Category Archives for Aviation

2021 Women of Aviation Week Social Sweepstakes

OFFICIAL RULES

NO PURCHASE NECESSARY TO ENTER OR WIN.    VOID WHERE PROHIBITED BY LAW. 

1. ELIGIBILITY:  The Sweepstakes is open only to individuals who are legal residents of the 50 United States (excluding Puerto Rico residents) or the District of Columbia, and who have reached the age of majority in their respective state or territory of residence at the time of entry. Employees and their immediate families of Garmin International, Inc. (“Garmin”) and any of Garmin’s affiliated companies are not eligible.  The Sweepstakes is subject to all applicable federal, state, and local laws and regulations and is void where prohibited by law.

2. AGREEMENT TO OFFICIAL RULES:  Entry in the Sweepstakes constitutes entrant’s full and unconditional agreement to and acceptance of these Official Rules and the decisions of Garmin, which are final and binding.  Winning a prize is contingent upon fulfilling all requirements set forth herein in a timely manner.

3. SPONSOR:  Garmin, located at 1200 East 151st Street, Olathe, Kansas 66062, is the sole sponsor of this promotion. 

4. SWEEPSTAKES TERM:  The Sweepstakes begins at 12:00 a.m. Central Time (“CT”) on March 11th, 2021  and will continue until 11:59 p.m. CT on March 14th, 2021 or such longer or shorter term as Garmin shall determine in its sole discretion (the “Sweepstakes Term”).  Entries received prior to or after the Sweepstakes Term will be disqualified.  Garmin is the official timekeeper for the Sweepstakes Term, and all timekeeping decisions of Garmin shall be final.

5. ENTRY:  NO PURCHASE NECESSARY TO ENTER OR WIN.  Eligible persons may enter the Sweepstakes by each of the following methods: (1) entrants enter the Sweepstakes by sending a picture or video of themselves completing the activity to STEMOutreach@Garmin.com with “Garmin WOAW Activity in the subject lin.  (2) In addition to entering the Sweepstakes by the submission method in Subsection (1), eligible persons may also enter the Sweepstakes by submitting an e-mail to hr.admin@garmin.com with “Garmin Sweeps” in the subject line. Entrants using this alternate method of entry must provide their age, physical mailing address, and phone number in their email entries.

Entries will not be acknowledged.  Garmin and its affiliates assume no responsibility for any lost entries or any computer, internet, or technical malfunctions that might occur during the entry process.  Normal Internet access and usage charges imposed by your online service will apply.   

In the event of a dispute as to the identity of any entrant, the authorized account holder of the email address used to set up the email account from which the entry was received, or in the case of the alternate means of entry, the email address from which entry was received, will be deemed to be the entrant.  Potential winners may be required to show proof of being the authorized account holder of the email address account associated with the entry. 

6. ENTRY LIMITATIONS: Eligible participants are limited to one entry in the Sweepstakes.  Each eligible participant may enter under one email account only. Entries using automated means to generate entries, or otherwise participate are not eligible.  Use of any automated system to enter as determined by Garmin in its sole judgment is prohibited and will result in disqualification at Garmin’s sole discretion.  Additionally, anyone found to use multiple email accounts to enter will be disqualified from all participation in the Sweepstakes.  ALL ELIGIBLE ENTRIES WILL BE ENTERED INTO THE SWEEPSTAKES.  Entries by any method other than set forth in Section 5 are void.  Garmin is not responsible for entries that it does not receive for any reason, or for entries that it receives but are ineligible under these Official Rules.  Garmin will automatically disqualify: (1) any incomplete or illegible entry; and (2) any entries received that are in excess of the entry limit described above.

7. PRIZE: One prize (the “Prize”) will be awarded for the Sweepstakes Term, consisting of a VivofitJr.

8. The Prize has an approximate retail value (“ARV”) of $70.00.  The ARV of the Prize is subject to price fluctuations in the consumer marketplace based on, among other things, any gap in time between the date the ARV is estimated for purposes of these Official Rules and the date the Prize is awarded.  The Prize is nontransferable and non-refundable and must be accepted as awarded.  No cash or other substitution may be made, except by Garmin, who reserves the right to substitute the Prize with another prize of equal or greater value if the Prize is not available for any reason as determined by Garmin in its sole discretion.  Winners are responsible for any taxes associated with receipt of the Prize. 

9. DRAWING:  The potential winner of the Prize will be chosen in a random drawing from the pool of valid entries at Noon, CT, March 15th, 2021. Odds of winning depend on the number of eligible entries received during the Sweepstakes Term.  The random drawing will be conducted by one or more employees of Garmin or an independent fulfillment entity.

