Garmin G1000
The Garmin G1000 is an integrated flight instrument system manufactured by Garmin typically composed of two display units, one serving as a primary flight display, and one as a multi-function display. It serves as a replacement for most conventional flight instruments and avionics.
Components
An aircraft with a basic Garmin G1000 installation contains two LCD displays (one acting as the primary flight display and the other as the multi-function display) as well as an integrated communications panel that fits between the two.
Beyond that, additional features are found on newer and larger G1000 installations, such as in business jets. This includes:
- A third display unit, to act as a co-pilot PFD
- An alphanumeric keyboard
- An integrated flight director/autopilot (without it, the G1000 interfaces with an external autopilot)
Depending on the airplane manufacturer and whether or not a GFC 700 autopilot is installed, the G1000 system will be comprised of either 2 GDU 1040 displays (no autopilot), a GDU 1040 PFD/GDU 1043 MFD (GFC 700 autopilot installed), or a GDU 1045 PFD/GDU 1045 MFD (GFC 700 autopilot installed with VNAV).
The GDU 1040 is the standard base bezel with no autopilot/flight director mode selection keys below the heading bug. The GDU 1043 has autopilot/flight director keys for all GFC 700 modes except VNAV. The GDU 1045 is essentially identical to the GDU 1043 except for the addition of an autopilot/flight director mode for VNAV. Depending on how the units are installed, an MFD failure may, or may not, have an impact on autopilot or flight director use. If a GDU 1040 is used as a PFD in an airplane equipped with a GFC 700 autopilot, a failure of the MFD (which houses the autopilot mode selection keys) will leave the autopilot engaged, but the modes cannot be changed because no autopilot keys are present on the PFD. But, if an MFD failure occurs in an airplane with the GFC 700 autopilot and either a GDU 1043 or a GDU 1045 bezel installed as a PFD, the pilot will have full use of the autopilot through the keys on the PFD.
Both the PFD and MFD each have two slots for SD memory cards. The top slot is used to update the Jeppesen aviation database every 28 days. The aviation database must be current to use GPS for navigation during IFR instrument approaches. The bottom slot houses the World terrain and Jeppesen obstacle databases. While terrain information rarely changes or needs to be updated, obstacle databases can be updated every 56 days through a subscription service. The top card can be removed from the G1000 system following an update, but the bottom card must stay in both the PFD and MFD to ensure accurate terrain awareness and TAWS-B information.
Primary flight display (PFD)
The primary flight display shows the basic flight instruments, such as the airspeed indicator, the altimeter, the heading indicator, and course deflection indicator. A small map called the "inset map" can be enabled in the corner. The buttons on the PFD are used to set the squawk code on the transponder. The PFD can also be used for entering and activating flight plans.
Multi-function display (MFD)
The multi-function display typically shows a moving map on the right side, and engine instrumentation on the left. Most of the other screens in the G1000 system are accessed by turning the knob on the lower right corner of the unit. Screens available from the MFD other than the map include the setup menus, information about nearest airports and NAVAIDs, Mode S traffic reports, terrain awareness, XM radio, flight plan programming, and GPS RAIM prediction.
Implementation
The G1000 system consists of several integrated components which sample and exchange data or display information to the pilot.
GDU 1040 Display
The GDU 1040 Display acts as the primary source of flight information for the pilot. Each display can interchangeably serve as a primary flight display (PFD) or multi-function display (MFD). The wiring harness within the aircraft specifies which role each display is in by default. All of the displays within an aircraft are interconnected using a high-speed Ethernet data bus.
In normal operation, the display in front of the pilot is the PFD and will provide aircraft attitude, airspeed, altitude, vertical speed, heading, rate-of-turn, slip-and-skid, navigation, transponder, inset map view (containing map, traffic, and terrain information), and systems annunciation data. The second display, typically positioned to the right of the PFD, operates in MFD mode and provides engine instrumentation and a moving map display. The moving map can be replaced or overlaid by various other types of data, such as satellite weather, checklists, system information, waypoint information, weather sensor data, and traffic awareness information.
Both displays provide redundant information regarding communications and navigation radio frequency settings even though each display is only paired with one GIA 63 Integrated Avionics Unit. In the event of a single display failure, the remaining display will adopt a combined "reversionary mode" and automatically become a PFD combined with engine instrumentation data. A red button labeled "reversionary mode" or "display backup," located on the instrument panel, is also available to the pilot to select this mode manually if desired.
The GDU 1043, a variant of the GDU 1040, has extra keys on the face for control of Garmin's GFC 700 autopilot.
GMA 1347 Audio Panel
The GMA 1347 panel provides buttons for selecting what audio sources are heard by each member of the cockpit. It also includes a button for forcing the integrated cockpit into a fail-safe mode.
GIA 63 Integrated Avionics Unit
The GIA 63 unit is a combined communications and navigation radio. It provides a two-way VHF communications transceiver, a VHF navigation receiver with glideslope, a GPS receiver, and a variety of supporting processors. Each unit is paired with a GDU 1040 display, which acts as a controlling unit. The GIA 63W, found on many newer G1000 installations, is an updated version of the GIA 63 which includes Wide Area Augmentation System support.
GDC 74 Air Data Computer
The GDC 74 computer replaces the internal components of the pitot-static system in traditional aircraft instrumentation. It measures airspeed, altitude, vertical speed, and outside air temperature. This data is then provided to all the displays and integrated avionics units.
