The Garmin aviation team announced a long-term agreement to provide the state-of-the-art G3000® integrated flight deck to Joby Aviation for their revolutionary all-electric vertical takeoff and landing (eVTOL) aircraft, which is expected to commence commercial operations in 2024. Our decades of experience deploying certified avionics solutions to new markets continues with the touchscreen G3000 integrated flight deck for eVTOL aircraft in the Urban Air Mobility (UAM) market. The G3000 integrated flight deck has amassed extensive field service history, and with this derivation of the system into the eVTOL segment, it leverages that proven experience while offering advanced integration functionality in a compact design with unparalleled capabilities.
“Garmin has a remarkable track record of developing innovative and reliable products,” said Joby Aviation founder and CEO JoeBen Bevirt. “They are market leaders in this space and we’re proud to have their advanced technology onboard.”
“We are excited and proud of this strategic relationship with Joby Aviation to provide the advanced Garmin G3000 integrated flight deck for their revolutionary eVTOL aircraft,” said Phil Straub, Garmin executive vice president and managing director, aviation. “To be selected and trusted by Joby, an industry leader in this new market, is truly an honor. Garmin looks forward to continuing our extensive history of proven success in introducing innovative avionics technologies aligned with our vision for urban air mobility and the broader aviation industry. We are confident the G3000 will ultimately help Joby provide advanced, efficient, and scalable air taxi services for years to come.”
The modular G3000 integrated flight deck boasts light weight and vibrant high-resolution flight displays that support navigation, communication and flight sensor solutions and integrates seamlessly with Joby’s aircraft systems. Specifically tailored to meet the needs of eVTOL aircraft, the G3000 system that will be featured in Joby’s eVTOL aircraft delivers enhanced capabilities to optimize their air mobility service through tight integration with the vehicle mission computer and tailoring of flight guidance display indications. Further, the G3000 will be architected to provide the ability to efficiently facilitate future system upgrades as the Advanced Aerial Mobility (AAM) industry continues to evolve.
Joby Aviation is a California headquartered company developing an all-electric vertical takeoff and landing aircraft. After more than a decade of engineering and development, Joby intends to operate the aircraft as a fast, quiet and affordable air mobility service as early as 2024. The piloted, zero-emissions aircraft, will be capable of transporting four passengers up to 150 miles on a single charge, with a top cruising speed of 200 mph. It is designed to help reduce urban congestion and accelerate the shift to sustainable modes of transit. Designed for daily life, the aircraft lands vertically and provides flexibility and versatility to serve nearly any community.
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Our popular GI 275 electronic flight instrument has received European Union Aviation Safety Agency (EASA) approval, allowing installation in over 1,000 single-engine and multi-engine aircraft models. Several variants of the GI 275 are now available to meet the needs of business and general aviation aircraft. A powerful electronic flight instrument, the GI 275 is suitable as a direct replacement for a variety of legacy primary flight instruments in the cockpit such as the attitude indicator, attitude-direction indicator (ADI), course deviation indicator (CDI), horizontal situation indicator (HSI), multi-function display (MFD), and engine indication system (EIS). In addition, the GI 275 can also be installed as a standby attitude indicator when paired with large format electronic flight displays.
“Garmin worked closely with EASA to bring the popular GI 275 to thousands more cockpits with aging flight instruments,” said Carl Wolf, vice president of aviation sales and marketing. “With this approval, the modern GI 275 electronic flight instrument gives pilots the opportunity to take an economical and scalable approach to their avionics upgrade while realizing tremendous potential with the extraordinary capability of the versatile touchscreen GI 275.”
Lightweight and compact, the GI 275 is a reliable flight instrument intentionally designed to take advantage of the common 3.125-inch flight instrument size, reducing installation time and preserving the existing aircraft panel. Its bright, high-resolution touchscreen display and wide viewing angle offers superior readability in the cockpit. A dual concentric knob allows pilots to access a variety of key functions within the flight instrument, such as adjustments to the baro setting or the airspeed bug. Highly scalable, aircraft owners can start with a single GI 275 and add up to a total of six in a single panel, paving the way for incremental upgrades and an array of individualized panel configurations.