10. NOTIFICATION OF POTENTIAL WINNER:  Garmin will attempt to notify the potential winner by email address or in the event of an alternate means of entry potential winner by email) immediately after the drawing.  If a winner of the Prize cannot be located or does not respond by 11:00 AM CT, March 16th, 2021, the Prize will be forfeited, and an alternate potential winner will be drawn from the pool of remaining valid entries.  Alternate potential winners will be notified via email message (or in the event of an alternate means of entry potential winner, by email).  Garmin and its affiliates, or their respective officers, directors, employees, representatives and agents, will not be liable for unsuccessful efforts to notify a winner.

11. REQUIREMENTS OF THE POTENTIAL WINNER:  Except where prohibited by law, the potential winner may be required to complete and return an affidavit of eligibility (the “Affidavit”) within 2 days of being notified.  If the potential winner fails to sign and return the Affidavit postmarked within the required time period, an alternate entrant may be selected in such potential winner’s place from all of the remaining valid entries received for the Sweepstakes Term.  If a potential winner declines the Prize, does not respond to the Prize notification, fails to claim the Prize, is unavailable for Prize fulfillment, fails to abide by the Official Rules, or is ineligible, Garmin will select an alternate winner from all remaining valid entries received for the Sweepstakes Term.

12. PRIVACY:  Garmin will be collecting personal data from the entrants and potential winners in order to confirm Sweepstakes eligibility.  Garmin will treat this data in accordance with its privacy policy, located at http://www.garmin.com/privacy/.  In addition, Garmin may use and share an entrant’s personal data with third parties solely to the extent necessary to fulfill its obligation to administer and sponsor this Sweepstakes. All information provided is being provided solely to Garmin.

13. GENERAL CONDITIONS:  Garmin reserves the right to cancel, suspend, and/or modify the Sweepstakes if any fraud, virus, or other technical problem corrupts the administration, security, or proper play of the Sweepstakes, as determined by Garmin in its sole discretion.  The use of robotic, automatic, macro, programmed or like methods (including without limitation the use of any promotion/sweepstakes subscription, notification, entry or like sites or services that offer sweepstakes entry services “on behalf of” entrant) is strictly prohibited.  In such event, Garmin reserves the right to award the Prize at random from among the valid entries received up to the time of the impairment.  Garmin reserves the right in its sole discretion to disqualify any individual it finds to be tampering with the entry process or the operation of the Sweepstakes or to be acting in violation of these Official Rules or in an unsportsmanlike or disruptive manner.  Any false information provided by any entrant concerning such entrant’s identify or mailing address or any non-compliance by an entrant with these Official Rules may result in the immediate disqualification of the entrant from this Sweepstakes.  ANY ATTEMPT BY ANY PERSON TO UNDERMINE THE LEGITIMATE OPERATION OF THE SWEEPSTAKES MAY BE A VIOLATION OF CRIMINAL AND CIVIL LAW, AND SHOULD SUCH AN ATTEMPT BE MADE, GARMIN RESERVES THE RIGHT TO SEEK DAMAGES FROM ANY SUCH PERSON TO THE FULLEST EXTENT PERMITTED BY LAW.  Garmin’s failure to enforce any term of these Official Rules shall not constitute a waiver of that provision. 

14. PUBLICITY:  Notwithstanding any other term herein, except where prohibited by law, submission of any entry constitutes the entrant’s consent to use of entrant’s name, likeness, voice, state of residence, biographical and prize information, statements about the promotion, anything submitted to enter the Sweepstakes and/or the entrant’s photo for advertising and promotional purposes in any media now known or hereafter devised without review, notification, approval or compensation.

15. LIMITATION OF LIABILITY:  By participating in the Sweepstakes, each entrant agrees to release and hold harmless Garmin and its parents, subsidiaries, affiliates, and each of their respective officers, directors, employees, and agents (the “Released Parties”), from and against any claim or cause of action arising out of participation in the Sweepstakes or receipt or use of any Prize, including but not limited to: (a) any inaccurate information, whether caused by entrants or printer errors; (b) unauthorized human intervention in any part of the Sweepstakes; (c) technical failures of any kind, including, but not limited to electronic malfunctioning of any website, network, hardware or software; or (d) technical or human error which may occur in the administration of the Sweepstakes or the processing of entries or winners.  ADDITIONAL POSSIBLE CLAIMS OR CAUSES OF ACTION INCLUDE, BUT ARE NOT LIMITED TO, INFRINGEMENT OF ANY RIGHT OF PUBLICITY OR INTELLECTUAL PROPERTY; THREATENED OR ACTUAL INJURY, LOSS, OR DAMAGE TO ANY PERSON, INCLUDING DEATH AND DISABILITY; DEFAMATION OR PORTRAYAL IN A FALSE LIGHT (INTENTIONAL AND UNINTENTIONAL); AND DAMAGE TO OR LOSS OF PROPERTY ARISING OUT OF SUCH ENTRANT’S PARTICIPATION IN THE SWEEPSTAKES OR RECEIPT OR USE OR MISUSE OF ANY PRIZE. IN NO EVENT WILL THE RELEASED PARTIES BE RESPONSIBLE FOR OR LIABLE FOR ANY DAMAGES OR LOSSES OF ANY KIND, INCLUDING INDIRECT, INCIDENTAL, CONSEQUENTIAL, OR PUNITIVE DAMAGES ARISING OUT OF THIS PROMOTION.  Without limiting the foregoing, everything in these Rules and in this promotion, including, with the exception of Garmin’s standard limited product warranty, the prize awarded, is provided “as is’ without warranty of any kind, either express or implied, including but not limited to, the implied warranties of merchantability, fitness for a particular purpose or non-infringement.  Some jurisdictions may not allow the limitations or exclusion of implied warranties, so some of the above limitations or exclusions may not apply to all entrants.  Each entrant should check such entrant’s local laws for any restrictions or limitations regarding these limitations or exclusions.