GRS 77 Attitude and Heading Reference System (AHRS)
The GRS 77 system measures aircraft attitude, rate of turn, and slip and skid indications. This data is then provided to all the integrated avionics units. Unlike many competing systems, the AHRS can be rebooted and recalibrated in flight during turns of up to 20 degrees.
GMU 44 Magnetometer
The GMU 44 Magnetometer measures aircraft heading and is a digital version of a traditional compass.
GTX 32/33 Transponder
Either the GTX 32 or GTX 33 transponder can be used in the G1000 system although the GTX 33 is far more common. The GTX 32 provides standard mode-C replies to ATC interrogations while the GTX 33 provides mode-S bidirectional communications with ATC and therefore can indicate traffic in the area as well as announce itself spontaneously via "squitting" without prior interrogation.
GEA 71 Engine/Airframe Unit
The GEA 71 unit measures engine RPM, manifold pressure, oil temperature, cylinder head temperature, exhaust gas temperature, and fuel level in each tank. This data is then provided to the integrated avionics units.
GSD 41
The GSD 41 is a data aggregator system included on complex G1000 systems, such as that found on the Embraer Phenom 100.
Backup systems
As a condition of certification, all aircraft utilizing the G1000 integrated cockpit must have a redundant airspeed indicator, altimeter, artificial horizon, and magnetic compass. In the event of a failure of the G1000 instrumentation, these backup instruments become primary.
In addition, a secondary power source is required to power the G1000 instrumentation for a limited time in the event of a failure of the aircraft's alternator and primary battery.
Certification
The Garmin G1000 is generally certified only on new general aviation aircraft, including Beechcraft, Cessna, Diamond, Mooney and Tiger. Garmin recently announced its first G1000 retrofit program for the Beechcraft King Air C90 beginning in Spring 2007. The Garmin G1000 became a jet platform in 2007, as the avionics system for the Cessna Citation Mustang Very Light Jet.[1]
Competition
The G1000 competes with the Avidyne Entegra and Chelton FlightLogic EFIS glass cockpits.
However, there are significant differences with regard to the features, degree of integration, intuitive aspects of the design, and overall product utility. For instance, “The Avidyne system does not include a GPS or any other method of navigation. The Avidyne units rely on data feeds from external GPS and Nav radio receivers. The Avidyne system does not include an autopilot, though the PFD can function as the altitude preselect panel of an autopilot system, at the cost in the Cirrus SR20 and SR22 of losing the altitude deviation alert function. The Avidyne system does not include any communication radios.” [source: http://philip.greenspun.com/flying/avidyne-versus-garmin].
Note that the Chelton system is not typically found in airplanes that include the less expensive G1000 or Avidyne systems.
Advantages and drawbacks
As the system has the GPS, communication, and radio navigation components built directly into the system, it both consolidates components into a centralized location and, for the same reason, becomes potentially more costly to repair or replace. The system has the potential to reduce downtime as key components, such as the AHRS, ADC and PFD, are modular and easily replaced. The system's design also prevents the failure of a single component from "cascading" through other components.
There are some safety concerns with all glass cockpits, such as the failure of the primary flight displays (PFD). These concerns, however, are no more (and perhaps are less) significant than similar considerations with aircraft equipped with traditional instrumentation. The Garmin G1000 system offers a reversionary mode that will present all of the primary flight instrumentation on the remaining display. In addition, there are multiple GPS units, and electronic redundancy incorporated extensively throughout the design of the system. This built-in redundancy greatly improves safety over that of traditional instruments or single PFD systems.
There is a learning curve when transitioning to any technologically advanced cockpit and new users should focus on the differences in reading tape-style airspeed, altitude and vertical speed information.
Another important risk factor is the potential to spend too much time looking inside the cockpit managing the instrumentation, possibly increasing the chance of a collision with other aircraft, obstacles, or terrain. A CFI (CFII) who is experienced with glass cockpits should help those transitioning to learn to balance the new workload. Once mastered, the richness of additional information available to the pilot makes a glass cockpit equipped aircraft arguably safer to fly.
Training resources
Flying any glass cockpit aircraft requires transition training to familiarize the pilot with the aircraft's systems. Transition training is most effective when a pilot prepares ahead of time. Most general aviation manufacturers using the G1000 system have FAA Industry Training Standards (FITS) training programs for pilots transitioning into their airplanes. FAA FITS compliant training is recommended for any pilot transitioning to the G1000 or any other glass cockpit prior to operating the aircraft in instrument meteorological conditions (IMC).
One of the most effective resources for preparing for G1000 transition training include the Garmin simulator software [2]. In addition, some flight schools now have G1000 flight training devices (FTDs) that provide realistic simulation.
The 3rd edition of Max Trescott's "G1000 Glass Cockpit Handbook with WAAS: Everything you need to know to operate the Garmin G1000 in glass cockpit aircraft" provides an excellent, step-by-step, scenario-based, guide to operating the G1000. [ISBN: 978-9777030-5-0; Glass Cockpit Publishing; 2008; http://g1000book.com/]. This edition covers all of the latest G1000 features, including WAAS, the GFC 700 autopilot's new VNV key for vertical navigation, and G1000 software features found only in the Cessna Mustang VLJ. Glass Cockpit Publishing also offers "Max Trescott's Garmin G1000 CD-ROM Course" training program and two online G1000 training courses; VFR G1000 Transition Training [3] and IFR G1000 Transition Training [4].
In addition to these resources, all of the most current Garmin G1000 Pilot's Guides are available in PDF format for free downloading from Garmin.