the control surface are securely fastened 13 4 1 6 Engine and propeller Check that the propeller is free of damage especially delamination of the composite material Check that the engine and muffler is securely fastened to the engine assembly plate and that this i
103. es or fuel injectors x Endurance Fuel Quantity totalizer based on fuel used and fuel flow rate Functional if instrument includes fuel flow option Sy This key advances 4 00 48 0 12 0 Pressing this button takes you to the previous page the display page Endur Fuel Flow gl a ____ Double click this button to jump to your favorite page oS on Press and hold this button on the combination and bar graph pages to show labels in place the numeric data NOTE Pages 1 2 amp 3 sho as programmed by Pitman Air User definable A combination screens provide convenient groupings of key engine parameters and allow your to arrage the data as you wish User Definable Combination Page 1 The factory default for this page show RPM Aux1 Aux2 and the highest CHT on the top row The bottom row shows oil temperature oil pressure fuel flow and the highest EGT 4410 210 46 1125 10800411 235 User Definable Combination page 2 The factory default for this page shows RPM carb temp OAT and the highest CHT on the top row The bottom row shows oil temperature oil pressure voltmeter and the highest EGT 4410 14 4 1125 3 210 46 235 3 EGT CHT Bar Graph Page The EGT graph starts at 1000 deg F is 15 deg F per pixel The CHT is shown 2 44 as a missing pixel starting at 200 deg F and 20 deg F per pixel EGT Cruise Bar Graph The graph shows how the EGT for e
104. eserved for future growth Figure 5a Connector A Wiring for Model 4000 6000 9000 instrument labeled as 6 Aux Inputs For all others these inputs should be unconnected fig5ab16 dual tach input cdr Appendix A2 EIS 4000 912 914 77 Yellow Wires for EGT Connections on this side White wires for CHT connections on this side Red Wires on this side of connector m Q i EGT 1 or Hoen Sr EGT 2 T i earns CHT2 T ESTS pi fl I CHT3 obi Il L EGT4 sp Il iE CHT4 CHT4 T EDE EGT5 E ars Heer ok pig il L CHT 6 i z CHTe L Not Used Reserved Do not connect Mark these wire pairs using this diagram before you install the cable Our favorite method is to first cut the ends of the wire at different angles Keep notes so you don t forget what the cuts mean Other methods of labeling the wires such as tags or ink may come off when the wires are routed pulled through the firewall EG After the wires are routed through the firewall water proof tags may be used Male d sub connector Be sure to identify it correctly This is a male d sub connector It can be identified by its hollow end opposite the side the wires are installed The contacts for this connector are male pins Rear View of Connector Housing This view shows the side of the connector housing that the wire are inserted into Notes Type K thermocouple extension wire must be used for EGT connec
105. ess Starter Switch to Start Normally the engine will start within 2 seconds Do not crank the engine more than 10 seconds if it does not start Longer operation may overheat the starter motor 582 only Cold conditions require more priming Pump primer twice more and try again The behavior of the engine will indicate the problem In most cases it is too much or too little fuel to suit the temperature Should the engine not start after three or four attempts then it is possible that the engine is flooded with fuel To balance this situation open the throttle to allow more air to be drawn in CAUTION With the throttle open the aircraft may surge forward when it starts Be ready to Close Throttle Operate the starter with one hand on the throttle to immediately pull the throttle back to idle or low power if the engine starts and be ready to SWITCH OFF if an emergency arises When the engine starts allow it to idle at 2000 2200 rpm for a full minute or longer to allow the engine to reach operating temperature Let the engine warm up properly before applying too much power 582 Coolant to 140 degrees F before exceeding 3000 rpm s 912 Oil Temperatures to 120 degrees F before exceeding 3000 rpm s IMPORTANT NOTE A thorough warm up is essential to the longevity to the engine life and performance 4 3 Taxiing The Rudder pedals operate rudder and tail wheel steering Control is easy and turning radius is average Taxiing in cross
106. essure to the point of stall Accelerated Stalls Bottom Rudder Spin Entry 1 Enter a level turn while increasing bank angle at 1 2 Vso this time maintaining a skidding condition using rudder pressure into the turn 2 When aircraft has stalled asymmetrically then release back pressure on the stick while releasing pressure on the rudder reduce power to idle and roll wings level while the nose is raised to level flight 3 Then back to cruise power Common Problems 1 Entry speed too high or too low 2 Unable to maintain altitude 3 Unable to apply enough back pressure 4 Unable to maintain rudder pressure to point of stall 5 Reduce power when required Spin Entry Spins Nose Down 1 From cruise reduce Power to idle 2 Maintain Altitude to Vs then at Vs apply full rudder and full up elevator using full back stick 3 Check for pivotal rotation establish reference ground sky sun then count rotaions 108 Spin Recovery Exit for nose down spins 1 Release back pressure while rudder pressure is released to stop pivotal rotation 2 Recover from nose down attitude to level flight and then cruise power Common Problems 1 Not holding stick all the way back 2 Identify pivotal rotation vs Spiral no Spiral 3 Awareness of altitude 4 Loss of Orientation spin reference 5 Too aggressive during the nose up recovery causing excessive loads 6 Too slow raising the nose during recovery causing e
107. eturns to the normal position by release spring pressure only 5 Insure that the release L link has not developed a wear notch This notch can be smoothed with a file But do not remove more than 10 of the material on the L link and insure that it maintains the round shape that matches the Release Arm 5 Inspect all fasteners for proper torque 6 Inspect all lines for excessive wear fraying kinks or knots than would weaken the line 7 Insure slider has not developed wear spots or sharp edges that would cut or bind the line 8 Replace any parts that exhibit excessive wear friction or damage in accordance with the Maintenance Manual and use only factory replacement parts 4 4 Operational Tests 1 Without pressure on Bridle insure Release Locking Arm on Release Assembly and Handle return to Normal Positions 2 With pull being applied to bridle test that line releases properly and with smooth motion of the release handle 3 Insure that Safety Links are proper size material and installed properly Links are in good condition Both the Bridle Safety Link and Safety Links to be used on the glider end 4 4 1 Operational Forces Operational Forces are limited by the Safety Links CAUTION Proper materials and installation of Safety Links are required 4 5 Corrosion Wear and Breakage The components in the Bailey Release and Towing System are made of materials that resist corrosion Any excessive Corrosion Cracks Breakage or Wear o
108. f FAA Documents a Registration App b Airworthiness c Statement of Compliance d Operating Limits etc Serial Numbers Aircraft S N Engine S N ___ Gearbox S N Propeller S N ELT S N __ Model I certify that the appropriate documents have been copied and entered into the Compliance Manual under the Serial Number of this aircraft Sales Person Name printed Sales Person Signature Date 113 Safety of Flight amp Service Difficulty Report Form Mail to Pitman Air 1840 Airport Blvd Red Bluff CA 96080 or Online at www pitmanair com dragonfly Check One Item of Concern Safety of Flight Service Difficulty Reporting Party Contact Information Name Address City ST Zip Code Day Phone FAX email address Check Appropriate Owner Operator LSRI LSRM A amp P Other Explain Aircraft Specific Information Aircraft Information Engine Information Make Make Model Model Serial Number Serial Number N Number Gearbox Ratio Date of Mfg Propeller Mfg Propeller Serial Date of Problem Discovery dd mm yyyy Description Use Attachments and Photo s if Needed Comments Signature Date dd mm yyyy 114 Safety of Flight amp Service Difficulty Report Form Mail to Pitman Air 1840 Airport Blvd Red Bluff CA 96080 or Online at www pitmanair com dragonfly
109. f parts or assemblies requires replacement of bad parts or assemblies with factory supplied parts or assemblies Refer to Dragonfly Maintenance Manual 4 6 Care and Cleaning The components of the Tow and Release System should be kept Clean and free of dirt and sand There should be no need for lubrication If lubrication is applied it should be Dry Lubricant as specified in the Dragonfly Maintenance Manual in order to prevent the accumulation of dirt and dust 4 7 Tow Lines and Safety Links Weak Links Towlines and Bridle are made of Spectra 1000 or Dyneema UHMwPE 1200 20 due to the dragging of the line during landing and taxi we use a more durable line The small diameter and light weight of the towline allows it to maintain alignment with less effect from wind amp gravity forces There is almost zero plasticity allowing all forces to get to the Safety Links rapidly NOTE Because of the durable size of the line it is important to insure Safety Links are properly installed CAUTION Loads are limited by proper installation and used of Safety Links commonly referred to as Weak Links Refer to FIGURE 2 for proper tying and configuration The Single Loop is used to fasten the Towline to the Glider being towed Point E in Figure 1 Solo Glider TUF LINE BRAIDED DACRON 130 LB TEST GREEN SPOT or Tandem Glider TUF LINE BRAIDED DACRON 200 LB TEST GREEN SPOT 200 Ib on Single Loop only which can be purchased on the Internet
110. f the runway go to full power smoothly 3 With stick neutral or slight back pressure maintain near 3 point attitude until take off Lower nose and accelerate to Vy Landing Soft Field 1 Position for Normal landing through the Finial approach 2 After rounding out leave the throttle open for 2 000 to 2 200 RPM s when the Dragonfly begins to settle 3 Stop pulling back on the elevator and allow the main landing gear to touch down Close the throttle and allow the tail wheel to land 4 Maintain enough taxi speed to keep from sinking into the soft field Brakes should be used only as a last resort 4 12 Aborted landing procedures Add power and go to best rate of climb maintain runway heading and re enter pattern 4 13 Any other useful pilot information Because the Dragonfly is light and high in drag speed is lost quickly when thrust is lost Nose Down Pitch Attitude must be addressed much more quickly than conventional aircraft 4 13 1 EMERGENCY PARACHUTE SYSTEM The manufacturer s recommendations for mounting and maintaining the emergency parachute must always be adhered to The parachute has its own operations manual that is supplied separately with this aircraft It is especially important to protect the parachutes from moisture and heat If the parachute ever gets moist or wet it must be opened dried and repacked by a Qualified Person Parachutes with rocket deployment have a limited life span of the rockets The
111. fer this method and a digital leaning page identified by an L in the lower right corner It is recommended that you try both methods several times to determine which one is your favorite In general I prefer the digital leaning pages because they provide finer resolution 1 degree vs 15 degrees per bar graph segment but this can be a matter of taste as the bar graph page can make it easier to visualize the EGTs 9 2 1 Leaning with the Bar Graph Using the bar graph page to lean is simply a matter of selecting the page and adjusting the mixture while observing the EGTs via the bar graphs You may find it useful to customize the bar graph pages to include information that could make it easier to lean such as MAP RPM Fuel Flow or the special leaning functions such as the First to Peak and EGPk 9 2 2 Digital Leaning Page To understand the digital leaning page the page with the L in the lower right corner it is first necessary to understand a few basic rules about the data shown on this page a When a cylinder is close to its highest EGT the cylinder s EGT is displayed b When a cylinder s EGT is more than the amount specified on the PEAK setting below the highest EGT a negative value will be displayed showing how far this cylinder s EGT is below its highest c The highest EGT for a cylinder is continually updated That is whenever an EGT goes above the internally stored value for the highest EGT it is upd
112. fer to Maintenance Manual IX Weight and Balance Refer to POH X Specific Avionics installed Refer to POH 3 6 Flight Training 3 6 1 Preflight The purpose of a preflight inspection is to determine the airworthiness of an aircraft in preparation for flight The transitioning student must learn to determine the overall condition of the aircraft and establish its maintenance status Items of note are documents placards and inoperative equipment 3 6 2 Flight Training Standards Upon completion of flight training the student will demonstrate a skill level appropriate to the Light Sport Pilot Practical Test Standards or to the level of pilot certificate held if higher 3 6 3 Areas of Operation Flight Planning for Light Sport Aircraft H Preflight Procedures H Surface Operations IV Takeoff Landings and Go arounds V Navigation VI Slow flight VII Emergency Procedures Vill Post flight Procedures 85 4 NORMAL FLIGHT PROCEDURES The DRAGONFLY is a conventional aircraft that has conventional characteristics and procedures The aircraft is aerodynamically high in drag and pilots being transitioned to the DRAGONFLY need to be trained to manage their airspeed carefully This requires a significantly steeper nose down attitude without power The rapid acceleration to takeoff and the angle of climb is different from conventional aircraft Landing the DRAGONFLY requires attention to controlling and maintaining airspeed in the pattern and
113. fety Link carrying the loads CAUTION Any increase in Safety Link strength or change of configuration can cause structural damage and or allow either or both aircraft to get into unsafe attitudes Safety Links must be installed in the configurations outlined within Figure E 4 3 Point Glider attachment AE Release i e bicycle cable to brake handle at pilot Ring or Karabiner 3 Point Glider Release Loop Towline 2 Point Glider Attachment w Weak Link one side 96 Figure F Release Handle Release Pressure is easily measured with a Digital Postal Scale Normally 5 lb 4 oz 4 to 9 lbs of pressure are acceptable More than 9 lbs pressure indicates cable needs replacement or there is excessive resistance somewhere in the system 2 Limitations 2 1 Introduction It is important to adhere to the specifications for Installation Maintenance and Inspection that have been tested refined and proven since 1990 This information is found in the Dragonfly Maintenance Manual and Pilot Operating Handbook POH In order to confirm you have the most current information consult manuals posted on the website at www pitmanair com dragonfly Operating Limitations 1 Vr Maximum Towing Speed 50 mph 2 Maximum Weak Link Strength 200 Lbs Must only be used as defined in Section 2 3 of this Appendix 3 Maximum all up weight of glider to be towed 562 Lbs 2 2 Installation Installation and Maintenance are defined in the Dra
