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NASA to Begin High-Voltage Testing on X-57 Maxwell All-Electric Aircraft

NASA X 57 Maxwell Aircraft

This artist’s concept of NASA’s X-57 Maxwell aircraft shows the plane’s specially designed wing and 14 electric motors. NASA Aeronautics researchers will use the Maxwell to demonstrate that electric propulsion can make planes quieter, more efficient and more environmentally friendly. Credit: NASA Langley/Advanced Concepts Lab, AMA, Inc.

NASA is set to start high-voltage functional ground testing of the agency’s first all-electric X-plane, the X-57 Maxwell, which will perform flights to help develop certification standards for emerging electric aircraft. NASA is also supporting these new electric aircraft by developing quiet, efficient, reliable technology these vehicles will need in routine use.

The testing will take place at NASA’s Armstrong Flight Research Center in Edwards, California, marking a pivotal milestone for the project as NASA proceeds from the component design and prototype phase to operation of the vehicle as an integrated aircraft, taking a critical step closer toward taxi tests and first flight.

The X-57, currently in its first configuration as an electric aircraft, called Mod 2, will use a battery support system for this phase of testing, drawing power from a large, high-voltage power supply as development on the X-plane’s battery control system nears completion.

NASA X-57 Plane Vibration Testing

NASA’s all-electric X-57 Maxwell prepares for ground vibration testing, or GVT, at NASA’s Armstrong Flight Research Center in California. Done in parallel with cruise motor controller testing, the GVT tested the vehicle at various vibration levels, helping engineers to examine and validate the integrity of the vehicle for flight conditions. A goal of X-57 is to help the Federal Aviation Administration set certification standards for emerging electric aircraft markets. Credit: NASA Photo / Lauren Hughes

Testing is expected to start with low power, checking the startup and shutdown sequences and verifying that the new motor control software boots up and controls the motors as expected. This software and other major components were recently redesigned based on lessons learned from previous testing by the project’s prime contractor, Empirical Systems Aerospace, or ESAero, of San Luis Obispo, California.

These tests will include higher-power operation of the vehicle. The first pair of electric cruise motors to fly on the X-57, which were delivered by ESAero, will be powered up and activated, allowing engineers to ensure that the vehicle’s propellers spin as designed.

This will be followed by throttling up the motors to make sure they provide all the power intended, validating the vehicle’s instrumentation system, and verifying whether all the sensors installed across the aircraft are functional.

NASA X-57 Maxwell Electric Plane

This artist’s concept image shows NASA’s first all-electric X-plane, the X-57 Maxwell, in its final configuration, flying in cruise mode over NASA’s Armstrong Flight Research Center in Edwards, California. In Mod IV test flights, X-57’s high-lift motors will deactivate during cruise mode, and their propeller blades will fold in to the nacelles to reduce drag. The motors will reactivate and use centrifugal force to spin the blades back out to provide necessary lift for landing. Credit: NASA Langley/Advanced Concepts Lab, AMA, Inc

This high-voltage testing will feed directly into final verification and validation testing, a critical final step before taxi tests begin.

“Many of the team members operating this test will be the same ones who will be sitting in the control room for flight, and that’s why I’m excited,” said Sean Clarke, NASA’s X-57 principal investigator. “We’ve turned a corner from system design and lab tests, to turning it over to the NASA flight systems and operations engineers to actually operate the vehicle. What they’re learning in this test, they’ll take with them into the control room for first flight.”




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