From Hackaday:

Electric RC aircraft are not known for long flight times, with multirotors usually doing 20-45 minutes, while most fixed wings will struggle to get past two hours. [Matthew Heiskell] blew these numbers out of the water with a 10 hour 45 minute flight with an RC plane on battery power. Condensed video after the break.

2021-06-23-10.png?w=400https://hackaday.com/wp-content/uploads/2021/06/2021-06-23-10.png?resize=250,159 250w, https://hackaday.com/wp-content/uploads/2021/06/2021-06-23-10.png?resize=400,254 400w, https://hackaday.com/wp-content/uploads/2021/06/2021-06-23-10.png?resize=800,508 800w" alt="" width="400" height="254" data-attachment-id="483967" data-permalink="https://hackaday.com/2021/06/27/electric-rc-plane-flies-for-almost-11-hours/2021-06-23-10/" data-orig-file="https://hackaday.com/wp-content/uploads/2021/06/2021-06-23-10.png" data-orig-size="1072,681" data-comments-opened="1" data-image-meta="{"aperture":"0","credit":"","camera":"","caption":"","created_timestamp":"0","copyright":"","focal_length":"0","iso":"0","shutter_speed":"0","title":"","orientation":"0"}" data-image-title="2021-06-23 (10)" data-image-description="" data-medium-file="https://hackaday.com/wp-content/uploads/2021/06/2021-06-23-10.png?w=400" data-large-file="https://hackaday.com/wp-content/uploads/2021/06/2021-06-23-10.png?w=800" /> Flight stats right before touchdown. Flight time in minutes on the left, and miles travelled second from the top on the right.

The secret? An efficient aircraft, a well tuned autopilot and a massive battery. [Matthew] built a custom 4S 50 Ah li-ion battery pack from LG 21700 cells, with a weight of 2.85 kg (6.3 lbs). The airframe is a Phoenix 2400 motor glider, with a 2.4 m wingspan, powered by a 600 Kv brushless motor turning a 12 x 12 propeller. The 30 A ESC’s low voltage cutoff was disabled to ensure every bit of juice from the battery was available.

To improve efficiency and eliminate the need to maintain manual control for the marathon flight, a GPS and Matek 405 Wing flight controller running ArduPilot was added. ArduPilot is far from plug and play, so [Matthew] would have had to spend a lot of timing tuning and testing parameters for maximum flight efficiency. We are really curious to see if it’s possible to push the flight time even further by improving aerodynamics around the protruding battery, adding a pitot tube sensor to hold the perfect airspeed speed on the lift-drag curve, and possibly making use of thermals with ArduPilot’s new soaring feature.

A few of you are probably thinking, “Solar panels!”, and so did Matthew. He has another set of wings covered in them that he used to do a seven-hour flight. While it should theoretically increase flight time, he found that there were a number of significant disadvantages. Besides the added weight, electrical complexity and weather dependence, the solar cells are difficult to integrate into the wings without reducing aerodynamic efficiency. Taking into account what we’ve already seen of [rcflightest]’s various experiments/struggles with solar planes, we are starting to wonder if it’s really worth the trouble.

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Comments

  • Definitely 1 of the appeals of gliders, besides the extra challenge of managing energy. Ground vehicles can go longer though.
  • Wow, excellent ! Is Phoenix 2400 capable of taking 2.7kg battery ? Did you do some mod in the wings ?
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