114. ge Exhaust system mounting secure Force side to side approx 10 Ibs pressure Check for cracks and that all springs are safety d 6 Rotary valve reservoir quantity check and check cap is secure 7 Coolant radiator mounting secure Check coolant quantity and secure Radiator cap carefully 8 Engine mounting Carb mounting Hoses Fuel lines cables and wiring secure 9 If Solo check rear seatbelts secure 10 Fuel quantity and fuel cap secure 11 Remove tie downs and chocks arwhd ENGINE START 1 Open fuel valve amp Squeeze fuel bulb Prime 4 times Open throttle slightly 1 4 Master switch ON Hold brakes Look amp Yell CLEAR PROP Press Starter Switch to engage STARTER NOOB WN This Checklist can be copied cut around outside border folded back in the middle then laminated to carry on Aircraft 32 BEFORE TAKEOFF Engine Run up 1 Ignition Mag Check Pointed into wind w brakes ON Engine 3500 RPM 200 rpm max drop 2 Engine Instrument check Verify RPM and EGT CHT are working Coolant temp is at least 140 Throttle back to smooth idle BEFORE FLIGHT 1 Altimeter SET amp Vario ON if equipped 2 Seatbelts 3 Elevator trim set 4 Control check free movement to extremes 5 Fuel quantity check 6 Check traffic 90 180 360 7 Transmit intentions ENGINE SHUTDOWN 1 Hold brakes 2 Radio Vario and Headsets OFF 3 Throttle back to low idle 4 Master switch OFF
115. gestion Use 3 character labels for auxiliary inputs configured as integer since the combination screen will allocate 3 spaces on the screen for auxiliary inputs configured as integers Auxiliary inputs configured as decimal numbers will be allocated 4 spaces making it practical to use 3 or 4 character labels 7 1 2 Dual TIT Option and Aux5 Aux6 Instruments that have the dual TIT option can be identified by the T in the second letter of the software version such as 6TS59 The dual TIT option allows two type K thermocouples probes to provide turbine inlet temperature measurements These probes are wired to connector A as shown on figure 5A The two TIT inputs are displayed on auxiliary 5 and 6 for TIT1 and TIT2 respectively While scaling entries SSF 5Off 6SF and 6Off are available these settings are ignored The labels for auxiliary 5 and 6 may be set as desired and it is recommended that you set the label for Aux5 to TIT1 and for Aux6 to TIT2 The TIT readings may also be displayed on the combination page by selecting Aux5 and Aux6 to display TIT1 and TIT2 respectively 59 7 1 3 Auxiliary Scale Factors and Offsets 1SF LOFF 2SF 2OFF These entries are used to calibrate the auxiliary input so that the value displayed on the instrument has meaningful units and is accurate Each auxiliary input includes a sheet that tells you the values for the Auxiliary Scale Factor sometimes abbreviated AuxSF and the Auxiliary
116. gine To set this correctly for your engine first determine how many pulses per engine revolution will be generated according to the following paragraphs and set the TachP R as indicated by the TachP R table The tachometer can not measure RPM from analog outputs that encode RPM as a voltage level This type of tachometer output is rare Two inputs are provided to allow sensing the engine RPM from either of two sources The EIS will use tachometer input 1 when a tachometer signal is sensed If tachometer input 1 is not providing any RPM indication the EIS will use tachometer input 2 Each tachometer input has a corresponding TachP R setting allowing them to be independently configured This allows the use of two dissimilar tachometer inputs such as a magneto and an electronic ignition input The settings are identified as Tach1P R and Tach2P R corresponding to each of the inputs CAUTION If there is any doubt about the accuracy of the tachometer reading verify the reading using another tachometer Attempting to take off with less than full power can be very dangerous In general if the EIS tachometer reading is not erratic and the TachP R setting is correct the tachometer will be accurate to 5 RPM 7 6 1 Tach Connections to Magneto P leads Ignition Coils or Tach Outputs These types of tachometer connections typically generate one pulse for every or every other spark plug fired per revolution of the engine Thus 4 cylinder engine will
117. go off indicating oil pressure is within limits While the oil pressure sensor is very reliable this procedure is recommended because it requires little more than turning the instrument on before starting your engine The Display button and your favorite page Double clicking the Display key will immediately change screens to the page you have selected as your favorite display page This provides a quick and simple means of returning your instrument to your favorite page after you have been reviewing other display pages To make your selection of which page is to be displayed by the Display key see the Set Pages section The Display button and On Screen Labels Pressing and holding the Display button while on a user configurable page a combination page or bar graph page will replace the numeric data with labels making it easy to identify the data on the screen Releasing the button returns the display to numeric data The Alarms The most important part The instrument s alarm function will alert you to out of limit conditions by flashing the warning light to get your attention and simultaneously changing pages to a labeled screen and flashing the reading above its label to identify it If the problem can not be fixed immediately the alarm should be acknowledged by pressing the Next Ack button on the EIS When the alarm light is flashing the instrument will ignore the other buttons Acknowledging an alarm retu
118. gonfly Maintenance Manual 2 3 Loads Maximum gross vehicle weight to be towed 562 Ibs 255 Kg Loads are limited by proper installation and used of Safety Links commonly referred to as Weak Links Safety Links are made from 130 Ib or 200 Ib Braided Dacron Fishing Line depending upon placement and loads The Single Loop is used to fasten the Towline to the Glider being towed Point E in Figure 1 Solo Glider TUF LINE BRAIDED DACRON 130 LB TEST GREEN SPOT or Tandem Glider TUF LINE BRAIDED DACRON 200 LB TEST GREEN SPOT 200 Ib on Single Loop only which can be purchased on the Internet The Triple Strength Link is used to fasten the Tow Bridle to the Quick Release Point B in Figure 1 We use TUF LINE BRAIDED DACRON 130 LB TEST GREEN SPOT or TUF LINE BRAIDED DACRON 200 LB TEST GREEN SPOT 200 Ib on Single Loop only CAUTION Any increase in Safety Link strength or change of configuration can cause structural damage and or allow either or both aircraft to get into unsafe attitudes Safety Links must be installed in the configurations outlined within 97 DOUBLE FISHERMAN S KNOT 1 Single Fisherman s Knot will also work a a NNE Z a Leave at least 1 tails ARY f Can cover knot and tails b w Automotive GOOP to make it more durable X Single Loop Bowline Knot Used for multiple line strengths Triple Strength Configuration AAA FIG
119. guring the EIS for your airplane 59 8 Disabling Pages Pitman Air disables Pages 0 4 6 7 9 11 12 13 14 amp 15 71 10 Detailed Description of Other Functions 73 10 1 Flight Timer 10 2 Unit Temperature 10 3 H20 Water Temperature Function 11 Use with Precision Airmotive Eagle Engine Controller 73 12 Updating the EIS Software 74 13 Check Entries Message 74 14 Troubleshooting Common Problems 74 15 Warranty 75 Appendix B Flight Training Supplement 80 Record of Supplement Revisions 1 GENERAL 1 1 Read this before your first training flight 2 PREFACE LIGHT SPORT AIRCRAFT 3 LSA TRANSITION SYLLABUS 32 50 50 52 54 54 57 58 58 59 73 73 73 81 83 83 84 84 5 STANDARD EQUIPMENT 6 RECOVERY PARACHUTE SYSTEM 7 PERFORMANCE Appendix C Placards Diagrams 582 version 90 This Page Intentionally Left Blank 92 Appendix D Bailey Release and Tow System 93 1 General Information 1 1 Introduction 1 2 Warnings Cautions and Notes Explained 1 3 Description of Bailey Release and Tow System 1 4 Perspective Views and Photos FIGURE 1 Bailey Release amp Tow System Configuration 2 Limitations 2 1 Introduction 2 2 Installation 2 3 Loads FIGURE 2 Knots used for Safety Links 2 4 Angles 2 5 Forces 2 6 Specifications 2 7 Period of Operations of Release TBO and Inspection Intervals 3 Checklists 3 1 Pre Flight second person needed 3 2 Pre Tow 3 3 Post Flight 4 Maintenance and Service
120. he plastic clip This clip is attached to the airplane and the sensor snaps into it To assure maximum accuracy do not install the sensor such that it is in the path of engine exhaust gases or cooling air outputs Also avoid attaching it to aircraft structure that is warmed by the sun The ideal location is under the wing or under the fuselage for pusher engine installations It is very easy for the probe to get warmed by the engine if it is installed behind the engine usually resulting in readings that are 5 10 deg F too high Avoid routing the wires to this sensor near radios ignition systems or other electronic devices as much as practical Ground the sensor near then instrument To help prevent electrical noise from affecting the sensor twist the entire length of leads from the instrument to the OAT probe The outside air temperature is displayed in degrees Fahrenheit and Celsius as shown on figure 1 5 2 2 Water Coolant Oil Temperature Sensor Start by installing the sensor in the engine according to the recommendations of the engine manufacturer After installation route the wires through engine compartment making certain the wire is supported so that it will not be chaffed A connector or terminal strip may be used between the aircraft wiring and the sensor to enhance maintainability if desired Single wire type sensors those which have a one electrical connection to them require that their cases be connected to ground For these sensors pipe
121. he throttle power setting as required 3 2 Airspeeds for Emergency Procedures Best Glide Vy 42 47 mph depending upon weight Rapid decent less than VNE 66 mph 3 3 Emergency Checklist The simplicity of the Aircraft does not require an order or process during an Emergency Procedure other than normal pilot processes of flying the aircraft and using good judgment 3 3 1 Engine fire during start Master switch OFF Engine ignition to OFF Move away and remain clear of aircraft 3 3 2 Engine failure during takeoff Stick Forward Attitude to best glide speed Vy 42 47 mph If the engine fails at altitudes below 100m 300ft above ground level do not attempt to restart the engine Conduct an emergency landing as described below Land into the wind or uphill if possible At lower than 300 land straight ahead or slightly off to the side Always monitor the airspeed closely and maintain forward airspeed Resist the temptation to pull back on the stick to stretch the glide Do not turn close to the ground The optimum glide speed with engine off is 42 mph solo to 47 mph dual Once an adequate landing area has been reached maintain minimum of 45mph solo to 50 dual until about 10ft above ground Ease back on the controls and start a flare for landing at 3 feet AGL With the engine idling excess speed will quickly diminish when leveling out 3 3 3 Loss of engine power in flight Attitude to best glide speed Nose down to maintain speed If the e
122. her Tachometer Coil Connections Model 2000 4000 6000 EIS wens Appendix A2 EIS 4000 912 914 End Appendix A2 This Page intentionally Left Blank 79 Appendix B Flight Training Supplement Dragonfly SERIAL NUMBER Flight Training Supplement THIS DOCUMENT AND THE TECHNICAL DATA HEREIN DISCLOSED ARE PROPRIETARY TO PITMAN AIR AND SHALL NOT BE USED RELEASED OR DISCLOSED IN WHOLE OR IN PART WITHOUT EXPRESS WRITTEN PERMISSION FROM PITMAN AIR 80 dd mm yyyy Record of Supplement Revisions Note A current version of this manual is always available on the internet at http www moyes com au manuals Revision Number amp Date Headings Paragraph Page numbers Rev 1 18 11 2010 Original All All Rev 2 26 03 2012 Complete revision to Accepted ASTM Standard F2746 09 Rev 3 04 04 2013 Revised to include 582 amp 912 s All All Warning Limited Aerobatics The Dragonfly was not designed for many Aerobatic Maneuvers Prior authorized maneuvers only with proper training Solo Flight from Front Seat Only Always Insure that Weight amp Balance are within Limits Owner Operator Responsiblities The Owner Operator is responsible for Maintaining the Aircraft in accordance with the Inspection and Maintenance Procedures as defined in the Pilot Operating Handbook amp Maintenance Manuals Safety of Flight and or Service Difficulties must be Reported as soon as possible
123. ht Pilot Weight Solo 6 3 4 AIRCRAFT SPECIFIC WEIGHT AND CG POSITION 7 Description of Airplane and Systems 26 8 Aircraft Handling and Servicing 27 9 Supplements 28 9 4 Information Important to Owner Operator 9 4 1 Owner Operator Responsibilities required by FAA amp Consensus Standard ASTM F2245 9 4 2 Modifications Improvements or Corrections 9 4 3 Continued Operational Safety Reporting and Compliance 10 Required Placards amp Markings 29 13 16 16 17 18 18 18 18 19 19 20 22 23 23 24 25 28 28 28 28 Checklists printable Sample Appendix A1 EIS 582 only 33 Model 2000G 33 ENGINE INFORMATION SYSTEM 33 Grand Rapids Technologies Incorporated 33 Appendix A2 EIS4000 912 914 only 44 Model 4000 6000 44 ENGINE INFORMATION SYSTEM 44 User s Manual44 Grand Rapids Technologies Incorporated 44 1 Read This First 49 2 An Overview of Installation amp Setup 49 3 Using the Engine Information System 49 3 1 The Basics of the Engine Information System Operation 3 2 Before Each Flight 4 SET PAGES Setting Engine Limits and other User Entries 51 4 1 Set Page Table of Limits Brackets denote Dragonfly Factory Settings N U not used 5 INSTALLATION 54 5 1 Mounting the Instrument Position and other considerations 5 2 Wiring 5 3 Verify the Wiring A Quick Check 6 Check Out 58 6 1 Initial Application of Power to the Instrument 6 2 Tachometer Initial Test 6 3 Other Checks 7 Confi
124. if maintenance is needed before next operation 4 Maintenance and Service 4 1 General Proper Service and Maintenance of the Tow and Release System is critical to Safe Operations Safety Links in prescribed configurations protect the airframe structure from excessive forces 4 2 Installation Installation must be in accordance with the current Dragonfly Maintenance Manual Available for download at www pitmanair com dragonfly 4 3 Inspections NOTE Daily Inspection amp Preflight Inspection are the same A Pre flight second person may be needed 1 Visually inspect all components and lines 2 Inspect Release Mechanism 3 Without pressure on Bridle insure Release Locking Arm on Release Assembly and Handle return to Normal Positions 4 With pull being applied to bridle test that line releases properly and with smooth motion of the release handle 99 5 Insure that Safety Links are proper size material and installed properly Links are in good condition Both the Bridle Safety Link and Safety Links to be used on the glider end B Every 100 Hours or Annual Inspection whichever occurs first 1 Inspect for excessive wear or binding in the system 2 Inspect the Release Handle Cable Housing for cracks which would indicate deterioration of the cable housing 3 Insure that the Release Handle Pressure measured at the top of the handle does not exceed 8 Ibs 4 Insure that the cable moves freely through the cable housing and r