Primary and standby attitude indicator
When installed as a primary attitude indicator, the GI 275 offers improved reliability, potential weight savings and reduced maintenance compared to less reliable, vacuum-driven attitude indicators. When the GI 275 serves as primary for attitude information, pilots can also view altitude, airspeed and heading1 on the instrument. Optional Synthetic Vision Technology overlays a rich, 3D topographic view of terrain, traffic, obstacles, airport signposts and more, all within the GI 275 attitude display2.Additional features include the display of outside air temperature, groundspeed, as well as true airspeed and wind information on the attitude indicator.
The GI 275 flight instrument is also approved for installation as a dedicated standby flight instrument to Garmin glass flight displays and is capable of serving as a back-up to a variety of third-party flight displays on the market. When installed as a standby flight instrument to the G500 TXi, the GI 275 is capable of displaying additional multifunction display features. In installations where the GI 275 is installed as a primary or standby flight instrument, a 60-minute back-up battery is included.
Course Deviation Indicator (CDI) & Horizontal Situation Indicator (HSI)
When installed as a CDI or HSI, the GI 275 is designed to accept a variety of GPS and navigation inputs, allowing up to two GPS sources and two VHF navigation sources. The GI 275 features an Omni Bearing Resolver that allows the flight instrument to interface to a variety of legacy navigators on the market without the need for an expensive adapter. With an optional magnetometer, it is also capable of providing magnetic-based HSI guidance. Selecting the CDI source is simple and can be accomplished through the touchscreen interface, while course and heading selection is completed using either the touchscreen or dual concentric knob. When aircraft owners replace an older mechanical CDI or HSI, the GI 275 doubles as a modern digital indicator and adds MFD-like capabilities such as a moving map, weather, traffic and terrain.
Autopilot compatibility with the GI 275
A single GI 2753 electronic flight instrument can be used as the attitude source to drive the GFC 500 autopilot, while also displaying mode annunciations and flight director indications. For added redundancy in aircraft equipped with a dual GI 275 installation, the secondary GI 2753 is capable of coupling to the GFC 500 autopilot, as well. In the unlikely event of a primary GI 275 failure, the autopilot remains fully functional when paired with the secondary GI 275. Additional redundancy is extended to include the G500 TXi & G600 TXi flight displays, which also allow the GI 275 to couple to the GFC 500 autopilot if needed when serving as a standby instrument. Unique to the GI 275 and TXi, pilots will receive a mis-compare annunciation if the AHRS sources between the two do not align. GI 275 is also compatible with the GFC 600 digital autopilot, as well as a variety of third-party autopilots and does not require a separate interface adapter, further reducing overall cost and installation labor. The GI 275 can replace the primary attitude indicator installed with these autopilots.
Additional capabilities
Depending on the configuration and installation, the GI 275 is capable of displaying additional page functions and features beyond a traditional flight instrument. These features can include:
Built-in Wi-Fi enables Garmin’s Database Concierge, the wireless transfer of aviation databases to the GI 275. Pilots also have the option of transferring databases to the GI 275 using a USB flash drive and the GSB 15 USB charger. Databases can also be synced among multiple GI 275 flight instruments in a single cockpit. When configured to display engine information, the GI 275 can wirelessly send engine data to display within the Garmin Pilot app on Apple mobile devices. This data is also automatically synced and can also be viewed and stored on the flyGarmin website. Wireless flight plan transfer via Bluetooth is available when the GI 275 is paired with a GPS 175, GNC 355 or GNX 375. Additional wireless functions include the sharing of GPS position and back-up attitude information with Garmin Pilot.
The GI 275 is available immediately and approved for installation in over 1,000 single-engine and multi-engine aircraft models. Select Class IV aircraft also are approved; visit www.garmin.com/GI275 for additional information. For full installation details, and to purchase the GI 275, contact a Garmin Authorized Dealer. A trial period of SVT also comes with the purchase of a GI 275 when it’s configured as an attitude indicator. The GI 275 also comes with a two-year warranty and is supported by our award-winning aviation support team, which provides 24/7 worldwide technical and warranty support. For the 17th consecutive year, both Aviation International News and Professional Pilot magazine, two predominant aviation publications, awarded the Garmin aviation support team top honors for avionics product support. For additional information, visit www.garmin.com/aviation.