If for any reason an entrant’s entry is confirmed to have been voided or corrupted by any grossly negligent act of Garmin, entrant’s sole remedy is another entry in the Sweepstakes, subject to availability and provided that the Sweepstakes has not then expired.

16. DISPUTES:  Except where prohibited by law, each entrant agrees that: (a) any and all disputes, claims and causes of action arising out of, or connected with, the Sweepstakes or any Prize awarded shall be resolved individually, without resort to any form of class action, and exclusively by the appropriate court located in the State of Kansas; and (b) entrant waives the right to claim any damages whatsoever, including, but not limited to, punitive, consequential, direct, or indirect damages, including attorney’s fees.  All issues and questions concerning the construction, validity, interpretation and enforceability of these Official Rules, entrant’s rights and obligations, or the rights and obligations of Garmin in connection with the Sweepstakes, shall be governed by, and construed in accordance with, the laws of the State of Kansas.

16. WINNERS LIST:  A copy of these Official Rules will be posted on garmin.com/en-US/blog/aviation/2021-women-of-aviation-week-social-sweepstakes/.

Interested persons can obtain a list of the Sweepstakes winner(s) and a copy of these Official Rules by sending a self-addressed, stamped envelope to Garmin International, Inc., Attn:  Social Media Department, 1200 East 151st Street, Olathe, Kansas 66062.  

The post 2021 Women of Aviation Week Social Sweepstakes appeared first on Garmin Blog.

https://www.garmin.com/en-US/blog/aviation/2021-women-of-aviation-week-social-sweepstakes/

Garmin Autoland Named 2020 Finalist for Esteemed Robert J. Collier Trophy

Our ground-breaking Autoland system — part of the AutonomiTM family of autonomous safety-enhancing technologies — was selected as a 2020 Robert J. Collier Trophy finalist by the National Aeronautic Association (NAA). For over a century, the Collier Trophy has been the benchmark of aerospace achievement and is awarded annually to recognize “the greatest achievement in aeronautics or astronautics in America.” Autoland is the world’s first certified system of its kind with the ability to activate during an emergency situation to autonomously control and land an aircraft without human intervention1.

“We are extremely honored and proud that Autoland has been selected as a finalist for the renowned Robert J. Collier Trophy,” said Phil Straub, Garmin executive vice president and managing director, aviation. “The extensive history of this award has recognized some of the most impactful achievements in aviation, and we are humbled to have Autoland considered among them. Being chosen as a finalist for the greatest aerospace achievement of 2020 would not be possible without the steadfast dedication of the Garmin team, as well as Piper, DAHER, and Cirrus, in addition to the regulatory agencies working closely with us to bring this potential life-saving technology to market.”

In the event of an emergency such as pilot incapacitation, a passenger can activate Autoland to land the aircraft with a simple press of a dedicated button, should the pilot no longer be able to perform their duties as pilot in command. Autoland can also activate automatically if the system detects no pilot interaction. Once activated, the system immediately calculates a flight path to the most suitable airport and runway, while avoiding terrain and adverse weather, initiates a stabilized approach and automatically lands the aircraft.

Piper Aircraft received the first FAA Type Certification of Garmin Autoland on the G3000® equipped M600 SLS in May 2020. In July 2020 DAHER completed the first European Union Aviation Safety Agency (EASA) certification and the second FAA certification of Autoland on the G3000® equipped TBM 940. Cirrus Aircraft, the 2017 Collier Trophy winner, certified the first jet aircraft with Autoland in August 2020, the Vision Jet equipped with Perspective Touch+.