125. ifold The hose clamps fit slightly better on straight portions of the manifold Cont d next page 56 4 Position the hole around the manifold so that the probe does not interfere with the cowl and takes into consideration practical needs related to maintenance does not interfere with the access to the oil filter etc inspections or probe mounting Insert the probe into the exhaust manifold and secure it by tightening the clamp firmly Do not over tighten CAUTION Secure installation of the exhaust gas temperature sensor is critical to safe operation of your engine Failure of this sensor to remain installed in the exhaust manifold could result in an exhaust leak of hot exhaust gases containing carbon monoxide This poses a potential fire and or cabin air contamination threat Inspection of the installation by a licensed A amp P mechanic is recommended It may be necessary to safety wire the EGT probe such that it is impossible for the probe to come in contact with rotating engine parts or the propeller should its attachment fail This is especially of concern with pusher type engine installations It is necessary for this probe to be grounded In most cases no special provisions are required to achieve this since the exhaust manifold is normally connected to ground via the engine and the EGT probe clamp typically makes a good electrical connection to the exhaust manifold An ungrounded probe may cause erratic EGT readings 5 2 10
126. ilant for reoccurrence of ice 3 3 14 Loss of primary instruments This should not be an emergency in this aircraft Land at an appropriate area and repair the problem 3 3 15 Loss of flight controls Failure of elevator The Horizontal Stabilizer is fixed at 13 degrees negative to the wing Level flight can be maintained by increasing or decreasing air speed with throttle use amp use of the trim tab 12 Should pitch be uncontrollable after an elevator failure even after experimenting with the throttle amp trim tab shut down the engine and operate the emergency parachute at a time that is suitable Failure of ailerons The Dragonfly s ailerons double as flaps and are in permanent flap position Should one aileron fail take immediate steps to balance the aircraft with the other and final balance with the rudder Should both fail and the aircraft is uncontrollable with the rudder then the pilot should operate the emergency parachute after shutting down the engine Rudder failure Use the ailerons to steer the aircraft by gentle banking to achieve direction Land the aircraft immediately following any control surface failure or suspect operation 4 Normal Procedures 4 1 Preflight Check The same type of inspection should be done as Post Flight Inspection NOTE A Post Flight Inspection may find issues that require maintenance or repair prior to next flight refer to Figure 4 Pre Flight Areas on page 13 Every time the plane is
127. imeter appropriately If the altimeter is set to the automatic mode no action is required Detailed Description of the Features Automatic Manual Altimeter Setting The altimeter can be set manually by the pilot or automatically the by the instrument This option is selected on the SET LIMITS pages Automatic Altimeter Operation In this mode the altimeter will automatically be set to zero at 45 and 75 seconds after the instrument is turned on if the engine is running and has not exceeded 4100 RPM If the RPM goes above 4100 the instrument assumes the airplane is in the air thus does not alter the altimeter setting The intent of this logic is to allow the instrument to automatically zero the altimeter when the engine is being warmed up on the ground but hopefully not cause the instrument to reset the altimeter when the instrument is turned on and off in the air The automatic mode of the altimeter should not be used when You wish to set the altimeter to the airport s elevation This is often done when flying to another airport especially when the airports are at different elevations If you anticipate turning off the instrument in flight and then turning it back on when the engine RPM is below 4100 This could be the case when stopping the engine in flight and restarting Manual Altimeter Operation Use the SET LIMITS pages to set the altimeter as desired Flight Timer The flight timer shows you how long your
128. ind 500 MSL with 30 min reserve 912ULS amp 912UL Cruise at 4100 4300 rpm will give 49 54 mph solo Consumption at cruise is 2 8 US gal per hour Range is approximately 70 80 miles no wind 500 MSL with 30 min reserve Maximum range 6 Gallon Tank with 30 min reserve 582UL 50sm 5200rpm 912UL 78sm 4300 rpm 912ULS 70sm 4300 rpm NOTE All performance data are based on standard atmosphere at sea level They are also based on the procedures described in the POH Higher runway elevations higher temperatures and other propellers can lead to considerable differences in the data End of Appendix B FTS in POH 89 Appendix C Placards Diagrams 582 version not to scale PUSHTOSTART FORWARD ON AFT OFF MAG 1 Power MAG 2 PUSH TO START Open OFF FUEL ON SHUTOFF ON ES GEAR OIL MAG 1 Power MAG 2 OFF OFF OFF Close 2 Cycle Oil ON ON ON TCW III 2 Cycle Oil poranna TCW III AUX Fuse 5 Amp A i i aD 75W 140EP II MOL 81949 Z L 0S XIW Id pepeajun wniweid OFF Open GEAR OIL 75W 140EP i gt x lt OFF J gt Op Close JJ Open ON I M L 81949 Z L 0S XIN Id pepeajun wniweid Inflate 25 psi Max MASTER Inflate 25 psi Max __ Inflate 25 psi Max S S Appendix C Placards Diagrams 912 914 version not to scale l 9 U L o x 3 Se g oC 63 4
129. ind it useful to disable the fuel flow page if you do not have the fuel flow option and or the altimeter VSI Airspeed Water Temperature page if you do not use these features Note that the alerting function will not be disabled from using this pages so that alarms will be annunciated using the appropriate labeled page It is recommended that pages are disabled after you have gained some operational experience with the instrument and after you have settled on the configuration of your user programmable pages To disable a page determine its page number from figures 1a and 1b Enter this page number into one of the 10 Disable Page entries which appear immediately after the user definable page data Note Ten Disable Pg pages are provided Each of these pages allow one entry The entry may be either Off indicating this particular Disable Pg page is not disabling any pages or it may be a number between 0 and 15 corresponding to the page being disabled The ten Disable Pg pages look identical with the possible exception of the entry on the page This gives the appearance that the page is not changing as you page through each of the 10 pages but in fact there are ten of these pages 9 Engine Analysis Functions The engine analysis function includes functions to track your EGTs to detect subtle changes in your engine performance and functions to help you lean your engine 9 1 The EGT Tracking Function Imagine you had a w
130. ing Common Problems Last printed 12 1 2014 8 58 00 PM One EGT or CHT is erratic One of the two wires is unconnected between the instrument and the probe Most commonly a crimp connection on the quick disconnect on the probe or the cable it plugs into is loose A visual inspection will usually be enough to find the problem Another simple test is to use a continuity tester and verify each pin at the instrument end of the cable has good continuity to the engine case since each probe is grounded to the engine The pins numbers are listed on the wiring diagram in the back of this manual All EGT and CHT are This is caused by an open ground connection to the case of the engine on engines which do not erratic include an electric starter Coolant Temperature shows The connection to the coolant temperature probe is open or the case of the coolant temperature 59 deg F all the time sensor is not grounded A quick test is to touch the coolant temperature sensor lead to ground If the EIS show a high temperature the connection to the instrument is good If it does not change check the wire between the instrument and the coolant temperature sensor especially the crimp on the quick disconnect that plugs onto the coolant temperature sensor Tach Reading is erratic or This is normal as the tach signal is generated by one of the mags Sometimes it is possible to get a zero when one mag is turned good reading if the mag test is performed at higher
131. ir aircraft and the Bailey Tow and Release System in accordance with SLSA Dragonfly requirements They must also agree to participate in the Continued Operational Safety Monitoring System for the Dragonfly SLSA offered by Pitman Pitman will require the included ELSA Dragonfly owners to pay a fee for this administrative and monitoring process A summary of the petition was published in the Federal Register on September 2 2014 79 FR 52104 No comments were received The FAA s analysis is as follows The FAA finds that this exemption only applies to 91 309 a 2 and 91 309 a 3 relief being sought it does not apply to the non regulatory request submitted by the petitioner The FAA finds that the tow and release assembly on Lizht Sport Aircraft LSA must be approved by the Administrator as specified by 91 327 a 1 and 91 319 e 1 as applicable However LSA are built to a FAA accepted standard owned by the American Society for Testing and Materials ASTM therefore the Dragonfly LSA certificated under 21 190 or 21 191 i 1 as applicable are termed as FAA accepted and not FAA approved The tow system must be manufactured and approved by the aircraft manufacturer in accordance with ASTM standard F2245 Annex Al The information in the Dragonfly LSA maintenance manual and pilot operating handbook POH must meet the requirements of ASTM standard 12245 Annex A1 1 through A1 7 when the aircraft is equipped for towing
132. is switched to GROUND Thus the external warning light or annunciator is connected to this output and 12 Volts The maximum current this output can control is 0 11 Amperes or 110 mA Exceeding 110 mA will normally cause this output to go to the open state although it is possible to damage this output is the condition is not corrected 5 2 7 Auxiliary Inputs Your instrument includes 6 auxiliary inputs Wire these inputs to your sensors for the auxiliary inputs according to the sheets included with the auxiliary input sensors Refer to the Advice Before Starting Your Installation section at the front of this manual regarding assignment of the auxiliary inputs to the various functions If you are using the auxiliary input for your own custom application this input must be in the range of 0 5 Volts DC and must not exceed 5 5 Volts The scaling of this auxiliary display number n is set using the nSF and nOff as described in the Configuration Set Pages section If this input is not used the Aux limit should be set to zero on the Set Limits pages to prevent nuisance warnings CAUTION This input must not exceed 5 5 Volts Although no damage will occur the accuracy of the instrument will be adversely affected while an aux input exceeds 6 0 Volts 5 2 8 Cylinder Head Temperature Probe Installation Ring terminal type CHT probes are installed by removing the spark plug placing the sensor under it and re installing the p
133. itations please refer to the POH The DRAGONELY is not certified for Aerobatics Some Aerobatics are approved with proper training e Flights are only to be made under VFR conditions e Night flights require special optional equipment Private Pilot or Higher w current medical e Flights in icing conditions not allowed e Steep turns beyond 60 Degrees are prohibited see Aerobatic Maneuvers in POH e In gusty wind or wind speed more than 30 mph 46 km h flight operations should be stopped 4 4 Cruising Flight Carb Icing 912 During Cruising Flight an RPM of 4200 5500 RPM should be used redline is 5800 RPM The maximum permissible speed of Vne 65 mph should not be exceeded 65 70 mph with trim set to slow speed 40 mph or less 582 During Cruising Flight an RPM of 4300 5800 RPM should be used redline is 6800 RPM The maximum permissible speed of Vne 65 mph should not be exceeded 65 70 mph with trim set to slow speed 40 mph or less During Cruising Flight monitor your fuel consumption and total fuel on board for flight planning Fuel Consumption at typical Cruising flight is about 4 0 to 4 7 gallons per hour In case of possible carburetor icing go to cruise or maximum power setting For Normal Cruising Flight bring the airplane to the desired cruising speed in level flight by observing the VSI or the Altimeter Adjust the throttle and trim to hold altitude 86 4 5 Banked Turn Each direction of t
134. ke a cable with only power and ground wires and power the instrument via this cable This test cable available at no charge Instrument does not turn on Open ground connection to instrument or the voltage provided to the instrument is too low Warning light never comes on less than 9V One EGT or CHT is erratic One of the two wires is unconnected between the instrument and the probe Most commonly a crimp connection on the quick disconnect on the probe or the cable it plugs into is loose A visual inspection will usually be enough to find the problem Another simple test is to use a continuity tester and verify each pin at the instrument end of the cable has good continuity to the engine case since each probe is grounded to the engine The pins numbers are listed on the wiring diagram in the back of this manual All EGT and CHT are erratic This is caused by an open ground connection to the case of the engine on engines which do not include an electric starter 74 Oil Pressure Reads 99 with engine off Connection to oil pressure sensor is open circuit A quick test is to touch the oil pressure lead to ground This should cause the oil pressure to read 0 If it does check connections and ground to oil pressure sensor case must be grounded If this test does not cause a 0 reading check the connection between this wire and the input to the instrument Oil or Coolant Temperature shows 59 deg F all the time
135. ld result in thermally induced mechanical damage due to insufficient cooling But often EGT and CHT measurements are often misunderstood They perform very separate and distinct roles Why monitor Exhaust Gas Temperature EGT EGT reflects the ratio of fuel to air being provided to the cylinder The leaner the mixture the higher the EGT EGT does not provide any indication of how well the engine is being cooled This is the job of coolant and CHT Internal parts such as the piston of all two stroke engines will be damaged if they are operated with an EGT that is too high Damage can occur in a matter of tens of seconds or less if EGT limits are exceeded What causes a high EGT A lean fuel air mixture will cause high EGT This can be caused by Misadjusted or a problem with the carburetor 33 Too little load on the engine such as an under pitched propeller This also results in unusually high engine RPM A problem with fuel delivery to the engine such as a clogged fuel line or filter a malfunctioning fuel pump etc Unbalanced unequally opening carburetors will cause one cylinder to operate with a higher EGT Cooler ambient temperatures and lower altitudes An engine set up for operation in Denver 5000 feet above sea level will operate at higher EGTs when operated at sea level What do you do when you get a high EGT alarm If possible reduce engine power If high EGTs persist be prepared for the possibility of sudden