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Our GFC 600 digital autopilot has received FAA STC approval in select Beechcraft King Air C90 aircraft and E90 aircraft1. GFC 600 is optimized for turbine aircraft, delivering superior in-flight characteristics and new operational capabilities such as Vertical Navigation (VNAV), automatic Course Deviation Indicator (CDI) switching when paired with a GTN Series navigator, enhanced go-around capability and much more.
The GFC 600 certification for the Beechcraft King Air C90 and E90 provides owners and operators an autopilot upgrade that boasts superior integration potential with G600 and G600 TXi flight displays, the GI 275 electronic flight instrument, as well as the GTN and GTN Xi Series of navigators. The self-contained autopilot controller incorporates backlit keys and a bright, sunlight readable display that depicts autopilot status and mode selection. An intuitive built-in control wheel also provides convenient adjustment of aircraft pitch, airspeed and vertical speed modes. When the level button is selected, the aircraft automatically returns to straight-and-level flight.
Environmentally hardened autopilot servos designed for harsh operating conditions contain brushless DC motors offering improved performance and reducing maintenance requirements when compared to decades-old servo designs on the market today. In addition, these servos are optimized for turbine aircraft by offering more torque to help better command and respond to control demands required of turbine aircraft.
Standard mark-width design of the GFC 600 mode controller ensures the autopilot controller allows for routine installation into the aircraft’s avionics stack. Autopilot mode annunciation is available on the G600 TXi touchscreen glass flight display, as well as the G600 flight display. The addition of an optional autopilot annunciator panel also displays the selected autopilot mode in the pilot’s primary field of view and retains an identical footprint of third-party autopilot annunciators on the market.
In addition to traditional autopilot capabilities such as altitude hold, vertical speed and heading modes, the GFC 600 also includes:
As a standard feature, pilots receive Garmin ESP with the GFC 600 autopilot, which works to assist the pilot in maintaining the aircraft in a stable flight condition. ESP functions independently of the autopilot and works in the background to help pilots avoid inadvertent flight attitudes or bank angles and provide airspeed protection while the pilot is hand-flying the aircraft.
The GFC 600 digital autopilot for the Beechcraft King Air C90/E90 is available immediately through select Garmin authorized dealers. To view the most up-to-date aircraft STC list, to view certifications that are expected to begin in the next 12-months, or to express interest in a specific aircraft make/model for the GFC 600, visit www.garmin.com/GFC600. For additional information, visit: www.garmin.com/aviation.
1. STC approved for Beechcraft King Air C90, C90-1, C90A, C90B, C90SE, C90GT, C90GTi, E90, and does not include those aircraft equipped with Garmin G1000/G1000 NXi, or Collins Pro Line integrated flight decks.
2. Available on GFC 600 or Garmin flight displays.
3. GFC 600 requires an external navigator for navigation and approach functions. See website for additional compatibility information.
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Airbus Helicopters, Inc. honored the Garmin aviation team with a 2020 On-Time Delivery Award from Airbus Helicopters, Inc. for its efficient performance related to product delivery. Garmin avionics are available as standard on select Airbus Helicopters, including the H125, H130, H135 and H145.
Each year, Airbus Helicopters, Inc. recognizes suppliers who stand out in performance, competitiveness and reliability. This is the second year in a row Garmin has won the On-Time Delivery Award for commitment and timeliness in delivering avionics to fulfill Airbus Helicopters Inc. production lines and customer orders.
“We are once again very proud to be recognized by Airbus with this prestigious award for our commitment to serve them and our mutual customers with the on-time delivery of our products,” said Carl Wolf, Garmin vice president aviation sales and marketing. “To again receive this award is truly humbling and ultimately would not be possible without the dedication of our entire Garmin team, in addition to the gratifying strategic relationship with Airbus Helicopters.”
Garmin avionics are available as standard on the Airbus H125, including the G500H TXi flight display, GTN 650 touchscreen navigator, GNC 255 nav/comm, GMA 350c audio panel and the GTX 335R remote-mount ADS-B Out transponder. The GTN 750, GNC 255 and GTX 335R are also available as standard on the H130, while the H135/H145 feature the GTN 750 and Flight Stream 510 as standard equipment.
