Joby Aviation selects G3000 integrated flight deck
February 10, 2021 By Naomi Szeben
Garmin® International, Inc., announced a long-term agreement to provide Garmin G3000® integrated flight deck to Joby Aviation for their all-electric vertical takeoff and landing (eVTOL) aircraft, which is expected to commence commercial operations in 2024.
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.
“Garmin has a remarkable track record of developing innovative and reliable products,” said Joby Aviation founder and CEO JoeBen Bevirt in a statement. “They are market leaders in this space and we’re proud to have their advanced technology onboard.”
The modular Garmin 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.