136. lity making in non critical as to where the instrument is mounted with respect to the pilots eyes The instrument uses an anti glare window to minimize reflections Of course the instrument should be positioned to allow easy access to its front panel buttons The instrument should be secured using the mounting holes in the faceplate Figure 4 provides the physical dimensions of the instrument and a full size mounting template If the mounting template is used its dimensions should be verified as paper may expand and contract with humidity NOTE No special consideration must be given regarding protection from vibration The mechanical design of the instrument is very rugged This is of course not true of other instruments especially mechanical airspeed indicators and altimeters The instrument does not emit electrical noise that will interfere with any radios and can be mounted next to a radio without concern A magnetic compass may also be located next to the instrument if desired with no measurable effect on or off 5 2 Wiring Figure 5a amp 5b illustrates all electrical connections made to the EIS The Detailed Wiring Description below provides additional information about wiring the instrument into your aircraft Review this material to familiarize yourself before proceeding further Using this figure start the wiring process by carefully planning and DRAWING A WIRING DIAGRAM for your aircraft The wiring diagram is essential in pla
137. lt Maximum Voltage Limit Allows for detection of failed regulator Start with 15 6 volts Lower as much 14 8 Loss of correct voltage regulation resulting in over charging and as possible without getting false subsequent high voltage will greatly shorten the life of the battery alarms Typical limit should be 14 6 and could be dangerous Volts Min Volt Minimum Voltage Limit Allows for detection of loss of charging Set limit to about 12 8 volts to get 11 4 This limit is only tested when the engine RPM is greater than the immediate alerting of loss of EGT RPM setting This prevents false alarms on final approach charging although this will cause low RPM with landing lights on low voltage alarm whenever instrument is on while engine is not running Set to 12 4 volts or less to avoid alarm when engine not running but still gives alarm shortly after battery discharging has begun Max Carb Carb temp warning is generated when the carb temp falls between 40 60 deg F N U 0 the Max Carb and Min Carb Limit Min Carb See Max Carb 0 20 deg F N U 0 Max EGT Maximum EGT Not all engines have published limits nor do all Set limit according to engine 1500 F engines require a maximum EGT limit This alarm can be useful for manufacturer recommendation or troubleshooting engine problems also based on experience Min EGT Minimum EGT This alarm is active only when the engine RPM is 800 1200 deg F depending on N U 0 ab
138. lug into the engine Orient the sensor so that as much clearance as possible is provided between its leads and the engine structure Bayonet type CHT probes for Lycoming and Continental engines are retained by a bayonet adapter This adapter is screwed into the engine in a threaded hole near the bottom spark plug This hole can be identified by its solid bottom Do not use the primer hole to mount this adapter If you are in doubt consult an expert The CHT probe is adjusted by turning the locking collar on the spring so that its tip is pressed against the bottom of the CHT probe well when it is locked onto the adapter NOTE To prevent false readings for inputs that are not used it is recommended that unused CHT inputs be shorted together Unused EGT inputs may also be shorted together or may be hooked up in parallel with another EGT input so that the EGT Span calculation remains meaningful 5 2 9 Exhaust Gas Temperature Probe Installation Start by drilling an 1 8 inch diameter holes at the appropriate position in the exhaust manifold as indicated by the engine manufacturer If the manufacturer provides no guidance on the location of the EGT probes we recommend the following 1 Position the probe 2 8 inches from the cylinder 2 Although not critical it is preferable to position all probes the same distance from the cylinder 3 If possible position the probes so that they are mounted on a straight not curving portion of the exhaust man
139. lways go to zero when turning off one mag during the mag check specially if the mag check is performed at low less than 3000 RPM If a battery is used tachometer connection may be made to the lighting coil as shown above to avoid loss of the tach reading during the mag check Figure 7a Tachometer Connections to Lighting Coil Equipped Engines Rotax Jabiru Hirth Zenoah etc Electronic Ignition 1 k Ohm 1 2W resistor To Points or Connect directly to the tach as i Ignition Module output from the igntion system brown biack red stripes Ig No resistor required 12 Volts To Tach Rotax 912 914 Input Connect tach input to one of the two tachometer output of EIS wires Connect the other tach output wire to ground Ignition Magneto Equipped Engines Coil such as Lycoming Continental Franklin etc 39 k Ohm 1 2W resistor orange white orange stripes or 27 k Ohm 1 2W resi d violet i int CThia resistor I ngudedh para paake n a P ee it is covered with black heat shrink tubing and Ignition has male and female quick disconnects nput Magneto Kill Switch of EIS also called a P Lead or primary lead To Tach Note A switch may be installed to allow you to chose which Input i mag you use as your tachometer source This allows you to of EIS Engine select the active mag when performing a Mag Drop Test Case Left Mag P Lead 27k or 39k Resistors ag Right Mag P Lead Ground of EIS Spare Lighting Figure 7b Ot
140. ly to 10 000 20 000 etc and use the corresponding altimeter adjustment 1 for the 10 000 adjustment 2 for the 20 000 adjustment etc to make any correction necessary at these altitudes 7 15 User Definable Combination Pages 1D1 1P1 GD9 GP9 These entries are used to setup your user definable combination display pages They are used in pairs although they appear to 2 successive screens with the first item of the pair defining the data to be displayed thus the D in the label and the second item defining the position thus the P in the label of the item Two sets of twelve pairs of entries are used to allow up to twelve items to be displayed on each of 2 user definable combination pages Nine pairs of entries are provided to allow up to nine items to be displayed on the bar graph pages An example of the labels used to identify these page is as follows 2D1 gt 2nd combination page Displayed item entry 1 2P1 gt 2nd combination page Position of item 1 entry 1 Note The items set up for the graphical leaning pages that is the pages with the bar graphs apply to both of the bar graph pages 65 Three or four letter identifiers are used to define the data that can be displayed and a numeric entry describes the position on the screen where this data appears In addition to numerical data several characters may be selected to enhance the readability of your user defined combination pages The following
141. mperature on the EGT Cruise graph and a digital representation of the change on the page identified with CZ cruise identifier The exhaust gas temperatures stored internally for this function may be updated at any time during the flight by repeating this sequence This can be necessary if your cruise conditions change such as power settings mixture etc Note that it is not necessary to lean the engine to activate this function Separate limits may be set for the increase and decrease in exhaust gas to alert you when any cylinder varies by more than you expect These are the EGT INC and EGT DEC entries on the set pages These limits may be tight a few 10 s of degrees to alert you to very subtle changes possibly at the expense of false alarm in turbulence or loose 50 degrees or more Experience will dictate the best settings for your engine airplane combination The tracking function may also be activated during climb or descent if desired This is especially useful when troubleshooting an intermittent problem It may be necessary to re activate it during this phase of the flight to account for the change in exhaust gas temperatures resulting from the new power setting 71 9 2 Leaning Functions Not used with Rotax Engines For those with engines having adjustable mixture controls the leaning functions are probably what attracted you to the EIS and you will not be disappointed The EIS provides a bar graph page for those who pre
142. must be equipped with the fuel flow option The FloCal entry should be set to 177 and adjusted as necessary so that the totalizer is accurate When the totalizer is accurate the fuel flow reading will be accurate It is normal for the fuel flow readings to fluctuate as much as 10 at times Tachometer Similar to the fuel flow input the tachometer input is pulled up with a 1k ohm resistor to 12V The EIS fuel flow output is ideal and can easily supply the necessary power for both the fuel flow and tachometer sensing CHT The engine controller monitors 2 cylinder head temperatures The CHT probe used for the engine controller can not be used for the EIS CHT input To monitor these cylinder head temperatures it is necessary to use a dual CHT probe available from Aircraft Spruce The EIS requires a type J thermocouple 12 Updating the EIS Software EIS Model 4000 instruments with software version 70 or greater as shown in the software version number on the label or as might be displayed on the screen at power up include field re programmable memory that allows the instrument to have software updates loaded into it via its serial port Software updates can be loaded in the EIS via its serial port from either a loader cable connected to a personal computer or via any version of the GRT Horizon or Sport EFIS When loading EIS software via the EFIS a serial output to the EIS and from the EIS must be connected Earlier versions of the EIS did
143. n not connected For the Model 2000G only the serial input may be connected to the GPS serial data output to enable the GPS interface functions N C indicates No Connection Do not wire to these inputs They are 5 2se cdr reserved for future growth figs E Figure 5 Connector A Wiring Model 2000 for 2 Stroke engines Ext CJ 42 Rotax Tympanium Regulator Rectifiers Also applies to Jabiru Making the tachometer connection is KS and most others not otherwise listed Only one of the two inputs to the regulator rectifier will give a good tachometer reading dependant on the type of The incorrect lead will give a tachometer reading that decreses with engine rpm The correct lead must be determined by trial and error Key West Regulator Rectifier The gray tachometer lead i must be used The lighting coil wires may not be used as a The small Tympanium regulator rectifier identifed by its 2 yellow 1 tachometer soure with this regulator rectifier red and 1 black wires often overcharges batteries If your battery voltage exceeds 15 volts while using this regulator rectifer your For Tympanium 3 phase regulator rectifiers the ground connection is to the case and 12V outputis the black wire One of the yellow wires is not used and should be taped off 12 VDC Instrument Power Regulator 4 Engine Rectifier Ground Lighting Coil Leads Ground Connect the tachometer input of
144. n information that configures the instrument to your engine and selects various options These pages are accessed by pressing and holding the right and center buttons for several seconds until the bottom row of the screen displays Up Down Next While on the configuration set pages the bottom row of the display will show UP Down Next indicating the function of the buttons while on these pages As such the left and center buttons allow you to change the setting and the right button takes you to successive settings To leave these pages repeatedly press the right button or press and hold the right button until the normal display pages return The items that can are set on these pages are in order as follows Fuel Temp and Altitude show the units they are using The units for the vertical speed climb rate indicator are feet per minute in increment of 100 feet per minute or meters per second corresponding to the selection for the altimeter GPS_Page When On enables the GPS page This page appears after the second combination page See the section GPS Page for a complete description GPS_Units Selects whether miles or kilometers will be used as the units on the GPS pages Has no effect if GPS_Page is off GPS_Baud Selects the baud rate for receiving data from the GPS Most GPS receivers transmit data at 4800 baud and this setting should be used EGT_Toggle When Off the highest EGT is displayed
145. n may cause structural damage and or allow either or both aircraft to get into unsafe attitudes Safety Links must be installed in the configurations outlined within Figure A Bailey Release Mechanism 93 Figure B Quick Release and Safety Link Quick Change Pin and Retainer showing configuration of Safety Link Option A has Triple Strength Configuration shown in Figure 2 to give 3 strands of 130 lb line Safety Link connecting bridle to towline Option B has Single Loop of 200 Lb line not doubled This provides 2 strands of 200 Ib Safety Link carrying the loads Figure B 2 Bridle Quick Change Link Figure C Slider Ring or Karabiner Figure D Top Post Quick Change Line Retainer and Simple Knot Simple Granny Knot with tail tucked in tube ahead of Knot Figure E Small Karabiner or Ring with Funnel Device for wind resistance and additional drag to make the untethered line fly higher behind the Tow Plane It also protects the Ring attachment line La Rings or Karabiner are attached with line passed through loop and pulled snug 95 Figure E 2 Single Point Glider Attachment picture shows Single Loop Doubled to give 4 strands of 130 lb Safety Link connecting tandem glider to towline FigureE3 2 Point Glider Attachment picture shows a Single Loop Safety Link of 130 lb Solo or 200 lb Tandem attached by passing it through itself and attaching to Glider Release This provides 2 strands of Sa