This marks the third consecutive year Garmin has received an award from Airbus Helicopters, Inc. In 2018, Garmin was also recognized by Airbus Helicopters, Inc. as the Supplier of Excellence for its unmatched responsiveness and competitiveness in its support of the UH-72A Lakota helicopter program, and for its overall support at the Airbus Helicopters Inc. finally assembly and completion center in Columbus, Miss.
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Embraer awarded the Garmin aviation team with its 11th Supplier of the Year award in the past 10 years. The Supplier of the Year distinction was presented in the Electric and Electronic Systems category for the G3000® Prodigy Touch flight deck systems in the Phenom 100EV and Phenom 300E.
“We are honored to receive consecutive Supplier of the Year awards from Embraer,” said Carl Wolf, Garmin vice president of aviation sales and marketing. “These honors go beyond the product; they represent the strong collaboration between Garmin and Embraer resulting in a terrific in-flight experience for our mutual customers. It is truly rewarding and motivating for our employees to receive eleven Supplier of the Year awards over the ten-year period”
Embraer recognized a select group of elite suppliers for their outstanding performance in various categories. The 2019 Electric and Electronic Systems award recognizes design innovation, ease of use and overall system architecture, as well outstanding efforts in production line support, quality and on-time reliability of the supply chain. This award also distinguishes our commitment to design and manufacture state-of-the-art flight deck systems, while being responsive to market needs and preferences.
This is the 11th supplier award presented to Garmin by Embraer.
Among hundreds of suppliers, best supplier recipients undergo stringent evaluation and are recognized as having shown outstanding performance, continuous improvement and increased customer satisfaction among all other suppliers in their respective categories. Nine award categories were presented among Embraer’s entire aircraft portfolio, including Executive Aviation, Defense, and Commercial Aircraft. Suppliers are considered based on several attributes, including innovation, delivery, quality, reliability, flexibility and customer support.
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The horizontal situation indicator (HSI) commands a significant portion of a pilot’s attention throughout a flight, especially during instrument procedures. Your focus and attention are balanced between various instruments, processing information and deciphering data as you make decisions in the cockpit. A primary flight display that can concentrate this critical information within pilots’ primary field of view could help reduce workload and streamline actions during these critical phases of flight. We took this into consideration with our TXi flight display series and developed an HSI mapping feature that provides not only traditional heading information and course guidance, but also additional data overlays to enhance pilots’ situational awareness. This touch-interface, MFD-like map can present NEXRAD imagery and weather, as well as SafeTaxi® diagrams, traffic, terrain alerting and more.
Better understand the weather around you
The TXi HSI map can overlay SiriusXM® Aviation Satellite Weather, ADS-B datalink weather or Doppler Radar, providing a better understanding of conditions and how they relate to your current position. For an added layer of weather information, Stormscope®, cell data and lightning strike information also can be viewed within the HSI map. Plus, it’s easy to zoom in for a closer look or zoom out for a ”higher-level” view of the conditions, simply swipe your finger up and down on the touchscreen HSI display.
ADS-B traffic targets
Also, keep an eye on surrounding ADS-B-equipped traffic. On aircraft properly equipped with select ADS-B solutions and a TXi series flight display, this dual-link position tracking feature allows you to see where an aircraft target is with respect to your own aircraft’s position within the HSI map. If a target gets too close, it changes to a highlighted yellow icon for added awareness.
Terrain alerting
Hazardous terrain up ahead? The TXi HSI map presents the surrounding landscape in shades of green, yellow and red — from lowest risk to highest risk, respectively. If you’re approaching dangerous terrain, an alert will indicate the close proximity, helping the aircraft remain clear of hazards and on course.
Obstacles awareness
Stay apprised of obstacles along your flight path, like towers and buildings, while staying on course. Like terrain alerting, obstacles are displayed by degree of hazard — white indicating “no factor,” yellow to “be cautious” and red representing “danger.” As you approach dangerous obstacles, the indications become more distinct and pronounced, alerting pilots to take corrective action if necessary.
SafeTaxi airport navigation
We created SafeTaxi to help pilots navigate airports more easily. This tool displays a geo-referenced airport diagram and displays runways, taxiways and hangars relative to an aircraft’s location on the field. It also identifies hold short lines, providing pilots an even greater level of awareness to their location within the terminal environment.
