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Steve Blonstein, CFI West Valley Flying Club

Steve Blonstein, CFI West Valley Flying Club. Agenda. Current Systems Thought Provoking Questions Terminology Systems Overview Primary Flight Display Multifunction Display GNS430 STEC55x Autopilot Discussion. CURRENT SYSTEMS. Diamond DA40 – Garmin G1000. CURRENT SYSTEMS.

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Steve Blonstein, CFI West Valley Flying Club

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  1. Steve Blonstein, CFIWest Valley Flying Club The All-Glass Cockpit

  2. Agenda • Current Systems • Thought Provoking Questions • Terminology • Systems Overview • Primary Flight Display • Multifunction Display • GNS430 • STEC55x Autopilot • Discussion The All-Glass Cockpit

  3. CURRENT SYSTEMS Diamond DA40 – Garmin G1000 The All-Glass Cockpit

  4. CURRENT SYSTEMS Diamond DA40 – Avidyne The All-Glass Cockpit

  5. CURRENT SYSTEMS Eclipse Personal Jet – Avio The All-Glass Cockpit

  6. CURRENT SYSTEMS Chelton Flight Systems - HITS The All-Glass Cockpit

  7. CURRENT SYSTEMS Cirrus SRV/SR20/SR22 - Avidyne The All-Glass Cockpit

  8. 5 Thought Provoking Questions • Is an all-glass panel safer than a conventional panel ? • As a community, are we prepared for such rapid innovation ? • How much training is required to be competent and safe ? • What happens in the event the panels go dark? • How should one manage database currency ? We’ll come back to discuss these important questions later on The All-Glass Cockpit

  9. Terminology • TAA – Technically Advanced Aircraft (e.g. All Glass Cockpit, GPS, A/P) • PFD – Primary Flight Display (1 display with AS, Altimeter, VSI, HSI, TC) • MFD – Multi-Function Display (1 display with maps, engine, wx, traffic) • HITS – Highway In The Sky (like Chelton Flight Systems) • FITS – FAA Industry Training Standards (e.g. TAA with PFD/MFD/HITS) • ADAHRS or ADAHARS – Air Data Altitude Heading and Reference System • GPS – Global Positioning System • GPSS – GPS Steering The All-Glass Cockpit

  10. System Structure ADAHRS Air Data MFD Heading Attitude GPS 1 PFD Crossfill GPS 2 GPSS relay S-TEC 55X T/C The All-Glass Cockpit

  11. Electrical Components • Alternator 1 • 75 amp, 28 volts • Belt driven • Internally rectified • Alternator 2 • 20 amp, 28.75 volts • Gear driven • Internally rectified The All-Glass Cockpit

  12. Electrical Components • Battery 1 • 24 volt, 10 amp-hour • Lead Acid • Battery 2 • 2, 12 volt, 7 amp-hour connected in series • Lead Acid • Sealed in an acid resistant container • Located at FS 222 below parachute canister The All-Glass Cockpit

  13. Avidyne PFD • The Avidyne PFD incorporates the functionality of: • Airspeed Indicator • Attitude Indicator • Altimeter • VSI • HSI (HI & VOR/LOC) The All-Glass Cockpit

  14. Avidyne – PFD(2) • The display is integrated with an Air Data / Attitude Heading Reference System (ADAHRS) • Three axis solid state gyro system • Provides: • Pitch • Roll • Heading The All-Glass Cockpit

  15. Avidyne – PFD(3) • Turn Coordinator • Scale show extending from either side of digital heading representation • Graduations for half and full standard rate turn • Blue bar extends into scale as turn is entered The All-Glass Cockpit

  16. Avidyne – PFD(4) • Inclinometer • Represented as black trapezoid below angle of bank indicator The All-Glass Cockpit

  17. PFD - Initialization • Requires approximately 3 minutes to align • Countdown begins when unit is 40 seconds from completing the initialization process • Air data will become valid prior to attitude information • Red X’s indicate invalid data • Brightness Default: 75% The All-Glass Cockpit