146. ndix A 9 2 2 Bailey Release and Tow System Appendix D 9 3 Airplane Flight Training Supplement FTS Located in Appendix B of this manual 9 4 Information Important to Owner Operator 9 4 1 Owner Operator Responsibilities required by FAA amp Consensus Standard ASTM F2245 1 Each Owner Operator of a LSA shall Read and Comply with the Maintenance and Continued Airworthiness Information and Instructions provided by the manufacturer 2 Each Owner Operator of a LSA shall be responsible for providing the manufacturer with current contact information where the manufacturer may send the owner operator supplemental notification bulletins 3 The Owner Operator of a LSA shall be responsible for notifying the manufacturer of any safety of flight issue or significant service difficulty upon discovery 4 The Owner Operator of a LSA shall be responsible for complying with all manufacturer issued Notices of Corrective Action and for complying with all applicable Aviation Authority Regulations in regard to maintaining the Airworthiness of the LSA 5 An Owner of a LSA shall ensure that any needed corrective action be completed as specified in a notice or by the next scheduled Annual Inspection as specified in the Notice 6 Should an Owner Operator not comply with any Mandatory Service Requirement the LSA shall be considered not in compliance with applicable ASTM standards and may be subject to Regulatory Action by the presiding Aviation Authority
147. nged by this option Be sure to enter temperature limits in same units as you have chosen for display 7 3 FC1 amp FC2 Fuel Flow Activation Codes For instruments that include the fuel flow option these entries have no use For instruments originally ordered without the fuel flow option these codes are used to activate the fuel flow function without the need for returning the instrument to the factory for upgrade In this way you may easily add the fuel flow option at any time by contacting Grand Rapids Technologies and ordering the fuel flow option We will supply you with the FC1 amp FC2 codes and a fuel flow sensor 7 4 FloCal Fuel Flow Calibration This entry allows for fine tuning the accuracy of the fuel flow function The typical setting for entry is 200 To adjust the FloCal entry to maximize the accuracy of the fuel flow function keep track of the amount of fuel burned by noting the amount of fuel added to the airplane over a period of time at least 100 gallons and the amount of fuel used according the fuel flow function If the amount of fuel used according the fuel flow function is 1 low increase the FloCal entry by 1 Similarly decrease the FloCal entry by the percentage the fuel flow function is over reporting fuel used The final FloCal entry should typically be within the range of 190 210 If your FloCal entry is outside this range you may have calculated it incorrectly or you may have a problem with the fuel flow f
148. ngine fails at altitudes above 100m 300ft above ground level an attempt to restart can be made Ensure ignition is on and engage starter ensuring the throttle is forward of the idle position The engine will turn quicker than on the ground due to airflow over the propeller Closely monitor airspeed and maintain at or above 35mph If a restart is not possible by 100m 300ft then carry out an emergency landing as above 3 3 4 Emergency landing without engine power Same as 3 3 2 amp 3 3 3 above 3 3 5 Precautionary landing with engine power Use normal landing procedure or the appropriate landing procedure listed above 3 3 6 Fire in flight Master switch OFF Engine ignition to OFF Descend at less than VNE 66 mph 11 Land at nearest reasonable site 3 3 7 Loss of oil pressure Not Applicable w 582 912 Look for safe landing spot throttle back as soon as possible shut engine off as soon as possible 3 3 8 High oil pressure Not Applicable w 582 912 Likely not an Emergency However Look for safe landing spot throttle back as soon as possible shut engine off as soon as possible 3 3 9 Emergency descent Throttle closed Nose down attitude of approx 45 degrees Descend at close to but more than Vne 66 mph Refer to 3 3 2 for landing procedure 3 3 10 Alternator failure This is not an emergency situation The engine is not affected when the electrical system is not charging The master switch can be turned off to conserve
149. nning a successful installation Install the wiring routing all wires required by the EIS to its planned location A high quality 22 gauge stranded wire 7 or 19 strands is recommended for all connections other than those made to the CHT and EGT probes Solid conductor wiring is not acceptable Thermocouple extension wire must be used for the CHT and EGT probes to prevent the introduction of errors into these measurements 54 CAUTION Use a separate ground wires for the ignition kill switches and the remainder of the electrical system if possible These separate ground wires should attach to different places on the case of the engine so that both sets of grounds could not disconnect from the engine while remaining connected to each other This provides additional protection for the instrument although its internal protection is usually more than adequate but more importantly protects other electronic equipment in your airplane from potential damage See the sheet at the back of the manual for more information All electrical connections are made to the EIS via two 25 pin sub D type connectors Pre wired color coded cables are supplied with the instrument 1 Start by making the power and tachometer connections as illustrated in figure 7 Note that 10 5 20 Volts DC 0 20 Amperes is required to power the instrument The instrument includes an internal thermally activated fuse that protects the instrument A fuse should be used in the aircraft
150. not allow for software updates to be loaded into them via the serial port and thus did not have a serial output connected to the EIS serial input This connection must be made to allow loading software updates into the EIS 13 Check Entries Message The Check Entries message will be displayed immediately after power up if the EIS determines that any user entry including all limits and all configuration data was lost or is incomplete When this message is the EIS will force you to review all entries by taking you to the Set Limits and Configuration Set pages Carefully review and correct any entries as necessary Note This message will be generated if any user entry is changed and the instrument is turned off before returning to the normal display pages This message then serves a reminder that you were in the process of setting user entries when the instrument is last turned off If this message appears frequently this is most likely due to the instrument getting poor quality electrical power This is most common if the instrument is on while engaging an electric starter or if it is turned on before the engine is started in airplanes without batteries or when power or ground connections are loose 14 Troubleshooting Common Problems Instrument does not turn on Either the instrument is not receiving power or the 12V or 4 8V output from the instrument is Warning light is on steady shorted to ground A simple test is to ma
151. ntify which cylinder it is to be used for Crimp the mating connectors onto the extension wire Plug the color coded leads onto the matching color extension wires Secure the probe leads with suitable wire clamps to prevent them from chaffing against the engine or airframe Heat shrink tubing can be used to protect the leads from abrasion and insulate the electrical connections to the probe NOTE The length of wire on the EGT amp CHT probes or the extension wire may be shortened as desired for your installation 5 3 Verify the Wiring A Quick Check Take a moment now to review all wiring connections you have made to the EIS Double check the following wiring a power b ground c tachometer connections 57 d Verify that the same ground wire is not used as both a ground to the engine for the EIS and as a ground for the ignition kill switches Verify that these separate ground leads do not connect to the engine in such a way that they could be become disconnected from the engine but remain connected together Do not use the same connection to the engine for these ground leads Finally install the connector backshell using the supplied hardware Secure the wiring using cable clamps to the aircraft structure so that no strain is transmitted to the connector Plug the connectors into the EIS and secure them to the instrument with the screws included with the back shell 6 Check Out 6 1 Initial Application of Power to the Instr
152. of the Form in the POH by Mail or Online at www pitmanair com dragonfly sofreportform htm The Owner is Responsible for keeping all Current Contact Information on file at Pitman Air This can be done by Mail or Online at www pitmanair com dragonfly contactform htm Current versions of all Manuals are at available Online at www pitmanair com dragonfly manuals See Page 26 of this Manual Owner Operator Responsibilities for details Table of Contents Record of Manual Revisions 2 Table of Contents Safety of Flight amp Service Difficulty Report Form 6 Introduction 7 Documentation Recovery 7 Quality Assurance Monitoring 7 1 General Information 8 1 1 Introduction to airplane 1 1 Equipment List 1 2 Summary of the performance specifications 2 Operating Limitations 9 3 Emergency Procedures 10 4 Normal Procedures 13 4 1 Preflight Check 4 2 Engine starting 4 3 Taxiing 4 4 Normal takeoff 4 5 Best Angle of Climb speed VX 4 6 Best Rate of Climb speed VY 4 9 Normal landing 4 10 Short field takeoff and landing procedures 4 11 Soft field takeoff and landing procedures 4 13 1 EMERGENCY PARACHUTE SYSTEM 4 13 2 AIRCRAFT DISASSEMBLY FOR TRANSPORT 5 Performance 20 6 Weight and Balance and Equipment List22 6 1 Weight and Balance Chart 6 2 Operating weights and loading occupants baggage fuel ballast 6 3 Center of gravity CG range and determination 6 3 3 Ballasting to Compensate for Lig
153. om dragonfly Any Changes Alterations or Repairs not specifically covered in the Dragonfly Maintenance Manual REQUIRES a Letter of Authorization LOA from Pitman Air NOTE SLSA aircraft must have an LOA Letter of Authorization from Pitman Air for Alterations and or Modifications in the aircraft records to maintain their Special Airworthiness Status Failure to do so may cause the Airworthiness status to revert to Experimental 7 3 Operational and Service Difficulty Reporting Form The Maintenance Manual and Pilot Operating Handbook for the Bailey Moyes Dragonfly by Pitman Air contain a Safety of Flight amp Service Difficulty Report Form in the back of the manual NOTE Reporting of such difficulties is mandatory for SLSA and Kit ELSA produced by Pitman Air In order to be included in the Dragonfly Network and Safety Bulletin network for a Transitioned ELSA and have the Tow System Authorization the Dragonfly owner must contact Pitman Air and conform to the maintenance requirements outlined in the current manuals And the Aircraft must be registered in the United States End Appendix D 103 Appendix E Aero Tow Exemption Exemption No 11104 UNITED STATES OF AMERICA DEPARTMENT OF TRANSPORTATION FEDERAL AVIATION ADMINISTRATION WASHINGTON DC 20591 In the matter of the petition of PITMAN AIR LLC Regulatory Docket No FAA 2013 0508 for an exemption from 91 309 a 2 and 91 309 a 3 of Title 14 Code of Fed
154. ombined with proven application of the Safety Link in the Bridle protects the maneuverability and structure of the Tow Plane 1 2 Warnings Cautions and Notes Explained WARNING Denote items where Person Protective Equipment PPE is required when working on the system components CAUTION Denote items pertaining to safety that may be easily overlooked and may need double checking NOTE Items of particular interest or must be Inspected during routine maintenance and inspection 1 3 Description of Bailey Release and Tow System The Bailey Tow and Release System has a release similar to the Schweizer Release but also incorporates special aspects such as the Bridle Slider and Safety Links in key locations which afford the maximum amount of maneuverability and safety to the tow plane amp pilots of both craft For this reason we consider it a Complete System rather than just a release mechanism 1 4 Perspective Views and Photos Safety Link Triple Strength Configuration Weak Link Quick Release Line 24 to 30 N p P Safety Link Single Loop Weak Link Sido Ring ma Haat gt lr eo zZ between Towline and Glider Release Bridle passing through Ring a KO F b ii p Pa AD SS Paa eae A n E Towline 200 feet 10 oe A Bridle Line 22 10 from Ato B FIGURE 1 Bailey Release amp Tow System Configuration CAUTION Any increase in Safety Link strength or change of configuratio
155. on and results as follows note typical aircraft Use only Ibs and inches Metric Units must be converted first The Mean Aerodynamic Chord MAC is calculated by adding the wing and flaperon area and divide by span MAC AREA 183 10 ft sq 5 37ft 64 50in MEAN SPAN 34 08ft l DATUM Cockpit front cross tube 0 00 2 Pilots Pelvis position Pilot CG 35 0in 3 Front Axle Front Wheels 50 0in 4 Leading Edge of Wing 60 0in 5 Fuel Tank Center 60 0in 6 Rear Seat Pelvis position Co Pilot CG 82 0in 7 Tail Wheel Axle 196 0in EMPTY WEIGHT MEASURED AS FOLLOWS and the Moment Arm from DATUM used to calculate moments Note these readings for an Example Only of typical aircraft your aircraft may vary Empty Weight Mass Moment Arm Moments Front Rt Wheel 179 01b 50 0in 8950in Ib Front Lt Wheel 174 51b 50 0in 8718in lb Rear Wheel 162 01b 196 0in 31752in lb Total Weight 515 51b Total Moments 49420in Ib CG from Datum Moment 49420in Ib 95 90in Mass 515 51b The Leading Edge of the wing is 60 0in aft of Datum The empty weight CG position from the Leading Edge is then 95 90in 60in 35 9in As a percentage of MAC 35 9 0 556 55 6 23 6 3 1 MAX AFT CG WITH 133lb PILOT AND 11lb FUEL example Weight Arm Moment Aircraft 515lb 95 9in 49388 5 in lb Fuel 111b 60 0in 660 0 in lb Pilot 1331b 35 0in 4655 0 in lb 6591b 54703 5 in lb CG MOMENT 54703 83in MASS 659 As a percentage of MAC 83 60
156. oper Compliance with Safety Directives is MANDATORY 9 4 3 3 The owner operator of a LSA shall be responsible for complying with all manufacturer issued notices of corrective action and for complying with all applicable aviation authority regulations in regard to maintaining the airworthiness of the LSA 9 4 3 4 An owner of a LSA shall ensure that any needed corrective action be completed as specified in a notice or by the next scheduled annual inspection 9 4 3 5 Should an owner operator not comply with any mandatory service requirement the LSA shall be considered not in compliance with applicable ASTM standards and may be subject to regulatory action by the presiding aviation authority 9 4 3 6 Each owner operator of a LSA shall be responsible for providing the manufacturer with current contact information where the manufacturer may send the owner operator supplemental notification bulletins 9 4 3 7 The owner operator of a LSA shall be responsible for notifying the manufacturer of any safety of flight issue or significant service difficulty upon discovery 9 4 4 Owner Change of Address Notice In order to continue the airworthiness of each aircraft in accordance with the Quality Assurance amp Continued Airworthiness Procedures the Owner shall notify the manufacturer within 30 days of permanent change of address and other contact information This information is held private and not shared with anyone outside the company except the FAA and