Cirrus Aircraft Vision Jet with Garmin Autoland activated and displayed on the flight deck
Garmin Autoland-equipped Cirrus Vision Jet. Photo: Cirrus Aircraft

We are committed to building on the mission of bringing innovations to the industry, furthering the vision of Wilbur and Orville Wright, whose resolve and commitment to heavier-than-air flight sparked the current-day modern transportation movement. Several significant accomplishments and innovations of previous Collier Trophy winners helped lay the groundwork for what is now Autoland, including: the Global Positioning System Team in 1992; the Radio Technical Commission for Aeronautics and the development of the modern-day ATC system in 1948; Elmer Sperry’s development of the initial autopilot building blocks; and William Lear’s development of the first jet autopilot in 1949. We believe this is only the beginning, as it continues to innovate and make advances to create new and exciting possibilities for air travel in the future.

The NAA is a non-profit, membership organization devoted to fostering America’s aerospace leadership and promoting public understanding of the importance of aviation and space flight to the United States. The NAA’s Collier Trophy Selection Committee will meet virtually in June and publicly announce the 2020 Collier Trophy award winner following their selection.

For additional information about Autoland and the Garmin Autonomi family of automated flight technologies, visit www.garmin.com/Autonomi.

1.See Garmin.com/ALuse for Autoland system requirements and limitations.

The post Garmin Autoland Named 2020 Finalist for Esteemed Robert J. Collier Trophy appeared first on Garmin Blog.

https://www.garmin.com/en-US/blog/aviation/garmin-autoland-named-2020-finalist-for-esteemed-robert-j-collier-trophy/

As a manufacturer, I should really control my data

The world is getting more and more connected. I’m connected to my car, my kid’s watch, and my doorbell. If I was to buy a new airplane, I’d expect to be connected to that too. For engine and airframe manufacturers considering their connected strategy, there are two approaches. In this post, we will go over both of them, but I am personally an advocate of the Open approach.

Open and Closed Approaches

At a really high level, there are two approaches to making airframe and engine connectivity happen: Closed and Open.

The Closed approach is a full connectivity system delivered by one supplier. This includes onboard avionic, a backend/cloud service, and a mobile/web experience. The Closed approach is attractive because it is an “easy button” one-stop-shop for connecting an aircraft. The downside is that you are no longer in control of your data, your customers’ data, and you’re going to rely on the permissions granted by a supplier for information that is increasingly critical to your business. Also, with a Closed approach you are not able to modify or add functionality to the system. As the saying goes, “data is the new oil,” and with this approach, you have given your supplier your mineral rights.

The Open approach is where a supplier brings an open platform connectivity system for an avionic device. This means that you can change the software on the system (either internally or with contract resources). This typically means that you need to develop your own backend/cloud service and mobile/web experience. Undoubtedly, this is harder and requires more effort than a supplier-delivered, turn-key, approach. As they say, nothing worthwhile is ever easy. We will discuss the upside below. With an Open approach, you control your data, how it is used, and how it can direct the path of value-added services that are built off this data. This data is “digital oil” and is incredibly valuable to you in so many ways.

Control of Data

Before discussing data and value propositions, it is important to understand that to achieve these, you must control the data. There are different perspectives on data ownership. Some people believe that the operator/pilot should control the data. Others contend that the ownership of the data should reside with the airframe or engine manufacturers. In any event, your supplier should not own or control your data. It is simply too valuable to have to ask for permission to access, modify, and mine.

Decreased Costs

Access to this data provides opportunities for cost reductions or avoidance of expenses. These cost reductions come in a number of different packages. Having data about the fleet and its operation can lead to value-added services that improve fleet safety, which limits litigation and settlement expenses with a reduction in incidents/accidents. This data can also be used to provide the evidence necessary to negotiate with insurance carriers and provide critical information to manage this growing industry expense. Lastly, the data can be used to understand the circumstances related to warranty claims. This can lead to the avoidance of payment on unjust claims and the improvement of design to eliminate future claims in related areas.

Increased Revenue

Control over the data creates potential for delivery of value-added services to customers, which creates potential for new streams of revenue. Such services can include things like:
1. Web-based analytics that allow for more productive utilization of shared aircraft assets in a fleet environment.
2. Utilization of data to deliver timely parts.
3. Maintenance services to efficiently minimize aircraft downtime.

Interesting opportunities can also emerge in the monetization of third-party, value-added, services through APIs that allow selective access to your data. In these cases, a programmatic interface is created to allow additional companies to access data, at the customer’s request, to provide more niche services at high value. Access to that data can be monetized, with a fee charged to the third party, giving you a portion of their revenue stream without any of the development or maintenance burden of the niche application.

Expansion Potential

Whenever one of our customers really starts to dig into their data, two things emerge. The first is value. The second is more questions that, if answered, are expected to uncover additional exciting business value.

This is where an open platform is also critical. Answering those questions can involve changes to the software on the avionics, changes to the backend architecture to mine/compare/contrast data in different ways, or changes to the mobile experience to better present customer features or track customer behaviors. With an open platform, the cycle of data acquisition, analysis, and value creation becomes an evergreen — but only if you have the control necessary to drive the evolution of your connected ecosystem.