WireAware and HTAWS for Helicopters
Helicopter pilots can benefit from the TXi HSI map too. Our G500H TXi for helicopters combines our WireAware wire-strike avoidance technology with optional HTAWS (Helicopter Terrain Awareness and Warning System) data to provide a comprehensive solution. It can help identify dangerous terrain and hazardous obstacle transmission (HOT) lines for the U.S. as well as some locations in Canada and Mexico.
In addition to TXi series flight displays, select HSI mapping features and functions are available with G1000® NXi, G3000® and G5000® integrated flight decks, as well as our GI 275 electronic flight instrument. To learn more about our HSI map, and all of our safety-enhancing aviation solutions, visit Garmin.com/aviation.
Sirius, XM and all related marks and logos are trademarks of Sirius XM Radio Inc.
Stormscope is a registered trademark of L-3 Communications.
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The benefits of digital engine indication systems (EIS) go far beyond replacing an aging system in your aircraft. These modern, reliable solutions can offer significant improvements over older, maintenance-prone analog instruments. They also can present crucial engine and fuel information with enhanced precision. Streamlined displays with intuitive user interfaces can help reduce pilot workload, improve engine and fuel management, and add overall confidence in the cockpit. Our broad range of EIS solutions were designed with these principles in mind. From our compact GI 275 EIS to our larger format EIS TXi and G3X Touch, we have an EIS solution for nearly every aircraft type and operator budget.
GI 275 EIS: Convenient size, powerful capabilities
Don’t be fooled by the size of our GI 275 EIS. Designed to fit a standard 3-1/8” instrument cutout, this stand-alone touchscreen solution provides engine, fuel, electrical information and more in a convenient, cost-effective package. Plus, with minimal or no panel modifications required for installation, GI 275 proves ideal for aircraft owners looking to keep the classic look of their panel. It graphically displays cylinder head and exhaust gas temperatures, features lean assist mode, and monitors fuel quantity and fuel flow to estimate how much fuel, range and flight time remains.
EIS TXi: Larger display, broader aircraft applicability
Looking for more display real estate to monitor engines and fuel? Our dedicated EIS TXi presents the same essential engine, fuel and electrical information as the GI 275 EIS but with a few more features on a larger touchscreen format – available in 7” landscape or 7” portrait options. It’s available for most normally aspirated or turbocharged Lycoming/Continental 4- to 6-cylinder singles and twins, as well as select single engine turboprop aircraft.
For turboprop operators, EIS TXi can display dynamic gauge range markings for torque, prop RPM, Ng percent, interstage turbine temperature and more. Automatic, color-coded data bands based on the aircraft’s current condition will illuminate, with automatic timers and exceedance warnings prompting visual cues to flash, highlighting each out-of-limit parameter.
Integrate EIS with PFD, MFD on G500/G600 TXi, G3X Touch
Some pilots prefer a panel layout with more integration and fewer displays. Our G500/G600 TXi and G3X Touch flight displays can combine EIS information with PFD and MFD capabilities in several sizes and configurations, providing an “all-in-one” flight display solution.
For panel upgrades with space for more than one display, both the TXi and G3X Touch series offer a stand-alone EIS/MFD combination. In this layout, available for single-engine piston aircraft, the EIS indications can be viewed in either an expanded format or a condensed strip on the touchscreen, allowing pilots to view MFD information next to the engine information. The opportunities TXi and G3X Touch offer to integrate allow expanded flexibility and functionality in individual displays.
Customizable exceedance alerting and engine performance data logging
Predefined and pilot-selectable exceedance alerting comes standard with GI 275 EIS, EIS-capable TXi and G3X Touch flight displays. During installation, predefined limits are set for engine temperatures, oil pressure and more. After the install is completed, pilot-selectable alerts can be configured by operators to provide an extra level of protection. These pilot-selectable alerts are intended to signal the pilot before an exceedance is reached. Both predefined and pilot-selectable alerts prompt flashing cues, helping to identify potential out-of-limit exceedances and maintain long-term engine performance and overall health.