157. ound a Outside Air Temp OAT Probe Note The OAT probe for this instrum ent must have 2 white wires and be connected as shown C numbers on connector housing Fuel Flow Input Connects to white G d roun wire of FloScan Model 201B flow sensor Optional On Off Switch To any other ier pe Suen prt devices that require Male d sub connector Be sure to swith if deered 12V power that identify it correctly supply signals to the This is a male d sub connector It instrument such as capacitive fuel level probes fuel pressure sensors etc type Aircraft Power 10 5 22 Vdc Note Instrument includes an internal thermal fuse for internal protection Any fuse 5 Amps or less to protect wiring to the insturment is sufficient Notes To allow the most accuracy this ground connection should be made at the same point where the instrument is ground wire is connected The coolant temperature sensor has a round hat A 1 4 female quick disconnect pushes on over this hat to make the electrical connection 4 8V Sensor Excitation Output Required for some uses of the auxiliary inputs can be identified by its hollow end opposite the side the wires are installed The contacts for this connector are male pins Rear View of Connector Housing This view shows the side of the connector housing that the wire are inserted into The serial input and output connections are left ope
158. our proof of purchase for warranty repairs For service questions or repair rates call 616 245 7700 75 Mounting Dimensions 7 32 9 32 1 3 4 2 9 16 if Faceplate Size 5 15 16 W x 2 3 4 H i 5 9 16 Note Instruments are 2 3 8 deep Allow 3 4 1 1 2 additonal depth for connectors on rear of instrument The warning light requires a 9 16 diameter mounting hole Figure 4 Mounting Dimensions Appendix A2 EIS 4000 912 914 76 When two tach sources are available such as one from each of 2 mags wire one to each tach input The EIS will use tach 1 if it is providing a signal otherwise it will use tach 2 12V Regulated Power connect to red wire of FloScan Model 201B flow sensor Tachometer Input 1 55 Figure 7 or this connection Serial Out Serial In Aux 4 Warning Light Push on connectors may be used for these connections Included in parts pack l Mii Audio Out to intercom Ground On Off Switch The avionics master may be used in place of this switch if desired To any other 4 8V Sensor Excitation Output May be needed for some uses off the auxiliary inputs Red Blue ick devices that require 12V power that supply signals to the instrument such as Manifold pressure sensors capacitive fuel levle probes vacuum sensors etc Aircraft Power 10 5 22 Vdc Note Instrument includes an
159. ove the entry for EGT RPM This alarm is useful to detecting the sensitivity desired If false alarms are loss of a cylinder or for troubleshooting engine problems consistently generated reduce the limit to less than 800 deg F or set to 0 Lim RPM Defines the RPM at which the following RPM dependant limits Set limit to an RPM slightly less than 3000 become active These are Min EGT Min Volt Min Crz_OP the RPM used for the MAG check This allows the Min Volt test to become active during the MAG test to automatically test for charging Max EgtSpan Maximum difference between the highest and lowest EGT This Set this limit based on experience It N U 0 limit can be used to help detect changes in normal engine operation may take some trial and error to It is also useful when leaning using the digital leaning pages as itis arrive at a good limit After possible to not notice a EGT that is abnormally low when using establishing a limit that rarely these pages to lean the engine Its more obvious on the bar graph generates alarms activation of this pages alarm may indicate developing engine problem Max EGT Inc Maximum Increase in EGT from the Lean Point This alarm is Set limit based on experience A N U 0 active while lean point is active This alarm will often generate a small value will allow sensitive false alarm when the load on the engine significantly reduced detection of EGT increases which is during descent To avoi
160. own arrow for dive Colon symbol 1 Allows printing of a to the screen Apostrophe foot symbol 1 Allows printing of a to the screen degrees symbol degrees symbol 1 Allows printing of a degree symbol to the screen iy 1 Allows printing of a to the screen The following illustration shows the numbering of positions on the display screen for the user defined pages Note how the 32 character positions are numbered from 1 32 starting in the upper left corner 10 11 13 14 15 17 20 21 22 23 24125 26 27 28 29 30 32 67 7 16 Example Worksheet for setting up your custom pages The easiest way to create your custom pages is to plan them on page and then translate you plan into the entries that you will make in the instrument To illustrate this lets create a simple page 1 Start with a blank worksheet Fill in typical numbers to illustrate the data you want displayed Use the table entry of Number of Spaces Required to allocate the required space for the items you have selected to display In this example the tachometer oil temperature oil pressure altitude and airspeed are displayed as shown Oil Temperature Oil Pressure Tachometer 10 11 12 14 15 is 2 5 ji N W D Ur a o0 o xN 0 0 1 8 0 4 5 17 18 19 20 21 22 23
161. oximately 45 50 miles no wind 500 MSL with 30 min reserve 912ULS Cruise at 4100 4300 rpm will give 49 54 mph solo Consumption at cruise is 2 8 US gal per hour Range is approximately 70 80 miles no wind 500 MSL with 30 min reserve 20 5 5 582UL RPM setting and fuel consumption graph from Rotax 582 Manual 5 FUEL CONSUMPTION Conversion 1 I 0 26417 GAL US 1 GAL US 3 7854 I Fuel Consumption l h Fuel Consumption US GAL H CAE 582 UL DCDI 48 kW B mee 582 UL DCDI 40 kw O f 5 1 3 3000 3500 4000 4500 5000 5500 6000 6500 7000 Engine Speed rpm 912ULS RPM setting and fuel from Rotax 912 Manual MAX 6400 40KW MAX 6800 48 kW Er mia al F LA a auf die A Propeller Kurve values along propeller curve Ezag fuel Ezag 4500 rane speed 1 min rpm Ansaugladedruck manifold pressure i Benzinverbrauch Fuel consumption L h Power output graphs in Section 2 10 of this manual Our tests amp use have shown 582 4 gph 5000 5200 rpm cruise results may vary 912 2 3 2 6 gph 4100 4300 rpm cruise results may vary 21 6 Weight and Balance and Equipment List 6 1 Weight and Balance Chart DATUM 60 00 Oo w 0 Oo Ww O z a lt Mij a Q z lt Oo O x z lt 22 DATUM 0 35 0 WHEEL PILOT 50 00 CO PILOT 81 97 TAIL WHEEL 196 34 6 2 Operating weights and loading occupants baggage fu
162. p Control Surface Signals All persons involved in the Tow Operations must understand and use the same set of signals 6 Safety Bulletins Safety Bulletins for the Bailey Release and Tow System can be found on the Dragonfly website at www pitmanair com dragonfly CAUTION Safety Bulletins will contain important information and instructions for safety and compliance 7 Operational and Service Difficulty Reporting 7 1 Introduction Operational Safety is dependent on reporting anomalies and complying with Safety Bulletins This information is available for all on the Pitman Air website www pitmanair com dragonfly 7 2 Registration in Dragonfly and Bailey Release and Tow System Safety Information Network Original Owners of the Bailey Moyes Dragonfly by Pitman Air are automatically included in the information network Owners of SLSA are required to inform Pitman Air or the Continued Airworthiness Authority of any change of address or contact information within 30 days of such changes If the unit is sold the new Owner must inform Pitman Air of the new contact information as soon as possible NOTE Experimental Dragonfly Aircraft that transitioned from Ultralights may take advantage of the Tow System Authorization or Waiver by maintaining their Aircraft and Tow System in accordance with the Maintenance and Service Instructions contained in the Dragonfly Maintenance Manual and Pilot Operating Handbook POH posted on the web at www pitmanair c
163. pages in reverse order up page 0 Figure 1 Display Pages for the Model 2000G 40 Steering data updates with every update of data from the GPS Some GPS receivers especially older ones may update data more slowly especi ay when turning making the steering data slow to change in response to your turns To overcome this problem make an approximate tum according parte The 14R indicates a 14 degree turn to the right is required to put you on course This steering automatically accounts for the effect of wind The arrow give you a graphic indication of the direction of turn required to get on course Dashes will replace this data when steering data is unavailable such as when 500 feet friom home or when home is over 200 miles aay or when your groundspeed is below 3 mph Distance to home The distance in miles as shown by the MI symbol or kilometers as shown by a KM symbol from your current position to the saved home position Dashes will replace this data if real or when over 200 miles from ome to the steering data and then fly straight until the steering data stabilizes before turning again 4750 2500 Tachometer Altitude How to use this page to get home Simple follow the steering data That is all there is to it almost There are 2 speical conditions you should be aware of Number 1 Ifthe winds reduce your groundspeed less than 3 mph the GPS can not determine your direction
164. prepared for flight the entire aircraft must be subjected to a pre flight check whereby the pilot visually checks the aircraft to ensure that the aircraft is in a condition for Safe Operation Conduct the pre flight check as a walk around the aircraft starting at the same point each time to ensure that every part of the structures cables attachments and components are inspected Every part or component must be free of excessive wear defect tears cracks etc refer to Figure 4 Pre Flight Areas 4 1 1 Aircraft and engine controls For each seat check that the rudder pedals and stick move freely into all extreme positions Check the links and connections on the stick and rudder to ensure that they are connected correctly and secured Check the condition of the seats and check that the seatbelts are securely fastened Check that the fuel tank is securely fastened and with the cap screwed tight and containing the sufficient amount of fuel for the intended flight time 4 1 2 Instruments Check the Pitot Tube orifice is clear of obstructions A simple test can be done to check that airspeed indicator works by blowing from several inches away across the Pitot Tube NEVER BLOW DIRECTLY INTO THE PITOT TUBE as this can permanently damage the instrument Ensure that the indicator returns to zero position Check the correct indicating positions of the other instruments 4 1 3 Undercarriage and main wheels Check visually and by hand that the tir
165. rns the instrument to the page it was previously on and allows it to alert you to the next problem After acknowledging an alarm the warning light will remain continuously on as long as any out of limit condition exists The warning light will go out when everything is within limits An alarm that goes away and then returns is treated as a new warning and will again generate the response described here Multiple alarms are presented according to priority one at a time Determining Alarm Status After acknowledging one or more alarms the warning light will stay continuously on indicating as long as one or more functions are out of limits To make the instrument to show you the current out of limit conditions select the Set Pages then simply hold the right button depressed until the instrument returns to the normal display pages Upon leaving the set pages the instrument will clear the acknowledgement of all alarms causing it to re annunciate all current alarm conditions as if they were new alarms Turning the power of and back on will also accomplish this action but will reset the flight timer Set Unused Limits to Zero By setting a limit to zero the alarm function for that limit will be turned off It is a good idea to set limits for all unused functions to zero so that the instrument does not inadvertently generate nuisance warnings for signals you are not using 3 2 Before Each Flight 1 If the instrument includes the altimeter
166. s Liters Serial Output Allows data recording using a laptop PC or interface to EFIS Graphical Engine Monitor Serial Input Provide for growth to interface with other system options that can be included in your EIS EGT Max Active only when above a specified RPM EGT Min Active only when above a specified RPM CHT Shock Cooling Max cooling rate 5 4 Tachometer Time _ InEIs refer to 5 3 above amp Appendix A Record and track the total elapsed time that aircraft is in use These escapement controlled DC hour meters are electrically powered with jeweled movement shockproof odometer and permanently lubricated parts Total digital quartz readout is 999 9 hours Easy to read LED numerals on black face dials Sealed against dirt and moisture 5 5 ELT Ameriking AK450 Installation and operation manual The AK 450 ELT Emergency Locator Transmitter is a state of the art CMOS technology long lasting solid state based equipment It is an extremely reliable highest standards of quality designed to meet TSO C9 1a requirements for critical application The entire ELT system is self powered by its own internal Batteries Interface with Aircraft Electrical Power System is not required The AK 450 ELT is automatically activated upon sensing a change of velocity of 3 5 10 5 Feet Second along its longitudinal axis Automatic Fixed ELT AF Configuration It is designed to be removed from the Aircraft and used as a personal locating device
167. s function is of no use to most users but is provided here for those interested in creating custom applications for the auxiliary inputs AuxDisplay AuxVoltage AuxScaleFactor 2 5 AuxOffset Where the AuxDisplay is the value shown on the screen AuxVoltage is 0 5 Volts the AuxScaleFactor is the number entered into the 1SF 2SF 3SF or 4SF entry The AuxOffset can be a positive or negative value Negative values are entered into the corresponding 1Off 2Off 30ff or 4Off entry as twice their magnitude 1 Positive entries are entered as twice their values Thus if the desired offset is 5 a value of 9 is entered into the instrument Similarly if the desired offset is 8 16 is entered 7 2 Units Fahrenheit Celsius and Gallons Liters Three characters are displayed on this page This first leftmost selects the units for the altimeter setting the next for temperature and the rightmost character applies to the units used by the fuel flow option a To select inches of mercury the US standard for the altimeter setting set the first character to an I for millibars select M b To select fuel flow units applies to flow rate amp quantity of U S Gallons select G for Liters select L for the middle character c To select temperature in units of degrees Fahrenheit set the third rightmost character to F for Celsius select C CAUTION The limits entered for all temperature data are not cha