Flexibility

At Appareo we believe you should have the freedom to choose. You should be free to choose which avionic supplier you select for different aircraft platforms. You should be free to choose which mobile devices are compatible with your solution. With an open system, you are free to specify, implement, and manage these choices. With a closed system, you are locked into the offerings and mobile device support from a single supplier. That supplier may be great, but you are also locked into the supplier’s timelines for supporting new generations of connectivity technology (4G, 5G, etc.), as well as the timeliness with which that supplier can offer you access to connectivity services in new countries.

Control of Security

An Open platform doesn’t mean unsecure. Open means having the freedom to impose your cyber rules and requirements on the system, ensuring that your security preferences are embodied in your connected solution. When you own your security you have the comfort of certainty. When you’re working in a closed party system, there are always questions about the security and control of access to your avionics, your data, and your customer’s data. This should be an area you want to control.


Kris Garberg – President, Aviation

https://appareo.com/2021/03/01/as-a-manufacturer-i-should-really-control-my-data/

FLYING Magazine Honors Garmin Autoland with Editors’ Choice Award

FLYING Magazine honored our revolutionary Autoland system — part of our Garmin AutonomiTM family of autonomous safety-enhancing technologies — with a 2021 Editors’ Choice Award. Autoland is the world’s first certified system of its kind with the ability to activate during an emergency situation to autonomously control and land an aircraft without human intervention1.

Each year, FLYING’s Editors’ Choice Awards celebrate an elite collection of aircraft and products that demonstrate significant innovation and technological advancements. For 2021, FLYING chose to honor the collaboration between organizations in the efforts required to achieve certification well as highlighting the importance of working together to drive innovation forward for the industry.

“We are humbled to receive this award for Autoland from such a revered publication like FLYING,” said Carl Wolf, Garmin vice president aviation sales and marketing. “This award recognizes a decade’s worth of passion and dedication exhibited by the Garmin team who never stop innovating in ways that help make aviation safer. Even more, we are proud to receive this recognition along with our aircraft manufacturing collaborators Piper, DAHER, and Cirrus, who shared the same vision to bring this life- saving technology to the industry.”

Piper M600/SLS cockpit featuring Garmin Autoland
Garmin Autoland-equipped Piper M600/SLS.

In the event of an emergency such as pilot incapacitation, the pilot or even a passenger on board can activate Autoland to land the aircraft with a simple press of a dedicated button. Autoland can also activate automatically if the system determines it’s necessary. Once activated, the system immediately calculates a flight path to the most suitable airport and runway, while avoiding terrain and adverse weather, initiates an approach and automatically lands the aircraft.

This year’s recipients of FLYING’s Editors’ Choice Awards will compete for the FLYING 2021 Innovation Award, an honor presented in conjunction with EAA AirVenture, July 26 through August 1, recognizing the most innovative product to have reached the business and general aviation market the previous year.

The first Autoland system for general aviation aircraft, Garmin Autoland has received Federal Aviation Administration (FAA) certification in the Piper M600, the Daher TBM 940, and the Cirrus Vision Jet as part of the G3000® integrated flight deck. European Union Aviation Safety Agency (EASA) approval was also granted to Daher with the TBM 940.

For additional information about Autoland and the Garmin AutonomiTM family of automated flight technologies, visit www.garmin.com/Autonomi.

The post FLYING Magazine Honors Garmin Autoland with Editors’ Choice Award appeared first on Garmin Blog.

https://www.garmin.com/en-US/blog/aviation/garmin-autoland-wins-flying-magazine-editors-choice-award/

Garmin Pilot Training Team Expands 2021 Opportunities

Our pilot training team is offering expanded pilot training opportunities for 2021, including virtual training options through June 2021 and plans for the resumption of in-person training starting in August. A variety of opportunities are available ranging from self-study materials, webinars, eLearning courses and instructor-led training offered for the GTN™ Series, G500/G600, G500/600/G700 TXi™, G3X Touch™, and Garmin integrated flight decks. Our instructor-led courses provide pilots with a hands-on approach to learning Garmin avionics in a virtual or in-person classroom environment taught by a team of dedicated and experienced flight instructors.

Professional instructor-led training

In the fall of 2021, our aviation training team intends to resume classroom training offered for all levels of experience at our headquarters in Olathe, Kansas assuming COVID-19 protocols can be safely followed. The health and safety of our customers and associates remains paramount to Garmin. We will continue to monitor the situation and communicate options to all registered attendees in advance if the current situation continues into the fall. To see the full calendar of training events and information on purchasing these classes, please visit www.fly.garmin.com/training.