  18. PFD - Initialization • Default configuration: • HDG Bug: 360° • Altitude Bug: Nearest hundred feet • VSI Bug: 0 • Baro Set: 29.92 in. Hg • Nav: GPS 1 • Bearing: Off • Aux: Off • View: 360° The All-Glass Cockpit

  19. PFD – Failures (1) • Air Data Failure • Refer to standby instrumentation The All-Glass Cockpit

  20. PFD – Failures (2) • Recoverable Attitude Data Failure • Occurs when: • Attitude change exceeds 90° per second • Small power fluctuation • Gyros are reset by pressing “Fast Erect” line select key The All-Glass Cockpit

  21. PFD - Failures (3) • Non-recoverable Failure • Cannot be corrected in flight • Must refer to standby instruments The All-Glass Cockpit

  22. PFD – Failures (4) • Lamp or LCD failure • Keys are lit no display • Take system off line by use of CB, this will ensure that you have predictable autopilot operations. The All-Glass Cockpit

  23. PFD - Limitations • Avidyne PFD Pilot Guide must be immediately available in flight • PFD must be aligned with no flags for takeoff • All standby instruments must be working for takeoff • PFD may be inoperative for VFR operations The All-Glass Cockpit

  24. Avidyne MFD • The Avidyne MFD supports: • Map/Terrain/Nearest • Engine Management • Fuel Management • Lean Assist • Traffic • Stormscope The All-Glass Cockpit

  25. MFD - Nearest Page • Separate Avidyne database to support this The All-Glass Cockpit

  26. MFD – Engine Management • All important engine, fuel, and electrical information on a single page • Use in run-up • Use on takeoff The All-Glass Cockpit

  27. MFD – Lean Assist • Do not lean in climb • Lean at altitude using the lean assist function • After reaching Best Power try using “Normalize” The All-Glass Cockpit

  28. MFD - Limitations • The moving map display must not be used as the primary navigation instrument. • Use of map page during IFR flight requires an IFR approved GPS receiver installation operated in accordance with applicable limitations. • Under no circumstances should the Map page terrain representations be used as a basis for terrain avoidance. • The electronic checklists are supplements to the POH checklists and is advisory only. These must not be used as the primary set of onboard airplane checklists. • The Avidyne FlightMax EX-Series Pilot’s Guide must be available to the pilot during flight operations. The All-Glass Cockpit

  29. GPS – GNS430 • Acts as a communications and navigation management system • Integrates radio transceiver, navigation receiver, and GPS navigation capability into a single unit • WAAS upgrade ? The All-Glass Cockpit

  30. GNS430 - Chapter & Page Selection The All-Glass Cockpit

  31. Autopilot – STEC 55x • Rate autopilot • Two axis control system • Roll axis controlled by aileron trim motor and spring cartridge • Pitch axis controlled by pitch trim motor • Powered by Essential Bus The All-Glass Cockpit

  32. STEC 55x - System The All-Glass Cockpit

  33. Approach Procedures • ILS Approach • Ensure a reliable Localizer signal exists • Select the desired course using the CDI • Select APR mode on the autopilot mode controller • Verify illumination of NAV and APR annunciators • Glide-slope Coupling • APR and ALT modes must be selected • Aircraft must be within ½ scale deflection of localizer • Aircraft must be 60% or more below the glide-slope * • Condition must exist for 10 seconds for GS mode to arm • Arm indicated by illumination of ALT and GS annunciators • ALT annunciator extinguishes at glide-slope intercept • GS mode may be manually engaged by pressing ALT once when in ALT mode and a glideslope signal exists * On or below glide-slope in later revisions of software. The All-Glass Cockpit

  34. Thought Provoking Questions • Is an all-glass panel safer than a conventional panel ? • As a community, are we prepared for such rapid innovation ? • How much training is required to be competent and safe ? • What happens in the event the panels go dark? • How should one manage database currency ? The All-Glass Cockpit

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