These EIS solutions can automatically log engine performance data for post-flight analysis. With the EIS-capable GI 275, data is automatically logged within the instrument, then can be wirelessly transmitted to a compatible mobile device downloaded with the Garmin Pilot app. Our G3X Touch displays log data to an SD card installed in the display, which can be manually uploaded to flyGarmin.com or wirelessly transmitted to Garmin Pilot. EIS-equipped TXi displays automatically log engine data within the display too, and a Flight Stream 510 (sold separately) can wirelessly transmit EIS data to Garmin Pilot. In fact, engine performance data can be wirelessly transmitted to and displayed on Garmin Pilot in-flight. After landing, and engine data is transmitted to Garmin Pilot, it is automatically uploaded to flyGarmin.com and available for post-flight review. All information in flyGarmin.com is stored securely within our web-based cloud service.
To learn more about all of our EIS solutions and latest avionics, visit Garmin.com/aviation.
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Our FltPlan.com platform now features a new integrated runway analysis service from AeroData, allowing pilots to calculate performance data while creating a flight plan through FltPlan.com. AeroData runway analysis joins Aircraft Performance Group (APG) and Automated Systems in Aircraft Performance (ASAP) runway analysis services available from FltPlan.com. All three of these runway analysis offerings through FltPlan.com eliminate the need for pilots to reference manuals and perform their own manual calculations for takeoff and landing data, ultimately resulting in time savings and more accurate performance numbers. The tailored performance data allows crews to maximize the performance of the aircraft while also assuring compliance with runway and obstacle requirements. Additional features of the AeroData service include concise engine- out escape procedures that factor in obstacles and terrain, the ability to specifically configure Takeoff- and-Landing Data (TOLD) based on conditions and limitations, automatically calculate aircraft fuel requirements based on the flight plan, integration with Garmin PilotTM and much more.
“AeroData is the premier runway analysis provider for commercial air carriers in North America and Garmin is excited to integrate this service with FltPlan.com for use by our business aviation customers,” said Carl Wolf, Garmin vice president of aviation sales and marketing. “Pilots and operators now have the unique ability to calculate performance data and receive obstacle clearance while creating their flight plan on FltPlan.com – maximizing aircraft performance for the intended operation.”
AeroData expands into business aviation
As one of the leading providers of runway analysis for commercial airlines, AeroData serves over 135 airlines globally and is the data provider for more than 70 percent of airline flights in North America. The integration with FltPlan.com brings AeroData, an experienced data provider, into business aviation, giving pilots the ability to include information and calculations directly in the flight planning stage, saving valuable time and helping to increase accuracy. The more accurate performance data allows operators to optimize loading based on the consideration of airfield and aircraft conditions and provides an engine failure procedure (EFP) based on a detailed analysis of obstacles and terrain in the airport environment.
TOLD calculations
FltPlan.com’s flight planning engine automatically selects a preferred runway and aircraft configuration based on current aircraft and airfield conditions, which include the use of the current METAR, or forecast for the time of departure. Further, crews can tailor additional configurations that include runway direction; surface contaminant; runway length; weather information such as winds, temperature, and altimeter setting; aircraft flap configuration; and Minimum Equipment List (MEL) penalties. Additionally, when an aircraft is performance limited by factors such as runway condition or climb gradient requirements, crews can adjust aircraft and airfield configurations to calculate performance numbers that would help maximize aircraft operation. Applicable NOTAM information is also actively monitored and is reflected in TOLD calculations.
Performance calculations automatically added to FltPlan.com NavLog
After TOLD calculations are complete, a Takeoff and Landing Report (TLR) is generated and added to the FltPlan.com NavLog for reference. The TLR displays comprehensive data such as takeoff reference speeds, flap settings, power settings, environmental control system (ECS), anti-ice settings, runway surface conditions including contaminant level, tailwind calculations, and Maximum Runway Takeoff Weight (MRTW) for each available runway on the airfield. To better understand factors driving performance, crews can review limiting factors on the TLR that include climb performance, field length, or obstacle clearance, to name a few.
Easily accessible in-flight through the NavLog, landing performance data is included on the TLR based on calculated enroute fuel burn. Landing data shows reference speed (VREF) and landing distance based on landing weight, flap settings, ECS and anti-ice configurations, as well as reported braking action. Both factored and unfactored landing distances are displayed as separate options.