  • GTN Series: Explore the capabilities that Garmin’s GTN and GTN Xi series of navigators provides in this one-day virtual training class, or two-day in-person classroom training. This class is intended for both novice and experienced aviators using scenario-based training that builds on knowledge obtained through the GTN 2.0 eLearning course. The cost to attend the virtual GTN training class is $495, and the cost for the in-person classroom training is $550.
  • GTN and Flight Display: This one-day virtual training class, or two-day in-person classroom training, includes instruction on the GTN/GTN Xi navigators and TXi series, G3X Touch and the G500/G600 displays. The training focuses on flight planning and instrument procedures for those that are both new to the GTN or just looking for a refresher, building on knowledge obtained through the GTN 2.0 eLearning course. The cost for the virtual training class is $625, and the cost for the in-person classroom training is $700.
  • G1000®/G1000 NXi: With an emphasis on flight planning, instrument procedures, vertical navigation, and the automatic flight control system, this one-day instructor-led virtual training class, or two-day in-person classroom training, explores the vast capabilities of the G1000 integrated flight deck, building on knowledge obtained through G1000 NXi eLearning course. The cost for this virtual course is $700, and the cost for in-person classroom training is $825.
Cirrus SR22 featuring Garmin G500 TXi, GTN 650Xi and GFC 500.

Take full advantage of Garmin avionics features and capabilities with eLearning Courses

Pilots can receive in-depth instruction to better prepare for flights through eLearning courses that guide them through scenarios intended to build understanding and confidence with Garmin avionics. Using a computer, tablet or smartphone, pilots can access the courseware immediately through the eLearning platform. Garmin eLearning courses come with a two-year subscription and can be purchased at www.fly.garmin.com/training.

The following eLearning opportunities are available:

  • Garmin GTN Essentials 2.0: This course provides in-depth instruction on the fundamental operation of the highly capable GTN and GTN Xi touchscreen navigators, as well as helicopter features, for pilots that are new to the GTN or just want a refresher.
  • Garmin TXi Essentials: For pilots that are new to the system, this course will provide instruction on fundamental operation of the touchscreen flight display.
  • Garmin G1000 NXi: Pilots will have four comprehensive courses to choose from that will provide in-depth training on the G1000 NXi depending on the needs of the pilot to enable effective use of the system’s situational awareness and decision-making resources.
  • Garmin G3000® Essentials: This eLearning course introduces pilots to the operation and user interface of the G3000 integrated flight deck.
  • Garmin G5000® Essentials 2.0 and 2.0 PLUS: Introduces pilots to the operation and user interface of the G5000 integrated flight deck, including the latest features. The G5000 Essentials 2.0 PLUS course includes a separate module that describes autothrottle usage.
  • Garmin Aviation Weather Radar 2.0: This course helps pilots understand the fundamentals of weather radar and the latest features to take full advantage of Garmin GWX™ systems.

Attend monthly one-hour webinars

These scenario-based webinars are offered monthly for no charge and are intended to help pilots explore various avionics setups, flight planning, navigation and other features with Garmin pilot instructors. Webinar options are updated monthly, so please be sure to check back frequently for the latest offerings. To register for Aviation Webinars, please visit Garmin.com/AviationWebinars.

Pilot interacting with G3X Touch in cockpit of aircraft
Garmin G3X Touch flight displays and G5 electronic flight instrument

EAA AirVenture 2021

The Garmin Aviation Training team anticipates offering seminars and classes at EAA AirVenture. The team plans to provide two-hour GTN Series training seminars from July 26-30, focusing on what is most important to customers – flight planning and instrument approach procedures. We will also offer the G3X Touch Academy and other GTN pilot training seminars in the Garmin tents. As EAA AirVenture 2021 nears, visit flyGarmin.com/training to see the full and evolving list of training events and to registers for one of these classes.

Build a solid foundation with self-study opportunities

Detailed pilot guides provide extensive information on features, functions, and capabilities related to Garmin avionics that the pilot must know in order to operate the aircraft. Free pilot guides are available for download for all retrofit installations including the GTN series, GTN Xi series, G500/G600, G500/G600/G700 TXi, and G3X Touch. For integrated flight decks such as the G1000, G3000 and G5000, the pilot’s guides are available from the aircraft manufacturer. Training videos and pilot training webinar recordings can be found on the Garmin Aviation YouTube channel.

PC and iPad® Trainers

We also offers a limited number of computer (PC) and iPad trainers that simulate the behavior of an avionics system interface for pilots interested in learning the basic operation of a system. Current PC trainers can be found at www.Garmin.com, and the GTN, GTN Xi, and TXi series trainer apps are available for download from the Apple® App Store®.

iPad displaying GTN Xi trainer app
Garmin GTN Xi iPad trainer

Custom Training Requests

The Garmin Aviation Training team can support on-demand training requests based upon instructor availability and training resource considerations on a first-come, first serve basis. For all Garmin aviation training needs, including reservations for one of these training events, please visit www.fly.garmin.com/training. For additional information, please contact aviation.training@garmin.com.