168. s securely fastened to the aircraft Ensure that all safety wires are in place as required on the propeller gearbox and engine bolts Check that the oil tank and the radiator are filled to proper level overflow bottle should have fluid at minimum mark cold and check that the ignition cables are securely in place on the spark plugs Insure Propeller bolts are secure and inspect prop for damage 4 1 7 Tail Check that the rudder and elevator moves freely between the extreme positions Check that the linkage and connections for the control surfaces are securely fastened Check visually that the tail wheel tire has the correct air pressure and is free of damage Check that the wires from the rudder pedals are connected correctly to the steering plate And that supporting cables are free of defect or wear 4 1 8 Right part of the wing Same as for the inspection of the left wing 4 1 5 above Inspect each side of the wing ensuring that all battens are in place and that all tubing and support cables are undamaged Check that the Dacron wing surface is free of holes or other damage Check that each end of the strut and outside support cables are securely fastened on the fuselage tail and wing respectively Check that the aileron is securely fastened to the wing and that it moves freely between the extreme positions Check that the linkages and connections to the control surface are securely fastened 14 A HiH PN SS LUZA Poise MEE
169. sed on pilot skills 582UL Solo 650ft Gross Weight 1080 950ft 912ULS Solo 600ft Gross Weight 1080 790 825 ft 912ULS Solo 450ft Gross Weight 1080 590 605 ft Take off speed Solo 38 mph Two place 42 mph Speed on clearing a 50ft obstacle Solo 37 mph Two place 44 mph 17 4 5 Best Angle of Climb speed Vx 582UL 37 mph 750 fpm solo 44 mph 350 fpm GROSS WEIGHT 912UL 37 mph 900 fpm solo 44 mph 500 fpm GROSS WEIGHT 912ULS 37 mph 1100 fpm solo 44 mph 750 fpm GROSS WEIGHT 4 6 Best Rate of Climb speed Vy 582UL 42mph 850 fpm solo 47 mph 350 fpm GROSS WEIGHT 912UL 42 mph 7 1000 fpm solo 47 mph 550 fpm GROSS WEIGHT 912ULS 42 mph 1200 fpm solo 47 mph 800 fpm GROSS WEIGHT 4 7 Cruise Dragonfly is inefficient at higher speeds 582UL Cruise at 4600 5000 rpm will give 45 50 mph solo Consumption at cruise is 4 0 US gal per hour Range is approximately 45 50 miles no wind 500 MSL with 30 min reserve 912ULS amp 912UL Cruise at 4100 4300 rpm will give 49 54 mph solo Consumption at cruise is 2 8 US gal per hour Range is approximately 70 80 miles no wind 500 MSL with 30 min reserve 4 8 Approach Normal Approach Speed is 50 55 mph Always land into the prevailing wind when possible At idle the airspeed should always be kept at least at 38 mph At half throttle the airspeed should always be kept at least at 40 mph Conduct a conventional approach to
170. setting entries in the instrument to customize your instrument for your installation The first two steps are quite obvious The entries made to the instrument for your installation tells the instrument such things as how many pulses per revolution of your engine units Fahrenheit or Celsius etc Following these steps operation of the instrument will be verified by applying power to it Finally you will set your engine limits and customize the display pages to your liking During flight you will use the leaning functions to accurately lean your engine During the cruise portion of your flight you will use the tracking functions to continuously monitor your engine for even momentary signs of developing engine problems Now let s get started with the installation by turning to the section Installation which begins on page 54 3 Using the Engine Information System 49 Refer to figure for a description of the various display pages and to figure 2 for an illustration of the use of the EIS from panel keys to control the operation of the instrument 3 1 The Basics of the Engine Information System Operation Power to EIS when starting the engine It is good practice to turn on the EIS before starting the engine and verify a low oil pressure warning is generated This verifies the oil pressure sensor is able to sense zero pressure correctly The instrument may be left on and the engine started at which time the warning light should
171. strumentation needs You will find this system will enhance your flying pleasure while increasing your level of safety 1 Read This First Note for those upgrading the software with a new computer chip After installing the chip it may be initialized to factory default settings by pressing and holding the right button when turning the instrument on After a delay of a few seconds this will set the user defined pages to the factory configuration Advice Before Starting Your Installation Three steps to make your installation easier Step 1 Determine how you would like to arrange your EGT CHT connections The EGT CHT inputs are numbered 1 4 1 6 for the Model 6000 You may simply connect EGT1 amp CHT1 to cylinder number one according to the engine manufacturer s cylinder numbering This is common and works well For four cylinder engines there is also an alternate method You may wish to connect the EGTs and CHTs so they correspond to their position on the digital display pages That is connecting EGT 1 amp CHT 1 to the front left cylinder since it appear on the top left position of display page EGT 2 amp CHT 2 to the front right cylinder since it appears on the top right position of the display page and so on Figure 1 illustrates the position of the data on the display pages Either option works well although personally the latter method is easiest The main point is to make sure you know which cylinder corresponds to each of
172. table describes these items EASY TIP Do Not Do This If you would like to restore the instrument to the factory default setup for the user definable pages starting from a normal display page not a set page turn off the instrument and press and hold the right button and turn the EIS back on This will cause the EIS to restore the factory default settings for these pages 7 15 1 Table of User Definable Page Entries Data to be Displayed Name used to select Number this data on the Of Configuration Set Spaces Page Required Nothing displayed Off 0 This entry is skipped and nothing is printed to the screen Set unused entries to Off EGT1 EG1 4 EGT2 EG2 4 EGT3 EG3 4 EGT4 EG4 4 EGT5 EG5 4 EGT6 EG6 4 CHT1 CH1 3 CHT2 CH2 3 CHT3 CH3 3 CHT4 CH4 3 CHT5 CH5 3 CHT6 CH6 3 AUX5 AX5 3 or 4 User selections allow the data to be displayed as AUX6 AX6 3 or 4 an integer no decimal point which requires 3 spaces or a decimal number which requires 4 digits OLT OT 3 OILP OP 2 VOLT Volt 4 AUXI AXI 3 or 4 User selections allow the data to be displayed as AUX2 AX2 3or4 an integer no decimal point which requires 3 AUX3 AX3 30r4 spaces or a decimal number which requires 4 AUX4 AX4 3 or 4 digits Coolant Temperature H20 3 Not Used N U Not Used N U UNIT Int 3 This is the internal instrument temperature QPH QP Factory Use Only FUEL Flow Flow 4 TACH Tach
173. th positive and firm rudder movements At 30 mph the aircraft will lift off in the ground effect Pull the stick back slightly and keep the aircraft in an even climb at a constant speed of 45 50 mph At an altitude of 300 feet reduce the throttle if needed and keep climbing at 40 45 mph In very calm conditions and after extensive experience with the aircraft the climb can be performed with a single person onboard at 30 35 mph At this speed the aircraft will climb best Important During the climb it is imperative that the aircraft is not pulled into too a steep climb angle the aircraft will still be controllable but it will stop climbing Inexperienced pilots can unwittingly bring the aircraft in such a situation especially when flying over obstacles Performance values The stated values are valid at sea level in nil wind conditions and at temperature of 60 degrees F The takeoff weights in the two cases are 7501b solo and 9501b two place on an even dry short grass runway Higher temperature weight or altitude will require additional runway From a standing start the distance to take off distances performed by factory test pilot results vary based on pilot skills 582UL Solo 225ft Gross Weight 1080 300 345 ft 912UL Solo 215 ft Gross Weight 1080 280 335 ft 912ULS Solo 185 ft Gross Weight 1080 245 300 ft Take off distance to clear 50ft high obstacle distances performed by factory test pilot results vary ba
174. the Configuration Set pages are as follows The order has been altered by grouping everything related to the auxiliary inputs at the beginning with the remainder of the settings in order following the auxiliary section 7 1 Setting up your Auxiliary Inputs Labels and Scaling You may prefer to wire certain auxiliary functions to particular auxiliary inputs so that they show up together on the labeled page Aux 1 2 amp 3 are displayed on one labeled page and Aux 4 5 amp 6 on another Of course this data may also be displayed on a programmable page After determining this wire up the auxiliary input as shown on the sheet included with it Then set the following entries on the configuration set pages 7 1 1 Auxl Aux2 Aux3 Aux4 Aux5 Aux6 These pages allow you to define the labels to be used for auxiliary inputs You may create any label you wish It may be desirable to use a label with the appropriate number of characters to fit in the space you have defined for it on the combination page To change the label press the left and center button together to enter the edit mode The first character will begin flashing Use the left and center buttons individually to select the desired character for this position Use the right button to edit the next character After editing the last character the instrument will leave edit mode Pressing the right button when not in edit mode will take you to the next character Sug
175. the activation handle on the ground 88 7 PERFORMANCE Performance data is based on an aircraft in good condition and correct settings Even the smallest adjustments to the controls or the omission of a small piece of fairing can adversely affect aircraft performance Sufficient reserve should be added to the data given in this handbook to cover all such possibilities Performance data for GROSS WEIGHT 490kg 1080 Ibs Take off roll 582UL Solo 225ft Gross Weight 1080 300 345 ft 912UL Solo 215 ft Gross Weight 1080 280 335 ft 912ULS Solo 185 ft Gross Weight 1080 245 300 ft Take off distance over 50 obstacle 582UL Solo 650ft Gross Weight 1080 950ft 912ULS Solo 600 ft Gross Weight 1080 790 825 ft 912ULS Solo 450 ft Gross Weight 1080 590 605 ft Take off Speed Solo 38 mph Two place 42 mph Best Rate of Climb Speed Vy 582UL 42mph 850 fpm solo 47 mph 350 fpm GROSS WEIGHT 912UL 42 mph 1000 fpm solo 47 mph 550 fpm GROSS WEIGHT 912ULS 42 mph 1200 fpm solo 47 mph 800 fpm GROSS WEIGHT Best Angle of Climb Vx 582UL 37 mph 750 fpm solo 44 mph 350 fpm GROSS WEIGHT 912UL 37 mph 900 fpm solo 44 mph 500 fpm GROSS WEIGHT 912ULS 37 mph 1100fpm solo 44 mph 750 fpm GROSS WEIGHT Maximum level speed VH 582UL Cruise at 4600 5000 rpm will give 45 50 mph solo Consumption at cruise is 4 0 US gal per hour Range is approximately 45 50 miles no w
176. the readings on the instrument so that you will perform maintenance on the correct cylinder when it becomes necessary Step 2 Plan which functions you will wire to each of the 4 auxiliary inputs Recall that manifold pressure fuel pressure fuel level vacuum coolant pressure and any others that do not have a dedicated input to the instrument must be connected through the auxiliary inputs The auxiliary inputs may be used for other functions also but these are the most common uses The only significant consideration concerns the position of the auxiliary input functions on the labeled pages Referring to figure 1b you will note that auxiliary 1 2 amp 3 appear on page 12 and auxiliary 4 appears on the next page You may prefer to see two or three auxiliary functions on the same page for example left and right fuel levels This will require wiring them to the first three auxiliary inputs Step 3 Remember that you have complete control over what will be displayed on the two combination pages and the digital data displayed on the bar graph pages You will find this useful for conveniently displaying the exact data you would like available during your flight now on to the installation 2 An Overview of Installation amp Setup Installation of the EIS includes the physical mounting of the instrument into the airplane s instrument panel making the electrical connections from the pre wired cables to the various sensors and finally
177. the runway with a downwind leg a base leg and a final approach while observing any special landing pattern rules that may be in force at the airfield Always keep a good lookout for other aircraft during the landing Under normal conditions make the final approach with half throttle Always make the final approach high with enough height to make the runway even with loss of the engine 4 9 Normal landing When the aircraft is 3 feet above the ground pull the stick back slowly and bring the aircraft into level flight above the ground while using the throttle to keep the aircraft at constant altitude and a speed of 38 mph Then ease the throttle back while pulling slowly back on the stick and bring the aircraft to the ground gently The correct landing speed is 28 35 mph When the aircraft touches down pull the throttle all the way back and bring the aircraft to a halt by using the brakes When the Dragonfly is on the ground with all 3 wheels the wing has an angle of incidence of 13 degrees This is sufficient angle of attack to lift the aircraft off the ground at flying speed Therefore when you wish to land observe the old proverb You don t land a plane you fly it till it stops flying Hold the plane off the ground till the tail wheel touches first Then reduce throttle The aircraft will come to a halt quickly if landed in this fashion as the wing is at a high angle of incidence and creates maximum drag Experience will allow you
178. the towline allows it to maintain alignment with less effect from wind amp gravity forces There is almost zero plasticity allowing all forces to get to the Safety Links rapidly CAUTION Never use twisted construction lines or rope Always use Braided construction lines as specified in Dragonfly Manuals NOTE Because of the durable size of the line it is important to insure Safety Links are properly installed Refer to FIGURE 2 for proper tying and configuration 98 Weak Links The Single Loop is used to fasten the Towline to the Glider being towed Point E in Figure 1 Solo Glider TUF LINE BRAIDED DACRON 130 LB TEST GREEN SPOT or Tandem Glider TUF LINE BRAIDED DACRON 200 LB TEST GREEN SPOT 200 Ib on Single Loop only which can be purchased on the Internet The Triple Strength Link is used to fasten the Tow Bridle to the Quick Release Point B in Figure 1 We use TUF LINE BRAIDED DACRON 130 LB TEST GREEN SPOT NOTE Automotive GOOP can be applied over knots to help them last longer 2 7 Period of Operations of Release TBO and Inspection Intervals Normally at engine change or rebuild approximately 2000 hours or 6 000 tows a complete and thorough inspection of the release should be performed There is no specific TBO However every Annual or 100 Hour Inspection requires a thorough inspection to insure there are no problems with wear or operation of the Release and all components in the Tow Release and System There ar