Additionally, pilots have the ability to easily view the TLR on a portable electronic device within the Garmin Pilot and FltPlan Go apps. This integration appends the TLR to the FltPlan.com NavLog for a quick and convenient way to reference runway analysis information while in flight.
Fuel order information is also automatically generated when creating a flight plan. This convenient feature assists pilots in that they no longer have to manually calculate the required fuel load while the system also checks basic structural weight limits of the aircraft to ensure that limitations will not be exceeded.
Engine Failure Procedures included in TLR
The TLR also uses calculated data to specify engine failure procedures (EFP) for each runway and aircraft configuration. When standard EFP’s cannot be used due to obstacle requirements, special procedures are calculated and provided on the TLR. Where terrain and obstacles limit straight out climb, AeroData designed EFP’s provide clear and concise guidance for pilots to perform a safe escape maneuver in a high workload flight environment.
AeroData Runway Analysis is available in two service options with one providing runway analysis, and another providing runway analysis plus obstacle clearance considerations. For more information on AeroData and runway analysis services, and to view supported aircraft, please visit www.FltPlan.com/Runway.htm.
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Our GFCTM 600 digital autopilot has been upgraded to feature new safety-enhancing capabilities, including Smart Rudder Bias for select piston twin-engine aircraft. Part of our AutonomiTM family of automated flight technologies, Smart Rudder Bias provides additional assistance against hazardous effects of a one-engine inoperative (OEI) event when appropriately equipped. It also provides pilots assistance in maintaining control of the aircraft while determining the next course of action, simultaneously reducing workload in a high-stress and time-critical flight environment.
“We are proud to be able to offer a new safety tool for twin-engine piston aircraft with the introduction of Smart Rudder Bias, making the GFC 600 digital autopilot the most advanced solution for this class of aircraft on the market today” said Carl Wolf, Garmin vice president of aviation sales and marketing. “With the introduction of Smart Rudder Bias technology, working together with the other Garmin systems onboard, pilots can react to an engine failure by quickly and accurately detecting the issue while simultaneously receiving automatic assistance applying the correct flight control input – providing an additional safety tool not seen before in twin-engine piston aircraft.”
Help manage aerodynamic performance with Smart Rudder Bias
Twin-engine aircraft inherently have aircraft controllability concerns in the event of an engine failure and pilots can expect a significant yaw toward the inoperative engine, resulting in an unstable aircraft state. In addition, due to a sideslip condition and a windmilling propeller, there can be decreased lift on the wing associated with the inoperative engine and simultaneously an increase in drag, all factors contributing to degraded performance and a critical loss in airspeed. Through close integration with multiple onboard Garmin systems, Smart Rudder Bias helps address these major concerns and immediately assists with controllability issues. This gives the pilot time to take the correct action required in order to better maintain positive aircraft control and help keep the aircraft in a safe flight condition.
Positively identify inoperative engine quicker
When the aircraft reaches the manufacturer’s published minimum control speed (VMC) during the takeoff roll, Smart Rudder Bias is automatically armed. Smart Rudder Bias continuously monitors engine parameters using Engine Indication System (EIS) data displayed on a G500 TXi or G600 TXi flight display and activates when the system detects a predetermined power differential between each engine. Once activated, rudder force is dynamically adjusted to aid a pilot in providing enough force to the rudder to help control a sideslip. A yellow annunciator for the associated inoperative engine is conveniently displayed along with autopilot annunciations on the G500 TXi or G600 TXi flight display, helping the pilot identify the issue quicker. Smart Rudder Bias can be deactivated via a panel-mounted switch.
Smart Rudder Bias enhances ESP settings for OEI condition
Garmin’s Electronic Stability and Protection (ESPTM) functions independently of the autopilot, working in the background to help pilots avoid inadvertent flight attitudes or bank angles and provides airspeed protection while the pilot is hand-flying the aircraft. Smart Rudder Bias applies enhanced ESP settings tailored to engine-out flight. Roll protection is modified to help correct for the roll tendency caused by the inoperative engine, while underspeed protection activates at a higher airspeed to help keep the aircraft away from the critical VMC speed and the associated loss of positive aircraft control.