The post Garmin Pilot Training Team Expands 2021 Opportunities appeared first on Garmin Blog.

https://www.garmin.com/en-US/blog/aviation/garmin-pilot-training-team-expands-2021-opportunities/

Joby Aviation Selects G3000 for Revolutionary eVTOL Aircraft

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.

The post Joby Aviation Selects G3000 for Revolutionary eVTOL Aircraft appeared first on Garmin Blog.

https://www.garmin.com/en-US/blog/aviation/joby-aviation-selects-g3000-for-revolutionary-evtol-aircraft/

Maximizing Battery Life In Portable Electronics: What You Need To Know

Now more than ever, the management of battery capacity is a key factor in delivering a positive or negative experience with portable electronic devices, and ultimately the value your customers derive from them. Running out of battery power and losing access to a battery-powered device can result in a range of frustration — from significant inconvenience to full-blown destruction of key business value. In this blog post, we’re going to talk about essential considerations for how battery life is managed in portable electronic devices.

Over the years, Appareo has worked with many different battery chemistries — from alkaline batteries (e.g. “AA” or “AAA” batteries) that we use in common household devices such as remotes and toys, to specialized chemistries like lithium thionyl chloride for extreme environments. Our focus in this blog post is going to be on lithium-ion polymer batteries, the common battery chemistry used for rechargeable cells. 

How Electronics Consumers Can Improve Total Battery Life

Tip 1: Keep a battery well charged and charge it between uses, even if (especially if) you didn’t use most of the battery.
The first reason batteries age and hold less charge is due to the number of cycles. What constitutes a “cycle?” There’s no consensus in the battery community, but in general, a cycle is the function of taking a charged battery, consuming some of its energy, and then replacing that energy by recharging the battery. When less of the battery is consumed, it’s less stress on the battery. Therefore, it’s better for you to recharge a battery after consuming a little bit, as compared to draining the battery completely before recharging. 

Battery Charging

Tip 2: Keep your battery out of hot environments, especially when being stored for longer periods of time.
Another reason batteries permanently lose capacity is due to heat stress. If a battery is exposed to high temps (hotter than 86°F) for extended periods of time, the battery will permanently lose charge. This commonly happens with portable electronic devices that are left in hot cars for hours or days at a time, where high temperatures will stress the battery and destroy its potential. 

How Manufacturers Can Improve Total Battery Life

There are reasons that battery life may be diminished that aren’t in the control of the consumer, but instead have to do with the way electronics are specified and implemented. When design engineering a portable electronic device, manufacturers should consider how long customers expect the battery to last, and how much time customers expect to be able to use the device on a charge. One of the ways manufacturers can affect battery performance is by controlling the capacity the battery is operated at. Controlling the capacity involves picking a range that creates the longest battery life, and only operating the battery in that range (e.g. between 25% and 85%). Most batteries will have a longer life in this charge condition than if the battery is operated persistently between 50% and 100% capacity, for example. 

A second way manufacturers can have control in this area involves managing the voltage at which the battery is charged. Lowering the charging voltage prevents the battery from getting fully recharged. For example, most batteries are charged at 4.2V. If the charge voltage is lowered to 4.0V, customers may only be able to charge the battery to about 75% of its rated capacity, leaving 25% of the potential battery life on the table. Doing this will increase the number of cycles the battery can withstand by a factor of 2-3 (e.g. from 500 to 1,500 cycles). 

Either one, or both, of these approaches will sacrifice total capacity of the battery to improve the life of the battery, and in some applications may be worth the tradeoff. 


Christopher Horne – Director, Electrical and Electronics Design


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https://www.appareo.com/2021/02/08/maximizing-battery-life-in-portable-electronics-what-you-need-to-know/

Bell Certifies Appareo Device for New Helicopter Flight Data Monitoring Program

Appareo’s Aircraft Communication Units (ACUs) are highly-capable, well-connected mobile computers for a broad range of aircraft types

Earlier this month, Bell Textron Inc. announced the Supplemental Type Certificate (STC) for the installation of an Appareo-developed aircraft communication unit (ACU), which is the on-aircraft component of the Bell QuantiFLY system. Currently available for the Bell 407GXi and Bell 429, QuantiFLY was developed to enable Bell operators to be actionable and drive safety through an affordable, lightweight, and fully automatic flight data monitoring (FDM) solution.

“Bell selected Appareo Systems for connectivity hardware based on its proven track record for both world-wide cellular telematics and aircraft data monitoring. The device utilizes cellular (4G LTE / 3G GSM) on the ground data transmission to offboard aircraft flight parameters and maintenance data via cloud for processing and analytics.” – Bell news release

“Throughout our relationship with Bell, we have witnessed their commitment to provide Bell customers with innovative technology to enhance the safety of their operations and improve their flight experience,” said David Batcheller, President & CBO of Appareo. “Appareo was pleased to partner with Bell on the development of the hardware solution for their new FDM service, and we’re excited that the newly STC’d QuantiFLY is ready to deliver actionable data to Bell customers.”