179. through Ignition Switches Off The Radios and Instruments should be Switched Off before stopping the engine 5 STANDARD EQUIPMENT This chapter provides brief information about standard equipment installed on the aircraft Warning This is supplemental information for convenience only the binding information is given by the instrument manuals 5 1 Altimeter in the EIS Refer to Appendix A of this Pilot Operating Handbook 5 2 Airspeed Indicator Standard 2 4 or 3 1 8 Airspeed Indicator w markings 5 3 Grand Rapids Technologies Inc EIS 2000 or 4000 refer to Appendix A The EIS s versatile design accommodates a wide range of engines and sensors You may configure the system to meet your monitoring requirements covering both air and water cooled engines Its warning capabilities provide early notification of problems that might otherwise go unnoticed All normal operation of the EIS happens via the display panel The front panel contains buttons and a display 87 Functions 2 to 4 Exhaust Gas Temperatures 2 Cylinder Head Temperatures Tachometer Oil Temperature Oil Pressure 2 to 6 Auxiliary Inputs user configurable Flight Timer Hour Meter Voltmeter Outside Air Temperature Coolant Temperature Manifold Pressure Fuel Flow Features Alarms on most functions most with upper and lower limits Label Data Flip Flop identifies all data on combination pages User Selectable Units Fahrenheit Celsius amp Gallon
180. tions and npe J thermocouple wire must be used for CHT connections when the External d Junction input is not used For Model 4000 versions EGT5 EGT6 CHT5 amp CHT6 are not used fig5bb16 cdr revA Figure 5b Connector B Wiring Appendix A2 EIS 4000 912 914 78 Rotax Tympanium Regulator Rectifiers Also applies to Jabiru Making the tachometer connection is HKS and most others not otherwise listed Only one of the two inputs to the regulator rectifier will give a good tachometer reading dependant on the type of The incorrect lead will give a tachometer reading that decreses with engine rpm The correct lead must be determined by trial and error Key West Regulator Rectifier The gray tachometer lead must be used The lighting coil wires may not be used as a The small Tympanium regulator rectifier identifed by its 2 yellow 1 tachometer soure with this regulator rectifier red and 1 black wires often overcharges batteries If your battery voltage exceeds 15 volts while using this regulator rectifer your connection is to the case and 12V outputis the black wire For Tympanium 3 phase regulator rectifiers the ground One of the yellow wires is not used and should be taped off 12 VDC Instrument Power Regulator Rectifier Ground Rotax 2 Stroke Engines The gray tach lead may be used for tachometer connections The only drawback to this method is that the tach reading might not a
181. to backlight off for night flying Alt Altimeter Adjusts altimeter to account for current barometric Set to airport s elevation or current pressure Note that the barometric setting is displayed directly altimeter setting below the Baro label and altitude below the Alt label Fuel Fuel quantity calculated by the fuel flow function After adding fuel Set to match amount of fuel in the N U 0 to the airplane set this to match the quantity in the airplane airplane Not applicable if the fuel Note Pressing Next and Display buttons together jumps you flow option is not installed directly to this page from a normal display page Pressing the left and center button together while on this page sets the fuel quantity to the Max Fuel entry Max Time Alerts pilot when flight time exceeds this limit Useful as a warning 30 45 minutes less than airplane s Optional Use to check fuel Limit is entered in minutes so 2 hours is entered as endurance 120 etc Interval Provides a warning that repeats at the interval entered in minutes As required Typically 30 60 minutes N U 0 Useful as a reminder to perform periodic tasks such as switching is used for changing fuel tank fuel tanks Acknowledging this alarm cancels the warning selection completely therefore the warning light will not remain on after acknowledging this alarm Max Flow Maximum Fuel Flow Generates a warning when the fuel flow Set about 10 20 abov
182. to chose which Input P mag you use as your tachometer source This allows you to of EIS Engine select the active mag when performing a Mag Drop Test Case Left Mag P Lead 27k or 39k Resistors ale Right Mag P Lead Ground of EIS Figure 7b Other Tachometer p are eng Connections Model 2000 4000 6000 EIS wong End of Appendix Al EIS 2000 Manual in POH 43 Software Version Serial Number Appendix A2 EIS 4000 912 914 only Model 4000 6000 ENGINE INFORMATION SYSTEM User s Manual Grand Rapids Technologies Incorporated 3133 Madison Ave SE Grand Rapids MI 49548 616 245 7700 Fax 616 245 7707 Rev L Applicable to Software Versions 7 5 and above Model Number Options 44 1 Read This First 2 An Overview of Installation amp Setup 3 Using the Engine Information System 3 1 The Basics of the Engine Information System Operation 50 3 2 Before Each Flight 50 4 SET PAGES Setting Engine Limits and other User Entries 4 1 Set Page Table of Limits 52 5 INSTALLATION 5 1 Mounting the Instrument Position and other considerations 54 5 2 Wiring 54 5 2 1 Outside Air Temperature Sensor 55 5 2 2 Water Coolant Oil Temperature Sensor 55 5 2 3 Voltmeter 55 5 2 4 Oil Pressure Sender 55 5 2 5 Magnetic Tachometer Sensor 56 5 2 6 External Alarm Output 56 5 2 7 Auxiliary Inputs 56 5 2 8 Cylinder Head Temperature Probe Installation 56 5 2 9 Exhaust Gas Temperature Probe Installation 56
183. ument Apply power to the system Verify that the LCD display becomes active The instrument will be on display page 0 If this operation is not observed immediately turn off power to the EIS and recheck all wiring especially power ground 4 8V excitation output and 12V fuel flow power output At this point you may wish to completely configure the instrument for your installation Refer the section Configuring the EIS for your Installation 6 2 Tachometer Initial Test Turn on the EIS The tachometer will display 0 when the engine is not operating Refer to the Configuration Set Pages section and set the TachP R according to the type of engine you have Turn off the EIS Start the engine turn on the EIS and verify that the tachometer reading is active and appears reasonable 6 2 1 Testing Tachometer Inputs Two inputs are provided for the tachometer sensing The EIS will use tachometer input 1 when a tachometer signal is sensed If tachometer input 1 is not providing any RPM indication the EIS will use the tachometer input 2 Each input must be tested to make sure it is functioning This test is accomplished by turning off tachometer input 1 such as by turning off the magneto and observing is tachometer input 2 provides an accurate and stable tachometer reading Repeat this by turning off the tachometer input 2 and verifying the tachometer input 1 is accurate and stable If desired a combination page can be programmed to
184. unction caused by flow fluctuations When dual fuel flow sensors are used the FloBias setting must be made as described in the following section before attempting to collect data for fine tuning of the FloCal setting 7 5 FloCalR Return Fuel Flow Calibration This entry adjusts the scaling of the return fuel flow sensor It is not used unless your fuel system requires monitoring the outgoing and return fuel using two fuel flow sensors If only one flow sensor is used this setting is ignored and will not affect the fuel flow calculation To adjust this setting for dual fuel flow installations use the following procedure 1 Set FloCalR to zero 61 2 Turn on the electric fuel pump with the engine not running and verify a non zero fuel flow reading is displayed Increase the value of the FloCalR in steps As this setting is increased the displayed fuel flow should drop Continue to increase this setting until the displayed fuel flow just becomes zero Use the lowest setting that results in a zero fuel flow display A typical setting for this entry is 128 but could vary by 30 7 6 TachP R Setting for Correct Tachometer Readings The EIS employs a sophisticated method of measuring engine RPM to provide 10 RPM resolution independent of the number of pulses per revolution of the engine To provide this flexibility the TachP R is set to a code corresponding to the number of pulses the instrument detects per revolution of the en
185. ures that can not be detected by the self test It is good practice to review the various display pages periodically as necessary to verify that the instrument and its sensors are operating normally 4 SET PAGES Setting Engine Limits and other User Entries The Set pages are used to enter engine limits and other selections into the EIS These pages are accessed by simultaneously pressing the two keys marked SET LIMITS as illustrated in figure 2 The use of the engine limits and the other features controlled on these pages are described below All entries on these pages are retained when the instrument is turned off No electrical connection to the instrument or battery is required to maintain these settings Since all limits can be entered easily by the pilot at any time it is practical to set engine limits lower than those indicated by the engine manufacturer but slightly higher than encountered in normal operation In this way a change in normal engine operation may be detected earlier Minimum and maximum limits are included for most functions even when some of the limits may have no everyday practical use This allows additional flexibility to assist with engine troubleshooting especially to help alert you to intermittent problems that would otherwise be hard to detect All limits must be set in the same units selected on the UNITS page If you change the units from Fahrenheit to Celsius for example the limits will not
186. urn should be made with the coordinated use of the aileron and rudder Steep turns in excess of 60degrees are not recommended At lower speeds in tight turns the airplane loses altitude quickly Banked turns with more than 30degrees of banking should not be carried out less than 35 mph If the airplane enters an inadvertent spin position the control stick in neutral position for recovery then push the rudder opposite the spin direction After the spin rotation stops center rudder and recover to level flight carefully to not exceed Vne 66 mph or the load limits of the aircraft 4 6 Stalls The DRAGONELY is very docile in stalls The loss in altitude during stalls is approx 65ft with a maximum pitch down of 25degrees The aircraft is resistant to stalling in cruise configuration During stalls coordination of controls can affect roll tendency and is easily countered by use of the rudder The stall speed at 490 kg 1080 lbs gross weight is approxemately 38 mph Minimum Controllable Airspeed MCA The stall is noted through light buffeting At 2 kts 3 mph above the stall speed the rudder becomes soft When flying close to stall speed only the rudder and elevator are fully controllable The ailerons have less effectiveness in very slow flight The airplane loses about 65 ft in altitude during a stall Close to the ground do not fly slower than a minimum speed of about 43 mph In the case of a stall spin entered through crossed controls oppose
187. wiring so that a short in the wiring external to the instrument does not cause an electrical fire Typically a fuse up to 5 amps may be used for this purpose depending on the wire gauge and lengths This fuse may be shared with other items such as radios and such 2 For proper operation of the instrument the ground black wire from the instrument must be connected to the case of the engine Since most engines are grounded to allow operation of the electric starter only the connection from the instrument to the negative terminal of the battery must be considered Ideally the ground wire for the instrument should not be shared with other electrical devices If other devices share the ground wire used by the instrument use a digital voltmeter to verify the voltage difference between the case of the EIS and the negative terminal of the battery is less than 20 mV with all electrical devices which share this ground wire turned on 3 Do not use the same ground lead for the instrument and the ignition kill switch es Be sure these separate ground leads do not connect to the engine in such a way that they could become disconnected from the engine but remain connected together 4 The remainder of the signals are now connected Accuracy of these sensors is not affected by the length of the leads Refer to figure 5a amp 5b for an illustration of these connections 5 2 1 Outside Air Temperature Sensor The sensor for this unit is mounted using t
188. with an arrow indicating climb or descent an Combination screens provide convienent groupings of key engine parameters Tach and altitude in this column GPS Page This page is available when it is turned on via the GPS_Page selectioin on the configuration set pages The top row shows tach steering to the home position and distance from home The bottom row shows altitude bearing to home and groundspeed Flight timer shown with 1 second resol power up and until 3 minutes flight shows the last flight into the next length of the Press and hold the Display button to see labels in place of numeric data These press to see labels make it easy to identify the data on the combination pages 3840 152 80 435 5280 12 1020 Cylinder Head Temperature for each cylinder in this row The center number is CHT 1 the right is CHT 2 3840 152 420 43 5280 1014 102 Exhaust Gas Temperature for each cylinder in this row The top number is EGT 1 the bottom is EGT 2 3840 14R 14 21 See figure 2 for more 5280 90 27 information about this page fe ES Ea Page 5 C 4 22 57 191 1 Engine Mour Meter Show Timer Hrs accumulated hours on engine Double click this key to jump to your favorite page ution At The center key sequences the Pressing this k y again brings display
189. xcessive speed 7 Applying Aileron control in the direction of the spin during spin entry Flat Spin Entry Initiate with Normal Spin Entry 1 From Cruise reduce power to idle 2 Maintain altitude to Vs then at Vs apply full rudder 3 Check for pivotal rotation and establish reference ground sky sun then count rotations 4 Immediately after one quarter rotation apply aileron opposite to rotation rudder while still holding full rudder and full up elevator using full back stick 5 At this point a bank change opposite of spin rotation occurs until spin rate increases 6 Next rotation rate increases and descent rate decreases while the nose raises to a flat level attitude 7 Rotation rate is easily controlled at this time using aileron deflection and will remain flat in a range from approximately Y one half stick aileron deflection to full deflection With full deflection resulting in a rate that can be uncomfortable Flat Spin Recovery 1 As with most aircraft initiate by releasing back pressure on the stick 2 Neutralize ailerons to center the stick using light pressure less than 2 pounds 3 Neutralize rudder using moderate pressure 4 As rotation rate slows the nose will lower itself until rotation stops and normal airspeed is regained and can return to level flight Note At 1080 Ibs Gross Weight and maximum aft CG 80 78 Dragonfly Flat Spin Recovery by itself with zero control pressures i e let go

SLSA Dragonfly 912/582 POH & FTS rev.1 Pilot

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SLSA Dragonfly 912/582 POH &amp; FTS rev.1 Pilot

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SLSA Dragonfly 912/582 POH & FTS rev.1 Pilot