PA-31 certified with GFC 600 – optional yaw trim also available
The GFC 600 is also now certified on select Piper PA-31 aircraft, and an automatic yaw trim option is available. Similar to pitch trim, yaw trim allows for manual rudder trim control with the press of a button, and automatic control of the rudder trim when the GFC 600 autopilot or yaw damper is engaged.
Smart Rudder Bias requires a G500 TXi or G600 TXi configured as a primary flight display (PFD) with EIS, which can be shown as a strip on the G500 TXi or G600 TXi, or on a separate TXi display. Additionally, a GFC 600 digital autopilot with the yaw axis option must be installed. Initial certified aircraft with Smart Rudder Bias capability include the Beechcraft Baron 58 and 58A, as well as the Piper PA-31-300, PA-31-310, PA-31-325, and PA-31-325CR. Additional certifications of Smart Rudder Bias will be forthcoming.
For additional information about Smart Rudder Bias and the Garmin Autonomi family of automated flight technologies, visit www.Garmin.com/SmartRudderBias.
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Popular Science, one of America’s oldest and most trusted magazine brands with a legacy of reporting on groundbreaking innovations, recognized Garmin Autoland with a 2020 Best of What’s New Award in the Aerospace category. Autoland is part of our Autonomi family of autonomous safety-enhancing technologies for aircraft, and the world’s first system of its kind for general aviation aircraft. It has the ability to land an aircraft in an emergency should the pilot suddenly become incapacitated or unable to fly1.
After reviewing thousands of products in search of the year’s top 100 innovations, Popular Science unveiled the best breakthrough products and technologies that represent significant advancements and ‘solve an unsolvable problem’ in an announcement last week.
“We are truly humbled and proud to be selected by Popular Science with this honor for our revolutionary Autoland autonomous flight technology,” said Phil Straub, Garmin executive vice president and managing director, aviation. “This recognition highlights our commitment to innovate in the aviation industry. It’s a testament to the entire Garmin team, whose dedication to continuously drive our pioneering vision led to the development of the world’s first Autoland system for general aviation aircraft and changed the way we look at aviation safety.”
For 33 years, the editors at Popular Science have reviewed thousands of products in search of the top 100 tech innovations each year – breakthrough products and technologies that represent significant advancements in their categories. The publication’s Best of What’s New Awards are presented to 100 new products and technologies in 10 categories: Aerospace, Automotive, Engineering, Entertainment, Gadgets, Health, Home, Personal Care, Security, and Sports & Outdoors. Garmin Autoland was chosen among nine other innovations in the Aerospace category, which includes anything that flies or pertains to flight.
“The Best of What’s New Awards showcase the year’s greatest feats of human ingenuity,” said Popular Science Editor-in-Chief Corinne Iozzio. “Even in a year like 2020, innovation has helped us glimpse a future that’s safer, smarter, and more enjoyable than we might have thought possible.”
Garmin Autoland is available as part of the G3000® integrated flight deck on select general aviation aircraft. In the event of an emergency, such as pilot incapacitation, Autoland is capable of completely taking control of the aircraft, avoiding weather and terrain, and landing at the nearest, most suitable airport. Elements taken into consideration when identifying the most suitable airport include a wide range of performance, operational and environmental factors. Throughout an Autoland activation, the system provides simple visual and verbal communications in plain-language so passengers in the aircraft know what to expect. Further, the system will automatically communicate with air traffic control, advising controllers and pilots operating near the aircraft of its location and its intentions.
On approach to land, the system initiates a controlled descent to the airport. Once in landing configuration, the aircraft begins its descent to the runway. On the runway, automatic braking is applied while tracking the runway centerline to bring the aircraft to a full stop. Engine shutdown is also automated so occupants can safely exit the aircraft.
The first certified Autoland system for general aviation aircraft, Garmin Autoland has received FAA certification in the Piper M600, the Daher TBM 940, and the Cirrus Vision Jet as part of the G3000 integrated flight deck. EASA approval was also recently granted to the TBM 940. By the end of 2020, more than 100 fielded aircraft are expected to feature Autoland.
For additional information about Autoland and the Garmin Autonomi family of automated flight technologies, visit www.garmin.com/Autonomi.
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