Appareo’s line of ACUs are lightweight computing and communications devices that function as a data acquisition system for FDM or flight operations quality assurance (FOQA) programs for fleet operators, or as a telematic and connectivity product for airframe manufacturers. Find full product specifications here, or contact Appareo for information about pricing.

https://www.appareo.com/2021/01/28/bell-certifies-appareo-device-for-new-helicopter-flight-data-monitoring-program/

Garmin GI 275 Electronic Flight Instrument Receives EASA Approval

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.

Garmin GI 275 electronic flight instrument in attitude indicator display mode.
Garmin GI 275 electronic flight instrument attitude indicator with autopilot compatibility

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.

Garmin GI 275 electronic flight instrument set up as a Course Deviation Indicator
Garmin GI 275 electronic flight instrument course deviation indicator

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:

  • A multifunction display (MFD) with a moving map can display terrain, obstacles, traffic, weather, airspace information, airways, and more.
  • When interfaced to a GTX 345 or GNX 375, traffic information can be displayed on the dedicated traffic page or moving map. Patented TargetTrend relative motion technology and pop-up traffic alerts further enhance situational awareness.
  • The GI 275 can also be interfaced to a variety of traffic systems, including select Traffic Advisory (TAS) and Traffic Alert and Collision Avoidance Systems (TCAS). Traffic advisories are displayed on the dedicated traffic page and moving map.
  • SafeTaxi airport diagrams display runways, taxiways, Fixed Based Operators (FBO’s), hangars and more relative to the aircraft’s location on the airport surface.
  • Terrain shading incorporates yellow and red contouring depicting the aircraft is 1,000 and 100 feet above ground level (AGL) respectively. Terrain and obstacle information can be viewed on the terrain and map pages.
  • The GI 275 uses its internal terrain and obstacle database to provide audible and visual terrain proximity alerts, including, “terrain ahead, pull up” and “obstacle ahead, pull up.”
  • Engine information system with optional interface module and GEA 110 sensor has the ability to serve as a primary EIS display for piston engine, fuel, electrical and other data. Dual GI 275 flight instrument installations are able to display engine information for twin-engine aircraft.
  • An airport information page displays a variety of data, including frequencies, runway dimensions and more.
  • The GI 275 can be paired with the GRA 55/5500 and other third-party products to display radar altimeter on a dedicated page. Visual and aural annunciations are also available.
Garmin GI 275 indicating multi-function display data.
Garmin GI 275 electronic flight instrument MFD

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.

  1. Requires an optional magnetometer
  2. Features and functions depend on configuration and variant selected, visit a Garmin Authorized Dealer for additional information.
  3. Requires GI 275 ADAHRS variant.

The post Garmin GI 275 Electronic Flight Instrument Receives EASA Approval appeared first on Garmin Blog.

https://www.garmin.com/en-US/blog/aviation/garmin-gi-275-electronic-flight-instrument-receives-easa-approval/

Garmin GFC 600 Digital Autopilot Approved for Select King Air C90 and E90 Aircraft

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.

Mode controller for GFC 600
Garmin GFC 600 autopilot mode controller.

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:

  • Premium functions and advanced capabilities such as altitude pre-select2 and indicated airspeed hold mode
  • Pilots can select, couple and fly various instrument approaches, including GPS, ILS, VOR, LOC and back course approaches3
  • Built-in GPS roll steering capability eliminates the need for external roll steering converters, allowing for smoother navigation tracking when installed with a compatible navigator
  • Level Mode button, which automatically engages the autopilot to restore the aircraft to straight and level flight
  • Underspeed protection helps prevent the pilot from stalling the aircraft
  • Overspeed protection helps prevent the pilot from exceeding aircraft maximum speed (VNE)
  • Yaw Damping (YD) mode minimizes yawing oscillations while also helping to maintain coordinated flight
  • Flight Director command bars can be displayed on flight display such as the G600 and G600 TXi
  • Pilots can fly coupled ‘go-arounds’ during missed approach sequencing. A remotely-installed go-around button commands the Flight Director to display the appropriate pitch attitude required for the missed approach procedure and activates a loaded missed approach when paired with a GTN 650/750 or GTN 650Xi/750Xi navigator
  • Included pitch-trim servo adds automatic trim and improved manual electric trim
  • Control wheel steering is available, which allows the pilot to adjust pitch, roll, altitude hold, vertical speed or airspeed references using the control yoke while the autopilot is engaged

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.

The post Garmin GFC 600 Digital Autopilot Approved for Select King Air C90 and E90 Aircraft appeared first on Garmin Blog.

https://www.garmin.com/en-US/blog/aviation/garmin-gfc-600-digital-autopilot-approved-for-select-king-air-c90-and-e90-aircraft/

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